void phimetphimu2b3()
{
//=========Macro generated from canvas: b3/phimetphimu2b3/b3/phimetphimu2b3
//=========  (Tue Nov 24 14:24:06 2015) by ROOT version6.02/05
   TCanvas *b3/phimetphimu2b3 = new TCanvas("b3/phimetphimu2b3", "b3/phimetphimu2b3",380,402,700,700);
   b3/phimetphimu2b3->Range(0,0,1,1);
   b3/phimetphimu2b3->SetFillColor(0);
   b3/phimetphimu2b3->SetBorderMode(0);
   b3/phimetphimu2b3->SetBorderSize(2);
   b3/phimetphimu2b3->SetLogy();
   b3/phimetphimu2b3->SetFrameBorderMode(0);
   b3/phimetphimu2b3->SetFrameBorderMode(0);
   
   THStack *b3/phimetphimu2b3 = new THStack();
   b3/phimetphimu2b3->SetName("b3/phimetphimu2b3");
   b3/phimetphimu2b3->SetTitle("b3/phimetphimu2b3");
   
   TH1F *b3/phimetphimu2b3_stack_20 = new TH1F("b3/phimetphimu2b3_stack_20","b3/phimetphimu2b3",20,-3.141593,3.141593);
   b3/phimetphimu2b3_stack_20->SetMinimum(-0);
   b3/phimetphimu2b3_stack_20->SetMaximum(-nan);
   b3/phimetphimu2b3_stack_20->SetDirectory(0);
   b3/phimetphimu2b3_stack_20->SetStats(0);

   Int_t ci;      // for color index setting
   TColor *color; // for color definition with alpha
   ci = TColor::GetColor("#000099");
   b3/phimetphimu2b3_stack_20->SetLineColor(ci);
   b3/phimetphimu2b3_stack_20->GetXaxis()->SetTitle("b3/phimetphimu2b3");
   b3/phimetphimu2b3_stack_20->GetXaxis()->SetLabelFont(42);
   b3/phimetphimu2b3_stack_20->GetXaxis()->SetLabelSize(0.035);
   b3/phimetphimu2b3_stack_20->GetXaxis()->SetTitleSize(0.035);
   b3/phimetphimu2b3_stack_20->GetXaxis()->SetTitleFont(42);
   b3/phimetphimu2b3_stack_20->GetYaxis()->SetTitle("Events/pb");
   b3/phimetphimu2b3_stack_20->GetYaxis()->SetLabelFont(42);
   b3/phimetphimu2b3_stack_20->GetYaxis()->SetLabelSize(0.035);
   b3/phimetphimu2b3_stack_20->GetYaxis()->SetTitleSize(0.035);
   b3/phimetphimu2b3_stack_20->GetYaxis()->SetTitleFont(42);
   b3/phimetphimu2b3_stack_20->GetZaxis()->SetLabelFont(42);
   b3/phimetphimu2b3_stack_20->GetZaxis()->SetLabelSize(0.035);
   b3/phimetphimu2b3_stack_20->GetZaxis()->SetTitleSize(0.035);
   b3/phimetphimu2b3_stack_20->GetZaxis()->SetTitleFont(42);
   b3/phimetphimu2b3->SetHistogram(b3/phimetphimu2b3_stack_20);
   
   
   TH1D *phimetphimu2b396 = new TH1D("phimetphimu2b396"," #Delta_{#phi}[#mu2,MET]",20,-3.141593,3.141593);

   ci = TColor::GetColor("#00cc00");
   phimetphimu2b396->SetFillColor(ci);

   ci = TColor::GetColor("#00cc00");
   phimetphimu2b396->SetLineColor(ci);

   ci = TColor::GetColor("#00cc00");
   phimetphimu2b396->SetMarkerColor(ci);
   phimetphimu2b396->SetMarkerStyle(22);
   phimetphimu2b396->GetXaxis()->SetTitle("phimetphimu2b3");
   phimetphimu2b396->GetXaxis()->SetLabelFont(42);
   phimetphimu2b396->GetXaxis()->SetLabelSize(0.035);
   phimetphimu2b396->GetXaxis()->SetTitleSize(0.035);
   phimetphimu2b396->GetXaxis()->SetTitleFont(42);
   phimetphimu2b396->GetYaxis()->SetTitle("Events/pb");
   phimetphimu2b396->GetYaxis()->SetLabelFont(42);
   phimetphimu2b396->GetYaxis()->SetLabelSize(0.035);
   phimetphimu2b396->GetYaxis()->SetTitleSize(0.035);
   phimetphimu2b396->GetYaxis()->SetTitleFont(42);
   phimetphimu2b396->GetZaxis()->SetLabelFont(42);
   phimetphimu2b396->GetZaxis()->SetLabelSize(0.035);
   phimetphimu2b396->GetZaxis()->SetTitleSize(0.035);
   phimetphimu2b396->GetZaxis()->SetTitleFont(42);
   b3/phimetphimu2b3->Add(phimetphimu2b3,"");
   
   TH1D *phimetphimu2b397 = new TH1D("phimetphimu2b397"," #Delta_{#phi}[#mu2,MET]",20,-3.141593,3.141593);

   ci = TColor::GetColor("#00ffff");
   phimetphimu2b397->SetFillColor(ci);

   ci = TColor::GetColor("#00ffff");
   phimetphimu2b397->SetLineColor(ci);

   ci = TColor::GetColor("#00ffff");
   phimetphimu2b397->SetMarkerColor(ci);
   phimetphimu2b397->SetMarkerStyle(20);
   phimetphimu2b397->GetXaxis()->SetTitle("phimetphimu2b3");
   phimetphimu2b397->GetXaxis()->SetLabelFont(42);
   phimetphimu2b397->GetXaxis()->SetLabelSize(0.035);
   phimetphimu2b397->GetXaxis()->SetTitleSize(0.035);
   phimetphimu2b397->GetXaxis()->SetTitleFont(42);
   phimetphimu2b397->GetYaxis()->SetTitle("Events/pb");
   phimetphimu2b397->GetYaxis()->SetLabelFont(42);
   phimetphimu2b397->GetYaxis()->SetLabelSize(0.035);
   phimetphimu2b397->GetYaxis()->SetTitleSize(0.035);
   phimetphimu2b397->GetYaxis()->SetTitleFont(42);
   phimetphimu2b397->GetZaxis()->SetLabelFont(42);
   phimetphimu2b397->GetZaxis()->SetLabelSize(0.035);
   phimetphimu2b397->GetZaxis()->SetTitleSize(0.035);
   phimetphimu2b397->GetZaxis()->SetTitleFont(42);
   b3/phimetphimu2b3->Add(phimetphimu2b3,"");
   
   TH1D *phimetphimu2b398 = new TH1D("phimetphimu2b398"," #Delta_{#phi}[#mu2,MET]",20,-3.141593,3.141593);

   ci = TColor::GetColor("#ffcc00");
   phimetphimu2b398->SetFillColor(ci);

   ci = TColor::GetColor("#ffcc00");
   phimetphimu2b398->SetLineColor(ci);

   ci = TColor::GetColor("#ffcc00");
   phimetphimu2b398->SetMarkerColor(ci);
   phimetphimu2b398->SetMarkerStyle(21);
   phimetphimu2b398->GetXaxis()->SetTitle("phimetphimu2b3");
   phimetphimu2b398->GetXaxis()->SetLabelFont(42);
   phimetphimu2b398->GetXaxis()->SetLabelSize(0.035);
   phimetphimu2b398->GetXaxis()->SetTitleSize(0.035);
   phimetphimu2b398->GetXaxis()->SetTitleFont(42);
   phimetphimu2b398->GetYaxis()->SetTitle("Events/pb");
   phimetphimu2b398->GetYaxis()->SetLabelFont(42);
   phimetphimu2b398->GetYaxis()->SetLabelSize(0.035);
   phimetphimu2b398->GetYaxis()->SetTitleSize(0.035);
   phimetphimu2b398->GetYaxis()->SetTitleFont(42);
   phimetphimu2b398->GetZaxis()->SetLabelFont(42);
   phimetphimu2b398->GetZaxis()->SetLabelSize(0.035);
   phimetphimu2b398->GetZaxis()->SetTitleSize(0.035);
   phimetphimu2b398->GetZaxis()->SetTitleFont(42);
   b3/phimetphimu2b3->Add(phimetphimu2b3,"");
   
   TH1D *phimetphimu2b399 = new TH1D("phimetphimu2b399"," #Delta_{#phi}[#mu2,MET]",20,-3.141593,3.141593);

   ci = TColor::GetColor("#ff0000");
   phimetphimu2b399->SetFillColor(ci);

   ci = TColor::GetColor("#ff0000");
   phimetphimu2b399->SetLineColor(ci);

   ci = TColor::GetColor("#ff0000");
   phimetphimu2b399->SetMarkerColor(ci);
   phimetphimu2b399->SetMarkerStyle(20);
   phimetphimu2b399->GetXaxis()->SetTitle("phimetphimu2b3");
   phimetphimu2b399->GetXaxis()->SetLabelFont(42);
   phimetphimu2b399->GetXaxis()->SetLabelSize(0.035);
   phimetphimu2b399->GetXaxis()->SetTitleSize(0.035);
   phimetphimu2b399->GetXaxis()->SetTitleFont(42);
   phimetphimu2b399->GetYaxis()->SetTitle("Events/pb");
   phimetphimu2b399->GetYaxis()->SetLabelFont(42);
   phimetphimu2b399->GetYaxis()->SetLabelSize(0.035);
   phimetphimu2b399->GetYaxis()->SetTitleSize(0.035);
   phimetphimu2b399->GetYaxis()->SetTitleFont(42);
   phimetphimu2b399->GetZaxis()->SetLabelFont(42);
   phimetphimu2b399->GetZaxis()->SetLabelSize(0.035);
   phimetphimu2b399->GetZaxis()->SetTitleSize(0.035);
   phimetphimu2b399->GetZaxis()->SetTitleFont(42);
   b3/phimetphimu2b3->Add(phimetphimu2b3,"");
   
   TH1D *phimetphimu2b3100 = new TH1D("phimetphimu2b3100"," #Delta_{#phi}[#mu2,MET]",20,-3.141593,3.141593);

   ci = TColor::GetColor("#0000ff");
   phimetphimu2b3100->SetFillColor(ci);

   ci = TColor::GetColor("#0000ff");
   phimetphimu2b3100->SetLineColor(ci);

   ci = TColor::GetColor("#0000ff");
   phimetphimu2b3100->SetMarkerColor(ci);
   phimetphimu2b3100->SetMarkerStyle(21);
   phimetphimu2b3100->GetXaxis()->SetTitle("phimetphimu2b3");
   phimetphimu2b3100->GetXaxis()->SetLabelFont(42);
   phimetphimu2b3100->GetXaxis()->SetLabelSize(0.035);
   phimetphimu2b3100->GetXaxis()->SetTitleSize(0.035);
   phimetphimu2b3100->GetXaxis()->SetTitleFont(42);
   phimetphimu2b3100->GetYaxis()->SetTitle("Events/pb");
   phimetphimu2b3100->GetYaxis()->SetLabelFont(42);
   phimetphimu2b3100->GetYaxis()->SetLabelSize(0.035);
   phimetphimu2b3100->GetYaxis()->SetTitleSize(0.035);
   phimetphimu2b3100->GetYaxis()->SetTitleFont(42);
   phimetphimu2b3100->GetZaxis()->SetLabelFont(42);
   phimetphimu2b3100->GetZaxis()->SetLabelSize(0.035);
   phimetphimu2b3100->GetZaxis()->SetTitleSize(0.035);
   phimetphimu2b3100->GetZaxis()->SetTitleFont(42);
   b3/phimetphimu2b3->Add(phimetphimu2b3,"");
   b3/phimetphimu2b3->Draw("nostack");
   
   TLegend *leg = new TLegend(0.54023,0.639881,0.938218,0.924107,NULL,"brNDC");
   leg->SetBorderSize(1);
   leg->SetTextSize(0.034965);
   leg->SetLineColor(1);
   leg->SetLineStyle(1);
   leg->SetLineWidth(1);
   leg->SetFillColor(0);
   leg->SetFillStyle(1001);
   TLegendEntry *entry=leg->AddEntry("phimetphimu2b3","b3/phimetphimu2b3_QCD_b3/","lp");

   ci = TColor::GetColor("#00cc00");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);

   ci = TColor::GetColor("#00cc00");
   entry->SetMarkerColor(ci);
   entry->SetMarkerStyle(22);
   entry->SetMarkerSize(1);
   entry->SetTextFont(42);
   entry=leg->AddEntry("phimetphimu2b3","b3/phimetphimu2b3_WJetsToLNu_b3/","lp");

   ci = TColor::GetColor("#00ffff");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);

   ci = TColor::GetColor("#00ffff");
   entry->SetMarkerColor(ci);
   entry->SetMarkerStyle(20);
   entry->SetMarkerSize(1);
   entry->SetTextFont(42);
   entry=leg->AddEntry("phimetphimu2b3","b3/phimetphimu2b3_ZJetsToNuNu_b3/","lp");

   ci = TColor::GetColor("#ffcc00");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);

   ci = TColor::GetColor("#ffcc00");
   entry->SetMarkerColor(ci);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(42);
   entry=leg->AddEntry("phimetphimu2b3","b3/phimetphimu2b3_signal_b3/","lp");

   ci = TColor::GetColor("#ff0000");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);

   ci = TColor::GetColor("#ff0000");
   entry->SetMarkerColor(ci);
   entry->SetMarkerStyle(20);
   entry->SetMarkerSize(1);
   entry->SetTextFont(42);
   entry=leg->AddEntry("phimetphimu2b3","b3/phimetphimu2b3_ttbar_b3/","lp");

   ci = TColor::GetColor("#0000ff");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);

   ci = TColor::GetColor("#0000ff");
   entry->SetMarkerColor(ci);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(42);
   leg->Draw();
   b3/phimetphimu2b3->Modified();
   b3/phimetphimu2b3->cd();
   b3/phimetphimu2b3->SetSelected(b3/phimetphimu2b3);
}
void metDistribution(const Int_t signalRegion_flag = 1) {

  // if signalRegion_flag == 1 (default), will do met distribution in the monojet signal region, else it will do the control region

  gROOT->SetStyle("Plain");  // to have white legend (on my pc it's already white, but in tier2 it appears grey)
  gStyle->SetFillColor(10);

  string plotDirectoryPath = "/cmshome/ciprianim/CMSSW721/pdfsFromAnalysis/plots/monojet/met_distribution/";
  //string plotDirectoryPath = "./";
  string plotFileExtension = ".pdf";
  string suffix = "_mumu";

  TH1D* hmet = NULL;
  vector<TH1D*> hMCmetNoLep;

  vector<string> sampleName;
  vector<string> MC_TexLabel;
  setSampleName(signalRegion_flag, sampleName, MC_TexLabel);

  Int_t nFiles = (Int_t)sampleName.size();

  vector<Int_t> histColor;
   setHistColor(histColor, nFiles);

   string filenameBase;
   string canvasName;
   if (signalRegion_flag == 1) {
     filenameBase = "monojet_SR_spring15_25ns_";
     canvasName = "metDistribution_monojetSR";
   } else {
     filenameBase = "zmumujets_CS_spring15_25ns_";
     canvasName = "metDistribution_zjetsCS" + suffix;
   }
 
  string filenameExtension = ".root";

  vector<string> MCfileName;
  for (Int_t i = 0; i < nFiles; i++){
    MCfileName.push_back(filenameBase + sampleName[i] + filenameExtension);
  }

  for(Int_t i = 0; i < nFiles; i++) {

    cout<<"fileName : "<<MCfileName[i]<<endl;

    TFile* f = TFile::Open(MCfileName[i].c_str(),"READ");
    if (!f || !f->IsOpen()) {
      cout<<"*******************************"<<endl;
      cout<<"Error opening file \""<<MCfileName[i]<<"\".\nApplication will be terminated."<<endl;
      cout<<"*******************************"<<endl;
      exit(EXIT_FAILURE);
    }

    //cout << "check 1 " << endl;    

    hmet = (TH1D*)f->Get("HYieldsMetBin");
    if (!hmet) {
      cout << "Error: histogram not found in file ' " << MCfileName[i] << "'. End of programme." << endl;
      exit(EXIT_FAILURE);
    }
    hMCmetNoLep.push_back( (TH1D*)hmet->Clone() );

  } 

  THStack* hstack_metNoLep = new THStack("hstack_metNoLep","");

  for (Int_t j = 0; j < nFiles; j++) {

    for (Int_t i = 1; i <= hMCmetNoLep[j]->GetNbinsX(); i++) {

      hMCmetNoLep[j]->SetBinError(i,sqrt(hMCmetNoLep[j]->GetBinContent(i)));

    }

    hMCmetNoLep[j]->SetFillColor(histColor[j]);
    hstack_metNoLep->Add(hMCmetNoLep[j]);

  }

  // now here we go with the canvas
  // TH1D * ratioplot = NULL; // will use it for the ratio plots

  // TPad *subpad_1 = NULL;  // will use it to access specific subpad in canvas
  // TPad *subpad_2 = NULL; 
  TCanvas *c = new TCanvas(canvasName.c_str(),"met distribution");
  c->SetLogy();

  TLegend *leg = new TLegend(0.6,0.55,0.89,0.89);
  
  // subpad_1 = new TPad("pad_1","",0.0,0.28,1.0,1.0);
  // //subpad_1->SetBottomMargin(0);
  // subpad_2 = new TPad("pad_2","",0.0,0.0,1.0,0.32);
  // subpad_2->SetGridy();
  // //subpad_2->SetTopMargin(0);
  // subpad_2->SetBottomMargin(0.3);
  // subpad_1->Draw();
  // subpad_2->Draw();

  //subpad_1->cd();
  hstack_metNoLep->Draw("HIST");
  //hstack_metNoLep->SetMinimum(0.3);
  //hstack_metNoLep->SetMaximum(4000.0);
  TH1D* stackCopy = (TH1D*)(((TH1D*)hstack_metNoLep->GetStack()->Last())->DrawCopy("E2 SAME"));
  stackCopy->SetFillColor(kBlack);
  stackCopy->SetFillStyle(3017);
  hstack_metNoLep->GetXaxis()->SetTitle("#slash{E}_{T} [GeV]");
  hstack_metNoLep->GetXaxis()->SetTitleSize(0.06);
  hstack_metNoLep->GetXaxis()->SetTitleOffset(0.6);
  hstack_metNoLep->GetYaxis()->SetTitle("events");
  hstack_metNoLep->GetYaxis()->SetTitleSize(0.06);
  hstack_metNoLep->GetYaxis()->SetTitleOffset(0.8);
  hstack_metNoLep->GetYaxis()->CenterTitle();
  for (Int_t j = (nFiles-1); j >= 0; j--) {
    leg->AddEntry(hMCmetNoLep[j],Form("%s",MC_TexLabel[j].c_str()),"lf");
  }
  gStyle->SetStatStyle(0);
  leg->Draw(); 
  leg->SetMargin(0.3); 
  leg->SetBorderSize(0);

  // subpad_2->cd();
  // ratioplot = new TH1D(*hratio);
  // ratioplot->Divide(hBRratioOverAxe);
  // ratioplot->SetStats(0);
  // ratioplot->GetXaxis()->SetLabelSize(0.10);
  // ratioplot->GetXaxis()->SetTitle("#slash{E}_{T} [GeV]");
  // ratioplot->GetXaxis()->SetTitleSize(0.15);
  // ratioplot->GetXaxis()->SetTitleOffset(0.8);
  // ratioplot->GetYaxis()->SetLabelSize(0.10);
  // ratioplot->GetYaxis()->SetTitle("ratio");
  // ratioplot->GetYaxis()->SetTitleSize(0.15);
  // ratioplot->GetYaxis()->SetTitleOffset(0.3);
  // ratioplot->GetYaxis()->CenterTitle();
  // ratioplot->GetYaxis()->SetRangeUser(0.5,1.5);
  // ratioplot->GetYaxis()->SetNdivisions(011);
  // ratioplot->DrawCopy("HE");
  // ratioplot->SetMarkerStyle(8);  //medium dot
  c->SaveAs( (plotDirectoryPath + c->GetName() + plotFileExtension).c_str() );

}
void macro_MakeFRClosureTest()
{
  // parameters //////////////////////////////////////////////////////////////
  // luminosity of data
  const float lumi = 10445;

  string inputFilePrefix = "invMassHistos";  // lumi and .root will be added
  //string inputFilePrefix = "test";

  // plot data?
  const bool plotData = true;
  //const bool plotData = false;

  // which closure tests should be plotted?
  bool plotClosureTest[4];
  plotClosureTest[0] = true;  // no corrections
  plotClosureTest[1] = true;  // GSF electrons not passing HEEP
  plotClosureTest[2] = true;  // all above + HEEP-GSF corrected with DY contribuion
  plotClosureTest[3] = true;  // all above + GSF-GSF corrected with W+jet and gamma+jet contribution

  // which histograms should be plotted?
  bool plotHisto[4];
  plotHisto[0] = true;  // EB-EB + EB-EE
  plotHisto[1] = true;  // EB-EB
  plotHisto[2] = true;  // EB-EE
  plotHisto[3] = true;  // EE-EE

  int font = 42;
  ////////////////////////////////////////////////////////////////////////////

  const double yAxisMin = 0.001;
//  const int rebin = 10;
  float massMin = 50;
  float massMax = 2050;
  int nBins = 2000;
  vector<pair<float, float> > binning;
  // VARIABLE BINNING
//  binning.push_back(make_pair(100, 1));
//  binning.push_back(make_pair(500, 10));
//  binning.push_back(make_pair(massMax, 50));
  // CONSTANT BINNING
  binning.push_back(make_pair(massMax, 10));

  vector<float> bins;
  bins.push_back(massMin);
  for (vector<pair<float,float> >::iterator it = binning.begin(); it < binning.end(); ++it) {
    while (bins.back() < it->first)
      bins.push_back(bins.back() + it->second);
  }
  if (bins.back() < massMax)
    bins.push_back(massMax);
  nBins = bins.size() - 1;
  Double_t binArray[nBins + 1];
  for (int i = 0; i <= nBins; ++i)
    binArray[i] = (Double_t)bins.at(i);

  stringstream sStream;
  sStream << "Photon_Run2012A-13Jul2012_06Aug2012+DoublePhotonHighPt_Run2012B-13Jul2012+DoublePhotonHighPt_Run2012C-PromptReco-v1+v2_Cert_190456-202016_8TeV_PromptReco_gct1_35_" << lumi << "pb-1";
  //sStream << lumi << "pb-1";
  TString folderDataHisto = sStream.str().c_str();
  // select histograms dynamically depending on state of correction //////////
  vector<TString> folderHeepGsfHisto;
  folderHeepGsfHisto.push_back(sStream.str().c_str());
  folderHeepGsfHisto.push_back(sStream.str().c_str());
  folderHeepGsfHisto.push_back("combinations");
  folderHeepGsfHisto.push_back("combinations");

  vector<TString> folderGsfGsfHisto;
  folderGsfGsfHisto.push_back(sStream.str().c_str());
  folderGsfGsfHisto.push_back(sStream.str().c_str());
  folderGsfGsfHisto.push_back(sStream.str().c_str());
  folderGsfGsfHisto.push_back("combinations");

  vector<TString> heepGsfHisto;
  heepGsfHisto.push_back("histoHeepGsfMassFR");
  heepGsfHisto.push_back("histoHeepGsfMassNoHeepFR");
  heepGsfHisto.push_back("histoHeepGsfCorr");
  heepGsfHisto.push_back("histoHeepGsfCorr");

  vector<TString> gsfGsfHisto;
  gsfGsfHisto.push_back("histoGsfGsfMassFR");
  gsfGsfHisto.push_back("histoGsfGsfMassNoHeepFR");
  gsfGsfHisto.push_back("histoGsfGsfMassNoHeepFR");
  gsfGsfHisto.push_back("histoGsfGsfCorr");
  ////////////////////////////////////////////////////////////////////////////

  vector<TString> canvasName;
  canvasName.push_back("closureFR");
  canvasName.push_back("closureFRNoHeep");
  canvasName.push_back("closureFRCorrDY");
  canvasName.push_back("closureFRCorrFull");

  vector<TString> canvasTitle;
  canvasTitle.push_back("Fake rate closure test uncorrected");
  canvasTitle.push_back("Fake rate closure test GSF (non HEEP)");
  canvasTitle.push_back("Fake rate closure test DY corrected");
  canvasTitle.push_back("Fake rate closure test fully corrected");

  vector<TString> legendHeepGsf;
  legendHeepGsf.push_back("HEEP-GSF uncorrected");
  legendHeepGsf.push_back("HEEP-GSF(non HEEP)");
  legendHeepGsf.push_back("HEEP-GSF DY corrected");
  legendHeepGsf.push_back("HEEP-GSF DY corrected");

  vector<TString> legendGsfGsf;
  legendGsfGsf.push_back("GSF-GSF uncorrected");
  legendGsfGsf.push_back("GSF-GSF (non HEEP)");
  legendGsfGsf.push_back("GSF-GSF (non HEEP)");
  legendGsfGsf.push_back("GSF-GSF W+jet + \\gamma+jet corrected");

  vector<TString> acroSuffix;
  acroSuffix.push_back("");
  acroSuffix.push_back("BB");
  acroSuffix.push_back("BE");
  acroSuffix.push_back("EE");

  vector<TString> suffix;
  suffix.push_back("");
  suffix.push_back(" EB-EB");
  suffix.push_back(" EB-EE");
  suffix.push_back(" EE-EE");

  sStream.str("");
  sStream << inputFilePrefix << lumi << "pb-1.root";
  TFile input(sStream.str().c_str(), "read");
  input.cd();

  cout << endl << "Input file: " << sStream.str() << endl;

  // to keep the histogram when the file is closed
  TH1::AddDirectory(kFALSE);
  TH1::SetDefaultSumw2(kTRUE);
 
  for (unsigned int j = 0; j < 4; ++j) {
    if (!plotClosureTest[j]) continue;
    for (unsigned int p = 0; p < 4; ++p) {
      if (!plotHisto[p]) continue;
  
      TCanvas *c0 = new TCanvas(canvasName[j] + acroSuffix[p], canvasTitle[j] + suffix[p], 100, 100, 800, 600);
      c0->cd();
      c0->SetBorderMode(0);
      c0->SetFrameBorderMode(0);
      c0->SetFillColor(0);
      c0->SetFrameFillColor(0);
      c0->SetLogy();
      gStyle->SetTitleFont(font);
      gStyle->SetLabelFont(font);
      gStyle->SetOptStat(0);
      gStyle->SetPadTickX(1);
      gStyle->SetPadTickY(1);
  
      // get the histograms 
      input.cd(folderGsfGsfHisto[j]);
      TH1F *histoGsfGsf = (TH1F *)gDirectory->Get(gsfGsfHisto[j] + acroSuffix[p]);
      input.cd(folderHeepGsfHisto[j]);
      TH1F *histoHeepGsf = (TH1F *)gDirectory->Get(heepGsfHisto[j] + acroSuffix[p]);
      input.cd(folderDataHisto);
      TH1F *histoData = (TH1F *)gDirectory->Get("histoHeepHeepMass" + acroSuffix[p]);

      TH1F *histoGsfGsfRebinned = (TH1F *)histoGsfGsf->Rebin(nBins, gsfGsfHisto[j] + "Rebinned" + acroSuffix[p], binArray);
      TH1F *histoHeepGsfRebinned = (TH1F *)histoHeepGsf->Rebin(nBins, heepGsfHisto[j] + "Rebinned" + acroSuffix[p], binArray);
      TH1F *histoDataRebinned = (TH1F *)histoData->Rebin(nBins, "histoHeepHeepMassRebinned" + acroSuffix[p], binArray);
  
      histoGsfGsfRebinned->SetLineColor(4);
      histoGsfGsfRebinned->SetMarkerColor(4);
      histoGsfGsfRebinned->SetMarkerStyle(20);
      histoGsfGsfRebinned->SetTitleFont(font);
      histoHeepGsfRebinned->SetLineColor(2);
      histoHeepGsfRebinned->SetMarkerColor(2);
      histoHeepGsfRebinned->SetMarkerStyle(21);
      histoHeepGsfRebinned->SetTitleFont(font);
      histoHeepGsfRebinned->GetYaxis()->SetTitleFont(font);
      histoHeepGsfRebinned->GetYaxis()->SetLabelFont(font);
      histoHeepGsfRebinned->GetXaxis()->SetLabelFont(font);
      histoDataRebinned->SetLineColor(1);
      histoDataRebinned->SetMarkerColor(1);
      histoDataRebinned->SetMarkerStyle(20);
      histoDataRebinned->SetTitleFont(font);
      histoDataRebinned->GetYaxis()->SetTitleFont(font);
      histoDataRebinned->GetYaxis()->SetLabelFont(font);
      histoDataRebinned->GetXaxis()->SetLabelFont(font);
 
      sStream.str("");
      if (binning.size() > 1)
        sStream << "# of events / bin";
      else
        sStream << "# of events / " << binning.begin()->second << "GeV";

      if (plotData) { 
        histoDataRebinned->SetMinimum(yAxisMin);
        histoDataRebinned->SetTitle(canvasTitle[j] + suffix[p]);
        histoDataRebinned->GetYaxis()->SetTitle(sStream.str().c_str());

        histoDataRebinned->Draw();
        histoHeepGsfRebinned->Draw("sames");
      } else {
        histoHeepGsfRebinned->SetTitle(canvasTitle[j] + suffix[p]);
        histoHeepGsfRebinned->GetYaxis()->SetTitle(sStream.str().c_str());
        histoHeepGsfRebinned->Draw();
      }
      histoGsfGsfRebinned->Draw("sames");
  
      sStream.str("");
      sStream << "#sqrt{s} = 8TeV,  #int L dt = " << lumi << "pb^{-1}";
      TPaveLabel *label0 = new TPaveLabel(0.6, 0.79, 0.9, 0.89, sStream.str().c_str(), "brNDC");
      label0->SetFillColor(0);
      label0->SetFillStyle(0);
      label0->SetBorderSize(0);
      label0->SetTextSize(0.30);
      label0->SetTextFont(font);
      label0->Draw("sames");
      TPaveLabel *label1 = new TPaveLabel(0.7, 0.89, 0.91, 0.98, "CMS preliminary", "brNDC");
      label1->SetFillColor(0);
      label1->SetFillStyle(0);
      label1->SetBorderSize(0);
      label1->SetTextSize(0.40);
      label1->SetTextFont(font);
      label1->Draw("sames");
  
      TLegend *legend = new TLegend(0.38, 0.6, 0.53, 0.9);
      if (!plotData) legend->SetY2(0.8);
      legend->SetTextSize(0.03);
      legend->SetTextFont(font);
      legend->SetBorderSize(0);
      legend->SetFillStyle(0);
      if (plotData) legend->AddEntry(histoDataRebinned, "Data", "lep");
      legend->AddEntry(histoHeepGsfRebinned, legendHeepGsf[j], "lep");
      legend->AddEntry(histoGsfGsfRebinned, legendGsfGsf[j], "lep");
      legend->Draw("sames"); 
    } // end loop over eta ranges
  } // end loop over corrections
  input.Close();
}
int postprocessingSysError(){

  cout<<endl<<endl<<endl<<"%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% Postproccess all systematic uncertainties! %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%"<<endl<<endl;
  gErrorIgnoreLevel = 1001;

  const TString method  = "RMS99";
  const TString type    = "PFCHS";

  const int nEta =4;
  double eta_bins[5] = {0., 0.5, 1.1, 1.7, 2.3};
  // For looking at different systematic uncertainties independently
  const bool QCD    = true;
  const bool JEC    = true;
  const bool flavor = true;
  const bool PU     = true;
  const bool MC     = true;
  

  TString etaString, filename;   

  TString rootFiles, AuxString;  
  TString JetType = "PFCHS";
  TString Method  = "RMS99";   

  double *ratioEtaBinnedX  = new double[nEta];
  double *ratioEtaBinnedY  = new double[nEta];
  double *ratioEtaBinnedEX = new double[nEta];
  double *ratioEtaBinnedEY = new double[nEta];

  double *ratioEtaBinnedQCDUpY   = new double[nEta];
  double *ratioEtaBinnedQCDDownY = new double[nEta];

  TF1 *QCDuncertainty;

  if(QCD){
    rootFiles   = (TString) "scripts/plotsQCD/FinalErrorsQCD_" + type + (TString) "_" + method + (TString) ".root";
    TFile *_file = TFile::Open(rootFiles);    
    _file->GetObject("function",QCDuncertainty);
  }
  
  for(int eta = 0; eta < nEta; eta++){
    
    //cout<< endl<<endl<<endl<<eta+1<<". eta Bin!!"<<endl;

    // Read the MC and data results 
    rootFiles = (TString) "root_files_FINAL_data/Resolution_for_" + (long) (eta+1) + (TString) "_eta_bin_" + JetType + (TString) "_data_" + Method + (TString) ".root";
    TGraphErrors* JERData = readTGraphErrors(rootFiles,"Graph;1","Graph");
    rootFiles = (TString) "root_files_FINAL_mc/Resolution_for_" + (long) (eta+1) + (TString) "_eta_bin_" + JetType + (TString) "_mc_" + Method + (TString) ".root";
    TGraphErrors* JERMC = readTGraphErrors(rootFiles,"Graph","Graph");
    
    if(eta+1 == 1) etaString = Form("JER for |#eta| < %4.1f",etaBins[eta+1]);
    else           etaString = Form("JER for %4.1f <|#eta|< %4.1f",etaBins[eta+1],etaBins[eta+2]);
 
    //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
    // 1.) Calculate the ratio w/o systematic Uncertainties  


    int nData    = JERData->GetN();

    double *dataX  = JERData->GetX();
    double *dataY  = JERData->GetY();
    double *dataEX = JERData->GetEX();
    double *dataEY = JERData->GetEY();
    
    double *mcX  = new double[nData];
    double *mcY  = new double[nData];
    double *mcEX = new double[nData];
    double *mcEY = new double[nData];
    
    double *ratioX  = new double[nData];
    double *ratioY  = new double[nData];
    double *ratioEX = new double[nData];
    double *ratioEY = new double[nData];


    //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
    // Initialize some stuff for QCD uncertainty
    double *ratioQCDUpY    = new double[nData];
    double *ratioQCDDownY  = new double[nData];    
    //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

 
    int idx = 0;
    for(int i=0; i<nData; i++){

      JERMC   -> GetPoint(idx,mcX[i],mcY[i]);
      mcEX[i] = JERMC -> GetErrorX(idx);
      mcEY[i] = JERMC -> GetErrorY(idx);

      idx += 1;

      if(TMath::Abs(dataX[i]/mcX[i] - 1.) > 0.1){
	i -= 1;
	continue;
      }
     
      ratioX[i]  = 1./2.*(dataX[i] + mcX[i]);
      ratioY[i]  = dataY[i]/mcY[i];
      ratioEX[i] = 1./2.*TMath::Sqrt(TMath::Power(dataEX[i],2)+TMath::Power(mcEX[i],2));
      ratioEY[i] = TMath::Sqrt(TMath::Power((1./mcY[i]),2)*TMath::Power(dataEY[i],2)+TMath::Power((dataY[i]/(TMath::Power(mcY[i],2))),2)*TMath::Power(mcEY[i],2));
      if(QCD){
	// For QCD
	ratioQCDUpY[i]   = ratioY[i]*(1. + QCDuncertainty->Eval(ratioX[i]));
	ratioQCDDownY[i] = ratioY[i]*(1. - QCDuncertainty->Eval(ratioX[i]));
	//cout<<"QCDuncertainty->Eval(ratioX[i]) = "<<QCDuncertainty->Eval(ratioX[i])<<endl;
      }
    }
    
    TGraphErrors *Ratio = new TGraphErrors(nData,ratioX,ratioY,ratioEX,ratioEY);


    // For QCD
    TGraphErrors *QCDUp   = new TGraphErrors(nData,ratioX,ratioQCDUpY,ratioEX,ratioEY);
    TGraphErrors *QCDDown = new TGraphErrors(nData,ratioX,ratioQCDDownY,ratioEX,ratioEY);
    

    if(eta+1 == 1 ) AuxString = Form("Ratio between Data and MC for |#eta| < %4.1f",etaBins[eta+1]);
    else            AuxString = Form("Ratio between Data and MC for %4.1f <|#eta|<%4.1f",etaBins[eta+1],etaBins[eta+2]);
 
    Ratio -> SetTitle(AuxString); 
    Ratio -> GetXaxis() -> SetTitle("Photon pT");
    Ratio -> GetXaxis() -> SetTitleOffset(1.1); 
    Ratio -> GetYaxis() -> SetTitle("Ratio of JER (DATA/MC)");
    Ratio -> GetYaxis() -> SetTitleOffset(1.2);   
    Ratio -> GetXaxis() -> SetLimits(0,600);
    TF1* f1 = new TF1("name","pol0",0,600);   
    Ratio -> Fit("name","QR");
    

    TF1* fitQCDUp  = new TF1("fitQCDUp","pol0",0,600); 
    TF1* fitQCDDown = new TF1("fitQCDDown","pol0",0,600); 
    if(QCD){
      // For QCD
      QCDUp   -> Fit("fitQCDUp","QR");
      QCDDown -> Fit("fitQCDDown","QR");
    }
    
    TLegend *legend  = 0;
    legend = new TLegend(0.55,0.8,0.9,0.9);
    legend -> SetFillColor(0);

    legend -> SetHeader(Form(" %4.3f #pm %4.3f", f1 -> GetParameter(0), f1->GetParError(0)));
    TCanvas *c11 = new TCanvas("c11",AuxString,200,10,500,500);
    c11 -> cd();
    Ratio -> SetMinimum(0.5);
    Ratio -> SetMaximum(2.0);
  
    Ratio  -> Draw("AP"); 
    legend -> Draw("same");
  
    TLatex*  info   = new TLatex();
    info-> SetNDC();
    info->SetTextSize(0.045); 
    info->DrawLatex(0.22,0.84,Form("#splitline{#chi^{2} = %4.2f}{dof = %i}",f1 -> GetChisquare(),f1 -> GetNDF()));
  
    filename = (TString) "plots/Ratio_Resolution_for_" + (long) (eta+1) + (TString) "_eta_bin_" + type + (TString) "_data_comparison_" + method + (TString) ".pdf";
    c11 -> SaveAs(filename);
    delete c11;
    
    ratioEtaBinnedX[eta]  = (eta_bins[eta+1] + eta_bins[eta])/2.; 
    ratioEtaBinnedY[eta]  = f1 -> GetParameter(0);
    ratioEtaBinnedEX[0]=0.25;
    ratioEtaBinnedEX[1]=0.3;
    ratioEtaBinnedEX[2]=0.3;
    ratioEtaBinnedEX[3]=0.3;
    ratioEtaBinnedEY[eta] = f1->GetParError(0);

    if(QCD){
      ratioEtaBinnedQCDUpY[eta]  = fitQCDUp   -> GetParameter(0);
      ratioEtaBinnedQCDDownY[eta]= fitQCDDown -> GetParameter(0);



      // Some additional stuff for QCD uncertainty
      TCanvas *plotsQCD = new TCanvas("plotsQCD","plotsQCD",200,10,500,500);
      plotsQCD -> cd();

      Ratio -> SetMarkerColor(1);
      Ratio -> SetLineColor(1);
      Ratio -> SetMarkerStyle(20);
      Ratio -> GetFunction("name")->SetLineColor(1);
      QCDUp -> SetMarkerColor(3);
      QCDDown -> SetMarkerColor(3);
      QCDUp  -> SetLineColor(3);
      QCDDown  -> SetLineColor(3);
      QCDUp -> SetMarkerStyle(20);
      QCDDown -> SetMarkerStyle(20);
      QCDUp -> SetMarkerSize(0.8);
      QCDDown -> SetMarkerSize(0.8);
      QCDUp   -> GetFunction("fitQCDUp")->SetLineColor(3);
      QCDDown -> GetFunction("fitQCDDown")->SetLineColor(3);
      Ratio -> Draw("AP");
      QCDUp -> Draw("sameP");
      QCDDown -> Draw("sameP");

      delete legend;
      legend = new TLegend(0.4,0.8,0.9,0.9);
      legend -> SetFillColor(0);
      legend -> SetTextSize(0.045);
      legend -> AddEntry(Ratio,"Central Value","l");
      legend -> AddEntry(QCDUp,Form("Upward variation: + %4.3f",abs(ratioEtaBinnedQCDUpY[eta]/ratioEtaBinnedY[eta]-1.)),"l");
      legend -> AddEntry(QCDDown,Form("Downward variation: - %4.3f",abs(ratioEtaBinnedQCDDownY[eta]/ratioEtaBinnedY[eta]-1.)),"l");
   
      legend -> Draw("same");
      filename = (TString) "plots/plotsQCD_for_" + (long) (eta+1) + (TString) "_bin_"  + type + (TString) "_" + method + (TString) ".pdf";
      plotsQCD -> SaveAs(filename);
      delete plotsQCD;
    }


  }

  TGraphErrors* ratioEtaBinned = new TGraphErrors(nEta,ratioEtaBinnedX,ratioEtaBinnedY,ratioEtaBinnedEX,ratioEtaBinnedEY);
  filename = (TString) "plots/RatioEtaBinned_" + type + (TString) "_" + method + (TString) ".root";
  TFile *f = new TFile(filename,"RECREATE");
  f -> WriteTObject(ratioEtaBinned,"Graph");
  f->Close();
  delete f;

  //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
  // 1.) Calculate sys Error from QCD contamination
  //cout<<endl;
    
  double deltaRatioUpQCD[nEta]      = {0.};
  double deltaRatioDownQCD[nEta]    = {0.};
 
  if(QCD){
    
    for(int eta = 0; eta<nEta; eta++){

      deltaRatioUpQCD[eta]     = abs(ratioEtaBinnedQCDUpY[eta]/ratioEtaBinnedY[eta]-1.); 
      deltaRatioDownQCD[eta]   = abs(ratioEtaBinnedQCDDownY[eta]/ratioEtaBinnedY[eta]-1.); 
      
      //cout<<"ratioEtaBinnedQCDDownY[eta]"<<ratioEtaBinnedQCDDownY[eta]<<endl;
      //cout<<"ratioEtaBinnedY[eta]"<<ratioEtaBinnedY[eta]<<endl;
      //cout<<"deltaRatioUpQCD["<<eta<<"] = "<<deltaRatioUpQCD[eta]<<endl;
      //cout<<"deltaRatioDownQCD["<<eta<<"] = "<<deltaRatioDownQCD[eta]<<endl;
    }

  } 
  
  

  //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
  // 2.) Calculate sys Error from JEC uncertainty (percentage change of MC result)
  //cout<<endl;

  double deltaRatioUpJEC[nEta]      = {0.};
  double deltaRatioDownJEC[nEta]    = {0.};
    
  if(JEC){

    rootFiles                          = (TString) "scripts/plotsJEC/FinalEtaBinnedErrorsJECUp_" + type + (TString) "_" + method + (TString) ".root"; 
    TGraphErrors *JECuncertaintyUp  = readTGraphErrors(rootFiles,"graph","Graph");
    double       *sysRelJECUp       = JECuncertaintyUp -> GetY();

    rootFiles                          = (TString) "scripts/plotsJEC/FinalEtaBinnedErrorsJECLow_" + type + (TString) "_" + method + (TString) ".root"; 
    TGraphErrors *JECuncertaintyLow = readTGraphErrors(rootFiles,"graph","Graph");
    double       *sysRelJECLow      = JECuncertaintyLow -> GetY();
      
    for(int eta = 0; eta<nEta; eta++){

      deltaRatioUpJEC[eta]   = sysRelJECUp[eta];
      deltaRatioDownJEC[eta] = sysRelJECLow[eta];

      //cout<<"deltaRatioUpJEC["<<eta<<"] = "<<deltaRatioUpJEC[eta]<<endl;
      //cout<<"deltaRatioDownJEC["<<eta<<"] = "<<deltaRatioDownJEC[eta]<<endl;     

    }

  }
 
  //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
  // 3.) Calculate sys Error from Flavor uncertainty (percentage change of MC result)
  //cout<<endl;
  
  // Multiply on mc (as symmetric Error)
  // ratioUp  = 1/(1 - delta) * ratio
  // ratioLow = 1/(1 + delta) * ratio

  double deltaRatioUpFlavor[nEta]      = {0.};
  double deltaRatioDownFlavor[nEta]    = {0.};

  if(flavor){

    rootFiles                          = (TString) "scripts/plotsFlavor/FinalEtaBinnedErrorsFlavorUp_" + type + (TString) "_" + method + (TString) ".root"; 
    TGraphErrors *FlavoruncertaintyUp  = readTGraphErrors(rootFiles,"graph","Graph");
    double       *sysRelFlavorUp       = FlavoruncertaintyUp -> GetY();
    
    rootFiles                          = (TString) "scripts/plotsFlavor/FinalEtaBinnedErrorsFlavorLow_" + type + (TString) "_" + method + (TString) ".root"; 
    TGraphErrors *FlavoruncertaintyLow = readTGraphErrors(rootFiles,"graph","Graph");
    double       *sysRelFlavorLow      = FlavoruncertaintyLow -> GetY();
  
    
    for(int eta = 0; eta<nEta; eta++){

      deltaRatioUpFlavor[eta]   = sysRelFlavorUp[eta];
      deltaRatioDownFlavor[eta] = sysRelFlavorLow[eta];

      //cout<<"deltaRatioUpFlavor["<<eta<<"] = "<<deltaRatioUpFlavor[eta]<<endl;
      //cout<<"deltaRatioDownFlavor["<<eta<<"] = "<<deltaRatioDownFlavor[eta]<<endl;
    }

  }
 
  //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
  // 4.) Calculate sys Error from PU uncertainty (percentage change of MC result)
  //cout<<endl;

  double deltaRatioUpPU[nEta]      = {0.};
  double deltaRatioDownPU[nEta]    = {0.};
  
  if(PU){
    
    rootFiles                          = (TString) "scripts/plotsPU/FinalEtaBinnedErrorsPUUp_" + type + (TString) "_" + method + (TString) ".root"; 
    TGraphErrors *PUuncertaintyUp  = readTGraphErrors(rootFiles,"graph","Graph");
    double       *sysRelPUUp       = PUuncertaintyUp -> GetY();

    rootFiles                          = (TString) "scripts/plotsPU/FinalEtaBinnedErrorsPULow_" + type + (TString) "_" + method + (TString) ".root"; 
    TGraphErrors *PUuncertaintyLow = readTGraphErrors(rootFiles,"graph","Graph");
    double       *sysRelPULow      = PUuncertaintyLow -> GetY();
  
    // Multiply on mc (as symmetric Error)
    // ratioUp = 1/(1 - delta) * ratio
    // ratioUp = 1/(1 + delta) * ratio
        
    for(int eta = 0; eta<nEta; eta++){
    
      deltaRatioUpPU[eta]   = sysRelPUUp[eta];
      deltaRatioDownPU[eta] = sysRelPULow[eta];

      //cout<<"deltaRatioUpPU["<<eta<<"] = "<<deltaRatioUpPU[eta]<<endl;
      //cout<<"deltaRatioDownPU["<<eta<<"] = "<<deltaRatioDownPU[eta]<<endl;
    }

  } 
  
  //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
  // 5.) Calculate sys Error from Out-of Cone showering simulation (percentage change of full ratio result)
  //cout<<endl;
  
  double deltaRatioUpMC[nEta]      = {0.};
  double deltaRatioDownMC[nEta]    = {0.};
  

  if(MC){

    rootFiles                   = (TString) "scripts/plotsMC/FinalErrorsMC_" + type + (TString) "_" + method + (TString) ".root";  
    TGraphErrors *MCuncertainty = readTGraphErrors(rootFiles,"graph","Graph");
    double       *sysRelMC      = MCuncertainty -> GetY();
  
    // Percentage change is only in one direction, to take this into account keep deltaRatioDownMC = 0

    for(int eta = 0; eta<nEta; eta++){

      deltaRatioUpMC[eta]   = sysRelMC[eta];
      deltaRatioDownMC[eta] = sysRelMC[eta];

      //cout<<"deltaRatioUpMC["<<eta<<"] = "<<deltaRatioUpMC[eta]<<endl;
      //cout<<"deltaRatioDownMC["<<eta<<"] = "<<deltaRatioDownMC[eta]<<endl;
    }

  } 
  
  //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
  // Take all systematic Uncertainties together and plot
  //cout<<endl;

  double *deltaTotalSysUp   = new double[nEta];
  double *deltaTotalSysDown = new double[nEta];
  double *DeltaTotalSysUp   = new double[nEta];
  double *DeltaTotalSysDown = new double[nEta];
  double *DeltaTotalDown = new double[nEta];
  double *DeltaTotalUp = new double[nEta];
  for(int eta = 0; eta<nEta; eta++){

    // Add all systematic Uncertainties in quadrature (delta is relative Uncertainty)
    deltaTotalSysUp[eta]   = sqrt(TMath::Power(deltaRatioUpJEC[eta],2)   + TMath::Power(deltaRatioUpFlavor[eta],2)   + TMath::Power(deltaRatioUpPU[eta],2)   +                                                               TMath::Power(deltaRatioUpMC[eta],2)    + TMath::Power(deltaRatioUpQCD[eta],2));
    deltaTotalSysDown[eta] = sqrt(TMath::Power(deltaRatioDownJEC[eta],2) + TMath::Power(deltaRatioDownFlavor[eta],2) + TMath::Power(deltaRatioDownPU[eta],2) +                                                               TMath::Power(deltaRatioDownMC[eta],2)  + TMath::Power(deltaRatioDownQCD[eta],2));

    // Calculation of the absolute Uncertainty with Delta = ratio * delta
    DeltaTotalSysUp[eta]   = deltaTotalSysUp[eta] * ratioEtaBinnedY[eta];
    DeltaTotalSysDown[eta] = deltaTotalSysDown[eta] * ratioEtaBinnedY[eta];

    // Calculate Systematic plus staistical Uncertainty
    DeltaTotalUp[eta] = sqrt(pow(DeltaTotalSysUp[eta],2) + pow(ratioEtaBinnedEY[eta],2));
    DeltaTotalDown[eta] = sqrt(pow(DeltaTotalSysDown[eta],2) + pow(ratioEtaBinnedEY[eta],2));

    cout<<endl<<"relative: deltaTotalSysUp["<<eta<<"]   = "<<fixed<<setprecision(3)<<deltaTotalSysUp[eta]<<endl;
    cout<<"relative: deltaTotalSysDown["<<eta<<"] = "<<deltaTotalSysDown[eta]<<endl;

    cout<<endl<<"absolute: DeltaTotalSysUp["<<eta<<"]   = "<<DeltaTotalSysUp[eta]<<endl;
    cout<<"absolute: DeltaTotalSysDown["<<eta<<"] = "<<DeltaTotalSysDown[eta]<<endl;


  }

  double ex[nEta] ={0.25,0.3,0.3,0.3};

  TGraphAsymmErrors* ratioEtaBinnedSys = new TGraphAsymmErrors(nEta,ratioEtaBinnedX,ratioEtaBinnedY,ex,ex,DeltaTotalSysDown,DeltaTotalSysUp);

  double *TotalSysUp   = new double[nEta];
  double *TotalSysDown = new double[nEta];
 

  for(int i=0; i<nEta; i++){
    TotalSysUp[i]   = ratioEtaBinnedY[i]+DeltaTotalSysUp[i];
    TotalSysDown[i] = ratioEtaBinnedY[i]-DeltaTotalSysDown[i];
  }

  TGraph* ratioSysBorderUp   = new TGraph(nEta, ratioEtaBinnedX, TotalSysUp);
  TGraph* ratioSysBorderDown = new TGraph(nEta, ratioEtaBinnedX, TotalSysDown);

  TGraph* ratioRelativeErrorsUp   = new TGraph(nEta,ratioEtaBinnedX,deltaTotalSysUp);
  TGraph* ratioRelativeErrorsDown = new TGraph(nEta,ratioEtaBinnedX,deltaTotalSysDown);


  TGraphErrors* ratioEtaBinnedStat = new TGraphErrors(nEta,ratioEtaBinnedX,ratioEtaBinnedY,ratioEtaBinnedEX,ratioEtaBinnedEY);
  TGraphAsymmErrors* ratioEtaBinnedStatPlusSys = new TGraphAsymmErrors(nEta,ratioEtaBinnedX,ratioEtaBinnedY,ex,ex,DeltaTotalDown,DeltaTotalUp);
  
  TCanvas *cFinal = new TCanvas("cFinal","cFinal",200,10,500,500);
  cFinal -> cd();  
  
  ratioEtaBinnedSys -> GetYaxis() -> SetTitle("Data/MC ratio for JER");
  ratioEtaBinnedSys -> GetXaxis() -> SetTitle("|#eta|");

  if(PU  && flavor  && JEC  && MC && QCD)    etaString  = "All sys. Uncertainties";
  else if(PU  && !flavor && !JEC && !MC && !QCD)  etaString = "Only PU uncert.";
  else if(!PU && flavor  && !JEC && !MC && !QCD)  etaString = "Only flavor uncert.";
  else if(!PU && !flavor && JEC  && !MC && !QCD)  etaString = "Only JEC uncert.";
  else if(!PU && !flavor && !JEC && MC && !QCD)   etaString = "Only Out-of-Cone sim. uncert.";
  else if(!PU && !flavor && !JEC && MC && !QCD)   etaString = "Only Out-of-Cone sim. uncert.";
  else if(!PU && !flavor && !JEC && !MC && QCD)   etaString = "Only QCD uncert.";
  else if(PU && flavor && JEC && !MC && QCD)      etaString = "All besides MC uncertainty.";
  else etaString = "Strange set of systematic uncertainties.";
  cout<<endl<<etaString<<endl<<endl;
  
  ratioEtaBinnedSys -> SetMarkerStyle(20);
  ratioEtaBinnedSys -> SetMarkerSize(1.4);
  ratioEtaBinnedSys -> SetFillColor(kGray);
  ratioEtaBinnedSys -> SetFillStyle(3001);
  ratioEtaBinnedSys -> SetLineColor(kGray);
  ratioEtaBinnedSys -> SetMinimum(0.8);
  ratioEtaBinnedSys -> SetMaximum(1.5);
  ratioEtaBinnedSys -> GetXaxis() -> SetLimits(0., 2.3);
  ratioEtaBinnedSys -> GetXaxis() -> SetNdivisions(6,6,0, "X");
  ratioEtaBinnedSys -> DrawClone("Ae3p");
  
  //ratioEtaBinnedSys -> SetPointError(0, 0., 0., 0., 0.);
  //ratioEtaBinnedSys -> SetPointError(1, 0., 0., 0., 0.);
  //ratioEtaBinnedSys -> SetPointError(2, 0., 0., 0., 0.);
  //ratioEtaBinnedSys -> SetPointError(3, 0., 0., 0., 0.);
  //ratioEtaBinnedSys -> SetPointError(4, 0., 0., 0., 0.);


  ratioEtaBinnedStat -> SetMarkerStyle(20);
  ratioEtaBinnedStat -> SetMarkerSize(1.4);
  ratioEtaBinnedStat -> SetFillColor(kGray);
  ratioEtaBinnedStat -> SetFillStyle(3001);
  ratioEtaBinnedStat -> SetLineColor(1);
  ratioEtaBinnedStat -> Draw("psame");
  
 
  TLatex *infoFinal   = new TLatex();
  infoFinal -> SetTextFont(132);
  infoFinal -> SetNDC();
  infoFinal -> SetTextSize(0.045);
  infoFinal -> DrawLatex(0.2,0.8,etaString);

  filename = (TString) "plots/FinalErrorPlot_" + type + (TString) "_" + method + (TString) ".pdf";
  cFinal -> Print(filename,"pdf");
  filename = (TString) "plots/FinalErrorPlot_" + type + (TString) "_" + method + (TString) ".pdf";
  cFinal -> SaveAs(filename,"pdf");
  delete cFinal;


  filename = (TString) "plots/FinalRelativeErrorsUp_" + type + (TString) "_" + method + (TString) ".root"; 
  f = new TFile(filename,"RECREATE");
  f -> WriteTObject(ratioRelativeErrorsUp,"graph");
  f->Close();
  delete f;
  filename = (TString) "plots/FinalRelativeErrorsLow_" + type + (TString) "_" + method + (TString) ".root"; 
  f = new TFile(filename,"RECREATE");
  f -> WriteTObject(ratioRelativeErrorsDown,"graph");
  f->Close();
  delete f;

  
  ofstream RelativeErrors;
  RelativeErrors.open("plots/Errors.txt");
  
  RelativeErrors<<"Relative Errors: "<<endl;
  for(int i=0; i<nEta; i++){
    RelativeErrors<<i+1<<". Eta bin:    "<<"-"<<fixed<<setprecision(3)<<(deltaTotalSysDown[i]*100)<<"% / +"<<(deltaTotalSysUp[i]*100)<<"%"<<endl;
  }

  RelativeErrors<<endl<<"Absolute Errors: "<<endl;
  for(int i=0; i<nEta; i++){
    RelativeErrors<<i+1<<". Eta bin:    "<<"-"<<(DeltaTotalSysDown[i])<<" / +"<<(DeltaTotalSysUp[i])<<endl;
  }

  RelativeErrors<<endl<<endl<<"Relative Errors JEC: "<<endl;
  for(int i=0; i<nEta; i++){
    RelativeErrors<<i+1<<". Eta bin:    "<<"-"<<(deltaRatioDownJEC[i]*100)<<"% / +"<<(deltaRatioUpJEC[i]*100)<<"%"<<endl;
  }
  RelativeErrors<<endl<<endl<<"Relative Errors Flavor: "<<endl;
  for(int i=0; i<nEta; i++){
    RelativeErrors<<i+1<<". Eta bin:    "<<"-"<<(deltaRatioDownFlavor[i]*100)<<"% / +"<<(deltaRatioUpFlavor[i]*100)<<"%"<<endl;
  }
  RelativeErrors<<endl<<endl<<"Relative Errors Out-of-Cone showering simulation: "<<endl;
  for(int i=0; i<nEta; i++){
    RelativeErrors<<i+1<<". Eta bin:    "<<"-"<<(deltaRatioDownMC[i]*100)<<"% / +"<<(deltaRatioUpMC[i]*100)<<"%"<<endl;
  }
  RelativeErrors<<endl<<endl<<"Relative Errors QCD: "<<endl;
  for(int i=0; i<nEta; i++){
    RelativeErrors<<i+1<<". Eta bin:    "<<"-"<<(deltaRatioDownQCD[i]*100)<<"% / +"<<(deltaRatioUpQCD[i]*100)<<"%"<<endl;
  }
  RelativeErrors<<endl<<endl<<"Relative Errors PU reweighing: "<<endl;
  for(int i=0; i<nEta; i++){
    RelativeErrors<<i+1<<". Eta bin:    "<<"-"<<(deltaRatioDownPU[i]*100)<<"% / +"<<(deltaRatioUpPU[i]*100)<<"%"<<endl;
  }

  RelativeErrors<<endl<<endl<<"Central values and statistical Uncertainty: "<<endl;
  for(int i=0; i<nEta; i++){
    RelativeErrors<<i+1<<". Eta bin:    "<<"-"<<(ratioEtaBinnedY[i])<<" +/- "<<ratioEtaBinnedEY[i]<<endl;
  }

  RelativeErrors.close();

 
  // Write directly full latex table with systematic and statistical unceratinty

  ofstream latexTable;
  latexTable.open("plots/latexTable.txt");


  latexTable<<"\\renewcommand{\\arraystretch}{2.0}"<<endl;
  latexTable<<"\\begin{center}"<<endl;
  latexTable<<"\\begin{tabular}{ | c | c   c c| }"<<endl;
  latexTable<<"$|\\eta^{\\text{Jet}}|$ & Ratio &  stat.      & sys.  \\\\\\hline"<<endl;
  for(int z=0;z<nEta;z++){
    latexTable<<"$"<<fixed<<setprecision(1)<<etaBins[z]<<" - "<<etaBins[z+1]<<"$ &"<<fixed<<setprecision(3)<<ratioEtaBinnedY[z]<<" & $\\pm "<<ratioEtaBinnedEY[z]<<"$ & $^{+"<<DeltaTotalSysUp[z]<<"}_{-"<<DeltaTotalSysDown[z]<<"}$ \\\\"<<endl;
  }
  latexTable<<"\\hline"<<endl;
  latexTable<<"\\end{tabular}"<<endl;
  latexTable<<"\\end{center}"<<endl<<endl<<endl<<endl<<endl;

 


  
  latexTable<<"\\begin{center}"<<endl;
  latexTable<<"\\begin{tabular}{ l| c | c | c | c |}"<<endl;
  latexTable<<"\\multicolumn{1}{c}{} & \\multicolumn{4}{c}{$|\\eta^{\\text{Jet}}|$}\\\\\\hline"<<endl<<fixed<<setprecision(1);
  for(int z=0;z<nEta;z++) latexTable<<"& \\textbf{"<<etaBins[z]<<" - "<<etaBins[z+1]<<"}";
  latexTable<<"\\\\\\hline"<<endl;
  latexTable<<"\\multirow{2}{*}{\\textbf{Multijet contamination}}";
  for(int z=0;z<nEta;z++) latexTable<<"& $+"<<deltaRatioUpQCD[z]*100<<" \\% $ ";
  latexTable<<"\\\\"<<endl;
  for(int z=0;z<nEta;z++) latexTable<<"& $-"<<deltaRatioDownQCD[z]*100<<" \\% $ ";
  latexTable<<"\\\\\\hline"<<endl;
  latexTable<<"\\multirow{2}{*}{\\textbf{Flavor uncertainty}}";
  for(int z=0;z<nEta;z++) latexTable<<"& $+"<<deltaRatioUpFlavor[z]*100<<" \\% $ ";
  latexTable<<"\\\\"<<endl;
  for(int z=0;z<nEta;z++) latexTable<<"& $"<<deltaRatioDownFlavor[z]*100<<" \\% $ ";
latexTable<<"\\\\\\hline"<<endl;
  latexTable<<"\\multirow{2}{*}{\\textbf{JEC uncertainty}}";
  for(int z=0;z<nEta;z++) latexTable<<"& $+"<<deltaRatioUpJEC[z]*100<<" \\% $ ";
  latexTable<<"\\\\"<<endl;
  for(int z=0;z<nEta;z++) latexTable<<"& $"<<deltaRatioDownJEC[z]*100<<" \\% $ ";
latexTable<<"\\\\\\hline"<<endl;
  latexTable<<"\\multirow{2}{*}{\\textbf{Out-of-Cone showering simulation}}";
  for(int z=0;z<nEta;z++) latexTable<<"& $+"<<deltaRatioUpMC[z]*100<<" \\% $ ";
  latexTable<<"\\\\"<<endl;
  for(int z=0;z<nEta;z++) latexTable<<"& $-"<<deltaRatioDownMC[z]*100<<" \\% $ ";
  latexTable<<"\\\\\\hline"<<endl;
  latexTable<<"\\multirow{2}{*}{\\textbf{PU uncertainty}}";
  for(int z=0;z<nEta;z++) latexTable<<"& $+"<<deltaRatioUpPU[z]*100<<" \\% $ ";
  latexTable<<"\\\\"<<endl;
  for(int z=0;z<nEta;z++) latexTable<<"& $"<<deltaRatioDownPU[z]*100<<" \\% $ ";
  latexTable<<"\\\\\\hline\\hline"<<endl;
  latexTable<<"\\multirow{2}{*}{\\textbf{Total}}";
  for(int z=0;z<nEta;z++) latexTable<<"& $+"<<deltaTotalSysUp[z]*100<<" \\% $ ";
  latexTable<<"\\\\"<<endl;
  for(int z=0;z<nEta;z++) latexTable<<"& $-"<<deltaTotalSysDown[z]*100<<" \\% $ ";
  latexTable<<"\\\\\\hline"<<endl;

  latexTable<<"\\end{tabular}"<<endl;
  latexTable<<"\\end{center}"<<endl;


 latexTable.close();





  //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
  // Comparison to 2011 Data 
  cout<<endl; 

  gROOT->LoadMacro("tdrstyle_mod14.C");
  setTDRStyle();

  gROOT->LoadMacro("CMS_lumi.C");

  writeExtraText = true;       // if extra text
  extraText  = "Preliminary";  // default extra text is "Preliminary"
  lumi_8TeV  = "19.7 fb^{-1}"; // default is "19.7 fb^{-1}"
  lumi_7TeV  = "4.9 fb^{-1}";  // default is "5.1 fb^{-1}"

  int iPeriod = 2;    // 1=7TeV, 2=8TeV, 3=7+8TeV, 7=7+8+13TeV 
  
  gStyle->SetHatchesLineWidth(1);
  gStyle->SetHatchesSpacing(2.2);   
  //-----------------------------------------------------

  TCanvas *cFinal2 = new TCanvas("cFinal2","cFinal2",200,10,1000,1000);
  cFinal2 -> cd();  

  double x_2011[4];
  x_2011[0]=0.25;
  x_2011[1]=0.80;
  x_2011[2]=1.40;
  x_2011[3]=2.00;
  double y_2011[4];
  y_2011[0]=1.052;
  y_2011[1]=1.057;
  y_2011[2]=1.096;
  y_2011[3]=1.134;
  double yErrStat_2011[4];
  yErrStat_2011[0]=0.012;
  yErrStat_2011[1]=0.012;
  yErrStat_2011[2]=0.017;
  yErrStat_2011[3]=0.035;
  double yErrSysHigh_2011[4];
  yErrSysHigh_2011[0]=0.062;
  yErrSysHigh_2011[1]=0.056;
  yErrSysHigh_2011[2]=0.063;
  yErrSysHigh_2011[3]=0.087;
  double yErrSysLow_2011[4];
  yErrSysLow_2011[0]=0.061;
  yErrSysLow_2011[1]=0.055;
  yErrSysLow_2011[2]=0.062;
  yErrSysLow_2011[3]=0.085;
  double xErrLow_2011[4];
  xErrLow_2011[0]=0.25;
  xErrLow_2011[1]=0.3;
  xErrLow_2011[2]=0.3;
  xErrLow_2011[3]=0.3;
  double xErrHigh_2011[4];
  xErrHigh_2011[0]=0.25;
  xErrHigh_2011[1]=0.3;
  xErrHigh_2011[2]=0.3;
  xErrHigh_2011[3]=0.3;

  double yErrTotalHigh_2011[4];
  double yErrTotalLow_2011[4];

  for(int i=0; i<4; i++){

    yErrTotalHigh_2011[i]=sqrt(pow(yErrStat_2011[i],2) + pow(yErrSysHigh_2011[i],2));
    yErrTotalLow_2011[i]=sqrt(pow(yErrStat_2011[i],2) + pow(yErrSysLow_2011[i],2));


  }

  TGraphAsymmErrors *Res_2011_stat = new TGraphAsymmErrors(4,x_2011,y_2011,xErrLow_2011,xErrHigh_2011,yErrStat_2011,yErrStat_2011);
  Res_2011_stat->SetName("Res_2011_stat");
  TGraphAsymmErrors *Res_2011_sys  = new TGraphAsymmErrors(4,x_2011,y_2011,xErrLow_2011,xErrHigh_2011,yErrSysLow_2011,yErrSysHigh_2011);
  Res_2011_sys->SetName("Res_2011_sys");
  TGraphAsymmErrors *Res_2011_total  = new TGraphAsymmErrors(4,x_2011,y_2011,xErrLow_2011,xErrHigh_2011,yErrTotalLow_2011,yErrTotalHigh_2011);
  Res_2011_sys->SetName("Res_2011_total");
  
  //-----------------------------------------------------
  ratioEtaBinnedStatPlusSys -> GetXaxis() -> SetTitle("|#eta|");
  ratioEtaBinnedStatPlusSys -> GetXaxis() -> SetRangeUser(0., 2.3);
  ratioEtaBinnedStatPlusSys -> GetYaxis() -> SetTitle("Data/MC ratio for JER");
  ratioEtaBinnedSys -> GetXaxis() -> SetTitle("|#eta|");
  ratioEtaBinnedSys -> GetXaxis() -> SetRangeUser(0., 2.3);
  ratioEtaBinnedSys -> GetYaxis() -> SetTitle("Data/MC ratio for JER");
  ratioEtaBinnedStat -> GetXaxis() -> SetTitle("|#eta|");
  ratioEtaBinnedStat -> GetXaxis() -> SetRangeUser(0., 2.3);
  ratioEtaBinnedStat -> GetYaxis() -> SetTitle("Data/MC ratio for JER");
  ratioEtaBinnedStat -> GetYaxis() -> SetRangeUser(0.8, 1.6);
  Res_2011_stat -> GetXaxis() -> SetTitle("|#eta|");
  Res_2011_stat -> GetXaxis() -> SetLimits(0., 2.3);
  Res_2011_stat -> GetXaxis() -> SetNdivisions(505, "X");
  Res_2011_stat -> GetYaxis() -> SetTitle("Data/MC ratio for JER");
  Res_2011_sys -> GetXaxis() -> SetTitle("|#eta|");
  Res_2011_sys -> GetXaxis() -> SetLimits(0., 2.3);
  Res_2011_sys -> GetXaxis() -> SetNdivisions(505, "X");
  Res_2011_sys -> GetYaxis() -> SetTitle("Data/MC ratio for JER");
  Res_2011_total -> GetXaxis() -> SetTitle("|#eta|");
  Res_2011_total -> GetXaxis() -> SetLimits(0., 2.3);
  Res_2011_total -> GetXaxis() -> SetNdivisions(505, "X");
  Res_2011_total -> GetYaxis() -> SetTitle("Data/MC ratio for JER");
  Res_2011_total -> GetYaxis() -> SetRangeUser(0.8, 1.5);


  ratioEtaBinnedStatPlusSys -> SetMarkerStyle(20); 
  ratioEtaBinnedStatPlusSys -> SetMarkerSize(2.0);
  ratioEtaBinnedStatPlusSys -> SetLineColor(kPink-8);
  ratioEtaBinnedStatPlusSys -> SetLineWidth(2);
  ratioEtaBinnedStatPlusSys -> SetMarkerColor(kPink-8);
  ratioEtaBinnedStatPlusSys -> SetFillColor(kPink-8);
  ratioEtaBinnedStatPlusSys -> SetName("statPlusSys_2012");
  
  ratioEtaBinnedStat -> SetMarkerStyle(20); 
  ratioEtaBinnedStat -> SetMarkerSize(2.0);
  ratioEtaBinnedStat -> SetLineColor(kPink-8);
  ratioEtaBinnedStat -> SetLineWidth(2);
  ratioEtaBinnedStat -> SetMarkerColor(kPink-8);
  ratioEtaBinnedStat -> SetFillColor(kPink-8);
  ratioEtaBinnedStat -> SetName("Stat_2012");

  ratioEtaBinnedStatPlusSys -> SetFillStyle(3244);
  ratioEtaBinnedStat        -> SetFillStyle(3144);

  Res_2011_stat->SetMarkerStyle(24);
  Res_2011_stat->SetMarkerSize(2.0);
  Res_2011_stat->SetLineColor(kGray+2);
  Res_2011_stat->SetLineWidth(2);
  Res_2011_stat->SetLineWidth(2);
  Res_2011_stat->SetFillStyle(1001);

  Res_2011_total->SetMarkerStyle(24);
  Res_2011_total->SetMarkerSize(2.0);
  Res_2011_total->SetLineColor(1);
  Res_2011_total->SetLineWidth(2);
  Res_2011_total->SetFillColor(kGray);
  Res_2011_total->SetFillStyle(1001);
  Res_2011_total->SetLineColor(kGray+2);

  Res_2011_total->Draw("a2");
  Res_2011_stat->Draw("esame");
  
  ratioEtaBinnedStatPlusSys -> Draw("2same");
  Res_2011_stat->Draw("pXsame");
  Res_2011_stat->SetMarkerSize(1.9);
  Res_2011_stat->Draw("pXsame");
  Res_2011_stat->SetMarkerSize(1.7);
  Res_2011_stat->Draw("pXsame");
  ratioEtaBinnedStatPlusSys -> Draw("pXsame");
  ratioEtaBinnedStat        -> Draw("esame");
  
  TLegend *leg = new TLegend(0.18, 0.60, 0.55, 0.75);
  leg->SetBorderSize(0);
  leg->SetFillColor(0);
  leg->SetFillStyle(0);
  leg->SetTextFont(42);
  leg->SetTextSize(0.045);
  
  leg->AddEntry(Res_2011_total,"5/fb (7 TeV)", "pfl");
  leg->AddEntry(ratioEtaBinnedStatPlusSys,"20/fb (8 TeV)", "pfl");
     
  leg->Draw("same");

  TLatex *info = new TLatex();
  info->SetNDC();
  info->DrawLatex(0.67,0.83,"Anti-k_{T} R=0.5");
  info->DrawLatex(0.67,0.77,"PF+CHS");

  CMS_lumi( cFinal2, iPeriod, 11 );
  cFinal2->Print("plots/resultsComparisonFINAL.pdf","pdf");
  cFinal2->SaveAs("plots/resultsComparisonFINAL.C");


  return 0;

}
Beispiel #5
0
void DeltaPhi(double pt1_cutIN,double pt2_cutIN,double MET_cutIN, double DPHI_cutIN){
  cout<<"#### DeltaPhi(MET,H) #####"<<endl;


 

  gStyle->SetPadTickY(1);
  gStyle->SetPadTickX(1);
  TLegend* leg = new TLegend(0.13,0.6,0.67,0.87);
  leg->SetNColumns(2);
  leg->SetBorderSize(0);
  leg->SetFillStyle(0);
  TLegend* leg_norm = new TLegend(0.20,0.5,0.74,0.87);
  leg_norm->SetNColumns(2);
  leg_norm->SetBorderSize(0);
leg_norm->SetFillStyle(0);


 TCanvas *c1 = new TCanvas("c1","",500,600);
 TPad *mainPad = new TPad("mainPad","",0,0.3,1,1);
 TPad *smallPad = new TPad("smallPad","",0,0.05,1,0.3);
 mainPad->SetBottomMargin(0.015);

 
 smallPad->SetTopMargin(0.05);
 smallPad->SetBottomMargin(0.25);
 
 c1->cd();
 
 mainPad->Draw();
 mainPad->cd();
 TCut mggmax = "mgg<180";
 TCut mggmin = "mgg>100";
 TCut mggblind = "((mgg<115)||(mgg>135))";
 TCut eveto1 = "eleveto1 == 1";
 TCut eveto2 = "eleveto2 == 1";
 TCut eveto = eveto1 && eveto2;
 TCut genmatch = "((genmatch1==1 && genmatch2==0)||(genmatch1==0 && genmatch2==1)||(genmatch1==0 && genmatch2==0))";  
  TCut metF = "((metF_GV==1) && (metF_HBHENoise==1) && (metF_HBHENoiseIso==1) && (metF_CSC==1) && (metF_eeBadSC==1))";  
  TCut pt1cut = Form("pt1/mgg>%lf",pt1_cutIN);
  TCut pt2cut = Form("pt2/mgg>%lf",pt2_cutIN);  
  TCut METcutD = Form("t1pfmetCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,1)>%lf",MET_cutIN);  
  TCut METcut = Form("t1pfmetCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0)>%lf",MET_cutIN);  
  TCut DPHIcut = Form("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>%lf",DPHI_cutIN);  
  TCut DPHIcutD = Form("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,1))>%lf",DPHI_cutIN);  
 
  
 

  TFile *data = TFile::Open("./25ns_2246inv_v3/DoubleEG.root","READ");  
  TFile *sig1 = TFile::Open("./25ns_2246inv_v3/2HDM_mZP600.root","READ");
  TFile *sig2 = TFile::Open("./25ns_2246inv_v3/2HDM_mZP800.root","READ");
  TFile *sig3 = TFile::Open("./25ns_2246inv_v3/2HDM_mZP1000.root","READ");
  TFile *sig4 = TFile::Open("./25ns_2246inv_v3/2HDM_mZP1200.root","READ");
  TFile *sig5 = TFile::Open("./25ns_2246inv_v3/2HDM_mZP1400.root","READ");  
  TFile *sig6 = TFile::Open("./25ns_2246inv_v3/2HDM_mZP1700.root","READ");  
  TFile *sig7 = TFile::Open("./25ns_2246inv_v3/2HDM_mZP2500.root","READ");  

 
  TFile *bkg1 =  TFile::Open("./25ns_2246inv_v3/DiPhoton.root","READ");  
  TFile *bkg2 =  TFile::Open("./25ns_2246inv_v3/DYJetsToLL.root","READ");  
  TFile *bkg3 =  TFile::Open("./25ns_2246inv_v3/GJets.root","READ");  
  TFile *bkg4 =  TFile::Open("./25ns_2246inv_v3/GluGluHToGG.root","READ");  
  TFile *bkg5 =  TFile::Open("./25ns_2246inv_v3/QCD.root","READ");  
  TFile *bkg6 =  TFile::Open("./25ns_2246inv_v3/VH.root","READ");  
  TFile *bkg7 =  TFile::Open("./25ns_2246inv_v3/ttHJetToGG.root","READ");
  TFile *bkg8 =  TFile::Open("./25ns_2246inv_v3/VBFHToGG.root","READ");
  TFile *bkg9 =  TFile::Open("./25ns_2246inv_v3/TGJets.root","READ");
  TFile *bkg10 =  TFile::Open("./25ns_2246inv_v3/TTGJets.root","READ");
  TFile *bkg11 =  TFile::Open("./25ns_2246inv_v3/WGToLNuG.root","READ");
  TFile *bkg12 =  TFile::Open("./25ns_2246inv_v3/ZGTo2LG.root","READ");

  cout<<"check1"<<endl; 

 
  TTree *tree_data = (TTree*) data->Get("DiPhotonTree");
  
  TTree *tree_sig1 = (TTree*) sig1->Get("DiPhotonTree");
  TTree *tree_sig2 = (TTree*) sig2->Get("DiPhotonTree");
  TTree *tree_sig3 = (TTree*) sig3->Get("DiPhotonTree");
  TTree *tree_sig4 = (TTree*) sig4->Get("DiPhotonTree");
  TTree *tree_sig5 = (TTree*) sig5->Get("DiPhotonTree");
  TTree *tree_sig6 = (TTree*) sig6->Get("DiPhotonTree");
  TTree *tree_sig7 = (TTree*) sig7->Get("DiPhotonTree");
  
  
  TTree *tree_bkg1 = (TTree*) bkg1->Get("DiPhotonTree");
  TTree *tree_bkg2 = (TTree*) bkg2->Get("DiPhotonTree");
  TTree *tree_bkg3 = (TTree*) bkg3->Get("DiPhotonTree");
  TTree *tree_bkg4 = (TTree*) bkg4->Get("DiPhotonTree");
  TTree *tree_bkg5 = (TTree*) bkg5->Get("DiPhotonTree");
  TTree *tree_bkg6 = (TTree*) bkg6->Get("DiPhotonTree");
  TTree *tree_bkg7 = (TTree*) bkg7->Get("DiPhotonTree");
  TTree *tree_bkg8 = (TTree*) bkg8->Get("DiPhotonTree");
  TTree *tree_bkg9 = (TTree*) bkg9->Get("DiPhotonTree");
  TTree *tree_bkg10= (TTree*) bkg10->Get("DiPhotonTree");
  TTree *tree_bkg11 = (TTree*) bkg11->Get("DiPhotonTree");
  TTree *tree_bkg12 = (TTree*) bkg12->Get("DiPhotonTree");


  cout<<"check2"<<endl; 

  
  
  tree_data->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,1))>>hdata(15,0,3.5)",(mggmax && mggmin && metF && eveto && pt1cut && pt2cut && METcutD&& DPHIcutD));
  TH1F *hdata =(TH1F*)gPad->GetPrimitive("hdata");
  hdata->SetMarkerColor(kBlack);
  hdata->SetMarkerStyle(20);
  hdata->SetLineColor(kBlack);
    
 
 
  
  tree_sig1->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>h1(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));
  TH1F *h1 =(TH1F*)gPad->GetPrimitive("h1");
  tree_sig2->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>h2(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));
  TH1F *h2 =(TH1F*)gPad->GetPrimitive("h2");
  tree_sig3->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>h3(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));
  TH1F *h3 =(TH1F*)gPad->GetPrimitive("h3");
  tree_sig4->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>h4(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));
  TH1F *h4 =(TH1F*)gPad->GetPrimitive("h4");
  tree_sig5->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>h5(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));
  TH1F *h5 =(TH1F*)gPad->GetPrimitive("h5");
  tree_sig6->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>h6(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));
  TH1F *h6 =(TH1F*)gPad->GetPrimitive("h6");
  tree_sig7->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>h7(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));
  TH1F *h7 =(TH1F*)gPad->GetPrimitive("h7");
 
  tree_bkg1->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg1(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));
  TH1F *hbkg1 =(TH1F*)gPad->GetPrimitive("hbkg1");
  tree_bkg2->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg2(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));  
  TH1F *hbkg2 =(TH1F*)gPad->GetPrimitive("hbkg2");
  tree_bkg3->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg3(15,0,3.5)","weight"*(mggmax && mggmin && eveto && genmatch && pt1cut && pt2cut && METcut&& DPHIcut));  
  TH1F *hbkg3 =(TH1F*)gPad->GetPrimitive("hbkg3");
  tree_bkg4->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg4(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut)); //weight also on BR = 0.002 if using 50ns samples
  TH1F *hbkg4 =(TH1F*)gPad->GetPrimitive("hbkg4");
  tree_bkg5->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg5(15,0,3.5)","weight"*(mggmax && mggmin && eveto && genmatch && pt1cut && pt2cut && METcut&& DPHIcut));
  TH1F *hbkg5 =(TH1F*)gPad->GetPrimitive("hbkg5");
  tree_bkg6->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg6(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));   //weight also on BR = 0.002 if using 50ns samples
  TH1F *hbkg6 =(TH1F*)gPad->GetPrimitive("hbkg6");
  tree_bkg7->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg7(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));  //weight also on BR = 0.002 if using 50ns samples   
   TH1F *hbkg7 =(TH1F*)gPad->GetPrimitive("hbkg7");
    tree_bkg8->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg8(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));  //weight also on BR = 0.002 if using 50ns samples  
   TH1F *hbkg8 =(TH1F*)gPad->GetPrimitive("hbkg8");
   tree_bkg9->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg9(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));  //weight also on BR = 0.002 if using 50ns samples  
   TH1F *hbkg9 =(TH1F*)gPad->GetPrimitive("hbkg9");
   tree_bkg10->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg10(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));  //weight also on BR = 0.002 if using 50ns samples  
   TH1F *hbkg10 =(TH1F*)gPad->GetPrimitive("hbkg10");
   tree_bkg11->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg11(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));  //weight also on BR = 0.002 if using 50ns samples  
   TH1F *hbkg11 =(TH1F*)gPad->GetPrimitive("hbkg11");
   tree_bkg12->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg12(15,0,3.5)","weight*(weight>0.)"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));  //weight also on BR = 0.002 if using 50ns samples  
   TH1F *hbkg12 =(TH1F*)gPad->GetPrimitive("hbkg12");

 
   cout<<"check3"<<endl; 


  /*  h1->Scale(0.00009338);
  h2->Scale(0.00010348);
  h3->Scale(0.00008394);
  h4->Scale(0.00006352);
  h5->Scale(0.00004712);
  h6->Scale(0.00003020);
  h7->Scale(0.00000972);
  */


  h1->SetLineColor(kRed+3);
  h2->SetLineColor(kRed+1);
  h3->SetLineColor(kRed);
  h4->SetLineColor(kPink+2);
  h5->SetLineColor(kPink+4); //only for 15ns samples
  h6->SetLineColor(kPink+7); //only for 15ns samples
  h7->SetLineColor(kMagenta+2); //only for 15ns samples
  h1->SetLineWidth(2);
  h2->SetLineWidth(2);
  h3->SetLineWidth(2);
  h4->SetLineWidth(2);
  h5->SetLineWidth(2); //only for 15ns samples
  h6->SetLineWidth(2); //only for 15ns samples
  h7->SetLineWidth(2); //only for 15ns samples
  
  





  
  
   THStack *hs=new THStack("hs","");

   hbkg7->SetFillColor(kGreen+2);
   hbkg6->SetFillColor(kGreen);
   hbkg8->SetFillColor(kYellow);
   hbkg4->SetFillColor(kOrange);
   hbkg9->SetFillColor(kOrange+7);
   hbkg10->SetFillColor(kOrange+4);
   hbkg11->SetFillColor(kCyan);
   hbkg12->SetFillColor(kCyan+1);
   hbkg5->SetFillColor(kBlue+2);
   hbkg2->SetFillColor(kBlue);
   hbkg3->SetFillColor(kMagenta-2);
   hbkg1->SetFillColor(kViolet);


 


  hbkg1->SetLineColor(kBlack);
  hbkg2->SetLineColor(kBlack);
  hbkg3->SetLineColor(kBlack);
  hbkg4->SetLineColor(kBlack);
  hbkg5->SetLineColor(kBlack);
  hbkg6->SetLineColor(kBlack);
  hbkg7->SetLineColor(kBlack);
  hbkg8->SetLineColor(kBlack);
  hbkg9->SetLineColor(kBlack);
  hbkg10->SetLineColor(kBlack);
  hbkg11->SetLineColor(kBlack);
  hbkg12->SetLineColor(kBlack);
  

  hs->Add(hbkg7);
  hs->Add(hbkg6);
  hs->Add(hbkg8);
  hs->Add(hbkg4);
  hs->Add(hbkg9);
  hs->Add(hbkg10);
  hs->Add(hbkg11);
  hs->Add(hbkg12);
  hs->Add(hbkg2);
  hs->Add(hbkg5);
  hs->Add(hbkg3);
  hs->Add(hbkg1);


  cout<<"check4"<<endl;  

    TH1F *hsum = (TH1F*)hbkg1->Clone("hsum"); 
  hsum->Add(hbkg2);
  hsum->Add(hbkg3);
  hsum->Add(hbkg4);
  hsum->Add(hbkg9);
  hsum->Add(hbkg10);
  hsum->Add(hbkg11);
  hsum->Add(hbkg12);
  hsum->Add(hbkg5);
  hsum->Add(hbkg6);
  hsum->Add(hbkg7);
  hsum->Add(hbkg8);
  hdata->SetMaximum(5000);
  // hs->SetMinimum(0.0001);
  hdata->SetTitle("");
  hdata->Draw("e1"); 

  hsum->SetMarkerStyle(1);
  hsum->SetFillColor(kGray+3);
  hsum->SetFillStyle(3002);
  
  hs->Draw("same hist");
  hsum->Draw("same e2");
  h2->Draw("same hist");
  h3->Draw("same hist"); 
  h4->Draw("same hist");
  h1->Draw("same hist");
  h5->Draw("same hist"); //only for 15ns samples
  h6->Draw("same hist"); //only for 15ns samples
  h7->Draw("same hist"); //only for 15ns samples
  hdata->Draw("same e1");  
  

  hdata->GetXaxis()->SetLabelOffset(999);
  hdata->GetYaxis()->SetTitle("Events/0.4");
 

  hdata->GetYaxis()->SetTitleOffset(1.6);
  hdata->GetYaxis()->SetTitle("Events/0.23 GeV");  
  gPad->Modified();
  
  
  
  /*leg->AddEntry(h1,"m_{#chi} = 1 GeV","l");
    leg->AddEntry(h2,"m_{#chi} = 10 GeV","l");
    leg->AddEntry(h3,"m_{#chi} = 100 GeV","l");      
    leg->AddEntry(h4,"m_{#chi} = 1000 GeV","l");*/
 leg->AddEntry(hdata,"Data","elp");
 // leg->AddEntry(h1,"m_{Z'} = 600 GeV","l");
  leg->AddEntry(hbkg1,"#gamma #gamma","f");         
  //  leg->AddEntry(h2,"m_{Z'} = 800 GeV","l");
  leg->AddEntry(hbkg2,"Drell Yann","f");       
  // leg->AddEntry(h3,"m_{Z'} = 1000 GeV","l");      
  leg->AddEntry(hbkg3,"#gamma + Jets","f");      
  // leg->AddEntry(h4,"m_{Z'} = 1200 GeV","l");     
  leg->AddEntry(hbkg5,"QCD","f");    
  // leg->AddEntry(h5,"m_{Z'} = 1400 GeV","l"); //only for 15ns samples    
    leg->AddEntry(hbkg4,"ggH","f");      
    // leg->AddEntry(h6,"m_{Z'} = 1700 GeV","l"); //only for 15ns samples    
  leg->AddEntry(hbkg6,"VH","f");  
  // leg->AddEntry(h7,"m_{Z'} = 2500 GeV","l"); //only for 25ns samples      
  leg->AddEntry(hbkg7,"ttH","f");  
  leg->AddEntry(hbkg8,"VBF H","f");  
  leg->AddEntry(hbkg9,"t + #gamma + Jets","f");  
  leg->AddEntry(hbkg10,"tt + #gamma +Jets","f");  
  leg->AddEntry(hbkg11,"#gamma+W","f");  
  leg->AddEntry(hbkg12,"#gamma+Z","f");  
  leg->AddEntry(hsum,"Bkg uncertainty","f");
  leg->Draw("same");
  
 cout<<"check5"<<endl; 

  gStyle->SetOptStat(0);  
  
  c1->cd();
  smallPad->Draw();
  smallPad->cd();

  TGraphErrors *gr = new TGraphErrors(0);
  double integralData=hdata->Integral();
  double integralBKG=hsum->Integral();
  double error, ratio;
  for(int w=1; w<15; w++){
    if((hdata->GetBinContent(w)!=0) && (hsum->GetBinContent(w)!=0)){

      gr->SetPoint(w, hdata->GetBinCenter(w),(hdata->GetBinContent(w))/(hsum->GetBinContent(w)));
      ratio= (hdata->GetBinContent(w))/(hsum->GetBinContent(w));
      error= (hdata->GetBinContent(w)*sqrt(hsum->GetBinContent(w))/(hsum->GetBinContent(w)*hsum->GetBinContent(w)) + sqrt(hdata->GetBinContent(w))/hsum->GetBinContent(w));
      std::cout<<"VALUE: "<<ratio<<" ERROR: "<<error<<std::endl;
      gr->SetPointError(w, hdata->GetBinWidth(w)/2,error);
    }else{
      gr->SetPoint(w, hdata->GetBinCenter(w),10);
    }
  }



  gStyle->SetPadTickY(1);
  gStyle->SetPadTickX(1);
  gr->GetHistogram()->SetMaximum(2);
  gr->GetHistogram()->SetMinimum(0.1);

  gStyle->SetTextSize(14);
  gROOT->ForceStyle();

  gr->GetXaxis()->SetLabelFont(43);
  gr->GetXaxis()->SetLabelSize(15);
  gr->GetYaxis()->SetLabelFont(43);
  gr->GetYaxis()->SetLabelSize(15);

  gr->GetXaxis()->SetLimits(0,3.5);
  gPad->SetGrid();
  gStyle->SetStripDecimals(kTRUE);
  gr->SetMarkerStyle(20);
  gr->SetMarkerSize(0.7);


  gr->Draw("AZP");
  gr->GetXaxis()->SetTitle("|#Delta#phi(#gamma#gamma,E^{miss}_{T})|");
  gr->GetXaxis()->SetTitleSize(0.1);
  gr->GetYaxis()->SetTitleSize(0.1);
  gr->GetYaxis()->SetNdivisions(505);

  gr->GetXaxis()->SetTitleOffset(1);
  gr->GetYaxis()->SetTitle("Data/MC");
  gr->GetYaxis()->SetTitleOffset(0.4);
  gr->SetTitle("");
  smallPad->Update();
  TF1* line = new TF1("line","1",0,3.5);
  line->SetLineColor(kRed);
  line->SetLineWidth(2);
  line->Draw("L same");
  gr->Draw("ZP SAME");

 

TCanvas *c2 = new TCanvas("c2","",500,500);
    

  tree_sig1->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>h1_norm(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));
  TH1F *h1_norm =(TH1F*)gPad->GetPrimitive("h1_norm");
  tree_sig2->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>h2_norm(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));
  TH1F *h2_norm =(TH1F*)gPad->GetPrimitive("h2_norm");
  tree_sig3->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>h3_norm(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));
  TH1F *h3_norm =(TH1F*)gPad->GetPrimitive("h3_norm");
  tree_sig4->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>h4_norm(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));
  TH1F *h4_norm =(TH1F*)gPad->GetPrimitive("h4_norm");
  tree_sig5->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>h5_norm(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));
  TH1F *h5_norm =(TH1F*)gPad->GetPrimitive("h5_norm");
  tree_sig6->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>h6_norm(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));
  TH1F *h6_norm =(TH1F*)gPad->GetPrimitive("h6_norm");
  tree_sig7->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>h7_norm(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));
  TH1F *h7_norm =(TH1F*)gPad->GetPrimitive("h7_norm");
  




  tree_bkg1->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg1_norm(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));
  TH1F *hbkg1_norm =(TH1F*)gPad->GetPrimitive("hbkg1_norm");
  tree_bkg2->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg2_norm(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));  
  TH1F *hbkg2_norm =(TH1F*)gPad->GetPrimitive("hbkg2_norm");
  tree_bkg3->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg3_norm(15,0,3.5)","weight"*(mggmax && mggmin && eveto && genmatch && pt1cut && pt2cut && METcut&& DPHIcut));  
  TH1F *hbkg3_norm =(TH1F*)gPad->GetPrimitive("hbkg3_norm");
  tree_bkg4->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg4_norm(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut)); //weight also on BR = 0.002 if using 50ns samples
  TH1F *hbkg4_norm =(TH1F*)gPad->GetPrimitive("hbkg4_norm");
  tree_bkg5->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg5_norm(15,0,3.5)","weight"*(mggmax && mggmin && eveto && genmatch && pt1cut && pt2cut && METcut&& DPHIcut));
  TH1F *hbkg5_norm =(TH1F*)gPad->GetPrimitive("hbkg5_norm");
  tree_bkg6->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg6_norm(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));   //weight also on BR = 0.002 if using 50ns samples
  TH1F *hbkg6_norm =(TH1F*)gPad->GetPrimitive("hbkg6_norm");
  tree_bkg7->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg7_norm(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));  //weight also on BR = 0.002 if using 50ns samples   
   TH1F *hbkg7_norm =(TH1F*)gPad->GetPrimitive("hbkg7_norm");
    tree_bkg8->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg8_norm(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));  //weight also on BR = 0.002 if using 50ns samples  
   TH1F *hbkg8_norm =(TH1F*)gPad->GetPrimitive("hbkg8_norm");
   tree_bkg9->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg9_norm(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));  //weight also on BR = 0.002 if using 50ns samples  
   TH1F *hbkg9_norm =(TH1F*)gPad->GetPrimitive("hbkg9_norm");
   tree_bkg10->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg10_norm(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));  //weight also on BR = 0.002 if using 50ns samples  
   TH1F *hbkg10_norm =(TH1F*)gPad->GetPrimitive("hbkg10_norm");
   tree_bkg11->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg11_norm(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));  //weight also on BR = 0.002 if using 50ns samples  
   TH1F *hbkg11_norm =(TH1F*)gPad->GetPrimitive("hbkg11_norm");
   tree_bkg12->Draw("FDelta(pt1,eta1,phi1,0.,pt2,eta2,phi2,0.,t1pfmetPhiCorr(t1pfmet,t1pfmetPhi,t1pfmetSumEt,0))>>hbkg12_norm(15,0,3.5)","weight"*(mggmax && mggmin && eveto && pt1cut && pt2cut && METcut&& DPHIcut));  //weight also on BR = 0.002 if using 50ns samples  
   TH1F *hbkg12_norm =(TH1F*)gPad->GetPrimitive("hbkg12_norm");


   for(int i = 0; i<26;i++){
     if(hbkg1_norm->GetBinContent(i) < 0.) hbkg1_norm->SetBinContent(i,0.);
     if(hbkg2_norm->GetBinContent(i) < 0.) hbkg2_norm->SetBinContent(i,0.);
     if(hbkg3_norm->GetBinContent(i) < 0.) hbkg3_norm->SetBinContent(i,0.);
     if(hbkg4_norm->GetBinContent(i) < 0.) hbkg4_norm->SetBinContent(i,0.);
     if(hbkg5_norm->GetBinContent(i) < 0.) hbkg5_norm->SetBinContent(i,0.);
     if(hbkg6_norm->GetBinContent(i) < 0.) hbkg6_norm->SetBinContent(i,0.);
     if(hbkg7_norm->GetBinContent(i) < 0.) hbkg7_norm->SetBinContent(i,0.);
     if(hbkg8_norm->GetBinContent(i) < 0.) hbkg8_norm->SetBinContent(i,0.);
     if(hbkg9_norm->GetBinContent(i) < 0.) hbkg9_norm->SetBinContent(i,0.);
     if(hbkg10_norm->GetBinContent(i) < 0.) hbkg10_norm->SetBinContent(i,0.);
     if(hbkg11_norm->GetBinContent(i) < 0.) hbkg11_norm->SetBinContent(i,0.);
     if(hbkg12_norm->GetBinContent(i) < 0.) hbkg12_norm->SetBinContent(i,0.);
   }




  double norm = 1./h1_norm->Integral();
  h1_norm->Scale(norm);
  norm = 1./h2_norm->Integral();
  h2_norm->Scale(norm);
  norm = 1./h3_norm->Integral();
  h3_norm->Scale(norm);
  norm = 1./h4_norm->Integral();
  h4_norm->Scale(norm);  
  norm = 1./h5_norm->Integral(); //only for 50ns samples
  h5_norm->Scale(norm);  //only for 50ns samples
  norm = 1./h6_norm->Integral(); //only for 50ns samples
  h6_norm->Scale(norm);  //only for 50ns samples
  norm = 1./h7_norm->Integral(); //only for 50ns samples
  h7_norm->Scale(norm);  //only for 50ns samples
  


  norm = 1./hbkg1_norm->Integral();
  hbkg1_norm->Scale(norm);  
  norm = 1./hbkg2_norm->Integral();
  hbkg2_norm->Scale(norm);  
  norm = 1./hbkg3_norm->Integral();
  hbkg3_norm->Scale(norm);  
  norm = 1./hbkg4_norm->Integral();
  hbkg4_norm->Scale(norm);  
  norm = 1./hbkg5_norm->Integral();
  hbkg5_norm->Scale(norm);  
  norm = 1./hbkg6_norm->Integral();
  hbkg6_norm->Scale(norm);  
  norm = 1./hbkg7_norm->Integral();
  hbkg7_norm->Scale(norm);  
  norm = 1./hbkg8_norm->Integral();
  hbkg8_norm->Scale(norm);  
  norm = 1./hbkg9_norm->Integral();
  hbkg9_norm->Scale(norm);  
  norm = 1./hbkg10_norm->Integral();
  hbkg10_norm->Scale(norm);  
  norm = 1./hbkg11_norm->Integral();
  hbkg11_norm->Scale(norm);  
  norm = 1./hbkg12_norm->Integral();
  hbkg12_norm->Scale(norm);  
  
  
  h1_norm->SetLineColor(kRed+3);
  h2_norm->SetLineColor(kRed+1);
  h3_norm->SetLineColor(kRed);
  h4_norm->SetLineColor(kPink+2);
  h5_norm->SetLineColor(kPink+4); //only for 25ns samples
  h6_norm->SetLineColor(kPink+7); //only for 25ns samples
  h7_norm->SetLineColor(kMagenta+2); //only for 25ns samples
  h1_norm->SetLineWidth(2);
  h2_norm->SetLineWidth(2);
  h3_norm->SetLineWidth(2);
  h4_norm->SetLineWidth(2);
  h5_norm->SetLineWidth(2); //only for 25ns samples
  h6_norm->SetLineWidth(2); //only for 25ns samples
  h7_norm->SetLineWidth(2); //only for 25ns samples



  hbkg7_norm->SetLineColor(kGreen+2);
  hbkg6_norm->SetLineColor(kGreen);
  hbkg8_norm->SetLineColor(kYellow);
  hbkg4_norm->SetLineColor(kOrange);
  hbkg9_norm->SetLineColor(kOrange+7);
  hbkg10_norm->SetLineColor(kOrange+4);
  hbkg11_norm->SetLineColor(kCyan);
  hbkg12_norm->SetLineColor(kCyan+1);
  hbkg5_norm->SetLineColor(kBlue+3);
  hbkg2_norm->SetLineColor(kBlue);
  hbkg3_norm->SetLineColor(kMagenta-2);
  hbkg1_norm->SetLineColor(kViolet);

 
 
 
  
  
  hbkg1_norm->SetFillStyle(0);
  hbkg2_norm->SetFillStyle(0);
  hbkg3_norm->SetFillStyle(0);
  hbkg4_norm->SetFillStyle(0);
  hbkg5_norm->SetFillStyle(0);
  hbkg6_norm->SetFillStyle(0);
  hbkg7_norm->SetFillStyle(0); 
  hbkg8_norm->SetFillStyle(0);
  hbkg9_norm->SetFillStyle(0);
  hbkg10_norm->SetFillStyle(0);
  hbkg11_norm->SetFillStyle(0);
  hbkg12_norm->SetFillStyle(0);
  
  
   
  h1_norm->SetTitle("");
  
  h1_norm->SetMaximum(1);  
  h1_norm->SetMinimum(0.001);  
  h1_norm->Draw("HIST"); 
  
  hbkg1_norm->Draw("same HIST");  
  hbkg2_norm->Draw("same HIST"); 
  hbkg3_norm->Draw("same HIST"); 
  hbkg5_norm->Draw("same HIST"); 
  hbkg4_norm->Draw("same HIST"); 
  hbkg6_norm->Draw("same HIST"); 
  hbkg7_norm->Draw("same HIST"); 
  hbkg8_norm->Draw("same HIST"); 
  hbkg9_norm->Draw("same HIST"); 
  hbkg10_norm->Draw("same HIST"); 
  hbkg11_norm->Draw("same HIST"); 
  hbkg12_norm->Draw("same HIST"); 
  h1_norm->Draw("same hist"); 
  h2_norm->Draw("same hist");
  h3_norm->Draw("same hist"); 
  h4_norm->Draw("same hist");
  h5_norm->Draw("same hist");
  h6_norm->Draw("same hist");
  h7_norm->Draw("same hist");
  
  h1_norm->GetXaxis()->SetTitle("|#Delta#phi(#gamma#gamma,E_{T}^{miss})|");
  h1_norm->GetYaxis()->SetTitle("Normalized events");  
  h1_norm->GetYaxis()->SetTitleOffset(1.2);  
  gPad->Modified();
  gStyle->SetOptStat(0);
  
  
  //int iPos =0;                                                                                                                 
  //  CMS_lumi(p1,true,iPos,true);                                                                                               
  // CMS_lumi(p2,true,iPos,true);   
  
  leg_norm->AddEntry(h1_norm,"m_{Z'} = 600 GeV","l");
  leg_norm->AddEntry(hbkg1_norm,"#gamma #gamma","l");      
  leg_norm->AddEntry(h2_norm,"m_{Z'} = 800 GeV","l");
  leg_norm->AddEntry(hbkg2_norm,"Drell Yann","l");      
  leg_norm->AddEntry(h3_norm,"m_{Z'} = 1000 GeV","l");      
  leg_norm->AddEntry(hbkg3_norm,"#gamma + Jets","l");      
  leg_norm->AddEntry(h4_norm,"m_{Z'} = 1200 GeV","l");    
  leg_norm->AddEntry(hbkg5_norm,"QCD","l");     
  leg_norm->AddEntry(h5_norm,"m_{Z'} = 1400 GeV","l"); //only for 25ns samples    
  leg_norm->AddEntry(hbkg4_norm,"ggH","l");      
  leg_norm->AddEntry(h6_norm,"m_{Z'} = 1700 GeV","l"); //only for 25ns samples    
  leg_norm->AddEntry(hbkg6_norm,"VH","l");   
  leg_norm->AddEntry(h7_norm,"m_{Z'} = 2500 GeV","l"); //only for 25ns samples      
  leg_norm->AddEntry(hbkg7_norm,"ttH","l");  
  leg_norm->AddEntry(hbkg8_norm,"VBF H","l");   
  leg_norm->AddEntry(hbkg9_norm,"t + #gamma + Jets","l");  
  leg_norm->AddEntry(hbkg10_norm,"tt + #gamma +Jets","l");  
  leg_norm->AddEntry(hbkg11_norm,"#gamma+W","l");  
  leg_norm->AddEntry(hbkg12_norm,"#gamma+Z","l");  
  leg_norm->Draw("same");
  
  if(pt1_cutIN==0. && pt2_cutIN == 0. && MET_cutIN == 0.){
    c1->SaveAs("./25ns_2246inv_v3/plots/kinematics/DeltaPhi_H_MET_MET0.png");
    c1->SaveAs("./25ns_2246inv_v3/plots/kinematics/DeltaPhi_H_MET_MET0.pdf");
 c2->SaveAs("./25ns_2246inv_v3/plots/kinematics/DeltaPhi_H_MET_MET0_norm.png");
    c2->SaveAs("./25ns_2246inv_v3/plots/kinematics/DeltaPhi_H_MET_MET0_norm.pdf");
  }
  
}
Beispiel #6
0
TEfficiency* CalcEfficHadrons(const char* fileName, Bool_t makeDraw=kFALSE)
{
	// open the input file
	TFile *file = new TFile(fileName);
	
	// ********************************************
	// parameters to check before running the macro
	// ********************************************

	const Int_t NHISTS = 4; // Check the number of histograms for different particle species
	const Int_t NOUTPUTS = 3;
	const Int_t NHISTOUT[NOUTPUTS] = {1,1,1};
	const Int_t IHISTOUT[NOUTPUTS][NHISTS] = {{0,-1,-1,-1},{1,-1,-1,-1},{2,-1,-1,-1}};
	const Float_t CUT_RES = 0.02;
	
	Int_t style[NOUTPUTS] = {20,21,22};
	Int_t color[NOUTPUTS] = {1,2,4};
		
	const Int_t fgNumOfPtBins = 111; // Check the number of eta bins in the histograms
	const Int_t fgNumOfEtaBins = 16; // Check the number of E bins in the histograms
	const Int_t fgNumOfRBins = 45;
	
	Double_t fgPtAxis[117]= {0.0,0.01,0.02,0.03,0.04, 0.05, 0.06,0.07,0.08,0.09, 0.10,0.11, .12,0.13, .14,0.15, .16,0.17, .18,0.19,
		0.2, .22, .24, .26, .28, 0.30, 0.32, .34, .36, .38, 0.40, .42, .44, .46, .48,
		0.5, .52, .54, .56, .58, 0.60, 0.62, .64, .66, .68, 0.70, .72, .74, .76, .78,
		.80, .82, .84, .86, .88, 0.90, 0.92, .94, .96, .98, 1.00,1.05, 1.1,1.15, 1.2,
		1.25, 1.3,1.35,1.40,1.45, 1.50, 1.55, 1.6,1.65, 1.7, 1.75, 1.8,1.85, 1.9,1.95,
		2.0, 2.2, 2.4, 2.6, 2.8, 3.00, 3.20, 3.4, 3.6, 3.8, 4.00, 4.2, 4.4, 4.6, 4.8,
		5.0, 5.5, 6.0, 6.5, 7.0, 7.50, 8.00, 8.5, 9.0, 9.5, 10.0,12.0,14.0,16.0,18.0,
		20.0,25.0,30.0,35.0,40.0, 45.0, 50.0}; 
	
	// declare histograms and graphs
	TH2F *histNum[NHISTS];
	TH2F *histDen[NHISTS];
	TGraphErrors *graph[NOUTPUTS];
	TH1D* projYNum;
	TEfficiency *effic[NOUTPUTS];
	char efficName[50];
	
	// retrieve the input list of histogram. Check the TList name in the input file.
	TList *list = (TList*) file->Get("out1");
	
	// retrieve the histograms in the list. Check the name of the histograms
	histNum[0] = (TH2F*)list->FindObject("fHistPionRec_ResPt_EmcalMC");
	histNum[1] = (TH2F*)list->FindObject("fHistKaonRec_ResPt_EmcalMC");
	histNum[2] = (TH2F*)list->FindObject("fHistProtonRec_ResPt_EmcalMC");
	histNum[3] = (TH2F*)list->FindObject("fHistMuonRec_ResPt_EmcalMC");
	
	// retrieve the histograms in the list. Check the name of the histograms
	histDen[0] = (TH2F*)list->FindObject("fHistPionAcc_EtaPt_EmcalMC");
	histDen[1] = (TH2F*)list->FindObject("fHistKaonAcc_EtaPt_EmcalMC");
	histDen[2] = (TH2F*)list->FindObject("fHistProtonAcc_EtaPt_EmcalMC");
	histDen[3] = (TH2F*)list->FindObject("fHistMuonAcc_EtaPt_EmcalMC");
	
	// ********************************************

	Float_t x[fgNumOfPtBins]={0}, ex[fgNumOfPtBins]={0};
	Float_t y[fgNumOfPtBins]={0}, ey[fgNumOfPtBins]={0};
	Float_t num=0, den=0;
	//Int_t num=0, den=0;
	Float_t Res=0;
	
	// loop over different desired outputs
	for (int iOut=0; iOut<NOUTPUTS; iOut++)
	{
		sprintf(efficName,"effic_%d",iOut);
		effic[iOut] = new TEfficiency(efficName,efficName,fgNumOfPtBins,fgPtAxis);

		// loop over E bins
		for (int ix=0; ix<fgNumOfPtBins; ix++)
		{
			// initialize ET variables for a new particle species
			x[ix]=histNum[0]->GetXaxis()->GetBinCenter(ix+1);
			y[ix]=0;
			ex[ix]=0;
			ey[ix]=0;
			num = 0;
			den = 0;
			
			// loop over eta bins
			for (int iy=0; iy<fgNumOfEtaBins; iy++)
			{
				for (int iHist=0; iHist<NHISTOUT[iOut]; iHist++)
				{
					den += histDen[IHISTOUT[iOut][iHist]]->GetBinContent(ix+1,iy+1); // sum over all E bins in order to get total ET
				}
			}
			
			// loop over residual bins
			for (int iHist=0; iHist<NHISTOUT[iOut]; iHist++)
			{
				projYNum = histNum[IHISTOUT[iOut][iHist]]->ProjectionY();
				for (int iy=0; iy<fgNumOfRBins; iy++)
				{
					Res = projYNum->GetBinCenter(iy+1);
					if (Res<CUT_RES)
						num += histNum[IHISTOUT[iOut][iHist]]->GetBinContent(ix+1,iy+1); // sum over all E bins in order to get total ET
				}
			}
			
			if ((num>0) && (den>0))
			{
				effic[iOut]->SetTotalEvents(ix,den);
				effic[iOut]->SetPassedEvents(ix,num);
				y[ix] = num/den;
				ey[ix] = y[ix]*sqrt(1/num+1/den);
				//ey[ix] = ((num+1)*(num+2))/((den+2)*(den+3))-((num+1)*(num+1))/((den+2)*(den+2));
			}
			else
			{
				y[ix] = 0;	
				ey[ix] = 0;
			}
			
		} // end of loop over E bins

		graph[iOut] = new TGraphErrors(fgNumOfPtBins,x,y,ex,ey); // graphic of ET(>E_cut)/ET(total) for a given particle species and E cut

	} // end of loop over different outputs

	
	// Draw the plot
	
	if (makeDraw)
	{
		gStyle->SetOptTitle(0);
		gStyle->SetOptStat(0);
		gStyle->SetOptFit(0);	
		
		TCanvas *c = new TCanvas("c","c",500,400);
		//c->SetTopMargin(0.04);
		//c->SetRightMargin(0.04);
		//c->SetLeftMargin(0.181452);
		//c->SetBottomMargin(0.134409);
		c->SetBorderSize(0);
		c->SetFillColor(0);
		c->SetBorderMode(0);
		c->SetFrameFillColor(0);
		c->SetFrameBorderMode(0);
		
		/*
		 for (int i=0; i<NOUTPUTS; i++)
		 {
		 graph[i]->SetMarkerStyle(style[i]);
		 graph[i]->SetMarkerColor(color[i]);
		 graph[i]->SetLineColor(color[i]);
		 graph[i]->SetFillColor(0);
		 if (i == 0) 
		 {
		 graph[i]->GetXaxis()->SetTitle("E (GeV)");
		 graph[i]->GetYaxis()->SetTitle("effic");
		 graph[i]->SetMaximum(1.0);
		 graph[i]->SetMinimum(0.0);
		 graph[i]->Draw("AP");
		 }
		 else 
		 graph[i]->Draw("P");
		 }
		 */
		for (int i=0; i<NOUTPUTS; i++)
		{
			effic[i]->SetMarkerStyle(style[i]);
			effic[i]->SetMarkerColor(color[i]);
			effic[i]->SetLineColor(color[i]);
			effic[i]->SetFillColor(0);
			effic[i]->SetTitle("efficiency; p_{T} (GeV/c); #epsilon");
			if (i == 0) 
			{
				effic[i]->Draw();
			}
			else 
				effic[i]->Draw("Psame");
		}
		
		TLegend *leg = new TLegend(0.65,0.2,0.95,0.5);
		leg->AddEntry(effic[0],"pions");
		leg->AddEntry(effic[1],"kaons");
		leg->AddEntry(effic[2],"protons");
		//leg->AddEntry(effic[3],"muons");
		leg->SetFillStyle(0);
		leg->SetFillColor(0);
		leg->SetBorderSize(0);
		leg->SetTextSize(0.03);
		leg->Draw();
	}
	
	return effic[0];
}
void para_12TeV_2Lep_plots_All()
{
//=========Macro generated from canvas: c1/Parameter1
//=========  (Sun Nov 22 20:05:00 2015) by ROOT version6.02/12
    TCanvas *c1 = new TCanvas("c1", "Parameter1",0,22,1000,600);
    gStyle->SetOptStat(0);
    c1->Range(-4.375,-0.2745458,39.375,2.490986);
    c1->SetFillColor(0);
    c1->SetBorderMode(0);
    c1->SetBorderSize(2);
    c1->SetGridx();
    c1->SetGridy();
    c1->SetFrameBorderMode(0);
    c1->SetFrameBorderMode(0);

    TH1F *NuisanceParameterFreed2 = new TH1F("NuisanceParameterFreed2","Mu",35,0,35);
    NuisanceParameterFreed2->SetMinimum(0.00200744);
    NuisanceParameterFreed2->SetMaximum(2.214433);
    NuisanceParameterFreed2->SetStats(0);

    Int_t ci;      // for color index setting
    TColor *color; // for color definition with alpha
    ci = TColor::GetColor("#000099");
    NuisanceParameterFreed2->SetLineColor(ci);
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(1,"MUONS_MS");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(2,"Luminosity");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(3,"XS_Zb");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(4,"FT_EFF_Eigen_C_2");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(5,"MUON_EFF_TrigStatUncertainty");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(6,"FT_EFF_Eigen_C_3");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(7,"FT_EFF_Eigen_B_0");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(8,"MUON_EFF_SYS");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(9,"MUON_EFF_STAT");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(10,"FT_EFF_Eigen_Light_3");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(11,"FT_EFF_Eigen_Light_4");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(12,"global");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(13,"MUONS_SCALE");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(14,"MUON_ISO_STAT");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(15,"FT_EFF_Eigen_C_0");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(16,"EL_EFF_Iso_TotalCorrUncertainty");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(17,"FT_EFF_Eigen_B_1");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(18,"XS_diboson");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(19,"XS_st");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(20,"MUON_EFF_TrigSystUncertainty");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(21,"EG_RESOLUTION_ALL");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(22,"FT_EFF_Eigen_B_2");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(23,"MUONS_ID");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(24,"EL_EFF_Reco_TotalCorrUncertainty");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(25,"EG_SCALE_ALL");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(26,"FT_EFF_extrapolation");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(27,"FT_EFF_Eigen_Light_1");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(28,"FT_EFF_Eigen_Light_2");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(29,"FT_EFF_Eigen_C_1");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(30,"MUON_ISO_SYS");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(31,"FT_EFF_Eigen_Light_0");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(32,"EL_EFF_ID_TotalCorrUncertainty");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(33,"XS_Zl");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(34,"XS_Zc");
    NuisanceParameterFreed2->GetXaxis()->SetBinLabel(35,"XS_ttbar");
    NuisanceParameterFreed2->GetXaxis()->SetLabelFont(42);
    NuisanceParameterFreed2->GetXaxis()->SetLabelSize(0.035);
    NuisanceParameterFreed2->GetXaxis()->SetTitleSize(0.035);
    NuisanceParameterFreed2->GetXaxis()->SetTitleFont(42);
    NuisanceParameterFreed2->GetYaxis()->SetTitle("#mu_{best}");
    NuisanceParameterFreed2->GetYaxis()->SetLabelFont(42);
    NuisanceParameterFreed2->GetYaxis()->SetLabelSize(0.035);
    NuisanceParameterFreed2->GetYaxis()->SetTitleSize(0.035);
    NuisanceParameterFreed2->GetYaxis()->SetTitleFont(42);
    NuisanceParameterFreed2->GetZaxis()->SetLabelFont(42);
    NuisanceParameterFreed2->GetZaxis()->SetLabelSize(0.035);
    NuisanceParameterFreed2->GetZaxis()->SetTitleSize(0.035);
    NuisanceParameterFreed2->GetZaxis()->SetTitleFont(42);
    NuisanceParameterFreed2->Draw("hist");

    Double_t _fx1002[37] = {
        0,
        0.5,
        1.5,
        2.5,
        3.5,
        4.5,
        5.5,
        6.5,
        7.5,
        8.5,
        9.5,
        10.5,
        11.5,
        12.5,
        13.5,
        14.5,
        15.5,
        16.5,
        17.5,
        18.5,
        19.5,
        20.5,
        21.5,
        22.5,
        23.5,
        24.5,
        25.5,
        26.5,
        27.5,
        28.5,
        29.5,
        30.5,
        31.5,
        32.5,
        33.5,
        34.5,
        0
    };
    Double_t _fy1002[37] = {
        0,
        0.00200744,
        2.065197,
        2.090439,
        2.097085,
        2.102307,
        2.102459,
        2.103994,
        2.109032,
        2.110826,
        2.110827,
        2.110944,
        2.111107,
        2.111297,
        2.111303,
        2.111389,
        2.11147,
        2.1115,
        2.112008,
        2.112152,
        2.112174,
        2.112884,
        2.113456,
        2.113847,
        2.114265,
        2.114548,
        2.11588,
        2.116422,
        2.117402,
        2.123061,
        2.129504,
        2.131184,
        2.133743,
        2.13776,
        2.138737,
        2.214433,
        0
    };
    Double_t _fex1002[37] = {
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0,
        0
    };
    Double_t _fey1002[37] = {
        0,
        0,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10,
        10
    };
    TGraphErrors *gre = new TGraphErrors(37,_fx1002,_fy1002,_fex1002,_fey1002);
    gre->SetName("");
    gre->SetTitle("");
    gre->SetFillColor(1);
    gre->SetMarkerStyle(20);
    gre->SetMarkerSize(1.2);

    TH1F *Graph_Graph1002 = new TH1F("Graph_Graph1002","",100,0,37.95);
    Graph_Graph1002->SetMinimum(-12.22144);
    Graph_Graph1002->SetMaximum(14.43588);
    Graph_Graph1002->SetDirectory(0);
    Graph_Graph1002->SetStats(0);

    ci = TColor::GetColor("#000099");
    Graph_Graph1002->SetLineColor(ci);
    Graph_Graph1002->GetXaxis()->SetLabelFont(42);
    Graph_Graph1002->GetXaxis()->SetLabelSize(0.035);
    Graph_Graph1002->GetXaxis()->SetTitleSize(0.035);
    Graph_Graph1002->GetXaxis()->SetTitleFont(42);
    Graph_Graph1002->GetYaxis()->SetLabelFont(42);
    Graph_Graph1002->GetYaxis()->SetLabelSize(0.035);
    Graph_Graph1002->GetYaxis()->SetTitleSize(0.035);
    Graph_Graph1002->GetYaxis()->SetTitleFont(42);
    Graph_Graph1002->GetZaxis()->SetLabelFont(42);
    Graph_Graph1002->GetZaxis()->SetLabelSize(0.035);
    Graph_Graph1002->GetZaxis()->SetTitleSize(0.035);
    Graph_Graph1002->GetZaxis()->SetTitleFont(42);
    gre->SetHistogram(Graph_Graph1002);

    gre->Draw("p");

    TLegend *leg = new TLegend(0.1,0.4,0.4,0.95,NULL,"brNDC");
    leg->SetBorderSize(0);
    leg->SetTextFont(72);
    leg->SetTextSize(0.015);
    leg->SetLineColor(1);
    leg->SetLineStyle(1);
    leg->SetLineWidth(1);
    leg->SetFillColor(0);
    leg->SetFillStyle(0);
    TLegendEntry *entry=leg->AddEntry("","global","P");
    entry->SetLineColor(1);
    entry->SetLineStyle(1);
    entry->SetLineWidth(1);
    entry->SetMarkerColor(1);
    entry->SetMarkerStyle(20);
    entry->SetMarkerSize(1.2);
    entry->SetTextFont(72);
    leg->Draw();

    TPaveText *pt = new TPaveText(0.4694177,0.94,0.5305823,0.995,"blNDC");
    pt->SetName("title");
    pt->SetBorderSize(0);
    pt->SetFillColor(0);
    pt->SetFillStyle(0);
    pt->SetTextFont(42);
    TText *AText = pt->AddText("Mu");
    pt->Draw();
    c1->Modified();
    c1->cd();
    c1->SetSelected(c1);
}
Beispiel #8
0
//================================================
void SignalShape(const int savePlot = 1)
{
  const int icent = 0;
  const int nfiles = 2;
  const char *filename[nfiles] = {"Pico.Run13.pp500.jpsi.pt1.5.pt1.0.yield.root","Pico.Run13.pp500.jpsi.VtxCut.pt1.5.pt1.0.yield.root"};
  const TString legName[nfiles] = {"W/o vtx cut","W/ vtx cut"};
  const char *saveTitle = "Run13_VtxCut";

  TFile *file[nfiles];
  TH1F *hInvMass[nfiles][nPtBins];
  TH1F *hMean[nfiles];
  TH1F *hSigma[nfiles];  
  TH1F *hYield[nfiles];

  for(int i=0; i<nfiles; i++)
    {
      file[i] = TFile::Open(Form("Rootfiles/%s",filename[i]),"read");

      hMean[i] = (TH1F*)file[i]->Get(Form("Jpsi_FitMean_cent%s",cent_Title[icent]));
      hMean[i]->SetName(Form("%s_%d",hMean[i]->GetName(),i));

      hSigma[i] = (TH1F*)file[i]->Get(Form("Jpsi_FitSigma_cent%s",cent_Title[icent]));
      hSigma[i]->SetName(Form("%s_%d",hSigma[i]->GetName(),i));

      hYield[i] = (TH1F*)file[i]->Get(Form("Jpsi_BinCountYield_cent%s",cent_Title[icent]));
      hYield[i]->SetName(Form("%s_%d",hYield[i]->GetName(),i));

      for(int ipt=0; ipt<nPtBins; ipt++)
	{
	  hInvMass[i][ipt] = (TH1F*)file[i]->Get(Form("Jpsi_Signal_cent%s_pt%s_save",cent_Title[icent],pt_Name[ipt]));
	  hInvMass[i][ipt]->SetName(Form("%s_%d",hInvMass[i][ipt]->GetName(),i));
	}
    }

  // invariant mass distribution
  TCanvas *c = new TCanvas("InvMass","InvMass",1200,700);
  c->Divide(nPtBins/2+nPtBins%2,2);
  TLegend *leg = new TLegend(0.6,0.65,0.85,0.85);
  leg->SetBorderSize(0);
  leg->SetFillColor(0);
  leg->SetTextSize(0.05);
  for(int ipt=0; ipt<nPtBins; ipt++)
    {
      c->cd(ipt+1);
      SetPadMargin(gPad,0.13, 0.13, 0.03, 0.1);
      for(int i=0; i<nfiles; i++)
	{
	  int bin = hInvMass[i][ipt]->FindFixBin(3.09);
	  hInvMass[i][ipt]->Scale(1./hInvMass[i][ipt]->GetBinContent(bin));
	  hInvMass[i][ipt]->SetMaximum(1.5);
	  hInvMass[i][ipt]->SetMarkerStyle(21+i*4);
	  hInvMass[i][ipt]->SetMarkerColor(color[i]);
	  hInvMass[i][ipt]->SetLineColor(color[i]);
	  hInvMass[i][ipt]->SetYTitle("a.u.");
	  ScaleHistoTitle(hInvMass[i][ipt],0.05,1,0.035,0.05,1.4,0.035,62);
	  if(i==0) hInvMass[i][ipt]->Draw();
	  else     hInvMass[i][ipt]->Draw("sames");
	  if(ipt==0) leg->AddEntry(hInvMass[i][ipt],legName[i].Data(),"PL");
	}
      TPaveText *t1 = GetTitleText(Form("%1.0f < p_{T,#mu#mu} < %1.0f GeV/c",ptBins_low[ipt],ptBins_high[ipt]),0.06);
      t1->Draw();
    }
  c->cd(1);
  leg->Draw();
  if(savePlot) c->SaveAs(Form("~/Work/STAR/analysis/Plots/%s/comp_JpsiSig/%s_InvMass_cent%s.pdf",run_type,saveTitle,cent_Title[icent]));

  // mean & sigma
  TList *list = new TList;
  for(int i=0; i<nfiles; i++)
    {
      hMean[i]->SetMarkerStyle(21+i*4);
      hMean[i]->SetMarkerColor(color[i]);
      hMean[i]->SetLineColor(color[i]);
      list->Add(hMean[i]);
    }
  c = drawHistos(list,"mean","Mean of J/#Psi mass peak",false,0,10,false,2.5,3.5,false,true,legName,true,"",0.5,0.7,0.3,0.5,true,0.04,0.04,false,1,false,false);
  if(savePlot) c->SaveAs(Form("~/Work/STAR/analysis/Plots/%s/comp_JpsiSig/%s_JpsiMean_cent%s.pdf",run_type,saveTitle,cent_Title[icent]));

  list->Clear();
  for(int i=0; i<nfiles; i++)
    {
      hSigma[i]->SetMarkerStyle(21+i*4);
      hSigma[i]->SetMarkerColor(color[i]);
      hSigma[i]->SetLineColor(color[i]);
      list->Add(hSigma[i]);
    }
  c = drawHistos(list,"sigma","Width of J/#Psi mass peak",false,0,10,false,2.5,3.5,false,true,legName,true,"",0.55,0.75,0.2,0.4,true,0.04,0.04,false,1,false,false);
  if(savePlot) c->SaveAs(Form("~/Work/STAR/analysis/Plots/%s/comp_JpsiSig/%s_JpsiSigma_cent%s.pdf",run_type,saveTitle,cent_Title[icent]));

  list->Clear();
  for(int i=0; i<nfiles; i++)
    {
      hYield[i]->Scale(1./hYield[i]->Integral());
      hYield[i]->SetMarkerStyle(21+i*4);
      hYield[i]->SetMarkerColor(color[i]);
      hYield[i]->SetLineColor(color[i]);
      list->Add(hYield[i]);
    }
  c = drawHistos(list,"yield","Raw distribution of J/#Psi signal;p_{T} (GeV/c);Prob.",false,0,10,true,0,0.4,false,true,legName,true,"",0.55,0.75,0.6,0.8,true,0.04,0.04,false,1,false,false);
  if(savePlot) c->SaveAs(Form("~/Work/STAR/analysis/Plots/%s/comp_JpsiSig/%s_RawCounts_cent%s.pdf",run_type,saveTitle,cent_Title[icent]));
}
Beispiel #9
0
//================================================
void All(const int compCount = 1, const int compEff = 1, const int compRef = 1, const int savePlot = 1)
{
  const char* dataType[2] = {"New","Old"};
  // Jpsi efficiency vs. pT
  const int nPtBins         = nPtBins_pt;
  const double* ptBins_low  = ptBins_low_pt;
  const double* ptBins_high = ptBins_high_pt;
  const char** ptName       = pt_Name_pt;
  const int nCentBins       = nCentBins_pt; 
  const int* centBins_low   = centBins_low_pt;
  const int* centBins_high  = centBins_high_pt;
  const char** cent_Name    = cent_Name_pt;
  const char** cent_Title   = cent_Title_pt;
  const int kNCent = nCentBins_npart[0];

  const int nbins = nPtBins -1;
  double xbins[nbins+1];
  for(int i=0; i<nbins; i++)
    xbins[i] = ptBins_low[i+1];
  xbins[nbins] = ptBins_high[nbins];

  TList *list = new TList;

  if(compCount)
    {
      TFile *fSig[2];
      fSig[0] = TFile::Open(Form("Rootfiles/%s.JpsiYield.pt%1.1f.pt%1.1f.root",run_type,pt1_cut,pt2_cut),"read");
      fSig[1] = TFile::Open(Form("Rootfiles/old.%s.JpsiYield.pt%1.1f.pt%1.1f.root",run_type,pt1_cut,pt2_cut),"read");
      TH1F *hJpsiCounts[2][7];
      TCanvas *c = new TCanvas("comp_JpsiCounts", "comp_JpsiCounts", 1100, 500);
      c->Divide(4,2);
      TLegend *leg = new TLegend(0.3,0.3,0.6,0.6);
      leg->SetBorderSize(0);
      leg->SetFillColor(0);
      leg->SetTextFont(62);
      leg->SetTextSize(0.08);
      for(int k=0; k<7; k++)
	{
	  for(int j=0; j<2; j++)
	    {
	      if(k<5) hJpsiCounts[j][k] = (TH1F*)fSig[j]->Get(Form("Jpsi_FitYield_cent%s_weight",cent_Title[k]));
	      else    hJpsiCounts[j][k] = (TH1F*)fSig[j]->Get(Form("Jpsi_FitYield_pt%s_weight",pt_Name_npart[k-5]));
	      hJpsiCounts[j][k]->SetName(Form("%s_%d",hJpsiCounts[j][k]->GetName(),j));
	      hJpsiCounts[j][k]->SetMarkerStyle(21+j*4);
	      hJpsiCounts[j][k]->SetMarkerColor(j+1);
	      hJpsiCounts[j][k]->SetLineColor(j+1);

	      c->cd(k+1);
	      gPad->SetLogy();
	      if(k==2 || k==3) hJpsiCounts[j][k]->GetXaxis()->SetRangeUser(0.5,10);
	      if(k==4) hJpsiCounts[j][k]->GetXaxis()->SetRangeUser(0.5,6);
	      hJpsiCounts[j][k]->SetTitle(";;Counts");
	      if(k<5) hJpsiCounts[j][k]->SetXTitle("p_{T} [GeV/c]");
	      if(j==0) hJpsiCounts[j][k]->Draw();
	      else     hJpsiCounts[j][k]->Draw("sames");
	      if(k==0) leg->AddEntry(hJpsiCounts[j][k], dataType[j], "P");
	    }
	  if(k<5) TPaveText *t1 = GetTitleText(Form("%s: %s%%",run_type,cent_Name[k]),0.06);
	  else    TPaveText *t1 = GetTitleText(Form("%s: %s",run_type,pt_Title_npart[k-5]),0.06);
	  t1->Draw();
	}
      c->cd(8);
      leg->Draw();
      if(savePlot) c->SaveAs(Form("~/Work/STAR/analysis/Plots/%s/ana_CompAll/Compare_JpsiCounts.pdf",run_type));
    }
  if(compEff)
    {
      const char *trkEffType[6] = {"MC","Tpc","MtdMth","MuonPid","MtdTrig","TrigUnit"};
      TFile *fEff[2];
      fEff[0] = TFile::Open(Form("Rootfiles/%s.EmbJpsiEff.pt%1.1f.pt%1.1f.root",run_type,pt1_cut,pt2_cut),"read");
      fEff[1] = TFile::Open(Form("Rootfiles/old.%s.EmbJpsiEff.pt%1.1f.pt%1.1f.root",run_type,pt1_cut,pt2_cut),"read");

      const int nHistos = 6;
      TH1F *hJpsiPt[2][nHistos][nCentBins];
      TH1F *hJpsiPtEffs[2][nHistos][nCentBins];
      for(int j=0; j<2; j++)
	{
	  for(int i=0; i<nHistos; i++)
	    {
	      for(int k=0; k<nCentBins; k++)
		{
		  hJpsiPt[j][i][k] = (TH1F*)fEff[j]->Get(Form("hJpsiPt_%s_cent%s",trkEffType[i],cent_Title[k]));
		  hJpsiPt[j][i][k]->SetName(Form("%s_file%d",hJpsiPt[j][i][k]->GetName(),j));
		  hJpsiPt[j][i][k]->Rebin(4);
		  int index = i-1;
		  if(i==0) index = 0;
		  hJpsiPtEffs[j][i][k] = DivideTH1ForEff(hJpsiPt[j][i][k],hJpsiPt[j][index][k],Form("hJpsiPtEff_%s_cent%s_file%d",trkEffType[i],cent_Title[k],j));
		}
	    }
	}

      // various efficiency
      const int kcent = 0;
      for(int i=1; i<nHistos; i++)
	{
	  hJpsiPtEffs[0][i][kcent]->Divide(hJpsiPtEffs[1][i][kcent]);
	  list->Add(hJpsiPtEffs[0][i][kcent]);
	}
      TString legName2[5] = {"TPC tracking + p_{T,#mu} cut","MTD acceptance & response","Muon PID","MTD triggering","Trigger unit"};
      c = drawHistos(list,"JpsiEff_AllEffs",Form("%s: efficiencies for J/#psi ;p_{T} (GeV/c);New/Old",run_type),true,0,15,true,0.8,1.2,false,kTRUE,legName2,true,Form("%s%%",cent_Name[kcent]),0.2,0.4,0.63,0.88,kTRUE,0.04,0.035);
      if(savePlot) c->SaveAs(Form("~/Work/STAR/analysis/Plots/%s/ana_CompAll/Compare_JpsiEff_AllTypes.pdf",run_type));
      list->Clear();
    }

  if(compRef)
    {
      TFile *fpp[2];
      fpp[0] = TFile::Open(Form("Rootfiles/Paper.%s.Jpsi.root",run_type),"read");
      fpp[1] = TFile::Open(Form("Rootfiles/Comb2.Paper.%s.Jpsi.root",run_type),"read");
      TGraphAsymmErrors	*hppJpsiVsPt[2];
      TGraphAsymmErrors	*hppJpsiVsCent[2];
      double x, y, x1, y1;
      for(int j=0; j<2; j++)
	{
	  hppJpsiVsPt[j]   = (TGraphAsymmErrors*)fpp[j]->Get("hpp200JpsiVsPtFinalSys");
	  hppJpsiVsPt[j]->SetName(Form("%s_%d",hppJpsiVsPt[j]->GetName(),j));
	  hppJpsiVsPt[j]->SetMarkerStyle(21+j*4);
	  hppJpsiVsPt[j]->SetMarkerColor(j+1);
	  hppJpsiVsPt[j]->SetLineColor(j+1);
	  offset_x(hppJpsiVsPt[j], 0.1*j);
	  hppJpsiVsCent[j] = (TGraphAsymmErrors*)fpp[j]->Get("hpp200JpsiVsCentFinalSys");
	  hppJpsiVsCent[j]->SetName(Form("%s_%d",hppJpsiVsCent[j]->GetName(),j));
	  hppJpsiVsCent[j]->SetMarkerStyle(21+j*4);
	  hppJpsiVsCent[j]->SetMarkerColor(j+1);
	  hppJpsiVsCent[j]->SetLineColor(j+1);
	  offset_x(hppJpsiVsCent[j], 0.1*j);
	}

      for(int j=0; j<2; j++)
	{
	  for(int ipoint=0; ipoint<hppJpsiVsPt[j]->GetN(); ipoint++)
	    {
	      hppJpsiVsPt[1]->GetPoint(ipoint, x, y);
	      hppJpsiVsPt[j]->GetPoint(ipoint, x1, y1);
	      hppJpsiVsPt[j]->SetPoint(ipoint, x1, y1/y);
	      hppJpsiVsPt[j]->SetPointError(ipoint, hppJpsiVsPt[j]->GetErrorXlow(ipoint), hppJpsiVsPt[j]->GetErrorXhigh(ipoint),
					    hppJpsiVsPt[j]->GetErrorYlow(ipoint)/y, hppJpsiVsPt[j]->GetErrorYhigh(ipoint)/y);
	    }

	  for(int ipoint=0; ipoint<hppJpsiVsCent[j]->GetN(); ipoint++)
	    {
	      hppJpsiVsCent[1]->GetPoint(ipoint, x, y);
	      hppJpsiVsCent[j]->GetPoint(ipoint, x1, y1);
	      hppJpsiVsCent[j]->SetPoint(ipoint, x1, y1/y);
	      hppJpsiVsCent[j]->SetPointError(ipoint, hppJpsiVsCent[j]->GetErrorXlow(ipoint), hppJpsiVsCent[j]->GetErrorXhigh(ipoint),
					    hppJpsiVsCent[j]->GetErrorYlow(ipoint)/y, hppJpsiVsCent[j]->GetErrorYhigh(ipoint)/y);
	    }
	}
      hppJpsiVsPt[1]->GetYaxis()->SetRangeUser(0.5,1.5);
      c = drawGraph(hppJpsiVsPt[1],"Ratio of pp reference;p_{T} [GeV/c];Ratio");
      hppJpsiVsPt[0]->Draw("samesPEZ");
      TLegend *leg = new TLegend(0.6,0.7,0.8,0.85);
      leg->SetBorderSize(0);
      leg->SetFillColor(0);
      leg->SetTextFont(62);
      leg->SetTextSize(0.035);
      leg->AddEntry(hppJpsiVsPt[0], "(STAR+PHENIX)/STAR", "P");
      leg->AddEntry(hppJpsiVsPt[1], "STAR/STAR", "P");
      leg->Draw();
      if(savePlot) c->SaveAs(Form("~/Work/STAR/analysis/Plots/%s/ana_CompAll/Compare_ppRefVsPt.pdf",run_type));

      hppJpsiVsCent[1]->GetXaxis()->SetRangeUser(-0.5,6.5);
      hppJpsiVsCent[1]->GetYaxis()->SetRangeUser(0.5,1.5);
      c = drawGraph(hppJpsiVsCent[1],"Ratio of pp reference;;Ratio");
      hppJpsiVsCent[0]->Draw("samesPEZ");
      leg->Draw();
      if(savePlot) c->SaveAs(Form("~/Work/STAR/analysis/Plots/%s/ana_CompAll/Compare_ppRefVsCent.pdf",run_type));
    }
}
int     DrawInvMassBkgMain(TTree* tree, int leptonId, double Pt_low , double Pt_upp ,int nptbins , TString select, TString effcut , double cut, TString option){

	TString _path= "/Users/GLP/Dropbox/Physique/Master_Thesis/plots_root/ZBkgInvM/";

	setTDRStyle();

	//Some variables
	Long64_t n = tree->GetEntries();
	int nbins = 200;
	double Dpt = (Pt_upp-Pt_low)/nptbins;

	/////////////////////////
	//Name of the output file
	/////////////////////////

	//particle string
	TString pname;
	if(abs(leptonId) == 11){pname = "e";}
	if(abs(leptonId) == 13){pname = "mu";}

	//selection string
	TString _sel;

	if(select == "tight"){_sel = "tight";}
	else if(select == "loose"){_sel = "loose";}
	else if(select == ""){_sel = "";}
	else{cout<<"ERROR: wrong selection !";return 1;}

	//cut string
	TString _effcut;
	if(effcut == "tight"){_effcut = "tight";}
	else if(effcut == ""){_effcut = "";}
	else if(effcut == "loose"){_effcut = "loose";}
	else if(effcut == "reliso3"){_effcut = Form("reliso3_%0.3lf",cut);}
	else if(effcut == "reliso4"){_effcut = Form("reliso4_%0.3lf",cut);}
	else if(effcut == "chiso3"){_effcut = Form("chiso3_%0.3lf",cut);}
	else if(effcut == "chiso4"){_effcut = Form("chiso4_%0.3lf",cut);}
	else if(effcut == "dxy"){_effcut = Form("dxy_%0.3lf",cut);}
	else if(effcut == "dz"){_effcut = Form("dz_%0.3lf",cut);}
	else{cout<<"ERROR: wrong numerator name !";return 1;}

	TString _fname = "InvM4";
	if(option.Contains("matching")){_fname += "_Matched";}

	TString _ptrange;
	_ptrange = Form("Pt%0.f_Pt%0.f",Pt_low,Pt_upp);
	_fname += "_"+_ptrange;
	_fname += "_"+_effcut+"_for_"+_sel+"_"+pname; 

	TFile* file_out = new TFile(_path+_fname+".root","recreate");

	//Histograms
	//Barrel
	TH1D** histo_M_DYJets_bkg_loweta = new TH1D*[nptbins+1];
	TH1D** histo_M_DYJets_loweta = new TH1D*[nptbins+1];
	TH1D** histo_M_bkg_loweta = new TH1D*[nptbins+1];
	TH1D** histo_M_WJets_loweta = new TH1D*[nptbins+1];
	TH1D** histo_M_DYJets_bkg_fail_loweta = new TH1D*[nptbins+1];
	TH1D** histo_M_DYJets_fail_loweta = new TH1D*[nptbins+1];
	TH1D** histo_M_bkg_fail_loweta = new TH1D*[nptbins+1];
	TH1D** histo_M_WJets_fail_loweta = new TH1D*[nptbins+1];
	//Endcape
	TH1D** histo_M_DYJets_bkg_higheta = new TH1D*[nptbins+1];
	TH1D** histo_M_DYJets_higheta = new TH1D*[nptbins+1];
	TH1D** histo_M_bkg_higheta = new TH1D*[nptbins+1];
	TH1D** histo_M_WJets_higheta = new TH1D*[nptbins+1];
	TH1D** histo_M_DYJets_bkg_fail_higheta = new TH1D*[nptbins+1];
	TH1D** histo_M_DYJets_fail_higheta = new TH1D*[nptbins+1];
	TH1D** histo_M_bkg_fail_higheta = new TH1D*[nptbins+1];
	TH1D** histo_M_WJets_fail_higheta = new TH1D*[nptbins+1];

	for(int _i = 0; _i < nptbins+1; ++_i){ 

		double Pt1;
		double Pt2;
		if(_i*Dpt+Pt_low < Pt_upp){Pt1 = _i*Dpt+Pt_low; Pt2 = (_i+1)*Dpt;}
		else if (_i*Dpt+Pt_low >= Pt_upp){Pt1 = _i*Dpt+Pt_low; Pt2 = 10000;}

		//Barrel
		histo_M_DYJets_bkg_loweta[_i] = new TH1D("histo_M_DYJets_bkg_loweta","M",nbins,0,250);
		histo_M_DYJets_loweta[_i] = new TH1D("histo_M_DYJets_loweta","M",nbins,0,250);
		histo_M_bkg_loweta[_i] = new TH1D("histo_M_bkg_loweta","M",nbins,0,250);
		histo_M_WJets_loweta[_i] = new TH1D("histo_M_WYJets_loweta","M",nbins,0,250);
		histo_M_DYJets_bkg_fail_loweta[_i] = new TH1D("histo_M_DYJets_bkg_fail_loweta","M",nbins,0,250);
		histo_M_DYJets_fail_loweta[_i] = new TH1D("histo_M_DYJets_fail_loweta","M",nbins,0,250);
		histo_M_bkg_fail_loweta[_i] = new TH1D("histo_M_bkg_fail_loweta","M",nbins,0,250);
		histo_M_WJets_fail_loweta[_i] = new TH1D("histo_M_WJets_fail_loweta","M",nbins,0,250);
		//Endcape
		histo_M_DYJets_bkg_higheta[_i] = new TH1D("histo_M_DYJets_bkg_higheta","M",nbins,0,250);
		histo_M_DYJets_higheta[_i] = new TH1D("histo_M_DYJets_higheta","M",nbins,0,250);
		histo_M_bkg_higheta[_i] = new TH1D("histo_M_bkg_higheta","M",nbins,0,250);
		histo_M_WJets_higheta[_i] = new TH1D("histo_M_WYJets_higheta","M",nbins,0,250);
		histo_M_DYJets_bkg_fail_higheta[_i] = new TH1D("histo_M_DYJets_bkg_fail_higheta","M",nbins,0,250);
		histo_M_DYJets_fail_higheta[_i] = new TH1D("histo_M_DYJets_fail_higheta","M",nbins,0,250);
		histo_M_bkg_fail_higheta[_i] = new TH1D("histo_M_bkg_fail_higheta","M",nbins,0,250);
		histo_M_WJets_fail_higheta[_i] = new TH1D("histo_M_WJets_fail_higheta","M",nbins,0,250);

	}

	//Event variables
	////Generated
	Int_t evt_id;
	Float_t scale;
	//not loose
	Int_t On;
	Int_t Oid[200];
	Float_t Opt[200];
	Float_t Om[200];
	Float_t Oeta[200];
	Float_t Ophi[200];
	Int_t   Oq[200];
	Int_t Otight[200];
	Int_t Oloose[200];
	Float_t Oiso3[200];
	Float_t Oiso4[200];
	Float_t Ochiso3[200];
	Float_t Ochiso4[200];
	Float_t Odxy[200];
	Float_t Odz[200];
	//loose
	Int_t Gn;
	Int_t matched[200];
	Int_t Gid[200];
	Float_t Gpt[200];
	Float_t Gm[200];
	Float_t Geta[200];
	Float_t Gphi[200];
	Int_t   Gq[200];
	Int_t Gtight[200];
	Int_t Gloose[200];
	Float_t Giso3[200];
	Float_t Giso4[200];
	Float_t Gchiso3[200];
	Float_t Gchiso4[200];
	Float_t Gdxy[200];
	Float_t Gdz[200];

	//Assigne branches
	tree->SetBranchAddress("evt_scale1fb", &scale);
	tree->SetBranchAddress("evt_id", &evt_id);
	//not loose
	tree->SetBranchAddress("nLepOther",&On);
	tree->SetBranchAddress("LepOther_pdgId",&Oid);
	tree->SetBranchAddress("LepOther_pt",&Opt);
	tree->SetBranchAddress("LepOther_mass",&Om);
	tree->SetBranchAddress("LepOther_eta",&Oeta);
	tree->SetBranchAddress("LepOther_phi",&Ophi);
	tree->SetBranchAddress("LepOther_charge",&Oq);
	tree->SetBranchAddress("LepOther_tightId",&Otight);
	tree->SetBranchAddress("LepOther_looseIdSusy",Oloose);
	tree->SetBranchAddress("LepOther_relIso03",&Oiso3);
	tree->SetBranchAddress("LepOther_relIso04",&Oiso4);
	tree->SetBranchAddress("LepOther_chargedHadRelIso03",&Ochiso3);
	tree->SetBranchAddress("LepOther_chargedHadRelIso04",&Ochiso4);
	tree->SetBranchAddress("LepOther_dxy",&Odxy);
	tree->SetBranchAddress("LepOther_dz",&Odz);
	//Loose
	tree->SetBranchAddress("nLepGood",&Gn);
	tree->SetBranchAddress("LepGood_matched",&matched);
	tree->SetBranchAddress("LepGood_pdgId",&Gid);
	tree->SetBranchAddress("LepGood_pt",&Gpt);
	tree->SetBranchAddress("LepGood_mass",&Gm);
	tree->SetBranchAddress("LepGood_eta",&Geta);
	tree->SetBranchAddress("LepGood_phi",&Gphi);
	tree->SetBranchAddress("LepGood_charge",&Gq);
	tree->SetBranchAddress("LepGood_tightId",&Gtight);
	tree->SetBranchAddress("LepGood_looseIdSusy",&Gloose);
	tree->SetBranchAddress("LepGood_relIso03",&Giso3);
	tree->SetBranchAddress("LepGood_relIso04",&Giso4);
	tree->SetBranchAddress("LepGood_chargedHadRelIso03",&Gchiso3);
	tree->SetBranchAddress("LepGood_chargedHadRelIso04",&Gchiso4);
	tree->SetBranchAddress("LepGood_dxy",&Gdxy);
	tree->SetBranchAddress("LepGood_dz",&Gdz);

	//Start loop over all events
	for (int k = 0; k < n; ++k) {

		//Definitions to use T&P
		int tag[2];
		int prob[2];
		tag[0] = 9999;
		tag[1] = 9999;
		prob[0] = 9999;
		prob[1] = 9999;

		tree->GetEntry(k);

		//looseId leptons
		if(select != "loose"){
			for (int i = 0; i < On; ++i) {

				//define selections using bools

				bool reliso3((effcut != "reliso3")||((effcut == "reliso3")&&(Oiso3[i] < cut )));
				bool reliso4((effcut != "reliso4")||((effcut == "reliso4")&&(Oiso4[i] < cut )));
				bool chiso3((effcut != "chiso3")||((effcut == "chiso3")&&(Ochiso3[i] < cut )));
				bool chiso4((effcut != "chiso4")||((effcut == "chiso4")&&(Ochiso4[i] < cut )));
				bool dxy((effcut != "dxy")||((effcut == "dxy")&&(abs(Odxy[i])< cut )));
				bool dz((effcut != "dz")||((effcut == "dz")&&(abs(Odz[i])< cut )));
				bool tight((effcut != "tight")||((effcut == "tight")&&(Otight[i] == 1)));


				//Store the values from both the loose and tight in the same variable

				//Prob selection cut
				if(abs(Oid[i]) == leptonId){
					if((select != "tight")||((select == "tight")&&(Otight[i] == 1))){ 
						if((!option.Contains("matching"))||((option.Contains("matching"))&&(matched[i] == 1))){ 

							//Prob1
							if(prob[0] == 9999){prob[0] = i;}
							//Prob2
							if((prob[0] != 9999)&&(prob[0] != i)&&(prob[1] == 9999)){prob[1] = i;}

							//Selection cut for Tag only
							if(reliso3 && reliso4 && chiso3 && chiso4 && dxy && dz && tight){

								if(prob[0] == i){tag[0] = i; }
								if(prob[1] == i){tag[1] = i; }

							}
						}
					}
				}
			}

			//loop over all the rec particles to find the isolation
			//We requiere one tag at least 
			while((tag[0] != 9999)||(tag[1] != 9999)){

				int l1;
				int l2;

				if(tag[0] != 9999){l1 = prob[1]; l2 = tag[0]; tag[0] = 9999;}
				else if(tag[1] != 9999){l1 = prob[0]; l2 = tag[1]; tag[1] = 9999;}

				double M = InvMass(Opt[l1],Oeta[l1],Ophi[l1],Om[l1],Opt[l2],Oeta[l2],Ophi[l2],Om[l2]);

				if(l1 != 9999){

					for(int ii = 0; ii < nptbins+1; ++ii){
						//Add all the signal to the Z
						double Pt1 = 0;
						double Pt2 = 0;
						if(ii*Dpt+Pt_low < Pt_upp){Pt1 = ii*Dpt+Pt_low; Pt2 = (ii+1)*Dpt+Pt_low;}
						else if (ii*Dpt+Pt_low >= Pt_upp){Pt1 = ii*Dpt+Pt_low; Pt2 = 10000;}
						if((Opt[l1] > Pt1)&&(Opt[l1]< Pt2)){

							bool reliso3((effcut != "reliso3")||((effcut == "reliso3")&&(Oiso3[l1] < cut )));
							bool reliso4((effcut != "reliso4")||((effcut == "reliso4")&&(Oiso4[l1] < cut )));
							bool chiso3((effcut != "chiso3")||((effcut == "chiso3")&&(Ochiso3[l1] < cut )));
							bool chiso4((effcut != "chiso4")||((effcut == "chiso4")&&(Ochiso4[l1] < cut )));
							bool dxy((effcut != "dxy")||((effcut == "dxy")&&(abs(Odxy[l1])< cut )));
							bool dz((effcut != "dz")||((effcut == "dz")&&(abs(Odz[l1])< cut )));
							bool tight((effcut != "tight")||((effcut == "tight")&&(Otight[l1] == 1)));

							//Efficiency cut
							if(reliso3 && reliso4 && chiso3 && chiso4 && dxy && dz && tight){

								if(abs(Oeta[l1]) < 1.2){histo_M_DYJets_bkg_loweta[ii]->Fill(M,scale);}
								if(abs(Oeta[l1]) >= 1.2){histo_M_DYJets_bkg_higheta[ii]->Fill(M,scale);}

								if ((evt_id == 500)||(evt_id == 502)||(evt_id == 503)||(evt_id == 504)||(evt_id == 505)||(evt_id == 300)){
									if(abs(Oeta[l1]) < 1.2){histo_M_bkg_loweta[ii]->Fill(M,scale);}
									if(abs(Oeta[l1]) >= 1.2){histo_M_bkg_higheta[ii]->Fill(M,scale);}

									//Just the Wjets bkg
									if ((evt_id == 500)||(evt_id == 502)||(evt_id == 503)||(evt_id == 504)||(evt_id == 505)){
										if(abs(Oeta[l1]) < 1.2){histo_M_WJets_loweta[ii]->Fill(M,scale);}
										if(abs(Oeta[l1]) >= 1.2){histo_M_WJets_higheta[ii]->Fill(M,scale);}
									}
								}else if((evt_id == 702)||(evt_id == 703)||(evt_id == 704)||(evt_id == 705)||(evt_id == 701)){

									if(abs(Oeta[l1]) < 1.2){histo_M_DYJets_loweta[ii]->Fill(M,scale);}
									if(abs(Oeta[l1]) >= 1.2){histo_M_DYJets_higheta[ii]->Fill(M,scale);}

								}
							}

							reliso3 = ((effcut != "reliso3")||((effcut == "reliso3")&&(Oiso3[l1] >= cut )));
							reliso4 = ((effcut != "reliso4")||((effcut == "reliso4")&&(Oiso4[l1] >= cut )));
							chiso3 = ((effcut != "chiso3")||((effcut == "chiso3")&&(Ochiso3[l1] >= cut )));
							chiso4 = ((effcut != "chiso4")||((effcut == "chiso4")&&(Ochiso4[l1] >= cut )));
							dxy = ((effcut != "dxy")||((effcut == "dxy")&&(abs(Odxy[l1]) >= cut )));
							dz = ((effcut != "dz")||((effcut == "dz")&&(abs(Odz[l1]) >= cut )));
							tight = ((effcut != "tight")||((effcut == "tight")&&(Otight[l1] != 1)));

							if(reliso3 && reliso4 && chiso3 && chiso4 && dxy && dz && tight){

								if(abs(Oeta[l1]) < 1.2)histo_M_DYJets_bkg_fail_loweta[ii]->Fill(M,scale);
								if(abs(Oeta[l1]) >= 1.2)histo_M_DYJets_bkg_fail_higheta[ii]->Fill(M,scale);

								if ((evt_id == 500)||(evt_id == 502)||(evt_id == 503)||(evt_id == 504)||(evt_id == 505)||(evt_id == 300)){
									if(abs(Oeta[l1]) < 1.2)histo_M_bkg_fail_loweta[ii]->Fill(M,scale);
									if(abs(Oeta[l1]) >= 1.2)histo_M_bkg_fail_higheta[ii]->Fill(M,scale);

									if ((evt_id == 500)||(evt_id == 502)||(evt_id == 503)||(evt_id == 504)||(evt_id == 505)){
										if(abs(Oeta[l1]) < 1.2)histo_M_WJets_fail_loweta[ii]->Fill(M,scale);
										if(abs(Oeta[l1]) >= 1.2)histo_M_WJets_fail_higheta[ii]->Fill(M,scale);
									}

								}else if((evt_id == 702)||(evt_id == 703)||(evt_id == 704)||(evt_id == 705)||(evt_id == 701)){

									if(abs(Oeta[l1]) < 1.2)histo_M_DYJets_fail_loweta[ii]->Fill(M,scale);
									if(abs(Oeta[l1]) >= 1.2)histo_M_DYJets_fail_higheta[ii]->Fill(M,scale);

								}
							}
						}
					}
				}
			}
		}

		//Tightid leptons
		for (int i = 0; i < Gn; ++i) {

			//define selections using bools

			bool reliso3((effcut != "reliso3")||((effcut == "reliso3")&&(Giso3[i] < cut )));
			bool reliso4((effcut != "reliso4")||((effcut == "reliso4")&&(Giso4[i] < cut )));
			bool chiso3((effcut != "chiso3")||((effcut == "chiso3")&&(Gchiso3[i] < cut )));
			bool chiso4((effcut != "chiso4")||((effcut == "chiso4")&&(Gchiso4[i] < cut )));
			bool dxy((effcut != "dxy")||((effcut == "dxy")&&(abs(Gdxy[i])< cut )));
			bool dz((effcut != "dz")||((effcut == "dz")&&(abs(Gdz[i])< cut )));
			bool tight((effcut != "tight")||((effcut == "tight")&&(Gtight[i] == 1)));


			//Store the values from both the loose and tight in the same variable

			//Prob selection cut
			if(abs(Gid[i]) == leptonId){
				if((select != "tight")||((select == "tight")&&(Gtight[i] == 1))){ 
					if((!option.Contains("matching"))||((option.Contains("matching"))&&(matched[i] == 1))){ 

						//Prob1
						if(prob[0] == 9999){prob[0] = i;}
						//Prob2
						if((prob[0] != 9999)&&(prob[0] != i)&&(prob[1] == 9999)){prob[1] = i;}

						//Selection cut for Tag only
						if(reliso3 && reliso4 && chiso3 && chiso4 && dxy && dz && tight){

							if(prob[0] == i){tag[0] = i; }
							if(prob[1] == i){tag[1] = i; }

						}
					}
				}
			}
		}

		//loop over all the rec particles to find the isolation
		//We requiere one tag at least 
		while((tag[0] != 9999)||(tag[1] != 9999)){

			int l1;
			int l2;

			if(tag[0] != 9999){l1 = prob[1]; l2 = tag[0]; tag[0] = 9999;}
			else if(tag[1] != 9999){l1 = prob[0]; l2 = tag[1]; tag[1] = 9999;}

			double M = InvMass(Gpt[l1],Geta[l1],Gphi[l1],Gm[l1],Gpt[l2],Geta[l2],Gphi[l2],Gm[l2]);

			if(l1 != 9999){

				for(int ii = 0; ii < nptbins+1; ++ii){
					//Add all the signal to the Z
					double Pt1 = 0;
					double Pt2 = 0;
					if(ii*Dpt+Pt_low < Pt_upp){Pt1 = ii*Dpt+Pt_low; Pt2 = (ii+1)*Dpt+Pt_low;}
					else if (ii*Dpt+Pt_low >= Pt_upp){Pt1 = ii*Dpt+Pt_low; Pt2 = 10000;}
					if((Gpt[l1] > Pt1)&&(Gpt[l1]< Pt2)){

						bool reliso3((effcut != "reliso3")||((effcut == "reliso3")&&(Giso3[l1] < cut )));
						bool reliso4((effcut != "reliso4")||((effcut == "reliso4")&&(Giso4[l1] < cut )));
						bool chiso3((effcut != "chiso3")||((effcut == "chiso3")&&(Gchiso3[l1] < cut )));
						bool chiso4((effcut != "chiso4")||((effcut == "chiso4")&&(Gchiso4[l1] < cut )));
						bool dxy((effcut != "dxy")||((effcut == "dxy")&&(abs(Gdxy[l1])< cut )));
						bool dz((effcut != "dz")||((effcut == "dz")&&(abs(Gdz[l1])< cut )));
						bool tight((effcut != "tight")||((effcut == "tight")&&(Gtight[l1] == 1)));

						//Efficiency cut
						if(reliso3 && reliso4 && chiso3 && chiso4 && dxy && dz && tight){

							if(abs(Geta[l1]) < 1.2){histo_M_DYJets_bkg_loweta[ii]->Fill(M,scale);}
							if(abs(Geta[l1]) >= 1.2){histo_M_DYJets_bkg_higheta[ii]->Fill(M,scale);}

							if ((evt_id == 500)||(evt_id == 502)||(evt_id == 503)||(evt_id == 504)||(evt_id == 505)||(evt_id == 300)){
								if(abs(Geta[l1]) < 1.2){histo_M_bkg_loweta[ii]->Fill(M,scale);}
								if(abs(Geta[l1]) >= 1.2){histo_M_bkg_higheta[ii]->Fill(M,scale);}

								//Just the Wjets bkg
								if ((evt_id == 500)||(evt_id == 502)||(evt_id == 503)||(evt_id == 504)||(evt_id == 505)){
									if(abs(Geta[l1]) < 1.2){histo_M_WJets_loweta[ii]->Fill(M,scale);}
									if(abs(Geta[l1]) >= 1.2){histo_M_WJets_higheta[ii]->Fill(M,scale);}
								}
							}else if((evt_id == 702)||(evt_id == 703)||(evt_id == 704)||(evt_id == 705)||(evt_id == 701)){

								if(abs(Geta[l1]) < 1.2){histo_M_DYJets_loweta[ii]->Fill(M,scale);}
								if(abs(Geta[l1]) >= 1.2){histo_M_DYJets_higheta[ii]->Fill(M,scale);}

							}
						}

						reliso3 = ((effcut != "reliso3")||((effcut == "reliso3")&&(Giso3[l1] >= cut )));
						reliso4 = ((effcut != "reliso4")||((effcut == "reliso4")&&(Giso4[l1] >= cut )));
						chiso3 = ((effcut != "chiso3")||((effcut == "chiso3")&&(Gchiso3[l1] >= cut )));
						chiso4 = ((effcut != "chiso4")||((effcut == "chiso4")&&(Gchiso4[l1] >= cut )));
						dxy = ((effcut != "dxy")||((effcut == "dxy")&&(abs(Gdxy[l1]) >= cut )));
						dz = ((effcut != "dz")||((effcut == "dz")&&(abs(Gdz[l1]) >= cut )));
						tight = ((effcut != "tight")||((effcut == "tight")&&(Gtight[l1] != 1)));

						if(reliso3 && reliso4 && chiso3 && chiso4 && dxy && dz && tight){

							if(abs(Geta[l1]) < 1.2)histo_M_DYJets_bkg_fail_loweta[ii]->Fill(M,scale);
							if(abs(Geta[l1]) >= 1.2)histo_M_DYJets_bkg_fail_higheta[ii]->Fill(M,scale);

							if ((evt_id == 500)||(evt_id == 502)||(evt_id == 503)||(evt_id == 504)||(evt_id == 505)||(evt_id == 300)){
								if(abs(Geta[l1]) < 1.2)histo_M_bkg_fail_loweta[ii]->Fill(M,scale);
								if(abs(Geta[l1]) >= 1.2)histo_M_bkg_fail_higheta[ii]->Fill(M,scale);

								if ((evt_id == 500)||(evt_id == 502)||(evt_id == 503)||(evt_id == 504)||(evt_id == 505)){
									if(abs(Geta[l1]) < 1.2)histo_M_WJets_fail_loweta[ii]->Fill(M,scale);
									if(abs(Geta[l1]) >= 1.2)histo_M_WJets_fail_higheta[ii]->Fill(M,scale);
								}

							}else if((evt_id == 702)||(evt_id == 703)||(evt_id == 704)||(evt_id == 705)||(evt_id == 701)){

								if(abs(Geta[l1]) < 1.2)histo_M_DYJets_fail_loweta[ii]->Fill(M,scale);
								if(abs(Geta[l1]) >= 1.2)histo_M_DYJets_fail_higheta[ii]->Fill(M,scale);
							}
						}
					}
				}
			}
		}
	}

	for(int i = 0; i < nptbins+1; ++i){

		//Plot the canvas
		double Pt1;
		double Pt2;
		if(i*Dpt+Pt_low < Pt_upp){Pt1 = i*Dpt+Pt_low; Pt2 = (i+1)*Dpt+Pt_low;}
		else if (i*Dpt+Pt_low >= Pt_upp){Pt1 = i*Dpt+Pt_low; Pt2 = 10000;}

		TCanvas* c1 = new TCanvas("c1","c1");
		c1->Divide(1,2);
		TCanvas* c2 = new TCanvas("c2","c2");
		c2->Divide(1,2);
		TCanvas* c3 = new TCanvas("c3","c3");
		c3->Divide(1,2);
		TCanvas* c4 = new TCanvas("c4","c4");
		c4->Divide(1,2);

		//Zbkg pass eta<1.2
		c1->cd(1);
		histo_M_DYJets_bkg_loweta[i]->Draw();

		TString _title; 
		_title = Form(", %0.f #leq P_{t} #leq %0.f",Pt1,Pt2);
		if(Pt2==10000)_title = Form(", %0.f  #leq P_{t}",Pt1);
		TString _stitle = (TString)"Invariant mass for "+pname+_title+", #||{#eta}<1.2, "+effcut+" pass";
		TString _stitlefail = (TString)"Invariant mass for "+pname+_title+", #||{#eta}<1.2, "+effcut+" fail";
		TString _stitle2 = (TString)"Invariant mass for "+pname+_title+", #||{#eta}>1.2, "+effcut+" pass";
		TString _stitle2fail = (TString)"Invariant mass for "+pname+_title+", #||{#eta}>1.2, "+effcut+" fail";

		histo_M_DYJets_bkg_loweta[i]->SetTitle(_stitle);
		histo_M_DYJets_bkg_loweta[i]->GetXaxis()->SetTitle("m [GeV]");
		histo_M_DYJets_bkg_loweta[i]->SetLineWidth(2);
		histo_M_DYJets_bkg_loweta[i]->SetLineColor(4);
		histo_M_DYJets_bkg_loweta[i]->SetMarkerColor(4);
		histo_M_bkg_loweta[i]->Draw("same");
		histo_M_bkg_loweta[i]->SetLineWidth(2);
		histo_M_bkg_loweta[i]->SetMarkerColor(2);
		histo_M_bkg_loweta[i]->SetLineColor(2);
		histo_M_WJets_loweta[i]->Draw("same");
		histo_M_WJets_loweta[i]->SetLineWidth(3);
		histo_M_WJets_loweta[i]->SetLineColor(3);
		histo_M_WJets_loweta[i]->SetMarkerColor(3);
		TLegend* leg = new TLegend(0.6, 0.7,0.89,0.89);
		leg->AddEntry(histo_M_DYJets_bkg_loweta[i], "Z + bkg");
		leg->SetTextFont(43);
		leg->SetTextSize(25);
		leg->AddEntry(histo_M_bkg_loweta[i], "TTJets + WJets");
		leg->AddEntry(histo_M_WJets_loweta[i], "WJets");
		leg->SetBorderSize(0);
		leg->Draw();

		//Zbkg fail eta<1.2
		c1->cd(2);
		histo_M_DYJets_bkg_fail_loweta[i]->Draw();
		histo_M_DYJets_bkg_fail_loweta[i]->SetTitle(_stitlefail);
		histo_M_DYJets_bkg_fail_loweta[i]->GetXaxis()->SetTitle("m [GeV]");
		histo_M_DYJets_bkg_fail_loweta[i]->SetLineWidth(2);
		histo_M_DYJets_bkg_fail_loweta[i]->SetLineColor(4);
		histo_M_DYJets_bkg_fail_loweta[i]->SetMarkerColor(4);
		histo_M_bkg_fail_loweta[i]->Draw("same");
		histo_M_bkg_fail_loweta[i]->SetLineWidth(2);
		histo_M_bkg_fail_loweta[i]->SetMarkerColor(2);
		histo_M_bkg_fail_loweta[i]->SetLineColor(2);
		histo_M_WJets_fail_loweta[i]->Draw("same");
		histo_M_WJets_fail_loweta[i]->SetLineWidth(3);
		histo_M_WJets_fail_loweta[i]->SetLineColor(3);
		histo_M_WJets_fail_loweta[i]->SetMarkerColor(3);

		//Z pass eta<1.2
		c2->cd(1);
		histo_M_DYJets_loweta[i]->Draw();
		histo_M_DYJets_loweta[i]->SetTitle(_stitle);
		histo_M_DYJets_loweta[i]->GetXaxis()->SetTitle("m [GeV]");
		histo_M_DYJets_loweta[i]->SetLineWidth(2);
		histo_M_DYJets_loweta[i]->SetLineColor(4);
		histo_M_DYJets_loweta[i]->SetMarkerColor(4);
		histo_M_bkg_loweta[i]->Draw("same");
		histo_M_bkg_loweta[i]->SetLineWidth(2);
		histo_M_bkg_loweta[i]->SetMarkerColor(2);
		histo_M_bkg_loweta[i]->SetLineColor(2);
		TLegend* leg2 = new TLegend(0.6, 0.7,0.89,0.89);
		leg2->SetTextFont(43);
		leg2->SetTextSize(25);
		leg2->AddEntry(histo_M_DYJets_loweta[i], "Z");
		leg2->AddEntry(histo_M_bkg_loweta[i], "TTJets + WJets");
		leg2->SetBorderSize(0);
		leg2->Draw();

		//Z fail eta<1.2
		c2->cd(2);
		histo_M_DYJets_fail_loweta[i]->Draw();
		histo_M_DYJets_fail_loweta[i]->SetTitle(_stitlefail);
		histo_M_DYJets_fail_loweta[i]->GetXaxis()->SetTitle("m [GeV]");
		histo_M_DYJets_fail_loweta[i]->SetLineWidth(2);
		histo_M_DYJets_fail_loweta[i]->SetLineColor(4);
		histo_M_DYJets_fail_loweta[i]->SetMarkerColor(4);
		histo_M_bkg_fail_loweta[i]->Draw("same");
		histo_M_bkg_fail_loweta[i]->SetLineWidth(2);
		histo_M_bkg_fail_loweta[i]->SetMarkerColor(2);
		histo_M_bkg_fail_loweta[i]->SetLineColor(2);

		//Zbkg pass eta>1.2
		c3->cd(1);
		histo_M_DYJets_bkg_higheta[i]->Draw();
		histo_M_DYJets_bkg_higheta[i]->SetTitle(_stitle2);
		histo_M_DYJets_bkg_higheta[i]->GetXaxis()->SetTitle("m [GeV]");
		histo_M_DYJets_bkg_higheta[i]->SetLineWidth(2);
		histo_M_DYJets_bkg_higheta[i]->SetLineColor(4);
		histo_M_DYJets_bkg_higheta[i]->SetMarkerColor(4);
		histo_M_bkg_higheta[i]->Draw("same");
		histo_M_bkg_higheta[i]->SetLineWidth(2);
		histo_M_bkg_higheta[i]->SetMarkerColor(2);
		histo_M_bkg_higheta[i]->SetLineColor(2);
		histo_M_WJets_higheta[i]->Draw("same");
		histo_M_WJets_higheta[i]->SetLineWidth(3);
		histo_M_WJets_higheta[i]->SetLineColor(3);
		histo_M_WJets_higheta[i]->SetMarkerColor(3);
		leg->Draw();

		//Zbkg fail eta>1.2
		c3->cd(2);
		histo_M_DYJets_bkg_fail_higheta[i]->Draw();
		histo_M_DYJets_bkg_fail_higheta[i]->SetTitle(_stitle2fail);
		histo_M_DYJets_bkg_fail_higheta[i]->SetLineWidth(2);
		histo_M_DYJets_bkg_fail_higheta[i]->SetLineColor(4);
		histo_M_DYJets_bkg_fail_higheta[i]->SetMarkerColor(4);
		histo_M_bkg_fail_higheta[i]->Draw("same");
		histo_M_bkg_fail_higheta[i]->SetLineWidth(2);
		histo_M_bkg_fail_higheta[i]->SetMarkerColor(2);
		histo_M_bkg_fail_higheta[i]->SetLineColor(2);
		histo_M_WJets_fail_higheta[i]->Draw("same");
		histo_M_WJets_fail_higheta[i]->SetLineWidth(3);
		histo_M_WJets_fail_higheta[i]->SetLineColor(3);
		histo_M_WJets_fail_higheta[i]->SetMarkerColor(3);

		//Z pass eta >1.2
		TCanvas* c7 = new TCanvas("c7","c7");
		c4->cd(1);
		histo_M_DYJets_higheta[i]->Draw();
		histo_M_DYJets_higheta[i]->SetTitle(_stitle2);
		histo_M_DYJets_higheta[i]->SetLineWidth(2);
		histo_M_DYJets_higheta[i]->SetLineColor(4);
		histo_M_DYJets_higheta[i]->SetMarkerColor(4);
		histo_M_bkg_higheta[i]->Draw("same");
		histo_M_bkg_higheta[i]->SetLineWidth(2);
		histo_M_bkg_higheta[i]->SetMarkerColor(2);
		histo_M_bkg_higheta[i]->SetLineColor(2);
		leg2->Draw();

		//Z fail eta >1.2
		c4->cd(2);
		histo_M_DYJets_fail_higheta[i]->Draw();
		histo_M_DYJets_fail_higheta[i]->SetTitle(_stitle2fail);
		histo_M_DYJets_fail_higheta[i]->SetLineWidth(2);
		histo_M_DYJets_fail_higheta[i]->SetLineColor(4);
		histo_M_DYJets_fail_higheta[i]->SetMarkerColor(4);
		histo_M_bkg_fail_higheta[i]->Draw("same");
		histo_M_bkg_fail_higheta[i]->SetLineWidth(2);
		histo_M_bkg_fail_higheta[i]->SetMarkerColor(2);
		histo_M_bkg_fail_higheta[i]->SetLineColor(2);

		c1->Write(Form("Zbkg_Pt%0.f_Pt%0.f_eta<1.2",Pt1,Pt2));
		c2->Write(Form("Z_Pt%0.f_Pt%0.f_eta<1.2",Pt1,Pt2));
		c3->Write(Form("Zbkg_Pt%0.f_Pt%0.f_eta>1.2",Pt1,Pt2));
		c4->Write(Form("Z_Pt%0.f_Pt%0.f_eta>1.2",Pt1,Pt2));


		mkdir(_path+_fname+"_PDF/", S_IRWXU | S_IRWXG | S_IROTH | S_IXOTH);
		TString _cname = Form(_path+_fname+"_PDF/InvM4_Pt%0.f_Pt%0.f",Pt1,Pt2);
		_cname += "_"+_effcut+"_"+pname;
		TString _c1name = _cname+ "_Zbkg_bkg_eta<1.2.pdf";
		TString _c2name = _cname+ "_Z_bkg_eta<1.2.pdf";
		TString _c3name = _cname+ "_Zbkg_bkg_eta>1.2.pdf";
		TString _c4name = _cname+ "_Z_bkg_eta>1.2.pdf";

		c1->SaveAs(_c1name);
		c2->SaveAs(_c2name);
		c3->SaveAs(_c3name);
		c4->SaveAs(_c4name);

		histo_M_DYJets_bkg_loweta[i]->Write(Form("histo_M_DYJets_bkg_loweta_Pt%0.f_Pt%0.f",Pt1,Pt2));
		histo_M_DYJets_loweta[i]->Write(Form("histo_M_DYJets_loweta_Pt%0.f_Pt%0.f",Pt1,Pt2)); 
		histo_M_bkg_loweta[i]->Write(Form("histo_M_bkg_loweta_Pt%0.f_Pt%0.f",Pt1,Pt2)); 
		histo_M_WJets_loweta[i]->Write(Form("histo_M_WJets_loweta_Pt%0.f_Pt%0.f",Pt1,Pt2)); 
		histo_M_DYJets_bkg_fail_loweta[i]->Write(Form("histo_M_DYJets_bkg_fail_loweta_Pt%0.f_Pt%0.f",Pt1,Pt2)); 
		histo_M_DYJets_fail_loweta[i]->Write(Form("histo_M_DYJets_fail_loweta_Pt%0.f_Pt%0.f",Pt1,Pt2)); 
		histo_M_bkg_fail_loweta[i]->Write(Form("histo_M_bkg_fail_loweta_Pt%0.f_Pt%0.f",Pt1,Pt2)); 
		histo_M_WJets_fail_loweta[i]->Write(Form("histo_M_WJets_fail_loweta_Pt%0.f_Pt%0.f",Pt1,Pt2)); 

		//Endcape
		histo_M_DYJets_bkg_higheta[i]->Write(Form("histo_M_DYJets_bkg_higheta_Pt%0.f_Pt%0.f",Pt1,Pt2));
		histo_M_DYJets_higheta[i]->Write(Form("histo_M_DYJets_higheta_Pt%0.f_Pt%0.f",Pt1,Pt2)); 
		histo_M_bkg_higheta[i]->Write(Form("histo_M_bkg_higheta_Pt%0.f_Pt%0.f",Pt1,Pt2)); 
		histo_M_WJets_higheta[i]->Write(Form("histo_M_WJets_higheta_Pt%0.f_Pt%0.f",Pt1,Pt2));
		histo_M_DYJets_bkg_fail_higheta[i]->Write(Form("histo_M_DYJets_bkg_fail_higheta_Pt%0.f_Pt%0.f",Pt1,Pt2)); 
		histo_M_DYJets_fail_higheta[i]->Write(Form("histo_M_DYJets_fail_higheta_Pt%0.f_Pt%0.f",Pt1,Pt2)); 
		histo_M_bkg_fail_higheta[i]->Write(Form("histo_M_bkg_fail_higheta_Pt%0.f_Pt%0.f",Pt1,Pt2)); 
		histo_M_WJets_fail_higheta[i]->Write(Form("histo_M_WJets_fail_higheta_Pt%0.f_Pt%0.f",Pt1,Pt2));



	}

	file_out->Close();

	return 0;

}
void JER_FCCee_vs_CLIC_conformal_Zuds100_myCLIC()
{
//=========Macro generated from canvas: c1/A Simple Graph Example
//=========  (Thu May 17 12:00:25 2018) by ROOT version6.08/00
   TCanvas *c1 = new TCanvas("c1", "A Simple Graph Example",2,51,800,700);
   gStyle->SetOptStat(0);
   gStyle->SetOptTitle(0);
   c1->SetHighLightColor(2);
   c1->Range(-0.2266667,1.283784,1.106667,8.040541);
   c1->SetFillColor(0);
   c1->SetBorderMode(0);
   c1->SetBorderSize(2);
   c1->SetTickx(1);
   c1->SetTicky(1);
   c1->SetPhi(150);
   c1->SetLeftMargin(0.17);
   c1->SetRightMargin(0.08);
   c1->SetTopMargin(0.08);
   c1->SetBottomMargin(0.18);
   c1->SetFrameLineWidth(2);
   c1->SetFrameBorderMode(0);
   c1->SetFrameLineWidth(2);
   c1->SetFrameBorderMode(0);
   Double_t xAxis11[14] = {0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 0.925, 0.95, 0.975, 1}; 
   
   TH1F *ResVsCosTheta__11 = new TH1F("ResVsCosTheta__11","RMS_{90}(E_{j}) / Mean_{90}(E_{j}) vs |cos(#theta)|",13, xAxis11);
   ResVsCosTheta__11->SetBinContent(1,4.720301);
   ResVsCosTheta__11->SetBinContent(2,4.735073);
   ResVsCosTheta__11->SetBinContent(3,4.429979);
   ResVsCosTheta__11->SetBinContent(4,4.161036);
   ResVsCosTheta__11->SetBinContent(5,4.56193);
   ResVsCosTheta__11->SetBinContent(6,4.619762);
   ResVsCosTheta__11->SetBinContent(7,4.61053);
   ResVsCosTheta__11->SetBinContent(8,4.636955);
   ResVsCosTheta__11->SetBinContent(9,4.862062);
   ResVsCosTheta__11->SetBinContent(10,4.842597);
   ResVsCosTheta__11->SetBinContent(11,6.005219);
   ResVsCosTheta__11->SetBinContent(12,8.532589);
   ResVsCosTheta__11->SetBinContent(13,20.53576);
   ResVsCosTheta__11->SetBinError(1,0.1808823);
   ResVsCosTheta__11->SetBinError(2,0.1746558);
   ResVsCosTheta__11->SetBinError(3,0.1531225);
   ResVsCosTheta__11->SetBinError(4,0.1448687);
   ResVsCosTheta__11->SetBinError(5,0.1546639);
   ResVsCosTheta__11->SetBinError(6,0.1508406);
   ResVsCosTheta__11->SetBinError(7,0.1406199);
   ResVsCosTheta__11->SetBinError(8,0.1358532);
   ResVsCosTheta__11->SetBinError(9,0.1328214);
   ResVsCosTheta__11->SetBinError(10,0.2715593);
   ResVsCosTheta__11->SetBinError(11,0.3160641);
   ResVsCosTheta__11->SetBinError(12,0.438869);
   ResVsCosTheta__11->SetBinError(13,1.057646);
   ResVsCosTheta__11->SetMinimum(2.5);
   ResVsCosTheta__11->SetMaximum(7.5);
   ResVsCosTheta__11->SetEntries(13);
   ResVsCosTheta__11->SetStats(0);
   ResVsCosTheta__11->SetLineWidth(2);
   ResVsCosTheta__11->SetMarkerStyle(24);
   ResVsCosTheta__11->SetMarkerSize(1.2);
   ResVsCosTheta__11->GetXaxis()->SetTitle("|cos(#theta)|");
   ResVsCosTheta__11->GetXaxis()->SetNdivisions(506);
   ResVsCosTheta__11->GetXaxis()->SetLabelFont(42);
   ResVsCosTheta__11->GetXaxis()->SetLabelOffset(0.015);
   ResVsCosTheta__11->GetXaxis()->SetLabelSize(0.06);
   ResVsCosTheta__11->GetXaxis()->SetTitleSize(0.07);
   ResVsCosTheta__11->GetXaxis()->SetTitleFont(42);
   ResVsCosTheta__11->GetYaxis()->SetTitle("RMS_{90}(E_{j}) / Mean_{90}(E_{j}) [%]");
   ResVsCosTheta__11->GetYaxis()->SetNdivisions(506);
   ResVsCosTheta__11->GetYaxis()->SetLabelFont(42);
   ResVsCosTheta__11->GetYaxis()->SetLabelOffset(0.015);
   ResVsCosTheta__11->GetYaxis()->SetLabelSize(0.06);
   ResVsCosTheta__11->GetYaxis()->SetTitleSize(0.07);
   ResVsCosTheta__11->GetYaxis()->SetTitleOffset(0.95);
   ResVsCosTheta__11->GetYaxis()->SetTitleFont(42);
   ResVsCosTheta__11->GetZaxis()->SetLabelFont(42);
   ResVsCosTheta__11->GetZaxis()->SetLabelOffset(0.015);
   ResVsCosTheta__11->GetZaxis()->SetLabelSize(0.06);
   ResVsCosTheta__11->GetZaxis()->SetTitleSize(0.07);
   ResVsCosTheta__11->GetZaxis()->SetTitleOffset(1.2);
   ResVsCosTheta__11->GetZaxis()->SetTitleFont(42);
   ResVsCosTheta__11->Draw("");
   Double_t xAxis12[14] = {0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 0.925, 0.95, 0.975, 1}; 
   
   TH1F *ResVsCosTheta__12 = new TH1F("ResVsCosTheta__12","RMS_{90}(E_{j}) / Mean_{90}(E_{j}) vs |cos(#theta)|",13, xAxis12);
   ResVsCosTheta__12->SetBinContent(1,4.40504);
   ResVsCosTheta__12->SetBinContent(2,4.35462);
   ResVsCosTheta__12->SetBinContent(3,4.454359);
   ResVsCosTheta__12->SetBinContent(4,4.18309);
   ResVsCosTheta__12->SetBinContent(5,4.366775);
   ResVsCosTheta__12->SetBinContent(6,4.006863);
   ResVsCosTheta__12->SetBinContent(7,4.36426);
   ResVsCosTheta__12->SetBinContent(8,4.475314);
   ResVsCosTheta__12->SetBinContent(9,4.870826);
   ResVsCosTheta__12->SetBinContent(10,5.268826);
   ResVsCosTheta__12->SetBinContent(11,6.97412);
   ResVsCosTheta__12->SetBinContent(12,10.08);
   ResVsCosTheta__12->SetBinContent(13,21.51662);
   ResVsCosTheta__12->SetBinError(1,0.1701815);
   ResVsCosTheta__12->SetBinError(2,0.1620622);
   ResVsCosTheta__12->SetBinError(3,0.154987);
   ResVsCosTheta__12->SetBinError(4,0.1468882);
   ResVsCosTheta__12->SetBinError(5,0.1491662);
   ResVsCosTheta__12->SetBinError(6,0.1323183);
   ResVsCosTheta__12->SetBinError(7,0.1341105);
   ResVsCosTheta__12->SetBinError(8,0.1320847);
   ResVsCosTheta__12->SetBinError(9,0.1342177);
   ResVsCosTheta__12->SetBinError(10,0.2959268);
   ResVsCosTheta__12->SetBinError(11,0.3691096);
   ResVsCosTheta__12->SetBinError(12,0.5212247);
   ResVsCosTheta__12->SetBinError(13,1.109635);
   ResVsCosTheta__12->SetMinimum(0);
   ResVsCosTheta__12->SetMaximum(10);
   ResVsCosTheta__12->SetEntries(13);
   ResVsCosTheta__12->SetStats(0);

   Int_t ci;      // for color index setting
   TColor *color; // for color definition with alpha
   ci = TColor::GetColor("#ff6666");
   ResVsCosTheta__12->SetLineColor(ci);
   ResVsCosTheta__12->SetLineWidth(2);

   ci = TColor::GetColor("#ff6666");
   ResVsCosTheta__12->SetMarkerColor(ci);
   ResVsCosTheta__12->SetMarkerStyle(25);
   ResVsCosTheta__12->SetMarkerSize(1.2);
   ResVsCosTheta__12->GetXaxis()->SetTitle("|cos(#theta)|");
   ResVsCosTheta__12->GetXaxis()->SetNdivisions(506);
   ResVsCosTheta__12->GetXaxis()->SetLabelFont(42);
   ResVsCosTheta__12->GetXaxis()->SetLabelOffset(0.015);
   ResVsCosTheta__12->GetXaxis()->SetLabelSize(0.06);
   ResVsCosTheta__12->GetXaxis()->SetTitleSize(0.07);
   ResVsCosTheta__12->GetXaxis()->SetTitleFont(42);
   ResVsCosTheta__12->GetYaxis()->SetTitle("RMS_{90}(E_{j}) / Mean_{90}(E_{j}) [%]");
   ResVsCosTheta__12->GetYaxis()->SetNdivisions(506);
   ResVsCosTheta__12->GetYaxis()->SetLabelFont(42);
   ResVsCosTheta__12->GetYaxis()->SetLabelOffset(0.015);
   ResVsCosTheta__12->GetYaxis()->SetLabelSize(0.06);
   ResVsCosTheta__12->GetYaxis()->SetTitleSize(0.07);
   ResVsCosTheta__12->GetYaxis()->SetTitleOffset(0.95);
   ResVsCosTheta__12->GetYaxis()->SetTitleFont(42);
   ResVsCosTheta__12->GetZaxis()->SetLabelFont(42);
   ResVsCosTheta__12->GetZaxis()->SetLabelOffset(0.015);
   ResVsCosTheta__12->GetZaxis()->SetLabelSize(0.06);
   ResVsCosTheta__12->GetZaxis()->SetTitleSize(0.07);
   ResVsCosTheta__12->GetZaxis()->SetTitleOffset(1.2);
   ResVsCosTheta__12->GetZaxis()->SetTitleFont(42);
   ResVsCosTheta__12->Draw("same");
   
   TLegend *leg = new TLegend(0.2,0.7,0.58,0.9,NULL,"brNDC");
   leg->SetBorderSize(0);
   leg->SetTextFont(62);
   leg->SetLineColor(1);
   leg->SetLineStyle(1);
   leg->SetLineWidth(2);
   leg->SetFillColor(0);
   leg->SetFillStyle(1001);
   TLegendEntry *entry=leg->AddEntry("ResVsCosTheta","FCCee","lp");
   entry->SetLineColor(1);
   entry->SetLineStyle(1);
   entry->SetLineWidth(2);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(24);
   entry->SetMarkerSize(1.2);
   entry->SetTextFont(62);
   entry=leg->AddEntry("ResVsCosTheta","CLIC","lp");

   ci = TColor::GetColor("#ff6666");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(2);

   ci = TColor::GetColor("#ff6666");
   entry->SetMarkerColor(ci);
   entry->SetMarkerStyle(25);
   entry->SetMarkerSize(1.2);
   entry->SetTextFont(62);
   leg->Draw();
   c1->Modified();
   c1->cd();
   c1->SetSelected(c1);
}
Beispiel #12
0
void plotgvsr(){

int xbin=0;	//xbin<1
int xpt=0;
int xtheta=0;	//xtheta<5

TFile *f = TFile::Open("mergedV_Sum.root");
TFile *fProd = TFile::Open("mergedV_Prod.root");
TVectorD *vecDr = f->Get(Form("D_%d/r",xbin));
TVectorD *vecDg2 = f->Get(Form("D_%d/D_%d/D_%d/G2",xbin,xpt,xtheta));
TVectorD *vecDsigma2 = f->Get(Form("D_%d/D_%d/sigma2",xbin,xpt));
TVectorD *vecDV = f->Get(Form("D_%d/D_%d/V",xbin,xpt));
TVectorD *vecDavgmult = f->Get(Form("D_%d/avgmult",xbin));

TVectorD *vecDr_ = fProd->Get(Form("D_%d/r",xbin));
TVectorD *vecDg2_ = fProd->Get(Form("D_%d/D_%d/D_%d/G2",xbin,xpt,xtheta));
TVectorD *vecDsigma2_ = fProd->Get(Form("D_%d/D_%d/sigma2",xbin,xpt));
TVectorD *vecDV_ = fProd->Get(Form("D_%d/D_%d/V",xbin,xpt));
TVectorD *vecDavgmult_ = fProd->Get(Form("D_%d/avgmult",xbin));

double *r = vecDr->GetMatrixArray();
double *g2 = vecDg2->GetMatrixArray();
double *sigma2 = vecDsigma2->GetMatrixArray();
double *V = vecDV->GetMatrixArray();
double *avgmult = vecDavgmult->GetMatrixArray();

double *r_ = vecDr_->GetMatrixArray();
double *g2_ = vecDg2_->GetMatrixArray();
double *sigma2_ = vecDsigma2_->GetMatrixArray();
double *V_ = vecDV_->GetMatrixArray();
double *avgmult_ = vecDavgmult_->GetMatrixArray();

TCanvas *c1 = new TCanvas;
c1->SetLogy();
TGraph *gr=new TGraph(nstepr,r,g2);
TGraph *grProd=new TGraph(nstepr,r_,g2_);
gr->GetXaxis()->SetTitle("r");
gr->GetYaxis()->SetTitle("|G^{#theta}(ir)|");
gr->GetXaxis()->SetRangeUser(0.1,0.4);
gr->GetYaxis()->SetRangeUser(1e-8,2);
gr->SetTitle("");
gr->SetMarkerSize(1);
gr->SetMarkerColor(1);
grProd->SetMarkerColor(4);
gr->SetMarkerStyle(20);
grProd->SetMarkerStyle(29);
gr->Draw("AP");
grProd->Draw("Psame");
TLatex *t= new TLatex();
t->SetNDC();
if(xtheta==0)
t->DrawLatex(0.2,0.8,Form("%d < mult <%d, theta = %d", trkbin[xbin+1],trkbin[xbin],xtheta));
else
t->DrawLatex(0.2,0.8,Form("%d < mult <%d, theta = #frac{%d}{%d}#pi", trkbin[xbin+1],trkbin[xbin],xtheta,ntheta*nn));

double inV2 = 5.81474986447428899e-02;
TF1 *gcl = new TF1("gcl","TMath::Power(exp(-[0]*x*x/4)*TMath::BesselJ0([1]*x),2)",0,1);
TF1 *gclProd = new TF1("gclProd","TMath::Power(exp(-[0]*x*x/4)*TMath::BesselJ0([1]*x),2)",0,1);
//gcl->SetParameters(sigma2[xtheta],V[xtheta]*sigma2[xtheta]);
//gcl->SetParameters(300,0.065*300);
cout<<sigma2[xtheta]<<"\t"<<V[xtheta]<<"\t"<<avgmult[xbin]<<endl;
gcl->SetParameters(sigma2[xtheta]+V[xtheta]*V[xtheta]*avgmult[xbin]*avgmult[xbin]-inV2*inV2*avgmult[xbin]*avgmult[xbin],inV2*avgmult[xbin]);
gclProd->SetParameters(sigma2_[xtheta]+V_[xtheta]*V_[xtheta]*avgmult_[xbin]*avgmult_[xbin]-inV2*inV2*avgmult_[xbin]*avgmult_[xbin],inV2*avgmult_[xbin]);
gcl->SetLineColor(2);
gclProd->SetLineColor(3);
TLegend *leg = new TLegend(0.6,0.45,0.8,0.65);
leg->SetBorderSize(0);
leg->SetFillColor(0);
leg->SetTextSize(0.04);
leg->AddEntry(gr,"LYZ Sum Analysis result","P");
leg->AddEntry(grProd,"LYZ Prod Analysis result","P");
leg->AddEntry(gcl,"theoretical prediction","L");
leg->Draw("same");
gcl->Draw("same");
c1->Print("gvsr.png");

f->Close();

}
void TrackClusterDistanceCut_Zuds91_totalRecoEnergy()
{
//=========Macro generated from canvas: c1/A Simple Graph Example
//=========  (Mon Mar  5 13:11:08 2018) by ROOT version6.08/00
   TCanvas *c1 = new TCanvas("c1", "A Simple Graph Example",2,51,800,700);
   gStyle->SetOptStat(0);
   gStyle->SetOptTitle(0);
   c1->SetHighLightColor(2);
   c1->Range(-27.2,-290.1405,132.8,1321.751);
   c1->SetFillColor(0);
   c1->SetBorderMode(0);
   c1->SetBorderSize(2);
   c1->SetTickx(1);
   c1->SetTicky(1);
   c1->SetPhi(150);
   c1->SetLeftMargin(0.17);
   c1->SetRightMargin(0.08);
   c1->SetTopMargin(0.08);
   c1->SetBottomMargin(0.18);
   c1->SetFrameLineWidth(2);
   c1->SetFrameBorderMode(0);
   c1->SetFrameLineWidth(2);
   c1->SetFrameBorderMode(0);
   
   TH1F *hist_pfoEnergyTotal__6 = new TH1F("hist_pfoEnergyTotal__6","hist_pfoEnergyTotal",500,0,500);
   hist_pfoEnergyTotal__6->SetBinContent(19,1);
   hist_pfoEnergyTotal__6->SetBinContent(22,1);
   hist_pfoEnergyTotal__6->SetBinContent(28,2);
   hist_pfoEnergyTotal__6->SetBinContent(33,1);
   hist_pfoEnergyTotal__6->SetBinContent(35,2);
   hist_pfoEnergyTotal__6->SetBinContent(37,1);
   hist_pfoEnergyTotal__6->SetBinContent(38,1);
   hist_pfoEnergyTotal__6->SetBinContent(40,1);
   hist_pfoEnergyTotal__6->SetBinContent(41,1);
   hist_pfoEnergyTotal__6->SetBinContent(42,1);
   hist_pfoEnergyTotal__6->SetBinContent(44,2);
   hist_pfoEnergyTotal__6->SetBinContent(45,1);
   hist_pfoEnergyTotal__6->SetBinContent(46,2);
   hist_pfoEnergyTotal__6->SetBinContent(48,1);
   hist_pfoEnergyTotal__6->SetBinContent(49,2);
   hist_pfoEnergyTotal__6->SetBinContent(50,2);
   hist_pfoEnergyTotal__6->SetBinContent(51,4);
   hist_pfoEnergyTotal__6->SetBinContent(53,1);
   hist_pfoEnergyTotal__6->SetBinContent(54,2);
   hist_pfoEnergyTotal__6->SetBinContent(55,4);
   hist_pfoEnergyTotal__6->SetBinContent(56,5);
   hist_pfoEnergyTotal__6->SetBinContent(57,5);
   hist_pfoEnergyTotal__6->SetBinContent(58,2);
   hist_pfoEnergyTotal__6->SetBinContent(59,5);
   hist_pfoEnergyTotal__6->SetBinContent(60,2);
   hist_pfoEnergyTotal__6->SetBinContent(61,2);
   hist_pfoEnergyTotal__6->SetBinContent(62,4);
   hist_pfoEnergyTotal__6->SetBinContent(63,3);
   hist_pfoEnergyTotal__6->SetBinContent(64,5);
   hist_pfoEnergyTotal__6->SetBinContent(65,7);
   hist_pfoEnergyTotal__6->SetBinContent(66,6);
   hist_pfoEnergyTotal__6->SetBinContent(67,4);
   hist_pfoEnergyTotal__6->SetBinContent(68,13);
   hist_pfoEnergyTotal__6->SetBinContent(69,2);
   hist_pfoEnergyTotal__6->SetBinContent(70,12);
   hist_pfoEnergyTotal__6->SetBinContent(71,7);
   hist_pfoEnergyTotal__6->SetBinContent(72,2);
   hist_pfoEnergyTotal__6->SetBinContent(73,7);
   hist_pfoEnergyTotal__6->SetBinContent(74,11);
   hist_pfoEnergyTotal__6->SetBinContent(75,11);
   hist_pfoEnergyTotal__6->SetBinContent(76,12);
   hist_pfoEnergyTotal__6->SetBinContent(77,29);
   hist_pfoEnergyTotal__6->SetBinContent(78,27);
   hist_pfoEnergyTotal__6->SetBinContent(79,37);
   hist_pfoEnergyTotal__6->SetBinContent(80,42);
   hist_pfoEnergyTotal__6->SetBinContent(81,64);
   hist_pfoEnergyTotal__6->SetBinContent(82,112);
   hist_pfoEnergyTotal__6->SetBinContent(83,132);
   hist_pfoEnergyTotal__6->SetBinContent(84,184);
   hist_pfoEnergyTotal__6->SetBinContent(85,266);
   hist_pfoEnergyTotal__6->SetBinContent(86,365);
   hist_pfoEnergyTotal__6->SetBinContent(87,528);
   hist_pfoEnergyTotal__6->SetBinContent(88,744);
   hist_pfoEnergyTotal__6->SetBinContent(89,896);
   hist_pfoEnergyTotal__6->SetBinContent(90,1094);
   hist_pfoEnergyTotal__6->SetBinContent(91,1136);
   hist_pfoEnergyTotal__6->SetBinContent(92,1054);
   hist_pfoEnergyTotal__6->SetBinContent(93,857);
   hist_pfoEnergyTotal__6->SetBinContent(94,660);
   hist_pfoEnergyTotal__6->SetBinContent(95,495);
   hist_pfoEnergyTotal__6->SetBinContent(96,313);
   hist_pfoEnergyTotal__6->SetBinContent(97,245);
   hist_pfoEnergyTotal__6->SetBinContent(98,171);
   hist_pfoEnergyTotal__6->SetBinContent(99,101);
   hist_pfoEnergyTotal__6->SetBinContent(100,78);
   hist_pfoEnergyTotal__6->SetBinContent(101,51);
   hist_pfoEnergyTotal__6->SetBinContent(102,39);
   hist_pfoEnergyTotal__6->SetBinContent(103,27);
   hist_pfoEnergyTotal__6->SetBinContent(104,19);
   hist_pfoEnergyTotal__6->SetBinContent(105,24);
   hist_pfoEnergyTotal__6->SetBinContent(106,9);
   hist_pfoEnergyTotal__6->SetBinContent(107,7);
   hist_pfoEnergyTotal__6->SetBinContent(108,8);
   hist_pfoEnergyTotal__6->SetBinContent(109,2);
   hist_pfoEnergyTotal__6->SetBinContent(110,3);
   hist_pfoEnergyTotal__6->SetBinContent(111,2);
   hist_pfoEnergyTotal__6->SetBinContent(112,2);
   hist_pfoEnergyTotal__6->SetBinContent(113,5);
   hist_pfoEnergyTotal__6->SetBinContent(114,6);
   hist_pfoEnergyTotal__6->SetBinContent(115,1);
   hist_pfoEnergyTotal__6->SetBinContent(117,2);
   hist_pfoEnergyTotal__6->SetBinContent(122,1);
   hist_pfoEnergyTotal__6->SetBinContent(132,1);
   hist_pfoEnergyTotal__6->SetBinContent(156,1);
   hist_pfoEnergyTotal__6->SetEntries(10000);
   hist_pfoEnergyTotal__6->SetStats(0);
   hist_pfoEnergyTotal__6->SetLineWidth(2);
   hist_pfoEnergyTotal__6->SetMarkerStyle(0);
   hist_pfoEnergyTotal__6->SetMarkerSize(1.2);
   hist_pfoEnergyTotal__6->GetXaxis()->SetTitle("Energy [GeV]");
   hist_pfoEnergyTotal__6->GetXaxis()->SetRange(1,120);
   hist_pfoEnergyTotal__6->GetXaxis()->SetNdivisions(506);
   hist_pfoEnergyTotal__6->GetXaxis()->SetLabelFont(42);
   hist_pfoEnergyTotal__6->GetXaxis()->SetLabelOffset(0.015);
   hist_pfoEnergyTotal__6->GetXaxis()->SetLabelSize(0.06);
   hist_pfoEnergyTotal__6->GetXaxis()->SetTitleSize(0.07);
   hist_pfoEnergyTotal__6->GetXaxis()->SetTitleFont(42);
   hist_pfoEnergyTotal__6->GetYaxis()->SetTitle("Counts");
   hist_pfoEnergyTotal__6->GetYaxis()->SetNdivisions(506);
   hist_pfoEnergyTotal__6->GetYaxis()->SetLabelFont(42);
   hist_pfoEnergyTotal__6->GetYaxis()->SetLabelOffset(0.015);
   hist_pfoEnergyTotal__6->GetYaxis()->SetLabelSize(0.06);
   hist_pfoEnergyTotal__6->GetYaxis()->SetTitleSize(0.07);
   hist_pfoEnergyTotal__6->GetYaxis()->SetTitleOffset(1.2);
   hist_pfoEnergyTotal__6->GetYaxis()->SetTitleFont(42);
   hist_pfoEnergyTotal__6->GetZaxis()->SetLabelFont(42);
   hist_pfoEnergyTotal__6->GetZaxis()->SetLabelOffset(0.015);
   hist_pfoEnergyTotal__6->GetZaxis()->SetLabelSize(0.06);
   hist_pfoEnergyTotal__6->GetZaxis()->SetTitleSize(0.07);
   hist_pfoEnergyTotal__6->GetZaxis()->SetTitleOffset(1.2);
   hist_pfoEnergyTotal__6->GetZaxis()->SetTitleFont(42);
   hist_pfoEnergyTotal__6->Draw("HIST");
   
   TH1F *hist_pfoEnergyTotal__7 = new TH1F("hist_pfoEnergyTotal__7","hist_pfoEnergyTotal",500,0,500);
   hist_pfoEnergyTotal__7->SetBinContent(16,1);
   hist_pfoEnergyTotal__7->SetBinContent(24,1);
   hist_pfoEnergyTotal__7->SetBinContent(28,1);
   hist_pfoEnergyTotal__7->SetBinContent(30,1);
   hist_pfoEnergyTotal__7->SetBinContent(31,1);
   hist_pfoEnergyTotal__7->SetBinContent(33,1);
   hist_pfoEnergyTotal__7->SetBinContent(34,1);
   hist_pfoEnergyTotal__7->SetBinContent(36,2);
   hist_pfoEnergyTotal__7->SetBinContent(38,2);
   hist_pfoEnergyTotal__7->SetBinContent(39,1);
   hist_pfoEnergyTotal__7->SetBinContent(42,1);
   hist_pfoEnergyTotal__7->SetBinContent(43,2);
   hist_pfoEnergyTotal__7->SetBinContent(45,2);
   hist_pfoEnergyTotal__7->SetBinContent(46,1);
   hist_pfoEnergyTotal__7->SetBinContent(47,2);
   hist_pfoEnergyTotal__7->SetBinContent(48,2);
   hist_pfoEnergyTotal__7->SetBinContent(49,3);
   hist_pfoEnergyTotal__7->SetBinContent(50,2);
   hist_pfoEnergyTotal__7->SetBinContent(51,2);
   hist_pfoEnergyTotal__7->SetBinContent(53,1);
   hist_pfoEnergyTotal__7->SetBinContent(55,7);
   hist_pfoEnergyTotal__7->SetBinContent(56,1);
   hist_pfoEnergyTotal__7->SetBinContent(57,1);
   hist_pfoEnergyTotal__7->SetBinContent(59,5);
   hist_pfoEnergyTotal__7->SetBinContent(61,4);
   hist_pfoEnergyTotal__7->SetBinContent(62,5);
   hist_pfoEnergyTotal__7->SetBinContent(63,2);
   hist_pfoEnergyTotal__7->SetBinContent(64,6);
   hist_pfoEnergyTotal__7->SetBinContent(65,8);
   hist_pfoEnergyTotal__7->SetBinContent(66,2);
   hist_pfoEnergyTotal__7->SetBinContent(67,5);
   hist_pfoEnergyTotal__7->SetBinContent(68,8);
   hist_pfoEnergyTotal__7->SetBinContent(69,11);
   hist_pfoEnergyTotal__7->SetBinContent(70,11);
   hist_pfoEnergyTotal__7->SetBinContent(71,6);
   hist_pfoEnergyTotal__7->SetBinContent(72,9);
   hist_pfoEnergyTotal__7->SetBinContent(73,10);
   hist_pfoEnergyTotal__7->SetBinContent(74,16);
   hist_pfoEnergyTotal__7->SetBinContent(75,11);
   hist_pfoEnergyTotal__7->SetBinContent(76,22);
   hist_pfoEnergyTotal__7->SetBinContent(77,21);
   hist_pfoEnergyTotal__7->SetBinContent(78,40);
   hist_pfoEnergyTotal__7->SetBinContent(79,27);
   hist_pfoEnergyTotal__7->SetBinContent(80,45);
   hist_pfoEnergyTotal__7->SetBinContent(81,79);
   hist_pfoEnergyTotal__7->SetBinContent(82,107);
   hist_pfoEnergyTotal__7->SetBinContent(83,152);
   hist_pfoEnergyTotal__7->SetBinContent(84,202);
   hist_pfoEnergyTotal__7->SetBinContent(85,266);
   hist_pfoEnergyTotal__7->SetBinContent(86,396);
   hist_pfoEnergyTotal__7->SetBinContent(87,536);
   hist_pfoEnergyTotal__7->SetBinContent(88,766);
   hist_pfoEnergyTotal__7->SetBinContent(89,869);
   hist_pfoEnergyTotal__7->SetBinContent(90,1082);
   hist_pfoEnergyTotal__7->SetBinContent(91,1242);
   hist_pfoEnergyTotal__7->SetBinContent(92,1051);
   hist_pfoEnergyTotal__7->SetBinContent(93,848);
   hist_pfoEnergyTotal__7->SetBinContent(94,612);
   hist_pfoEnergyTotal__7->SetBinContent(95,477);
   hist_pfoEnergyTotal__7->SetBinContent(96,315);
   hist_pfoEnergyTotal__7->SetBinContent(97,204);
   hist_pfoEnergyTotal__7->SetBinContent(98,146);
   hist_pfoEnergyTotal__7->SetBinContent(99,97);
   hist_pfoEnergyTotal__7->SetBinContent(100,59);
   hist_pfoEnergyTotal__7->SetBinContent(101,47);
   hist_pfoEnergyTotal__7->SetBinContent(102,40);
   hist_pfoEnergyTotal__7->SetBinContent(103,21);
   hist_pfoEnergyTotal__7->SetBinContent(104,16);
   hist_pfoEnergyTotal__7->SetBinContent(105,13);
   hist_pfoEnergyTotal__7->SetBinContent(106,8);
   hist_pfoEnergyTotal__7->SetBinContent(107,4);
   hist_pfoEnergyTotal__7->SetBinContent(108,3);
   hist_pfoEnergyTotal__7->SetBinContent(109,8);
   hist_pfoEnergyTotal__7->SetBinContent(110,3);
   hist_pfoEnergyTotal__7->SetBinContent(112,1);
   hist_pfoEnergyTotal__7->SetBinContent(113,2);
   hist_pfoEnergyTotal__7->SetBinContent(114,3);
   hist_pfoEnergyTotal__7->SetBinContent(115,4);
   hist_pfoEnergyTotal__7->SetBinContent(116,2);
   hist_pfoEnergyTotal__7->SetBinContent(117,1);
   hist_pfoEnergyTotal__7->SetBinContent(119,1);
   hist_pfoEnergyTotal__7->SetBinContent(120,1);
   hist_pfoEnergyTotal__7->SetBinContent(126,1);
   hist_pfoEnergyTotal__7->SetBinContent(168,1);
   hist_pfoEnergyTotal__7->SetBinContent(218,1);
   hist_pfoEnergyTotal__7->SetEntries(10000);
   hist_pfoEnergyTotal__7->SetStats(0);

   Int_t ci;      // for color index setting
   TColor *color; // for color definition with alpha
   ci = TColor::GetColor("#ff6666");
   hist_pfoEnergyTotal__7->SetLineColor(ci);
   hist_pfoEnergyTotal__7->SetLineWidth(2);

   ci = TColor::GetColor("#ff6666");
   hist_pfoEnergyTotal__7->SetMarkerColor(ci);
   hist_pfoEnergyTotal__7->SetMarkerStyle(0);
   hist_pfoEnergyTotal__7->SetMarkerSize(1.2);
   hist_pfoEnergyTotal__7->GetXaxis()->SetRange(1,1000);
   hist_pfoEnergyTotal__7->GetXaxis()->SetNdivisions(506);
   hist_pfoEnergyTotal__7->GetXaxis()->SetLabelFont(42);
   hist_pfoEnergyTotal__7->GetXaxis()->SetLabelOffset(0.015);
   hist_pfoEnergyTotal__7->GetXaxis()->SetLabelSize(0.06);
   hist_pfoEnergyTotal__7->GetXaxis()->SetTitleSize(0.07);
   hist_pfoEnergyTotal__7->GetXaxis()->SetTitleFont(42);
   hist_pfoEnergyTotal__7->GetYaxis()->SetNdivisions(506);
   hist_pfoEnergyTotal__7->GetYaxis()->SetLabelFont(42);
   hist_pfoEnergyTotal__7->GetYaxis()->SetLabelOffset(0.015);
   hist_pfoEnergyTotal__7->GetYaxis()->SetLabelSize(0.06);
   hist_pfoEnergyTotal__7->GetYaxis()->SetTitleSize(0.07);
   hist_pfoEnergyTotal__7->GetYaxis()->SetTitleOffset(1.2);
   hist_pfoEnergyTotal__7->GetYaxis()->SetTitleFont(42);
   hist_pfoEnergyTotal__7->GetZaxis()->SetLabelFont(42);
   hist_pfoEnergyTotal__7->GetZaxis()->SetLabelOffset(0.015);
   hist_pfoEnergyTotal__7->GetZaxis()->SetLabelSize(0.06);
   hist_pfoEnergyTotal__7->GetZaxis()->SetTitleSize(0.07);
   hist_pfoEnergyTotal__7->GetZaxis()->SetTitleOffset(1.2);
   hist_pfoEnergyTotal__7->GetZaxis()->SetTitleFont(42);
   hist_pfoEnergyTotal__7->Draw("HISTsame");
   
   TH1F *hist_pfoEnergyTotal__8 = new TH1F("hist_pfoEnergyTotal__8","hist_pfoEnergyTotal",500,0,500);
   hist_pfoEnergyTotal__8->SetBinContent(24,1);
   hist_pfoEnergyTotal__8->SetBinContent(26,1);
   hist_pfoEnergyTotal__8->SetBinContent(27,1);
   hist_pfoEnergyTotal__8->SetBinContent(29,1);
   hist_pfoEnergyTotal__8->SetBinContent(33,1);
   hist_pfoEnergyTotal__8->SetBinContent(34,1);
   hist_pfoEnergyTotal__8->SetBinContent(37,1);
   hist_pfoEnergyTotal__8->SetBinContent(39,3);
   hist_pfoEnergyTotal__8->SetBinContent(40,1);
   hist_pfoEnergyTotal__8->SetBinContent(41,2);
   hist_pfoEnergyTotal__8->SetBinContent(43,2);
   hist_pfoEnergyTotal__8->SetBinContent(45,3);
   hist_pfoEnergyTotal__8->SetBinContent(46,3);
   hist_pfoEnergyTotal__8->SetBinContent(48,1);
   hist_pfoEnergyTotal__8->SetBinContent(49,1);
   hist_pfoEnergyTotal__8->SetBinContent(50,2);
   hist_pfoEnergyTotal__8->SetBinContent(51,1);
   hist_pfoEnergyTotal__8->SetBinContent(52,2);
   hist_pfoEnergyTotal__8->SetBinContent(54,1);
   hist_pfoEnergyTotal__8->SetBinContent(55,4);
   hist_pfoEnergyTotal__8->SetBinContent(56,2);
   hist_pfoEnergyTotal__8->SetBinContent(57,1);
   hist_pfoEnergyTotal__8->SetBinContent(58,4);
   hist_pfoEnergyTotal__8->SetBinContent(59,2);
   hist_pfoEnergyTotal__8->SetBinContent(60,2);
   hist_pfoEnergyTotal__8->SetBinContent(61,4);
   hist_pfoEnergyTotal__8->SetBinContent(62,3);
   hist_pfoEnergyTotal__8->SetBinContent(63,4);
   hist_pfoEnergyTotal__8->SetBinContent(64,8);
   hist_pfoEnergyTotal__8->SetBinContent(65,8);
   hist_pfoEnergyTotal__8->SetBinContent(66,8);
   hist_pfoEnergyTotal__8->SetBinContent(67,5);
   hist_pfoEnergyTotal__8->SetBinContent(68,2);
   hist_pfoEnergyTotal__8->SetBinContent(69,4);
   hist_pfoEnergyTotal__8->SetBinContent(70,6);
   hist_pfoEnergyTotal__8->SetBinContent(71,11);
   hist_pfoEnergyTotal__8->SetBinContent(72,7);
   hist_pfoEnergyTotal__8->SetBinContent(73,10);
   hist_pfoEnergyTotal__8->SetBinContent(74,8);
   hist_pfoEnergyTotal__8->SetBinContent(75,18);
   hist_pfoEnergyTotal__8->SetBinContent(76,16);
   hist_pfoEnergyTotal__8->SetBinContent(77,15);
   hist_pfoEnergyTotal__8->SetBinContent(78,41);
   hist_pfoEnergyTotal__8->SetBinContent(79,27);
   hist_pfoEnergyTotal__8->SetBinContent(80,48);
   hist_pfoEnergyTotal__8->SetBinContent(81,77);
   hist_pfoEnergyTotal__8->SetBinContent(82,110);
   hist_pfoEnergyTotal__8->SetBinContent(83,144);
   hist_pfoEnergyTotal__8->SetBinContent(84,210);
   hist_pfoEnergyTotal__8->SetBinContent(85,261);
   hist_pfoEnergyTotal__8->SetBinContent(86,402);
   hist_pfoEnergyTotal__8->SetBinContent(87,544);
   hist_pfoEnergyTotal__8->SetBinContent(88,744);
   hist_pfoEnergyTotal__8->SetBinContent(89,954);
   hist_pfoEnergyTotal__8->SetBinContent(90,1083);
   hist_pfoEnergyTotal__8->SetBinContent(91,1208);
   hist_pfoEnergyTotal__8->SetBinContent(92,1099);
   hist_pfoEnergyTotal__8->SetBinContent(93,820);
   hist_pfoEnergyTotal__8->SetBinContent(94,609);
   hist_pfoEnergyTotal__8->SetBinContent(95,437);
   hist_pfoEnergyTotal__8->SetBinContent(96,316);
   hist_pfoEnergyTotal__8->SetBinContent(97,206);
   hist_pfoEnergyTotal__8->SetBinContent(98,132);
   hist_pfoEnergyTotal__8->SetBinContent(99,97);
   hist_pfoEnergyTotal__8->SetBinContent(100,68);
   hist_pfoEnergyTotal__8->SetBinContent(101,41);
   hist_pfoEnergyTotal__8->SetBinContent(102,37);
   hist_pfoEnergyTotal__8->SetBinContent(103,24);
   hist_pfoEnergyTotal__8->SetBinContent(104,19);
   hist_pfoEnergyTotal__8->SetBinContent(105,15);
   hist_pfoEnergyTotal__8->SetBinContent(106,11);
   hist_pfoEnergyTotal__8->SetBinContent(107,5);
   hist_pfoEnergyTotal__8->SetBinContent(108,4);
   hist_pfoEnergyTotal__8->SetBinContent(109,8);
   hist_pfoEnergyTotal__8->SetBinContent(110,4);
   hist_pfoEnergyTotal__8->SetBinContent(111,3);
   hist_pfoEnergyTotal__8->SetBinContent(112,1);
   hist_pfoEnergyTotal__8->SetBinContent(113,2);
   hist_pfoEnergyTotal__8->SetBinContent(114,1);
   hist_pfoEnergyTotal__8->SetBinContent(115,1);
   hist_pfoEnergyTotal__8->SetBinContent(118,2);
   hist_pfoEnergyTotal__8->SetBinContent(119,1);
   hist_pfoEnergyTotal__8->SetBinContent(123,1);
   hist_pfoEnergyTotal__8->SetBinContent(167,1);
   hist_pfoEnergyTotal__8->SetBinContent(170,1);
   hist_pfoEnergyTotal__8->SetEntries(10000);
   hist_pfoEnergyTotal__8->SetStats(0);

   ci = TColor::GetColor("#0000ff");
   hist_pfoEnergyTotal__8->SetLineColor(ci);
   hist_pfoEnergyTotal__8->SetLineWidth(2);

   ci = TColor::GetColor("#0000ff");
   hist_pfoEnergyTotal__8->SetMarkerColor(ci);
   hist_pfoEnergyTotal__8->SetMarkerStyle(0);
   hist_pfoEnergyTotal__8->SetMarkerSize(1.2);
   hist_pfoEnergyTotal__8->GetXaxis()->SetRange(1,1000);
   hist_pfoEnergyTotal__8->GetXaxis()->SetNdivisions(506);
   hist_pfoEnergyTotal__8->GetXaxis()->SetLabelFont(42);
   hist_pfoEnergyTotal__8->GetXaxis()->SetLabelOffset(0.015);
   hist_pfoEnergyTotal__8->GetXaxis()->SetLabelSize(0.06);
   hist_pfoEnergyTotal__8->GetXaxis()->SetTitleSize(0.07);
   hist_pfoEnergyTotal__8->GetXaxis()->SetTitleFont(42);
   hist_pfoEnergyTotal__8->GetYaxis()->SetNdivisions(506);
   hist_pfoEnergyTotal__8->GetYaxis()->SetLabelFont(42);
   hist_pfoEnergyTotal__8->GetYaxis()->SetLabelOffset(0.015);
   hist_pfoEnergyTotal__8->GetYaxis()->SetLabelSize(0.06);
   hist_pfoEnergyTotal__8->GetYaxis()->SetTitleSize(0.07);
   hist_pfoEnergyTotal__8->GetYaxis()->SetTitleOffset(1.2);
   hist_pfoEnergyTotal__8->GetYaxis()->SetTitleFont(42);
   hist_pfoEnergyTotal__8->GetZaxis()->SetLabelFont(42);
   hist_pfoEnergyTotal__8->GetZaxis()->SetLabelOffset(0.015);
   hist_pfoEnergyTotal__8->GetZaxis()->SetLabelSize(0.06);
   hist_pfoEnergyTotal__8->GetZaxis()->SetTitleSize(0.07);
   hist_pfoEnergyTotal__8->GetZaxis()->SetTitleOffset(1.2);
   hist_pfoEnergyTotal__8->GetZaxis()->SetTitleFont(42);
   hist_pfoEnergyTotal__8->Draw("HISTsame");
   
   TLegend *leg = new TLegend(0.2,0.6,0.6,0.9,NULL,"brNDC");
   leg->SetBorderSize(0);
   leg->SetTextFont(62);
   leg->SetLineColor(1);
   leg->SetLineStyle(1);
   leg->SetLineWidth(2);
   leg->SetFillColor(0);
   leg->SetFillStyle(1001);
   TLegendEntry *entry=leg->AddEntry("hist_pfoEnergyTotal","Nominal (89.96 GeV)","lp");
   entry->SetLineColor(1);
   entry->SetLineStyle(1);
   entry->SetLineWidth(2);
   entry->SetMarkerColor(1);
   entry->SetMarkerSize(1.2);
   entry->SetTextFont(62);
   entry=leg->AddEntry("hist_pfoEnergyTotal","20mm cut (89.76 GeV)","lp");

   ci = TColor::GetColor("#ff6666");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(2);

   ci = TColor::GetColor("#ff6666");
   entry->SetMarkerColor(ci);
   entry->SetMarkerSize(1.2);
   entry->SetTextFont(62);
   entry=leg->AddEntry("hist_pfoEnergyTotal","50mm cut (89.76 GeV)","lp");

   ci = TColor::GetColor("#0000ff");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(2);

   ci = TColor::GetColor("#0000ff");
   entry->SetMarkerColor(ci);
   entry->SetMarkerSize(1.2);
   entry->SetTextFont(62);
   leg->Draw();
   c1->Modified();
   c1->cd();
   c1->SetSelected(c1);
}
Beispiel #14
0
void ZinvEstimate(){//main programme
     //Set Canvas Style
     TStyle *gStyle = new TStyle("gStyle","Style for P-TDR");
     SetStyle st;
     st.SetPars(gStyle);
     //finished setting canvas style
     DataMC plot;
     //Important
     //In kevins v3 production due to a bug puWeight is divided to all standard MC weights ...this should be removed 
     //from the code if you are using it for version otherthan V3
     TString InputFilePathV4="/eos/uscms/store/user/pedrok/SUSY2015/Analysis/Skims/Run2ProductionV4/";

     TString InputFilePathV3="/eos/uscms/store/user/pedrok/SUSY2015/Analysis/Skims/Run2ProductionV3/";

     TString InputFilePathV2="/eos/uscms/store/user/pedrok/SUSY2015/Analysis/Skims/Run2ProductionV2/";

     


     TChain* tZinv = new TChain("tree");
     tZinv->Add(InputFilePathV4+"tree_signal/tree_ZJetsToNuNu_HT*.root");
     ReadTree Zinv(tZinv);


     //reading the GJets MC
     TChain* tGJets = new TChain("tree");
     tGJets->Add(InputFilePathV4+"tree_GJet_CleanVars/tree_GJets_HT-*.root");
     ReadTree GJets(tGJets);





     //reading QCD MC
     TChain* tQCD = new TChain("tree");
     tQCD->Add(InputFilePathV4+"tree_GJet_CleanVars/tree_QCD_HT*.root");
     ReadTree QCD(tQCD);

     //reading Single photon Data
     TChain* tData = new TChain("tree");
     tData->Add(InputFilePathV4+"tree_GJet_CleanVars/tree_SinglePhoton_*.root");
     ReadTree Data(tData);

     double Lumi=1280.23;


     int nBinsHT=13;
     int nBinsMHT=7;
     int nBinsPt=8;
     int nBinsNJ=6;
     int nBinsS=25;
     double HTbins[14]={500.,600.,700,800,900,1000.,1100,1200.,1300,1400,1500,1700,2000,3000};
     double MHTbins[8]={200.,300,400,500.,600,750.,1000,1500.};
     double Ptbins[9]={100,200.,300,400,500.,600,750.,1000,1500.};
     double NJetsbins[7]={4,5,6,7,8,9,12};

    /////////Three MHT Bins
    double MHTbin1Min=200;
    double MHTbin1Max=350;
    double MHTbin2Min=350;
    double MHTbin2Max=500;
    double MHTbin3Min=500;
    double MHTbin3Max=1500;



    ///////////Three MHT Bins

     

     int nBinAN=18;
     double nBinANmax=18.5;

     /////////////////////////////////////////////////////////////////////////////All user input changes above 
     TH1F *hHT_Zinv=new TH1F("hHT_Zinv","hHT_Zinv",nBinsHT,HTbins);
     TH1F *hMHT_Zinv=new TH1F("hMHT_Zinv","hMHT_Zinv",nBinsMHT,MHTbins);
     TH1F *hNJets_Zinv=new TH1F("hNJets_Zinv","hNJets_Zinv",nBinsNJ,NJetsbins);
     


     TH1F *hHT_GJets=new TH1F("hHT_GJets","hHT_GJets",nBinsHT,HTbins);
     TH1F *hMHT_GJets=new TH1F("hMHT_GJets","hMHT_GJets",nBinsMHT,MHTbins);
     TH1F *hNJets_GJets=new TH1F("hNJets_GJets","hNJets_GJets",nBinsNJ,NJetsbins);

     TH1F *hSieta_GJetsEB=new TH1F("hSieta_GJetsEB","hSieta_GJetsEB",nBinsS,0.006,0.0107);
     TH1F *hSieta_GJetsEC=new TH1F("hSieta_GJetsEC","hSieta_GJetsEC",nBinsS,0.01,0.0272);


     TH1F *hSieta_GJetsEBLow=new TH1F("hSieta_GJetsEBLow","hSieta_GJetsEBLow",nBinsS,0.006,0.0107);
     TH1F *hSieta_GJetsECLow=new TH1F("hSieta_GJetsECLow","hSieta_GJetsECLow",nBinsS,0.01,0.0272);

     TH1F *hSieta_GJetsEBMed=new TH1F("hSieta_GJetsEBMed","hSieta_GJetsEBMed",nBinsS,0.006,0.0107);
     TH1F *hSieta_GJetsECMed=new TH1F("hSieta_GJetsECMed","hSieta_GJetsECMed",nBinsS,0.01,0.0272);

     TH1F *hSieta_GJetsEBHigh=new TH1F("hSieta_GJetsEBHigh","hSieta_GJetsEBHigh",nBinsS,0.006,0.0107);
     TH1F *hSieta_GJetsECHigh=new TH1F("hSieta_GJetsECHigh","hSieta_GJetsECHigh",nBinsS,0.01,0.0272);
  

     TH1F *hPhPt_GJetsEB=new TH1F("hPhPt_GJetsEB","hPhPt_GJetsEB",nBinsPt,Ptbins);
     TH1F *hPhPt_GJetsEC=new TH1F("hPhPt_GJetsEC","hPhPt_GJetsEC",nBinsPt,Ptbins);




     TH1F *hHT_QCD=new TH1F("hHT_QCD","hHT_QCD",nBinsHT,HTbins);
     TH1F *hMHT_QCD=new TH1F("hMHT_QCD","hMHT_QCD",nBinsMHT,MHTbins);
     TH1F *hNJets_QCD=new TH1F("hNJets_QCD","hNJets_QCD",nBinsNJ,NJetsbins);

     TH1F *hSieta_QCDEB=new TH1F("hSieta_QCDEB","hSieta_QCDEB",nBinsS,0.006,0.0107);
     TH1F *hSieta_QCDEC=new TH1F("hSieta_QCDEC","hSieta_QCDEC",nBinsS,0.01,0.0272);     



     TH1F *hSieta_QCDEBLow=new TH1F("hSieta_QCDEBLow","hSieta_QCDEBLow",nBinsS,0.006,0.0107);
     TH1F *hSieta_QCDECLow=new TH1F("hSieta_QCDECLow","hSieta_QCDECLow",nBinsS,0.01,0.0272);

     TH1F *hSieta_QCDEBMed=new TH1F("hSieta_QCDEBMed","hSieta_QCDEBMed",nBinsS,0.006,0.0107);
     TH1F *hSieta_QCDECMed=new TH1F("hSieta_QCDECMed","hSieta_QCDECMed",nBinsS,0.01,0.0272);

     TH1F *hSieta_QCDEBHigh=new TH1F("hSieta_QCDEBHigh","hSieta_QCDEBHigh",nBinsS,0.006,0.0107);
     TH1F *hSieta_QCDECHigh=new TH1F("hSieta_QCDECHigh","hSieta_QCDECHigh",nBinsS,0.01,0.0272);

     TH1F *hPhPt_QCDEB=new TH1F("hPhPt_QCDEB","hPhPt_QCDEB",nBinsPt,Ptbins);
     TH1F *hPhPt_QCDEC=new TH1F("hPhPt_QCDEC","hPhPt_QCDEC",nBinsPt,Ptbins);
    



     TH1F *hHT_Data=new TH1F("hHT_Data","hHT_Data",nBinsHT,HTbins);
     TH1F *hMHT_Data=new TH1F("hMHT_Data","hMHT_Data",nBinsMHT,MHTbins);
     TH1F *hNJets_Data=new TH1F("hNJets_Data","hNJets_Data",nBinsNJ,NJetsbins);

     TH1F *hSieta_DataEB=new TH1F("hSieta_DataEB","hSieta_DataEB",nBinsS,0.006,0.0107);
     TH1F *hSieta_DataEC=new TH1F("hSieta_DataEC","hSieta_DataEC",nBinsS,0.01,0.0272);;


     TH1F *hSieta_DataEBLow=new TH1F("hSieta_DataEBLow","hSieta_DataEBLow",nBinsS,0.006,0.0107);
     TH1F *hSieta_DataECLow=new TH1F("hSieta_DataECLow","hSieta_DataECLow",nBinsS,0.01,0.0272);

     TH1F *hSieta_DataEBMed=new TH1F("hSieta_DataEBMed","hSieta_DataEBMed",nBinsS,0.006,0.0107);
     TH1F *hSieta_DataECMed=new TH1F("hSieta_DataECMed","hSieta_DataECMed",nBinsS,0.01,0.0272);

     TH1F *hSieta_DataEBHigh=new TH1F("hSieta_DataEBHigh","hSieta_DataEBHigh",nBinsS,0.006,0.0107);
     TH1F *hSieta_DataECHigh=new TH1F("hSieta_DataECHigh","hSieta_DataECHigh",nBinsS,0.01,0.0272);
    
     TH1F *hPhPt_DataEB=new TH1F("hPhPt_DataEB","hPhPt_DataEB",nBinsPt,Ptbins);
     TH1F *hPhPt_DataEC=new TH1F("hPhPt_DataEC","hPhPt_DataEC",nBinsPt,Ptbins);
    



     TH1F *h_NZinv18bin=new TH1F("h_NZinv18bin","h_NZinv18bin",nBinAN,0.5,nBinANmax); 
     //
     TH1F *h_NZinv18binC=new TH1F("h_NZinv18binC","h_NZinv18binC",nBinAN,0.5,nBinANmax);   

     //TH1F *EBestimate=new TH1F("EBestimate","EBestimate",18,0.5,18.5);
     //TH1F *ECestimate=new TH1F("ECestimate","ECestimate",18,0.5,18.5);

     TH1F *ZinvEstimate=new TH1F("ZinvEstimate","ZinvEstimate",nBinAN,0.5,nBinANmax);

     TH1F  *h_NGJets18bin=new TH1F("h_NGJets18binC","h_NGJets18binC",nBinAN,0.5,nBinANmax); 

     TH1F *h_NGJets18binEB=new TH1F("h_NGJets18binEB","h_NGJets18binEB",nBinAN,0.5,nBinANmax);
  
     TH1F *h_NGJets18binEC=new TH1F("h_NGJets18binEC","h_NGJets18binEC",nBinAN,0.5,nBinANmax);     


     TH1F *h_NQCD18binEB=new TH1F("h_NQCD18binEB","h_NQCD18binEB",nBinAN,0.5,nBinANmax);
  
     TH1F *h_NQCD18binEC=new TH1F("h_NQCD18binEC","h_NQCD18binEC",nBinAN,0.5,nBinANmax); 



     TH1F *h_Ndata18binEB=new TH1F("h_Ndata18binEB","h_Ndata18binEB",nBinAN,0.5,nBinANmax);
   
     TH1F *h_Ndata18binEC=new TH1F("h_Ndata18binEC","h_Ndata18binEC",nBinAN,0.5,nBinANmax);



     TH1F *h_ZgammaR18bin=new TH1F("h_ZgammaR18bin","h_ZgammmaR18bin",nBinAN,0.5,nBinANmax);

     
     TH1F *h_ZgammaRWSF=new TH1F("h_ZgammaRWSF","h_ZgammmaRWSF",nBinAN,0.5,nBinANmax);

 
        


     int maxEvents_Zinv=tZinv->GetEntries();
     cout<<"maxEventsZinv: "<<maxEvents_Zinv<<endl;

     for(int iEv=0;iEv<maxEvents_Zinv;iEv++){//Looping over Zinv MC///////////////////////////////////////
     tZinv->GetEntry(iEv);
     if(iEv % 1000000==0){cout<<"Event no Zinv : "<<iEv<<endl;}
     
     int binNumber_Zinv = computeBin( Zinv.MHTclean, Zinv.HTclean, Zinv.NJetsclean, k13TeV);

     double weight=0;
     if(binNumber_Zinv >-1  && Zinv.BTagsclean==0){//Filling Yield(N_Obsereved) in Zinv
                     
         

          h_NZinv18bin->Fill(binNumber_Zinv,(Lumi*Zinv.Weight));      
          h_NZinv18binC->Fill(binNumber_Zinv,(Lumi*Zinv.Weight));


       }

     
     }//Lopping over Zinv MC//////////////////////////////////////////////////////////


      cout<<"Zinv Observed MC: "<<h_NZinv18bin->Integral()<<endl;
      cout<<"First bin: "<<h_NZinv18bin->GetBinContent(0)<<endl;

      for(int i=1;i<19;i++){
      cout<<"Zinv Bin Content: "<<h_NZinv18bin->GetBinContent(i)<<endl;
           }


     int maxEvents_GJets=tGJets->GetEntries();
     cout<<"maxEventsGJets: "<<maxEvents_GJets<<endl;
     for(int iEv=0;iEv<maxEvents_GJets;iEv++){//Looping over GJets MC///////////////////////////////////////
     tGJets->GetEntry(iEv);
     if(iEv % 1000000==0){cout<<"Event no GJets : "<<iEv<<endl;}
     
      

     int binNumber_GJets = computeBin( GJets.MHTclean, GJets.HTclean, GJets.NJetsclean, k13TeV);
     int index=GJets.photonIndex();
    

     if(binNumber_GJets >-1 && GJets.BTagsclean==0 && index !=-1 && GJets.photon_nonPrompt->at(index) !=1){//Filling Yield(N_Obsereved) in GJets MC
         
 
         hHT_GJets->Fill(GJets.HTclean,Lumi*GJets.Weight);
         hMHT_GJets->Fill(GJets.MHTclean,Lumi*GJets.Weight);
         hNJets_GJets->Fill(GJets.NJetsclean,Lumi*GJets.Weight);  
         h_NGJets18bin->Fill(binNumber_GJets,Lumi*GJets.Weight);
       


         if(fabs(GJets.bestPhoton->at(0).Eta())< 1.4442){//barrel
         hSieta_GJetsEB->Fill(GJets.photon_sigmaIetaIeta->at(index),Lumi*GJets.Weight);
         h_NGJets18binEB->Fill(binNumber_GJets,Lumi*GJets.Weight);
         hPhPt_GJetsEB->Fill(GJets.photonCands->at(index).Pt(),Lumi*GJets.Weight);
         ////////////////////////////////////Sieta in MHT bins
         if(GJets.MHTclean >MHTbin1Min && GJets.MHTclean< MHTbin1Max){
         hSieta_GJetsEBLow->Fill(GJets.photon_sigmaIetaIeta->at(index),Lumi*GJets.Weight);
             }


         if(GJets.MHTclean >MHTbin2Min && GJets.MHTclean< MHTbin2Max){
         hSieta_GJetsEBMed->Fill(GJets.photon_sigmaIetaIeta->at(index),Lumi*GJets.Weight);
             }


         if(GJets.MHTclean >MHTbin3Min && GJets.MHTclean< MHTbin3Max){
         hSieta_GJetsEBHigh->Fill(GJets.photon_sigmaIetaIeta->at(index),Lumi*GJets.Weight);
             }
          

         /////////////////////////Sieta in MHT bins




              }//barrel
         if(fabs(GJets.bestPhoton->at(0).Eta())> 1.566 && fabs(GJets.bestPhoton->at(0).Eta())< 2.5){//endcap
         hSieta_GJetsEC->Fill(GJets.photon_sigmaIetaIeta->at(index),Lumi*GJets.Weight);
         h_NGJets18binEC->Fill(binNumber_GJets,Lumi*GJets.Weight);
         hPhPt_GJetsEC->Fill(GJets.photonCands->at(index).Pt(),Lumi*GJets.Weight);


         ////////////////////////////////////Sieta in MHT bins
         if(GJets.MHTclean >MHTbin1Min && GJets.MHTclean< MHTbin1Max){
         hSieta_GJetsECLow->Fill(GJets.photon_sigmaIetaIeta->at(index),Lumi*GJets.Weight);
             }


         if(GJets.MHTclean >MHTbin2Min && GJets.MHTclean< MHTbin2Max){
         hSieta_GJetsECMed->Fill(GJets.photon_sigmaIetaIeta->at(index),Lumi*GJets.Weight);
             }


         if(GJets.MHTclean >MHTbin3Min && GJets.MHTclean< MHTbin3Max){
         hSieta_GJetsECHigh->Fill(GJets.photon_sigmaIetaIeta->at(index),Lumi*GJets.Weight);
             }
          

         /////////////////////////Sieta in MHT bins










             }//endcap





         }//Filling Yield(N_Obsereved) in GJets MC





     }//Looping over GJets MC//////////////////////////////////////////////////////////////////////////


     cout<<"Total GJets Events:  "<<hHT_GJets->Integral();


     int maxEvents_QCD=tQCD->GetEntries();
     cout<<"maxEventsQCD: "<<maxEvents_QCD<<endl;
     for(int iEv=0;iEv<maxEvents_QCD;iEv++){//Looping over QCD MC
     tQCD->GetEntry(iEv);
     if(iEv % 1000000==0){cout<<"Event no QCD : "<<iEv<<endl;}
     int binNumber_QCD = computeBin( QCD.MHTclean, QCD.HTclean, QCD.NJetsclean, k13TeV);
     int index=QCD.photonIndex();
     if(binNumber_QCD >-1 && QCD.BTagsclean==0 && index !=-1 && QCD.photon_nonPrompt->at(index) ==1 ){//Filling Yield(N_Obsereved) in QCD MC
         
         hHT_QCD->Fill(QCD.HTclean,Lumi*QCD.Weight);
         hMHT_QCD->Fill(QCD.MHTclean,Lumi*QCD.Weight);
         hNJets_QCD->Fill(QCD.NJetsclean,Lumi*QCD.Weight);
         


         if(fabs(QCD.bestPhoton->at(0).Eta())< 1.4442){//barrel
         hSieta_QCDEB->Fill(QCD.photon_sigmaIetaIeta->at(index),Lumi*QCD.Weight);
         h_NQCD18binEB->Fill(binNumber_QCD,Lumi*QCD.Weight);
         hPhPt_QCDEB->Fill(QCD.photonCands->at(index).Pt(),Lumi*QCD.Weight);


         ////////////////////////////////////Sieta in MHT bins
         if(QCD.MHTclean >MHTbin1Min && QCD.MHTclean< MHTbin1Max){
         hSieta_QCDEBLow->Fill(QCD.photon_sigmaIetaIeta->at(index),Lumi*QCD.Weight);
             }


         if(QCD.MHTclean >MHTbin2Min && QCD.MHTclean< MHTbin2Max){
         hSieta_QCDEBMed->Fill(QCD.photon_sigmaIetaIeta->at(index),Lumi*QCD.Weight);
             }


         if(QCD.MHTclean >MHTbin3Min && QCD.MHTclean< MHTbin3Max){
         hSieta_QCDEBHigh->Fill(QCD.photon_sigmaIetaIeta->at(index),Lumi*QCD.Weight);
             }
          

         /////////////////////////Sieta in MHT bins











              }//barrel
         if(fabs(QCD.bestPhoton->at(0).Eta())> 1.566 && abs(QCD.bestPhoton->at(0).Eta()) <2.5 ){//endcap
         hSieta_QCDEC->Fill(QCD.photon_sigmaIetaIeta->at(index),Lumi*QCD.Weight);
         h_NQCD18binEC->Fill(binNumber_QCD,Lumi*QCD.Weight);
         hPhPt_QCDEC->Fill(QCD.photonCands->at(index).Pt(),Lumi*QCD.Weight);
             }//endcap


         ////////////////////////////////////Sieta in MHT bins
         if(QCD.MHTclean >MHTbin1Min && QCD.MHTclean< MHTbin1Max){
         hSieta_QCDECLow->Fill(QCD.photon_sigmaIetaIeta->at(index),Lumi*QCD.Weight);
             }


         if(QCD.MHTclean >MHTbin2Min && QCD.MHTclean< MHTbin2Max){
         hSieta_QCDECMed->Fill(QCD.photon_sigmaIetaIeta->at(index),Lumi*QCD.Weight);
             }


         if(QCD.MHTclean >MHTbin3Min && QCD.MHTclean< MHTbin3Max){
         hSieta_QCDECHigh->Fill(QCD.photon_sigmaIetaIeta->at(index),Lumi*QCD.Weight);
             }
          

         /////////////////////////Sieta in MHT bins





         }//Filling Yield(N_Obsereved) in QCD MC




     }//Looping over QCD MC
 

     

     int maxEvents_Data=tData->GetEntries();
     //cout<<"maxEvents in Single Photon Data: "<<maxEvents_Data<<endl;
     for(int iEv=0;iEv<maxEvents_Data;iEv++){//Data
     tData->GetEntry(iEv);
     if(iEv % 1000000==0){cout<<"Event no Data : "<<iEv<<endl;}
     
      //cout<<"Event no: "<<iEv<<endl;
     int binNumber_Data = computeBin( Data.MHTclean, Data.HTclean, Data.NJetsclean, k13TeV);
     int index=Data.photonIndex();

     if(binNumber_Data >-1 && Data.BTagsclean==0 && index !=-1){//Filling Yield(N_Obsereved) in Data
            bool PassTrigger=false;
          
         for(int itr=0;itr<Data.TriggerNames->size();itr++){
             //cout<<"trigger size: "<<Data.TriggerNames->at(itr)<<endl;
             if(Data.TriggerNames->at(itr)=="HLT_Photon90_CaloIdL_PFHT500_v3" && Data.TriggerPass->at(itr)==1){
                PassTrigger=true;


               }

              }


         

         if(PassTrigger==true){//trigger pass
         
         hHT_Data->Fill(Data.HTclean);
         hMHT_Data->Fill(Data.MHTclean);
         hNJets_Data->Fill(Data.NJetsclean);



         if(fabs(Data.bestPhoton->at(0).Eta())< 1.4442){//barrel
         

         h_Ndata18binEB->Fill(binNumber_Data);
         hSieta_DataEB->Fill(Data.photon_sigmaIetaIeta->at(index));
         hPhPt_DataEB->Fill(Data.photonCands->at(index).Pt());


         ////////////////////////////////////Sieta in MHT bins
         if(Data.MHTclean >MHTbin1Min && Data.MHTclean< MHTbin1Max){
         hSieta_DataEBLow->Fill(Data.photon_sigmaIetaIeta->at(index));
             }


         if(Data.MHTclean >MHTbin2Min && Data.MHTclean< MHTbin2Max){
         hSieta_DataEBMed->Fill(Data.photon_sigmaIetaIeta->at(index));
             }


         if(Data.MHTclean >MHTbin3Min && Data.MHTclean< MHTbin3Max){
         hSieta_DataEBHigh->Fill(Data.photon_sigmaIetaIeta->at(index));
             }
          

         /////////////////////////Sieta in MHT bins










              }//barrel
         if(fabs(Data.bestPhoton->at(0).Eta())> 1.566 && fabs(Data.bestPhoton->at(0).Eta())< 2.5 ){//endcap
         h_Ndata18binEC->Fill(binNumber_Data);
         hSieta_DataEC->Fill(Data.photon_sigmaIetaIeta->at(index));
         hPhPt_DataEC->Fill(Data.photonCands->at(index).Pt());


         ////////////////////////////////////Sieta in MHT bins
         if(Data.MHTclean >MHTbin1Min && Data.MHTclean< MHTbin1Max){
         hSieta_DataECLow->Fill(Data.photon_sigmaIetaIeta->at(index));
             }


         if(Data.MHTclean >MHTbin2Min && Data.MHTclean< MHTbin2Max){
         hSieta_DataECMed->Fill(Data.photon_sigmaIetaIeta->at(index));
             }


         if(Data.MHTclean >MHTbin3Min && Data.MHTclean< MHTbin3Max){
         hSieta_DataECHigh->Fill(Data.photon_sigmaIetaIeta->at(index));
             }
          

         /////////////////////////Sieta in MHT bins










             }//endcap
             

         
         }//trigger pass 

         }//Filling Yield(N_Obsereved) in Data




     

     }//Data 


     //trigger efficiency
     



     ///////////////////////////defining legend
    char Legname1[100];
    TLegend *leg[24];
    for(int k0=0;k0<24;k0++){
    sprintf(Legname1,"leg_1D%i",k0);
    leg[k0]=new TLegend(0.5,0.7,0.80,0.89);
    leg[k0]->SetTextFont(62);
    leg[k0]->SetLineColor(1);
    leg[k0]->SetLineStyle(1);
    leg[k0]->SetLineWidth(3);
    leg[k0]->SetFillColor(0);
    leg[k0]->SetFillStyle(1001);
    leg[k0]->SetShadowColor(0);
    leg[k0]->SetDrawOption(0);
    leg[k0]->SetBorderSize(0);
    leg[k0]->SetTextSize(0.03);
    }


     ///////////////////////////////ZinvMC Yield

     //TCanvas *ZinvMCYield=new TCanvas("ZinvMC","ZinvMC");
     //ZinvMCYield->SetLogy();
     h_NZinv18bin->Sumw2();
     h_NZinv18bin->SetFillColor(1);
     h_NZinv18bin->SetFillStyle(1000);
     h_NZinv18bin->GetXaxis()->SetTitle("bin Number");
     h_NZinv18bin->GetYaxis()->SetTitle("Z/Gamma Ratio");
     //h_NZinv18bin->Draw("hist");

   //////////////////////////////////////////////Calculating Zgamma Ratio start
      TPaveText *tpav1 = new TPaveText(0.1956522,0.6247818,0.729097,0.8970332,"brNDC");

    tpav1->SetBorderSize(0);
    tpav1->SetFillStyle(0);
    tpav1->SetTextAlign(11);
    tpav1->SetTextFont(42);
    tpav1->SetTextSize(0.04);
    tpav1->AddText("HT >500");
    tpav1->AddText("#gamma p_{T} > 100 ");
    tpav1->AddText("NJets >=4");
    tpav1->AddText("MHT>200");
    tpav1->AddText("Btags=0");
    tpav1->AddText("#Delta #Phi_{1,2,3,4}>(0.5,0.5,0.3,0.3)");

    TPaveText *pCMS1 = new TPaveText(0.132107,0.9308003,0.8327759,0.9923583,"brNDC");

    pCMS1->SetBorderSize(0);
    pCMS1->SetFillStyle(0);
    pCMS1->SetTextAlign(11);
    pCMS1->SetTextFont(42);
    pCMS1->SetTextSize(0.04);
    pCMS1->AddText("CMS #it{Preliminary}                      #sqrt{s}= 13 TeV");

    
    
     TCanvas *cZgammaR=new TCanvas("cZGammaR","cZGammaR");
     TH1F *h_ZgR = (TH1F*)h_NZinv18bin->Clone("h_ZgR");

     h_ZgR->Divide(h_NGJets18bin);


     cZgammaR->cd();
     h_ZgR->Draw("E2");
     tpav1->Draw();
     pCMS1->Draw();
    
     cZgammaR->SaveAs("ZgammaRatioWOSF.png");
     cZgammaR->SaveAs("ZgammaRatioWOSF.pdf");
     cZgammaR->SaveAs("ZgammaRatioWOSF.gif");
     
     ///////////////////////////////////Calculating ZGamma ratio end




     
    /////////////////////////////////////////////////////Dealing with Data barrel

   



     TH1F *h_DataSimEB = (TH1F*)h_Ndata18binEB->Clone("h_DataSimEB");
     
     TH1F *h_DataSimEC = (TH1F*)h_Ndata18binEC->Clone("h_DataSimEC");
   

     TH1F *h_DataSimEBforErr = (TH1F*)h_NGJets18binEB->Clone("h_DataSimEBforErr");
     
     TH1F *h_DataSimECforErr = (TH1F*)h_NGJets18binEB->Clone("h_DataSimECforErr");
     
     h_DataSimEBforErr->Scale((1/h_DataSimEBforErr->Integral())*h_Ndata18binEB->Integral());
     h_DataSimECforErr->Scale((1/h_DataSimECforErr->Integral())*h_Ndata18binEC->Integral());
     
     /////////////////////Fill the empty bins with simulated data
        
     for(int i=1;i<(nBinAN+1);i++){//loop over bins

        h_DataSimEB->SetBinError(i,0.);
        h_DataSimEC->SetBinError(i,0.);

        


        }//loop over bins 
        


     

     TH1F *hEBPurity=new TH1F("hEBPurity","hEBPurity",nBinAN,0.5,nBinANmax);
     TH1F *hECPurity=new TH1F("hECPurity","hECPurity",nBinAN,0.5,nBinANmax);
     
     TH1F *hEBfrag=new TH1F("hEBfrag","hEBfrag",nBinAN,0.5,nBinANmax);
     TH1F *hECfrag=new TH1F("hECfrag","hECfrag",nBinAN,0.5,nBinANmax);    
                         //uncorel      //corel
     double ebpErr=sqrt((0.009*0.009)+(0.03*0.03));
     double ecpErr=sqrt((0.016*0.016)+(0.046*0.046));

     double ebpErrCorel=0.03;
     double ebpErrUnCorel=0.009;

     double ecpErrCorel=0.046;
     double ecpErrUnCorel=0.016;


     for(int i=1;i<(nBinAN+1);i++){//set purity stuff
          hEBPurity->SetBinContent(i,0.967);
          hEBPurity->SetBinError(i,ebpErr);
          hECPurity->SetBinContent(i,0.956);
          hECPurity->SetBinError(i,ecpErr);
          
          hEBfrag->SetBinContent(i,0.92);
          hEBfrag->SetBinError(i,0.04);
          hECfrag->SetBinContent(i,0.92);
          hECfrag->SetBinError(i,0.04);


         }//set purity stuff     


    

    const Int_t NumBins= nBinAN;
    double binNumber[nBinAN];
    double YieldEstimated[nBinAN];
    double YieldErrUp_Estimated[nBinAN];
    double YieldErrLow_Estimated[nBinAN];

    double YieldPredMC[nBinAN];
    double YieldErrUp_PredMC[nBinAN];
    double YieldErrLow_PredMC[nBinAN];

    double XErrLow[nBinAN];
    double XErrUp[nBinAN];


    double ZgRwSF[nBinAN];
    double ZgRwSF_sys_ErrUp[nBinAN];
    double ZgRwSF_sys_ErrLow[nBinAN];
    double ZgRwSF_stat_Err[nBinAN];



    for(int ibin=1;ibin<(nBinAN+1);ibin++){//loop over bin error calculation


       double SF=0.98;
       double SFup=1.03;
       double SFlow=0.93;
       double ZgRcentral=h_ZgR->GetBinContent(ibin)/0.98;
       double ZgRup=h_ZgR->GetBinContent(ibin)/1.03;
       double ZgRlow=h_ZgR->GetBinContent(ibin)/0.93;

       double ZgRcorelErrup=fabs(ZgRcentral-ZgRlow);
       double ZgRcorelErrlow=fabs(ZgRcentral-ZgRup);

       double ZgRsymErr=0.5*(sqrt((ZgRcorelErrup*ZgRcorelErrup)+(ZgRcorelErrlow*ZgRcorelErrlow)));
       double ZgRcorel_Rel_Errup=ZgRcorelErrup/ZgRcentral;
       double ZgRcorel_Rel_Errlow=ZgRcorelErrlow/ZgRcentral;

       

       //double ZgRcorelErr=sqrt((ZgRcorelErrup*ZgRcorelErrup)+(ZgRcorelErrlow*ZgRcorelErrlow));

       double ZgRuncorelErr=h_ZgR->GetBinError(ibin)/SF;

       double ZgRuncorel_Rel_Err=ZgRuncorelErr/ZgRcentral;
   
       double ZgRsymErrStat=h_ZgR->GetBinError(ibin)/SF;//h_ZgR->GetBinError(ibin);
       
       double ZgRallSymErr=sqrt((ZgRsymErr*ZgRsymErr)+(ZgRsymErrStat*ZgRsymErrStat));

       

       
       //important lines to be changed
       double ZgR=ZgRcentral;
       
       double ZgRerr=ZgRallSymErr;
   
       double ZgRerrUp=sqrt((ZgRcorelErrup*ZgRcorelErrup)+(ZgRuncorelErr*ZgRuncorelErr));
       double ZgRerrLow=sqrt((ZgRcorelErrlow*ZgRcorelErrlow)+(ZgRuncorelErr*ZgRuncorelErr));
     

       ////////////////////////////////////barrel starts
       int EBobs=h_DataSimEB->GetBinContent(ibin);
       double EBobsErr=h_DataSimEB->GetBinError(ibin);     

       double pEB=hEBPurity->GetBinContent(ibin);
       double pEBerr=hEBPurity->GetBinError(ibin);
       double pEB_Rel_err=pEBerr/pEB;


       int ECobs=h_DataSimEC->GetBinContent(ibin);
       double ECobsErr=h_DataSimEC->GetBinError(ibin);

       double pEC=hECPurity->GetBinContent(ibin);
       double pECerr=hECPurity->GetBinError(ibin);       
       double pEC_Rel_err=pECerr/pEC;

       double f=0.92;
       double ferr=0.04;
       double f_Rel_err=ferr/f;

       double YieldTotal=ZgR*(EBobs*pEB+ECobs*pEC)*f;
       double YieldTotalErr=0;
       double YieldTotal_Rel_Err=0;

       double YieldTotalErrUp=0;
       double YieldTotal_Rel_ErrUp=0;

       double YieldTotalErrLow=0;
       double YieldTotal_Rel_ErrLow=0;


       int Nobserved=EBobs+ECobs;

       
       double totalPurity=0;
       double totalPurityErr=0;
       double totalPurity_Rel_Err=0;
       
       double ZinvMCYield=h_NZinv18binC->GetBinContent(ibin);
       double ZinvMCYieldErr=h_NZinv18binC->GetBinError(ibin);
       double ZinvMCYield_Rel_Err=ZinvMCYieldErr/ZinvMCYield;


       if(Nobserved !=0){
          totalPurity=((EBobs*pEB+ECobs*pEC)*f)/Nobserved;
          double totalPurityErr1=(EBobs*pEBerr+ECobs*pECerr)/Nobserved;
          double totalPurityErr2=ferr;
          totalPurityErr=sqrt((totalPurityErr1*totalPurityErr1)+(totalPurityErr2*totalPurityErr2));
          totalPurity_Rel_Err=totalPurityErr/totalPurity;


          YieldTotalErr=Nobserved*(sqrt((ZgR*ZgR*totalPurityErr*totalPurityErr)+(totalPurity*totalPurity*ZgRerr*ZgRerr)));

          YieldTotal_Rel_Err=YieldTotalErr/YieldTotal; 


          YieldTotalErrUp=Nobserved*(sqrt((ZgR*ZgR*totalPurityErr*totalPurityErr)+(totalPurity*totalPurity*ZgRerrUp*ZgRerrUp)));

          YieldTotal_Rel_ErrUp=YieldTotalErrUp/YieldTotal;
          

          YieldTotalErrLow=Nobserved*(sqrt((ZgR*ZgR*totalPurityErr*totalPurityErr)+(totalPurity*totalPurity*ZgRerrLow*ZgRerrLow)));

          YieldTotal_Rel_ErrLow=YieldTotalErrLow/YieldTotal;



           }
        if(Nobserved ==0){

          double NobservedNew=h_DataSimEBforErr->GetBinContent(ibin)+h_DataSimECforErr->GetBinContent(ibin);
          double EBobsNew=h_DataSimEBforErr->GetBinContent(ibin);
          double ECobsNew=h_DataSimECforErr->GetBinContent(ibin);
          totalPurity=((EBobsNew*pEB+ECobsNew*pEC)*f)/NobservedNew;
          
          double totalPurityErr1=(EBobsNew*pEBerr+ECobsNew*pECerr)/NobservedNew;
          double totalPurityErr2=ferr;
          totalPurityErr=sqrt((totalPurityErr1*totalPurityErr1)+(totalPurityErr2*totalPurityErr2));
          totalPurity_Rel_Err=totalPurityErr/totalPurity;

          YieldTotalErr=NobservedNew*(sqrt((ZgR*ZgR*totalPurityErr*totalPurityErr)+(totalPurity*totalPurity*ZgRerr*ZgRerr)));

          double YieldTotalNew=ZgR*(EBobsNew*pEB+ECobsNew*pEC)*f;

          YieldTotal_Rel_Err=YieldTotalErr/YieldTotalNew;


          YieldTotalErrUp=NobservedNew*(sqrt((ZgR*ZgR*totalPurityErr*totalPurityErr)+(totalPurity*totalPurity*ZgRerrUp*ZgRerrUp)));

          YieldTotal_Rel_ErrUp=YieldTotalErrUp/YieldTotalNew;
          

          YieldTotalErrLow=NobservedNew*(sqrt((ZgR*ZgR*totalPurityErr*totalPurityErr)+(totalPurity*totalPurity*ZgRerrLow*ZgRerrLow)));

          YieldTotal_Rel_ErrLow=YieldTotalErrLow/YieldTotalNew;







           }


        

          double YieldErrWithStat=0;
          double YieldErrWithStatUp=0;
          double YieldErrWithStatLow=0;
          double NobsErr=sqrt(Nobserved);
          YieldErrWithStat=sqrt((ZgR*totalPurity*NobsErr)*(ZgR*totalPurity*NobsErr) + (Nobserved*totalPurity*ZgRerr)*(Nobserved*totalPurity*ZgRerr) + (Nobserved*ZgR*totalPurityErr)*(Nobserved*ZgR*totalPurityErr));
         
          YieldErrWithStatUp=sqrt((ZgR*totalPurity*NobsErr)*(ZgR*totalPurity*NobsErr) + (Nobserved*totalPurity*ZgRerrUp)*(Nobserved*totalPurity*ZgRerrUp) + (Nobserved*ZgR*totalPurityErr)*(Nobserved*ZgR*totalPurityErr));
         

          YieldErrWithStatLow=sqrt((ZgR*totalPurity*NobsErr)*(ZgR*totalPurity*NobsErr) + (Nobserved*totalPurity*ZgRerrLow)*(Nobserved*totalPurity*ZgRerrLow) + (Nobserved*ZgR*totalPurityErr)*(Nobserved*ZgR*totalPurityErr));
      
      
     ZgRwSF[ibin-1]=ZgR;
     ZgRwSF_sys_ErrUp[ibin-1]=ZgRcorelErrup;
     ZgRwSF_sys_ErrLow[ibin-1]=ZgRcorelErrlow;
     ZgRwSF_stat_Err[ibin-1]=ZgRuncorelErr;




      
      
      binNumber[ibin-1]=ibin;
      YieldEstimated[ibin-1]=YieldTotal;
      YieldErrUp_Estimated[ibin-1]=YieldErrWithStatUp;
      YieldErrLow_Estimated[ibin-1]=YieldErrWithStatLow;
  
      YieldPredMC[ibin-1]=ZinvMCYield;
      YieldErrUp_PredMC[ibin-1]=ZinvMCYieldErr;
      YieldErrLow_PredMC[ibin-1]=ZinvMCYieldErr;
      XErrLow[ibin-1]=0.5;
      XErrUp[ibin-1]=0.5;    






printf(" %i :%i |%i| %4.3f(%4.3f) |%i| %4.3f(%4.3f) |%4.3f(%4.3f,+%4.3f-%4.3f)| %4.3f(%4.3f) |%4.3f(%4.3f)| %4.3f(+%4.3f-%4.3f) |%4.3f(%4.3f)",ibin,Nobserved, EBobs,pEB,pEB_Rel_err,ECobs,pEC,pEC_Rel_err, ZgR,ZgRuncorel_Rel_Err,ZgRcorel_Rel_Errup,ZgRcorel_Rel_Errlow,f,f_Rel_err,totalPurity,totalPurity_Rel_Err,YieldTotal,YieldTotal_Rel_ErrUp,YieldTotal_Rel_ErrLow,ZinvMCYield,ZinvMCYield_Rel_Err);
//printf("%4.3f",ZinvMCYield);

      //printf("bin %i :%i | %4.3f(%4.3f) | %4.3f(%4.3f)  | %4.2f(%4.3f) ",ibin,Nobserved,ZgR,ZgRerr,totalPurity,totalPurityErr,YieldTotal,YieldTotalErr);

   //printf("bin %i :%i | %4.3f(%4.3f,+%4.3f-%4.3f) | %4.3f(%4.3f)  | %4.2f(+%4.3f-%4.3f) ",ibin,Nobserved,ZgR,ZgRuncorel_Rel_Err,ZgRcorel_Rel_Errup,ZgRcorel_Rel_Errlow,totalPurity,totalPurity_Rel_Err,YieldTotal,YieldTotal_Rel_ErrUp,YieldTotal_Rel_ErrLow);

     cout<<endl;
     

      
      double Percent=(int)round(100*(YieldTotalErr/YieldTotal));

      
      double maxErrorYield=max(YieldErrWithStatUp,YieldErrWithStatLow);
      ZinvEstimate->SetBinContent(ibin,YieldTotal);
      ZinvEstimate->SetBinError(ibin,maxErrorYield);

       /////////////////endcap ends

        

       }//loop over bin error calculation



      ////////////////////////Pred vs Estimated



     TPaveText *tpa = new TPaveText(0.5056522,0.6247818,0.829097,0.8970332,"brNDC");

      tpa->SetBorderSize(0);
      tpa->SetFillStyle(0);
      tpa->SetTextAlign(11);
      tpa->SetTextFont(42);
      tpa->SetTextSize(0.04);
      tpa->AddText("HT >500");
      tpa->AddText("N_{jets} >=4");
      tpa->AddText("MHT>200");
      tpa->AddText("Btags=0");
      tpa->AddText("#Delta #Phi_{1,2,3,4}>(0.5,0.5,0.3,0.3)");



      TPaveText *pCMS = new TPaveText(0.132107,0.9308003,0.8327759,0.9923583,"brNDC");

      pCMS->SetBorderSize(0);
      pCMS->SetFillStyle(0);
      pCMS->SetTextAlign(11);
      pCMS->SetTextFont(42);
      pCMS->SetTextSize(0.04);
      pCMS->AddText("CMS #it{Preliminary}       1.3 fb^{-1} #sqrt{s}= 13 TeV");

      


       TLegend *legP = new TLegend(0.2173913,0.2478185,0.5167224,0.4363002,NULL,"brNDC");
      legP->SetBorderSize(0);
      legP->SetTextFont(62);
      legP->SetTextSize(0.03);
      legP->SetLineColor(1);
      legP->SetLineStyle(1);
      legP->SetLineWidth(3);
      legP->SetFillColor(0);
      legP->SetFillStyle(1001);

      cout<<"Est: "<<ZinvEstimate->Integral()<<endl;
      cout<<"Pred: "<<h_NZinv18binC->Integral()<<endl;

     
     //////////////////////////////////ZGammaRatio

     c_ZgRwSF = new TCanvas("c_ZgRwSF","c_ZgRwSF");
     c_ZgRwSF->cd();
     
     

     gr_ZgRwSFsys = new TGraphAsymmErrors(NumBins,binNumber,ZgRwSF,XErrLow,XErrUp,ZgRwSF_sys_ErrLow,ZgRwSF_sys_ErrUp);
     gr_ZgRwSFsys->SetTitle("ZgammaRatio");
     gr_ZgRwSFsys->SetMarkerColor(4);
     gr_ZgRwSFsys->SetLineColor(4);
     gr_ZgRwSFsys->SetMarkerStyle(21);

     gr_ZgRwSFstat = new TGraphAsymmErrors(NumBins,binNumber,ZgRwSF,XErrLow,XErrUp,ZgRwSF_stat_Err,ZgRwSF_stat_Err);
     gr_ZgRwSFstat->SetTitle("ZgammaRatio");
     gr_ZgRwSFstat->SetMarkerColor(2);
     gr_ZgRwSFstat->SetLineColor(2);
     gr_ZgRwSFstat->SetMarkerStyle(21);

     TLegend *legPZgR = new TLegend(0.2173913,0.7478185,0.5167224,0.8563002,NULL,"brNDC");
      legPZgR->SetBorderSize(0);
      legPZgR->SetTextFont(62);
      legPZgR->SetTextSize(0.03);
      legPZgR->SetLineColor(1);
      legPZgR->SetLineStyle(1);
      legPZgR->SetLineWidth(3);
      legPZgR->SetFillColor(0);
      legPZgR->SetFillStyle(1001);

      legPZgR->AddEntry(gr_ZgRwSFsys,"Sys Error","l");
      legPZgR->AddEntry(gr_ZgRwSFstat,"Stat Error","l");

     TMultiGraph *mgZgR=new TMultiGraph();
     mgZgR->SetTitle(" ;ith Bin ; Z/#gamma Ratio ");
     
     mgZgR->Add(gr_ZgRwSFstat);
     mgZgR->Add(gr_ZgRwSFsys);

     mgZgR->Draw("AP");
     tpa->Draw();
     pCMS->Draw();
     legPZgR->Draw();

     c_ZgRwSF->SaveAs("ZGammaRatioWSF.png");
     c_ZgRwSF->SaveAs("ZGammaRatioWSF.pdf");
     c_ZgRwSF->SaveAs("ZGammaRatioWSF.gif");



     ///////////////////////////////ZGammaRatio







     cPredVsEstimated = new TCanvas("estvspred","estvspred");
     
       TPad *pad1 = new TPad("pad1", "pad1", 0, 0.3, 1, 1.0);
       pad1->SetBottomMargin(0); // Upperand lower plot are joined
       pad1->Draw();             // Draw the upper pad: pad1
       gPad->Update();
       pad1->cd();               // pad1 becomes the current pad
       gPad->DrawFrame(0.5, 0.01, 18.5, 2000, "PredVsEst;ith Bin;Events");
       gPad->SetLogy();
     
     gr_estimated = new TGraphAsymmErrors(NumBins,binNumber,YieldEstimated,XErrLow,XErrUp,YieldErrLow_Estimated,YieldErrUp_Estimated);
     gr_estimated->SetTitle("Estimated");
     gr_estimated->SetMarkerColor(4);
     gr_estimated->SetLineColor(4);
     gr_estimated->SetMarkerStyle(21);
     

     gr_mcPred = new TGraphAsymmErrors(NumBins,binNumber,YieldPredMC,XErrLow,XErrUp,YieldErrLow_PredMC,YieldErrUp_PredMC);
     gr_mcPred->SetTitle("MC predicted");
     gr_mcPred->SetMarkerColor(2);
     gr_mcPred->SetLineColor(2);
     gr_mcPred->SetMarkerStyle(8);


      legP->AddEntry(gr_mcPred,"Zinv MC Pred ","P");
      
      legP->AddEntry(gr_estimated,"Estimated(from #gamma +Jets)","P");

    


     char TMgname1[100];
     TMultiGraph *TMg_1D[2];
     for(int k0=0;k0<2;k0++){
     sprintf(TMgname1,"TMg_1D%i",k0);
     TMg_1D[k0]=new TMultiGraph();
      }
     for(int j0=0;j0<2;j0++){
     TMg_1D[j0]->SetMinimum(0.01);
     TMg_1D[j0]->SetMaximum(2000);
      }
      
    TMg_1D[0]->SetTitle(" ;ith Bin ; Events ");

    TMg_1D[0]->Add(gr_mcPred);
    TMg_1D[0]->Add(gr_estimated);


    
    TMg_1D[0]->Draw("AP");
    TMg_1D[0]->GetXaxis()->SetLimits(0.5,18.5); 
   
    tpa->Draw();
    pCMS->Draw();
    legP->Draw();


   TGaxis *axis = new TGaxis( -5, 20, -5, 220, 20,220,510,"");
       axis->SetLabelFont(43); // Absolute font size in pixel (precision 3)
       axis->SetLabelSize(15);
       axis->Draw();



  cPredVsEstimated->cd();

      TPad *pad2 = new TPad("pad2", "pad2", 0, 0.05, 1, 0.3);
      pad2->SetTopMargin(0);
      pad2->SetBottomMargin(0.2);
      pad2->SetGridy(); // vertical grid
      pad2->Draw();
      pad2->cd();       // pad2 becomes the current pad


   TH1F *h3 = (TH1F*)h_NZinv18binC->Clone("h3");
   h3->SetLineColor(kBlack);
   h3->SetMinimum(-1);  // Define Y ..
   h3->SetMaximum(3); // .. range
   h3->Sumw2();
   h3->SetStats(0);      // No statistics on lower plot
   h3->Divide(ZinvEstimate);
   h3->SetMarkerStyle(21);
   h3->SetMarkerColor(1);
   h3->Draw("ep");       // Draw the r
   h3->GetXaxis()->SetTitle("ith Bin"); // Remove the ratio title

   // Y axis ratio plot settings
   h3->GetYaxis()->SetTitle("Pred/Est");
   h3->GetYaxis()->SetNdivisions(505);

   h3->GetYaxis()->SetTitleSize(20);
   h3->GetYaxis()->SetTitleFont(43);
   h3->GetYaxis()->SetTitleOffset(1.55);
   h3->GetYaxis()->SetLabelFont(43); // Absolute font size in pixel (precision 3)
   h3->GetYaxis()->SetLabelSize(15);

   // X axis ratio plot settings
   h3->GetXaxis()->SetTitleSize(20);
   h3->GetXaxis()->SetTitleFont(43);
   h3->GetXaxis()->SetTitleOffset(3.);
   h3->GetXaxis()->SetLabelFont(43); // Absolute font size in pixel (precision 3)
   h3->GetXaxis()->SetLabelSize(15);


     cPredVsEstimated->SaveAs("PredVsEstimated.png");
     cPredVsEstimated->SaveAs("PredVsEstimated.gif");
     cPredVsEstimated->SaveAs("ZPredVsEstimated.pdf");



   

     
      
      
      






    /////////////////////////////Fill the empty bins with simulated data
     


       TCanvas *c[20];
   int a;

  double promptfrac=hSieta_GJetsEB->Integral()/(hSieta_GJetsEB->Integral()+hSieta_QCDEB->Integral());

  cout<<"prompt fraction: "<<promptfrac<<endl;

  
  
   plot.plotHist(hHT_Data,hHT_GJets,hHT_QCD,c[0],"","Data","MC","HT");
   
   plot.plotHist(hMHT_Data,hMHT_GJets,hMHT_QCD,c[1],"","Data","MC","MHT");
   
   plot.plotHist(hNJets_Data,hNJets_GJets,hNJets_QCD,c[2],"","Data","MC","Njets");
   
   plot.plotHist(hSieta_DataEB,hSieta_GJetsEB,hSieta_QCDEB,c[3],"EB","Data","MC","SigmaIetaIeta_EB");
   
   plot.plotHist(hSieta_DataEBLow,hSieta_GJetsEBLow,hSieta_QCDEBLow,c[4],"Low-MHT-EB","Data","MC","SigmaIetaIeta_EB");
   
   plot.plotHist(hSieta_DataEBMed,hSieta_GJetsEBMed,hSieta_QCDEBMed,c[5],"Med-MHT-EB","Data","MC","SigmaIetaIeta_EB");
   
   plot.plotHist(hSieta_DataEBHigh,hSieta_GJetsEBHigh,hSieta_QCDEBHigh,c[6],"High-MHT-EB","Data","MC","SigmaIetaIeta_EB");
   

   plot.plotHist(hSieta_DataEC,hSieta_GJetsEC,hSieta_QCDEC,c[7],"EE","Data","MC","SigmaIetaIeta_EE");
   
   plot.plotHist(hSieta_DataECLow,hSieta_GJetsECLow,hSieta_QCDECLow,c[8],"Low-MHT-EE","Data","MC","SigmaIetaIeta_EE");
   
   plot.plotHist(hSieta_DataECMed,hSieta_GJetsECMed,hSieta_QCDECMed,c[9],"Med-MHT-EE","Data","MC","SigmaIetaIeta_EE");
   
   plot.plotHist(hSieta_DataECHigh,hSieta_GJetsECHigh,hSieta_QCDECHigh,c[10],"High-MHT-EE","Data","MC","SigmaIetaIeta_EE");   


   
   
   plot.plotHist(hPhPt_DataEB,hPhPt_GJetsEB,hPhPt_QCDEB,c[11],"EB","Data","MC","PhotonPt_EB");

   

   plot.plotHist(hPhPt_DataEC,hPhPt_GJetsEC,hPhPt_QCDEC,c[12],"EE","Data","MC","PhotonPt_EE");

   

   plot.plotHist(h_Ndata18binEB,h_NGJets18binEB,h_NQCD18binEB,c[13],"EB","Data","MC","ith-Bin-EB");
   
   plot.plotHist(h_Ndata18binEC,h_NGJets18binEC,h_NQCD18binEC,c[14],"EE","Data","MC","ith-Bin-EE");

   

  
  

     
   







}//main programme
Beispiel #15
0
void compareMet(){

  gStyle->SetOptStat(0);

  bool isData = true;

  char* file = "output/v8/ZJets_baby.root";
  if( isData ) file = "../../metTemplate/output/v8/lepdata_skim_baby.root";
  //if( isData ) file = "../output/V00-00-00/lepdata_skim_baby.root";
  //if( isData ) file = "output/uaf/lepdata_skim_baby.root";
  //if( isData ) file = "output/v8/lepdata_skim_nov4_baby_nov4json.root";
  //if( isData ) file = "output/uaf/lepdata_skim_baby.root";
  //if( isData ) file = "lepdata_skim_Nov4_baby.root";

  cout << "Adding " << file << endl;

  TFile *f = TFile::Open( file );

  TH1F* hee = new TH1F("hee","",75,0,150);
  TH1F* hmm = new TH1F("hmm","",75,0,150);
  TH1F* hem = new TH1F("hem","",75,0,150);

  TCut sel("njets>-1");
 
  TCut ee("leptype==0&&jetptll-ptll>-5&&jetptlt-ptlt>-5&&dilmass>81&&dilmass<101");
  //TCut ee("leptype==0&&dilmass>81&&dilmass<101");
  TCut mm("leptype==1&&nmatchedpfmuons==2&&dilmasspf>81&&dilmasspf<101");
  TCut em("leptype==2&&nmatchedpfmuons==1&&dilmass>81&&dilmass<101");

  //TCut ee("leptype==0&&jetptll-ptll>-5&&jetptlt-ptlt>-5");
  //TCut mm("leptype==1&&nmatchedpfmuons==2");
  //TCut em("leptype==2&&nmatchedpfmuons==1");

  //TCut weight("weight");
  TCut weight("1");

  TCanvas *c1 = new TCanvas();
  c1->cd();

  TPad *plotpad = new TPad("plotpad","plotpad",0.0,0.0,1.0,0.8);
  plotpad->Draw();
  plotpad->cd();

  TTree* T1 = (TTree*) f->Get("T1");

  T1->Draw("TMath::Min(pfmet,149.99)>>hee",(sel+ee)*weight);
  T1->Draw("TMath::Min(pfmet,149.99)>>hmm",(sel+mm)*weight);
  T1->Draw("TMath::Min(pfmet,149.99)>>hem",(sel+em)*weight);

  hee->Sumw2();
  hmm->Sumw2();
  hem->Sumw2();

  hmm->Draw();
  hmm->GetXaxis()->SetTitle("pfmet (GeV)");
  hee->SetLineColor(2);
  hee->SetMarkerColor(2);
  hem->SetLineColor(4);
  hem->SetMarkerColor(4);
  hmm->SetMarkerStyle(20);
  hem->SetMarkerStyle(24);
  hmm->SetMarkerSize(0.7);
  hee->Draw("samehist");
  hem->Draw("same");
  gPad->SetLogy(1);

  TLegend *leg = new TLegend(0.6,0.65,0.8,0.85);
  leg->AddEntry(hee,"ee","l");
  leg->AddEntry(hmm,"#mu#mu");
  leg->AddEntry(hem,"e#mu");
  leg->SetFillColor(0);
  leg->SetBorderSize(1);
  leg->Draw();

//   TLatex *t = new TLatex();
//   t->SetNDC();
//   if( isData ){
//     t->DrawLatex(0.4,0.6,  "CMS");
//     //t->DrawLatex(0.4,0.53, "Selected Z+#geq2jet Events (DATA)");
//     t->DrawLatex(0.4,0.53, "Selected Z Events (DATA)");
//     t->DrawLatex(0.4,0.46, "34.0 pb^{-1} at #sqrt{s} = 7 TeV");
//   }else{
//     t->DrawLatex(0.4,0.6, "CMS");
//     t->DrawLatex(0.4,0.53,"Selected Z+0jet Events (Z+jets MC)");
//   }

  c1->cd();

  TPad *pullpad = new TPad("pullpad","pullpad",0.0,0.8,1.0,1.0);
  pullpad->Draw();
  pullpad->cd();

  TH1F* hratio = (TH1F*) hmm->Clone();
  hratio->Divide(hee);
  hratio->Draw();
  gPad->SetGridy();
  hratio->SetMinimum(0.8);
  hratio->SetMaximum(1.6);
  hratio->GetYaxis()->SetLabelSize(0.15);
  hratio->GetYaxis()->SetNdivisions(7);
  hratio->GetYaxis()->SetTitle("#mu#mu / ee  ");
  hratio->GetXaxis()->SetTitle("");
  hratio->GetYaxis()->SetTitleSize(0.2);
  hratio->GetYaxis()->SetTitleOffset(0.2);

  float cut1 = 30;
  float cut2 = 60;
  float cut3 = 120;

  int bin1 = hee->FindBin(cut1);
  int bin2 = hee->FindBin(cut2);
  int bin3 = hee->FindBin(cut3);
  
  cout << "ee tot         " << hee->Integral() << endl;
  cout << "ee met>30  GeV " << hee->Integral(bin1,1000) << endl;
  cout << "ee met>60  GeV " << hee->Integral(bin2,1000) << endl;
  cout << "ee met>120 GeV " << hee->Integral(bin3,1000) << endl;

  cout << "mm tot         " << hmm->Integral() << endl;
  cout << "mm met>30  GeV " << hmm->Integral(bin1,1000) << endl;
  cout << "mm met>60  GeV " << hmm->Integral(bin2,1000) << endl;
  cout << "mm met>120 GeV " << hmm->Integral(bin3,1000) << endl;

  int width1 = 15;
  int width2 =  5;

  cout << "|" << setw(width1) << ""               << setw(width2)
       << "|" << setw(width1) << Form("N(met>%.0f GeV)",cut1)  << setw(width2)
       << "|" << setw(width1) << Form("N(met>%.0f GeV)",cut2)  << setw(width2)
       << "|" << setw(width1) << Form("N(met>%.0f GeV)",cut3)  << setw(width2) 
       << "|" << endl;

  cout << "|" << setw(width1) << "ee"                       << setw(width2)
       << "|" << setw(width1) << hee->Integral(bin1,1000)  << setw(width2)
       << "|" << setw(width1) << hee->Integral(bin2,1000)  << setw(width2)
       << "|" << setw(width1) << hee->Integral(bin3,1000) << setw(width2) 
       << "|" << endl;

  cout << "|" << setw(width1) << "mm"                       << setw(width2)
       << "|" << setw(width1) << hmm->Integral(bin1,1000)  << setw(width2)
       << "|" << setw(width1) << hmm->Integral(bin2,1000)  << setw(width2)
       << "|" << setw(width1) << hmm->Integral(bin3,1000) << setw(width2) 
       << "|" << endl;

  cout << "|" << setw(width1) << "em"                       << setw(width2)
       << "|" << setw(width1) << hem->Integral(bin1,1000)  << setw(width2)
       << "|" << setw(width1) << hem->Integral(bin2,1000)  << setw(width2)
       << "|" << setw(width1) << hem->Integral(bin3,1000) << setw(width2) 
       << "|" << endl;
}
int main() {
  ModTDRStyle();

  std::vector<Scan> scans;
  //scans.push_back({"higgsCombinefullScan.MultiDimFit.mH125.root", "with syst.", 1, nullptr});
  //scans.push_back({"higgsCombinefastScan.MultiDimFit.mH125.root", "no syst.", 32, nullptr});
  //scans.push_back({"higgsCombinenoBBBScan.MultiDimFit.mH125.root", "no bbb syst.", 38, nullptr});
  
  // scans.push_back({"thesis/higgsCombineFullScan.MultiDimFit.mH125.root", "Stat+Syst+Theory", 1, nullptr});
  scans.push_back({"higgsCombineFullScan.MultiDimFit.mH125.root", "Mass Scan", kAzure-4, nullptr});
  // scans.push_back({"higgsCombineStatOnly.MultiDimFit.mH125.root", "Stat Only", kBlue+1, nullptr});
  //scans.push_back({"thesis/higgsCombineStatAndTh.MultiDimFit.mH125.root", "Stat+Theory", 39, nullptr});
  TCanvas c1("canvas","canvas");

  std::vector<TLine *> lines;


  TLegend *leg = new TLegend(0.37,0.65,0.73,0.9,"","brNDC");

  unsigned counter = 0;
  for (auto & sc : scans) {
    TFile f1(sc.file.c_str());
    TTree *t1 = dynamic_cast<TTree*>(f1.Get("limit"));
    double best1 = 0.0;
    sc.gr = new TGraph(ExtractGraph(t1, best1));
    auto x1 = GetCrossings(*(sc.gr), 1.0);
    TString res;
    if (x1.size() == 2) {
      double err = (x1[1]-x1[0])/2.0;
      std::cout << "Best fit is: " << best1 << " +/- " << err << std::endl;
      lines.push_back(new TLine(x1[0],0,x1[0],1.0));
      lines.back()->SetLineColor(sc.color);
      lines.back()->SetLineWidth(2);
      lines.push_back(new TLine(x1[1],0,x1[1],1.0));
      lines.back()->SetLineColor(sc.color);
      lines.back()->SetLineWidth(2);
      res = TString::Format("%.1f#pm%.1f",best1,err);
    }
    sc.gr->SetLineColor(sc.color);
    sc.gr->SetLineWidth(3);
    sc.gr->Draw(counter ? "LSAME" : "AL");
    TString leg_text = "#splitline{"+sc.label+"}{"+res+"}";
    leg->AddEntry(sc.gr, leg_text, "L");
    counter++;
  }
  // c1.cd();
  // // g1.Print();
  // g1.SetLineColor(1);
  // g1.SetLineWidth(2);
  // // g1.SetMarkerColor(7);
  // g1.Draw("AC");
  scans[0].gr->SetMaximum(4);
  scans[0].gr->GetXaxis()->SetRangeUser(110, 130);
  // scans[0].gr->GetXaxis()->SetTitle("Signal Strength, #mu");
  scans[0].gr->GetXaxis()->SetTitle("m_{H} [GeV]");
  scans[0].gr->GetYaxis()->SetTitle("-2 #Delta ln L");
  scans[0].gr->GetXaxis()->SetTitleFont(62);
  scans[0].gr->GetYaxis()->SetTitleFont(62);
  leg->SetBorderSize(1);
  leg->SetTextFont(42);
  leg->SetTextSize(0.03);
  leg->SetLineColor(0);
  leg->SetLineStyle(1);
  leg->SetLineWidth(1);
  leg->SetFillColor(0);
  leg->SetFillStyle(1001);
  leg->Draw();
  lines.push_back(new TLine(110,1,130,1));
  lines.back()->SetLineColor(2);
  for (auto l : lines) l->Draw();
  TLatex *title_latex = new TLatex();
  title_latex->SetNDC();
  title_latex->SetTextSize(0.035);
  title_latex->SetTextFont(62);
  title_latex->SetTextAlign(31);
  double height = 0.94;
  title_latex->DrawLatex(0.95,height,"19.7 fb^{-1} (8 TeV) + 4.9 fb^{-1} (7 TeV)");
  title_latex->SetTextAlign(11);
  title_latex->DrawLatex(0.17,height,"H#rightarrow#tau#tau");
  title_latex->SetTextSize(0.08);
  title_latex->DrawLatex(0.21, 0.25, "#mu#tau_{h}");
  c1.Update();
  c1.SaveAs("scan.pdf");
  return 0;
}
void DrawNCLUSTER()
{
  //=========Macro generated from canvas: r1/Energy
  //=========  (Fri Apr  6 17:14:48 2012) by ROOT version5.28/00g
  TCanvas *r1 = new TCanvas("r1", "Ncluster",12,24,550,741);
  gStyle->SetOptStat(0);
  gStyle->SetOptTitle(0);
  gStyle->SetFrameLineWidth(1);
  r1->Range(0,0,1,1);
  r1->SetFillColor(0);
  r1->SetBorderMode(0);
  r1->SetBorderSize(0);
  r1->SetTickx(1);
  r1->SetTicky(1);
  r1->SetLeftMargin(0.16);
  r1->SetRightMargin(0.01);
  r1->SetTopMargin(0.0256917);
  r1->SetBottomMargin(0.07692308);
  r1->SetFrameBorderMode();
  
  // ------------>Primitives in pad: r1_1
  TPad *r1_1 = new TPad("r1_1", "Energy_1",0.02,0.37,0.95,0.99);
  r1_1->Draw();
  r1_1->cd();
  r1_1->Range(-19,0.01,95,95);
  r1_1->SetFillColor(0);
  r1_1->SetBorderMode(0);
  r1_1->SetBorderSize(2);
  r1_1->SetTickx(1);
  r1_1->SetTicky(1);
  r1_1->SetLeftMargin(0.16);
  r1_1->SetRightMargin(0.01);
  r1_1->SetTopMargin(0.02);
  r1_1->SetBottomMargin(0);
  r1_1->SetFrameBorderMode(0);
  r1_1->SetFrameBorderMode(0);
   
  TH1D *he = new TH1D("he"," ",55,0,55);
  he->SetMinimum(0.01);
  he->SetMaximum(70);
  he->SetStats(0);
  he->GetXaxis()->SetTitle("E_{beam} [GeV]");
  he->GetXaxis()->SetLabelFont(43);
  he->GetXaxis()->SetLabelSize(0);
  he->GetXaxis()->SetTitleFont(43);
  he->GetXaxis()->SetTitleSize(0); 
  he->GetYaxis()->SetTitle("<N_{cluster}>");
  he->GetYaxis()->SetLabelFont(43);
  he->GetYaxis()->SetTitleSize(30);
  he->GetYaxis()->SetLabelSize(20);
  he->GetYaxis()->SetTitleFont(43);
  he->GetYaxis()->SetTitleOffset(1.7);
  he->GetZaxis()->SetLabelFont(42);
  he->GetZaxis()->SetTitleSize(0.05);
  he->GetZaxis()->SetTitleFont(42);
  he->Draw("");
   
  std::vector<result> resultData=readTXT(std::string("ncluster_augsep2012_electron.txt"));
  TGraphErrors *gre = new TGraphErrors(resultData.size());
  gre->SetName("Graph");
  gre->SetTitle("Graph");
  gre->SetLineColor(1);
  gre->SetFillStyle(1);
  gre->SetFillColor(1);
  gre->SetLineWidth(2);
  gre->SetMarkerColor(1);
  gre->SetMarkerStyle(34);
  gre->SetMarkerSize(1.2);
  for(unsigned int i=0; i<resultData.size(); i++){
    gre->SetPoint(i,resultData.at(i).ebeam,resultData.at(i).ncluster);
    gre->SetPointError(i,0,resultData.at(i).nclusterError);
  }

  TH1F *Graph_Graph3 = new TH1F("Graph_Graph3","Graph",100,0,87.5);
  Graph_Graph3->SetMinimum(0);
  Graph_Graph3->SetMaximum(1193.483);
  Graph_Graph3->SetDirectory(0);
  Graph_Graph3->SetStats(0);
  Graph_Graph3->GetXaxis()->SetLabelFont(42);
  Graph_Graph3->GetXaxis()->SetTitleSize(0.05);
  Graph_Graph3->GetXaxis()->SetTitleFont(42);
  Graph_Graph3->GetYaxis()->SetLabelFont(42);
  Graph_Graph3->GetYaxis()->SetTitleSize(0.05);
  Graph_Graph3->GetYaxis()->SetTitleFont(42);
  Graph_Graph3->GetZaxis()->SetLabelFont(42);
  Graph_Graph3->GetZaxis()->SetTitleSize(0.05);
  Graph_Graph3->GetZaxis()->SetTitleFont(42);
  gre->SetHistogram(Graph_Graph3);
   
  gre->Draw("p");
   
  std::vector<result> resultFTFP=readTXT(std::string("ncluster_ftfp_bert_hp_electron.txt"));
  gre = new TGraphErrors(resultFTFP.size());
  gre->SetName("Graph");
  gre->SetTitle("Graph");
  gre->SetFillColor(kRed-3);
  gre->SetMarkerColor(kRed-3);
  gre->SetLineWidth(2);
  gre->SetMarkerStyle(20);
  for(unsigned int i=0; i<resultFTFP.size(); i++){
    gre->SetPoint(i,resultFTFP.at(i).ebeam,resultFTFP.at(i).ncluster);
    gre->SetPointError(i,0,resultFTFP.at(i).nclusterError);
  }
   
  TH1F *Graph1 = new TH1F("Graph1","Graph",100,0,87.17072);
  Graph1->SetMinimum(2.655724);
  Graph1->SetMaximum(88.56778);
  Graph1->SetDirectory(0);
  Graph1->SetStats(0);
  Graph1->GetXaxis()->SetLabelFont(42);
  Graph1->GetXaxis()->SetTitleSize(0.05);
  Graph1->GetXaxis()->SetTitleFont(42);
  Graph1->GetYaxis()->SetLabelFont(42);
  Graph1->GetYaxis()->SetTitleSize(0.05);
  Graph1->GetYaxis()->SetTitleFont(42);
  Graph1->GetZaxis()->SetLabelFont(42);
  Graph1->GetZaxis()->SetTitleSize(0.05);
  Graph1->GetZaxis()->SetTitleFont(42);
  gre->SetHistogram(Graph1);
   
  gre->Draw("p");

  std::vector<result> resultQGSP=readTXT(std::string("ncluster_qgsp_bert_hp_electron.txt"));
  gre = new TGraphErrors(resultQGSP.size());
  gre->SetName("Graph");
  gre->SetTitle("Graph");
  gre->SetFillColor(kBlue-6);
  gre->SetMarkerColor(kBlue-6);
  gre->SetLineWidth(2);
  gre->SetMarkerStyle(25);
  for(unsigned int i=0; i<resultQGSP.size(); i++){
    gre->SetPoint(i,resultQGSP.at(i).ebeam,resultQGSP.at(i).ncluster);
    gre->SetPointError(i,0,resultQGSP.at(i).nclusterError);
  }

  TH1F *Graph_Graph2 = new TH1F("Graph_Graph2","Graph",100,0,87.5);
  Graph_Graph2->SetMinimum(0);
  Graph_Graph2->SetMaximum(1193.483);
  Graph_Graph2->SetDirectory(0);
  Graph_Graph2->SetStats(0);
  Graph_Graph2->GetXaxis()->SetLabelFont(42);
  Graph_Graph2->GetXaxis()->SetTitleSize(0.05);
  Graph_Graph2->GetXaxis()->SetTitleFont(42);
  Graph_Graph2->GetYaxis()->SetLabelFont(42);
  Graph_Graph2->GetYaxis()->SetTitleSize(0.05);
  Graph_Graph2->GetYaxis()->SetTitleFont(42);
  Graph_Graph2->GetZaxis()->SetLabelFont(42);
  Graph_Graph2->GetZaxis()->SetTitleSize(0.05);
  Graph_Graph2->GetZaxis()->SetTitleFont(42);
  gre->SetHistogram(Graph_Graph2);
   
  gre->Draw("p");

  TLegend *leg = new TLegend(0.15,0.7,0.75,0.9,NULL,"brNDC");
  leg->SetBorderSize(0);
  leg->SetTextFont(62);
  leg->SetLineColor(1);
  leg->SetLineStyle(1);
  leg->SetLineWidth(1);
  leg->SetFillColor(0);
  leg->SetFillStyle(0);
   
  TLegendEntry *entry=leg->AddEntry("Graph_Graph3","SDHCAL DATA (H6 Cern SPS)","p");
  entry->SetLineColor(1);
  entry->SetLineStyle(1);
  entry->SetLineWidth(1);
  entry->SetMarkerColor(1);
  entry->SetMarkerStyle(34);
  entry->SetMarkerSize(1.2);

  entry=leg->AddEntry("Graph1","FTFP_BERT_HP","p");
  entry->SetLineColor(kRed-3);
  entry->SetLineStyle(kRed-3);
  entry->SetLineWidth(kRed-3);
  entry->SetMarkerColor(kRed-3);
  entry->SetMarkerStyle(20);
  entry->SetMarkerSize(1.0);

  entry=leg->AddEntry("Graph_Graph2","QGSP_BERT_HP","p");
  entry->SetLineColor(kBlue-6);
  entry->SetLineStyle(kBlue-6);
  entry->SetLineWidth(kBlue-6);
  entry->SetMarkerColor(kBlue-6);
  entry->SetMarkerStyle(25);
  entry->SetMarkerSize(0.9);

  leg->Draw();

  TText *tex=new TText();
  tex->SetTextSize(0.05);
  tex->SetTextColor(kGray+2);
  //tex->DrawTextNDC(0.5,0.05,"SDHCAL Preliminary");
  tex->DrawTextNDC(0.3,0.05,"CALICE Fe-SDHCAL Preliminary");
  r1_1->Modified();
  r1->cd();
  
  // ------------>Primitives in pad: r1_2
  TPad *r1_2 = new TPad("r1_2", "Energy_2",0.02,0.0,0.95,0.38);
  r1_2->Draw();
  r1_2->cd();
  r1_2->Range(-19,-0.06545455,95,0.048);
  r1_2->SetFillColor(0);
  r1_2->SetBorderMode(0);
  r1_2->SetBorderSize(2);
  r1_2->SetTickx(1);
  r1_2->SetTicky(1);
  r1_2->SetLeftMargin(0.16);
  r1_2->SetRightMargin(0.01);
  r1_2->SetTopMargin(0.0);
  r1_2->SetBottomMargin(0.23);
  r1_2->SetFrameBorderMode(0);
  r1_2->SetFrameBorderMode(0);
   
  TH1D *hd = new TH1D("hd"," ",55,0,55);
  hd->SetMinimum(-0.20);
  hd->SetMaximum(0.20);
  hd->SetStats(0);
  hd->GetXaxis()->SetTitle("E_{beam} [GeV]");
  hd->GetXaxis()->SetLabelFont(43);
  hd->GetXaxis()->SetLabelSize(20);
  hd->GetXaxis()->SetTitleFont(43);
  hd->GetXaxis()->SetTitleSize(30);
  hd->GetXaxis()->SetTitleOffset(2.);
  hd->GetYaxis()->SetTitle("(#DeltaN_{cluster})/N_{data}");
  hd->GetYaxis()->SetLabelFont(43);
  hd->GetYaxis()->SetLabelSize(20);
  hd->GetYaxis()->SetTitleSize(30);
  hd->GetYaxis()->SetTitleOffset(1.7);
  hd->GetYaxis()->SetTitleFont(43);
  hd->GetYaxis()->SetNdivisions(505);
  hd->GetZaxis()->SetLabelFont(42);
  hd->GetZaxis()->SetTitleSize(0.05);
  hd->GetZaxis()->SetTitleFont(42);
  hd->Draw("");
   
  float deltaError;
  float delta;
  gre = new TGraphErrors(resultQGSP.size());
  gre->SetName("Graph");
  gre->SetTitle("Graph");
  for(unsigned int i=0; i<resultQGSP.size(); i++){
    delta=(resultQGSP.at(i).ncluster-resultData.at(i).ncluster)/resultData.at(i).ncluster;
    deltaError=1/resultData.at(i).ncluster*
      sqrt(pow(resultQGSP.at(i).nclusterError,2) +
	   pow(resultQGSP.at(i).ncluster/resultData.at(i).ncluster*resultData.at(i).nclusterError,2));
    gre->SetPoint(i,resultQGSP.at(i).ebeam,delta);
    gre->SetPointError(i,0,deltaError);
  }
  gre->SetLineWidth(2);
  gre->SetLineColor(kBlue-6);
  gre->SetMarkerColor(kBlue-6);
  gre->SetMarkerSize(1.0);
  gre->SetMarkerStyle(25);
   
  gre->Draw("p");
   
  gre = new TGraphErrors(resultFTFP.size());
  gre->SetName("Graph");
  gre->SetTitle("Graph");
  for(unsigned int i=0; i<resultFTFP.size(); i++){
    delta=(resultFTFP.at(i).ncluster-resultData.at(i).ncluster)/resultData.at(i).ncluster;
    deltaError=1/resultData.at(i).ncluster*
      sqrt(pow(resultFTFP.at(i).nclusterError,2) +
	   pow(resultFTFP.at(i).ncluster/resultData.at(i).ncluster*resultData.at(i).nclusterError,2));
    gre->SetPoint(i,resultFTFP.at(i).ebeam,delta);
    gre->SetPointError(i,0,deltaError);
  }
  gre->SetLineWidth(2);
  gre->SetLineColor(kRed-3);
  gre->SetMarkerColor(kRed-3);
  gre->SetMarkerSize(1.0);
  gre->SetMarkerStyle(20);
   
  gre->Draw("p");
   
   
  TF1 *lin1 = new TF1("lin1","0",-0.01,95);
  lin1->SetFillColor(19);
  lin1->SetFillStyle(0);
  lin1->SetLineWidth(1);
  lin1->SetLineStyle(1);
  lin1->SetLineColor(1);
  lin1->GetXaxis()->SetLabelFont(42);
  lin1->GetXaxis()->SetTitleSize(0.05);
  lin1->GetXaxis()->SetTitleFont(42);
  lin1->GetYaxis()->SetLabelFont(42);
  lin1->GetYaxis()->SetTitleSize(0.05);
  lin1->GetYaxis()->SetTitleFont(42);
  lin1->Draw("same");
   
  lin1 = new TF1("lin1","0.1",0.01,95);
  lin1->SetFillColor(1);
  lin1->SetFillStyle(0);
  lin1->SetLineWidth(1);
  lin1->SetLineStyle(2);
  lin1->SetLineColor(17);
  lin1->GetXaxis()->SetLabelFont(42);
  lin1->GetXaxis()->SetTitleSize(0.05);
  lin1->GetXaxis()->SetTitleFont(42);
  lin1->GetYaxis()->SetLabelFont(42);
  lin1->GetYaxis()->SetTitleSize(0.05);
  lin1->GetYaxis()->SetTitleFont(42);
  lin1->Draw("same");
   
  lin1 = new TF1("lin1","-0.1",0.01,95);
  lin1->SetFillColor(1);
  lin1->SetFillStyle(0);
  lin1->SetLineWidth(1);
  lin1->SetLineStyle(2);
  lin1->SetLineColor(17);
  lin1->GetXaxis()->SetLabelFont(42);
  lin1->GetXaxis()->SetTitleSize(0.05);
  lin1->GetXaxis()->SetTitleFont(42);
  lin1->GetYaxis()->SetLabelFont(42);
  lin1->GetYaxis()->SetTitleSize(0.05);
  lin1->GetYaxis()->SetTitleFont(42);
  lin1->Draw("same");

  r1_2->Modified();
  r1->cd();
  r1->Modified();
  r1->cd();
  r1->SetSelected(r1);
  r1->SaveAs("../plots/NCLUSTERELECTRON.pdf");
}
void makePlots( const char * model, const char * src, const char * infile , const char * option )
{
  
  //Output path
  TString path("./paper01-plots/probs/");
  
  TString dataPee  = TString( model ) + TString("_") + TString( src ) + TString("_Pee/data");
  TString dataPem  = TString( model ) + TString("_") + TString( src ) + TString("_Pem/data");
  TString dataPet  = TString( model ) + TString("_") + TString( src ) + TString("_Pet/data");
  TString dataAPee = TString( model ) + TString("_") + TString( src ) + TString("_aPee/data");
  TString dataAPem = TString( model ) + TString("_") + TString( src ) + TString("_aPem/data");
  TString dataAPet = TString( model ) + TString("_") + TString( src ) + TString("_aPet/data");
    
  TList * v_Labels = new TList();
  TObjString *label;
  label = new TObjString( "Pee" );
  v_Labels->Add( label ); 
  label = new TObjString( "Pe#mu" );
  v_Labels->Add( label ); 
  label = new TObjString( "Pe#tau" );
  v_Labels->Add( label ); 
  
  TFile * f1 = new TFile(infile);
  
  f1->cd();
  
  TTree * PeeTreeNu = (TTree*)gDirectory->Get( dataPee.Data() );
  TTree * PemTreeNu = (TTree*)gDirectory->Get( dataPem.Data() );
  TTree * PetTreeNu = (TTree*)gDirectory->Get( dataPet.Data() );
  
  TTree * PeeTreeANu = (TTree*)gDirectory->Get( dataAPee.Data() );
  TTree * PemTreeANu = (TTree*)gDirectory->Get( dataAPem.Data() );
  TTree * PetTreeANu = (TTree*)gDirectory->Get( dataAPet.Data() );
  
  //Branches
  double xx = 0.0;
  double yy = 0.0;
  
  TCanvas * c1 = new TCanvas(model, "Oscillation probabilities", 184, 60, 861, 670);
  c1->Divide(1,3);
  
  TGraph * ProbNu[3];
  ProbNu[0] = new TGraph();
  ProbNu[1] = new TGraph();
  ProbNu[2] = new TGraph();
  
  TGraph * ProbANu[3];
  ProbANu[0] = new TGraph();
  ProbANu[1] = new TGraph();
  ProbANu[2] = new TGraph();
  
  TGraph * Psum = new TGraph();
  TGraph * aPsum = new TGraph();
  
  TLegend * leg = new TLegend(0.14,0.69,0.24,0.85);
    
  PeeTreeNu->SetBranchAddress("Ex",&xx);
  PeeTreeNu->SetBranchAddress("Pb",&yy);
  
  Long64_t nentries = PeeTreeNu->GetEntries();
  
  for (Long64_t i=0;i<nentries;i++) {
    PeeTreeNu->GetEntry(i);
    ProbNu[0]->SetPoint( i, xx, yy);
  }

  PeeTreeANu->SetBranchAddress("Ex",&xx);
  PeeTreeANu->SetBranchAddress("Pb",&yy);
  
  nentries = PeeTreeANu->GetEntries();
  
  for (Long64_t i=0;i<nentries;i++) {
    PeeTreeANu->GetEntry(i);
    ProbANu[0]->SetPoint( i, xx, yy);
  }

  ///Pem
  
  PemTreeNu->SetBranchAddress("Ex",&xx);
  PemTreeNu->SetBranchAddress("Pb",&yy);

  nentries = PemTreeNu->GetEntries();
  
  for (Long64_t i=0;i<nentries;i++) {
    PemTreeNu->GetEntry(i);
    ProbNu[1]->SetPoint( i, xx, yy);
  }
  
  PemTreeANu->SetBranchAddress("Ex",&xx);
  PemTreeANu->SetBranchAddress("Pb",&yy);
  
  nentries = PemTreeANu->GetEntries();
  
  for (Long64_t i=0;i<nentries;i++) {
    PemTreeANu->GetEntry(i);
    ProbANu[1]->SetPoint( i, xx, yy);
  }

  ///Pet

  PetTreeNu->SetBranchAddress("Ex",&xx);
  PetTreeNu->SetBranchAddress("Pb",&yy);

  nentries = PetTreeNu->GetEntries();
  
  for (Long64_t i=0;i<nentries;i++) {
    PetTreeNu->GetEntry(i);
    ProbNu[2]->SetPoint( i, xx, yy);
  }
  
  PetTreeANu->SetBranchAddress("Ex",&xx);
  PetTreeANu->SetBranchAddress("Pb",&yy);
  
  nentries = PetTreeANu->GetEntries();
  
  for (Long64_t i=0;i<nentries;i++) {
    PetTreeANu->GetEntry(i);
    ProbANu[2]->SetPoint( i, xx, yy);
  }

  for( int k=0; k < 3; ++k) 
  {
    
    ProbNu[k]->SetLineColor(4);
    ProbNu[k]->SetMarkerColor(4);
    ProbNu[k]->SetMarkerStyle(7);
    
    ProbNu[k]->SetFillColor(10);
    ProbNu[k]->SetMaximum(1.0);
    ProbNu[k]->SetMinimum(0.0);
    
    TString yaxis = ((TObjString*)v_Labels->At(k))->GetString();
    ProbNu[k]->GetYaxis()->SetTitle( yaxis.Data() );
    ProbNu[k]->GetXaxis()->SetTitle("E [eV]");
    ProbNu[k]->GetYaxis()->CenterTitle(true); 
    ProbNu[k]->GetXaxis()->CenterTitle(true); 
    ProbNu[k]->GetXaxis()->SetLabelOffset(0.007);
    ProbNu[k]->GetXaxis()->SetLabelSize(0.08);
    ProbNu[k]->GetXaxis()->SetTitleSize(0.07);
    ProbNu[k]->GetXaxis()->SetTitleOffset(0.9);
    ProbNu[k]->GetXaxis()->SetLabelFont(42);
    ProbNu[k]->GetYaxis()->SetLabelOffset(0.007);
    ProbNu[k]->GetYaxis()->SetLabelSize(0.08);
    ProbNu[k]->GetYaxis()->SetLabelFont(42);
    ProbNu[k]->GetYaxis()->SetTitleSize(0.09);
    ProbNu[k]->GetYaxis()->SetTitleOffset(0.45);
    ProbNu[k]->GetYaxis()->SetTitleFont(42);
    
    ProbANu[k]->SetMarkerColor(42);
    ProbANu[k]->SetMarkerStyle(23);
    ProbANu[k]->SetMarkerSize(0.3);
    
    ProbANu[k]->SetFillColor(10);
    ProbANu[k]->SetMaximum(1.0);
    ProbANu[k]->SetMinimum(0.0);
    

  }
  
  leg->AddEntry( ProbNu[0], "#nu");
  leg->AddEntry( ProbANu[0], "#bar{#nu}");
  leg->SetBorderSize(0);
  leg->SetTextSize(0.1);
  leg->SetLineColor(1);
  leg->SetLineStyle(1);
  leg->SetLineWidth(1);
  leg->SetFillColor(0);
  leg->SetFillStyle(1001);


  c1->cd(1);
  gPad->SetGridx();
  gPad->SetGridy();
  gPad->SetLogx();

  if ( std::string(model).compare("EarthB") == 0 ) 
    ProbNu[0]->GetXaxis()->SetLimits(0.98e9, 1.0e10);

  ProbNu[0]->Draw("APL");
  ProbANu[0]->Draw("PL");
  topTitle(model);
  leg->DrawClone();
  
  c1->cd(2);
  gPad->SetGridx();
  gPad->SetGridy();
  gPad->SetLogx();
  
  if ( std::string(model).compare("EarthB") == 0 ) 
    ProbNu[1]->GetXaxis()->SetLimits(0.98e9, 1.0e10);
  
  ProbNu[1]->Draw("APL");
  ProbANu[1]->Draw("PL");
  leg->DrawClone();
    
  c1->cd(3);
  gPad->SetGridx();
  gPad->SetGridy();
  gPad->SetLogx();
  
  if ( std::string(model).compare("EarthB") == 0 ) 
    ProbNu[2]->GetXaxis()->SetLimits(0.98e9, 1.0e10);
  
  ProbNu[2]->Draw("APL");
  ProbANu[2]->Draw("PL");
  leg->DrawClone();

  c1->cd();

  std::stringstream saveAs;
    
  saveAs.str("");
  saveAs << path << model << "/pdf/" << "nueosc_probs_" << model << "_" << option << ".pdf";
  c1->SaveAs( saveAs.str().c_str() );
  
  saveAs.str("");
  saveAs << path << model << "/png/" << "nueosc_probs_" << model << "_" << option << ".png";
  c1->SaveAs( saveAs.str().c_str() );

  saveAs.str("");
  saveAs << path << model << "/eps/" << "nueosc_probs_" << model << "_" << option << ".eps";
  c1->SaveAs( saveAs.str().c_str() );

  TH1D * h_Psum = new TH1D("Psum.Histo","",100, 0.99999, 1.0001);
  TH1D * h_aPsum = h_Psum->Clone("aPsum.Histo");

  for (Long64_t i=0;i<nentries;i++) {
    
    double xx = 0.0;
    double yy = 0.0;
    double p1 = 0.0;
    double p2 = 0.0;
    double p3 = 0.0;
    
    ProbNu[0]->GetPoint(i, xx, p1);
    ProbNu[1]->GetPoint(i, xx, p2);
    ProbNu[2]->GetPoint(i, xx, p3);
    
    yy = p1 + p2 + p3;
    
    if ( xx < 1.0e14 ) 
    {
      Psum->SetPoint( i, xx, yy);
      h_Psum->Fill( yy );
    }
    else 
      break;
    
  }

  for (Long64_t i=0;i<nentries;i++) {
    
    double xx = 0.0;
    double yy = 0.0;
    double p1 = 0.0;
    double p2 = 0.0;
    double p3 = 0.0;
    
    ProbANu[0]->GetPoint(i, xx, p1);
    ProbANu[1]->GetPoint(i, xx, p2);
    ProbANu[2]->GetPoint(i, xx, p3);
    
    yy = p1 + p2 + p3;
    
    if ( xx < 1.0e14 ) 
    {
      aPsum->SetPoint( i, xx, yy);
      h_aPsum->Fill( yy );
    }
    
    else 
      break;
    
  }
  
  TCanvas * c2 = new TCanvas("Sums", "Oscillation probabilities - SUMS", 184,112,394,472);
  
  c2->Divide(2,2);
  
  c2->cd(1);
  
  gPad->SetLogx();
  Psum->SetMaximum(1.1);
  Psum->SetMinimum(0.0);
  Psum->SetMarkerStyle(21);
  Psum->SetMarkerSize(0.2); 
  
  if ( std::string(model).compare("EarthB") == 0 ) 
    Psum->GetXaxis()->SetLimits(0.98e9, 1.0e10);
  
   
  Psum->Draw("APL");

  TLatex *   tex = new TLatex(1.823945e+11,0.8753448,"Nu");
  tex->SetLineWidth(2);
  tex->Draw();

  c2->Modified();
  c2->cd();
  
  //Now the histogram
  
  c2->cd(2);
  // h_Psum->GetXaxis()->SetRange(6,14);
  h_Psum->GetXaxis()->SetNdivisions(501);
  h_Psum->GetXaxis()->SetLabelFont(42);
  h_Psum->GetXaxis()->SetLabelOffset(0.007);
  h_Psum->GetXaxis()->SetLabelSize(0.05);
  h_Psum->GetXaxis()->SetTitleSize(0.06);
  h_Psum->GetXaxis()->SetTitleOffset(0.9);
  h_Psum->GetXaxis()->SetTitleFont(42);
  h_Psum->Draw("");


  h_Psum->Draw();
  
  /////

  c2->cd(3);
  
  gPad->SetLogx();
  aPsum->SetMaximum(1.1);
  aPsum->SetMinimum(0.0);
  aPsum->SetMarkerStyle(21);
  aPsum->SetMarkerSize(0.2);
  aPsum->SetMarkerColor(2);
  aPsum->GetXaxis()->SetTitle("E [eV]");
  aPsum->GetXaxis()->CenterTitle(true);
  aPsum->GetXaxis()->SetLabelFont(42);
  aPsum->GetXaxis()->SetLabelOffset(0.007);
  aPsum->GetXaxis()->SetLabelSize(0.05);
  aPsum->GetXaxis()->SetTitleSize(0.06);
  aPsum->GetXaxis()->SetTitleOffset(1.06);
  
  if ( std::string(model).compare("EarthB") == 0 ) 
    aPsum->GetXaxis()->SetLimits(0.98e9, 1.0e10);
  
  aPsum->Draw("APL");
  tex = new TLatex(1.56236e+11,0.8214771,"anti-Nu");
  tex->SetLineWidth(2);
  tex->Draw();
  
  //Now the histogram
  
  c2->cd(4);
  h_aPsum->Draw();
  
  /////

  c2->Modified();
  c2->cd();

  


  
  saveAs.str("");
  saveAs << path << model << "/png/" << "nueosc_sum_of_probs_" << model << "_" << option << ".png";
  c2->SaveAs( saveAs.str().c_str() );

}
Beispiel #19
0
void Jet_eta(){

  int jet = 8; //nth jet for eta plot

  vector<string> samples;
  samples.push_back( "TTH" );
  samples.push_back( "TTJets" ); 
  samples.push_back( "QCD300" );
  samples.push_back( "QCD500" );
  samples.push_back( "QCD700" );
  samples.push_back( "QCD1000" );  
  samples.push_back( "QCD1500" );
  samples.push_back( "QCD2000" );

  gStyle->SetOptStat(0);
  gStyle->SetTitleFillColor(0);
  gStyle->SetCanvasBorderMode(0);
  gStyle->SetCanvasColor(0);
  gStyle->SetPadBorderMode(0);
  gStyle->SetPadColor(0);
  gStyle->SetTitleFillColor(0);
  gStyle->SetTitleBorderSize(0);
  gStyle->SetTitleH(0.04);
  //gStyle->SetTitleFontSize(0.025);
  gStyle->SetTitleStyle(0);
  gStyle->SetTitleOffset(1.3,"y");
  
  TCanvas *c2 = new TCanvas("c2","",5,30,640,580);
  TPad *p2 = new TPad("p2","",0,0,1,1);
  p2->SetGrid(0,0);
  p2->SetFillStyle(4000);
  p2->SetFillColor(10);
  p2->SetTicky();
  p2->SetTicks(0,0);
  p2->SetObjectStat(0);
  p2->Draw();
  p2->cd();
  p2->SetTopMargin(0.05);
  
  TString cmsinfo = "";
  cmsinfo = "Simulation                                                  Normalized";

  TPaveText *pt_title = new TPaveText(0.1, 0.952, 0.9, 1.0,"brNDC");
  pt_title->SetFillStyle(1001);
  pt_title->SetBorderSize(0);
  pt_title->SetFillColor(0);
  pt_title->SetTextFont(42); 
  pt_title->SetTextSize(0.04); 
  pt_title->AddText(cmsinfo);
  
  TLegend* leg = new TLegend(0.22,0.54,0.47,0.91,NULL,"brNDC");
  leg->SetFillStyle(0);
  leg->SetBorderSize(0);
  leg->SetFillColor(kYellow);
  leg->SetTextSize(0.04);
  
  TH1F* httH  = 0;
  TH1F* hQCD  = 0;
  TH1F* httJ  = 0;
  
  string n = "";
  if(jet==1) n = "1st";
  else if(jet==2) n = "2nd";   
  else if(jet==3) n = "3rd";    
  else n= Form("%dth",jet);
  
  // master histogram (all other histograms are a clone of this one)
  TH1F* h1 = new TH1F("h1",("Eta of "+n+" jet; #eta; Normalized units").c_str(), 100 , -5.0, 5.0 );
  if(VAR == "nj"){
    TH1F* h2 = new TH1F("h2","Number of jets with |#eta|<2.4; n_{jet}; Normalized units", 9 , 0, 9 );
    h1  = (TH1F*)h2->Clone("h1" );
  }

  h1->GetXaxis()->SetTitleFont(62);
  h1->GetXaxis()->SetTitleSize(0.04);
  h1->GetXaxis()->SetLabelFont(62);
  h1->GetXaxis()->SetLabelSize(0.038);
  
  h1->GetYaxis()->SetTitleFont(62);
  h1->GetYaxis()->SetTitleSize(0.039);
  h1->GetYaxis()->SetLabelFont(62);
  h1->GetYaxis()->SetLabelSize(0.038);
  
  // clone histograms
  httH  = (TH1F*)h1->Clone("httH" );
  hQCD  = (TH1F*)h1->Clone("hQCD" );
  httJ  = (TH1F*)h1->Clone("httJ" );

  // set histogram styles
  httH ->SetLineColor( kBlue+2 );
  httH ->SetMarkerColor( kBlue+2 );
  httH ->SetMarkerStyle( 20 );
  httH ->SetMarkerSize( 1 );
  httH ->SetLineWidth( 4 );
  httH ->SetFillStyle( 0 );
  //httH ->Sumw2();

  hQCD ->SetLineColor( kGreen+3 );
  hQCD ->SetMarkerColor( kGreen+3 );
  hQCD ->SetMarkerStyle( 21 );
  hQCD ->SetMarkerSize( 1 );
  hQCD ->SetLineWidth( 4 );
  hQCD ->SetFillStyle( 0 );
  //hQCD ->Sumw2();

  httJ ->SetLineColor( kRed-2 );
  httJ ->SetFillColor( kRed-2 );
  httJ ->SetMarkerColor( kRed-2 );
  httJ ->SetMarkerStyle( 22 );
  httJ ->SetMarkerSize( 1 );
  httJ ->SetLineWidth( 4 );
  httJ ->SetFillStyle( 0 );
  //httJ ->Sumw2();
 
  cout << "Sample Total Range1 Range2 Range3" << endl;

  // loop over samples
  for(int s=0; s<samples.size(); s++){
    float weight = -99.0;
    if(samples[s] == "TTH") weight = 0.5085*0.577/90000; //xsec*BR/nGen in file only
    else if(samples[s] == "TTJets") weight = 831.76/90555;
    else if(samples[s] == "QCD300") weight = 366800.0/85185;
    else if(samples[s] == "QCD500") weight = 29370.0/98732;
    else if(samples[s] == "QCD700") weight = 6524.0/83929;
    else if(samples[s] == "QCD1000") weight = 1064.0/70989;
    else if(samples[s] == "QCD1500") weight = 121.5/93081;
    else if(samples[s] == "QCD2000") weight = 25.42/84179;
    
    if(weight<0){
      cout << "negative weight! return" << endl;
      return;
    }

    cout << samples[s] << " ";
    //cout << endl << "Running sample " << samples[s] << endl;
    
    // load file
    TFile* file = TFile::Open( ("jets_"+samples[s]+".root").c_str() );
    if(file==0 || file->IsZombie() ) continue;
    
    // load tree
    TTree *tree = (TTree*)file->Get("tree");

    // Declare calculated variables
    int numEvents = 0;
    int numSelected = 0;
    float numTotal = 0.0;
    float numRange1 = 0.0; //|eta|<2.4       or njeteta==jet
    float numRange2 = 0.0; //|eta|>2.4       or njeteta==jet-1
    float numRange3 = 0.0; //2.4<|eta|>3.0   or njeteta < jet-1
    float eta;
    int nj;   

    // declare leaf types
    int njet;      //njets with pT>30 GeV
    int njeteta;   //njets with pT>30 GeV && |eta|<2.4
    int nbtag;     //njets with pT>30 GeV && CSV>0.89
    int nbtageta;  //njets with pT>30 GeV && CSV>0.89 && |eta|<2.4
    int nhardjet;  //njets with pT>40 GeV && |eta|<2.4
    float HT;
    float jet_pt      [NMAXJETS];  //jets sorted by decreasing pT
    float jet_eta     [NMAXJETS];
    float jet_csv     [NMAXJETS];
    
    // Connect the branches with their member variables.
    if(!tree) return;
    tree->SetBranchAddress("njet",         &njet);
    tree->SetBranchAddress("njeteta",      &njeteta);
    tree->SetBranchAddress("nbtag",        &nbtag);
    tree->SetBranchAddress("nbtageta",     &nbtageta);
    tree->SetBranchAddress("nhardjet",     &nhardjet); 
    tree->SetBranchAddress("HT",           &HT);
    tree->SetBranchAddress("jet_pt",       jet_pt);
    tree->SetBranchAddress("jet_eta",      jet_eta);
    tree->SetBranchAddress("jet_csv",      jet_csv);

    int totalEntries = tree->GetEntries();
    //cout << totalEntries << endl;
    
    // loop over events
    for(int entry=0; entry < totalEntries; entry++){
      tree->GetEntry(entry);
      numEvents++;
      eta = -99.;
      nj = -99;

      // get nth jet eta
      if( njet >= jet ){
	numSelected ++;
	eta = jet_eta[jet-1];
	if( njet == jet ) nj = njeteta;

	if( VAR=="eta" ){
	  numTotal += weight*1000*LUMI;
	  if( abs(jet_eta[jet-1]) < 2.4 ) numRange1 += weight*1000*LUMI;
	  if( abs(jet_eta[jet-1]) > 2.4 ) numRange2 += weight*1000*LUMI;
	  if( abs(jet_eta[jet-1]) > 2.4 &&  abs(jet_eta[jet-1]) < 3.0 ) numRange3 += weight*1000*LUMI;	
	}
	else if( VAR=="nj" && njet == jet ){
	  numTotal += weight*1000*LUMI;
	  if( njeteta == jet   ) numRange1 += weight*1000*LUMI;
	  if( njeteta == jet-1 ) numRange2 += weight*1000*LUMI;
	  if( njeteta < jet-1 ) numRange3 += weight*1000*LUMI;  
	}

        if( samples[s]=="TTH" ){
	  if(VAR == "eta") httH->Fill(eta,weight);
	  else if( nj>-1 ) httH->Fill(nj,weight);
	}
	else if( samples[s]=="TTJets" ){
	  if(VAR == "eta") httJ->Fill(eta,weight);
	  else if( nj>-1 ) httJ->Fill(nj,weight);
	}
	else if( samples[s].find("QCD") != string::npos ){
	  if(VAR == "eta") hQCD->Fill(eta,weight);
	  else if( nj>-1 ) hQCD->Fill(nj,weight);
	}
	else{
	  cout << "sample not found. return" << endl;
	  return;
	}
	
	  
      } //end selection
      
      
    } //end loop over events

    cout << numTotal << " " << numRange1 << " " << numRange2 << " " << numRange3 << " " << endl;

  } //end loop over samples

  leg->AddEntry(httH,  "t#bar{t}H (125)", "F");
  leg->AddEntry(httJ, "t#bar{t}", "F");
  leg->AddEntry(hQCD,  "QCD", "F");

  hQCD ->GetYaxis()->SetTitle("Normalized units");
  hQCD ->SetMaximum( hQCD->GetMaximum()*2.0 );   //CHANGE HERE
  hQCD ->DrawNormalized("HIST");
  httJ ->DrawNormalized("HISTSAME");
  httH ->DrawNormalized("HISTSAME");
  leg->Draw();
  pt_title->Draw();
  
  string variable = Form("%d",jet);
  if( SAVEPLOTS ){
    if(VAR=="eta") c2->SaveAs( ("./Jet_plots/eta_"+variable+"jet_norm.pdf").c_str() ); 
    else if(VAR=="nj") c2->SaveAs( ("./Jet_plots/nj_"+variable+"jet_norm.pdf").c_str() );
  }


}
Beispiel #20
0
void vs_PlotQCDcomp() {

  Bool_t saveC  = false;
  Bool_t diJets = true;
  Bool_t isMC   = false;

  TString vsSave;
  vsSave = "_T07w";

  TString jSave;
  if(diJets) jSave = "2j";
  else       jSave = "3j";

  TString sample;
  if(diJets) sample = "select_1ph_2jets";
  else       sample = "select_1ph_3jets";

  TString FOtag;
  if(isMC) FOtag = "_FO_CorrMC";
  //  else     FOtag = "_FO_Corr";
  else     FOtag = "_FO";

  TString sysu = "SYSTUP_";
  TString sysd = "SYSTDOWN_";

  TString outDir;
  outDir = "Plots_PhotonSusyAnalysis/QCDweights/";


  //  string inputFile1 = "/data/user/vsola/CMSSW_Releases/CMSSW_5_3_9/src/Plots_PhotonSusyAnalysis/Merged_QCD_PhotonJet_T07w_PAT/mergedHistos.root";
  //  string inputFile1 = "/data/user/vsola/CMSSW_Releases/CMSSW_5_3_9/src/Plots_PhotonSusyAnalysis/Merged_Data_V05w_PAT/mergedHistos.root";
  string inputFile1 = "/data/user/vsola/CMSSW_Releases/CMSSW_5_3_9/src/Plots_PhotonSusyAnalysis/PhotonHadReReco_22Jan2013_V05_PAT/mergedHistos.root";
  
  
  setMyTDRStyle();
  gROOT->SetStyle("mytdrStyle");
  
  //  gStyle->SetHistMinimumZero();
  //  gStyle->SetPaintTextFormat("4.2f");

  gStyle->SetHistLineWidth(2);
  gStyle->UseCurrentStyle();

  //  gStyle->SetPadTopMargin(1.0);
  //  gStyle->SetPadLeftMargin(3.2);
  //  gStyle->SetPadRightMargin(4.5);
  //  gStyle->SetPadBottomMargin(3.2);

  gROOT->ForceStyle(1);


  static const Int_t nHt  =  7;
  static const Int_t nPt  = 13;
  static const Int_t nMet = 16;
  static const Int_t nJet = 15;

  Double_t binPt[nPt+1]   = {0.,75.,90.,120.,160.,210.,260.,320.,400.,500.,650.,800.,1000.,1500.};
  Double_t binHt[nHt+1]   = {0.,400.,450.,550.,700.,900.,1200.,1500.};
  Double_t binMet[nMet+1] = {0.,10.,20.,30.,40.,50.,60.,70.,80.,90.,100.,120.,160.,200.,270.,350.,500.};
  Double_t binJet[nJet+1] = {0.,1.,2.,3.,4.,5.,6.,7.,8.,9.,10.,11.,12.,13.,14.,15};


  TLatex *as = new TLatex();
  as->SetNDC(true);
  as->SetTextColor(12);
  as->SetTextFont(43);
  as->SetTextSize(19);

  TLegend *legend = new TLegend(0.60, 0.70, 0.75, 0.85, "");
  legend->SetFillColor(10);
  legend->SetFillStyle(1001);
  legend->SetTextSize(0.04);
  legend->SetBorderSize(0);
  legend->SetShadowColor(0);

  std::string outLumi  = "CMS Work in Progress - QCD MC #sqrt{s} = 8 TeV - #geq 1 #gamma, #geq 2 j";

  TFile* f1 = TFile::Open( inputFile1.c_str() );

  //photon Pt
  TCanvas * cPt = new TCanvas("cPt","cPt");

  TH1F* hpt   = (TH1F*) f1->Get( sample+"/PreselCut_photonPt" );
  TH1F* hptFO = (TH1F*) f1->Get( sample+FOtag+"/PreselCut_photonPt" );

  TH1F *hptR = (TH1F*) hpt->Rebin(nPt,hpt->GetTitle(),binPt);
  if (hptR->GetSumw2N() == 0)
    hptR->Sumw2();

  TH1F *hptFOR = (TH1F*) hptFO->Rebin(nPt,hptFO->GetTitle(),binPt);
  if (hptFOR->GetSumw2N() == 0)
    hptFOR->Sumw2();

  TH1F* hptSU = (TH1F*) f1->Get( sample+FOtag+"/PreselCut_"+sysu+"photonPt" );
  TH1F* hptSD = (TH1F*) f1->Get( sample+FOtag+"/PreselCut_"+sysd+"photonPt" );

  TH1F *hptSUR = (TH1F*) hptSU->Rebin(nPt,hptSU->GetTitle(),binPt);
  if (hptSUR->GetSumw2N() == 0)
    hptSUR->Sumw2();

  TH1F *hptSDR = (TH1F*) hptSD->Rebin(nPt,hptSD->GetTitle(),binPt);
  if (hptSDR->GetSumw2N() == 0)
    hptSDR->Sumw2();

  if ( hptFOR != 0 ) {
    for (int b = 0; b < hptFOR->GetNbinsX(); b++) {

      Double_t mainHistoContent   = hptFOR->GetBinContent(b);
      Double_t systUpHistoContent = hptSUR->GetBinContent(b);
      Double_t systDnHistoContent = hptSDR->GetBinContent(b);
      Double_t systDiffUp = fabs( (double) systUpHistoContent - mainHistoContent );
      Double_t systDiffDn = fabs( (double) mainHistoContent - systDnHistoContent );

      // use average error for histogram
      Double_t systDiff = ( systDiffUp + systDiffDn ) / 2.;
      
      Double_t statErr   = hptFOR->GetBinError(b);
      Double_t combError = sqrt( systDiff * systDiff + statErr * statErr );
      hptFOR->SetBinError(b, combError);
    } //for
  }//if
    
  cPt->SetLogy(1);
  gPad->Update();
  cPt->Update();

  //  hptR->Scale(1,"width");
  //  hptR->SetMinimum(0.02);
  //  hptR->SetMaximum(1000); 
  hptR->GetXaxis()->SetTitle("1^{st} photon p_{T} [GeV]");
  hptR->GetYaxis()->SetTitle("Number of Events / GeV");

  if(isMC) hptR->SetMarkerSize(0);
  if(isMC) hptR->Draw("histE");
  else     hptR->Draw("E X0");


  hptFOR->SetMarkerSize(0);
  hptFOR->SetLineColor(2);
  hptFOR->SetFillColor(2);
  hptFOR->SetFillStyle(3004);
  hptFOR->Draw("same hist ][ E2");

  legend->Clear();
  if(isMC) legend->SetHeader("#gamma/QCD (Sim)");
  else     legend->SetHeader("#gamma/QCD (Data)");
  if(isMC) legend->AddEntry(hptR, "#gamma", "l");
  else     legend->AddEntry(hptR, "#gamma", "p");
  legend->AddEntry(hptFOR, "Pred (from #gamma_{jet})", "f");
  legend->Draw();

  as->DrawLatex(0.17, 0.93, outLumi.c_str() );
  cPt->Update();
  cPt->SetBottomMargin(0.2 + 0.8 * cPt->GetBottomMargin() - 0.2 * cPt->GetTopMargin());

  TPad *ratioPt = new TPad("BottomPad", "", 0, 0, 1, 1);
  ratioPt->SetTopMargin(0.8 - 0.8 * ratioPt->GetBottomMargin() + 0.2 * ratioPt->GetTopMargin());
  ratioPt->SetFillStyle(0);
  ratioPt->SetFrameFillColor(10);
  ratioPt->SetFrameBorderMode(0);
  ratioPt->Draw();

  ratioPt->cd();
  ratioPt->SetLogy(0);

  TH1F *hptRat = (TH1F*) divideHistosForRatio(hptR,hptFOR);
  hptRat->SetMinimum(0.);
  hptRat->SetMaximum(10.);
  hptRat->GetXaxis()->SetNdivisions(505);
  if(isMC) hptRat->GetYaxis()->SetTitle("Sim/Pred");
  else     hptRat->GetYaxis()->SetTitle("Data/Pred");
  hptRat->GetYaxis()->SetTitleSize(0.04);
  hptRat->GetYaxis()->SetLabelSize(0.03);
  hptRat->GetYaxis()->SetTitleOffset(1.3);
  hptRat->GetYaxis()->SetNdivisions(505);
  hptRat->SetMarkerStyle(20);
  hptRat->SetMarkerSize(1);
  hptRat->SetMarkerColor(1);
  hptRat->SetLineColor(1);
  hptRat->Draw("E X0");

  TH1F *hptFRat = (TH1F*) getSystErrForRatio(hptFOR);
  hptFRat->SetLineColor(2);
  hptFRat->SetFillColor(2);
  hptFRat->SetFillStyle(3004);
  hptFRat->Draw("same hist ][ E2");


  TLine * line = new TLine( hptRat->GetXaxis()->GetXmin(), 1., hptRat->GetXaxis()->GetXmax(), 1. );
  line->SetLineColor(1);
  line->SetLineWidth(0.5);
  line->SetLineStyle(1);
  line->Draw("same");

  hptR->GetXaxis()->SetLabelSize(0);
  hptR->GetXaxis()->SetTitle("");
  cPt->RedrawAxis();
  gPad->Update();
  cPt->Update();


  return;
}
TF1* fit(TString variable, TString variableplot, TTree* nt, TTree* ntMC, Double_t ptmin, Double_t ptmax, int isMC)
{
  static int count=0;
  count++;

  TCanvas* c= new TCanvas(Form("c%d",count),"",600,600);
  TH1D* h = new TH1D(Form("h-%d",count),"",nbinsmasshisto,minhisto,maxhisto);
  TH1D* hMCSignal = new TH1D(Form("hMCSignal-%d",count),"",nbinsmasshisto,minhisto,maxhisto);
  TH1D* hMCSwapped = new TH1D(Form("hMCSwapped-%d",count),"",nbinsmasshisto,minhisto,maxhisto);
  
  TF1* f = new TF1(Form("f%d",count),"[0]*([7]*([9]*Gaus(x,[1],[2])/(sqrt(2*3.14159)*[2])+(1-[9])*Gaus(x,[1],[10])/(sqrt(2*3.14159)*[10]))+(1-[7])*Gaus(x,[1],[8])/(sqrt(2*3.14159)*[8]))+[3]+[4]*x+[5]*x*x+[6]*x*x*x", 1.7, 2.0);
  TString mycut=Form("(%s&&(%s)>%f&&(%s)<%f)",seldata.Data(),variable.Data(),ptmin,variable.Data(),ptmax);
  if(isMC==1) nt->Project(Form("h-%d",count),"Dmass",TCut(weight)*TCut(mycut));   
  else nt->Project(Form("h-%d",count),"Dmass",Form("(%s&&(%s)>%f&&(%s)<%f)",seldata.Data(),variable.Data(),ptmin,variable.Data(),ptmax));   
  
  ntMC->Project(Form("hMCSignal-%d",count),"Dmass",Form("%s*(%s&&(%s)>%f&&(%s)<%f&&(Dgen==23333))",weight.Data(),selmc.Data(),variable.Data(),ptmin,variable.Data(),ptmax));   
  ntMC->Project(Form("hMCSwapped-%d",count),"Dmass",Form("%s*(%s&&(%s)>%f&&(%s)<%f&&(Dgen==23344))",weight.Data(),selmc.Data(),variable.Data(),ptmin,variable.Data(),ptmax));   
  
  
  TFile *fout=new TFile(Form("FitsFiles/Fits_%s_%d.root",collisionsystem.Data(),count),"recreate");
  fout->cd();
  hMCSignal->Write();
  hMCSwapped->Write();
  h->Write();  
  fout->Close();
  
  
  f->SetParLimits(4,-1000,1000);
  f->SetParLimits(10,0.001,0.05);
  f->SetParLimits(2,0.01,0.1);
  f->SetParLimits(8,0.02,0.2);
  f->SetParLimits(7,0,1);
  f->SetParLimits(9,0,1);
  
  f->SetParameter(0,setparam0);
  f->SetParameter(1,setparam1);
  f->SetParameter(2,setparam2);
  f->SetParameter(10,setparam10);
  f->SetParameter(9,setparam9);

  f->FixParameter(8,setparam8);
  f->FixParameter(7,1);
  f->FixParameter(1,fixparam1);
  f->FixParameter(3,0);
  f->FixParameter(4,0);
  f->FixParameter(5,0);
  f->FixParameter(6,0);
  h->GetEntries();
  
  hMCSignal->Fit(Form("f%d",count),"q","",minhisto,maxhisto);
  hMCSignal->Fit(Form("f%d",count),"q","",minhisto,maxhisto);
  f->ReleaseParameter(1);
  hMCSignal->Fit(Form("f%d",count),"L q","",minhisto,maxhisto);
  hMCSignal->Fit(Form("f%d",count),"L q","",minhisto,maxhisto);
  hMCSignal->Fit(Form("f%d",count),"L m","",minhisto,maxhisto);
  
  f->FixParameter(1,f->GetParameter(1));
  f->FixParameter(2,f->GetParameter(2));
  f->FixParameter(10,f->GetParameter(10));
  f->FixParameter(9,f->GetParameter(9));
  f->FixParameter(7,0);
  f->ReleaseParameter(8);
  f->SetParameter(8,setparam8);
  
  hMCSwapped->Fit(Form("f%d",count),"L q","",minhisto,maxhisto);
  hMCSwapped->Fit(Form("f%d",count),"L q","",minhisto,maxhisto);
  hMCSwapped->Fit(Form("f%d",count),"L q","",minhisto,maxhisto);
  hMCSwapped->Fit(Form("f%d",count),"L m","",minhisto,maxhisto);
  
  f->FixParameter(7,hMCSignal->Integral(0,1000)/(hMCSwapped->Integral(0,1000)+hMCSignal->Integral(0,1000)));
  f->FixParameter(8,f->GetParameter(8));
  f->ReleaseParameter(3);
  f->ReleaseParameter(4);
  f->ReleaseParameter(5);
  f->ReleaseParameter(6);

  f->SetLineColor(kRed);
  
  h->Fit(Form("f%d",count),"q","",minhisto,maxhisto);
  h->Fit(Form("f%d",count),"q","",minhisto,maxhisto);
  f->ReleaseParameter(1);
  //f->ReleaseParameter(2);                                     // you need to release these two parameters if you want to perform studies on the sigma shape
  //f->ReleaseParameter(10);                                   // you need to release these two parameters if you want to perform studies on the sigma shape
  h->Fit(Form("f%d",count),"L q","",minhisto,maxhisto);
  h->Fit(Form("f%d",count),"L q","",minhisto,maxhisto);
  h->Fit(Form("f%d",count),"L q","",minhisto,maxhisto);
  h->Fit(Form("f%d",count),"L m","",minhisto,maxhisto);
  
  TF1* background = new TF1(Form("background%d",count),"[0]+[1]*x+[2]*x*x+[3]*x*x*x");
  background->SetParameter(0,f->GetParameter(3));
  background->SetParameter(1,f->GetParameter(4));
  background->SetParameter(2,f->GetParameter(5));
  background->SetParameter(3,f->GetParameter(6));
  background->SetLineColor(4);
  background->SetRange(minhisto,maxhisto);
  background->SetLineStyle(2);
  
  TF1* mass = new TF1(Form("fmass%d",count),"[0]*([3]*([4]*Gaus(x,[1],[2])/(sqrt(2*3.14159)*[2])+(1-[4])*Gaus(x,[1],[5])/(sqrt(2*3.14159)*[5])))");
  mass->SetParameters(f->GetParameter(0),f->GetParameter(1),f->GetParameter(2),f->GetParameter(7),f->GetParameter(9),f->GetParameter(10));
  mass->SetParError(0,f->GetParError(0));
  mass->SetParError(1,f->GetParError(1));
  mass->SetParError(2,f->GetParError(2));
  mass->SetParError(3,f->GetParError(7));
  mass->SetParError(4,f->GetParError(9));
  mass->SetParError(5,f->GetParError(10));
  mass->SetFillColor(kOrange-3);
  mass->SetFillStyle(3002);
  mass->SetLineColor(kOrange-3);
  mass->SetLineWidth(3);
  mass->SetLineStyle(2);
  
  TF1* massSwap = new TF1(Form("fmassSwap%d",count),"[0]*(1-[2])*Gaus(x,[1],[3])/(sqrt(2*3.14159)*[3])");
  massSwap->SetParameters(f->GetParameter(0),f->GetParameter(1),f->GetParameter(7),f->GetParameter(8));
  massSwap->SetParError(0,f->GetParError(0));
  massSwap->SetParError(1,f->GetParError(1));
  massSwap->SetParError(2,f->GetParError(7));
  massSwap->SetParError(3,f->GetParError(8));
  massSwap->SetFillColor(kGreen+4);
  massSwap->SetFillStyle(3005);
  massSwap->SetLineColor(kGreen+4);
  massSwap->SetLineWidth(3);
  massSwap->SetLineStyle(1);
  
  h->SetXTitle("m_{#piK} (GeV/c^{2})");
  h->SetYTitle("Entries / (5 MeV/c^{2})");
  h->GetXaxis()->CenterTitle();
  h->GetYaxis()->CenterTitle();
  h->SetAxisRange(0,h->GetMaximum()*1.4*1.2,"Y");
  h->GetXaxis()->SetTitleOffset(1.3);
  h->GetYaxis()->SetTitleOffset(1.8);
  h->GetXaxis()->SetLabelOffset(0.007);
  h->GetYaxis()->SetLabelOffset(0.007);
  h->GetXaxis()->SetTitleSize(0.045);
  h->GetYaxis()->SetTitleSize(0.045);
  h->GetXaxis()->SetTitleFont(42);
  h->GetYaxis()->SetTitleFont(42);
  h->GetXaxis()->SetLabelFont(42);
  h->GetYaxis()->SetLabelFont(42);
  h->GetXaxis()->SetLabelSize(0.04);
  h->GetYaxis()->SetLabelSize(0.04);
  h->SetMarkerSize(0.8);
  h->SetMarkerStyle(20);
  h->SetStats(0);
  h->Draw("e");

  background->Draw("same");   
  mass->SetRange(minhisto,maxhisto);	
  mass->Draw("same");
  massSwap->SetRange(minhisto,maxhisto);
  massSwap->Draw("same");
  f->Draw("same");
  
  Double_t yield = mass->Integral(minhisto,maxhisto)/binwidthmass;
  Double_t yieldErr = mass->Integral(minhisto,maxhisto)/binwidthmass*mass->GetParError(0)/mass->GetParameter(0);
  
  std::cout<<"YIELD="<<yield<<"and error"<<yieldErr<<std::endl;
  std::cout<<"relative error="<<yieldErr/yield<<std::endl;

  TLegend* leg = new TLegend(0.65,0.58,0.82,0.88,NULL,"brNDC");
  leg->SetBorderSize(0);
  leg->SetTextSize(0.04);
  leg->SetTextFont(42);
  leg->SetFillStyle(0);
  leg->AddEntry(h,"Data","pl");
  leg->AddEntry(f,"Fit","l");
  leg->AddEntry(mass,"D^{0}+#bar{D^{#lower[0.2]{0}}} Signal","f");
  leg->AddEntry(massSwap,"K-#pi swapped","f");
  leg->AddEntry(background,"Combinatorial","l");
  leg->Draw("same");

  TLatex Tl;
  Tl.SetNDC();
  Tl.SetTextAlign(12);
  Tl.SetTextSize(0.04);
  Tl.SetTextFont(42);
  Tl.DrawLatex(0.18,0.93, "#scale[1.25]{CMS} Preliminary");
  Tl.DrawLatex(0.65,0.93, Form("%s #sqrt{s_{NN}} = 5.02 TeV",collisionsystem.Data()));

  TLatex* tex;

  tex = new TLatex(0.22,0.78,Form("%.1f < %s  < %.1f",ptmin,variableplot.Data(),ptmax));
  tex->SetNDC();
  tex->SetTextFont(42);
  tex->SetTextSize(0.04);
  tex->SetLineWidth(2);
  tex->Draw();

  tex = new TLatex(0.22,0.83,"|y| < 1.0");
  tex->SetNDC();
  tex->SetTextFont(42);
  tex->SetTextSize(0.04);
  tex->SetLineWidth(2);
  tex->Draw();

  h->GetFunction(Form("f%d",count))->Delete();
  TH1F* histo_copy_nofitfun = ( TH1F * ) h->Clone("histo_copy_nofitfun");
  histo_copy_nofitfun->Draw("esame");
//
  if(nBins==1) c->SaveAs(Form("DMass-inclusive%s_%d.pdf",collisionsystem.Data(),count));
  else c->SaveAs(Form("DMass%s_%d.pdf",collisionsystem.Data(),count));
  
  return mass;
}
Beispiel #22
0
void hPYphocalc(){
	gStyle->SetOptStat(kFALSE);
	const int maxNpart = 100;
	int sth=0, Gth=0;
        TFile *f = TFile::Open(outG);
        if(sth==0){TString dirname = "std";}
        else if(sth==1){TString dirname ="Gri055";}
        else {TString dirname ="Gri101";}
        TObjString* dataname = (TObjString*)f->Get(Form("dataname"));
        TObjString* histoname = (TObjString*)f->Get(Form("histoname"));
	TFile *fdata = TFile::Open(dataname->GetName());
                TString name;
        if(Gth==0)
                name = "G0";
        else if(Gth<nGlau)
                name = Form("Glau_%d",Gth);
        else
                name = Form("bin_%d",Gth-nGlau+1);
        TObjString* Glaubername = (TObjString*)f->Get(Form("%s/%s/Glaubername",dirname.Data(),name.Data()));
        TVectorD* k0 = (TVectorD*)f->Get(Form("%s/%s/k0",dirname.Data(),name.Data()));
        TVectorD* theta0 = (TVectorD*)f->Get(Form("%s/%s/theta0",dirname.Data(),name.Data()));
        TVectorD* xmin = (TVectorD*)f->Get(Form("%s/%s/xmin",dirname.Data(),name.Data()));
        TVectorD* xmax = (TVectorD*)f->Get(Form("%s/%s/xmax",dirname.Data(),name.Data()));
        TVectorD* thetabest = (TVectorD*)f->Get(Form("%s/%s/thetabest",dirname.Data(),name.Data()));
        TVectorD* kbest = (TVectorD*)f->Get(Form("%s/%s/kbest",dirname.Data(),name.Data()));
	TVectorD* kpoint = (TVectorD*)f->Get(Form("%s/%s/kpoint",dirname.Data(),name.Data()));
        TVectorD* NcollAver = (TVectorD*)f->Get(Form("%s/%s/NcollAver",dirname.Data(),name.Data()));
	TVectorD* centbin = (TVectorD*)f->Get(Form("%s/%s/centbin",dirname.Data(),name.Data()));

        TFile *fGlauber = TFile::Open(Glaubername->GetName());
        //(*k0)[0]=1.39;  (*kbest)[0]=0.425;
        //(*theta0)[0]=3.41;      (*thetabest)[0]=1.30;
        TF1 *gammafun[maxNpart];
        TF1 *gammafunevt[maxNpart];
        TF1 *gammafunnucl[maxNpart];
        TF1 *gammafunnuclNcoll[maxNpart];
        double kevt = (*k0)[0]-(*kbest)[0];
        for(int iNpart=0;iNpart<maxNpart;iNpart++){
        	gammafun[iNpart] = new TF1("gammafun","TMath::GammaDist(x,[0],0,[1])",0,200);
		gammafunevt[iNpart] = new TF1("gammafunevt","TMath::GammaDist(x,[0],0,[1])",0,200);
	        gammafunnucl[iNpart] = new TF1("gammafunnucl","TMath::GammaDist(x,[0],0,[1])",0,200);
        	gammafunnuclNcoll[iNpart] = new TF1("gammafunnuclNcoll","TMath::GammaDist(x,[0],0,[1])",0,200);
                double k_=(*k0)[0]+(*kbest)[0]*(iNpart-2);
                double theta_=(*theta0)[0]+(*thetabest)[0]*TMath::Log(iNpart-1);
                gammafun[iNpart]->SetParameter(0,k_);   //[1]: k value
                gammafun[iNpart]->SetParameter(1,theta_);       //[2]: theta value
		gammafunevt[iNpart]->SetParameter(0,kevt);
		gammafunevt[iNpart]->SetParameter(1,theta_);
		gammafunnucl[iNpart]->SetParameter(0,(*kbest)[0]);
		gammafunnucl[iNpart]->SetParameter(1,theta_);
		gammafunnuclNcoll[iNpart]->SetParameter(0,(*kbest)[0]*(iNpart-1));
		gammafunnuclNcoll[iNpart]->SetParameter(1,theta_);
		if(iNpart==2){
			gammafunnuclNcoll[iNpart]->SetNpx(1e4);
			gammafunnuclNcoll[iNpart]->SetRange(1e-11,200);
		}
       }

        TTree *t = (TTree*)fGlauber->Get("nt_p_Pb");
        Float_t Ncoll, Npart, B;        Long_t Nevent;
        t->SetBranchAddress("Ncoll",&Ncoll);
        t->SetBranchAddress("Npart",&Npart);
        t->SetBranchAddress("B",&B);

        Nevent = (Long_t) t->GetEntries();
        Long_t Ev;      Int_t Bino;     Double_t Para, Para_nucl, Para_p, Para_evt, Bi_Para_nucl, Bi_Para_evt;			

	double yUCM[8]={};
	double yPCM[8]={};
	double yVCM[8]={};
	double yUCM_[200]={};
	double yPCM_[200]={};
	double yVCM_[200]={};
	double C=1e-4;
	double PNcoll[maxNpart]={};
	TH1D *histo_obs = (TH1D*)fdata->Get(histoname->GetName());
        TH1D *histo_obs_norm = (TH1D*)histo_obs->Clone();
        histo_obs_norm->Scale(1/histo_obs->Integral());
	TH1D* hUCM = new TH1D("hUCM","hUCM",200,0,200);
	TH1D* hPCM = new TH1D("hPCM","hPCM",200,0,200);
	TH1D* hVCM = new TH1D("hVCM","hVCM",200,0,200);
	TH2D* NcollvsET = new TH2D("NcollvsET","NcollvsET",100,0,100,2000,0,400);
	for(Ev=0;Ev<Nevent;Ev++){
		t->GetEntry(Ev);
		PNcoll[(int)Ncoll]++;
	}
	for(int i=0;i<maxNpart;i++){
		PNcoll[i]/=Nevent;
		cout<<PNcoll[i]<<"\t";
	}
		cout<<endl;
	for(Ev=0;Ev<Nevent;Ev++){
		if(Ev%100000==0)	cout<<"\t"<<"Have run "<<Ev<<" events"<<endl;
		t->GetEntry(Ev);
		Para = gammafun[(int)Npart]->GetRandom();
		Para_nucl = gammafunnuclNcoll[(int)Npart]->GetRandom();
		Para_p = gammafunnuclNcoll[(int)Npart]->GetRandom();
		Para_evt = 0;
		for(int i=0;i<N-1;i++)
			if(Para>=(*kpoint)[i] && Para<(*kpoint)[i+1])
				int ibin = i;
		for(int Bino=0;Bino<Ncoll;Bino++){
			Bi_Para_evt = gammafunevt[(int)Npart]->GetRandom();
			Para_evt += Bi_Para_evt;
		}	
		double PNcollET = gammafun[(int)Npart]->Eval(Para);
//		double k = gammafun[(int)Npart]->GetParameter(0);
                double theta=(*theta0)[0]+(*thetabest)[0]*TMath::Log(Npart-1);
		double YNcollUCM = C*Ncoll;
		double YNcollPCM = C/1.0/(*kbest)[0]/theta*(Para_nucl);
		double YNcollVCM = C/2.0*(Para_nucl/(*kbest)[0]/theta+Ncoll);
		yUCM[ibin] += PNcoll[(int)Ncoll]*PNcollET*YNcollUCM;
		yPCM[ibin] += PNcoll[(int)Ncoll]*PNcollET*YNcollPCM;
		yVCM[ibin] += PNcoll[(int)Ncoll]*PNcollET*YNcollVCM;
		yUCM_[(int)Para] += PNcoll[(int)Ncoll]*PNcollET*YNcollUCM;
		yPCM_[(int)Para] += PNcoll[(int)Ncoll]*PNcollET*YNcollPCM;
		yVCM_[(int)Para] += PNcoll[(int)Ncoll]*PNcollET*YNcollVCM;

		NcollvsET->Fill(Ncoll,Para);
	}
	for(int ibin=1;ibin<hUCM->GetNbinsX();ibin++){
		hUCM->SetBinContent(ibin,yUCM_[ibin-1]);			
		hPCM->SetBinContent(ibin,yPCM_[ibin-1]);			
		hVCM->SetBinContent(ibin,yVCM_[ibin-1]);
	}
	TCanvas *c1 = new TCanvas();
	TCanvas *c2 = new TCanvas();
	c1->SetLogy();
	c2->SetLogx();
	c2->SetLogy();
	c2->SetLogz();
	c1->cd();
	TH1D* hFrame = new TH1D("","",200,0,200);
	hFrame->SetTitle("");
	hFrame->GetXaxis()->SetTitle("HF #Sigma E_{T} |#eta|>4");
	hFrame->GetYaxis()->SetTitle("Yield no units");
	hFrame->GetXaxis()->SetRangeUser(0,150);
	hFrame->GetYaxis()->SetRangeUser(1e-6,1);
	hFrame->Draw();
	histo_obs_norm->SetMarkerStyle(20);
	histo_obs_norm->SetMarkerSize(1.0);
	histo_obs_norm->SetMarkerColor(1);
	histo_obs_norm->Draw("Psame");
	hUCM->SetMarkerStyle(24);
	hUCM->SetMarkerSize(1.0);
	hUCM->SetMarkerColor(2);
        hPCM->SetMarkerStyle(29);
        hPCM->SetMarkerSize(1.0);
        hPCM->SetMarkerColor(4);
        hVCM->SetMarkerStyle(34);
        hVCM->SetMarkerSize(1.0);
        hVCM->SetMarkerColor(5);
	hUCM->Draw("Psame");
	hPCM->Draw("Psame");
	hVCM->Draw("Psame");
	TLegend *leg = new TLegend(0.1,0.2,0.5,0.45);	
        leg->SetFillColor(0);
        leg->SetFillStyle(0);
        leg->SetBorderSize(0);
        leg->SetTextFont(42);
        leg->SetTextSize(0.03);
	leg->AddEntry(histo_obs_norm,"minimum bias events","lp");
	leg->AddEntry(hUCM,"hard scattering events(UCM)","lp");
	leg->AddEntry(hPCM,"hard scattering events(PCM)","lp");
	leg->AddEntry(hVCM,"hard scattering events(VCM)","lp");
	leg->Draw("same");
	c1->Print("paperfig3_CMS.png");
	c2->cd();
	gStyle->SetOptStat("nemr");
	NcollvsET->GetXaxis()->SetTitle("Ncoll");
	NcollvsET->GetYaxis()->SetTitle("HF #Sigma E_{T} |#eta|>4");
	NcollvsET->Draw("colz");
	c2->Print("NcollvsET2D.png");
	ofstream fstr("result_CMS.dat");
	fstr<<"i"<<"\t"<<"centbin"<<"\t"<<"kpoint"<<"\t"<<"NcollAver"<<"\t"<<"UCM"<<"\t"<<"PCM"<<"\t"<<"VCM"<<"\t"<<"pho1"<<"\t"<<"pho2"<<"\t"<<"MB"<<endl;
	for(int i=0;i<N-1;i++){
		fstr<<i<<"\t"<<(*centbin)[i]*100<<"% to "<<(*centbin)[i+1]*100<<"% \t"<<(*kpoint)[i]<<" to "<<(*kpoint)[i+1]<<"\t"<<(*NcollAver)[i]<<"\t"<<yUCM[i]<<"\t"<<yPCM[i]<<"\t"<<yVCM[i]<<"\t"<<yPCM[i]/yUCM[i]<<"\t"<<yVCM[i]/yUCM[i]<<"\t"<<"undetermined"<<endl;
	}
}
Beispiel #23
0
void simulateResponse() {
  TF1 MyPoisson("MyPoisson", PoissonReal, 0., 20, 1);
  gStyle->SetPadLeftMargin(0.15);
  gStyle->SetPadRightMargin(0.05);

  int NEVT = 10000;

  // the mean number of photons from clas6
  // was 9.
  // For pions however, depending on momemntum,
  // this number will change.
  // Taking 9 as the number of photons for pions at 7.5 GeV
  // and calculating the ratio of pi3 for each momentum
  double mean7 = 9;
  double means[MNP];

  double
      pion_ratio_1[MNP]; // no changes: same mirror, same PMT, same wc (so-so)
  double pion_ratio_2[MNP]; // recoated mirror, same PMT, same wc (so-so)
  double pion_ratio_3[MNP]; // recoated mirror, improved PMT, same wc (so-so)
  double pion_ratio_4[MNP]; // recoated mirror, improved PMT, coated wc (good)
  double pion_ratio_5[MNP]; // recoated mirror, improved PMT, bad wc
  double pion_ratio_6[MNP]; // recoated mirror, improved PMT, perfect wc (2
                            // reflections only)

  TH1D* perfec[MNP];
  TH1D* doNoth[MNP];
  TH1D* fixBad[MNP];
  TH1D* fixAll[MNP];

  // assuming show_ration has been run (need to re-run if RECALC is 1)
  ifstream in("pionYield.txt");

  for (int i = 0; i < MNP; i++) {
    in >> pion_ratio_1[i] >> pion_ratio_2[i] >> pion_ratio_3[i] >>
        pion_ratio_4[i] >> pion_ratio_5[i] >> pion_ratio_6[i];
  }

  in.close();

  if (RECALC2 == 0) {

    TFile f("dist.root");

    for (int i = 0; i < MNP; i++) {
      perfec[i] = (TH1D*)f.Get(Form("perfec%d", i));
      doNoth[i] = (TH1D*)f.Get(Form("doNoth%d", i));
      fixBad[i] = (TH1D*)f.Get(Form("fixBad%d", i));
      fixAll[i] = (TH1D*)f.Get(Form("fixAll%d", i));

      perfec[i]->SetDirectory(0);
      doNoth[i]->SetDirectory(0);
      fixBad[i]->SetDirectory(0);
      fixAll[i]->SetDirectory(0);
    }
    f.Close();
  } else {
    for (int i = 0; i < MNP; i++) {
      perfec[i] =
          new TH1D(Form("perfec%d", i), Form("perfec%d", i), 250, 0, 25);
      doNoth[i] =
          new TH1D(Form("doNoth%d", i), Form("doNoth%d", i), 250, 0, 25);
      fixBad[i] =
          new TH1D(Form("fixBad%d", i), Form("fixBad%d", i), 250, 0, 25);
      fixAll[i] =
          new TH1D(Form("fixAll%d", i), Form("fixAll%d", i), 250, 0, 25);
    }

    for (int i = 2; i < MNP; i++) {
      // means[i] = mean7*pion_ratio_2[i]/pion_ratio_2[11];
      means[i] = mean7 * pion_ratio_3[i] / pion_ratio_3[11];

      for (int e = 1; e < NEVT; e++) {
        if (e % 1000 == 0) {
          cout << " Event number " << e << " for momentum: " << i << endl;
        }

        MyPoisson.SetParameter(0, means[i]);

        double r = MyPoisson.GetRandom();
        perfec[i]->Fill(r);

        int nr = calculateNReflection(gRandom->Uniform(0, 1));
        int gr = calculateWCgroup(gRandom->Uniform(0, 1));

        // only 2 reflections
        // wc are "perfect"
        if (nr == 2) {
          doNoth[i]->Fill(r * pion_ratio_4[i]);
          fixBad[i]->Fill(r * pion_ratio_4[i]);
          fixAll[i]->Fill(r * pion_ratio_4[i]);
        }
        if (nr == 3) {
          // bad
          if (gr == 1) {
            doNoth[i]->Fill(r * pion_ratio_5[i]);
            fixBad[i]->Fill(r * pion_ratio_4[i]);
            fixAll[i]->Fill(r * pion_ratio_4[i]);
          }
          // so-so
          if (gr == 2) {
            doNoth[i]->Fill(r * pion_ratio_3[i]);
            fixBad[i]->Fill(r * pion_ratio_3[i]);
            fixAll[i]->Fill(r * pion_ratio_4[i]);
          }
          // good
          if (gr == 3) {
            doNoth[i]->Fill(r * pion_ratio_4[i]);
            fixBad[i]->Fill(r * pion_ratio_4[i]);
            fixAll[i]->Fill(r * pion_ratio_4[i]);
          }
        }
        if (nr == 4) {
          r = r * 0.8;
          // bad
          if (gr == 1) {
            doNoth[i]->Fill(r * pion_ratio_5[i]);
            fixBad[i]->Fill(r * pion_ratio_4[i]);
            fixAll[i]->Fill(r * pion_ratio_4[i]);
          }
          // so-so
          if (gr == 2) {
            doNoth[i]->Fill(r * pion_ratio_3[i]);
            fixBad[i]->Fill(r * pion_ratio_3[i]);
            fixAll[i]->Fill(r * pion_ratio_4[i]);
          }
          // good
          if (gr == 3) {
            doNoth[i]->Fill(r * pion_ratio_4[i]);
            fixBad[i]->Fill(r * pion_ratio_4[i]);
            fixAll[i]->Fill(r * pion_ratio_4[i]);
          }
        }
      }
    }

    // saving histos
    TFile f("dist.root", "RECREATE");
    for (int i = 0; i < MNP; i++) {
      perfec[i]->Write();
      doNoth[i]->Write();
      fixBad[i]->Write();
      fixAll[i]->Write();
    }
    f.Close();
  }

  // histos loaded, now plotting
  for (int i = 0; i < MNP; i++) {
    doNoth[i]->SetLineColor(kRed);
    fixBad[i]->SetLineColor(kBlue);
    fixAll[i]->SetLineColor(kGreen);

    perfec[i]->GetXaxis()->SetLabelSize(0.08);
    perfec[i]->GetYaxis()->SetLabelSize(0.08);
    perfec[i]->GetXaxis()->SetLabelOffset(-0.02);
    perfec[i]->GetYaxis()->SetLabelOffset(0.02);
  }

  double xmom[10];
  double ymomA[10];
  double ymomB[10];
  double ymomC[10];

  TCanvas* res = new TCanvas("res", "Photon Yields", 1500, 1200);

  TPad* pres = new TPad("pres", "pres", 0.01, 0.01, 0.98, 0.9);
  pres->Divide(5, 2);
  pres->Draw();

  TLatex lab;
  lab.SetTextFont(102);
  lab.SetTextColor(kBlue + 2);
  lab.SetTextSize(0.06);
  lab.SetNDC();

  for (int i = 2; i < 12; i++) {
    pres->cd(i - 1);

    perfec[i]->Draw();
    fixAll[i]->Draw("same");
    doNoth[i]->Draw("same");
    fixBad[i]->Draw("same");

    double perfectCounts = perfec[i]->Integral(40, 250);
    double donothCounts = doNoth[i]->Integral(40, 250);
    double fixBadCounts = fixBad[i]->Integral(40, 250);
    double fixAllCounts = fixAll[i]->Integral(40, 250);

    double dmom = (max_m - min_m) / MNP;
    double mom = min_m + i * dmom;

    xmom[i - 2] = mom;
    ymomA[i - 2] = 100 * donothCounts / perfectCounts;
    ymomB[i - 2] = 100 * fixBadCounts / perfectCounts;
    ymomC[i - 2] = 100 * fixAllCounts / perfectCounts;

    cout << " momentum: " << mom << " perfect: " << perfectCounts
         << "   nothing: " << donothCounts << "    fix bad: " << fixBadCounts
         << "   fix all " << fixAllCounts << endl;

    lab.DrawLatex(.5, .82, Form(" mom: %2.1f GeV", mom));
    lab.DrawLatex(.5, .75, Form(" do nothing: %3.1f%%",
                                100 * donothCounts / perfectCounts));
    lab.DrawLatex(
        .5, .68, Form(" fix bad: %3.1f%%", 100 * fixBadCounts / perfectCounts));
    lab.DrawLatex(
        .5, .60, Form(" fix all: %3.1f%%", 100 * fixAllCounts / perfectCounts));
  }

  //	res->Print("allMoms.png");

  TCanvas* res2 = new TCanvas("res2", "Photon Yields", 1000, 1000);
  //	perfec[5]->Draw();
  //	fixAll[5]->Draw("same");
  //	doNoth[5]->Draw("same");
  //	fixBad[5]->Draw("same");
  //
  //	res2->Print("fixAll.png");

  TGraph* mresA = new TGraph(10, xmom, ymomA);
  TGraph* mresB = new TGraph(10, xmom, ymomB);
  TGraph* mresC = new TGraph(10, xmom, ymomC);

  mresA->SetMarkerStyle(8);
  mresB->SetMarkerStyle(21);
  mresC->SetMarkerStyle(8);

  mresA->SetMarkerSize(1.6);
  mresB->SetMarkerSize(1.6);
  mresC->SetMarkerSize(1.6);
  mresA->SetMarkerColor(kBlack);
  mresB->SetMarkerColor(kRed);
  mresC->SetMarkerColor(kBlue);

  mresA->Draw("AP");
  mresB->Draw("Psame");
  mresC->Draw("Psame");

  TLegend* lstudy = new TLegend(0.6, 0.35, 0.95, 0.58);
  lstudy->AddEntry(mresA, "Current Situation", "P");
  lstudy->AddEntry(mresB, "Fix Bad", "P");
  lstudy->AddEntry(mresC, "Fix So-So", "P");
  lstudy->SetBorderSize(0);
  lstudy->SetFillColor(0);
  lstudy->Draw();
}
Beispiel #24
0
int makePWhisto(TString filename_MC="/home/jpavel/analysis/CMS/ZHtautau/histos/2012ABCD/mc/20130114_AnalFullMC_DYJetsToLL_M-50_TuneZ2Star_8TeV-madgraph-tarball/20130114_AnalFullMC_DYJetsToLL_M-50_TuneZ2Star_8TeV-madgraph-tarball_histo.root",TString filename_data="/home/jpavel/analysis/CMS/ZHtautau/ZHtautauAnalysis/config/dataPileUpHistogramABCD_True_2012.root")
{
	gROOT->Reset();             
   SetAtlasStyle();
   gStyle->SetPalette(1);

	
	TFile *f = TFile::Open(filename_MC);
	if(!f) {
		std::cerr << "Error: file " << filename_MC << " could not be opened." << std::endl; 
    return 1;
	}
	else std::cout << "File " << filename_MC << " succesfully opened!" << std::endl;
	
	TFile *g = TFile::Open(filename_data);
	if(!f) {
		std::cerr << "Error: file " << filename_data << " could not be opened." << std::endl; 
    return 1;
	}
	else std::cout << "File " << filename_data << " succesfully opened!" << std::endl;
	
	
	TH1F* mu_orig_import= (TH1F*)f->Get("h_nPU_raw");
	TH1F* mu_RW_import= (TH1F*)f->Get("h_nPU_reweight");
	
	TH1F* mu_data= (TH1F*)g->Get("pileup");
	
	
	mu_orig_import->Draw();
	
	TH1F* mu_orig_mine = new TH1F("mu_orig_mine","#mu distribution before reweighting;#mu;fraction of events",21,-0.5,20.5);
	TH1F* mu_RW_mine = new TH1F("mu_RW_mine","#mu distribution after reweighting;#mu;fraction of events",21,-0.5,20.5);
	TH1F* mu_data_mine = new TH1F("mu_data_mine","#mu distribution in data;#mu;fraction of events",21,-0.5,20.5);
	
	
	for(int iBin = 1; iBin <= mu_orig_mine->GetNbinsX(); iBin++)
	{
		mu_orig_mine->SetBinContent(iBin,mu_orig_import->GetBinContent(iBin));
		mu_RW_mine->SetBinContent(iBin,mu_RW_import->GetBinContent((iBin-1)*5+1));
		
		float dataMuLowEdge  = mu_orig_mine->GetBinLowEdge(iBin);
		float dataMuHighEdge = mu_orig_mine->GetBinLowEdge(iBin) + mu_orig_mine->GetBinWidth(iBin);
		int dataBinNumberLowEdge  = mu_data->GetXaxis()->FindFixBin(dataMuLowEdge);
		int dataBinNumberHighEdge = mu_data->GetXaxis()->FindFixBin(dataMuHighEdge);
		float dataBinContent = mu_data->Integral( dataBinNumberLowEdge, dataBinNumberHighEdge-1 );
		
		mu_data_mine->SetBinContent(iBin,dataBinContent);
		
		
	}
	mu_orig_mine->SetBinContent(1,mu_orig_import->GetBinContent(101));

	mu_orig_import->Scale(1./mu_orig_import->GetSumOfWeights());
	mu_RW_import->Scale(1./mu_RW_import->GetSumOfWeights());
	mu_data->Scale(1./mu_data->GetSumOfWeights());
	//mu_data->Scale(10./mu_data->GetSumOfWeights());
	
	
	TCanvas* c1 = new TCanvas("c1","c1", 800,600);
     
	mu_orig_import->Draw();
	
	c1->Print("mu_mc.png");
	c1->Print("mu_mc.eps");
	
	mu_data->GetXaxis()->SetTitle("#mu");
	mu_data->GetYaxis()->SetTitle("fraction of events");
	
	mu_data->Draw();
	
	c1->Print("mu_data.png");
	c1->Print("mu_data.eps");
	
	
	float myMax[] = {mu_RW_import->GetMaximum(),mu_data->GetMaximum()};
	
	float Max_h = *max_element(myMax,myMax+2);
	
	mu_RW_import->SetMaximum(1.2*Max_h);
	mu_RW_import->SetMarkerStyle(25);
	mu_RW_import->SetMarkerSize(1.5);
	mu_RW_import->GetXaxis()->SetTitle("True number of interactions per event");
	mu_RW_import->GetXaxis()->SetRangeUser(0,60);
	mu_RW_import->GetYaxis()->SetTitle("Fraction of events");
	
	mu_RW_import->Draw("phist");
	//~ 
	//~ //mu_data->SetLineColor(kRed);
	//~ //mu_data->Draw("same");
	mu_data->SetLineColor(kGreen);
	mu_data->SetMarkerStyle(22);
	mu_data->SetMarkerSize(1.5);
	
	mu_data->SetMarkerColor(kGreen);
	
	mu_data->Draw("phistsame");
	mu_data->Draw("same");
	mu_RW_import->Draw("same");
	mu_orig_import->SetLineColor(kRed);
	
	mu_orig_import->Draw("histsame");
	
	gPad->RedrawAxis();
	
	TLegend* leg = new TLegend(0.6,0.7,0.8,0.93);
	leg->SetBorderSize(0);
	leg->SetFillColor(0);
	leg->SetTextSize(legend_size);
	leg->AddEntry(mu_RW_import,"re-weighted MC","p");
	leg->AddEntry(mu_data,"data 2012ABCD","lp");
	leg->AddEntry(mu_orig_import,"Summer12 53x MC","l");
	
	leg->Draw();
	
	c1->Print("mu_reweight.png");
	c1->Print("mu_reweight.eps");
	
	c1->SetLogy();
	mu_RW_import->SetMaximum(1200*Max_h);
	
	c1->Print("mu_reweight_log.png");
	c1->Print("mu_reweight_log.eps");
	
	//~ 

	return 0;
}
Beispiel #25
0
void makeTree(string sample = "DY", string selection = "", float Lumi = 1){

  vector<pair<string,float> > files;
  vector< TH1F* > histos;

  vector<string> directories;
  
  if(sample.find("DY")!=string::npos){
    files.push_back( make_pair("DY-madgraph-10to50.root",      (310*0.19*Lumi)  ) );
    files.push_back( make_pair("DY-madgraph-50.root",          (2289*0.56*Lumi)  ) );
  }
  
  if(sample.find("Wjets")!=string::npos){
    files.push_back( make_pair("W1Jets_ptW-0to100.root",       (3.693e+03*0.44*Lumi)  ) );
    files.push_back( make_pair("W1Jets_ptW-100to300.root",     (7.197e+01*0.58*Lumi)  ) );
    files.push_back( make_pair("W1Jets_ptW-300to800.root",     (5.658e-01*0.73*Lumi)  ) );
    files.push_back( make_pair("W2Jets_ptW-0to100.root",       (9.434e+02*0.46*Lumi)  ) );
    files.push_back( make_pair("W2Jets_ptW-100to300.root",     (6.718e+01*0.59*Lumi)  ) );
    files.push_back( make_pair("W2Jets_ptW-300to800.root",     (8.553e-01*0.75*Lumi)  ) );
    files.push_back( make_pair("W3Jets_ptW-0to100.root",       (2.087e+02*0.48*Lumi)  ) );
    files.push_back( make_pair("W3Jets_ptW-100to300.root",     (3.243e+01*0.60*Lumi)  ) );
    files.push_back( make_pair("W3Jets_ptW-300to800.root",     (6.229e-01*0.76*Lumi)  ) );
    files.push_back( make_pair("W4Jets_ptW-0to100.root",       (4.446e+01*0.50*Lumi)  ) );
    files.push_back( make_pair("W4Jets_ptW-100to300.root",     (1.138e+01*0.61*Lumi)  ) );
    files.push_back( make_pair("W4Jets_ptW-300to800.root",     (2.950e-01*0.77*Lumi)  ) );
    files.push_back( make_pair("W5Jets_ptW-0to100.root",       (1.111e+01*0.53*Lumi)  ) );
    files.push_back( make_pair("W5Jets_ptW-100to300.root",     (3.789e+00*0.65*Lumi)  ) );
    files.push_back( make_pair("W5Jets_ptW-300to800.root",     (1.565e-01*0.79*Lumi)  ) );
  }
  if(sample.find("TT")!=string::npos){
    files.push_back( make_pair("TT.root",                      (94*Lumi)  ) );
  }
  if(sample.find("QCD")!=string::npos){
    files.push_back( make_pair("QCD_Pt-0to5.root",             (4.84e+10*6.07E-07*Lumi)) );
    files.push_back( make_pair("QCD_Pt-5to15.root",            (3.68e+10*1.82E-06*Lumi)) );
    files.push_back( make_pair("QCD_Pt-15to30.root",           (8.16e+08*0.000113*Lumi)) );
    files.push_back( make_pair("QCD_Pt-30to50.root",           (5.31e+07*0.00388126*Lumi)) );
    files.push_back( make_pair("QCD_Pt-50to80.root",           (6.36e+06*0.02321727*Lumi)) );
    files.push_back( make_pair("QCD_Pt-80to120.root",          (7.84e+05*0.06100585*Lumi)) );
    files.push_back( make_pair("QCD_Pt-120to170.root",         (1.15e+05*0.11389810*Lumi)) );
    files.push_back( make_pair("QCD_Pt-170to300.root",         (2.43e+04*0.13732413*Lumi)) );
    files.push_back( make_pair("QCD_Pt-300to470.root",         (1.17e+03*0.317390358*Lumi)) );
    files.push_back( make_pair("QCD_Pt_470to600.root",         (7.02e+01*0.431763719*Lumi)) );
    files.push_back( make_pair("QCD_Pt_600to800.root",         (1.56e+01*0.508048972*Lumi)) );
    files.push_back( make_pair("QCD_Pt_800to1000.root",        (1.84e+00*0.385363968*Lumi)) );
    files.push_back( make_pair("QCD_Pt_1000to1400.root",       (3.32e-01*0.661857989*Lumi)) );
    //files.push_back( make_pair("QCD_Pt_1400to1800.root",       (1.09e-02*0.784767648*Lumi)) );
  }

  
  directories.push_back("etoTauMargLooseNoCracks80");
  directories.push_back("etoTauMargLooseNoCracks70");
  directories.push_back("etoTauMargLooseNoCracks60");
  directories.push_back("etoTauMargMediumNoCracks80");
  directories.push_back("etoTauMargMediumNoCracks70");
  directories.push_back("etoTauMargMediumNoCracks60");
  directories.push_back("etoTauMargTightNoCracks80");
  directories.push_back("etoTauMargTightNoCracks70");
  directories.push_back("etoTauMargTightNoCracks60");

  directories.push_back("etoTauSCMargNoCracks80");
  directories.push_back("etoTauSCMargNoCracks70");
  directories.push_back("etoTauSCMargNoCracks60");
    

  TFile *outFile = new TFile(("testNewWriteFromPAT_soup"+selection+".root").c_str(),"RECREATE");
  
  int numFiles = 0;

  for(unsigned int j = 0; j<directories.size(); j++){

    numFiles = 0;

    histos.clear();

    for(unsigned int i = 0; i<files.size();i++){
      histos.push_back( new TH1F(Form("h_%d",i),Form("file %s",(files[i].first).c_str()),20,40,120) );
    }

    THStack* aStack = new THStack("aStack","");
    TLegend* leg = new TLegend(0.1331269,0.5926573,0.3622291,0.8671329,NULL,"brNDC");
    leg->SetFillStyle(4000);
    leg->SetBorderSize(0);
    leg->SetFillColor(10);
    leg->SetTextSize(0.03);

    cout << "Directory " <<  directories[j] << endl;

    TChain* outChain = new TChain((directories[j]+"/fitter_tree").c_str());

    int counter = 0;
    for(unsigned int i = 0; i<files.size();i++){

      TFile *file = new TFile(("/data_CMS/cms/lbianchini/35pb/testNewWriteFromPAT_"+files[i].first).c_str(),"READ");
      if(file->IsZombie()){
	cout << "No file " << files[i].first << " is found" << endl;
	continue;
      }

      file->cd("allEventsFilter");
      TH1F* totalEvents = (TH1F*)gDirectory->Get("totalEvents");
      float readEvents = totalEvents->GetBinContent(1);

      file->cd(directories[j].c_str());
      TTree *oldTree = (TTree*) gDirectory->Get("fitter_tree");

      float scaleToNNLO = 1.0;
      if((files[i].first).find("DY")!=string::npos)    scaleToNNLO = 1.33;
      if((files[i].first).find("W")!=string::npos)     scaleToNNLO = 1.23;
      if((files[i].first).find("TT")!=string::npos)    scaleToNNLO = 1.75;
     
      int entries = std::min( (int)oldTree->GetEntries(),  
			      (int)(((files[i].second*scaleToNNLO)/readEvents)*oldTree->GetEntries()) );

      TFile *newFile = new TFile( ("/data_CMS/cms/lbianchini/35pb/testNewWriteFromPAT_"+files[i].first+"new").c_str(), "RECREATE");
      TDirectory* dir = (TDirectory*) newFile->mkdir(directories[j].c_str());
      TTree *tree = oldTree->CloneTree( entries );

      // weight for the tree: 1 if you require less than the overall tree entries, otherwise set it to L*sigma/processed 
      //float weight = std::max((double)files[i].second,1.0);
      //tree->SetWeight( weight );
      double weight;
      tree->Branch("weight", &weight,"weight/D");
      weight = std::max((double)(files[i].second/readEvents),1.0);
      tree->Fill();

      TH1F* h = new TH1F("h","",20,40,120);
      tree->Draw("mass>>h",("weight*("+selection+")").c_str());
      histos[i]->Add(h,1);
      histos[i]->SetFillColor(i+1);
      histos[i]->SetLineColor(i+1);
      //setUpHisto(histos[i],Lumi, directories[j]);
      aStack->Add( histos[i] );
      leg->AddEntry( histos[i], (files[i].first).c_str(),"F");

      dir->cd();
      tree->Write();
      newFile->Write();

      counter+=entries;

      cout << files[i].first 
	   << " ==> total entries " << oldTree->GetEntries() 
	   << " --- Required " <<  (int)(files[i].second/readEvents*oldTree->GetEntries())
	   << " --- Provided " << entries
	   <<  endl;
      std::cout << "The tree will have weight: " << weight << std::endl; 
      //outTree->CopyEntries(tree,entries);

      if(entries>0){
	int isOK =  outChain->AddFile( ("/data_CMS/cms/lbianchini/35pb/testNewWriteFromPAT_"+files[i].first+"new").c_str());
	if( isOK == 0) cout << "No linked file" << endl;
	numFiles += isOK;
      }
      cout << " outChain has " << outChain->GetEntries() 
	   << " and attached files " << numFiles
	   << endl;

      file->Close();
      newFile->Close();
      //delete h;
      delete file;
      delete newFile;
    } // file

    //outFile->cd();
    TDirectory* dir = (TDirectory*) outFile->mkdir(directories[j].c_str());
    
    TTree* outTree = (TTree*) outChain->CopyTree("");
  
    //outTree->Draw("mass");

    cout<< "Total events copied in output directory " << outTree->GetEntries() << " from requested " << counter << endl;

    dir->cd();
    outTree->Write("", TObject::kOverwrite);

    TCanvas *c1 = new TCanvas("c1","stacked mass",10,30,650,600);
    c1->SetGrid(0,0);
    c1->SetFillStyle(4000);
    c1->SetFillColor(10);
    c1->SetTicky();
    c1->SetObjectStat(0);

    aStack->Draw("HIST");

    setUpHisto( (TH1F*)aStack->GetHistogram(), Lumi, directories[j] );
    leg->SetHeader(directories[j].c_str());
    leg->Draw(); 
    c1->Write();

    for(int i = 0; i<histos.size(); i++){
      delete histos[i];
    }
    delete aStack;
    delete leg;

  }//directories

  


  outFile->Write();
  outFile->Close();
  delete outFile;

}
Beispiel #26
0
void tnpScale( bool printplot = false ) {

  //----------------------------------------
  // Files
  //----------------------------------------

  char* version = (char*) "V00-00-00";

  TChain *chmc   = new TChain("leptons");
  TChain *chdata = new TChain("leptons");

  char* suffix = "";
  //char* suffix = "_2jets";

  chmc->  Add(Form("smurf/ZJets_V00-00-01/merged%s.root"        ,suffix));
  chdata->Add(Form("smurf/SingleMu2012A_V00-00-01/merged%s.root",suffix));
  chdata->Add(Form("smurf/SingleMu2012B_V00-00-01/merged%s.root",suffix));
  chdata->Add(Form("smurf/SingleMu2012C_V00-00-01/merged%s.root",suffix));
  chdata->Add(Form("smurf/SingleEl2012A_V00-00-01/merged%s.root",suffix));
  chdata->Add(Form("smurf/SingleEl2012B_V00-00-01/merged%s.root",suffix));
  chdata->Add(Form("smurf/SingleEl2012C_V00-00-01/merged%s.root",suffix));

  //----------------------------------------
  // bins 
  //----------------------------------------

  //float ptbin[] = {10., 15., 20., 30., 40., 50., 7000.};
  float ptbin[] = {10., 15., 20., 30., 40., 50., 60. , 70. , 80.0 , 100.0 , 7000.};
  float etabin[] = {0, 0.8, 1.479, 2.0, 2.5};
  int nptbin=10;
  int netabin=4;

  //
  // histogram
  //
  //deno
  TH2F *hmcid_deno 	= new TH2F("hmcid_deno", "hmcid_deno", nptbin, ptbin, netabin, etabin);
  TH2F *hmciso_deno 	= new TH2F("hmciso_deno", "hmciso_deno", nptbin, ptbin, netabin, etabin);
  TH2F *hdataid_deno 	= new TH2F("hdataid_deno", "hdataid_deno", nptbin, ptbin, netabin, etabin);
  TH2F *hdataiso_deno	= new TH2F("hdataiso_deno", "hdataiso_deno", nptbin, ptbin, netabin, etabin);
  hmcid_deno->Sumw2();
  hmciso_deno->Sumw2();
  hdataid_deno->Sumw2();
  hdataiso_deno->Sumw2();
  //num
  TH2F *hmcid_num 	= new TH2F("hmcid_num", "hmcid_num", nptbin, ptbin, netabin, etabin);
  TH2F *hmciso_num 	= new TH2F("hmciso_num", "hmciso_num", nptbin, ptbin, netabin, etabin);
  TH2F *hdataid_num 	= new TH2F("hdataid_num", "hdataid_num", nptbin, ptbin, netabin, etabin);
  TH2F *hdataiso_num 	= new TH2F("hdataiso_num", "hdataiso_num", nptbin, ptbin, netabin, etabin);
  hmcid_num->Sumw2();
  hmciso_num->Sumw2();
  hdataid_num->Sumw2();
  hdataiso_num->Sumw2();
  // eff
  TH2F *hmcid 	= new TH2F("hmcid", "hmcid", nptbin, ptbin, netabin, etabin);
  TH2F *hmciso 	= new TH2F("hmciso", "hmciso", nptbin, ptbin, netabin, etabin);
  TH2F *hdataid 	= new TH2F("hdataid", "hdataid", nptbin, ptbin, netabin, etabin);
  TH2F *hdataiso 	= new TH2F("hdataiso", "hdataiso", nptbin, ptbin, netabin, etabin);
  hmcid->Sumw2();
  hmciso->Sumw2();
  hdataid->Sumw2();
  hdataiso->Sumw2();
  // SF
  TH2F *hsfid 	= new TH2F("hsfid", "hsfid", nptbin, ptbin, netabin, etabin);
  TH2F *hsfiso 	= new TH2F("hsfiso", "hsfiso", nptbin, ptbin, netabin, etabin);
  hsfid->Sumw2();
  hsfiso->Sumw2();


  //---------------------------
  // tag cuts
  //---------------------------

  TCut zmass("abs(tagAndProbeMass-91)<15");
  TCut eltnp("(eventSelection&1)==1");
  TCut mutnp("(eventSelection&2)==2");
  TCut os("qProbe*qTag<0");
  TCut tag_eta21("abs(tag->eta())<2.1");
  TCut tag_eta25("abs(tag->eta())<2.5");
  TCut njets1("njets>=1");
  TCut njets2("njets>=2");
  TCut njets3("njets>=3");
  TCut njets4("njets>=4");
  TCut tag_pt30("tag->pt()>30.0");
  TCut met30("met<30");
  TCut met20("met<20");
  TCut nbm0("nbm==0");
  TCut nbl0("nbl==0");
  TCut mt30("mt<30");
  TCut eltnptrig("HLT_Ele27_WP80_tag > 0");
  TCut mutnptrig("HLT_IsoMu24_tag > 0");

  //---------------------------
  // tag cuts
  //---------------------------

  TCut mufo 	= "(leptonSelection&32768)==32768";    // mu fo
  TCut muid 	= "(leptonSelection&65536)==65536";    // mu id 
  TCut muiso 	= "(leptonSelection&131072)==131072";  // mu iso 
  TCut elfo     = "(leptonSelection&4)==4";            // ele fo 
  TCut elid  	= "(leptonSelection&8)==8";            // ele id 
  TCut eliso 	= "(leptonSelection&16)==16";          // ele iso
  TCut probept  = "probe->pt()>30";                    // probe pt
  TCut drprobe  = "drprobe<0.05";                      // dR(probe,pfcandidate)

  TCut eltnpcut;
  eltnpcut += zmass;
  eltnpcut += os;
  eltnpcut += eltnp;
  eltnpcut += tag_eta21;
  //eltnpcut += njets2;
  eltnpcut += tag_pt30;
  eltnpcut += eltnptrig;
  eltnpcut += met30;
  // eltnpcut += mt30;
  eltnpcut += nbl0;
  
  eltnpcut += elid;
  eltnpcut += probept;
  eltnpcut += drprobe;

  TCut mutnpcut;
  mutnpcut += zmass;
  mutnpcut += os;
  mutnpcut += mutnp;
  mutnpcut += tag_eta21;
  //mutnpcut += njets2;
  mutnpcut += tag_pt30;
  mutnpcut += mutnptrig;
  mutnpcut += met30;
  // mutnpcut += mt30;
  mutnpcut += nbl0;

  mutnpcut += muid;
  mutnpcut += probept;
  mutnpcut += drprobe;


  //eltnpcut += njets2;
  //eltnpcut += njets3;
  //eltnpcut += nbm0;
  //eltnpcut += mt30;
  //eltnpcut += met20;

  //TCut eltnpcut 	 = "abs(tagAndProbeMass-91)<15 && (eventSelection&1)==1 && qProbe*qTag<0 && abs(tag->eta())<2.5 && njets>=4 && tag->pt()>30.0 && met<30.0 && nbm==0 && mt<30"; 
  //TCut mutnpcut 	 = "abs(tagAndProbeMass-91)<15 && (eventSelection&2)==2 && HLT_IsoMu30_eta2p1_tag>0 && qProbe*qTag<0 && abs(tag->eta())<2.1 && njets>=4 && tag->pt()>30.0"; 

  TCut vtxweight = "vtxweight";

  

  cout << "Electrons:" << endl;
  cout << "Selection            : " << eltnpcut.GetTitle()          << endl;
  cout << "Total MC yields 	: " << chmc->GetEntries(eltnpcut)   << endl;
  cout << "Total DATA yields 	: " << chdata->GetEntries(eltnpcut) << endl;

  cout << "Muons:" << endl;
  cout << "Selection            : " << mutnpcut.GetTitle()          << endl;
  cout << "Total MC yields 	: " << chmc->GetEntries(mutnpcut)   << endl;
  cout << "Total DATA yields 	: " << chdata->GetEntries(mutnpcut) << endl;


  //TCut njets    = "njets>=2";
  TCut tkisoold = "tkisoold/probe->pt()>0.1";
  TCut tkisonew = "tkisonew/probe->pt()>0.1";

  //-----------------------------------------
  // check nvtx data vs. MC
  //-----------------------------------------

  TH1F *hnvtx_mc   = new TH1F("hnvtx_mc"  ,"",30,0,30);
  TH1F *hnvtx_data = new TH1F("hnvtx_data","",30,0,30);

  hnvtx_mc->Sumw2();
  hnvtx_data->Sumw2();

  chdata->Draw("nvtx>>hnvtx_data",(eltnpcut||mutnpcut));
  chmc->Draw("nvtx>>hnvtx_mc",(eltnpcut||mutnpcut)*vtxweight);

  TCanvas *c1 = new TCanvas();
  c1->cd();
  
  hnvtx_mc->SetLineColor(2);
  hnvtx_mc->SetMarkerColor(2);
  hnvtx_data->SetLineColor(4);
  hnvtx_data->SetMarkerColor(4);
  
  hnvtx_data->GetXaxis()->SetTitle("N_{VTX}");
  hnvtx_data->DrawNormalized();
  hnvtx_mc->DrawNormalized("same");

  TLegend *leg = new TLegend(0.6,0.6,0.8,0.8);
  leg->AddEntry(hnvtx_data,"data","lp");
  leg->AddEntry(hnvtx_mc,"MC","lp");
  leg->SetFillColor(0);
  leg->SetBorderSize(0);
  leg->Draw();

  if( printplot ) c1->Print("plots/nvtx.pdf");

  //--------------------------
  // absolute track isolation
  //--------------------------
  
  bool residual = true;
  bool log      = true;
  
  char* var = "tkisonewnoveto";
  
  plotDistribution( chdata , chmc , TCut(eltnpcut)        , vtxweight , var , 10 , 0 , 10 , "abs tkiso [GeV]"    , "el_tkiso_0j" , printplot , residual , log );
  plotDistribution( chdata , chmc , TCut(mutnpcut)        , vtxweight , var , 10 , 0 , 10 , "abs tkiso [GeV]"    , "mu_tkiso_0j" , printplot , residual , log );

  plotDistribution( chdata , chmc , TCut(eltnpcut+njets1) , vtxweight , var , 10 , 0 , 10 , "abs tkiso [GeV]"    , "el_tkiso_1j" , printplot , residual , log );
  plotDistribution( chdata , chmc , TCut(mutnpcut+njets1) , vtxweight , var , 10 , 0 , 10 , "abs tkiso [GeV]"    , "mu_tkiso_1j" , printplot , residual , log );
  
  plotDistribution( chdata , chmc , TCut(eltnpcut+njets2) , vtxweight , var , 10 , 0 , 10 , "abs tkiso [GeV]"    , "el_tkiso_2j" , printplot , residual , log );
  plotDistribution( chdata , chmc , TCut(mutnpcut+njets2) , vtxweight , var , 10 , 0 , 10 , "abs tkiso [GeV]"    , "mu_tkiso_2j" , printplot , residual , log );

  plotDistribution( chdata , chmc , TCut(eltnpcut+njets3) , vtxweight , var , 10 , 0 , 10 , "abs tkiso [GeV]"    , "el_tkiso_3j" , printplot , residual , log );
  plotDistribution( chdata , chmc , TCut(mutnpcut+njets3) , vtxweight , var , 10 , 0 , 10 , "abs tkiso [GeV]"    , "mu_tkiso_3j" , printplot , residual , log );

  plotDistribution( chdata , chmc , TCut(eltnpcut+njets4) , vtxweight , var , 10 , 0 , 10 , "abs tkiso [GeV]"    , "el_tkiso_4j" , printplot , residual , log );
  plotDistribution( chdata , chmc , TCut(mutnpcut+njets4) , vtxweight , var , 10 , 0 , 10 , "abs tkiso [GeV]"    , "mu_tkiso_4j" , printplot , residual , log );

  //--------------------------
  // relative track isolation
  //--------------------------

  // plotDistribution( chdata , chmc , TCut(eltnpcut) , vtxweight , "tkisonew/probe->pt()" , 10 , 0 , 1 , "rel tkiso [GeV]"    , "el_tkrliso_2j" , printplot );
  // plotDistribution( chdata , chmc , TCut(mutnpcut) , vtxweight , "tkisonew/probe->pt()" , 10 , 0 , 1 , "rel tkiso [GeV]"    , "mu_tkrliso_2j" , printplot );

  // plotDistribution( chdata , chmc , TCut(eltnpcut+njets3) , vtxweight , "tkisonew/probe->pt()" , 10 , 0 , 1 , "rel tkiso [GeV]"    , "el_tkrliso_3j" , printplot );
  // plotDistribution( chdata , chmc , TCut(mutnpcut+njets3) , vtxweight , "tkisonew/probe->pt()" , 10 , 0 , 1 , "rel tkiso [GeV]"    , "mu_tkrliso_3j" , printplot );

  // plotDistribution( chdata , chmc , TCut(eltnpcut+njets4) , vtxweight , "tkisonew/probe->pt()" , 10 , 0 , 1 , "rel tkiso [GeV]"    , "el_tkrliso_4j" , printplot );
  // plotDistribution( chdata , chmc , TCut(mutnpcut+njets4) , vtxweight , "tkisonew/probe->pt()" , 10 , 0 , 1 , "rel tkiso [GeV]"    , "mu_tkrliso_4j" , printplot );




  // plotDistribution( chdata , chmc , TCut(eltnpcut) , vtxweight , "tkisoold" , 10 , 0 , 10 , "trkiso (old) [GeV]" , "el_tkiso_old" , printplot );
  // plotDistribution( chdata , chmc , TCut(mutnpcut) , vtxweight , "tkisoold" , 10 , 0 , 10 , "trkiso (old) [GeV]" , "mu_tkiso_old" , printplot );

  //printHisto( chdata , chmc , TCut(muiso) , TCut(tnpcut+muid) , "probe.pt()" , 10 , 0.0 , 100.0 , "lepton p_{T} [GeV]" , "iso efficiency" );
  //printHisto( chdata , chmc , tkisoold , TCut(tnpcut+muid+njets) , "probe.pt()" , 10 , 0.0 , 100.0 , "lepton p_{T} [GeV]" , "tkiso(old) efficiency" );
  //printHisto( chdata , chmc , tkisonew , TCut(tnpcut+muid+njets) , "probe.pt()" , 10 , 0.0 , 100.0 , "lepton p_{T} [GeV]" , "tkiso(new) efficiency" );


  /*


  //
  // Fill histograms
  //
  // chmc->Draw("abs(probe->eta()):probe->pt()>>hmcid_deno", 	tnpcut+"&&"+eliso,				"goff");
  // chmc->Draw("abs(probe->eta()):probe->pt()>>hmcid_num", 		tnpcut+"&&"+eliso+"&&"+elid,	"goff");
  // chmc->Draw("abs(probe->eta()):probe->pt()>>hmciso_deno", 	tnpcut+"&&"+elid,				"goff");
  // chmc->Draw("abs(probe->eta()):probe->pt()>>hmciso_num", 	tnpcut+"&&"+elid+"&&"+eliso,	"goff");
  // chdata->Draw("abs(probe->eta()):probe->pt()>>hdataid_deno", 	tnpcut+"&&"+eliso,				"goff");
  // chdata->Draw("abs(probe->eta()):probe->pt()>>hdataid_num", 		tnpcut+"&&"+eliso+"&&"+elid,	"goff");
  // chdata->Draw("abs(probe->eta()):probe->pt()>>hdataiso_deno", 	tnpcut+"&&"+elid,				"goff");
  // chdata->Draw("abs(probe->eta()):probe->pt()>>hdataiso_num", 	tnpcut+"&&"+elid+"&&"+eliso,	"goff");

  TCut tnpcut   	 = "abs(tagAndProbeMass-91)<15 && (eventSelection&2)==2 && HLT_IsoMu30_eta2p1_tag>0 && qProbe*qTag<0 && abs(tag->eta())<2.1 && njets>=4 && tag->pt()>30.0"; 

  chmc->Draw("abs(probe->eta()):probe->pt()>>hmcid_deno", 	tnpcut+muiso,	      	"goff");
  chmc->Draw("abs(probe->eta()):probe->pt()>>hmcid_num", 	tnpcut+muiso+muid,	"goff");
  chmc->Draw("abs(probe->eta()):probe->pt()>>hmciso_deno", 	tnpcut+muid,	      	"goff");
  chmc->Draw("abs(probe->eta()):probe->pt()>>hmciso_num", 	tnpcut+muid+muiso,	"goff");
  chdata->Draw("abs(probe->eta()):probe->pt()>>hdataid_deno", 	tnpcut+muiso,		"goff");
  chdata->Draw("abs(probe->eta()):probe->pt()>>hdataid_num", 	tnpcut+muiso+muid,	"goff");
  chdata->Draw("abs(probe->eta()):probe->pt()>>hdataiso_deno", 	tnpcut+muid,	       	"goff");
  chdata->Draw("abs(probe->eta()):probe->pt()>>hdataiso_num", 	tnpcut+muid+muiso,	"goff");

  // get efficiencies 
  // hmcid->Divide(hmcid_num,hmcid_deno,1,1,"B");
  // hmciso->Divide(hmciso_num,hmciso_deno,1,1,"B");
  // hdataid->Divide(hdataid_num,hdataid_deno,1,1,"B");
  // hdataiso->Divide(hdataiso_num,hdataiso_deno,1,1,"B");

  hmcid->Divide(hmcid_num,hmcid_deno,1,1);
  hmciso->Divide(hmciso_num,hmciso_deno,1,1);
  hdataid->Divide(hdataid_num,hdataid_deno,1,1);
  hdataiso->Divide(hdataiso_num,hdataiso_deno,1,1);
	
  // get scale factors
  hsfid->Divide(hdataid, hmcid, 1, 1);
  hsfiso->Divide(hdataiso, hmciso, 1, 1);

  // Draw histograms	
  //hmcid->Draw("text");
  */

  /*
  // print table
  cout << " ------ MC ID ----- " << endl;
  printline(hmcid);
  cout << " ------ MC ISO ----- " << endl;
  printline(hmciso);
  cout << " ------ DATA ID ----- " << endl;
  printline(hdataid);
  cout << " ------ DATA ISO ----- " << endl;
  printline(hdataiso);
  cout << " ------ Scale Factor ID ----- " << endl;
  printline(hsfid);
  cout << " ------ Scale Factor ISO ----- " << endl;
  printline(hsfiso);
  */
	
}
void SegtoLCTY_2016B_June22all_sameYrange_fullIntegral_10k9k()
{
//=========Macro generated from canvas: SegtoLCTY/SegtoLCTY
//=========  (Fri Aug  5 09:22:37 2016) by ROOT version6.06/01
   TCanvas *SegtoLCTY = new TCanvas("SegtoLCTY", "SegtoLCTY",0,0,500,500);
   gStyle->SetOptStat(0);
   SegtoLCTY->SetHighLightColor(2);
   SegtoLCTY->Range(-50,-2.848556,50,2.626708);
   SegtoLCTY->SetFillColor(0);
   SegtoLCTY->SetBorderMode(0);
   SegtoLCTY->SetBorderSize(2);
   SegtoLCTY->SetLogy();
   SegtoLCTY->SetFrameBorderMode(0);
   SegtoLCTY->SetFrameBorderMode(0);
   
   TH1D *SegtoLCTY_1__37 = new TH1D("SegtoLCTY_1__37","SegtoLCTY",100,-40,40);
   SegtoLCTY_1__37->SetBinContent(0,1.898254);
   SegtoLCTY_1__37->SetBinContent(1,0.002442073);
   SegtoLCTY_1__37->SetBinContent(2,0.002136814);
   SegtoLCTY_1__37->SetBinContent(3,0.0009157775);
   SegtoLCTY_1__37->SetBinContent(4,0.002594703);
   SegtoLCTY_1__37->SetBinContent(5,0.002594703);
   SegtoLCTY_1__37->SetBinContent(6,0.002594703);
   SegtoLCTY_1__37->SetBinContent(7,0.002442073);
   SegtoLCTY_1__37->SetBinContent(8,0.001831555);
   SegtoLCTY_1__37->SetBinContent(9,0.002747332);
   SegtoLCTY_1__37->SetBinContent(10,0.003052592);
   SegtoLCTY_1__37->SetBinContent(11,0.00366311);
   SegtoLCTY_1__37->SetBinContent(12,0.001831555);
   SegtoLCTY_1__37->SetBinContent(13,0.003052592);
   SegtoLCTY_1__37->SetBinContent(14,0.004273628);
   SegtoLCTY_1__37->SetBinContent(15,0.003815739);
   SegtoLCTY_1__37->SetBinContent(16,0.003968369);
   SegtoLCTY_1__37->SetBinContent(17,0.002594703);
   SegtoLCTY_1__37->SetBinContent(18,0.002899962);
   SegtoLCTY_1__37->SetBinContent(19,0.005036776);
   SegtoLCTY_1__37->SetBinContent(20,0.004120999);
   SegtoLCTY_1__37->SetBinContent(21,0.003815739);
   SegtoLCTY_1__37->SetBinContent(22,0.005036776);
   SegtoLCTY_1__37->SetBinContent(23,0.004426258);
   SegtoLCTY_1__37->SetBinContent(24,0.005036776);
   SegtoLCTY_1__37->SetBinContent(25,0.006868331);
   SegtoLCTY_1__37->SetBinContent(26,0.007020961);
   SegtoLCTY_1__37->SetBinContent(27,0.006257813);
   SegtoLCTY_1__37->SetBinContent(28,0.006868331);
   SegtoLCTY_1__37->SetBinContent(29,0.007020961);
   SegtoLCTY_1__37->SetBinContent(30,0.01068407);
   SegtoLCTY_1__37->SetBinContent(31,0.006868331);
   SegtoLCTY_1__37->SetBinContent(32,0.01007355);
   SegtoLCTY_1__37->SetBinContent(33,0.009310404);
   SegtoLCTY_1__37->SetBinContent(34,0.01037881);
   SegtoLCTY_1__37->SetBinContent(35,0.01266826);
   SegtoLCTY_1__37->SetBinContent(36,0.01159985);
   SegtoLCTY_1__37->SetBinContent(37,0.01648399);
   SegtoLCTY_1__37->SetBinContent(38,0.01831555);
   SegtoLCTY_1__37->SetBinContent(39,0.01984185);
   SegtoLCTY_1__37->SetBinContent(40,0.01846818);
   SegtoLCTY_1__37->SetBinContent(41,0.02243655);
   SegtoLCTY_1__37->SetBinContent(42,0.02671018);
   SegtoLCTY_1__37->SetBinContent(43,0.03937843);
   SegtoLCTY_1__37->SetBinContent(44,0.03617321);
   SegtoLCTY_1__37->SetBinContent(45,0.04868884);
   SegtoLCTY_1__37->SetBinContent(46,0.05479402);
   SegtoLCTY_1__37->SetBinContent(47,0.07723057);
   SegtoLCTY_1__37->SetBinContent(48,0.1245457);
   SegtoLCTY_1__37->SetBinContent(49,1.805913);
   SegtoLCTY_1__37->SetBinContent(50,5.034181);
   SegtoLCTY_1__37->SetBinContent(51,85.83888);
   SegtoLCTY_1__37->SetBinContent(52,3.317862);
   SegtoLCTY_1__37->SetBinContent(53,1.832013);
   SegtoLCTY_1__37->SetBinContent(54,0.3237273);
   SegtoLCTY_1__37->SetBinContent(55,0.2254339);
   SegtoLCTY_1__37->SetBinContent(56,0.1320246);
   SegtoLCTY_1__37->SetBinContent(57,0.1472875);
   SegtoLCTY_1__37->SetBinContent(58,0.0799779);
   SegtoLCTY_1__37->SetBinContent(59,0.07280431);
   SegtoLCTY_1__37->SetBinContent(60,0.05342035);
   SegtoLCTY_1__37->SetBinContent(61,0.04533098);
   SegtoLCTY_1__37->SetBinContent(62,0.03724162);
   SegtoLCTY_1__37->SetBinContent(63,0.03479954);
   SegtoLCTY_1__37->SetBinContent(64,0.0257944);
   SegtoLCTY_1__37->SetBinContent(65,0.01663662);
   SegtoLCTY_1__37->SetBinContent(66,0.02258918);
   SegtoLCTY_1__37->SetBinContent(67,0.02106288);
   SegtoLCTY_1__37->SetBinContent(68,0.01419455);
   SegtoLCTY_1__37->SetBinContent(69,0.0190787);
   SegtoLCTY_1__37->SetBinContent(70,0.01465244);
   SegtoLCTY_1__37->SetBinContent(71,0.0175524);
   SegtoLCTY_1__37->SetBinContent(72,0.0108367);
   SegtoLCTY_1__37->SetBinContent(73,0.01144722);
   SegtoLCTY_1__37->SetBinContent(74,0.01419455);
   SegtoLCTY_1__37->SetBinContent(75,0.008852516);
   SegtoLCTY_1__37->SetBinContent(76,0.009157775);
   SegtoLCTY_1__37->SetBinContent(77,0.009768293);
   SegtoLCTY_1__37->SetBinContent(78,0.007784109);
   SegtoLCTY_1__37->SetBinContent(79,0.009615663);
   SegtoLCTY_1__37->SetBinContent(80,0.006410442);
   SegtoLCTY_1__37->SetBinContent(81,0.007936738);
   SegtoLCTY_1__37->SetBinContent(82,0.006105183);
   SegtoLCTY_1__37->SetBinContent(83,0.007020961);
   SegtoLCTY_1__37->SetBinContent(84,0.006868331);
   SegtoLCTY_1__37->SetBinContent(85,0.005494665);
   SegtoLCTY_1__37->SetBinContent(86,0.005494665);
   SegtoLCTY_1__37->SetBinContent(87,0.005342035);
   SegtoLCTY_1__37->SetBinContent(88,0.005494665);
   SegtoLCTY_1__37->SetBinContent(89,0.005647294);
   SegtoLCTY_1__37->SetBinContent(90,0.005036776);
   SegtoLCTY_1__37->SetBinContent(91,0.003052592);
   SegtoLCTY_1__37->SetBinContent(92,0.004273628);
   SegtoLCTY_1__37->SetBinContent(93,0.002899962);
   SegtoLCTY_1__37->SetBinContent(94,0.003357851);
   SegtoLCTY_1__37->SetBinContent(95,0.002899962);
   SegtoLCTY_1__37->SetBinContent(96,0.005647294);
   SegtoLCTY_1__37->SetBinContent(97,0.003052592);
   SegtoLCTY_1__37->SetBinContent(98,0.002594703);
   SegtoLCTY_1__37->SetBinContent(99,0.003052592);
   SegtoLCTY_1__37->SetBinContent(100,0.002594703);
   SegtoLCTY_1__37->SetBinContent(101,1.24912);
   SegtoLCTY_1__37->SetMinimum(0.005);
   SegtoLCTY_1__37->SetMaximum(120);
   SegtoLCTY_1__37->SetEntries(675802);
   SegtoLCTY_1__37->SetStats(0);

   Int_t ci;      // for color index setting
   TColor *color; // for color definition with alpha
   ci = TColor::GetColor("#ff00ff");
   SegtoLCTY_1__37->SetLineColor(ci);

   ci = TColor::GetColor("#ff00ff");
   SegtoLCTY_1__37->SetMarkerColor(ci);
   SegtoLCTY_1__37->GetXaxis()->SetTitle("cm");
   SegtoLCTY_1__37->GetYaxis()->SetTitle("scaled number of entries");
   SegtoLCTY_1__37->Draw("H");
   
   TLegend *leg = new TLegend(0.5,0.7,0.9,0.9,NULL,"brNDC");
   leg->SetBorderSize(1);
   leg->SetTextFont(62);
   leg->SetTextSize(0.02);
   leg->SetLineColor(1);
   leg->SetLineStyle(1);
   leg->SetLineWidth(1);
   leg->SetFillColor(0);
   leg->SetFillStyle(1001);
   TLegendEntry *entry=leg->AddEntry("SegtoLCTY_1","ME11A: mean:0.1cm;RMS:1.7cm","l");

   ci = TColor::GetColor("#ff00ff");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_2","ME11B: mean:0.2cm;RMS:1.6cm","l");

   ci = TColor::GetColor("#ff9999");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_3","ME12+13: mean:0.5cm;RMS:1.6cm","l");
   entry->SetLineColor(1);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_4","ME2: mean:0.2cm;RMS:1.1cm","l");

   ci = TColor::GetColor("#ff0000");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_5","ME3: mean:-0.1cm;RMS:1.1cm","l");

   ci = TColor::GetColor("#00ff00");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_6","ME4: mean:-0.1cm;RMS:1.2cm","l");

   ci = TColor::GetColor("#0000ff");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   leg->Draw();
   
   TH1D *SegtoLCTY_2__38 = new TH1D("SegtoLCTY_2__38","SegtoLCTY",100,-40,40);
   SegtoLCTY_2__38->SetBinContent(0,0.6313823);
   SegtoLCTY_2__38->SetBinContent(1,0.002236199);
   SegtoLCTY_2__38->SetBinContent(2,0.002494222);
   SegtoLCTY_2__38->SetBinContent(3,0.001720153);
   SegtoLCTY_2__38->SetBinContent(4,0.001376123);
   SegtoLCTY_2__38->SetBinContent(5,0.002150192);
   SegtoLCTY_2__38->SetBinContent(6,0.002064184);
   SegtoLCTY_2__38->SetBinContent(7,0.00369833);
   SegtoLCTY_2__38->SetBinContent(8,0.003182284);
   SegtoLCTY_2__38->SetBinContent(9,0.003096276);
   SegtoLCTY_2__38->SetBinContent(10,0.003526314);
   SegtoLCTY_2__38->SetBinContent(11,0.003354299);
   SegtoLCTY_2__38->SetBinContent(12,0.001376123);
   SegtoLCTY_2__38->SetBinContent(13,0.00369833);
   SegtoLCTY_2__38->SetBinContent(14,0.004128368);
   SegtoLCTY_2__38->SetBinContent(15,0.002150192);
   SegtoLCTY_2__38->SetBinContent(16,0.002924261);
   SegtoLCTY_2__38->SetBinContent(17,0.003010268);
   SegtoLCTY_2__38->SetBinContent(18,0.004214376);
   SegtoLCTY_2__38->SetBinContent(19,0.004128368);
   SegtoLCTY_2__38->SetBinContent(20,0.005246468);
   SegtoLCTY_2__38->SetBinContent(21,0.005246468);
   SegtoLCTY_2__38->SetBinContent(22,0.003870345);
   SegtoLCTY_2__38->SetBinContent(23,0.005676506);
   SegtoLCTY_2__38->SetBinContent(24,0.005934529);
   SegtoLCTY_2__38->SetBinContent(25,0.006364568);
   SegtoLCTY_2__38->SetBinContent(26,0.00516046);
   SegtoLCTY_2__38->SetBinContent(27,0.00627856);
   SegtoLCTY_2__38->SetBinContent(28,0.006880614);
   SegtoLCTY_2__38->SetBinContent(29,0.006880614);
   SegtoLCTY_2__38->SetBinContent(30,0.008342744);
   SegtoLCTY_2__38->SetBinContent(31,0.00885879);
   SegtoLCTY_2__38->SetBinContent(32,0.009202821);
   SegtoLCTY_2__38->SetBinContent(33,0.01083697);
   SegtoLCTY_2__38->SetBinContent(34,0.01049294);
   SegtoLCTY_2__38->SetBinContent(35,0.01247111);
   SegtoLCTY_2__38->SetBinContent(36,0.01358921);
   SegtoLCTY_2__38->SetBinContent(37,0.01505134);
   SegtoLCTY_2__38->SetBinContent(38,0.01530937);
   SegtoLCTY_2__38->SetBinContent(39,0.01608343);
   SegtoLCTY_2__38->SetBinContent(40,0.02124389);
   SegtoLCTY_2__38->SetBinContent(41,0.02451219);
   SegtoLCTY_2__38->SetBinContent(42,0.02459819);
   SegtoLCTY_2__38->SetBinContent(43,0.03552117);
   SegtoLCTY_2__38->SetBinContent(44,0.03835942);
   SegtoLCTY_2__38->SetBinContent(45,0.0538408);
   SegtoLCTY_2__38->SetBinContent(46,0.07448264);
   SegtoLCTY_2__38->SetBinContent(47,0.07998713);
   SegtoLCTY_2__38->SetBinContent(48,0.1540397);
   SegtoLCTY_2__38->SetBinContent(49,3.500856);
   SegtoLCTY_2__38->SetBinContent(50,4.506716);
   SegtoLCTY_2__38->SetBinContent(51,79.10719);
   SegtoLCTY_2__38->SetBinContent(52,6.900309);
   SegtoLCTY_2__38->SetBinContent(53,3.7692);
   SegtoLCTY_2__38->SetBinContent(54,0.4788907);
   SegtoLCTY_2__38->SetBinContent(55,0.2770307);
   SegtoLCTY_2__38->SetBinContent(56,0.1499114);
   SegtoLCTY_2__38->SetBinContent(57,0.09228623);
   SegtoLCTY_2__38->SetBinContent(58,0.06829009);
   SegtoLCTY_2__38->SetBinContent(59,0.05237867);
   SegtoLCTY_2__38->SetBinContent(60,0.04240178);
   SegtoLCTY_2__38->SetBinContent(61,0.033629);
   SegtoLCTY_2__38->SetBinContent(62,0.02924261);
   SegtoLCTY_2__38->SetBinContent(63,0.02313606);
   SegtoLCTY_2__38->SetBinContent(64,0.02029781);
   SegtoLCTY_2__38->SetBinContent(65,0.01745956);
   SegtoLCTY_2__38->SetBinContent(66,0.01849165);
   SegtoLCTY_2__38->SetBinContent(67,0.01315917);
   SegtoLCTY_2__38->SetBinContent(68,0.01315917);
   SegtoLCTY_2__38->SetBinContent(69,0.00885879);
   SegtoLCTY_2__38->SetBinContent(70,0.01023491);
   SegtoLCTY_2__38->SetBinContent(71,0.00885879);
   SegtoLCTY_2__38->SetBinContent(72,0.007052629);
   SegtoLCTY_2__38->SetBinContent(73,0.007568675);
   SegtoLCTY_2__38->SetBinContent(74,0.008084721);
   SegtoLCTY_2__38->SetBinContent(75,0.006106545);
   SegtoLCTY_2__38->SetBinContent(76,0.006192552);
   SegtoLCTY_2__38->SetBinContent(77,0.006536583);
   SegtoLCTY_2__38->SetBinContent(78,0.005504491);
   SegtoLCTY_2__38->SetBinContent(79,0.003784337);
   SegtoLCTY_2__38->SetBinContent(80,0.005074453);
   SegtoLCTY_2__38->SetBinContent(81,0.004730422);
   SegtoLCTY_2__38->SetBinContent(82,0.004300384);
   SegtoLCTY_2__38->SetBinContent(83,0.003010268);
   SegtoLCTY_2__38->SetBinContent(84,0.003526314);
   SegtoLCTY_2__38->SetBinContent(85,0.003354299);
   SegtoLCTY_2__38->SetBinContent(86,0.002752245);
   SegtoLCTY_2__38->SetBinContent(87,0.003784337);
   SegtoLCTY_2__38->SetBinContent(88,0.00369833);
   SegtoLCTY_2__38->SetBinContent(89,0.004214376);
   SegtoLCTY_2__38->SetBinContent(90,0.003096276);
   SegtoLCTY_2__38->SetBinContent(91,0.003182284);
   SegtoLCTY_2__38->SetBinContent(92,0.00369833);
   SegtoLCTY_2__38->SetBinContent(93,0.003010268);
   SegtoLCTY_2__38->SetBinContent(94,0.002322207);
   SegtoLCTY_2__38->SetBinContent(95,0.002752245);
   SegtoLCTY_2__38->SetBinContent(96,0.001978176);
   SegtoLCTY_2__38->SetBinContent(97,0.00258023);
   SegtoLCTY_2__38->SetBinContent(98,0.002666238);
   SegtoLCTY_2__38->SetBinContent(99,0.002322207);
   SegtoLCTY_2__38->SetBinContent(100,0.002236199);
   SegtoLCTY_2__38->SetBinContent(101,1.317035);
   SegtoLCTY_2__38->SetEntries(1185341);
   SegtoLCTY_2__38->SetStats(0);

   ci = TColor::GetColor("#ff9999");
   SegtoLCTY_2__38->SetLineColor(ci);

   ci = TColor::GetColor("#ff9999");
   SegtoLCTY_2__38->SetMarkerColor(ci);
   SegtoLCTY_2__38->GetXaxis()->SetTitle("cm");
   SegtoLCTY_2__38->GetYaxis()->SetTitle("scaled number of entries");
   SegtoLCTY_2__38->Draw("H,same");
   
   leg = new TLegend(0.5,0.7,0.9,0.9,NULL,"brNDC");
   leg->SetBorderSize(1);
   leg->SetTextFont(62);
   leg->SetTextSize(0.02);
   leg->SetLineColor(1);
   leg->SetLineStyle(1);
   leg->SetLineWidth(1);
   leg->SetFillColor(0);
   leg->SetFillStyle(1001);
   entry=leg->AddEntry("SegtoLCTY_1","ME11A: mean:0.1cm;RMS:1.7cm","l");

   ci = TColor::GetColor("#ff00ff");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_2","ME11B: mean:0.2cm;RMS:1.6cm","l");

   ci = TColor::GetColor("#ff9999");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_3","ME12+13: mean:0.5cm;RMS:1.6cm","l");
   entry->SetLineColor(1);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_4","ME2: mean:0.2cm;RMS:1.1cm","l");

   ci = TColor::GetColor("#ff0000");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_5","ME3: mean:-0.1cm;RMS:1.1cm","l");

   ci = TColor::GetColor("#00ff00");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_6","ME4: mean:-0.1cm;RMS:1.2cm","l");

   ci = TColor::GetColor("#0000ff");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   leg->Draw();
   
   TH1D *SegtoLCTY_3__39 = new TH1D("SegtoLCTY_3__39","SegtoLCTY",100,-40,40);
   SegtoLCTY_3__39->SetBinContent(0,0.2784678);
   SegtoLCTY_3__39->SetBinContent(1,0.002072319);
   SegtoLCTY_3__39->SetBinContent(2,0.002072319);
   SegtoLCTY_3__39->SetBinContent(3,0.0007771195);
   SegtoLCTY_3__39->SetBinContent(4,0.002072319);
   SegtoLCTY_3__39->SetBinContent(5,0.002072319);
   SegtoLCTY_3__39->SetBinContent(6,0.003108478);
   SegtoLCTY_3__39->SetBinContent(7,0.002331359);
   SegtoLCTY_3__39->SetBinContent(8,0.002849438);
   SegtoLCTY_3__39->SetBinContent(9,0.002331359);
   SegtoLCTY_3__39->SetBinContent(10,0.002072319);
   SegtoLCTY_3__39->SetBinContent(11,0.001554239);
   SegtoLCTY_3__39->SetBinContent(12,0.001813279);
   SegtoLCTY_3__39->SetBinContent(13,0.001813279);
   SegtoLCTY_3__39->SetBinContent(14,0.001813279);
   SegtoLCTY_3__39->SetBinContent(15,0.002849438);
   SegtoLCTY_3__39->SetBinContent(16,0.002590398);
   SegtoLCTY_3__39->SetBinContent(17,0.001813279);
   SegtoLCTY_3__39->SetBinContent(18,0.001554239);
   SegtoLCTY_3__39->SetBinContent(19,0.002590398);
   SegtoLCTY_3__39->SetBinContent(20,0.004144637);
   SegtoLCTY_3__39->SetBinContent(21,0.002331359);
   SegtoLCTY_3__39->SetBinContent(22,0.002849438);
   SegtoLCTY_3__39->SetBinContent(23,0.002072319);
   SegtoLCTY_3__39->SetBinContent(24,0.003626558);
   SegtoLCTY_3__39->SetBinContent(25,0.001554239);
   SegtoLCTY_3__39->SetBinContent(26,0.003367518);
   SegtoLCTY_3__39->SetBinContent(27,0.003885598);
   SegtoLCTY_3__39->SetBinContent(28,0.002331359);
   SegtoLCTY_3__39->SetBinContent(29,0.003108478);
   SegtoLCTY_3__39->SetBinContent(30,0.004662717);
   SegtoLCTY_3__39->SetBinContent(31,0.006735036);
   SegtoLCTY_3__39->SetBinContent(32,0.004144637);
   SegtoLCTY_3__39->SetBinContent(33,0.004921757);
   SegtoLCTY_3__39->SetBinContent(34,0.004921757);
   SegtoLCTY_3__39->SetBinContent(35,0.006216956);
   SegtoLCTY_3__39->SetBinContent(36,0.006216956);
   SegtoLCTY_3__39->SetBinContent(37,0.006216956);
   SegtoLCTY_3__39->SetBinContent(38,0.009325434);
   SegtoLCTY_3__39->SetBinContent(39,0.008030235);
   SegtoLCTY_3__39->SetBinContent(40,0.009325434);
   SegtoLCTY_3__39->SetBinContent(41,0.01036159);
   SegtoLCTY_3__39->SetBinContent(42,0.01165679);
   SegtoLCTY_3__39->SetBinContent(43,0.01554239);
   SegtoLCTY_3__39->SetBinContent(44,0.01735567);
   SegtoLCTY_3__39->SetBinContent(45,0.02642206);
   SegtoLCTY_3__39->SetBinContent(46,0.03237998);
   SegtoLCTY_3__39->SetBinContent(47,0.04766333);
   SegtoLCTY_3__39->SetBinContent(48,0.07667579);
   SegtoLCTY_3__39->SetBinContent(49,1.295458);
   SegtoLCTY_3__39->SetBinContent(50,14.74714);
   SegtoLCTY_3__39->SetBinContent(51,54.13544);
   SegtoLCTY_3__39->SetBinContent(52,15.52219);
   SegtoLCTY_3__39->SetBinContent(53,7.625356);
   SegtoLCTY_3__39->SetBinContent(54,3.031284);
   SegtoLCTY_3__39->SetBinContent(55,2.189923);
   SegtoLCTY_3__39->SetBinContent(56,0.5009831);
   SegtoLCTY_3__39->SetBinContent(57,0.1761471);
   SegtoLCTY_3__39->SetBinContent(58,0.09325434);
   SegtoLCTY_3__39->SetBinContent(59,0.05517549);
   SegtoLCTY_3__39->SetBinContent(60,0.03807886);
   SegtoLCTY_3__39->SetBinContent(61,0.02460879);
   SegtoLCTY_3__39->SetBinContent(62,0.02719918);
   SegtoLCTY_3__39->SetBinContent(63,0.01631951);
   SegtoLCTY_3__39->SetBinContent(64,0.01165679);
   SegtoLCTY_3__39->SetBinContent(65,0.01476527);
   SegtoLCTY_3__39->SetBinContent(66,0.01010255);
   SegtoLCTY_3__39->SetBinContent(67,0.004921757);
   SegtoLCTY_3__39->SetBinContent(68,0.01036159);
   SegtoLCTY_3__39->SetBinContent(69,0.004921757);
   SegtoLCTY_3__39->SetBinContent(70,0.003626558);
   SegtoLCTY_3__39->SetBinContent(71,0.006994076);
   SegtoLCTY_3__39->SetBinContent(72,0.005698877);
   SegtoLCTY_3__39->SetBinContent(73,0.005698877);
   SegtoLCTY_3__39->SetBinContent(74,0.003626558);
   SegtoLCTY_3__39->SetBinContent(75,0.003108478);
   SegtoLCTY_3__39->SetBinContent(76,0.004144637);
   SegtoLCTY_3__39->SetBinContent(77,0.003108478);
   SegtoLCTY_3__39->SetBinContent(78,0.002331359);
   SegtoLCTY_3__39->SetBinContent(79,0.003108478);
   SegtoLCTY_3__39->SetBinContent(80,0.003885598);
   SegtoLCTY_3__39->SetBinContent(81,0.003367518);
   SegtoLCTY_3__39->SetBinContent(82,0.002331359);
   SegtoLCTY_3__39->SetBinContent(83,0.002072319);
   SegtoLCTY_3__39->SetBinContent(84,0.001813279);
   SegtoLCTY_3__39->SetBinContent(85,0.002331359);
   SegtoLCTY_3__39->SetBinContent(86,0.003367518);
   SegtoLCTY_3__39->SetBinContent(87,0.002849438);
   SegtoLCTY_3__39->SetBinContent(88,0.002072319);
   SegtoLCTY_3__39->SetBinContent(89,0.001813279);
   SegtoLCTY_3__39->SetBinContent(90,0.002849438);
   SegtoLCTY_3__39->SetBinContent(91,0.002072319);
   SegtoLCTY_3__39->SetBinContent(92,0.001554239);
   SegtoLCTY_3__39->SetBinContent(93,0.001036159);
   SegtoLCTY_3__39->SetBinContent(94,0.002849438);
   SegtoLCTY_3__39->SetBinContent(95,0.001295199);
   SegtoLCTY_3__39->SetBinContent(96,0.001554239);
   SegtoLCTY_3__39->SetBinContent(97,0.001813279);
   SegtoLCTY_3__39->SetBinContent(98,0.001554239);
   SegtoLCTY_3__39->SetBinContent(99,0.001295199);
   SegtoLCTY_3__39->SetBinContent(100,0.001295199);
   SegtoLCTY_3__39->SetBinContent(101,0.6424188);
   SegtoLCTY_3__39->SetEntries(389596);
   SegtoLCTY_3__39->SetStats(0);
   SegtoLCTY_3__39->GetXaxis()->SetTitle("cm");
   SegtoLCTY_3__39->GetYaxis()->SetTitle("scaled number of entries");
   SegtoLCTY_3__39->Draw("H,same");
   
   leg = new TLegend(0.5,0.7,0.9,0.9,NULL,"brNDC");
   leg->SetBorderSize(1);
   leg->SetTextFont(62);
   leg->SetTextSize(0.02);
   leg->SetLineColor(1);
   leg->SetLineStyle(1);
   leg->SetLineWidth(1);
   leg->SetFillColor(0);
   leg->SetFillStyle(1001);
   entry=leg->AddEntry("SegtoLCTY_1","ME11A: mean:0.1cm;RMS:1.7cm","l");

   ci = TColor::GetColor("#ff00ff");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_2","ME11B: mean:0.2cm;RMS:1.6cm","l");

   ci = TColor::GetColor("#ff9999");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_3","ME12+13: mean:0.5cm;RMS:1.6cm","l");
   entry->SetLineColor(1);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_4","ME2: mean:0.2cm;RMS:1.1cm","l");

   ci = TColor::GetColor("#ff0000");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_5","ME3: mean:-0.1cm;RMS:1.1cm","l");

   ci = TColor::GetColor("#00ff00");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_6","ME4: mean:-0.1cm;RMS:1.2cm","l");

   ci = TColor::GetColor("#0000ff");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   leg->Draw();
   
   TH1D *SegtoLCTY_4__40 = new TH1D("SegtoLCTY_4__40","SegtoLCTY",100,-40,40);
   SegtoLCTY_4__40->SetBinContent(0,0.8410274);
   SegtoLCTY_4__40->SetBinContent(1,0.0004816881);
   SegtoLCTY_4__40->SetBinContent(2,0.000535209);
   SegtoLCTY_4__40->SetBinContent(3,0.0006957717);
   SegtoLCTY_4__40->SetBinContent(4,0.0006957717);
   SegtoLCTY_4__40->SetBinContent(5,0.001016897);
   SegtoLCTY_4__40->SetBinContent(6,0.0009098553);
   SegtoLCTY_4__40->SetBinContent(7,0.0002140836);
   SegtoLCTY_4__40->SetBinContent(8,0.000535209);
   SegtoLCTY_4__40->SetBinContent(9,0.0006957717);
   SegtoLCTY_4__40->SetBinContent(10,0.000535209);
   SegtoLCTY_4__40->SetBinContent(11,0.0006957717);
   SegtoLCTY_4__40->SetBinContent(12,0.0006957717);
   SegtoLCTY_4__40->SetBinContent(13,0.0007492926);
   SegtoLCTY_4__40->SetBinContent(14,0.0007492926);
   SegtoLCTY_4__40->SetBinContent(15,0.0004816881);
   SegtoLCTY_4__40->SetBinContent(16,0.001016897);
   SegtoLCTY_4__40->SetBinContent(17,0.0007492926);
   SegtoLCTY_4__40->SetBinContent(18,0.0008028135);
   SegtoLCTY_4__40->SetBinContent(19,0.001123939);
   SegtoLCTY_4__40->SetBinContent(20,0.001338022);
   SegtoLCTY_4__40->SetBinContent(21,0.001284502);
   SegtoLCTY_4__40->SetBinContent(22,0.001498585);
   SegtoLCTY_4__40->SetBinContent(23,0.001284502);
   SegtoLCTY_4__40->SetBinContent(24,0.001605627);
   SegtoLCTY_4__40->SetBinContent(25,0.001819711);
   SegtoLCTY_4__40->SetBinContent(26,0.00117746);
   SegtoLCTY_4__40->SetBinContent(27,0.001230981);
   SegtoLCTY_4__40->SetBinContent(28,0.001498585);
   SegtoLCTY_4__40->SetBinContent(29,0.001712669);
   SegtoLCTY_4__40->SetBinContent(30,0.001445064);
   SegtoLCTY_4__40->SetBinContent(31,0.002676045);
   SegtoLCTY_4__40->SetBinContent(32,0.00235492);
   SegtoLCTY_4__40->SetBinContent(33,0.002676045);
   SegtoLCTY_4__40->SetBinContent(34,0.00240844);
   SegtoLCTY_4__40->SetBinContent(35,0.003211254);
   SegtoLCTY_4__40->SetBinContent(36,0.004121109);
   SegtoLCTY_4__40->SetBinContent(37,0.003907026);
   SegtoLCTY_4__40->SetBinContent(38,0.004121109);
   SegtoLCTY_4__40->SetBinContent(39,0.00776053);
   SegtoLCTY_4__40->SetBinContent(40,0.00711828);
   SegtoLCTY_4__40->SetBinContent(41,0.009098553);
   SegtoLCTY_4__40->SetBinContent(42,0.009633762);
   SegtoLCTY_4__40->SetBinContent(43,0.01081122);
   SegtoLCTY_4__40->SetBinContent(44,0.01546754);
   SegtoLCTY_4__40->SetBinContent(45,0.0163774);
   SegtoLCTY_4__40->SetBinContent(46,0.03163085);
   SegtoLCTY_4__40->SetBinContent(47,0.06224481);
   SegtoLCTY_4__40->SetBinContent(48,1.059553);
   SegtoLCTY_4__40->SetBinContent(49,1.844384);
   SegtoLCTY_4__40->SetBinContent(50,7.443151);
   SegtoLCTY_4__40->SetBinContent(51,76.64963);
   SegtoLCTY_4__40->SetBinContent(52,6.21854);
   SegtoLCTY_4__40->SetBinContent(53,2.206881);
   SegtoLCTY_4__40->SetBinContent(54,2.981221);
   SegtoLCTY_4__40->SetBinContent(55,0.782422);
   SegtoLCTY_4__40->SetBinContent(56,0.2253765);
   SegtoLCTY_4__40->SetBinContent(57,0.1047404);
   SegtoLCTY_4__40->SetBinContent(58,0.06138847);
   SegtoLCTY_4__40->SetBinContent(59,0.04115757);
   SegtoLCTY_4__40->SetBinContent(60,0.02788439);
   SegtoLCTY_4__40->SetBinContent(61,0.0179295);
   SegtoLCTY_4__40->SetBinContent(62,0.01525346);
   SegtoLCTY_4__40->SetBinContent(63,0.01107883);
   SegtoLCTY_4__40->SetBinContent(64,0.01038305);
   SegtoLCTY_4__40->SetBinContent(65,0.007599968);
   SegtoLCTY_4__40->SetBinContent(66,0.007225321);
   SegtoLCTY_4__40->SetBinContent(67,0.005833778);
   SegtoLCTY_4__40->SetBinContent(68,0.005405611);
   SegtoLCTY_4__40->SetBinContent(69,0.003639421);
   SegtoLCTY_4__40->SetBinContent(70,0.002676045);
   SegtoLCTY_4__40->SetBinContent(71,0.003157733);
   SegtoLCTY_4__40->SetBinContent(72,0.002676045);
   SegtoLCTY_4__40->SetBinContent(73,0.002194357);
   SegtoLCTY_4__40->SetBinContent(74,0.001819711);
   SegtoLCTY_4__40->SetBinContent(75,0.002301399);
   SegtoLCTY_4__40->SetBinContent(76,0.002087315);
   SegtoLCTY_4__40->SetBinContent(77,0.001926752);
   SegtoLCTY_4__40->SetBinContent(78,0.002140836);
   SegtoLCTY_4__40->SetBinContent(79,0.00176619);
   SegtoLCTY_4__40->SetBinContent(80,0.001552106);
   SegtoLCTY_4__40->SetBinContent(81,0.0009633762);
   SegtoLCTY_4__40->SetBinContent(82,0.001338022);
   SegtoLCTY_4__40->SetBinContent(83,0.00117746);
   SegtoLCTY_4__40->SetBinContent(84,0.001498585);
   SegtoLCTY_4__40->SetBinContent(85,0.00117746);
   SegtoLCTY_4__40->SetBinContent(86,0.000535209);
   SegtoLCTY_4__40->SetBinContent(87,0.001445064);
   SegtoLCTY_4__40->SetBinContent(88,0.001016897);
   SegtoLCTY_4__40->SetBinContent(89,0.00117746);
   SegtoLCTY_4__40->SetBinContent(90,0.00117746);
   SegtoLCTY_4__40->SetBinContent(91,0.0006422508);
   SegtoLCTY_4__40->SetBinContent(92,0.0008028135);
   SegtoLCTY_4__40->SetBinContent(93,0.0009633762);
   SegtoLCTY_4__40->SetBinContent(94,0.0005887299);
   SegtoLCTY_4__40->SetBinContent(95,0.0006957717);
   SegtoLCTY_4__40->SetBinContent(96,0.0009633762);
   SegtoLCTY_4__40->SetBinContent(97,0.001016897);
   SegtoLCTY_4__40->SetBinContent(98,0.0008028135);
   SegtoLCTY_4__40->SetBinContent(99,0.001123939);
   SegtoLCTY_4__40->SetBinContent(100,0.001016897);
   SegtoLCTY_4__40->SetBinContent(101,0.3512041);
   SegtoLCTY_4__40->SetEntries(1890705);
   SegtoLCTY_4__40->SetStats(0);

   ci = TColor::GetColor("#ff0000");
   SegtoLCTY_4__40->SetLineColor(ci);

   ci = TColor::GetColor("#ff0000");
   SegtoLCTY_4__40->SetMarkerColor(ci);
   SegtoLCTY_4__40->GetXaxis()->SetTitle("cm");
   SegtoLCTY_4__40->GetYaxis()->SetTitle("scaled number of entries");
   SegtoLCTY_4__40->Draw("H,same");
   
   leg = new TLegend(0.5,0.7,0.9,0.9,NULL,"brNDC");
   leg->SetBorderSize(1);
   leg->SetTextFont(62);
   leg->SetTextSize(0.02);
   leg->SetLineColor(1);
   leg->SetLineStyle(1);
   leg->SetLineWidth(1);
   leg->SetFillColor(0);
   leg->SetFillStyle(1001);
   entry=leg->AddEntry("SegtoLCTY_1","ME11A: mean:0.1cm;RMS:1.7cm","l");

   ci = TColor::GetColor("#ff00ff");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_2","ME11B: mean:0.2cm;RMS:1.6cm","l");

   ci = TColor::GetColor("#ff9999");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_3","ME12+13: mean:0.5cm;RMS:1.6cm","l");
   entry->SetLineColor(1);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_4","ME2: mean:0.2cm;RMS:1.1cm","l");

   ci = TColor::GetColor("#ff0000");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_5","ME3: mean:-0.1cm;RMS:1.1cm","l");

   ci = TColor::GetColor("#00ff00");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_6","ME4: mean:-0.1cm;RMS:1.2cm","l");

   ci = TColor::GetColor("#0000ff");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   leg->Draw();
   
   TH1D *SegtoLCTY_5__41 = new TH1D("SegtoLCTY_5__41","SegtoLCTY",100,-40,40);
   SegtoLCTY_5__41->SetBinContent(0,0.5244401);
   SegtoLCTY_5__41->SetBinContent(1,0.0003618825);
   SegtoLCTY_5__41->SetBinContent(2,0.000289506);
   SegtoLCTY_5__41->SetBinContent(3,0.0003618825);
   SegtoLCTY_5__41->SetBinContent(4,0.0005066355);
   SegtoLCTY_5__41->SetBinContent(5,0.0003618825);
   SegtoLCTY_5__41->SetBinContent(6,0.0003618825);
   SegtoLCTY_5__41->SetBinContent(7,0.000434259);
   SegtoLCTY_5__41->SetBinContent(8,0.0002171295);
   SegtoLCTY_5__41->SetBinContent(9,0.0007961415);
   SegtoLCTY_5__41->SetBinContent(10,0.000434259);
   SegtoLCTY_5__41->SetBinContent(11,0.000289506);
   SegtoLCTY_5__41->SetBinContent(12,0.0003618825);
   SegtoLCTY_5__41->SetBinContent(13,0.0003618825);
   SegtoLCTY_5__41->SetBinContent(14,0.000868518);
   SegtoLCTY_5__41->SetBinContent(15,0.0006513885);
   SegtoLCTY_5__41->SetBinContent(16,0.0006513885);
   SegtoLCTY_5__41->SetBinContent(17,0.0009408945);
   SegtoLCTY_5__41->SetBinContent(18,0.0009408945);
   SegtoLCTY_5__41->SetBinContent(19,0.0007961415);
   SegtoLCTY_5__41->SetBinContent(20,0.001085647);
   SegtoLCTY_5__41->SetBinContent(21,0.0003618825);
   SegtoLCTY_5__41->SetBinContent(22,0.0012304);
   SegtoLCTY_5__41->SetBinContent(23,0.0009408945);
   SegtoLCTY_5__41->SetBinContent(24,0.001302777);
   SegtoLCTY_5__41->SetBinContent(25,0.002026542);
   SegtoLCTY_5__41->SetBinContent(26,0.0009408945);
   SegtoLCTY_5__41->SetBinContent(27,0.002098918);
   SegtoLCTY_5__41->SetBinContent(28,0.001809412);
   SegtoLCTY_5__41->SetBinContent(29,0.00144753);
   SegtoLCTY_5__41->SetBinContent(30,0.001664659);
   SegtoLCTY_5__41->SetBinContent(31,0.00267793);
   SegtoLCTY_5__41->SetBinContent(32,0.00267793);
   SegtoLCTY_5__41->SetBinContent(33,0.002098918);
   SegtoLCTY_5__41->SetBinContent(34,0.002967436);
   SegtoLCTY_5__41->SetBinContent(35,0.004197837);
   SegtoLCTY_5__41->SetBinContent(36,0.004632096);
   SegtoLCTY_5__41->SetBinContent(37,0.004776849);
   SegtoLCTY_5__41->SetBinContent(38,0.005717743);
   SegtoLCTY_5__41->SetBinContent(39,0.0135344);
   SegtoLCTY_5__41->SetBinContent(40,0.01179737);
   SegtoLCTY_5__41->SetBinContent(41,0.01150786);
   SegtoLCTY_5__41->SetBinContent(42,0.01331728);
   SegtoLCTY_5__41->SetBinContent(43,0.0193969);
   SegtoLCTY_5__41->SetBinContent(44,0.02258147);
   SegtoLCTY_5__41->SetBinContent(45,0.04031371);
   SegtoLCTY_5__41->SetBinContent(46,0.1180461);
   SegtoLCTY_5__41->SetBinContent(47,3.074409);
   SegtoLCTY_5__41->SetBinContent(48,3.030983);
   SegtoLCTY_5__41->SetBinContent(49,5.040154);
   SegtoLCTY_5__41->SetBinContent(50,10.08465);
   SegtoLCTY_5__41->SetBinContent(51,70.76684);
   SegtoLCTY_5__41->SetBinContent(52,3.508089);
   SegtoLCTY_5__41->SetBinContent(53,3.107702);
   SegtoLCTY_5__41->SetBinContent(54,0.5185776);
   SegtoLCTY_5__41->SetBinContent(55,0.1874551);
   SegtoLCTY_5__41->SetBinContent(56,0.1121836);
   SegtoLCTY_5__41->SetBinContent(57,0.06492172);
   SegtoLCTY_5__41->SetBinContent(58,0.04552482);
   SegtoLCTY_5__41->SetBinContent(59,0.03242467);
   SegtoLCTY_5__41->SetBinContent(60,0.02258147);
   SegtoLCTY_5__41->SetBinContent(61,0.01787699);
   SegtoLCTY_5__41->SetBinContent(62,0.0132449);
   SegtoLCTY_5__41->SetBinContent(63,0.008395674);
   SegtoLCTY_5__41->SetBinContent(64,0.006369132);
   SegtoLCTY_5__41->SetBinContent(65,0.00579012);
   SegtoLCTY_5__41->SetBinContent(66,0.003908331);
   SegtoLCTY_5__41->SetBinContent(67,0.004921602);
   SegtoLCTY_5__41->SetBinContent(68,0.002388424);
   SegtoLCTY_5__41->SetBinContent(69,0.003329319);
   SegtoLCTY_5__41->SetBinContent(70,0.002822683);
   SegtoLCTY_5__41->SetBinContent(71,0.002533177);
   SegtoLCTY_5__41->SetBinContent(72,0.001809412);
   SegtoLCTY_5__41->SetBinContent(73,0.002243671);
   SegtoLCTY_5__41->SetBinContent(74,0.001519906);
   SegtoLCTY_5__41->SetBinContent(75,0.00144753);
   SegtoLCTY_5__41->SetBinContent(76,0.001013271);
   SegtoLCTY_5__41->SetBinContent(77,0.0012304);
   SegtoLCTY_5__41->SetBinContent(78,0.000868518);
   SegtoLCTY_5__41->SetBinContent(79,0.001302777);
   SegtoLCTY_5__41->SetBinContent(80,0.000868518);
   SegtoLCTY_5__41->SetBinContent(81,0.001085647);
   SegtoLCTY_5__41->SetBinContent(82,0.001375153);
   SegtoLCTY_5__41->SetBinContent(83,0.0006513885);
   SegtoLCTY_5__41->SetBinContent(84,0.0007961415);
   SegtoLCTY_5__41->SetBinContent(85,0.0007961415);
   SegtoLCTY_5__41->SetBinContent(86,0.000579012);
   SegtoLCTY_5__41->SetBinContent(87,0.0007961415);
   SegtoLCTY_5__41->SetBinContent(88,0.001085647);
   SegtoLCTY_5__41->SetBinContent(89,0.0009408945);
   SegtoLCTY_5__41->SetBinContent(90,0.001085647);
   SegtoLCTY_5__41->SetBinContent(91,0.000434259);
   SegtoLCTY_5__41->SetBinContent(92,0.0006513885);
   SegtoLCTY_5__41->SetBinContent(93,0.000434259);
   SegtoLCTY_5__41->SetBinContent(94,0.0006513885);
   SegtoLCTY_5__41->SetBinContent(95,0.0006513885);
   SegtoLCTY_5__41->SetBinContent(96,0.000723765);
   SegtoLCTY_5__41->SetBinContent(97,0.000434259);
   SegtoLCTY_5__41->SetBinContent(98,0.0005066355);
   SegtoLCTY_5__41->SetBinContent(99,0.0003618825);
   SegtoLCTY_5__41->SetBinContent(100,0.000434259);
   SegtoLCTY_5__41->SetBinContent(101,0.4193494);
   SegtoLCTY_5__41->SetEntries(1394704);
   SegtoLCTY_5__41->SetStats(0);

   ci = TColor::GetColor("#00ff00");
   SegtoLCTY_5__41->SetLineColor(ci);

   ci = TColor::GetColor("#00ff00");
   SegtoLCTY_5__41->SetMarkerColor(ci);
   SegtoLCTY_5__41->GetXaxis()->SetTitle("cm");
   SegtoLCTY_5__41->GetYaxis()->SetTitle("scaled number of entries");
   SegtoLCTY_5__41->Draw("H,same");
   
   leg = new TLegend(0.5,0.7,0.9,0.9,NULL,"brNDC");
   leg->SetBorderSize(1);
   leg->SetTextFont(62);
   leg->SetTextSize(0.02);
   leg->SetLineColor(1);
   leg->SetLineStyle(1);
   leg->SetLineWidth(1);
   leg->SetFillColor(0);
   leg->SetFillStyle(1001);
   entry=leg->AddEntry("SegtoLCTY_1","ME11A: mean:0.1cm;RMS:1.7cm","l");

   ci = TColor::GetColor("#ff00ff");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_2","ME11B: mean:0.2cm;RMS:1.6cm","l");

   ci = TColor::GetColor("#ff9999");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_3","ME12+13: mean:0.5cm;RMS:1.6cm","l");
   entry->SetLineColor(1);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_4","ME2: mean:0.2cm;RMS:1.1cm","l");

   ci = TColor::GetColor("#ff0000");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_5","ME3: mean:-0.1cm;RMS:1.1cm","l");

   ci = TColor::GetColor("#00ff00");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_6","ME4: mean:-0.1cm;RMS:1.2cm","l");

   ci = TColor::GetColor("#0000ff");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   leg->Draw();
   
   TH1D *SegtoLCTY_6__42 = new TH1D("SegtoLCTY_6__42","SegtoLCTY",100,-40,40);
   SegtoLCTY_6__42->SetBinContent(0,0.2770893);
   SegtoLCTY_6__42->SetBinContent(1,0.0004566402);
   SegtoLCTY_6__42->SetBinContent(2,0.0001826561);
   SegtoLCTY_6__42->SetBinContent(3,0.0003653122);
   SegtoLCTY_6__42->SetBinContent(4,9.132804e-05);
   SegtoLCTY_6__42->SetBinContent(5,0.0002739841);
   SegtoLCTY_6__42->SetBinContent(6,0.0001826561);
   SegtoLCTY_6__42->SetBinContent(7,0.0004566402);
   SegtoLCTY_6__42->SetBinContent(8,0.0002739841);
   SegtoLCTY_6__42->SetBinContent(9,0.0005479682);
   SegtoLCTY_6__42->SetBinContent(10,0.0004566402);
   SegtoLCTY_6__42->SetBinContent(11,0.0002739841);
   SegtoLCTY_6__42->SetBinContent(12,0.0005479682);
   SegtoLCTY_6__42->SetBinContent(13,0.0006392963);
   SegtoLCTY_6__42->SetBinContent(14,0.0006392963);
   SegtoLCTY_6__42->SetBinContent(15,0.0008219523);
   SegtoLCTY_6__42->SetBinContent(16,9.132804e-05);
   SegtoLCTY_6__42->SetBinContent(17,0.0002739841);
   SegtoLCTY_6__42->SetBinContent(18,0.0009132804);
   SegtoLCTY_6__42->SetBinContent(19,0.0005479682);
   SegtoLCTY_6__42->SetBinContent(20,0.0008219523);
   SegtoLCTY_6__42->SetBinContent(21,0.001004608);
   SegtoLCTY_6__42->SetBinContent(22,0.0006392963);
   SegtoLCTY_6__42->SetBinContent(23,0.001278593);
   SegtoLCTY_6__42->SetBinContent(24,0.0009132804);
   SegtoLCTY_6__42->SetBinContent(25,0.001278593);
   SegtoLCTY_6__42->SetBinContent(26,0.001004608);
   SegtoLCTY_6__42->SetBinContent(27,0.0008219523);
   SegtoLCTY_6__42->SetBinContent(28,0.001552577);
   SegtoLCTY_6__42->SetBinContent(29,0.001369921);
   SegtoLCTY_6__42->SetBinContent(30,0.002009217);
   SegtoLCTY_6__42->SetBinContent(31,0.002009217);
   SegtoLCTY_6__42->SetBinContent(32,0.002465857);
   SegtoLCTY_6__42->SetBinContent(33,0.002465857);
   SegtoLCTY_6__42->SetBinContent(34,0.002922497);
   SegtoLCTY_6__42->SetBinContent(35,0.003379137);
   SegtoLCTY_6__42->SetBinContent(36,0.003470465);
   SegtoLCTY_6__42->SetBinContent(37,0.005844994);
   SegtoLCTY_6__42->SetBinContent(38,0.007032259);
   SegtoLCTY_6__42->SetBinContent(39,0.01324257);
   SegtoLCTY_6__42->SetBinContent(40,0.0104114);
   SegtoLCTY_6__42->SetBinContent(41,0.0126946);
   SegtoLCTY_6__42->SetBinContent(42,0.0120553);
   SegtoLCTY_6__42->SetBinContent(43,0.02164474);
   SegtoLCTY_6__42->SetBinContent(44,0.02803771);
   SegtoLCTY_6__42->SetBinContent(45,0.04338082);
   SegtoLCTY_6__42->SetBinContent(46,0.114708);
   SegtoLCTY_6__42->SetBinContent(47,3.722987);
   SegtoLCTY_6__42->SetBinContent(48,4.052682);
   SegtoLCTY_6__42->SetBinContent(49,4.146202);
   SegtoLCTY_6__42->SetBinContent(50,11.80935);
   SegtoLCTY_6__42->SetBinContent(51,66.46654);
   SegtoLCTY_6__42->SetBinContent(52,3.982907);
   SegtoLCTY_6__42->SetBinContent(53,4.192048);
   SegtoLCTY_6__42->SetBinContent(54,0.6763754);
   SegtoLCTY_6__42->SetBinContent(55,0.2176347);
   SegtoLCTY_6__42->SetBinContent(56,0.1273113);
   SegtoLCTY_6__42->SetBinContent(57,0.0788161);
   SegtoLCTY_6__42->SetBinContent(58,0.05004776);
   SegtoLCTY_6__42->SetBinContent(59,0.03607457);
   SegtoLCTY_6__42->SetBinContent(60,0.02538919);
   SegtoLCTY_6__42->SetBinContent(61,0.02146209);
   SegtoLCTY_6__42->SetBinContent(62,0.01397319);
   SegtoLCTY_6__42->SetBinContent(63,0.01159866);
   SegtoLCTY_6__42->SetBinContent(64,0.01013741);
   SegtoLCTY_6__42->SetBinContent(65,0.005844994);
   SegtoLCTY_6__42->SetBinContent(66,0.005388354);
   SegtoLCTY_6__42->SetBinContent(67,0.004018434);
   SegtoLCTY_6__42->SetBinContent(68,0.004840386);
   SegtoLCTY_6__42->SetBinContent(69,0.002374529);
   SegtoLCTY_6__42->SetBinContent(70,0.003379137);
   SegtoLCTY_6__42->SetBinContent(71,0.002465857);
   SegtoLCTY_6__42->SetBinContent(72,0.001826561);
   SegtoLCTY_6__42->SetBinContent(73,0.003013825);
   SegtoLCTY_6__42->SetBinContent(74,0.001552577);
   SegtoLCTY_6__42->SetBinContent(75,0.001187264);
   SegtoLCTY_6__42->SetBinContent(76,0.001187264);
   SegtoLCTY_6__42->SetBinContent(77,0.0009132804);
   SegtoLCTY_6__42->SetBinContent(78,0.0008219523);
   SegtoLCTY_6__42->SetBinContent(79,0.001004608);
   SegtoLCTY_6__42->SetBinContent(80,0.0004566402);
   SegtoLCTY_6__42->SetBinContent(81,0.0009132804);
   SegtoLCTY_6__42->SetBinContent(82,0.0009132804);
   SegtoLCTY_6__42->SetBinContent(83,0.0005479682);
   SegtoLCTY_6__42->SetBinContent(84,0.0004566402);
   SegtoLCTY_6__42->SetBinContent(85,0.0003653122);
   SegtoLCTY_6__42->SetBinContent(86,0.0007306243);
   SegtoLCTY_6__42->SetBinContent(87,0.001095936);
   SegtoLCTY_6__42->SetBinContent(88,0.0006392963);
   SegtoLCTY_6__42->SetBinContent(89,0.0005479682);
   SegtoLCTY_6__42->SetBinContent(90,0.0004566402);
   SegtoLCTY_6__42->SetBinContent(91,9.132804e-05);
   SegtoLCTY_6__42->SetBinContent(92,0.0004566402);
   SegtoLCTY_6__42->SetBinContent(93,0.0006392963);
   SegtoLCTY_6__42->SetBinContent(94,0.0003653122);
   SegtoLCTY_6__42->SetBinContent(95,0.0004566402);
   SegtoLCTY_6__42->SetBinContent(96,0.0005479682);
   SegtoLCTY_6__42->SetBinContent(97,0.001004608);
   SegtoLCTY_6__42->SetBinContent(98,0.0001826561);
   SegtoLCTY_6__42->SetBinContent(99,0.0006392963);
   SegtoLCTY_6__42->SetBinContent(100,0.0006392963);
   SegtoLCTY_6__42->SetBinContent(101,0.3928932);
   SegtoLCTY_6__42->SetEntries(1102290);
   SegtoLCTY_6__42->SetStats(0);

   ci = TColor::GetColor("#0000ff");
   SegtoLCTY_6__42->SetLineColor(ci);

   ci = TColor::GetColor("#0000ff");
   SegtoLCTY_6__42->SetMarkerColor(ci);
   SegtoLCTY_6__42->GetXaxis()->SetTitle("cm");
   SegtoLCTY_6__42->GetYaxis()->SetTitle("scaled number of entries");
   SegtoLCTY_6__42->Draw("H,same");
   
   leg = new TLegend(0.5,0.7,0.9,0.9,NULL,"brNDC");
   leg->SetBorderSize(1);
   leg->SetTextFont(62);
   leg->SetTextSize(0.02);
   leg->SetLineColor(1);
   leg->SetLineStyle(1);
   leg->SetLineWidth(1);
   leg->SetFillColor(0);
   leg->SetFillStyle(1001);
   entry=leg->AddEntry("SegtoLCTY_1","ME11A: mean:0.1cm;RMS:1.7cm","l");

   ci = TColor::GetColor("#ff00ff");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_2","ME11B: mean:0.2cm;RMS:1.6cm","l");

   ci = TColor::GetColor("#ff9999");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_3","ME12+13: mean:0.5cm;RMS:1.6cm","l");
   entry->SetLineColor(1);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_4","ME2: mean:0.2cm;RMS:1.1cm","l");

   ci = TColor::GetColor("#ff0000");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_5","ME3: mean:-0.1cm;RMS:1.1cm","l");

   ci = TColor::GetColor("#00ff00");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   entry=leg->AddEntry("SegtoLCTY_6","ME4: mean:-0.1cm;RMS:1.2cm","l");

   ci = TColor::GetColor("#0000ff");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);
   entry->SetMarkerColor(1);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(62);
   leg->Draw();
   
   TPaveText *pt = new TPaveText(0.01,0.9390678,0.2699194,0.995,"blNDC");
   pt->SetName("title");
   pt->SetBorderSize(1);
   pt->SetFillColor(0);
   TText *AText = pt->AddText("SegtoLCTY");
   pt->Draw();
   SegtoLCTY->Modified();
   SegtoLCTY->cd();
   SegtoLCTY->SetSelected(SegtoLCTY);
}
Beispiel #28
0
void plotDistribution( TChain* data , TChain *mc , TCut sel , TCut vtxweight , char* var , int nbins , float xmin , float xmax , char* xtitle , char* plottitle = "" , bool printplot = false , bool residual = false , bool log = false ){

  //--------------------------------------
  // define histograms and TGraphs
  //--------------------------------------

  TH1F* hdata      = new TH1F(Form("hdata_%i"     , iplot),Form("hdata_%i"    , iplot),nbins,xmin,xmax);
  TH1F* hmc        = new TH1F(Form("hmc_%i"       , iplot),Form("hmc_%i"      , iplot),nbins,xmin,xmax);
  TH1F* hmc_novtx  = new TH1F(Form("hmc_novtx_%i" , iplot),Form("hmc_novtx%i" , iplot),nbins,xmin,xmax);

  hdata->Sumw2();
  hmc->Sumw2();

  TGraphAsymmErrors* grdata = new TGraphAsymmErrors();
  TGraphAsymmErrors* grmc   = new TGraphAsymmErrors();

  TH1F* hdata_denom = new TH1F(Form("hdata_denom_%i",iplot),"",nbins,xmin,xmax);
  TH1F* hmc_denom   = new TH1F(Form("hmc_denom_%i"  ,iplot),"",nbins,xmin,xmax);

  //--------------------------------------
  // set up canvas and pads
  //--------------------------------------

  TCanvas *can = new TCanvas(Form("can_%i",iplot),Form("can_%i",iplot),600,600);
  can->cd();
  if( log ) gPad->SetLogy();

  TPad *mainpad = new TPad("mainpad","mainpad",0.0,0.0,1.0,0.8);

  if( residual ){
    mainpad->Draw();
    mainpad->cd();
    if( log ) mainpad->SetLogy();
  }

  //--------------------------------------
  // fill histos and TGraphs
  //--------------------------------------

  data->Draw(Form("min(%s,%f)>>hdata_%i"     , var,xmax-0.0001,iplot),sel);
  mc  ->Draw(Form("min(%s,%f)>>hmc_%i"       , var,xmax-0.0001,iplot),sel*vtxweight);
  mc  ->Draw(Form("min(%s,%f)>>hmc_novtx_%i" , var,xmax-0.0001,iplot),sel);

  for( int ibin = 1 ; ibin <= nbins ; ibin++ ){
    hdata_denom->SetBinContent(ibin,hdata->Integral());
    hmc_denom->SetBinContent(ibin,hmc->Integral());
  }

  grdata->BayesDivide(hdata,hdata_denom);
  grmc->BayesDivide(hmc_novtx,hmc_denom);

  //--------------------------------------
  // get efficiencies and errors
  //--------------------------------------

  /*
  float ndata1     = (float) hdata->GetBinContent(1);
  float ndata      = (float) hdata->Integral();
  float effdata    = 1-ndata1 / ndata;

  // TGraphAsymmErrors* grdata_temp = new TGraphAsymmErrors();
  // TH1F* hdata_num_temp = new TH1F(Form("hdata_num_temp_%i",iplot),"",1,0,1);
  // TH1F* hdata_den_temp = new TH1F(Form("hdata_den_temp_%i",iplot),"",1,0,1);
  // hdata_num_temp->SetBinContent(1,ndata-ndata1);
  // hdata_den_temp->SetBinContent(1,ndata);
  // grdata_temp->BayesDivide(hdata_num_temp,hdata_den_temp);

  //float effdataerr = sqrt(ndata1) / ndata;
  float effdataerr = 0.5 * ( grdata->GetErrorYlow(0) + grdata->GetErrorYhigh(0) );
  //float effdataerr = 0.5 * ( grdata_temp->GetErrorYlow(0) + grdata_temp->GetErrorYhigh(0) );

  float nmc1       = (float) hmc->GetBinContent(1);
  float nmc        = (float) hmc->Integral();
  float effmc      = 1-nmc1 / nmc;
  //float effmcerr   = hmc->GetBinError(1) / nmc;
  float effmcerr   = 0.5 * ( grmc->GetErrorYlow(0) + grmc->GetErrorYhigh(0) );


  float datatot = hdata->Integral();
  float mctot   = hmc->Integral();
  
  cout << endl;
  cout << plottitle << endl;

  cout << "Data eff  " << Form("%.2f +/- %.3f",effdata,effdataerr) << endl;
  cout << "MC   eff  " << Form("%.2f +/- %.3f",effmc  ,effmcerr)   << endl;
  cout << "Data/MC   " << Form("%.2f +/- %.2f",ratio  ,ratioerr)   << endl;
  */

  float ndata    = hdata->Integral();
  float ndata1   = hdata->Integral(2,20);
  float ndata2   = hdata->Integral(3,20);
  float ndata3   = hdata->Integral(4,20);
  float ndata4   = hdata->Integral(5,20);
  float ndata5   = hdata->Integral(6,20);

  float nmc      = hmc->Integral();
  float nmc1     = hmc->Integral(2,20);
  float nmc2     = hmc->Integral(3,20);
  float nmc3     = hmc->Integral(4,20);
  float nmc4     = hmc->Integral(5,20);
  float nmc5     = hmc->Integral(6,20);

  float effdata1 = ndata1/ndata;
  float effdata2 = ndata2/ndata;
  float effdata3 = ndata3/ndata;
  float effdata4 = ndata4/ndata;
  float effdata5 = ndata5/ndata;

  float effmc1   = nmc1/nmc;
  float effmc2   = nmc2/nmc;
  float effmc3   = nmc3/nmc;
  float effmc4   = nmc4/nmc;
  float effmc5   = nmc5/nmc;

  float effdata1err = getBinomialError(ndata1,ndata);
  float effdata2err = getBinomialError(ndata2,ndata);
  float effdata3err = getBinomialError(ndata3,ndata);
  float effdata4err = getBinomialError(ndata4,ndata);
  float effdata5err = getBinomialError(ndata5,ndata);

  float effmc1err   = getBinomialError(nmc1,nmc);
  float effmc2err   = getBinomialError(nmc2,nmc);
  float effmc3err   = getBinomialError(nmc3,nmc);
  float effmc4err   = getBinomialError(nmc4,nmc);
  float effmc5err   = getBinomialError(nmc5,nmc);

  float ratio1      = effdata1/effmc1;
  float ratio2      = effdata2/effmc2;
  float ratio3      = effdata3/effmc3;
  float ratio4      = effdata4/effmc4;
  float ratio5      = effdata5/effmc5;

  float ratio1err   = ratio1 * sqrt(pow(effdata1err/effdata1,2)+pow(effmc1err/effmc1,2));
  float ratio2err   = ratio2 * sqrt(pow(effdata2err/effdata2,2)+pow(effmc2err/effmc2,2));
  float ratio3err   = ratio3 * sqrt(pow(effdata3err/effdata3,2)+pow(effmc3err/effmc3,2));
  float ratio4err   = ratio4 * sqrt(pow(effdata4err/effdata4,2)+pow(effmc4err/effmc4,2));
  float ratio5err   = ratio5 * sqrt(pow(effdata5err/effdata5,2)+pow(effmc5err/effmc5,2));

  //cout << endl << endl << plottitle << endl;

  int left = 20;


  // char* delimstart = "|";
  // char* delim      = "|";
  // char* delimend   = "|";
  // char* pm         = "+/-";

  char* delimstart = "";
  char* delim      = "&";
  char* delimend   = "\\\\";
  char* pm         = "$\\pm$";
  char* hline      = "\\hline";

  cout << endl;
  cout << hline << endl;
  cout << hline << endl;
  cout << delimstart << setw(10) << histLabel(plottitle) << setw(4)
       << delim << setw(left) << "$>$ 1 GeV" << setw(4)
       << delim << setw(left) << "$>$ 2 GeV" << setw(4)
       << delim << setw(left) << "$>$ 3 GeV" << setw(4) 
       << delim << setw(left) << "$>$ 4 GeV" << setw(4)
       << delim << setw(left) << "$>$ 5 GeV" << setw(4) 
       << delimend << endl;

  cout << hline << endl;
  cout << delimstart << setw(10) << "data" << setw(4)
       << delim << setw(left) << Form("%.3f %s %.4f",effdata1,pm,effdata1err) << setw(4)
       << delim << setw(left) << Form("%.3f %s %.4f",effdata2,pm,effdata2err) << setw(4)
       << delim << setw(left) << Form("%.3f %s %.4f",effdata3,pm,effdata3err) << setw(4) 
       << delim << setw(left) << Form("%.3f %s %.4f",effdata4,pm,effdata4err) << setw(4)
       << delim << setw(left) << Form("%.3f %s %.4f",effdata5,pm,effdata5err) << setw(4) 
       << delimend << endl;

  cout << delimstart << setw(10) << "mc" << setw(4)
       << delim << setw(left) << Form("%.3f %s %.4f",effmc1,pm,effmc1err) << setw(4)
       << delim << setw(left) << Form("%.3f %s %.4f",effmc2,pm,effmc2err) << setw(4)
       << delim << setw(left) << Form("%.3f %s %.4f",effmc3,pm,effmc3err) << setw(4) 
       << delim << setw(left) << Form("%.3f %s %.4f",effmc4,pm,effmc4err) << setw(4)
       << delim << setw(left) << Form("%.3f %s %.4f",effmc5,pm,effmc5err) << setw(4) 
       << delimend << endl;

  cout << delimstart << setw(10) << "data/mc" << setw(4)
       << delim << setw(left) << Form("%.2f %s %.2f",ratio1,pm,ratio1err) << setw(4)
       << delim << setw(left) << Form("%.2f %s %.2f",ratio2,pm,ratio2err) << setw(4)
       << delim << setw(left) << Form("%.2f %s %.2f",ratio3,pm,ratio3err) << setw(4) 
       << delim << setw(left) << Form("%.2f %s %.2f",ratio4,pm,ratio4err) << setw(4)
       << delim << setw(left) << Form("%.2f %s %.2f",ratio5,pm,ratio5err) << setw(4) 
       << delimend << endl;

  //--------------------------------------
  // draw stuff
  //--------------------------------------

  hdata->Scale(1.0/hdata->Integral());
  hmc->Scale(1.0/hmc->Integral());

  if( log ) hmc->GetYaxis()->SetRangeUser(0.0001,5);  
  else      hmc->GetYaxis()->SetRangeUser(0.0,1);  

  hmc->GetXaxis()->SetTitle(xtitle);
  hmc->SetLineColor(2);
  hmc->SetMarkerColor(2);
  hmc->DrawNormalized("hist");
  hmc->DrawNormalized("sameE1");
  hdata->SetLineColor(4);
  hdata->SetMarkerColor(4);
  hdata->Draw("sameE1");

  grdata->SetLineColor(6);
  grmc->SetLineColor(7);
  //grdata->Draw("sameP");
  //grmc->Draw("sameP");

  TLegend *leg = new TLegend(0.6,0.7,0.8,0.9);
  leg->AddEntry(hdata , "data" , "lp");
  leg->AddEntry(hmc   , "MC"   , "lp");
  leg->SetBorderSize(0);
  leg->SetFillColor(0);			       
  leg->Draw();

  TLatex *t = new TLatex();
  t->SetNDC();

  if( TString(plottitle).Contains("el") ) t->DrawLatex(0.6,0.6,"electrons");
  if( TString(plottitle).Contains("mu") ) t->DrawLatex(0.6,0.6,"muons");

  if( TString(plottitle).Contains("0j") ) t->DrawLatex(0.6,0.5,"n_{jets} #geq 0");
  if( TString(plottitle).Contains("1j") ) t->DrawLatex(0.6,0.5,"n_{jets} #geq 1");
  if( TString(plottitle).Contains("2j") ) t->DrawLatex(0.6,0.5,"n_{jets} #geq 2");
  if( TString(plottitle).Contains("3j") ) t->DrawLatex(0.6,0.5,"n_{jets} #geq 3");
  if( TString(plottitle).Contains("4j") ) t->DrawLatex(0.6,0.5,"n_{jets} #geq 4");

  //--------------------------------------
  // draw residual plots
  //--------------------------------------

  if( residual ){
    can->cd();
  
    TPad *respad = new TPad("respad","respad",0.0,0.8,1.0,1.0);
    respad->Draw();
    respad->cd();
    respad->SetGridy();

    TH1F* hratio = (TH1F*) hdata->Clone(Form("hratio_%i",iplot));
    hratio->Divide(hmc);

    hratio->SetMarkerColor(1);
    hratio->SetLineColor(1);
    hratio->Draw();
    hratio->GetYaxis()->SetRangeUser(0.5,1.5);
    hratio->GetYaxis()->SetNdivisions(5);
    hratio->GetYaxis()->SetLabelSize(0.2);
    hratio->GetXaxis()->SetLabelSize(0.0);
  
    TLine line;
    line.DrawLine(xmin,1.0,xmax,1.0);
  }
  
  //data->Scan("run:lumi:event:probe->pt():probe->eta():tkisonew:met:mt:njets:nbl:nbm",sel+"tkisonew>20");
  //data->Scan("run:lumi:event:probe->pt():probe->eta():tkisonew:met:mt:njets:nbl:nbm",sel);

  if( printplot ) can->Print(Form("plots/%s.pdf",plottitle));

  iplot++;

  // TCanvas *c2 = new TCanvas();
  // c2->cd();
  // grdata->Draw("AP");

}
void VBFDeltaEta()
{
//=========Macro generated from canvas: VBFDeltaEta/VBFDeltaEta
//=========  (Wed Nov  4 11:47:03 2015) by ROOT version6.02/05
   TCanvas *VBFDeltaEta = new TCanvas("VBFDeltaEta", "VBFDeltaEta",220,242,700,700);
   VBFDeltaEta->Range(-12.5,-5.529375,12.5,2.023205);
   VBFDeltaEta->SetFillColor(0);
   VBFDeltaEta->SetBorderMode(0);
   VBFDeltaEta->SetBorderSize(2);
   VBFDeltaEta->SetLogy();
   VBFDeltaEta->SetFrameBorderMode(0);
   VBFDeltaEta->SetFrameBorderMode(0);
   
   THStack *VBFDeltaEta = new THStack();
   VBFDeltaEta->SetName("VBFDeltaEta");
   VBFDeltaEta->SetTitle("VBFDeltaEta");
   
   TH1F *VBFDeltaEta_stack_12 = new TH1F("VBFDeltaEta_stack_12","VBFDeltaEta",20,-10,10);
   VBFDeltaEta_stack_12->SetMinimum(1.682221e-05);
   VBFDeltaEta_stack_12->SetMaximum(18.53305);
   VBFDeltaEta_stack_12->SetDirectory(0);
   VBFDeltaEta_stack_12->SetStats(0);

   Int_t ci;      // for color index setting
   TColor *color; // for color definition with alpha
   ci = TColor::GetColor("#000099");
   VBFDeltaEta_stack_12->SetLineColor(ci);
   VBFDeltaEta_stack_12->GetXaxis()->SetTitle("VBFDeltaEta");
   VBFDeltaEta_stack_12->GetXaxis()->SetLabelFont(42);
   VBFDeltaEta_stack_12->GetXaxis()->SetLabelSize(0.035);
   VBFDeltaEta_stack_12->GetXaxis()->SetTitleSize(0.035);
   VBFDeltaEta_stack_12->GetXaxis()->SetTitleFont(42);
   VBFDeltaEta_stack_12->GetYaxis()->SetTitle("Events/pb");
   VBFDeltaEta_stack_12->GetYaxis()->SetLabelFont(42);
   VBFDeltaEta_stack_12->GetYaxis()->SetLabelSize(0.035);
   VBFDeltaEta_stack_12->GetYaxis()->SetTitleSize(0.035);
   VBFDeltaEta_stack_12->GetYaxis()->SetTitleFont(42);
   VBFDeltaEta_stack_12->GetZaxis()->SetLabelFont(42);
   VBFDeltaEta_stack_12->GetZaxis()->SetLabelSize(0.035);
   VBFDeltaEta_stack_12->GetZaxis()->SetTitleSize(0.035);
   VBFDeltaEta_stack_12->GetZaxis()->SetTitleFont(42);
   VBFDeltaEta->SetHistogram(VBFDeltaEta_stack_12);
   
   
   TH1D *VBFDeltaEta56 = new TH1D("VBFDeltaEta56","#Delta_{#eta} + VBF cuts",20,-10,10);
   VBFDeltaEta56->SetBinContent(2,0.02757404);
   VBFDeltaEta56->SetBinContent(3,0.03883215);
   VBFDeltaEta56->SetBinContent(4,0.634203);
   VBFDeltaEta56->SetBinContent(5,5.370436);
   VBFDeltaEta56->SetBinContent(6,3.979399);
   VBFDeltaEta56->SetBinContent(11,6.295011);
   VBFDeltaEta56->SetBinContent(15,1.928552);
   VBFDeltaEta56->SetBinContent(16,5.0433);
   VBFDeltaEta56->SetBinContent(17,3.894055);
   VBFDeltaEta56->SetBinContent(18,0.1366193);
   VBFDeltaEta56->SetBinContent(19,0.003752704);
   VBFDeltaEta56->SetBinContent(20,0.02632314);
   VBFDeltaEta56->SetBinError(2,0.02635285);
   VBFDeltaEta56->SetBinError(3,0.0266187);
   VBFDeltaEta56->SetBinError(4,0.1263838);
   VBFDeltaEta56->SetBinError(5,1.984666);
   VBFDeltaEta56->SetBinError(6,1.622458);
   VBFDeltaEta56->SetBinError(11,1.989275);
   VBFDeltaEta56->SetBinError(15,0.2097407);
   VBFDeltaEta56->SetBinError(16,1.982566);
   VBFDeltaEta56->SetBinError(17,1.975533);
   VBFDeltaEta56->SetBinError(18,0.05891348);
   VBFDeltaEta56->SetBinError(19,0.002166624);
   VBFDeltaEta56->SetBinError(20,0.02632314);
   VBFDeltaEta56->SetEntries(1398);

   ci = TColor::GetColor("#00cc00");
   VBFDeltaEta56->SetFillColor(ci);

   ci = TColor::GetColor("#00cc00");
   VBFDeltaEta56->SetLineColor(ci);

   ci = TColor::GetColor("#00cc00");
   VBFDeltaEta56->SetMarkerColor(ci);
   VBFDeltaEta56->SetMarkerStyle(22);
   VBFDeltaEta56->GetXaxis()->SetTitle("VBFDeltaEta");
   VBFDeltaEta56->GetXaxis()->SetLabelFont(42);
   VBFDeltaEta56->GetXaxis()->SetLabelSize(0.035);
   VBFDeltaEta56->GetXaxis()->SetTitleSize(0.035);
   VBFDeltaEta56->GetXaxis()->SetTitleFont(42);
   VBFDeltaEta56->GetYaxis()->SetTitle("Events/pb");
   VBFDeltaEta56->GetYaxis()->SetLabelFont(42);
   VBFDeltaEta56->GetYaxis()->SetLabelSize(0.035);
   VBFDeltaEta56->GetYaxis()->SetTitleSize(0.035);
   VBFDeltaEta56->GetYaxis()->SetTitleFont(42);
   VBFDeltaEta56->GetZaxis()->SetLabelFont(42);
   VBFDeltaEta56->GetZaxis()->SetLabelSize(0.035);
   VBFDeltaEta56->GetZaxis()->SetTitleSize(0.035);
   VBFDeltaEta56->GetZaxis()->SetTitleFont(42);
   VBFDeltaEta->Add(VBFDeltaEta,"");
   
   TH1D *VBFDeltaEta57 = new TH1D("VBFDeltaEta57","#Delta_{#eta} + VBF cuts",20,-10,10);
   VBFDeltaEta57->SetBinContent(1,0.02028896);
   VBFDeltaEta57->SetBinContent(2,0.08985857);
   VBFDeltaEta57->SetBinContent(3,0.4571356);
   VBFDeltaEta57->SetBinContent(4,1.161785);
   VBFDeltaEta57->SetBinContent(5,3.111093);
   VBFDeltaEta57->SetBinContent(6,3.297386);
   VBFDeltaEta57->SetBinContent(11,9.104142);
   VBFDeltaEta57->SetBinContent(15,3.349544);
   VBFDeltaEta57->SetBinContent(16,2.978421);
   VBFDeltaEta57->SetBinContent(17,1.133212);
   VBFDeltaEta57->SetBinContent(18,0.5140127);
   VBFDeltaEta57->SetBinContent(19,0.0909154);
   VBFDeltaEta57->SetBinContent(20,0.01469553);
   VBFDeltaEta57->SetBinError(1,0.00406594);
   VBFDeltaEta57->SetBinError(2,0.00809007);
   VBFDeltaEta57->SetBinError(3,0.01852798);
   VBFDeltaEta57->SetBinError(4,0.02902226);
   VBFDeltaEta57->SetBinError(5,0.04737842);
   VBFDeltaEta57->SetBinError(6,0.04719168);
   VBFDeltaEta57->SetBinError(11,0.08243018);
   VBFDeltaEta57->SetBinError(15,0.04736777);
   VBFDeltaEta57->SetBinError(16,0.04612548);
   VBFDeltaEta57->SetBinError(17,0.02866639);
   VBFDeltaEta57->SetBinError(18,0.01972925);
   VBFDeltaEta57->SetBinError(19,0.008035675);
   VBFDeltaEta57->SetBinError(20,0.003248628);
   VBFDeltaEta57->SetEntries(106434);

   ci = TColor::GetColor("#00ffff");
   VBFDeltaEta57->SetFillColor(ci);

   ci = TColor::GetColor("#00ffff");
   VBFDeltaEta57->SetLineColor(ci);

   ci = TColor::GetColor("#00ffff");
   VBFDeltaEta57->SetMarkerColor(ci);
   VBFDeltaEta57->SetMarkerStyle(20);
   VBFDeltaEta57->GetXaxis()->SetTitle("VBFDeltaEta");
   VBFDeltaEta57->GetXaxis()->SetLabelFont(42);
   VBFDeltaEta57->GetXaxis()->SetLabelSize(0.035);
   VBFDeltaEta57->GetXaxis()->SetTitleSize(0.035);
   VBFDeltaEta57->GetXaxis()->SetTitleFont(42);
   VBFDeltaEta57->GetYaxis()->SetTitle("Events/pb");
   VBFDeltaEta57->GetYaxis()->SetLabelFont(42);
   VBFDeltaEta57->GetYaxis()->SetLabelSize(0.035);
   VBFDeltaEta57->GetYaxis()->SetTitleSize(0.035);
   VBFDeltaEta57->GetYaxis()->SetTitleFont(42);
   VBFDeltaEta57->GetZaxis()->SetLabelFont(42);
   VBFDeltaEta57->GetZaxis()->SetLabelSize(0.035);
   VBFDeltaEta57->GetZaxis()->SetTitleSize(0.035);
   VBFDeltaEta57->GetZaxis()->SetTitleFont(42);
   VBFDeltaEta->Add(VBFDeltaEta,"");
   
   TH1D *VBFDeltaEta58 = new TH1D("VBFDeltaEta58","#Delta_{#eta} + VBF cuts",20,-10,10);
   VBFDeltaEta58->SetBinContent(1,0.002795082);
   VBFDeltaEta58->SetBinContent(2,0.01316622);
   VBFDeltaEta58->SetBinContent(3,0.0740267);
   VBFDeltaEta58->SetBinContent(4,0.1689951);
   VBFDeltaEta58->SetBinContent(5,0.474113);
   VBFDeltaEta58->SetBinContent(6,0.5076733);
   VBFDeltaEta58->SetBinContent(11,1.595792);
   VBFDeltaEta58->SetBinContent(15,0.5220246);
   VBFDeltaEta58->SetBinContent(16,0.472889);
   VBFDeltaEta58->SetBinContent(17,0.1752986);
   VBFDeltaEta58->SetBinContent(18,0.0716702);
   VBFDeltaEta58->SetBinContent(19,0.01745);
   VBFDeltaEta58->SetBinContent(20,0.003213651);
   VBFDeltaEta58->SetBinError(1,0.0006578478);
   VBFDeltaEta58->SetBinError(2,0.001353033);
   VBFDeltaEta58->SetBinError(3,0.003294266);
   VBFDeltaEta58->SetBinError(4,0.004879182);
   VBFDeltaEta58->SetBinError(5,0.008172085);
   VBFDeltaEta58->SetBinError(6,0.008148824);
   VBFDeltaEta58->SetBinError(11,0.01529831);
   VBFDeltaEta58->SetBinError(15,0.008295855);
   VBFDeltaEta58->SetBinError(16,0.008141481);
   VBFDeltaEta58->SetBinError(17,0.00495115);
   VBFDeltaEta58->SetBinError(18,0.003269719);
   VBFDeltaEta58->SetBinError(19,0.001647783);
   VBFDeltaEta58->SetBinError(20,0.0006736957);
   VBFDeltaEta58->SetEntries(92263);

   ci = TColor::GetColor("#ffcc00");
   VBFDeltaEta58->SetFillColor(ci);

   ci = TColor::GetColor("#ffcc00");
   VBFDeltaEta58->SetLineColor(ci);

   ci = TColor::GetColor("#ffcc00");
   VBFDeltaEta58->SetMarkerColor(ci);
   VBFDeltaEta58->SetMarkerStyle(21);
   VBFDeltaEta58->GetXaxis()->SetTitle("VBFDeltaEta");
   VBFDeltaEta58->GetXaxis()->SetLabelFont(42);
   VBFDeltaEta58->GetXaxis()->SetLabelSize(0.035);
   VBFDeltaEta58->GetXaxis()->SetTitleSize(0.035);
   VBFDeltaEta58->GetXaxis()->SetTitleFont(42);
   VBFDeltaEta58->GetYaxis()->SetTitle("Events/pb");
   VBFDeltaEta58->GetYaxis()->SetLabelFont(42);
   VBFDeltaEta58->GetYaxis()->SetLabelSize(0.035);
   VBFDeltaEta58->GetYaxis()->SetTitleSize(0.035);
   VBFDeltaEta58->GetYaxis()->SetTitleFont(42);
   VBFDeltaEta58->GetZaxis()->SetLabelFont(42);
   VBFDeltaEta58->GetZaxis()->SetLabelSize(0.035);
   VBFDeltaEta58->GetZaxis()->SetTitleSize(0.035);
   VBFDeltaEta58->GetZaxis()->SetTitleFont(42);
   VBFDeltaEta->Add(VBFDeltaEta,"");
   
   TH1D *VBFDeltaEta59 = new TH1D("VBFDeltaEta59","#Delta_{#eta} + VBF cuts",20,-10,10);
   VBFDeltaEta59->SetBinContent(1,0.0002467932);
   VBFDeltaEta59->SetBinContent(2,0.001758402);
   VBFDeltaEta59->SetBinContent(3,0.005568272);
   VBFDeltaEta59->SetBinContent(4,0.01050414);
   VBFDeltaEta59->SetBinContent(5,0.01783081);
   VBFDeltaEta59->SetBinContent(6,0.01866374);
   VBFDeltaEta59->SetBinContent(11,0.02649942);
   VBFDeltaEta59->SetBinContent(15,0.01784623);
   VBFDeltaEta59->SetBinContent(16,0.01798506);
   VBFDeltaEta59->SetBinContent(17,0.01124452);
   VBFDeltaEta59->SetBinContent(18,0.004843317);
   VBFDeltaEta59->SetBinContent(19,0.002082318);
   VBFDeltaEta59->SetBinContent(20,0.0002467932);
   VBFDeltaEta59->SetBinError(1,6.16983e-05);
   VBFDeltaEta59->SetBinError(2,0.0001646894);
   VBFDeltaEta59->SetBinError(3,0.0002930669);
   VBFDeltaEta59->SetBinError(4,0.0004025194);
   VBFDeltaEta59->SetBinError(5,0.0005244356);
   VBFDeltaEta59->SetBinError(6,0.0005365447);
   VBFDeltaEta59->SetBinError(11,0.0006393296);
   VBFDeltaEta59->SetBinError(15,0.0005246624);
   VBFDeltaEta59->SetBinError(16,0.000526699);
   VBFDeltaEta59->SetBinError(17,0.0004164636);
   VBFDeltaEta59->SetBinError(18,0.0002733242);
   VBFDeltaEta59->SetBinError(19,0.0001792174);
   VBFDeltaEta59->SetBinError(20,6.16983e-05);
   VBFDeltaEta59->SetEntries(8773);

   ci = TColor::GetColor("#ff0000");
   VBFDeltaEta59->SetFillColor(ci);

   ci = TColor::GetColor("#ff0000");
   VBFDeltaEta59->SetLineColor(ci);

   ci = TColor::GetColor("#ff0000");
   VBFDeltaEta59->SetMarkerColor(ci);
   VBFDeltaEta59->SetMarkerStyle(20);
   VBFDeltaEta59->GetXaxis()->SetTitle("VBFDeltaEta");
   VBFDeltaEta59->GetXaxis()->SetLabelFont(42);
   VBFDeltaEta59->GetXaxis()->SetLabelSize(0.035);
   VBFDeltaEta59->GetXaxis()->SetTitleSize(0.035);
   VBFDeltaEta59->GetXaxis()->SetTitleFont(42);
   VBFDeltaEta59->GetYaxis()->SetTitle("Events/pb");
   VBFDeltaEta59->GetYaxis()->SetLabelFont(42);
   VBFDeltaEta59->GetYaxis()->SetLabelSize(0.035);
   VBFDeltaEta59->GetYaxis()->SetTitleSize(0.035);
   VBFDeltaEta59->GetYaxis()->SetTitleFont(42);
   VBFDeltaEta59->GetZaxis()->SetLabelFont(42);
   VBFDeltaEta59->GetZaxis()->SetLabelSize(0.035);
   VBFDeltaEta59->GetZaxis()->SetTitleSize(0.035);
   VBFDeltaEta59->GetZaxis()->SetTitleFont(42);
   VBFDeltaEta->Add(VBFDeltaEta,"");
   
   TH1D *VBFDeltaEta60 = new TH1D("VBFDeltaEta60","#Delta_{#eta} + VBF cuts",20,-10,10);
   VBFDeltaEta60->SetBinContent(2,0.0001341732);
   VBFDeltaEta60->SetBinContent(3,0.0003186613);
   VBFDeltaEta60->SetBinContent(4,0.0007211808);
   VBFDeltaEta60->SetBinContent(5,0.001911968);
   VBFDeltaEta60->SetBinContent(6,0.003136298);
   VBFDeltaEta60->SetBinContent(11,0.004327085);
   VBFDeltaEta60->SetBinContent(15,0.003304015);
   VBFDeltaEta60->SetBinContent(16,0.001995826);
   VBFDeltaEta60->SetBinContent(17,0.0008218107);
   VBFDeltaEta60->SetBinContent(18,0.0003522046);
   VBFDeltaEta60->SetBinContent(19,6.708659e-05);
   VBFDeltaEta60->SetBinError(2,4.743738e-05);
   VBFDeltaEta60->SetBinError(3,7.310592e-05);
   VBFDeltaEta60->SetBinError(4,0.000109979);
   VBFDeltaEta60->SetBinError(5,0.0001790722);
   VBFDeltaEta60->SetBinError(6,0.0002293488);
   VBFDeltaEta60->SetBinError(11,0.0002693925);
   VBFDeltaEta60->SetBinError(15,0.0002354013);
   VBFDeltaEta60->SetBinError(16,0.0001829571);
   VBFDeltaEta60->SetBinError(17,0.0001174015);
   VBFDeltaEta60->SetBinError(18,7.685734e-05);
   VBFDeltaEta60->SetBinError(19,3.35433e-05);
   VBFDeltaEta60->SetEntries(1019);

   ci = TColor::GetColor("#0000ff");
   VBFDeltaEta60->SetFillColor(ci);

   ci = TColor::GetColor("#0000ff");
   VBFDeltaEta60->SetLineColor(ci);

   ci = TColor::GetColor("#0000ff");
   VBFDeltaEta60->SetMarkerColor(ci);
   VBFDeltaEta60->SetMarkerStyle(21);
   VBFDeltaEta60->GetXaxis()->SetTitle("VBFDeltaEta");
   VBFDeltaEta60->GetXaxis()->SetLabelFont(42);
   VBFDeltaEta60->GetXaxis()->SetLabelSize(0.035);
   VBFDeltaEta60->GetXaxis()->SetTitleSize(0.035);
   VBFDeltaEta60->GetXaxis()->SetTitleFont(42);
   VBFDeltaEta60->GetYaxis()->SetTitle("Events/pb");
   VBFDeltaEta60->GetYaxis()->SetLabelFont(42);
   VBFDeltaEta60->GetYaxis()->SetLabelSize(0.035);
   VBFDeltaEta60->GetYaxis()->SetTitleSize(0.035);
   VBFDeltaEta60->GetYaxis()->SetTitleFont(42);
   VBFDeltaEta60->GetZaxis()->SetLabelFont(42);
   VBFDeltaEta60->GetZaxis()->SetLabelSize(0.035);
   VBFDeltaEta60->GetZaxis()->SetTitleSize(0.035);
   VBFDeltaEta60->GetZaxis()->SetTitleFont(42);
   VBFDeltaEta->Add(VBFDeltaEta,"");
   VBFDeltaEta->Draw("nostack");
   
   TPaveText *pt = new TPaveText(0.3391379,0.94,0.6608621,0.995,"blNDC");
   pt->SetName("title");
   pt->SetBorderSize(0);
   pt->SetFillColor(0);
   pt->SetFillStyle(0);
   pt->SetTextFont(42);
   TText *AText = pt->AddText("VBFDeltaEta");
   pt->Draw();
   
   TLegend *leg = new TLegend(0.54023,0.639881,0.938218,0.924107,NULL,"brNDC");
   leg->SetBorderSize(1);
   leg->SetTextSize(0.034965);
   leg->SetLineColor(1);
   leg->SetLineStyle(1);
   leg->SetLineWidth(1);
   leg->SetFillColor(0);
   leg->SetFillStyle(1001);
   TLegendEntry *entry=leg->AddEntry("VBFDeltaEta","VBFDeltaEta_QCD","lp");

   ci = TColor::GetColor("#00cc00");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);

   ci = TColor::GetColor("#00cc00");
   entry->SetMarkerColor(ci);
   entry->SetMarkerStyle(22);
   entry->SetMarkerSize(1);
   entry->SetTextFont(42);
   entry=leg->AddEntry("VBFDeltaEta","VBFDeltaEta_WJetsToLNu","lp");

   ci = TColor::GetColor("#00ffff");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);

   ci = TColor::GetColor("#00ffff");
   entry->SetMarkerColor(ci);
   entry->SetMarkerStyle(20);
   entry->SetMarkerSize(1);
   entry->SetTextFont(42);
   entry=leg->AddEntry("VBFDeltaEta","VBFDeltaEta_ZJetsToNuNu","lp");

   ci = TColor::GetColor("#ffcc00");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);

   ci = TColor::GetColor("#ffcc00");
   entry->SetMarkerColor(ci);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(42);
   entry=leg->AddEntry("VBFDeltaEta","VBFDeltaEta_signal","lp");

   ci = TColor::GetColor("#ff0000");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);

   ci = TColor::GetColor("#ff0000");
   entry->SetMarkerColor(ci);
   entry->SetMarkerStyle(20);
   entry->SetMarkerSize(1);
   entry->SetTextFont(42);
   entry=leg->AddEntry("VBFDeltaEta","VBFDeltaEta_ttbar","lp");

   ci = TColor::GetColor("#0000ff");
   entry->SetLineColor(ci);
   entry->SetLineStyle(1);
   entry->SetLineWidth(1);

   ci = TColor::GetColor("#0000ff");
   entry->SetMarkerColor(ci);
   entry->SetMarkerStyle(21);
   entry->SetMarkerSize(1);
   entry->SetTextFont(42);
   leg->Draw();
   VBFDeltaEta->Modified();
   VBFDeltaEta->cd();
   VBFDeltaEta->SetSelected(VBFDeltaEta);
}
void drawGraphs(TGraphErrors* data, TGraphErrors* mc, const std::string& method, const std::string& xTitle, const std::string& yTitle, const std::string& legendTitle, double lumi, const std::string& outputName, int dataMarkerStyle = 20, int dataMarkerColor = kBlack, int mcMarkerStyle = 29, int mcMarkerColor = kBlue) {

  data->SetMarkerSize(1.5);
  data->SetMarkerStyle(dataMarkerStyle);
  data->SetMarkerColor(dataMarkerColor);
  data->SetLineColor(dataMarkerColor);

  mc->SetMarkerSize(1.5);
  mc->SetMarkerStyle(mcMarkerStyle);
  mc->SetMarkerColor(mcMarkerColor);
  mc->SetLineColor(mcMarkerColor);

  // Fit
  TF1* data_fct = nullptr;
  TF1* mc_fct = nullptr;

  TH1D* errors_data = new TH1D("errors_data", "errors", 100, 0, 1);
  errors_data->SetStats(false);
  errors_data->SetFillColor(LIGHT_GRAY);
  //errors_data->SetLineColor(kRed);
  errors_data->SetFillStyle(1001);

  TH1D* errors_mc = (TH1D*) errors_data->Clone("errors_mc");
  errors_mc->SetFillColor(LIGHT_BLUE);

  if (method == "Balancing") {
    data_fct = new TF1("data_fct", "[0] - x*x*[1]", 0, 1);
    data_fct->SetLineColor(dataMarkerColor);
    data_fct->SetLineWidth(1);
    data_fct->SetLineStyle(2);

    data->Fit(data_fct, "RQN");
    (TVirtualFitter::GetFitter())->GetConfidenceIntervals(errors_data, 0.68);

    mc_fct = new TF1("mc_fct", "[0] - x*x*[1]", 0, 1);
    mc_fct->SetLineColor(mcMarkerColor);
    mc_fct->SetLineWidth(1);
    mc_fct->SetLineStyle(2);

    mc->Fit(mc_fct, "RQN");
    (TVirtualFitter::GetFitter())->GetConfidenceIntervals(errors_mc, 0.68);
  } else {
    data_fct = new TF1("data_fct", "[0] + x*[1]", 0, 1);
    data_fct->SetLineColor(dataMarkerColor);
    data_fct->SetLineWidth(1);
    data_fct->SetLineStyle(2);

    data->Fit(data_fct, "RQN");
    (TVirtualFitter::GetFitter())->GetConfidenceIntervals(errors_data, 0.68);

    mc_fct = new TF1("mc_fct", "[0] + x*[1]", 0, 1);
    mc_fct->SetLineColor(mcMarkerColor);
    mc_fct->SetLineWidth(1);
    mc_fct->SetLineStyle(2);

    mc->Fit(mc_fct, "RQN");
    (TVirtualFitter::GetFitter())->GetConfidenceIntervals(errors_mc, 0.68);

  }

  data_fct->SetRange(0, 1);
  mc_fct->SetRange(0, 1);

  TMultiGraph* mg = new TMultiGraph();
  mg->Add(data);
  mg->Add(mc);

  TString title = TString::Format(";%s;%s", xTitle.c_str(), yTitle.c_str());
  mg->SetTitle(title);

  TCanvas* canvas = new TCanvas("canvas", "", 800, 800);

  mg->Draw("ap");

  errors_data->Draw("e3 same");
  errors_mc->Draw("e3 same");

  data_fct->Draw("same");
  mc_fct->Draw("same");

  mg->Draw("ap same");


  TLegend* legend = new TLegend(0.18, 0.18, 0.55, 0.35);
  legend->SetTextFont(42);
  legend->SetFillColor(kWhite);
  legend->SetFillStyle(0);
  legend->SetTextSize(0.035);
  legend->SetBorderSize(1);

  TString legendTitleWithPtCut = TString::Format("%s, p_{T}^{#gamma} #geq 170 GeV", legendTitle.c_str());

  legend->SetHeader(legendTitleWithPtCut);
  legend->AddEntry(data, TString::Format("%s (data)", method.c_str()), "p");
  legend->AddEntry(mc, TString::Format("%s (MC)", method.c_str()), "p");
  legend->Draw();

  TLatex tl;
  tl.SetNDC();
  tl.SetTextSize(0.035);
  tl.SetTextFont(42);

  // Luminosity
  TString sLumi = TString::Format("L = %.02f fb^{-1}", lumi);
  tl.DrawLatex(0.18, 0.96, sLumi);

  // Energy
  tl.DrawLatex(0.80, 0.96, "#sqrt{s} = 8 TeV");

  canvas->Print(outputName.c_str());

  delete canvas;
  delete mg;

  delete errors_data;
  delete errors_mc;
}