示例#1
0
void JetResponseMacro_Pt(){
    
    
    TH1::SetDefaultSumw2();
    TH2::SetDefaultSumw2();
    
    //  gROOT->ProcessLine(".x rootlogon.C");
    gROOT->ProcessLine(".L format1Dhisto.C");
    gROOT->ProcessLine(".L formatTGraph.C");
    //  gROOT->ProcessLine(".x betterColors.C");
    //TFile *FileA = TFile::Open(Form("correctedFileForBtag.root"));
    TFile *FileA = TFile::Open(Form("../corrected_dijet_pp_mergedpthatbins_2013MCV3.root"));
    //  TFile *FileA = TFile::Open(Form("/Users/ymao/group/CMS/anaOutputs/pPb/JEC/dijet_pp_mergedpthatbins_2012MC.root"));
    TString outname = "JetResponse_Plots.root";
    //  TFile* outf = new TFile(outname,"recreate");
    TString plotsdir = "/Users/ymao/group/CMS/plots/pA";
    
    TString canv_name = "c1";
    const Double_t kw = 1300;
    const Double_t kh = 480;
    c1 = new TCanvas(canv_name," ",10,10,kw,kh);
    makeMultiPanelCanvas(c1,nBin/2,2,0.0,0.0,0.1,0.2,0.05);
    
    gStyle->SetOptStat(0);
    gStyle->SetPadBottomMargin(0.12);
    gStyle->SetPadTopMargin   (0.025);
    gStyle->SetPadLeftMargin  (0.15);
    gStyle->SetPadRightMargin (0.025);
    gStyle->SetPadTickX       (1);
    gStyle->SetPadTickY       (1);
    
    
    TLegend *t1=new TLegend(0.2,0.75,0.8,0.92);
    //   TLegend *t1=new TLegend(0.25,0.6,0.8,0.92);
    t1->SetFillColor(0);
    t1->SetBorderSize(0);
    t1->SetFillStyle(0);
    t1->SetTextFont(63);
    t1->SetTextSize(15);
    TLegend *t2=new TLegend(0.20,0.45,0.35,0.6);
    t2->SetFillColor(0);
    t2->SetBorderSize(0);
    t2->SetFillStyle(0);
    t2->SetTextFont(63);
    t2->SetTextSize(17);
    
    TH1F * dummy = new TH1F("dummy", "dummy", 500, 0., 500.);
    dummy->SetAxisRange(0., 500., "X") ;
    dummy->GetXaxis()->SetTitle("p_{T}^{ref} (GeV/c)");
    
    //    const char* AlgoNames[] = {"ak3PF"};
    //  TCanvas *c1 = new TCanvas("c1","c1",1100,700);
    //makeMultiPanelCanvas(c1,3,2,0.0,0.0,0.2,0.15,0.07);
    //TCanvas *c1B = new TCanvas("c1B","c1B",1100,700);
    //makeMultiPanelCanvas(c1B,3,2,0.0,0.0,0.2,0.15,0.07);
    //TCanvas *c1C = new TCanvas("c1C","c1C",1100,700);
    //makeMultiPanelCanvas(c1C,3,2,0.0,0.0,0.2,0.15,0.07);
    const int cCanDiv = nBin;
    //  makeMultiPanelCanvas(c1,cCanDiv,2,0.0,0.0,0.2,0.15,0.07);
    int nCanvDiv = cCanDiv;
    const int CnXbins = nJetPtBin;
    int nXbins = CnXbins;
    
    TH2D* iHistoCorrPt[cCanDiv];
    TH2D* iHistoRefPt[cCanDiv];
    TH2D* iHistoJtPt[cCanDiv];
    TH2D* iHistoRawPt[cCanDiv];
    TH1D* h1[cCanDiv][CnXbins];
    
    TF1* Gauss6[cCanDiv][CnXbins];
    double mean[cCanDiv][CnXbins];
    double sigma[cCanDiv][CnXbins];
    double meanErr[cCanDiv][CnXbins];
    double sigmaErr[cCanDiv][CnXbins];
    double xPoint[cCanDiv][CnXbins];
    double xPointErr[cCanDiv][CnXbins];
    TLegend*  leg[cCanDiv];
    
    //   Int_t i = 2 ;
    for(int i =0; i<nCanvDiv; i++)
        //  for(int i =1; i<nCanvDiv-1; i++)
    {
        c1->cd(i+1);
        
        TTree* t      = (TTree*)FileA->Get(Form("%sJetAnalyzer/t", AlgoNames[i]));
        
        leg[i]= new TLegend(0.22,0.63,0.45,0.90);//top right
        leg[i]->SetFillColor(0);
        leg[i]->SetTextSize(0.05);
        leg[i]->SetBorderSize(0);
        
        iHistoCorrPt[i] = new TH2D(Form("%s_CorrPt",AlgoNames[i]),Form("%s_CorrPt",AlgoNames[i]),nXbins,0,500,500,0,5);
        iHistoCorrPt[i]->Sumw2();
        t->Draw(Form("corrpt/refpt:refpt>>%s_CorrPt",AlgoNames[i]),"weight*(refpt>-99 && corrpt>0 && fabs(jteta)<3.0 && rawpt>15.)","goff");
        //    t->Draw(Form("corrpt/refpt:refpt>>%s_CorrPt",AlgoNames[i]),Form("corrpt>0 && fabs(jteta)<3.0"),"goff");
        iHistoCorrPt[i]->Draw("colz");
        leg[i]->AddEntry(iHistoCorrPt[i],Form("%s |#eta|<3.0",AlgoNames[i]),"");
        leg[i]->AddEntry(iHistoCorrPt[i],Form("Jet p_{T}^{corrected}/p_{T}^{ref}"),"");
        format1Dhisto(*iHistoCorrPt[i],250,-1,2,20,2,1,"Jet p_{T}^{ref} (GeV/c)","Corrected p_{T}/ ref p_{T}");//Red
        leg[i]->Draw();
        for(int iX=iHistoCorrPt[i]->GetXaxis()->GetFirst(); iX<iHistoCorrPt[i]->GetXaxis()->GetLast(); iX++ )
            //        for(int iX=0; iX<nJetPtBin; iX++ )
        {
            //cout<<"bin ( "<<iX<<" ) --limits ["<<iHistoCorrPt[i]->GetXaxis()->GetBinLowEdge(iX)<<" , "<<iHistoCorrPt[i]->GetXaxis()->GetBinUpEdge(iX)<<" ] "<<endl;
            h1[i][iX] = new TH1D(Form("h1_%d_%d_py",i,iX),Form("h1_%d_%d_py",i,iX),500,0,5);
            h1[i][iX] =(TH1D*)iHistoCorrPt[i]->ProjectionY(Form("h1_%d_%d_py",i,iX),iX,iX,"e");
            //    h1[i][iX] =(TH1D*)iHistoCorrPt[i]->ProjectionY(Form("h1_%s_Pt%f_%f_py",AlgoNames[i],jetPtBin[iX],jetPtBin[iX+1]),iHistoCorrPt[i]->GetXaxis()->FindBin(jetPtBin[iX]),iHistoCorrPt[i]->GetXaxis()->FindBin(jetPtBin[iX+1])-1,"e");
            
            Gauss6[i][iX] = new TF1(Form("F6_c%d_d%d",i,iX),"gaus",0,3);
            Gauss6[i][iX]->SetParLimits(1,0.7,1.5);
            h1[i][iX]->Fit(Form("F6_c%d_d%d",i,iX),"R0WL", "", 0.7, 1.5);
            //   h1[i][iX]->Fit(Gauss6[i][iX],"0Q");
            if(DoGausFit){
                mean[i][iX] = Gauss6[i][iX]->GetParameter(1);
                sigma[i][iX] = Gauss6[i][iX]->GetParameter(2);
                meanErr[i][iX] = Gauss6[i][iX]->GetParError(1);
                sigmaErr[i][iX] = Gauss6[i][iX]->GetParError(2);
            }
            else {
                mean[i][iX] = h1[i][iX]->GetMean();
                sigma[i][iX]= h1[i][iX]->GetRMS();
                meanErr[i][iX] = h1[i][iX]->GetMeanError();
                sigmaErr[i][iX] =h1[i][iX]->GetRMSError();
            }
            xPoint[i][iX] =iHistoCorrPt[i]->GetXaxis()->GetBinCenter(iX);
            xPointErr[i][iX] = 0;
            
            
            if(i==2 && iX==3)//Just to test
            {
                cout<<"bin ( "<<iX<<" ) --limits ["<<iHistoCorrPt[i]->GetXaxis()->GetBinLowEdge(iX)<<" , "<<iHistoCorrPt[i]->GetXaxis()->GetBinUpEdge(iX)<<" ] "<<endl;
                TCanvas *c11 = new TCanvas("c11","c11",500,500);
                c11->cd();
                h1[i][iX]->Draw();
                Gauss6[i][iX]->Draw("same");
            }
        }
        
    }
    if(SavePlot){
        c1->Print(Form("CorrectedOverRefJet.pdf"));
    }
    
    c1->Update();
    
    TLegend*  leg2B[cCanDiv];
    TLegend*  leg2A[cCanDiv];
    TGraphErrors *CorrPt_Mean[cCanDiv];
    TCanvas *c2 = new TCanvas("c2","c2",10,10,kw,kh);
    makeMultiPanelCanvas(c2,nBin/2,2,0.0,0.0,0.1,0.2,0.05);
    
    //makeMultiPanelCanvas(c2,3,2,0.0,0.0,0.2,0.15,0.07);
    //TCanvas *c2B = new TCanvas("c2B","c2B",1100,700);
    //makeMultiPanelCanvas(c2B,3,2,0.0,0.0,0.2,0.15,0.07);
    //TCanvas *c2C = new TCanvas("c2C","c2C",1100,700);
    //makeMultiPanelCanvas(c2C,3,2,0.0,0.0,0.2,0.15,0.07);
    
    TGraphErrors *CorrPt_Sigma[cCanDiv];
    TCanvas *c3 = new TCanvas("c3","c3",10,10,kw,kh);
    makeMultiPanelCanvas(c3,nBin/2,2,0.0,0.0,0.1,0.2,0.05);
    //makeMultiPanelCanvas(c3,3,2,0.0,0.0,0.2,0.15,0.07);
    //TCanvas *c3B = new TCanvas("c3B","c3B",1100,700);
    //makeMultiPanelCanvas(c3B,3,2,0.0,0.0,0.2,0.15,0.07);
    //TCanvas *c3C = new TCanvas("c3C","c3C",1100,700);
    //makeMultiPanelCanvas(c3C,3,2,0.0,0.0,0.2,0.15,0.07);
    
    for(int i2 =0; i2<nCanvDiv; i2++)
    {
        leg2A[i2]= new TLegend(0.22,0.73,0.45,0.95);//top right
        leg2A[i2]->SetFillColor(0);
        leg2A[i2]->SetTextSize(0.05);
        leg2A[i2]->SetBorderSize(0);
        
        leg2B[i2]= new TLegend(0.22,0.73,0.45,0.95);//top right
        leg2B[i2]->SetFillColor(0);
        leg2B[i2]->SetTextSize(0.05);
        leg2B[i2]->SetBorderSize(0);
        
        double xLoc[CnXbins];
        double y2Loc[CnXbins];
        double y3Loc[CnXbins];
        double xLocErr[CnXbins];
        double y2LocErr[CnXbins];
        double y3LocErr[CnXbins];
        for(int iBin=0; iBin<nXbins; iBin++)
        {
            xLoc[iBin] = xPoint[i2][iBin];
            xLocErr[iBin] = xPointErr[i2][iBin];
            y2Loc[iBin] = mean[i2][iBin];
            y2LocErr[iBin] = meanErr[i2][iBin];
            y3Loc[iBin] = sigma[i2][iBin];
            y3LocErr[iBin] = sigmaErr[i2][iBin];
        }
        
        //     if(i2<=5)c2->cd(i2+1);
        //     if(i2>5 && i2<12)c2B->cd(i2-5);
        //     if(i2>=12)c2C->cd(i2-12);
        c2->cd(i2+1);
        CorrPt_Mean[i2] = new TGraphErrors(nXbins,xLoc,y2Loc,xLocErr,y2LocErr);
        formatTGraph(*CorrPt_Mean[i2],250,-1,1,20,1,1,"p_{T}^{ref} (GeV/c)","#mu ");
        leg2A[i2]->AddEntry(CorrPt_Mean[i2],Form("%s |#eta|<2.0",AlgoNames[i2]),"");
        leg2A[i2]->AddEntry(CorrPt_Mean[i2],Form("p_{T}^{corrected}/p_{T}^{ref}"),"lp");
        CorrPt_Mean[i2]->SetMaximum(1.1);
        CorrPt_Mean[i2]->SetMinimum(0.9);
        CorrPt_Mean[i2]->Draw("AP");
        leg2A[i2]->Draw();
        regSun(20.,1.,400.,1.,1, 1);
        
        //     if(i2<=5)c3->cd(i2+1);
        //     if(i2>5 && i2<12)c3B->cd(i2-5);
        //     if(i2>=12)c3C->cd(i2-12);
        c3->cd(i2+1);
        CorrPt_Sigma[i2] = new TGraphErrors(nXbins,xLoc,y3Loc,xLocErr,y3LocErr);
        formatTGraph(*CorrPt_Sigma[i2],250,-1,1,20,1,1,"p_{T}^{ref} (GeV/c)","#sigma ");
        leg2B[i2]->AddEntry(CorrPt_Sigma[i2],Form("%s |#eta|<2.0",AlgoNames[i2]),"");
        leg2B[i2]->AddEntry(CorrPt_Sigma[i2],Form("p_{T}^{corrected}/p_{T}^{ref}"),"lp");
        CorrPt_Sigma[i2]->SetMaximum(0.4);
        CorrPt_Sigma[i2]->SetMinimum(0.);
        CorrPt_Sigma[i2]->Draw("AP");
        leg2B[i2]->Draw();
        regSun(20.,1.,400.,1.,1, 1);
        
    }
    if(SavePlot){
        c2->Print(Form("CorrectedOverRefJetMean.pdf"));
        c3->Print(Form("CorrectedOverRefJetSigma.pdf")) ;
    }
    c2->Update();
    c3->Update();
}
示例#2
0
void  JetResponseMacro_TheDeadlyEagle_Eta(){

  gROOT->ProcessLine(".x rootlogon.C");
  gROOT->ProcessLine(".L format1Dhisto.C");
  gROOT->ProcessLine(".L formatTGraph.C");
  gROOT->ProcessLine(".x betterColors.C");

TFile *FileA = TFile::Open(Form("../JEC/Corrected_dijet_pp_mergedpthatbins_2013MCV2.root"));
  //TFile *FileA = TFile::Open(Form("~/rootFiles/JEC/Files/20120521/Correcteddijet_pp_mergedpthatbins_2012MC.root"));
  TString outname = "JetResponse_Plots.root"; 
  TFile* outf = new TFile(outname,"recreate");

  const char* AlgoNames[] = {"ak1PF","ak2PF","ak3PF","ak4PF","ak5PF","ak6PF","ak1Calo","ak2Calo","ak3Calo","ak4Calo","ak5Calo","ak6Calo","icPu5"};
  
  TCanvas *c1 = new TCanvas("c1","c1",1100,700);
  makeMultiPanelCanvas(c1,3,2,0.0,0.0,0.2,0.15,0.07);
  TCanvas *c1B = new TCanvas("c1B","c1B",1100,700);
  makeMultiPanelCanvas(c1B,3,2,0.0,0.0,0.2,0.15,0.07);
  TCanvas *c1C = new TCanvas("c1C","c1C",1100,700);
  makeMultiPanelCanvas(c1C,3,2,0.0,0.0,0.2,0.15,0.07);
  const int cCanDiv = 13;
  int nCanvDiv = cCanDiv;
  const int CnXbins = 30;
  int nXbins = CnXbins;

  TH2D* iHistoCorrEta[cCanDiv];
  TH2D* iHistoRefEta[cCanDiv];
  TH2D* iHistoJtEta[cCanDiv];
  TH2D* iHistoRawEta[cCanDiv];
  TH1D* h1[cCanDiv][CnXbins];
  TF1* Gauss6[cCanDiv][CnXbins];
  double mean[cCanDiv][CnXbins];
  double sigma[cCanDiv][CnXbins];
  double meanErr[cCanDiv][CnXbins];
  double sigmaErr[cCanDiv][CnXbins];
  double xPoint[cCanDiv][CnXbins];
  double xPointErr[cCanDiv][CnXbins];
  TLegend*  leg[cCanDiv];

  for(int i =0; i<nCanvDiv; i++)
    {
if(i==0 || i==6) continue;//skip the ak1 algos
if(i==12) continue;//skip the icpU5 algos
    if(i<=5)c1->cd(i+1);
    if(i>5 && i<12)c1B->cd(i-5);
    if(i>=12)c1C->cd(i-12);
    if(i==0)  TTree* t      = (TTree*)FileA->Get("ak1PFJetAnalyzer/t");
    if(i==1)  TTree* t      = (TTree*)FileA->Get("ak2PFJetAnalyzer/t");
    if(i==2)  TTree* t      = (TTree*)FileA->Get("ak3PFJetAnalyzer/t");
    if(i==3)  TTree* t      = (TTree*)FileA->Get("ak4PFJetAnalyzer/t");
    if(i==4)  TTree* t      = (TTree*)FileA->Get("ak5PFJetAnalyzer/t");
    if(i==5)  TTree* t      = (TTree*)FileA->Get("ak6PFJetAnalyzer/t");
    if(i==6)  TTree* t      = (TTree*)FileA->Get("ak1CaloJetAnalyzer/t");
    if(i==7)  TTree* t      = (TTree*)FileA->Get("ak2CaloJetAnalyzer/t");
    if(i==8)  TTree* t      = (TTree*)FileA->Get("ak3CaloJetAnalyzer/t");
    if(i==9)  TTree* t      = (TTree*)FileA->Get("ak4CaloJetAnalyzer/t");
    if(i==10) TTree* t      = (TTree*)FileA->Get("ak5CaloJetAnalyzer/t");
    if(i==11) TTree* t      = (TTree*)FileA->Get("ak6CaloJetAnalyzer/t");
    if(i==12) TTree* t      = (TTree*)FileA->Get("icPu5JetAnalyzer/t");
      
      leg[i]= new TLegend(0.22,0.63,0.45,0.90);//top right
      leg[i]->SetFillColor(0);
      leg[i]->SetTextSize(0.05);
      leg[i]->SetBorderSize(0);
      
      iHistoCorrEta[i] = new TH2D(Form("%s_CorrEta",AlgoNames[i]),Form("%s_CorrEta",AlgoNames[i]),nXbins,-2,2,500,0,5);
      //t->Draw(Form("corrpt/refpt:jteta>>%s_CorrEta",AlgoNames[i]),Form("corrpt>0 && fabs(jteta)<2.0"),"goff");
      t->Draw(Form("corrpt/refpt:jteta>>%s_CorrEta",AlgoNames[i]),Form("corrpt>5 && refpt>5 && fabs(jteta)<2.0"),"goff");
      iHistoCorrEta[i]->Draw("colz");
      leg[i]->AddEntry(iHistoCorrEta[i],Form("%s |#eta|<2.0",AlgoNames[i]),"");
      leg[i]->AddEntry(iHistoCorrEta[i],Form("Corrected / ref p_{T}"),"");
      format1Dhisto(*iHistoCorrEta[i],250,-1,2,20,2,1,"Jet #eta","Corrected p_{T}/ ref p_{T}");//Red      
      leg[i]->Draw();
      for(int iX=iHistoCorrEta[i]->GetXaxis()->GetFirst(); iX<iHistoCorrEta[i]->GetXaxis()->GetLast(); iX++ )
	{
	  //cout<<"bin ( "<<iX<<" ) --limits ["<<iHistoCorrEta[i]->GetXaxis()->GetBinLowEdge(iX)<<" , "<<iHistoCorrEta[i]->GetXaxis()->GetBinUpEdge(iX)<<" ] "<<endl;
	  h1[i][iX] = new TH1D(Form("h1_%d_%d_py",i,iX),Form("h1_%d_%d_py",i,iX),500,0,5);
	  h1[i][iX] =(TH1D*)iHistoCorrEta[i]->ProjectionY(Form("h1_%d_%d_py",i,iX),iX,iX,"e");
	  Gauss6[i][iX] = new TF1(Form("F6_c%d_d%d",i,iX),"gaus",0,5);
	  Gauss6[i][iX]->SetParLimits(1,0.7,1.5);
	  h1[i][iX]->Fit(Form("F6_c%d_d%d",i,iX),"0Q");
	  mean[i][iX] = Gauss6[i][iX]->GetParameter(1);
	  sigma[i][iX] = Gauss6[i][iX]->GetParameter(2);
	  meanErr[i][iX] = Gauss6[i][iX]->GetParError(1);
	  sigmaErr[i][iX] = Gauss6[i][iX]->GetParError(2);
	  xPoint[i][iX] =iHistoCorrEta[i]->GetXaxis()->GetBinCenter(iX);
	  xPointErr[i][iX] = 0;
	  
	  if(i==0 && iX==1)//Just to test 
	    {
	      TCanvas *c11 = new TCanvas("c11","c11",500,400);
	      c11->cd();	    
	      h1[i][iX]->Draw();
	      Gauss6[i][iX]->Draw("same");
	    }	  
	}

      
    }
  


  TLegend*  leg2B[cCanDiv];
  TLegend*  leg2A[cCanDiv];
  TGraphErrors *CorrEta_Mean[cCanDiv];
  TCanvas *c2 = new TCanvas("c2","c2",1100,700);
  makeMultiPanelCanvas(c2,3,2,0.0,0.0,0.2,0.15,0.07);
  TCanvas *c2B = new TCanvas("c2B","c2B",1100,700);
  makeMultiPanelCanvas(c2B,3,2,0.0,0.0,0.2,0.15,0.07);
  TCanvas *c2C = new TCanvas("c2C","c2C",1100,700);
  makeMultiPanelCanvas(c2C,3,2,0.0,0.0,0.2,0.15,0.07);

  TGraphErrors *CorrEta_Sigma[cCanDiv];
  TCanvas *c3 = new TCanvas("c3","c3",1100,700);
  makeMultiPanelCanvas(c3,3,2,0.0,0.0,0.2,0.15,0.07);
  TCanvas *c3B = new TCanvas("c3B","c3B",1100,700);
  makeMultiPanelCanvas(c3B,3,2,0.0,0.0,0.2,0.15,0.07);
  TCanvas *c3C = new TCanvas("c3C","c3C",1100,700);
  makeMultiPanelCanvas(c3C,3,2,0.0,0.0,0.2,0.15,0.07);

  for(int i2 =0; i2<nCanvDiv; i2++)
    {
      leg2A[i2]= new TLegend(0.22,0.18,0.45,0.35);//top right
      leg2A[i2]->SetFillColor(0);
      leg2A[i2]->SetTextSize(0.05);
      leg2A[i2]->SetBorderSize(0);
      
      leg2B[i2]= new TLegend(0.22,0.18,0.45,0.35);//top right
      leg2B[i2]->SetFillColor(0);
      leg2B[i2]->SetTextSize(0.05);
      leg2B[i2]->SetBorderSize(0);

      double xLoc[CnXbins];
      double y2Loc[CnXbins];
      double y3Loc[CnXbins];
      double xLocErr[CnXbins];
      double y2LocErr[CnXbins];
      double y3LocErr[CnXbins];
      for(int iBin=0; iBin<nXbins; iBin++)
	{	  
	  xLoc[iBin] = xPoint[i2][iBin];
	  xLocErr[iBin] = xPointErr[i2][iBin];
	  y2Loc[iBin] = mean[i2][iBin];
	  y2LocErr[iBin] = meanErr[i2][iBin];
	  y3Loc[iBin] = sigma[i2][iBin];
	  y3LocErr[iBin] = sigmaErr[i2][iBin];
	}


    
    if(i2<=5)c2->cd(i2+1);
    if(i2>5 && i2<12)c2B->cd(i2-5);
    if(i2>=12)c2C->cd(i2-12);
      CorrEta_Mean[i2] = new TGraphErrors(nXbins,xLoc,y2Loc,xLocErr,y2LocErr);
      formatTGraph(*CorrEta_Mean[i2],250,-1,1,20,1,1,"Jet #eta","#mu ");
      leg2A[i2]->AddEntry(CorrEta_Mean[i2],Form("%s |#eta|<2.0",AlgoNames[i2]),"");
      leg2A[i2]->AddEntry(CorrEta_Mean[i2],Form("Corrected p_{T}/ ref p_{T}"),"lp");
      CorrEta_Mean[i2]->SetMaximum(1.15);
      CorrEta_Mean[i2]->SetMinimum(0.90);
      CorrEta_Mean[i2]->Draw("AP");
      leg2A[i2]->Draw();

    if(i2<=5)c3->cd(i2+1);
    if(i2>5 && i2<12)c3B->cd(i2-5);
    if(i2>=12)c3C->cd(i2-12);
      CorrEta_Sigma[i2] = new TGraphErrors(nXbins,xLoc,y3Loc,xLocErr,y3LocErr);
      formatTGraph(*CorrEta_Sigma[i2],250,-1,1,20,1,1,"Jet #eta","#sigma ");
      leg2B[i2]->AddEntry(CorrEta_Sigma[i2],Form("%s |#eta|<2.0",AlgoNames[i2]),"");
      leg2B[i2]->AddEntry(CorrEta_Sigma[i2],Form("Corrected p_{T}/ ref p_{T}"),"lp");
      CorrEta_Sigma[i2]->SetMaximum(0.6);
      CorrEta_Sigma[i2]->SetMinimum(-0.2);
      CorrEta_Sigma[i2]->Draw("AP");
      leg2B[i2]->Draw();

    }
  
  c1->Print("plots/pPb2013_0126/EtaCorrection2D_AKPF.pdf");
  c1B->Print("plots/pPb2013_0126/EtaCorrection2D_AKCalo.pdf");
  c1C->Print("plots/pPb2013_0126/EtaCorrection2D_IC.pdf");
  c2->Print("plots/pPb2013_0126/EtaCorrection1DMean_AKPF.pdf");
  c2B->Print("plots/pPb2013_0126/EtaCorrection1DMean_AKCalo.pdf");
  c2C->Print("plots/pPb2013_0126/EtaCorrection1DMean_IC.pdf");
  c3->Print("plots/pPb2013_0126/EtaCorrection1DSigma_AKPF.pdf");
  c3B->Print("plots/pPb2013_0126/EtaCorrection1DSigma_AKCalo.pdf");
  c3C->Print("plots/pPb2013_0126/EtaCorrection1DSigma_IC.pdf");


}