Example #1
0
void DileptonAnalyzer::storeSignalEfficiencies( TFile & outputFile ) {
  // Store in a TProfile
  TProfile *sigEffOne = new TProfile("SignalEfficOneDecay","Signal efficiencies when one exotic decays in this channel",10,0.5,10.5,-9.9e9,9.9e9);
  TAxis *sigEffOneAxis = sigEffOne->GetXaxis();

  TProfile *sigEffTwo = new TProfile("SignalEfficTwoDecay","Signal efficiencies when two exotic decays in this channel",10,0.5,10.5,-9.9e9,9.9e9);
  TAxis *sigEffTwoAxis = sigEffTwo->GetXaxis();

  // Fill set of 3 bins in each TProfile for each exotic
  for ( int iExotic = 0; iExotic < nSignalParticles_; iExotic++ ) {

    TString axisTitle;

    sigEffOne->Fill( iExotic*nSignalParticles_+1, numEvents_oneSensitiveDecay_[iExotic] );
    axisTitle.Form("Number of events coming into macro for exotic %d",signalPdgId_[iExotic]);
    sigEffOneAxis->SetBinLabel( iExotic*nSignalParticles_+1, axisTitle.Data());

    sigEffOne->Fill( iExotic*nSignalParticles_+2, numExoticsRECO_oneSensitiveDecay_[iExotic] );
    axisTitle.Form("Number of candidates RECO'd for exotic %d",signalPdgId_[iExotic]);
    sigEffOneAxis->SetBinLabel( iExotic*nSignalParticles_+2, axisTitle.Data());

    sigEffOne->Fill( iExotic*nSignalParticles_+3, numExoticsCorrectRECO_oneSensitiveDecay_[iExotic] );
    axisTitle.Form("Number of exotics correctly RECO'd for exotic %d",signalPdgId_[iExotic]);
    sigEffOneAxis->SetBinLabel( iExotic*nSignalParticles_+3, axisTitle.Data());

    sigEffTwo->Fill( iExotic*nSignalParticles_+1, numEvents_twoSensitiveDecay_[iExotic] );
    axisTitle.Form("Number of events coming into macro for exotic %d",signalPdgId_[iExotic]);
    sigEffTwoAxis->SetBinLabel( iExotic*nSignalParticles_+1, axisTitle.Data());

    sigEffTwo->Fill( iExotic*nSignalParticles_+2, numExoticsRECO_twoSensitiveDecay_[iExotic] );
    axisTitle.Form("Number of candidates RECO'd for exotic %d",signalPdgId_[iExotic]);
    sigEffTwoAxis->SetBinLabel( iExotic*nSignalParticles_+2, axisTitle.Data());

    sigEffTwo->Fill( iExotic*nSignalParticles_+3, numExoticsCorrectRECO_twoSensitiveDecay_[iExotic] );
    axisTitle.Form("Number of exotics correctly RECO'd for exotic %d",signalPdgId_[iExotic]);
    sigEffTwoAxis->SetBinLabel( iExotic*nSignalParticles_+3, axisTitle.Data());
  }
  outputFile.cd();
  sigEffOne->Write();
  sigEffTwo->Write();
}
Example #2
0
void profile()
{
  TCanvas* c1 = new TCanvas("canvas","nhitac",1200,600);
  c1->Divide(2,1);
  c1->cd(1);
  TFile *file1 = new TFile("test_nhitac_modified.root");
  //TH1F  *histo1 = new TH1F("nhitac1","nhitac1",60,0,300);
  TProfile *profile1 = new TProfile("profile","nhitac profile",100,0,100,0,300);

  TFile *file2 = new TFile("test_nhitac_unmodified.root");
  //TH1F  *histo2 = new TH1F("nhitac","nhitac",60,0,300);
  TProfile *profile2 = new TProfile("profile2","nhitac profile2",100,0,100,0,300);
  TProfile *ratio = new TProfile("ratio","nhitac ratio", 100,0,100,0,2);
  //histo2->SetMarkerStyle(31);
  TLegend *l1 = new TLegend(0.20, 0.60, 0.3, 0.7);
  l1->SetBorderSize(0);

  TTree* nhitac_modified = (TTree*)file1->Get("testnhitac");
  TTree* nhitac_unmodified = (TTree*)file2->Get("testnhitac");
  int testnhitac1, testnhitac2;
  nhitac_modified->SetBranchAddress("nhitac",&testnhitac1);
  nhitac_unmodified->SetBranchAddress("nhitac",&testnhitac2);
  for(int i= 0; i < nhitac_modified->GetEntries(); i++)
  {
    nhitac_modified->GetEntry(i);
    nhitac_unmodified->GetEntry(i);
    profile1->Fill(i,testnhitac1);
    profile2->Fill(i,testnhitac2);
    double temp = testnhitac2;
    ratio->Fill(i,testnhitac1/temp);
    //histo1->Fill(testnhitac1);
    //histo2->Fill(testnhitac2);
  }
  //histo1->SetMarkerColor(kRed);
  //histo1->SetLineColor(kRed);
  profile1->SetMarkerColor(kRed);
  profile1->SetMarkerStyle(5);
  profile2->SetMarkerColor(kBlue);
  l1->AddEntry(profile1,"modified od bad channel","P");
  l1->AddEntry(profile2,"old od bad channel","l");
  l1->SetTextSize(0.04);
  profile1->Draw("e1p");
  profile1->GetXaxis()->SetTitle("event #");
  profile1->GetYaxis()->SetTitle("nhitac");
  profile2->Draw("same");
  l1->Draw();
  c1->cd(2);
  ratio->GetXaxis()->SetTitle("event #");
  ratio->GetYaxis()->SetTitle("new/old");
  //ratio->SetMarkerStyle(5);
  //ratio->SetMarkerColor(kRed);
  ratio->Draw();
}
Example #3
0
// Report cut flow findings to screen
void DileptonAnalyzer::reportCutFlow( TFile & outputFile ) {

  // Store in a TProfile
  TProfile *cutFlow = new TProfile("cutFlow","Cut flow for final set of analysis cuts",20,0.5,20.5,-9.9e9,9.9e9);
  TAxis *cutFlowAxis = cutFlow->GetXaxis();

  for ( unsigned int iCut = 0; iCut < cutNamesInOrder_.size(); iCut++ ) {
    cutFlow->Fill( iCut+1, cutFlowMap_[cutNamesInOrder_[iCut]]);
    cutFlowAxis->SetBinLabel( iCut+1, cutNamesInOrder_[iCut]);
  }

  outputFile.cd();
  cutFlow->Write();
}
Example #4
0
TH1D * smartGausProfileXSQRTN (TH2F * strip, double width){
 TProfile * stripProfile = strip->ProfileX () ;
 
 // (from FitSlices of TH2.h)
 
 double xmin = stripProfile->GetXaxis ()->GetXmin () ;
 double xmax = stripProfile->GetXaxis ()->GetXmax () ;
 int profileBins = stripProfile->GetNbinsX () ;
 
 std::string name = strip->GetName () ;
 name += "_smartGaus_X" ; 
 TH1D * prof = new TH1D(name.c_str (),strip->GetTitle (),profileBins,xmin,xmax) ;
 
 int cut = 0 ; // minimum number of entries per fitted bin
 int nbins = strip->GetXaxis ()->GetNbins () ;
 int binmin = 1 ;
 int ngroup = 1 ; // bins per step
 int binmax = nbins ;
 
 // loop over the strip bins
 for (int bin=binmin ; bin<=binmax ; bin += ngroup) 
 {
  TH1D *hpy = strip->ProjectionY ("_temp",bin,bin+ngroup-1,"e") ;
  if (hpy == 0) continue ;
  int nentries = Int_t (hpy->GetEntries ()) ;
  if (nentries == 0 || nentries < cut) {delete hpy ; continue ;} 
  
  Int_t biny = bin + ngroup/2 ;
  
  TF1 * gaussian = new TF1 ("gaussian","gaus", hpy->GetMean () - width * hpy->GetRMS (), hpy->GetMean () + width * hpy->GetRMS ()) ; 
  gaussian->SetParameter (1,hpy->GetMean ()) ;
  gaussian->SetParameter (2,hpy->GetRMS ()) ;
  hpy->Fit ("gaussian","RQL") ;           
  
  //       hpy->GetXaxis ()->SetRangeUser ( hpy->GetMean () - width * hpy->GetRMS (), hpy->GetMean () + width * hpy->GetRMS ()) ;         
  prof->Fill (strip->GetXaxis ()->GetBinCenter (biny), gaussian->GetParameter (1)) ;       
  prof->SetBinError (biny,gaussian->GetParameter (2) / sqrt(hpy->GetEntries())) ;
//   prof->SetBinError (biny,gaussian->GetParError (1)) ;
  
  delete gaussian ;
  delete hpy ;
 } // loop over the bins
 
 delete stripProfile ;
 return prof ;
}
Example #5
0
//------------------------------------------------------------//
// Get TProfile
//------------------------------------------------------------//
TProfile* getProfile(TFile* file, TString pname, TString xtitle,
		     TString ytitle, int color, int marker)
{
  
  TProfile* prof = (TProfile*) (file->Get(pname.Data())->Clone(Form("%s_%i",pname.Data(),color)));
  prof->GetXaxis()->SetTitle(xtitle.Data());
  prof->GetYaxis()->SetTitle(ytitle.Data());
  prof->SetMarkerStyle(marker);
  prof->SetMarkerColor(color);
  //prof->SetMarkerSize(0.5);
  prof->SetLineColor(color);
  prof->SetTitle("");
  prof->SetStats(0);
  prof->GetYaxis()->SetTitleOffset(1.5);
  
  return prof;

}
Example #6
0
TProfile* plotIsoPerformance( TFile* ftt, 
			      const char* signal,     // histogram name
			      const char* background, // histogram name
			      const char* name,       // unique name
			      bool reverse = false,   // normally signal near zero bin, reverse means signal is around max bin
			      double bkg_eff_min = 0,
			      double bkg_eff_max = 1,
			      double sig_eff_min = 0,
			      double sig_eff_max = 0
			      )
{ 
  TH1F* S = dynamic_cast<TH1F*>(ftt->Get(signal));
  if ( ! S ) {
    std::cout << "Error: histogram not found " << signal << std::endl;
    return 0;
  }
  TH1F* B = dynamic_cast<TH1F*>(ftt->Get(background));
  if ( ! B ) {
    std::cout << "Error: histogram not found " << background << std::endl;
    return 0;
  }
  char buf[1024];
  sprintf(buf,"c_%s",name);
  // TCanvas* c = new TCanvas(buf,buf,500,500);
  sprintf(buf,"p_%s",name);
  TProfile* p = new TProfile(buf,buf,50,bkg_eff_min,bkg_eff_max,sig_eff_min,sig_eff_max);
  p->SetLineColor(kBlue);
  p->SetLineWidth(2);
  p->SetMarkerStyle(20);
  p->SetMarkerSize(1);
  p->GetXaxis()->SetTitle("Background Efficiency");
  p->GetYaxis()->SetTitle("Signal Efficiency");
  p->SetStats(kFALSE);
  for( int i=0;i<=S->GetNbinsX()+1; ++i )
    if ( reverse ) 
      p->Fill(B->Integral(i,B->GetNbinsX()+1)/B->Integral(0,B->GetNbinsX()+1),
	      S->Integral(i,S->GetNbinsX()+1)/S->Integral(0,S->GetNbinsX()+1));
    else
      p->Fill(B->Integral(0,i)/B->Integral(0,B->GetNbinsX()+1),
	      S->Integral(0,i)/S->Integral(0,S->GetNbinsX()+1));
  // p->Draw();
  return p;
}
Example #7
0
TCanvas *Plot2D_profileX_my(TChain *data, TString branchname, TString binning,TString selection,TString opt,TString xLabel, TString yLabel){
  //type == 0: data only
  //type == 1: MC only
  //type == 2: data/MC
   
  TCanvas *c = new TCanvas("c","");
  data->Draw(branchname+">>data_hist"+binning,selection,opt);
  TH2F *d = (TH2F *) gROOT->FindObject("data_hist");

  TCanvas *c1 = new TCanvas("c1","");
  TProfile *prof = d->ProfileX("prof",1,-1,"s");
  prof->SetMarkerStyle(20);
  prof->SetMarkerSize(1);
  prof->Draw();
  prof->GetYaxis()->SetTitle(yLabel);
  prof->GetXaxis()->SetTitle(xLabel);

  return c1;
}
Example #8
0
void Fake100PeVShower(int opt)
{

  // opt == 0 implies save to root file
  // opt == 1 implies plot and save to canvas
  TFile* file = NULL;
  TCanvas* c  = NULL;

  if(opt == 0)
    file = new TFile("fake100PeVShower.root","recreate");
  if(opt == 1)
    c = makeCanvas("c");

  TString gaus = "1.5e7*TMath::Exp(-(pow(x-10,2)/9))";
  TString bump = "5e6*TMath::Exp(-(pow(x-17,2)/20))";
  TF1* f = new TF1("f",(gaus+"+"+bump).Data(),0,30);

  int nbins = 3000;
  float xmin  = 0;
  float xmax  = 30;
  TProfile* prof = new TProfile("prof","",nbins,xmin,xmax);
  prof->SetStats(0);
  prof->SetTitle("");
  prof->GetYaxis()->SetTitle("Charge excess / 1e7");
  prof->GetXaxis()->SetTitle("z [m]");

  float step = xmax / nbins;
  for(int i =0; i<nbins; ++i){
    float x = step * i;
    if(opt == 1 ) prof->Fill(x, f->Eval(x)/1e7);
    else          prof->Fill(x, f->Eval(x));
  }
    
  if(opt == 1){
    prof->Draw();
    c->SaveAs("JaimeCheck/FakeProfile100PeV.png");
  }
  if(opt == 0){
    file->Write();
    file->Close();
  }
}
Example #9
0
void plotQApid(Int_t ic,Float_t pt,Int_t addbin){
  char name[100];
  char stringa[200];
  LoadLib();

  snprintf(name,100,"AnalysisResults.root");
  if(!fo) fo = new TFile(name);
  snprintf(name,100,"contVZEROv2");
  TList *cont = (TList *) fo->Get(name);
  AliFlowVZEROResults *pidqa = cont->FindObject("qaPID");
  Float_t xval[2] = {2.,pt+0.00001};
  Float_t xval2[2] = {2.+addbin,pt+0.00001};

  TProfile *proTPCpi = pidqa->GetV2(0,xval,xval2);
  TProfile *proTOFpi = pidqa->GetV2(1,xval,xval2);
  TProfile *proTPCka = pidqa->GetV2(2,xval,xval2);
  TProfile *proTOFka = pidqa->GetV2(3,xval,xval2);
  TProfile *proTPCpr = pidqa->GetV2(4,xval,xval2);
  TProfile *proTOFpr = pidqa->GetV2(5,xval,xval2);

  proTPCpi->SetName("hPiTPC");
  proTOFpi->SetName("hPiTOF");
  proTPCka->SetName("hKaTPC");
  proTOFka->SetName("hKaTOF");
  proTPCpr->SetName("hPrTPC");
  proTOFpr->SetName("hPrTOF");
  
  proTPCpi->GetXaxis()->SetTitle("dE/dx - dE/dx_{calc}^{#pi} (a.u)");
  proTOFpi->GetXaxis()->SetTitle("t_{tof} - t_{calc}^{#pi} (ps)");
  proTPCka->GetXaxis()->SetTitle("dE/dx - dE/dx_{calc}^{K} (a.u)");
  proTOFka->GetXaxis()->SetTitle("t_{tof} - t_{calc}^{K} (ps)");
  proTPCpr->GetXaxis()->SetTitle("dE/dx - dE/dx_{calc}^{p} (a.u)");
  proTOFpr->GetXaxis()->SetTitle("t_{tof} - t_{calc}^{p} (ps)");

  TCanvas *c = new TCanvas("cVproj","cVproj");
  c->Divide(2,3);
  c->cd(1);
  proTPCpi->Draw();
  c->cd(2);
  proTOFpi->Draw();
  c->cd(3);
  proTPCka->Draw();
  c->cd(4);
  proTOFka->Draw();
  c->cd(5);
  proTPCpr->Draw();
  c->cd(6);
  proTOFpr->Draw();
}
Example #10
0
void Dcurvature(const char *chargechoice = "plus", double ptmin=20){

  TString sign=chargechoice;

  gStyle->SetPalette(1);
  gStyle->SetOptStat("e");

//  double ptmin=20;
  double ptmax=200;
  double etamax=2.1; 
  int ptbins=(ptmax-ptmin)/10;
  double ptbinwidth=(ptmax-ptmin)/ptbins;
  int etabins=21;
  int phibins=21;


  TProfile3D *khistptetaphi = new TProfile3D("DeltaCurv(pt,eta,phi)","DeltaCurv(pt,eta,phi) "+sign,ptbins,ptmin,ptmax,etabins,-etamax,etamax,phibins,-3.14,3.14);
  khistptetaphi->GetXaxis()->SetTitle("Pt");
  khistptetaphi->GetYaxis()->SetTitle("Eta");
  khistptetaphi->GetZaxis()->SetTitle("Phi");

  TProfile2D *khistpteta = new TProfile2D("DeltaCurv(pt,eta)","DeltaCurv(pt,eta) "+sign,ptbins,ptmin,ptmax,etabins,-etamax,etamax);
  khistpteta->GetXaxis()->SetTitle("Pt");
  khistpteta->GetYaxis()->SetTitle("Eta");
  TProfile2D *khistptphi = new TProfile2D("DeltaCurv(pt,phi)","DeltaCurv(pt,phi) "+sign,ptbins,ptmin,ptmax,phibins,-3.14,3.14);
  khistptphi->GetXaxis()->SetTitle("Pt");
  khistptphi->GetYaxis()->SetTitle("Phi");

  TProfile *khistpt = new TProfile("DeltaCurv(pt)","DeltaCurv(pt) "+sign,ptbins,ptmin,ptmax);
  khistpt->GetXaxis()->SetTitle("Pt");
  khistpt->SetAxisRange(-0.001,0.001,"Y");
  TProfile *khisteta = new TProfile("DeltaCurv(eta)","DeltaCurv(eta) "+sign,etabins,-etamax,etamax);
  khistpt->GetXaxis()->SetTitle("Eta");
  TProfile *khistphi = new TProfile("DeltaCurv(phi)","DeltaCurv(phi) "+sign,phibins,-3.14,3.14);
  khistpt->GetXaxis()->SetTitle("Phi");

  TObjArray *khistptbins= new TObjArray();
  for (int i=0; i<ptbins; i++) {
    TString name="DeltaCurv(eta,phi), pt bin ";
    name+=int(ptmin+i*(ptmax-ptmin)/ptbins);
    name+=TString(", charge ")+sign;
    TProfile2D *ist = new TProfile2D(name.Data(),name.Data(),phibins,-3.14,3.14,etabins,-etamax,etamax);
    ist->SetAxisRange(-0.002,0.002,"Z");
    khistptbins->Add(ist);
  }

  TFile *f = new TFile("RecoRoutines_Z-selection_ZJets_TuneZ2_7TeV_alpgen_tauola.rew8.corr1.root","read");

  TTree *tree;

  f->GetObject("SingleMuPtScale/"+sign+"muonstree",tree);

  Double_t MCPt;
  Double_t MCEta;
  Double_t MCPhi;
  Double_t RecoPt;
  Double_t RecoEta;
  Double_t RecoPhi;
  Double_t EvWeight;

  tree->SetBranchAddress("RecoPt",&RecoPt);
  tree->SetBranchAddress("RecoEta",&RecoEta);
  tree->SetBranchAddress("RecoPhi",&RecoPhi);
  tree->SetBranchAddress("MCPt",&MCPt);
  tree->SetBranchAddress("MCEta",&MCEta);
  tree->SetBranchAddress("MCPhi",&MCPhi);
  tree->SetBranchAddress("EvWeight",&EvWeight);

  long nentries = tree->GetEntriesFast();

  for (int i=0; i<nentries; i++){
    tree->GetEntry(i);
    if (RecoPt<ptmin || RecoPt>ptmax || RecoEta<-etamax || RecoEta>etamax) continue;
    double quantity=(MCPt-RecoPt)/MCPt/RecoPt;
    khistptetaphi->Fill(RecoPt,RecoEta,RecoPhi,quantity,EvWeight);
    khistpteta->Fill(RecoPt,RecoEta,quantity,EvWeight);
    khistptphi->Fill(RecoPt,RecoPhi,quantity,EvWeight);
    ((TProfile2D*)(khistptbins->At(int((RecoPt-ptmin)/ptbinwidth))))->Fill(RecoPhi,RecoEta,quantity,EvWeight);
    khistpt->Fill(RecoPt,quantity,EvWeight);
    khisteta->Fill(RecoEta,quantity,EvWeight);
    khistphi->Fill(RecoPhi,quantity,EvWeight);
  }



  TCanvas *c1 = new TCanvas();
  khistptetaphi->Draw("BOX");

  TCanvas *c2 = new TCanvas();
  c2->Divide(2,1);
  c2->cd(1);
  khistpteta->Draw("BOX");
  c2->cd(2);
  khistptphi->Draw("BOX");

  TCanvas *c2b = new TCanvas();
  c2b->Divide(3,1);
  c2b->cd(1);
  khistpt->Draw();
  c2b->cd(2);
  khisteta->Draw();
  c2b->cd(3);
  khistphi->Draw();

  TCanvas *c3 = new TCanvas();
  c3->Divide(int(sqrt(ptbins))+1,int(sqrt(ptbins)));
  for (int i=0;i<ptbins;i++) { c3->cd(i+1); ((TProfile2D*)(khistptbins->At(i)))->Draw("SURF1 PSR Z");}




  TProfile *khistcorrpt = new TProfile("DeltaCurv(pt)","DeltaCurv(pt) "+sign,ptbins,ptmin,ptmax);
  khistcorrpt->GetXaxis()->SetTitle("Pt");
  khistcorrpt->SetAxisRange(-0.001,0.001,"Y");
  TProfile *khistcorreta = new TProfile("DeltaCurv(eta)","DeltaCurv(eta) "+sign,etabins,-etamax,etamax);
  khistcorrpt->GetXaxis()->SetTitle("Eta");
  TProfile *khistcorrphi = new TProfile("DeltaCurv(phi)","DeltaCurv(phi) "+sign,phibins,-3.14,3.14);
  khistcorrpt->GetXaxis()->SetTitle("Phi");

  // correction
   for (int i=0; i<nentries; i++){
    tree->GetEntry(i);
    if (RecoPt<ptmin || RecoPt>ptmax || RecoEta<-etamax || RecoEta>etamax) continue;
    double newpt=RecoPt+RecoPt*RecoPt*khistptetaphi->GetBinContent(khistptetaphi->FindBin(RecoPt,RecoEta,RecoPhi));
    double quantity=(MCPt-newpt)/MCPt/newpt;
    khistcorrpt->Fill(RecoPt,quantity,EvWeight);
    khistcorreta->Fill(RecoEta,quantity,EvWeight);
    khistcorrphi->Fill(RecoPhi,quantity,EvWeight);
   }

   TCanvas *corrc2b = new TCanvas();
  corrc2b->Divide(3,1);
  corrc2b->cd(1);
  khistcorrpt->Draw();
  corrc2b->cd(2);
  khistcorreta->Draw();
  corrc2b->cd(3);
  khistcorrphi->Draw();


khistptetaphi->SetName("ist");
khistptetaphi->SaveAs("mcptbinscorrectionfactors.C");

}
Example #11
0
void RunPidGetterQAEff()
{
        
    TString PidFrameworkDir = "/lustre/nyx/cbm/users/klochkov/soft/PidFramework/";
    gSystem->Load( PidFrameworkDir + "build/libPid");  
    
    gStyle->SetOptStat(0000);

    TFile *f2 = new TFile("pid_0.root");    
    TTree *PidTree = (TTree*) f2->Get("PidTree");

    TofPidGetter *getter = new TofPidGetter();
    TBranch *PidGet = PidTree->GetBranch("TofPidGetter");
    PidGet->SetAddress(&getter);

    PidGet->GetEntry(0);
    Float_t ret[3];
        
    TProfile *hEffP  = new  TProfile ("hEffP", "", 100, 0, 10);
    TProfile *hEffPi = new  TProfile ("hEffPi", "", 100, 0, 6);
    TProfile *hEffK  = new  TProfile ("hEffK", "", 100, 0, 5);

    TProfile *hEffPSigma  = new  TProfile ("hEffPSigma", "", 100, 0, 10);
    TProfile *hEffPiSigma = new  TProfile ("hEffPiSigma", "", 100, 0, 6);
    TProfile *hEffKSigma  = new  TProfile ("hEffKSigma", "", 100, 0, 5);

    TProfile2D *hEffPtYP  = new  TProfile2D ("hEffPtYP", "", 100,   -2.5, 2.5, 100, 0, 4);
    TProfile2D *hEffPtYK  = new  TProfile2D ("hEffPtYK", "", 100,   -2.5, 2.5, 100, 0, 4);
    TProfile2D *hEffPtYPi  = new  TProfile2D ("hEffPtYPi", "", 100, -2.5, 2.5, 100, 0, 4);

    TString InTreeFileName = "/lustre/nyx/cbm/users/dblau/cbm/mc/UrQMD/AuAu/10AGeV/sis100_electron/SC_ON/2016_09_01/tree/11111.root";
    TFile *InFile = new TFile(InTreeFileName);    
    TTree *InTree = (TTree*) InFile->Get("fDataTree");
    DataTreeEvent* DTEvent;
    InTree -> SetBranchAddress("DTEvent",&DTEvent);

    int nevents = 100000;//InTree->GetEntries();
    int outputstep = 100;
    std::cout << "Entries = " << nevents << std::endl;

    for (int j=0;j<nevents;j++)
    {
        if ( (j+1) % outputstep == 0) std::cout << j+1 << "/" << nevents <<  "\r" << std::flush;
        InTree->GetEntry(j);
        
        Int_t Nmc[3] = {100,100,100};
        Int_t Ntof[3] = {0,0,0};
        Int_t PdgCode[3] = {2212, 212, 211};
        Double_t sigmas [3] = {0,0,0};
                
        for (int i=0;i<DTEvent->GetNTracks(); i++)
        {
            
            TLorentzVector v;
            
            DataTreeTrack* track = DTEvent -> GetTrack(i);
            DataTreeMCTrack* mctrack = DTEvent -> GetMCTrack(i);
            Double_t p = mctrack->GetPt() * TMath::CosH( mctrack->GetEta() );
            if (track->GetTOFHitId() < 0)
            {
                if (mctrack->GetPdgId() == 2212  )  
                {
                    v.SetPtEtaPhiM (track->GetPt(0), track->GetEta(0), track->GetPhi(0), 0.9386);
                    hEffP->Fill ( p, 0 );
                    hEffPSigma->Fill ( p, 0 );
                    hEffPtYP -> Fill( v.Rapidity() - 1.52, v.Pt(), 0 );
                }
                
                if (mctrack->GetPdgId() == 321  )  
                {
                    v.SetPtEtaPhiM (track->GetPt(0), track->GetEta(0), track->GetPhi(0), 0.5);
                    hEffK->Fill ( p, 0 );
                    hEffKSigma->Fill ( p,  0 ); 
                    hEffPtYK -> Fill( v.Rapidity() - 1.52, v.Pt(), 0 );
                }
                
                if (mctrack->GetPdgId() == 211  )  
                {
                    v.SetPtEtaPhiM (track->GetPt(0), track->GetEta(0), track->GetPhi(0), 0.14);
                    hEffPi->Fill ( p, 0 );
                    hEffPiSigma->Fill ( p,  0);  
                    hEffPtYPi -> Fill( v.Rapidity() - 1.52, v.Pt(),  0 );
                }
                continue;
            }
//             
            DataTreeTOFHit* toftrack = DTEvent -> GetTOFHit(track->GetTOFHitId());
            p = toftrack->GetP();
            Double_t m2 = toftrack->GetMass2 ();
            
            Bool_t cut = toftrack->GetBeta() > 0.1 && ( track->GetChiSq(0)/track->GetNDF(0) < 3 ) && p > 1.0 ;
            if ( !cut ) continue;
            
            getter->GetBayesProbability (m2, p, ret);
            sigmas[0] = getter->GetSigmaProton (m2, p);
            sigmas[1] = getter->GetSigmaKaon (m2, p);
            sigmas[2] = getter->GetSigmaPion (m2, p);
            
    //             std::cout << "pdg = " << mctrack->GetPdgId() << " p = " << p << " Sp = " << sigmas[0] << " Sk = " << sigmas[1]<< " Spi = " << sigmas[2] << std::endl;
            
            if (mctrack->GetPdgId() == 2212  )  
            {
                v.SetPtEtaPhiM (track->GetPt(0), track->GetEta(0), track->GetPhi(0), 0.9386);
                hEffP->Fill ( p, ret[0] > 0.9 );
                hEffPSigma->Fill ( p,  sigmas[0] < 3&& sigmas[1] > 2 && sigmas[2] > 2 );
                hEffPtYP -> Fill( v.Rapidity() - 1.52, v.Pt(),  ret[0] > 0.9 );
            }
            
            if (mctrack->GetPdgId() == 321  )  
            {
                v.SetPtEtaPhiM (track->GetPt(0), track->GetEta(0), track->GetPhi(0), 0.5);
                hEffK->Fill ( p, ret[1] > 0.9 );
                hEffKSigma->Fill ( p,  sigmas[1] < 3&& sigmas[2] > 2 && sigmas[0] > 2 ); 
                hEffPtYK -> Fill(  v.Rapidity() - 1.52, v.Pt(),  ret[1] > 0.9 );
            }
            
            if (mctrack->GetPdgId() == 211  )  
            {
                v.SetPtEtaPhiM (track->GetPt(0), track->GetEta(0), track->GetPhi(0), 0.14);
                hEffPi->Fill ( p, ret[2] > 0.9 );
                hEffPiSigma->Fill ( p, sigmas[2] < 3&& sigmas[0] > 2 && sigmas[1] > 2 );  
                hEffPtYPi -> Fill( v.Rapidity() - 1.52, v.Pt(),  ret[2] > 0.9  );
            }
        }
    }

    hEffP       -> SetMarkerStyle(21);      hEffP       -> SetMarkerColor(kRed);     hEffP       -> SetLineColor(kRed); 
    hEffPi      -> SetMarkerStyle(21);      hEffPi      -> SetMarkerColor(kRed);     hEffPi      -> SetLineColor(kRed); 
    hEffK       -> SetMarkerStyle(21);      hEffK       -> SetMarkerColor(kRed);     hEffK       -> SetLineColor(kRed); 
    hEffPSigma  -> SetMarkerStyle(22);      hEffPSigma  -> SetMarkerColor(kBlue);    hEffPSigma  -> SetLineColor(kBlue);
    hEffPiSigma -> SetMarkerStyle(22);      hEffPiSigma -> SetMarkerColor(kBlue);    hEffPiSigma -> SetLineColor(kBlue);
    hEffKSigma  -> SetMarkerStyle(22);      hEffKSigma  -> SetMarkerColor(kBlue);    hEffKSigma  -> SetLineColor(kBlue);

    hEffP->GetXaxis()->SetTitle( "p, GeV/c" );
    hEffP->GetYaxis()->SetTitle(  "Efficiency"  );    
    hEffP->GetYaxis()->SetRangeUser(0.0, 1.);

    hEffK->GetXaxis()->SetTitle( "p, GeV/c" );
    hEffK->GetYaxis()->SetTitle(  "Efficiency"  );    
    hEffK->GetYaxis()->SetRangeUser(0.0, 1.);

    hEffPi->GetXaxis()->SetTitle( "p, GeV/c" );
    hEffPi->GetYaxis()->SetTitle(  "Efficiency"  );    
    hEffPi->GetYaxis()->SetRangeUser(0.0, 1.);
    
    hEffPtYP->GetYaxis()->SetTitle( "p_{T}, GeV/c" );
    hEffPtYP->GetXaxis()->SetTitle(  "Rapidity"  );
    hEffPtYK->GetYaxis()->SetTitle( "p_{T}, GeV/c" );
    hEffPtYK->GetXaxis()->SetTitle(  "Rapidity"  );
    hEffPtYPi->GetYaxis()->SetTitle( "p_{T}, GeV/c" );
    hEffPtYPi->GetXaxis()->SetTitle(  "Rapidity"  );
    
    TCanvas *c1 = new TCanvas ("c1", "c1", 1400, 700);
    c1->Divide(3,1);

    c1->cd(1);
    hEffP->Draw();
    hEffPSigma->Draw("same");
    c1->cd(2);
    hEffK->Draw();
    hEffKSigma->Draw("same");
    c1->cd(3);
    hEffPi->Draw();
    hEffPiSigma->Draw("same");

//     c1->cd(4);
//     getter->GetProtonSigma()->Draw();
//     getter->GetKaonSigma()->Draw("same");
//     getter->GetPionSigma()->Draw("same");
// 
//     c1->cd(5);
//     getter->GetProtonA()->Draw();
//     getter->GetKaonA()->Draw("same");
//     getter->GetPionA()->Draw("same");
// 
//     c1->cd(6);
//     getter->GetProtonM2()->Draw();
//     getter->GetKaonM2()->Draw("same");
//     getter->GetPionM2()->Draw("same");    
    
    TCanvas *c2 = new TCanvas ("c2", "c2", 1400, 700);
    
    c2->Divide(3,1);
    c2->cd(1);
    hEffPtYP->Draw("colz");

    c2->cd(2);
    hEffPtYK->Draw("colz");
    
    c2->cd(3);
    hEffPtYPi->Draw("colz");
    
   
    c1->SaveAs("Canvas_Eff_p_all.root");
    c1->SaveAs("Canvas_Eff_p_all.C");
    c1->SaveAs("Canvas_Eff_p_all.png");
   
    c2->SaveAs("Canvas_Eff_pT_Y_all.root");
    c2->SaveAs("Canvas_Eff_pT_Y_all.C");
    c2->SaveAs("Canvas_Eff_pT_Y_all.png");
   
}
Example #12
0
void tauStudy(const TString inputfile = "/afs/cern.ch/work/k/klawhorn/HHToBBTT/Conf4_10GeV/HHToBBTT_10GeVJets_14TeV.root") {

  // set up input tree

  LorentzVector *genTau1=0, *genTau2=0, *genJetTau1=0, *genJetTau2=0, *jetTau1=0, *jetTau2=0;

  Float_t genTau1pt, genTau2pt, genJetTau1pt, genJetTau2pt, jetTau1pt, jetTau2pt, corrJetTau1pt, corrJetTau2pt;
  Float_t genTau1eta, genTau2eta, genJetTau1eta, genJetTau2eta, jetTau1eta, jetTau2eta;

  TFile *infile = new TFile(inputfile, "READ"); assert(infile);
  TTree *intree = (TTree*) infile->Get("Events"); assert(intree);

  intree->SetBranchAddress("genTau1",        &genTau1);
  intree->SetBranchAddress("genTau2",        &genTau2);
  intree->SetBranchAddress("genJetTau1",     &genJetTau1);
  intree->SetBranchAddress("genJetTau2",     &genJetTau2);
  intree->SetBranchAddress("jetTau1",        &jetTau1);
  intree->SetBranchAddress("jetTau2",        &jetTau2);

  const Float_t PT_MAX = 500;
  const Float_t PT_MIN = 0;
  const Int_t PT_BINS = 50;
  const Float_t ETA_MAX = 2.4;
  const Float_t ETA_MIN = -2.4;
  const Int_t ETA_BINS = 16;
  
  TProfile *tauTagEffWithPT = new TProfile("tauTagEffWithPT", "Tau Tagging Efficiency", PT_BINS, PT_MIN, PT_MAX);
  TProfile *tauTagEffWithEta = new TProfile("tauTagEffWithEta", "Tau Tagging Efficiency", ETA_BINS, ETA_MIN, ETA_MAX);

  //TProfile *ptScaleWithPT = new TProfile("ptScaleWithPT", "P_{T} Scale Factor between gen Tau and reco Jet", PT_BINS, PT_MIN, PT_MAX);
  //TProfile *ptJetScaleWithPT = new TProfile("ptJetScaleWithPT", "P_{T} Scale Factor between gen Jet and reco Jet", PT_BINS, PT_MIN, PT_MAX);

  //TProfile *ptScaleWithEta = new TProfile("ptScaleWithEta", "P_{T} Scale Factor between gen Tau and reco Jet", ETA_BINS, ETA_MIN, ETA_MAX);
  //TProfile *ptJetScaleWithEta = new TProfile("ptJetScaleWithEta", "P_{T} Scale Factor between gen Jet and reco Jet", ETA_BINS, ETA_MIN, ETA_MAX);

  //TProfile *ptResWithPT = new TProfile("ptResWithPT", "P_{T} Resolution between gen Tau and reco Jet", PT_BINS, PT_MIN, PT_MAX);
  TProfile *ptJetResWithPT = new TProfile("ptJetResWithPT", "P_{T} Resolution: (genJet-recoJet)/(genJet)", PT_BINS, PT_MIN, PT_MAX);
  TProfile *ptJetResCorrWithPT = new TProfile("ptJetResCorrWithPT", "P_{T} Resolution: (genJet-recoJet)/(genJet)", PT_BINS, PT_MIN, PT_MAX);

  //TProfile *ptResWithEta = new TProfile("ptResWithEta", "P_{T} Resolution between gen Tau and reco Jet", ETA_BINS, ETA_MIN, ETA_MAX);
  TProfile *ptJetResWithEta = new TProfile("ptJetResWithEta", "P_{T} Resolution: (genJet-recoJet)/(genJet)", ETA_BINS, ETA_MIN, ETA_MAX);
  TProfile *ptJetResCorrWithEta = new TProfile("ptJetResCorrWithEta", "P_{T} Resolution: (genJet-recoJet)/(genJet)", ETA_BINS, ETA_MIN, ETA_MAX);
  
  for (Int_t iEntry=0; iEntry<intree->GetEntries(); iEntry++) {
    intree->GetEntry(iEntry);

    genTau1pt = genTau1->Pt();       genTau1eta = genTau1->Eta();
    genTau2pt = genTau2->Pt();       genTau2eta = genTau2->Eta();
    genJetTau1pt = genJetTau1->Pt(); genJetTau1eta = genJetTau1->Eta();
    genJetTau2pt = genJetTau2->Pt(); genJetTau2eta = genJetTau2->Eta();
    jetTau1pt = jetTau1->Pt();       jetTau1eta = jetTau1->Eta();
    jetTau2pt = jetTau2->Pt();       jetTau2eta = jetTau2->Eta();

    // jet corrections
    //if ( (jetTau1pt != 999) ) cout << "eta " << jetTau1eta << " pt " << jetTau1pt << " scaleCorr " << getJetScaleFactor(jetTau1pt, jetTau1eta) << endl;
    corrJetTau1pt = jetTau1pt*getJetScaleFactor(jetTau1pt, jetTau1eta);
    corrJetTau2pt = jetTau2pt*getJetScaleFactor(jetTau2pt, jetTau2eta);

    if ( (genTau1pt != 999) && (jetTau1pt != 999) ) {
      tauTagEffWithPT->Fill(genTau1pt, 1);
      //ptScaleWithPT->Fill(genTau1pt, jetTau1pt/genTau1pt);
      //ptJetScaleWithPT->Fill(genJetTau1pt, jetTau1pt/genJetTau1pt);
      //ptResWithPT->Fill(genTau1pt, (genTau1pt-jetTau1pt)/genTau1pt);
      ptJetResWithPT->Fill(genJetTau1pt, (genJetTau1pt-jetTau1pt)/genJetTau1pt);
      ptJetResCorrWithPT->Fill(genJetTau1pt, (genJetTau1pt-corrJetTau1pt)/genJetTau1pt);

      tauTagEffWithEta->Fill(genTau1eta, 1);
      //ptScaleWithEta->Fill(genTau1eta, jetTau1pt/genTau1pt);
      //ptJetScaleWithEta->Fill(genJetTau1eta, jetTau1pt/genJetTau1pt);
      //ptResWithEta->Fill(genTau1eta, (genTau1pt-jetTau1pt)/genTau1pt);
      ptJetResWithEta->Fill(genJetTau1eta, (genJetTau1pt-jetTau1pt)/genJetTau1pt);
      ptJetResCorrWithEta->Fill(genJetTau1eta, (genJetTau1pt-corrJetTau1pt)/genJetTau1pt);

    }
    else if ( (genTau1pt != 999) && (jetTau1pt == 999) ) {
      tauTagEffWithPT->Fill(genTau1pt, 0);
      tauTagEffWithEta->Fill(genTau1eta, 0);
    }
    if ( (genTau2pt != 999) && (jetTau2pt != 999) ) {
      tauTagEffWithPT->Fill(genTau2pt, 1);
      //ptScaleWithPT->Fill(genTau2pt, jetTau2pt/genTau2pt);
      //ptJetScaleWithPT->Fill(genJetTau2pt, jetTau2pt/genJetTau2pt);
      //ptResWithPT->Fill(genTau2pt, (genTau2pt-jetTau2pt)/genTau2pt);
      ptJetResWithPT->Fill(genJetTau2pt, (genJetTau2pt-jetTau2pt)/genJetTau2pt);
      ptJetResCorrWithPT->Fill(genJetTau2pt, (genJetTau2pt-corrJetTau2pt)/genJetTau2pt);

      tauTagEffWithEta->Fill(genTau2eta, 1);
      //ptScaleWithEta->Fill(genTau2eta, jetTau2pt/genTau2pt);
      //ptJetScaleWithEta->Fill(genJetTau2eta, jetTau2pt/genJetTau2pt);
      //ptResWithEta->Fill(genTau2eta, (genTau2pt-jetTau2pt)/genTau2pt);
      ptJetResWithEta->Fill(genJetTau2eta, (genJetTau2pt-jetTau2pt)/genJetTau2pt);
      ptJetResCorrWithEta->Fill(genJetTau2eta, (genJetTau2pt-corrJetTau2pt)/genJetTau2pt);

    }
    else if ( (genTau2pt != 999) && (jetTau2pt == 999) ) {
      tauTagEffWithPT->Fill(genTau2pt, 0);
      tauTagEffWithEta->Fill(genTau2eta, 0);
    }

  }

  TCanvas *c1 = MakeCanvas("c1", "Tau Tagging Efficiency", 800, 600);
  tauTagEffWithPT->SetMarkerStyle(1);
  tauTagEffWithPT->GetXaxis()->SetTitle("P_{T} of Generator Tau");
  tauTagEffWithPT->GetYaxis()->SetTitle("Efficiency");
  tauTagEffWithPT->Draw();
  
  c1->SaveAs("tauTagEffWithPT.png");

  TCanvas *c2 = MakeCanvas("c2", "Tau Tagging Efficiency", 800, 600);
  tauTagEffWithEta->SetMarkerStyle(1);
  tauTagEffWithEta->GetXaxis()->SetTitle("Eta of Generator Tau");
  tauTagEffWithEta->GetYaxis()->SetTitle("Efficiency");
  tauTagEffWithEta->Draw();

  c2->SaveAs("tauTagEffWithEta.png");
  /*  
  TCanvas *c3 = MakeCanvas("c3", "Tau P_{T} Scale (reco Tau Jet P_{T}/gen Tau P_{T})", 800, 600);
  ptScaleWithPT->SetMarkerStyle(1);
  ptScaleWithPT->GetXaxis()->SetTitle("P_{T} of Generator Tau");
  ptScaleWithPT->GetYaxis()->SetTitle("P_{T} Scale");
  ptScaleWithPT->Draw();

  c3->SaveAs("ptScaleWithPT.png");

  TCanvas *c4 = MakeCanvas("c4", "Tau P_{T} Scale (reco Tau Jet P_{T}/gen Tau P_{T})", 800, 600);
  ptScaleWithEta->SetMarkerStyle(1);
  ptScaleWithEta->GetXaxis()->SetTitle("Eta of Generator Tau");
  ptScaleWithEta->GetYaxis()->SetTitle("P_{T} Scale");
  ptScaleWithEta->Draw();

  c4->SaveAs("ptScaleWithEta.png");

  TCanvas *c5 = MakeCanvas("c5", "Tau P_{T} Scale (reco Tau Jet P_{T}/gen Tau Jet P_{T})", 800, 600);
  ptJetScaleWithPT->SetMarkerStyle(1);
  ptJetScaleWithPT->GetXaxis()->SetTitle("P_{T} of Generator Tau Jet");
  ptJetScaleWithPT->GetYaxis()->SetTitle("P_{T} Scale");
  ptJetScaleWithPT->Draw();

  c5->SaveAs("ptJetScaleWithPT.png");

  TCanvas *c6 = MakeCanvas("c6", "Tau P_{T} Scale (reco Tau Jet P_{T}/gen Tau Jet P_{T})", 800, 600);
  ptJetScaleWithEta->SetMarkerStyle(1);
  ptJetScaleWithEta->GetXaxis()->SetTitle("Eta of Generator Tau Jet");
  ptJetScaleWithEta->GetYaxis()->SetTitle("P_{T} Scale");
  ptJetScaleWithEta->Draw();

  c6->SaveAs("ptJetScaleWithEta.png");

  TCanvas *c7 = MakeCanvas("c7", "Tau P_{T} Resolution ((reco Tau Jet P_{T} - gen Tau P_{T})/gen Tau P_{T})", 800, 600);
  ptResWithPT->SetMarkerStyle(1);
  ptResWithPT->GetXaxis()->SetTitle("P_{T} of Generator Tau");
  ptResWithPT->GetYaxis()->SetTitle("P_{T} Resolution");
  ptResWithPT->Draw();

  c7->SaveAs("ptResWithPT.png");

  TCanvas *c8 = MakeCanvas("c8", "Tau P_{T} Resolution", 800, 600);
  ptResWithEta->SetMarkerStyle(1);
  ptResWithEta->GetXaxis()->SetTitle("Eta of Generator Tau");
  ptResWithEta->GetYaxis()->SetTitle("P_{T} Resolution");
  ptResWithEta->Draw();
  
  c8->SaveAs("ptResWithEta.png");

  TCanvas *c9 = MakeCanvas("c9", "Tau P_{T} Resolution", 800, 600);
  ptJetResWithPT->SetMarkerStyle(1);
  ptJetResWithPT->GetXaxis()->SetTitle("P_{T} of Generator Tau Jet");
  ptJetResWithPT->GetYaxis()->SetTitle("P_{T} Resolution");
  ptJetResWithPT->Draw();
  ptJetResCorrWithPT->SetMarkerStyle(1);
  ptJetResCorrWithPT->SetLineColor(2);
  ptJetResCorrWithPT->Draw("same");

  c9->SaveAs("ptJetResWithPT.png");

  TCanvas *c10 = MakeCanvas("c10", "Tau P_{T} Resolution ((reco Tau Jet P_{T} - gen Tau Jet P_{T})/gen Tau Jet P_{T})", 800, 600);
  ptJetResWithEta->SetMarkerStyle(1);
  ptJetResWithEta->GetXaxis()->SetTitle("Eta of Generator Tau Jet");
  ptJetResWithEta->GetYaxis()->SetTitle("P_{T} Resolution");
  ptJetResWithEta->Draw();
  ptJetResCorrWithEta->SetMarkerStyle(1);
  ptJetResCorrWithEta->SetLineColor(2);
  ptJetResCorrWithEta->Draw("same");

  c10->SaveAs("ptJetResWithEta.png");
  */  
}
Example #13
0
File: Analyze.C Project: XuQiao/HI
void
Analyze(const TString mode="CLOSED",
        UShort_t       maxH=6,
        Bool_t         /*doLoops*/=false,
        Int_t ifile=0   )
{
#ifdef __CINT__
  gROOT->LoadMacro("correlations/Types.hh++");
  gROOT->LoadMacro("correlations/Result.hh++");
  gROOT->LoadMacro("correlations/QVector.hh++");
  gROOT->LoadMacro("correlations/recursive/FromQVector.hh++");
  gROOT->LoadMacro("correlations/recurrence/FromQVector.hh++");
  gROOT->LoadMacro("correlations/closed/FromQVector.hh++");
  gROOT->LoadMacro("correlations/test/ReadData.hh++");
#endif
  // --- Setup of harmonics, etc -------------------------------------
  gRandom->SetSeed(54321);
  UShort_t emode = 0;
  if      (mode.EqualTo("closed",     TString::kIgnoreCase)) emode = 0;
  else if (mode.EqualTo("recurrence", TString::kIgnoreCase)) emode = 1;
  else if (mode.EqualTo("recursive",  TString::kIgnoreCase)) emode = 2;
  else
    Warning("Analyze", "Mode %s unknown, assuming CLOSED", mode.Data());

  correlations::QVector        q[nbin];
  correlations::FromQVector*   c[nbin];
  correlations::HarmonicVector h(maxH);
  for (UShort_t i = 0; i < maxH; i++) {
    // Generate random harmonicx
   // h[i] = -6 + gRandom->Integer(12);
   h[0] = 2;
   h[1] = -2;
   h[2] = 2;
   h[3] = -2;
   h[4] = 2;
   h[5] = -2;
   h[6] = -2;
   h[7] = 2;
   // Printf("h_%d:\t%d", i, h[i]);
  }

  // Resize the Q-vector to fit the harmonics
    for(int ibin=0;ibin<nbin;ibin++){
    q[ibin] = correlations::QVector(0,0,false);
    q[ibin].resize(h);
  switch (emode) {
  case 0: c[ibin] = new correlations::closed::FromQVector(q[ibin]); break;
  case 1: c[ibin] = new correlations::recurrence::FromQVector(q[ibin]); break;
  case 2: c[ibin] = new correlations::recursive::FromQVector(q[ibin]); break;
    }
  }
  //Printf("Correlator: %s", c->name());


  // --- Some histograms ---------------------------------------------
  TH1* sumreals[nbin];
  TH1* sumimags[nbin];
  TH1* weights[nbin];
  TVectorD tottrk;
  TVectorD Nevent;
  tottrk.ResizeTo(nbin);
  tottrk.Zero();
  Nevent.ResizeTo(nbin);
  Nevent.Zero();

  //TH1*      reals  = new TH1D("reals", "Re(C{n})", maxH-2+1, 2+.5, maxH+1+.5);
  //TH1*      imags  = static_cast<TH1*>(reals->Clone("imags"));
    for(int ibin=0;ibin<nbin;ibin++){
  sumreals[ibin]  = new TH1D(Form("sumreals_%d",ibin), "Re(C{n})", maxH-2+1, 2+.5, maxH+1+.5);
  sumimags[ibin]  = static_cast<TH1*>(sumreals[ibin]->Clone(Form("sumimags_%d",ibin)));
  weights[ibin]  = static_cast<TH1*>(sumreals[ibin]->Clone(Form("weights_%d",ibin)));
    }
  TProfile* timing = new TProfile("timing", "Timing", maxH-2+1, 2+.5,maxH+1+.5);
  TH1*      hs     = new TH1I("harmonics", "Harmonics", maxH, 1.5, maxH+1.5);
  /*reals->SetFillColor(kGreen+1);
  reals->SetFillStyle(3001);
  reals->SetStats(0);
  imags->SetTitle("Im(C{n})");
  imags->SetFillColor(kBlue+1);
  imags->SetFillStyle(3001);
  imags->SetStats(0);
  timing->SetFillColor(kRed+1);
  timing->SetFillStyle(3001);
  timing->SetStats(0);
  hs->SetFillColor(kMagenta+1);
  hs->SetFillStyle(3001);
  hs->SetStats(0);*/
  for (UShort_t i = 0; i < maxH-1; i++) {
    TString label = TString::Format("C{%d}", i+2);
//    reals->GetXaxis()->SetBinLabel(i+1, label);
//    imags->GetXaxis()->SetBinLabel(i+1, label);
    timing->GetXaxis()->SetBinLabel(i+1, label);
    hs->GetXaxis()->SetBinLabel(i+1,Form("h_{%d}", i+1));
    hs->SetBinContent(i+1, h[i]);
  }
  hs->GetXaxis()->SetBinLabel(maxH,Form("h_{%d}", maxH));
  hs->SetBinContent(maxH, h[maxH-1]);

  TStopwatch timer;
 
  // --- Setup input ------------------------------------------------
  TFile*   file = TFile::Open(Form("%s/vndata_50k_%d.root",dir.Data(),ifile), "READ");
  TTree*   tree = static_cast<TTree*>(file->Get("tree"));
//  TArrayD  phis(0);
  Int_t M;
  Float_t phi[10000],pt[10000],eta[10000];
//  TArrayD  weights(0);
//  Double_t phiR = 0;
//  TArrayD* pPhis = &phis;
//  TArrayD* pWeights = &weights;
  tree->SetBranchAddress("phig", phi);
  tree->SetBranchAddress("ptg",pt);
  tree->SetBranchAddress("etag",eta);
  tree->SetBranchAddress("n", &M);
//  tree->SetBranchAddress("weight", &pWeights);
//  tree->SetBranchAddress("event", &phiR);


  // --- The results -------------------------------------------------
  const UShort_t             nQ = maxH - 1;
  correlations::ResultVector qs[nbin];
    for(int ibin=0;ibin<nbin;ibin++)
        qs[ibin] = correlations::ResultVector(nQ);

  // --- Event loop --------------------------------------------------
  Int_t nEvents = tree->GetEntries();
  for (Int_t event = 0; event < nEvents; event++) {
    tree->GetEntry(event);
    int ntrk = M; int xbin=-1;
    for(int j=0;j<nbin;j++)
        if(ntrk<trkbin[j]&&ntrk>=trkbin[j+1])
            xbin=j;
        if(xbin<0 || xbin==nbin) continue;
    tottrk[xbin]+=ntrk;
    q[xbin].reset();
 //   printf("Event # %4u  %4d particles ", event++, phis.GetSize());
    for (UShort_t pa = 0; pa < M; pa++){
	if(fabs(eta[pa])>etamax) continue;
        if(pt[pa]<ptmin||pt[pa]>ptmax) continue; //event selection
  //  phis.Set(n,pPhis);
      q[xbin].fill(phi[pa], 1.);
    }
    for (UShort_t i = 0; i < nQ; i++) {
      UShort_t n = i + 2;
   //   printf("%s%d", i == 0 ? "" : "..", n);
      timer.Reset();
      timer.Start();
      qs[xbin][i] += c[xbin]->calculate(n, h);
      timer.Stop();
      timing->Fill(n+.5, timer.RealTime());
    }

  //  printf(" done\n");
  Nevent[xbin]++;
  }
  file->Close();

    for(int ibin=0;ibin<nbin;ibin++){
  for (UShort_t i = 0; i < nQ; i++) {
 //   UShort_t iq = i+2;
 //   Double_t              t  = timing->GetBinContent(i+1);
 //   correlations::Complex rc = qs[i].eval();
   // Printf("QC{%2d}: %12g + %12gi  <t>: %10gs",
//	   iq, rc.real(), rc.imag(), t);
   // if(i==0)Printf("v2{%2d}: %3g\n",2,sqrt(qs[0].eval().real()));
   // if(i==2)Printf("v2{%2d}: %3g\n",4,TMath::Power(fabs(qs[2].eval().real()),1./4));
   // if(i==4)Printf("v2{%2d}: %3g\n",6,TMath::Power(fabs(qs[4].eval().real()),1./6));
    sumreals[ibin]->SetBinContent(i+1,qs[ibin][i]._sum.real());
    sumimags[ibin]->SetBinContent(i+1,qs[ibin][i]._sum.imag());
    weights[ibin]->SetBinContent(i+1,qs[ibin][i]._weights);
    //reals->SetBinContent(i+1, rc.real());
    //imags->SetBinContent(i+1, rc.imag());
  }
    }

/*
  TCanvas* can = new TCanvas("C", "C");
  can->SetTopMargin(0.15);
  can->SetBottomMargin(0.15);
  can->SetRightMargin(0.03);
  can->Divide(1,3, 0, 0);

  DrawInPad(can, 3, timing, true);
  DrawInPad(can, 1, reals);
  DrawInPad(can, 2, imags);

  can->cd(0);
  TLatex* ltx = new TLatex(0.5,0.995,c->name());
  ltx->SetNDC(true);
  ltx->SetTextAlign(23);
  ltx->SetTextSize(0.04);
  ltx->Draw();

  can->Modified();
  can->Update();
  can->cd();
*/
  TString out(mode);
  out.ToLower();
  file = TFile::Open(Form("%s/%s_%d.root",outdir.Data(),out.Data(),ifile), "RECREATE");
    for(int ibin=0;ibin<nbin;ibin++){
  sumimags[ibin]->Write();
  sumreals[ibin]->Write();
  weights[ibin]->Write();
    }
  Nevent.Write("Nevent");
  tottrk.Write("tottrk");
  timing->Write();
  hs->Write();
  file->Write();
  file->Close();
    for(int ibin=0;ibin<nbin;ibin++){
  delete sumimags[ibin];
  delete sumreals[ibin];
  delete weights[ibin];
    }
  delete timing;
  delete hs;
}
void balanceMetVsAj(TString infname = "dj_HCPR-J50U-hiGoodMergedTracks_OfficialSelv2_Final0_120_50.root",TCut myCut = "cent<30", char *title = "",bool drawLegend = false)
{
   TFile *inf = new TFile(infname);
   TTree *t = (TTree*)inf->Get("ntjt");

   const int nBin = 3;
   double bins[nBin+1] = {0.5,4,8,1000};  
   double colors[nBin] = {kOrange-8,kBlue-3,kRed};

   // Selection cut
   TCut evtCut = "nljet>100&&abs(nljetacorr)<2&&aljet>50&&abs(aljetacorr)<2&&jdphi>2./3*TMath::Pi()&&!maskEvt";

   cout << "Sel evt: " << t->GetEntries(evtCut&&myCut) << endl;

   TProfile *p[nBin];

   for (int i=0;i<nBin;i++)
   {
      p[i] = new TProfile(Form("p%d",i),"",5,0.0001,0.49999);
      t->Project(Form("p%d",i),Form("-1*metxMerged%d:Aj",i), "1"*(evtCut&&myCut));
      p[i]->SetLineColor(colors[i]);     
      p[i]->SetMarkerColor(colors[i]);     
   }

   TProfile *pall = new TProfile("pall","",5,0.0001,0.49999);
   pall->SetXTitle("A_{J}");
   pall->SetYTitle("<#slash{p}_{T}^{#parallel}> (GeV/c)");
   pall->GetXaxis()->CenterTitle();
   pall->GetYaxis()->CenterTitle();
   pall->SetNdivisions(505);
   t->Project("pall","-1*metx:Aj", "1"*(evtCut&&myCut));
   pall->SetAxisRange(-50,50,"Y");
   pall->SetMarkerSize(1);
   pall->Draw("E");
   for (int i=0;i<nBin;++i) {
      p[i]->SetLineWidth(3);
      p[i]->Draw("e hist same");
   }
   pall->Draw("E same");

   // Legend
   TLegend *leg = new TLegend(0.10,0.68,0.70,0.96);
   leg->SetFillStyle(0);
   leg->SetBorderSize(0);
   leg->SetTextFont(63);
   leg->SetTextSize(16);
   leg->AddEntry(pall,Form("> %.1f GeV/c",bins[0]),"pl");
   for (int i=0;i<nBin;++i) {
      if (i!=nBin-1){
         leg->AddEntry(p[i],Form("%.1f - %.1f GeV/c",bins[i],bins[i+1]),"l");
      } else {
         leg->AddEntry(p[i],Form("> %.1f GeV/c",bins[i]),"l");
      }
   }

   if (drawLegend) leg->Draw();

   TLine * l0 = new TLine(0,0,0.5,0);
   l0->SetLineStyle(2);
   l0->Draw();

   TText *titleText = new TText(0.3,30,title);
   titleText->Draw();
}
void draw_clouds_profiles()
{
    //        gROOT->ProcessLine(".L ../utils.C");
    //        gROOT->ProcessLine(".L AliLRCFit.cxx");
    TFile *f[8];

    //    f[0] = new TFile( "output_classesByV0M_LHC10h.root" );
    //    f[0] = new TFile( "output_classesByV0M_LHC10h_c10_5_1.root" );
        f[0] = new TFile( "output_classesByV0M_LHC10h_c10_5_25_1_05.root" );
//    f[0] = new TFile( "output_classesByV0M_LHC11h_FemtoPlus_c10_5_CUT_OUTLIERS.root" );

//    f[0] = new TFile( "output_classesByV0M_LHC15o_fieldMM_c10_5_CUT_OUTLIERS.root" );
//    f[0] = new TFile( "output_classesByV0M_LHC15o_fieldPP_c10_5_CUT_OUTLIERS.root" );

//    const int nCW = 2; //nCentrWidths
//    const double cWidths[nCW] = { 10, 5 }; //width of the centrality bins
//    const double cStep[nCW] = { 5, 2.5 }; //centrality bins step
//    const int nCentrBins[nCW] = { 17, 35 }; //n centrality bins

    //    const int nCW = 3; //nCentrWidths
    //    const double cWidths[nCW] = { 10, 5, 1.0 }; //width of the centrality bins
    //    const double cStep[nCW] = { 5, 2.5, 1.0 }; //centrality bins step
    //    const int nCentrBins[nCW] = { 17, 35, 90 }; //n centrality bins

    //    const int nCW = 4; //nCentrWidths
    //    const double cWidths[nCW] = { 10, 5, 1.0, 0.5 }; //width of the centrality bins
    //    const double cStep[nCW] = { 5, 2.5, 1.0, 1.0 }; //centrality bins step
    //    const int nCentrBins[nCW] = { 17, 35, 90, 90 }; //n centrality bins

        const int nCW = 5; //nCentrWidths
        const double cWidths[nCW] = { 10, 5, 2.5, 1.0, 0.5 }; //width of the centrality bins
        const double cStep[nCW] = { 5, 2.5,  2.5, 1.0, 1.0 }; //centrality bins step
        const int nCentrBins[nCW] = { 17, 35, 36,  90, 90 }; //n centrality bins


    TH2D *hist2D;//[200][3];
    TProfile *profile;//[200][3];
    int cW = 2;
    int etaW = 1;
    int phiW = 0;

    const int kCorrType = 1; //0-NN, 1-PtPt, 2-PtN

    TCanvas *canv_tmp_for_fit = new TCanvas("canv_tmp_for_fit","canv_tmp_for_fit",50,50,300,300 );
    TCanvas *canv_2D_clouds = new TCanvas("canv_2D_clouds","canv_2D_clouds",150,250,1400,600 );
    tuneCanvas(canv_2D_clouds);
    canv_2D_clouds->Divide(2,1);

    gStyle->SetOptStat( kFALSE );

    TGraph *grFromFit2D = new TGraph;

    bool firstDraw = true;
    //    for ( int cBin = 0; cBin < nCentrBins[cW]; cBin++ )
    for ( int cBin = nCentrBins[cW]-1; cBin >= 0; cBin-- )
    {
                if (cBin%2!=0)
                    continue;

        //        cout << "cBin=" << cBin << endl;

        float cBinMin = cStep[cW] * cBin;
        float cBinMax = cWidths[cW] + cStep[cW] * cBin;

        // ##### pad 1 - clouds
        tunePad( canv_2D_clouds->cd(1) );
        if ( kCorrType == 0 )
        {
            hist2D = (TH2D*)f[0]->Get( Form("hist2D_NN_c%.1f-%.1f_etaW_%d_phiW_%d", cBinMin, cBinMax, etaW, phiW) );
            hist2D->SetTitle( "");
            hist2D->GetXaxis()->SetTitle( "N_{ch} Forward");
            hist2D->GetYaxis()->SetTitle( "N_{ch} Backward");
            hist2D->GetXaxis()->SetRangeUser(0,650);
            hist2D->GetYaxis()->SetRangeUser(0,650);
        }
        else if ( kCorrType == 1 )
        {
            hist2D = (TH2D*)f[0]->Get( Form("hist2D_PtPt_c%.1f-%.1f_etaW_%d_phiW_%d", cBinMin, cBinMax, etaW, phiW) );
            hist2D->SetTitle( "");
            hist2D->GetXaxis()->SetTitle( "#LTp_{T}#GT Forward");
            hist2D->GetYaxis()->SetTitle( "#LTp_{T}#GT Backward");
        }     hist2D->SetMarkerColor(kOrange-9+cBin);
        tuneHist2D_onPad(hist2D);
        hist2D->GetXaxis()->CenterTitle();
        hist2D->GetYaxis()->CenterTitle();

        //        removeBinsWithFewEntries(hist2D);

        hist2D->DrawCopy( firstDraw ? "" : "same" );

        // ##### pad 2 - profiles
        tunePad( canv_2D_clouds->cd(2) );
        profile = hist2D->ProfileX();    //(TProfile*)f[0]->Get( Form("hist2D_c%.1f-%.1f_etaW_%d_phiW_%d_pfx", cBinMin, cBinMax, etaW, phiW) );
        if ( kCorrType == 0 )
        {
            profile->SetTitle( "");
            profile->GetYaxis()->SetTitle( "#LTN_{ch}#GT Backward");
            profile->GetXaxis()->SetRangeUser(0,650);
            profile->GetYaxis()->SetRangeUser(0,650);
        }
        else if ( kCorrType == 1 )
        {
            profile->SetTitle( "");
            profile->GetYaxis()->SetTitle( "#LT#LTp_{T}#GT#GT Backward");
        }
        profile->SetLineColor(kOrange-9+cBin);
        profile->SetMarkerStyle(7);
        tuneProfile_onPad( profile );
        profile->GetYaxis()->CenterTitle();

        deleteProfileEmptyBinErrors(profile);


        canv_tmp_for_fit->cd();
        profile->Fit("pol1","Q");//,"",0.25,1.2);//,"N");
        canv_2D_clouds->cd(2);

        TF1 *fit = profile->GetFunction("pol1");
        Double_t p0 = fit->GetParameter(0);
        Double_t p1 = fit->GetParameter(1);
        grFromFit2D->SetPoint(grFromFit2D->GetN(), (cBinMax+cBinMin)/2, p1);

        double meanX = hist2D->ProjectionX()->GetMean();
        double rmsX = hist2D->ProjectionX()->GetRMS();
        fit->SetRange( meanX-3*rmsX, meanX+3*rmsX );
        fit->SetLineColorAlpha( kRed, 0.6 );

        fit->Draw("same");

        profile->DrawCopy( firstDraw ? "" : "same" );



        firstDraw = false;
    }

    TGraphErrors *grByFormula; /*[cW][etaW]*/
    if ( kCorrType == 0 )
    {
        grByFormula = (TGraphErrors*)f[0]->Get( Form( "grNN_c%d_eta%d", cW, etaW ) );
    }
    else if ( kCorrType == 1 )
    {
        grByFormula = (TGraphErrors*)f[0]->Get( Form( "grPtPt_c%d_eta%d", cW, etaW ) );
    }



    TCanvas *canv_GrCoeff = new TCanvas("canv_GrCoeff","canv_GrCoeff",20,150,900,700 );
    grByFormula->Draw("APL");

    grFromFit2D->SetLineColor(kRed);
    grFromFit2D->DrawClone("PL");



    return;

    TGraphErrors *gr[10][10];
    for ( int cW = 0; cW < 2; cW++ )
        for ( int etaW = 0; etaW < 3; etaW++ )
            gr[cW][etaW] = (TGraphErrors*)f[0]->Get( Form( "grPtPt_c%d_eta%d", cW, etaW ) );



    drawGraph( gr[1][0], 24, kBlack, "APL" );
    drawGraph( gr[0][0], 20, kBlack, "PL" );

    //    drawGraph( gr[1][1], 24, kBlue, "PL" );
    //    drawGraph( gr[0][1], 20, kBlue, "PL" );

    //    drawGraph( gr[1][2], 24, kGreen, "PL" );
    //    drawGraph( gr[0][2], 20, kGreen, "PL" );

    ////    drawGraph( gr[6], 24, kRed, "PL" );
    //    drawGraph( gr[7], 20, kRed, "PL" );



    f[1] = new TFile( "output_histos_graphs_LHC15o_fieldMM.root" );
    TGraphErrors *grMM[10][10];
    for ( int cW = 0; cW < 2; cW++ )
        for ( int etaW = 0; etaW < 3; etaW++ )
            grMM[cW][etaW] = (TGraphErrors*)f[1]->Get( Form( "grPtPt_c%d_eta%d", cW, etaW ) );

    drawGraph( grMM[1][0], 24, kGreen, "PL" );
    drawGraph( grMM[0][0], 20, kGreen, "PL" );

    //    drawGraph( grMM[1][1], 24, kRed, "PL" );
    //    drawGraph( grMM[0][1], 20, kRed, "PL" );

    //    drawGraph( grMM[1][2], 24, kGreen, "PL" );
    //    drawGraph( grMM[0][2], 20, kGreen, "PL" );




    //    gROOT->ProcessLine( ".q");
}
Example #16
0
void fitBjetJES(int ppPbPb=1, int cbinlo=12, int cbinhi=40){

  if(!ppPbPb){
    cbinlo=0;
    cbinhi=40;
  }

  gStyle->SetOptTitle(0);
  gStyle->SetOptStat(0);

  TFile *fL;
  
  if(!ppPbPb)fL=new TFile("histos/ppMC_hiReco_jetTrig_highPurity_JEC.root");
  else     fL=new TFile("histos/PbPbQCDMC_pt30by3_ipHICalibCentWeight.root");

  // these are dummy files for pp
  TFile *fB=new TFile("histos/PbPbBMC_pt30by3_ipHICalibCentWeight.root");
  TFile *fC=new TFile("histos/PbPbCMC_pt30by3_ipHICalibCentWeight.root");


  TNtuple *tL = (TNtuple*) fL->Get("nt");
  TNtuple *tB = (TNtuple*) fB->Get("nt");
  TNtuple *tC = (TNtuple*) fC->Get("nt");
  
  float jtptL, refptL, jtetaL, weightL, refparton_flavorForBL, binL;

  tL->SetBranchAddress("jtpt",&jtptL);
  tL->SetBranchAddress("jteta",&jtetaL);
  tL->SetBranchAddress("refpt",&refptL);
  tL->SetBranchAddress("weight",&weightL);
  if(ppPbPb)tL->SetBranchAddress("bin",&binL);
  tL->SetBranchAddress("refparton_flavorForB",&refparton_flavorForBL);

  float jtptB, refptB, jtetaB, weightB, refparton_flavorForBB, binB;

  tB->SetBranchAddress("jtpt",&jtptB);
  tB->SetBranchAddress("jteta",&jtetaB);
  tB->SetBranchAddress("refpt",&refptB);
  tB->SetBranchAddress("weight",&weightB);
  if(ppPbPb)tB->SetBranchAddress("bin",&binB);
  tB->SetBranchAddress("refparton_flavorForB",&refparton_flavorForBB);

  float jtptC, refptC, jtetaC, weightC, refparton_flavorForBC, binC;

  tC->SetBranchAddress("jtpt",&jtptC);
  tC->SetBranchAddress("jteta",&jtetaC);
  tC->SetBranchAddress("refpt",&refptC);
  tC->SetBranchAddress("weight",&weightC);
  if(ppPbPb)tC->SetBranchAddress("bin",&binC);
  tC->SetBranchAddress("refparton_flavorForB",&refparton_flavorForBC);

  TProfile  *hL = new TProfile("hL","hL",250,50,300,0,10);
  TProfile  *hB = new TProfile("hB","hB",250,50,300,0,10);
  TProfile  *hC = new TProfile("hC","hC",250,50,300,0,10);
  hL->Sumw2(),hB->Sumw2(),hC->Sumw2();


  for(int i=0;i<tL->GetEntries();i++){
    tL->GetEntry(i);
    if(!ppPbPb) binL=39;

    if(fabs(jtetaL)<2 && binL>=cbinlo && binL<cbinhi)
      hL->Fill(refptL,jtptL/refptL,weightL); 


    if(!ppPbPb){
      if(fabs(jtetaL)<2 && binL>=cbinlo && binL<cbinhi && abs(refparton_flavorForBL)==5)
	hB->Fill(refptL,jtptL/refptL,weightL);
      
      if(fabs(jtetaL)<2 && binL>=cbinlo && binL<cbinhi && abs(refparton_flavorForBL)==4)
	hC->Fill(refptL,jtptL/refptL,weightL);      
    }
  }

  if(ppPbPb){
    for(int i=0;i<tB->GetEntries();i++){
      tB->GetEntry(i);
      if(fabs(jtetaB)<2 && binB>=cbinlo && binB<cbinhi && abs(refparton_flavorForBB)==5)
	hB->Fill(refptB,jtptB/refptB,weightB);
    }
    for(int i=0;i<tC->GetEntries();i++){
      tC->GetEntry(i);
      if(fabs(jtetaC)<2 && binC>=cbinlo && binC<cbinhi && abs(refparton_flavorForBC)==4)
	hC->Fill(refptC,jtptC/refptC,weightC);
    }
  }

  
 
  hL->SetMinimum(0.);
  
  hL->SetLineColor(kBlue);
  hB->SetLineColor(kRed);
  hC->SetLineColor(kGreen);

  hL->SetMarkerColor(kBlue);
  hB->SetMarkerColor(kRed);
  hC->SetMarkerColor(kGreen);
  
  //hL->SetMarkerStyle(4);
  //hB->SetMarkerStyle(4);
  //hC->SetMarkerStyle(4);
  
  hL->SetXTitle("genJet p_{T} (GeV/c)");
  hL->SetYTitle("<reco p_{T} / gen p_{T} >");

  hL->GetXaxis()->SetRangeUser(50.,199.999);
  hL->GetYaxis()->SetRangeUser(0.5,1.05);
  
  TCanvas *c1=new TCanvas("c1","c1",800,600);
  c1->SetGridx(1);
  c1->SetGridy(1);

  hL->Draw("e1");
  hB->Draw("e1,same");
  hC->Draw("e1,same");

  TLegend *leg=new TLegend(0.4,0.15,0.9,0.45);
  leg->SetBorderSize(0);
  leg->SetFillStyle(0);
  if(ppPbPb&&cbinlo==0&&cbinhi==40)leg->SetHeader("Pythia+Hydjet, 0-100%");
  leg->AddEntry(hL,"Inclusive jets","pl");
  leg->AddEntry(hC,"c-jets","pl");
  leg->AddEntry(hB,"b-jets","pl");
  leg->Draw();

  TCanvas *c2=new TCanvas("c2","c2",1);
  /*
  TH1F *hL2 = (TH1F*)hL->Clone("hL2");
  TH1F *hB2 = (TH1F*)hB->Clone("hB2");
  hL2->Add(hB2,-1);
  hL2->Draw();
  */

  TH1F  *hcorr = new TH1F("hcorr","hcorr",250,50,300);
  hcorr->Sumw2();

  for(int i=0;i<hL->GetNbinsX();i++){
    cout<<" b resp "<<hB->GetBinContent(i+1)<<endl;
    cout<<" l resp "<<hL->GetBinContent(i+1)<<endl;
    cout<<" l offset "<<1.-hL->GetBinContent(i+1)<<endl;
    cout<<" corrected b resp "<<hB->GetBinContent(i+1)+1.-hL->GetBinContent(i+1)<<endl;
    float jesOffset = 1.-hL->GetBinContent(i+1);

    hcorr->SetBinContent(i+1,hB->GetBinContent(i+1)+jesOffset);

    hcorr->SetBinError(i+1,sqrt(hB->GetBinError(i+1)*hB->GetBinError(i+1)+hL->GetBinError(i+1)*hL->GetBinError(i+1)));


  }

  hcorr->SetMinimum(0.5);
  hcorr->SetMaximum(1.1);
      
  hcorr->SetLineColor(kRed);
  hcorr->SetMarkerColor(kRed);
  hcorr->SetMarkerStyle(4);
  hcorr->Draw();

  TF1 *fCorr = new TF1("fCorr","[0]+[1]*log(x)+[2]*log(x)*log(x)",50,300);
  fCorr->SetLineWidth(1);
  fCorr->SetLineColor(kBlue);
  hcorr->Fit(fCorr);

  TFile *fout;
  if(ppPbPb) fout =new TFile(Form("bJEShistos/bJetScale_PbPb_Cent_fineBin_%d_%d.root",cbinlo,cbinhi),"recreate");
  else fout =new TFile("bJEShistos/bJetScale_PP_fineBin.root","recreate");
  hcorr->Write();
  fCorr->Write();
  fout->Close();

}
Example #17
0
void getMyPlot(TString name, TString canv){
	TFile * f= TFile::Open(name);
   TCanvas *c1 = new TCanvas("c", "c",242,131,604,638);
	c1->Range(0.3110345,-0.07230999,1.01908,0.6295608);
	c1->SetFillColor(0);
	c1->SetBorderMode(0);
	c1->SetBorderSize(2);
	c1->SetLeftMargin(0.12);
	c1->SetRightMargin(0.01);
	c1->SetTopMargin(0.04);
	c1->SetFrameBorderMode(0);
	c1->SetFrameBorderMode(0);
	c1->Divide(1,3);
	c1->cd(1);
	TProfile * p = ((TH2D*)f->Get("hFinalFNeg"))->ProfileX();
	p->GetXaxis()->SetTitle("F_{L} input");
	p->GetYaxis()->SetTitle("F_{L} output");
	p->Draw();

	c1->cd(2);
	TProfile * q = 	((TH2D*)f->Get("hFinalFZero"))->ProfileX();
	q->GetXaxis()->SetTitle("F_{0} input");
	q->GetYaxis()->SetTitle("F_{0} output");
	q->Draw();
	c1->cd(3);

	TProfile * r = 	((TH2D*)f->Get("hFinalFPos"))->ProfileX();
	r->GetXaxis()->SetTitle("F_{R} input");
	r->GetYaxis()->SetTitle("F_{R} output");
	r->Draw();

	c1->SaveAs(canv+".C");


   TCanvas *c2 = new TCanvas("c2", "c2",242,131,604,638);
	c2->Range(0.3110345,-0.07230999,1.01908,0.6295608);
	c2->SetFillColor(0);
	c2->SetBorderMode(0);
	c2->SetBorderSize(2);
	c2->SetLeftMargin(0.12);
	c2->SetRightMargin(0.01);
	c2->SetTopMargin(0.04);
	c2->SetFrameBorderMode(0);
	c2->SetFrameBorderMode(0);
	c2->Divide(1,3);

	c2->cd(1);
	TProfile * p2 = ((TH2D*)f->Get("hFinalFNegVR"))->ProfileX();
	p2->GetXaxis()->SetTitle("V_{R} input");
	p2->GetYaxis()->SetTitle("F_{L} output");
	p2->Draw();

	c2->cd(2);
	TProfile * q2 = ((TH2D*)f->Get("hFinalFZeroVR"))->ProfileX();
	q2->GetXaxis()->SetTitle("V_{R} input");
	q2->GetYaxis()->SetTitle("F_{0} output");
	q2->Draw();

	c2->cd(3);
	TProfile * r2 = ((TH2D*)f->Get("hFinalFPosVR"))->ProfileX();
	r2->GetXaxis()->SetTitle("V_{R} input");
	r2->GetYaxis()->SetTitle("F_{R} output");
	r2->Draw();

	c2->SaveAs(canv+"_AnomInput.C");
}