TProfile* getPlot(TProfile *h1, char *var, TCut cut, char *filename, char* treeName)
{
  TFile *inf = new TFile(filename);
  TTree *t = (TTree*)inf->FindObjectAny(treeName);
  TProfile * tmp = (TProfile*)h1->Clone();
  tmp->SetName("tmp");
  t->Draw(Form("%s>>tmp",var),cut);  
  return tmp;
}
Exemple #2
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();
}
Exemple #3
0
TProfile *extractFlowVZEROsingle(Int_t icentr,Int_t spec,Int_t arm,Bool_t isMC,Float_t pTh,Int_t addbin,const char *nameSp,Float_t detMin,Float_t detMax,Int_t chMin,Int_t chMax){
  LoadLib();

  pTh += 0.00001;

  // NUA correction currently are missing
  char name[100];
  char stringa[200];

  snprintf(name,100,"AnalysisResults.root");
  if(!fo) fo = new TFile(name);
  snprintf(name,100,"contVZEROv%i",arm);
  TList *cont = (TList *) fo->Get(name);

  cont->ls();

  Float_t xMin[5] = {icentr/*centrality bin*/,chMin/*charge*/,pTh/*prob*/,-TMath::Pi()/arm/*Psi*/,detMin/*PID mask*/};
  Float_t xMax[5] = {icentr+addbin,chMax,1.0,TMath::Pi()/arm,detMax};

  cont->ls();

  TProfile *p1 = cont->At(2);
  TProfile *p2 = cont->At(3);
  TProfile *p3 = cont->At(4);

  TH2F *hPsi2DA = cont->At(5);
  TH2F *hPsi2DC = cont->At(6);

  TH1D *hPsiA = hPsi2DA->ProjectionY("PsiA",icentr+1,icentr+addbin+1);
  TH1D *hPsiC = hPsi2DC->ProjectionY("PsiC",icentr+1,icentr+addbin+1);

  if(!fPsi) fPsi = new TF1("fPsi","pol0",-TMath::Pi()/arm,TMath::Pi()/arm);
  hPsiA->Fit(fPsi,"0");
  Float_t offsetA = fPsi->GetParameter(0);
  hPsiC->Fit(fPsi,"0");
  Float_t offsetC = fPsi->GetParameter(0);

  Int_t nbinPsi = hPsiA->GetNbinsX();

  Float_t *NUAcorrA = new Float_t[nbinPsi];
  Float_t *NUAcorrC = new Float_t[nbinPsi];

  for(Int_t i=0;i < nbinPsi;i++){
    NUAcorrA[i] = offsetA/(hPsiA->GetBinContent(i+1));
    NUAcorrC[i] = offsetC/(hPsiC->GetBinContent(i+1));
  }

  Float_t res1=0,res2=0,res3=0; 
  Float_t eres1=0,eres2=0,eres3=0; 

  for(Int_t i = icentr; i <= icentr+addbin;i++){
    if(p1->GetBinError(i+1)){
      eres1 += 1./p1->GetBinError(i+1)/p1->GetBinError(i+1);
      res1 += p1->GetBinContent(i+1)/p1->GetBinError(i+1)/p1->GetBinError(i+1);      
    }
    if(p2->GetBinError(i+1)){
      eres2 += 1./p2->GetBinError(i+1)/p2->GetBinError(i+1);
      res2 += p2->GetBinContent(i+1)/p2->GetBinError(i+1)/p2->GetBinError(i+1);      
    }
    if(p3->GetBinError(i+1)){
      eres3 += 1./p3->GetBinError(i+1)/p3->GetBinError(i+1);
      res3 += p3->GetBinContent(i+1)/p3->GetBinError(i+1)/p3->GetBinError(i+1);      
    }
  }

  res1 /= eres1;
  res2 /= eres2;
  res3 /= eres3;
  
  eres1 = sqrt(1./eres1);
  eres2 = sqrt(1./eres2);
  eres3 = sqrt(1./eres3);

  AliFlowVZEROResults *a = (AliFlowVZEROResults *) cont->At(0);
  AliFlowVZEROResults *b = (AliFlowVZEROResults *) cont->At(1);
  TProfile *pp,*pp2;
  if(kNUAcorr){ // with NUA corrections
    pp = a->GetV2reweight(spec,xMin,xMax,3,NUAcorrA);
    pp2 = b->GetV2reweight(spec,xMin,xMax,3,NUAcorrC);
  }
  else{
    pp = a->GetV2(spec,xMin,xMax);
    pp2 = b->GetV2(spec,xMin,xMax);
  }
  
  Float_t scaling = sqrt(res1*res3/res2);
  if(kVZEROrescorr){
    pp->Scale(1./scaling);
  }

  Float_t err1_2 = eres1*eres1/res1/res1/4 +
    eres2*eres2/res2/res2/4 +
    eres3*eres3/res3/res3/4;
  Float_t err2_2 = err1_2;
  err1_2 /= scaling*scaling;
  printf("resolution V0A = %f +/- %f\n",scaling,err1_2);
  scaling = sqrt(res2*res3/res1);
  err2_2 /= scaling*scaling;
  if(kVZEROrescorr){
    pp2->Scale(1./scaling);
  }
  printf("resolution V0C =%f +/- %f\n",scaling,err2_2);

  pp->SetName("V0A");
  pp2->SetName("V0C");

  if(! kCleanMemory){
    new TCanvas();  
    pp->Draw();
    pp2->Draw("SAME");
  }

  TProfile *pData = new TProfile(*pp);
  pData->Add(pp2);
  snprintf(stringa,100,"%sData",nameSp);
  pData->SetName(stringa);

  TProfile *pMc = NULL;
  
  TProfile *ppMC;
  TProfile *ppMC2;
  
  if(isMC){
    snprintf(name,100,"contVZEROmc");
    cont = (TList *) fo->Get(name);
    cont->ls();
    if(arm == 2){
      AliFlowVZEROResults *c = (AliFlowVZEROResults *) cont->At(0);
      if(! kCleanMemory) c->GetV2(spec,xMin,xMax)->Draw("SAME");
    }
    AliFlowVZEROResults *cA;
    if(fo->Get("contVZEROv2")) cA = (AliFlowVZEROResults *) cont->At(1+2*(arm==3));
    else cA = (AliFlowVZEROResults *) cont->At(0);
    AliFlowVZEROResults *cC;
    if(fo->Get("contVZEROv2")) cC = (AliFlowVZEROResults *) cont->At(2+2*(arm==3));
    else cC = (AliFlowVZEROResults *) cont->At(1);

    TProfile *p1mc = cont->At(5+3*(arm==3));
    TProfile *p2mc = cont->At(6+3*(arm==3));
    TProfile *p3mc = cont->At(7+3*(arm==3));

    Float_t resMC1=0,resMC2=0,resMC3=0; 
    Float_t eresMC1=0,eresMC2=0,eresMC3=0; 

    for(Int_t i = icentr; i <= icentr+addbin;i++){
      if(p1mc->GetBinError(i+1)){
	eresMC1 += 1./p1mc->GetBinError(i+1)/p1mc->GetBinError(i+1);
	resMC1 += p1mc->GetBinContent(i+1)/p1mc->GetBinError(i+1)/p1mc->GetBinError(i+1);      
      }
      if(p2mc->GetBinError(i+1)){
	eresMC2 += 1./p2mc->GetBinError(i+1)/p2mc->GetBinError(i+1);
	resMC2 += p2mc->GetBinContent(i+1)/p2mc->GetBinError(i+1)/p2mc->GetBinError(i+1);      
      }
      if(p3mc->GetBinError(i+1)){
	eresMC3 += 1./p3mc->GetBinError(i+1)/p3mc->GetBinError(i+1);
	resMC3 += p3mc->GetBinContent(i+1)/p3mc->GetBinError(i+1)/p3mc->GetBinError(i+1);      
      }
    }
    
    resMC1 /= eresMC1;
    resMC2 /= eresMC2;
    resMC3 /= eresMC3;
    
    eresMC1 = sqrt(1./eresMC1);
    eresMC2 = sqrt(1./eresMC2);
    eresMC3 = sqrt(1./eresMC3);

    ppMC = cA->GetV2(spec,xMin,xMax);
    ppMC2 = cC->GetV2(spec,xMin,xMax);
    
    scaling = sqrt(resMC1*resMC3/resMC2);
    ppMC->Scale(1./scaling);
  
    err1_2 = eresMC1*eresMC1/resMC1/resMC1/4 +
      eresMC2*eresMC2/resMC2/resMC2/4 +
      eresMC3*eresMC3/resMC3/resMC3/4;
    err2_2 = err1_2;
    err1_2 /= scaling*scaling;
    printf("resolution V0A (MC) = %f +/- %f\n",scaling,err1_2);
    scaling = sqrt(resMC2*resMC3/resMC1);
    err2_2 /= scaling*scaling;
    ppMC2->Scale(1./scaling);
    printf("resolution V0C (MC) =%f +/- %f\n",scaling,err2_2);

    ppMC->SetName("V0Amc");
    ppMC2->SetName("V0Cmc");

    if(! kCleanMemory){
      ppMC->Draw("SAME");
      ppMC2->Draw("SAME");
    }

    pMc = new TProfile(*ppMC);
    pMc->Add(ppMC2);
    snprintf(stringa,100,"%sMC",nameSp);
    pMc->SetName(stringa);
    pMc->SetLineColor(2);
  }

  if(! kCleanMemory){
    new TCanvas();  
    pData->Draw();
  }
  if(pMc && !kCleanMemory){
    pMc->Draw("SAME");
    TH1D *hData = pData->ProjectionX();
    TH1D *hMc = pMc->ProjectionX();
    hData->Divide(hMc);
    new TCanvas();  
    hData->Draw();
  }

  delete[] NUAcorrA;
  delete[] NUAcorrC;

  if(kCleanMemory){
    if(pp) delete pp;
    if(pp2) delete pp2;
    if(ppMC) delete ppMC;
    if(ppMC2) delete ppMC2;
  }

  delete cont;

  if(isMC) return pMc;
  return pData;
}
int main(int argc, char* argv[])
{
  TApplication theApp(srcName.Data(), &argc, argv);
//=============================================================================

  for (int i=0; i<argc; i++) cout << i << ", " << argv[i] << endl;
//=============================================================================

  if (argc<5) return -1;
  TString sPath = argv[1]; if (sPath.IsNull()) return -1;
  TString sFile = argv[2]; if (sFile.IsNull()) return -1;
  TString sJetR = argv[3]; if (sJetR.IsNull()) return -1;
  TString sSjeR = argv[4]; if (sSjeR.IsNull()) return -1;
//=============================================================================

  sPath.ReplaceAll("#", "/");
//=============================================================================

  double dJetR = -1.;
  if (sJetR=="JetR02") dJetR = 0.2;
  if (sJetR=="JetR03") dJetR = 0.3;
  if (sJetR=="JetR04") dJetR = 0.4;
  if (sJetR=="JetR05") dJetR = 0.5;

  if (dJetR<0.) return -1;
  cout << "Jet R = " << dJetR << endl;
//=============================================================================

  double dSjeR = -1.;
  if (sSjeR=="SjeR01") dSjeR = 0.1;
  if (sSjeR=="SjeR02") dSjeR = 0.2;
  if (sSjeR=="SjeR03") dSjeR = 0.3;
  if (sSjeR=="SjeR04") dSjeR = 0.4;

  if (dSjeR<0.) return -1;
  cout << "Sub-jet R = " << dSjeR << endl;
//=============================================================================

  const double dJetsPtMin  = 0.001;
  const double dCutEtaMax  = 1.6;
  const double dJetEtaMax  = 1.;
  const double dJetAreaRef = TMath::Pi() * dJetR * dJetR;

  fastjet::GhostedAreaSpec areaSpc(dCutEtaMax);
  fastjet::JetDefinition   jetsDef(fastjet::antikt_algorithm, dJetR, fastjet::BIpt_scheme, fastjet::Best);

//fastjet::AreaDefinition  areaDef(fastjet::active_area,areaSpc);
  fastjet::AreaDefinition  areaDef(fastjet::active_area_explicit_ghosts,areaSpc);

//fastjet::JetDefinition   bkgsDef(fastjet::kt_algorithm, 0.2, fastjet::BIpt_scheme, fastjet::Best);
//fastjet::AreaDefinition  aBkgDef(fastjet::active_area_explicit_ghosts, areaSpc);

  fastjet::Selector selectJet = fastjet::SelectorAbsEtaMax(dJetEtaMax);
//fastjet::Selector selectRho = fastjet::SelectorAbsEtaMax(dCutEtaMax-0.2);
//fastjet::Selector selecHard = fastjet::SelectorNHardest(2);
//fastjet::Selector selectBkg = selectRho * (!(selecHard));
//fastjet::JetMedianBackgroundEstimator bkgsEstimator(selectBkg, bkgsDef, aBkgDef);
//fastjet::Subtractor                   bkgSubtractor(&bkgsEstimator);

  fastjet::JetDefinition subjDef(fastjet::antikt_algorithm, dSjeR, fastjet::BIpt_scheme, fastjet::Best);
//=============================================================================

  std::vector<fastjet::PseudoJet> fjInput;
//=============================================================================

  TList *list = new TList();
  TH1D *hPtHat = new TH1D("hPtHat", "", 1000, 0., 1000.);

  TH1D *hJet = new TH1D("hJet", "", 1000, 0., 1000.); hJet->Sumw2(); list->Add(hJet);
  TH2D *hJetNsj = new TH2D("hJetNsj", "", 1000, 0., 1000., 101, -0.5, 100.5); hJetNsj->Sumw2(); list->Add(hJetNsj);

  TH2D *hJetIsj = new TH2D("hJetIsj", "", 1000, 0., 1000., 1000, 0., 1000.); hJetIsj->Sumw2(); list->Add(hJetIsj);
  TH2D *hJet1sj = new TH2D("hJet1sj", "", 1000, 0., 1000., 1000, 0., 1000.); hJet1sj->Sumw2(); list->Add(hJet1sj);
  TH2D *hJet2sj = new TH2D("hJet2sj", "", 1000, 0., 1000., 1000, 0., 1000.); hJet2sj->Sumw2(); list->Add(hJet2sj);
  TH2D *hJetDsj = new TH2D("hJetDsj", "", 1000, 0., 1000., 1000, 0., 1000.); hJetDsj->Sumw2(); list->Add(hJetDsj);

  TH2D *hJetIsz = new TH2D("hJetIsz", "", 1000, 0., 1000., 120, 0., 1.2); hJetIsz->Sumw2(); list->Add(hJetIsz);
  TH2D *hJet1sz = new TH2D("hJet1sz", "", 1000, 0., 1000., 120, 0., 1.2); hJet1sz->Sumw2(); list->Add(hJet1sz);
  TH2D *hJet2sz = new TH2D("hJet2sz", "", 1000, 0., 1000., 120, 0., 1.2); hJet2sz->Sumw2(); list->Add(hJet2sz);
  TH2D *hJetDsz = new TH2D("hJetDsz", "", 1000, 0., 1000., 120, 0., 1.2); hJetDsz->Sumw2(); list->Add(hJetDsz);
//=============================================================================

  AliRunLoader *rl = AliRunLoader::Open(Form("%s/galice.root",sPath.Data())); if (!rl) return -1;

  if (rl->LoadHeader()) return -1;
  if (rl->LoadKinematics("READ")) return -1;
//=============================================================================

  for (Int_t iEvent=0; iEvent<rl->GetNumberOfEvents(); iEvent++) {
    fjInput.resize(0);
    if (rl->GetEvent(iEvent)) continue;
//=============================================================================

    AliStack  *pStack  = rl->Stack();     if (!pStack)  continue;
    AliHeader *pHeader = rl->GetHeader(); if (!pHeader) continue;
//=============================================================================

    AliGenPythiaEventHeader *pHeadPy = (AliGenPythiaEventHeader*)pHeader->GenEventHeader();

    if (!pHeadPy) continue;
    hPtHat->Fill(pHeadPy->GetPtHard());
//=============================================================================

    for (Int_t i=0; i<pStack->GetNtrack(); i++) if (pStack->IsPhysicalPrimary(i)) {
      TParticle *pTrk = pStack->Particle(i); if (!pTrk) continue;
      if (TMath::Abs(pTrk->Eta())>dCutEtaMax) { pTrk = 0; continue; }
//    TParticlePDG *pPDG = pTrk->GetPDG(); if (!pPDG) { pTrk = 0; continue; }

      fjInput.push_back(fastjet::PseudoJet(pTrk->Px(), pTrk->Py(), pTrk->Pz(), pTrk->P()));

//    pPDG = 0;
      pTrk = 0;
    }
//=============================================================================

    fastjet::ClusterSequenceArea clustSeq(fjInput, jetsDef, areaDef);
    std::vector<fastjet::PseudoJet> includJets = clustSeq.inclusive_jets(dJetsPtMin);
//  std::vector<fastjet::PseudoJet> subtedJets = bkgSubtractor(includJets);
    std::vector<fastjet::PseudoJet> selectJets = selectJet(includJets);
//  std::vector<fastjet::PseudoJet> sortedJets = fastjet::sorted_by_pt(selectJets);

    for (int j=0; j<selectJets.size(); j++) {
      double dJet = selectJets[j].pt();

      hJet->Fill(dJet);
//=============================================================================

      fastjet::Filter trimmer(subjDef, fastjet::SelectorPtFractionMin(0.));
      fastjet::PseudoJet trimmdJet = trimmer(selectJets[j]);
      std::vector<fastjet::PseudoJet> trimmdSj = trimmdJet.pieces();

      double nIsj = 0.;
      double d1sj = -1.; int k1sj = -1;
      double d2sj = -1.; int k2sj = -1;
      for (int i=0; i<trimmdSj.size(); i++) {
        double dIsj = trimmdSj[i].pt(); if (dIsj<0.001) continue;

        hJetIsj->Fill(dJet, dIsj);
        hJetIsz->Fill(dJet, dIsj/dJet);

        if (dIsj>d1sj) {
          d2sj = d1sj; k2sj = k1sj;
          d1sj = dIsj; k1sj = i;
        } else if (dIsj>d2sj) {
          d2sj = dIsj; k2sj = i;
        } nIsj += 1.;
      }

      hJetNsj->Fill(dJet, nIsj);
      if (d1sj>0.) { hJet1sj->Fill(dJet, d1sj); hJet1sz->Fill(dJet, d1sj/dJet); }
      if (d2sj>0.) { hJet2sj->Fill(dJet, d2sj); hJet2sz->Fill(dJet, d2sj/dJet); }

      if ((d1sj>0.) && (d2sj>0.)) {
        double dsj = d1sj - d2sj;
        double dsz = dsj / dJet;

        hJetDsj->Fill(dJet, dsj);
        hJetDsz->Fill(dJet, dsz);
      }
    }
//=============================================================================

    pStack  = 0;
    pHeadPy = 0;
    pHeader = 0;
  }
//=============================================================================

  rl->UnloadgAlice();
  rl->UnloadHeader();
  rl->UnloadKinematics();
  rl->RemoveEventFolder();
//=============================================================================

  TFile *file = TFile::Open(Form("%s/pyxsec_hists.root",sPath.Data()), "READ");
  TList *lXsc = (TList*)file->Get("cFilterList");
  file->Close();

  TH1D     *hWeightSum = (TH1D*)lXsc->FindObject("h1Trials");   hWeightSum->SetName("hWeightSum");
  TProfile *hSigmaGen  = (TProfile*)lXsc->FindObject("h1Xsec"); hSigmaGen->SetName("hSigmaGen");
//=============================================================================

  file = TFile::Open(Form("%s.root",sFile.Data()), "NEW");
  hPtHat->Write();
  hWeightSum->Write();
  hSigmaGen->Write();
  list->Write();
  file->Close();
//=============================================================================

  cout << "DONE" << endl;
//=============================================================================

  return 0;
}
void plotPhotonType(char* var="(ecalRecHitSumEtConeDR04+hcalTowerSumEtConeDR04):genCalIsoDR04")
{
  
  TCut allCut = simpleCut + hardScatterCut;
   
  TProfile *hTemplate;
  TProfile *htmp= new TProfile("htmp","",100,0,20);
  htmp->SetXTitle("genCalIso [GeV]");
  htmp->SetYTitle("recCalIso [GeV]");

  hTemplate= getPlot(htmp,var,allCut,"MPA_PhotonJetPt15_31X.root","Analysis");
  hTemplate->SetName("hTemplate");
  hTemplate->Draw();
  gStyle->SetOptFit(11111);
  hTemplate->Fit("pol1","","");
  TF1* f1 = hTemplate->GetFunction("pol1");

  float p0 = f1->GetParameter(0);
  float p1 = f1->GetParameter(1);

  char tempName[1000];
  sprintf(tempName,
 	  "((ecalRecHitSumEtConeDR04+hcalTowerSumEtConeDR04)-genCalIsoDR04*%f):((ecalRecHitSumEtConeDR04+hcalTowerSumEtConeDR04)-genCalIsoDR04*(%f))",p1,-1.0/p1);
  cout << tempName << endl;

  TProfile *hTemplate_decompos;
  const int nbin=50;
  const float min = 0.0;
  const float max = 10.0;
  TProfile *htmp2= new TProfile("htmp2","",nbin,min,max);
  hTemplate_decompos= getPlot(htmp2,tempName,allCut,"MPA_PhotonJetPt15_31X.root","Analysis");
  hTemplate_decompos->SetName("hTemplate_decompos");
  hTemplate_decompos->Draw();  
  hTemplate_decompos->SetYTitle(Form("recCalIso-genCalIso*%.2f",p1));
  hTemplate_decompos->SetXTitle(Form("recCalIso+genCalIso*%.2f",1.0/p1));
  gStyle->SetOptFit(11111);
//   hTemplate_decompos->Fit("pol1");
  
  
  TCanvas* c1 = new TCanvas("c1","",500,1000);
  c1->Divide(1,2);
  c1->cd(1);
  hTemplate->Draw("");
  c1->cd(2);
  hTemplate_decompos->SetErrorOption("S");
  hTemplate_decompos->Draw("");
  c1->Print("bestGenCalIsoDR04.eps");
  c1->Print("bestGenCalIsoDR04.gif");
 
  TCanvas* c2 = new TCanvas("c2","",500,1000);
  c2->Divide(1,2);
  c2->cd(1);
  TH1F* hMean = new TH1F("hMean","",nbin,min,max);
  hMean->SetXTitle(Form("recCalIso+genCalIso*%.2f",1.0/p1));
  hMean->SetTitleSize(0.06,"Y");
  hMean->SetTitleOffset(1.2,"Y");
  hMean->SetYTitle(Form("Mean of recCalIso-genCalIso*%.2f",p1));
  for(int i=1; i <= nbin; i++)
    hMean->SetBinContent(i,hTemplate_decompos->GetBinContent(i));
  hMean->Draw();
  c2->cd(2);
  TH1F* hRMS = new TH1F("hRMS","",nbin,min,max);
  hRMS->SetXTitle(Form("recCalIso+genCalIso*%.2f",1.0/p1));
  hRMS->SetTitleSize(0.06,"Y");
  hRMS->SetTitleOffset(1.2,"Y");
  hRMS->SetYTitle(Form("RMS of recCalIso-genCalIso*%.2f",p1));
  for(int i=1; i <= nbin; i++)
    hRMS->SetBinContent(i,hTemplate_decompos->GetBinError(i));
  hRMS->Draw();
  c2->Print("bestGenCalIsoDR04_sup.eps");
  c2->Print("bestGenCalIsoDR04_sup.gif");


  int bestDeComposXBin = 11;
  
  float bestDeComposX = hMean->GetBinCenter(bestDeComposXBin);
  float bestDeComposY = hMean->GetBinContent(bestDeComposXBin);

  cout << "bestDeComposX = " << bestDeComposX << endl;
  cout << "bestDeComposY = " << bestDeComposY << endl;
  float bestGenIso = (bestDeComposX - bestDeComposY)/((1.0)/p1 + p1);
  float bestRecIso =  bestDeComposX - (1.0/p1) * bestGenIso;

  cout << "bestGenIso = " << bestGenIso << endl;
  cout << "bestRecIso = " << bestRecIso << endl;


}
Exemple #6
0
void drawFracs(string mc_type = "MC", string dt_type="DT", string stp = "tp") {

  setTDRStyle();
  
  // The mode of operation can be overridden to compare only MC or only DT.
  // The MC mode names are evaluated strictly; DT type can be anything. {
  bool all_DT = false, all_MC = false;
  if (mc_type!="MC" && mc_type!="HW")
    all_DT = true;
  if (dt_type=="MC" || dt_type=="HW")
    all_MC = true;
  assert(!(all_MC && all_DT));
  // }

  assert(stp=="tp" || stp=="");
  bool tp = (stp=="tp");
  string smethod = (tp ? "Tag-and-probe method" : "Direct match method");
  const char *cmethod = smethod.c_str();

  TDirectory *curdir = gDirectory;
  setTDRStyle();


  // Opening the requested files {
  string dt_file = all_MC ? dt_type : "DATA";
  dt_file = "output-" + dt_file + (_vspu ? "-1" : "-2b") + ".root";
  TFile *fdt = new TFile(Form("%s%s",dt_path.c_str(),dt_file.c_str()),"READ");

  assert(fdt && !fdt->IsZombie());
  assert(fdt->cd("Standard"));
  TDirectory *ddt = gDirectory;
  
  cout << "Opened the data file: ";
  cout << Form("%s%s",dt_path.c_str(),dt_file.c_str()) << endl;


  string mc_file = all_DT ? "DATA" : mc_type;
  mc_file = "output-" + mc_file + (_vspu ? "-1" : "-2b") + ".root";
  TFile *fmc = new TFile(Form("%s%s",mc_path.c_str(),mc_file.c_str()),"READ");

  assert(fmc && !fdt->IsZombie());
  assert(fmc->cd("Standard"));
  TDirectory *dmc = gDirectory;

  cout << "Opened the mc file: ";
  cout << Form("%s%s",mc_path.c_str(),mc_file.c_str()) << endl;
  // }

  vector<pair<double,double> > etas;
  etas.push_back(make_pair<double, double>(0., 1.3));
  //etas.push_back(make_pair<double, double>(0.0, 0.5));
  //etas.push_back(make_pair<double, double>(0.5, 1.0));
  //etas.push_back(make_pair<double, double>(1.0, 1.5));
  //etas.push_back(make_pair<double, double>(1.5, 2.0));
  //etas.push_back(make_pair<double, double>(2.0, 2.5));
  //etas.push_back(make_pair<double, double>(2.5, 3.0));
  //etas.push_back(make_pair<double, double>(3.0, 3.2));
  //etas.push_back(make_pair<double, double>(3.2, 4.7));

  //string fracs[] = {"betastar","chf", "beta", "nef", "nhf", "cef"}; bool dobeta=true;
  string fracs[] = {"betastar","chf", "nef", "nhf", "cef"}; bool dobeta=false;
  const int nfrac = sizeof(fracs)/sizeof(fracs[0]);

  map<string, pair<int, int> > style;
  style["betastar"] = make_pair<int, int>(kRed+2, kOpenCircle);
  style["chf"] = make_pair<int, int>(dobeta ? kRed+1 : kRed,
                                     dobeta ? kOpenDiamond : kFullCircle);
  style["beta"] = make_pair<int, int>(kRed, kFullCircle);
  //
  style["nef"] = make_pair<int, int>(kBlue, kFullSquare);
  style["nhf"] = make_pair<int, int>(kGreen+1, kFullDiamond);
  style["cef"] = make_pair<int, int>(kCyan+1, kOpenTriangleUp);
  style["muf"] = make_pair<int, int>(kMagenta+1, kOpenTriangleDown);

  map<string, string> name;
  name["betastar"] = "Charged pile-up";
  name["chf"] = (dobeta ? "Charged unassoc." : "Charged hadrons");
  name["beta"] = "Charged hadrons";
  name["nef"] = "Photons";
  name["nhf"] = "Neutral hadrons";
  //name["cef"] = "Electrons";
  name["muf"] = "Muons";
  name["cef"] = "Electrons+muons";

  // Wide binning for cleaner graphs and less jitter
  const int neta = 6;
  double xw[] =
    //{1, 15, 18, 21, 24, 28, 32, 37, 43, 49, 56, 64, 74, 84,
    //97, 114, 133, 153, 174, 196, 220, 245, 272, 300, 330, 362, 395, 430, 468,
    //507, 548, 592, 638, 686, 737, 790, 846, 905, 967,
  //1032, 1101, 1172, 1248, 1327, 1410, 1497, 1588, 1684, 1784, 1890, 2000};
  //2116, 2238, 2366, 2500, 2640, 2787, 2941, 3103, 3273, 3450, 3637, 3832, 
  //4037, 4252, 4477, 4713, 4961, 5220, 5492, 5777, 6076, 6389, 6717, 7000};
    {1, 15, 21, 28, 37, 49, 64, 84, 114, 153, 196, 245, 300, 395, 468, 548,
     686, 846, 1032, 1248, 1588, 2000, 2500, 3103, 3450, 3637, 3832,
     4037, 4252, 4477, 4713, 4961, 5220, 5492, 5777, 6076, 6389, 6717, 7000};
  const int nbins = sizeof(xw)/sizeof(xw[0]);

  for (unsigned int ieta = 0; ieta != etas.size(); ++ieta) {

    double y1 = etas[ieta].first; double y2 = etas[ieta].second;
    int iy = int(0.5*(y1+y2)/0.5); assert(iy<neta);
    cout << "iy = " << iy << endl;


    // List of differences
    map<string, TH1D*> mdf;

    // Build appropriate wide binning
    vector<double> x;
    if (_vspu) {
      for (int i = 0; i < 24; ++i) {
        x.push_back(0.5+2*i);
      } // for i
    } else {
      for (int i = 0; i != nbins && xw[i]!=0; ++i) {
        x.push_back(xw[i]);
      } // for i
    }
    const int nx = x.size()-1;

    THStack *hsdt = new THStack(Form("hsdt%d",ieta),"stacked histograms");
    THStack *hsmc = new THStack(Form("hsmc%d",ieta),"stacked histograms");
    THStack *hsdf = new THStack(Form("hsdf%d",ieta),"differences");

    const double ptmin = 37;
    const double ptmax = 3450;//3832;
    const double pvmin = 0.5;
    const double pvmax = 32.5;
    TH1D *h = new TH1D("h",";p_{T} (GeV);PF energy fractions",nx,&x[0]);
    if (_vspu) {
      h->SetXTitle("N_{PV,good}");
      h->GetXaxis()->SetRangeUser(pvmin,pvmax);
    } else {
      h->GetXaxis()->SetMoreLogLabels();
      h->GetXaxis()->SetNoExponent();
      h->GetXaxis()->SetRangeUser(ptmin,ptmax);
    }
    h->SetMaximum(1-1e-5);
    h->SetMinimum(0+1e-5);

    //TH1D *h2 = new TH1D("h2",";p_{T} (GeV);Data-MC (%)",nx,&x[0]);
    TH1D *h2 = new TH1D("h2",Form(";p_{T} (GeV);%s-%s (%%)",dt_type.c_str(),mc_type.c_str()),nx,&x[0]);
    if (_vspu) {
      h2->SetXTitle("N_{PV,good}");
      h2->GetXaxis()->SetRangeUser(pvmin,pvmax);
    } else {
      h2->GetXaxis()->SetMoreLogLabels();
      h2->GetXaxis()->SetNoExponent();
      h2->GetXaxis()->SetRangeUser(37,3832);
    }
    h2->SetMaximum(_vspu ? +6+10-1e-5 : +4-1e-5 +6);
    h2->SetMinimum(_vspu ? -6+1e-5 : -4+1e-5 -6);

    //lumi_13TeV = "2.1 fb^{-1}";
    lumi_13TeV = plot_title.c_str();
    TCanvas *c1 = tdrDiCanvas("c1",h,h2,4,0);

    c1->cd(1);
    TLegend *leg = tdrLeg(0.20,0.23-0.05,0.50,0.53-0.05);

    for (int jfrac = 0; jfrac != nfrac; ++jfrac) {

      string sf = fracs[jfrac];
      const char *cf = fracs[jfrac].c_str();
      const char *ctp = stp.c_str();

      string spu = (_vspu ? "_vsnpv" : "");
      const char *cpu = spu.c_str();
      string spudt = (_vspu ? (all_MC ? "mc/" : "jt40/") : "");
      const char *cpudt = spudt.c_str();
      string spumc = (_vspu ? (all_DT ? "jt40/" : "mc/") : "");
      const char *cpumc = spumc.c_str();

      assert(ddt->cd(Form("Eta_%1.1f-%1.1f",y1,y2)));
      const char *hname1 = Form("%sp%s%s%s",cpudt,cf,ctp,cpu);
      TProfile *pdt = (TProfile*)gDirectory->Get(hname1);
      if (!pdt) cout << hname1 << " not found in "
                     << gDirectory->GetName() << endl << flush;
      assert(pdt);
      pdt->SetName(Form("%s_dt",pdt->GetName()));

      assert(dmc->cd(Form("Eta_%1.1f-%1.1f",y1,y2)));
      const char *hname2 = Form("%sp%s%s%s",cpumc,cf,ctp,cpu);
      TProfile *pmc = (TProfile*)gDirectory->Get(hname2);
      if (!pmc) cout << hname2 << " not found in "
                     << gDirectory->GetName() << endl << flush;
      assert(pmc);
      pmc->SetName(Form("%s_mc",pmc->GetName()));

      // Rebin histogram
      TH1D *href = new TH1D("href","", nx, &x[0]);
      //TH1D *hmc = (_vspu ? pmc->ProjectionX() : tools::Rebin(pmc, href));
      //TH1D *hdt = (_vspu ? pdt->ProjectionX() : tools::Rebin(pdt, href));
      TH1D *hmc = tools::Rebin(pmc, href);
      TH1D *hdt = tools::Rebin(pdt, href);

      // Scale data by response to MC-equivalent energy fractions
      if (_shiftJES) {
        for (int i = 1; i != hdt->GetNbinsX()+1; ++i) {

          //double jec = 1.02;
          double jec = jesShift(hdt->GetBinCenter(i));
          hdt->SetBinContent(i, hdt->GetBinContent(i)/jec);
        } // for i
      } // _shiftJES
      
      // For cef, add muf
      if (sf=="cef") {
        assert(ddt->cd(Form("Eta_%1.1f-%1.1f",y1,y2)));
        TProfile *pdt2 = (TProfile*)gDirectory->Get(Form("%spmuf%s%s",
                                                         cpudt,ctp,cpu));
        assert(pdt2);
      //TH1D *hdt2 = (_vspu ? pdt2->ProjectionX() : tools::Rebin(pdt2, href)); 
        TH1D *hdt2 = tools::Rebin(pdt2, href); 
        for (int i = 1; i != hdt2->GetNbinsX()+1; ++i) {
          hdt->SetBinContent(i, hdt->GetBinContent(i)+hdt2->GetBinContent(i));
        }
        delete hdt2;
        
        assert(dmc->cd(Form("Eta_%1.1f-%1.1f",y1,y2)));
        TProfile *pmc2 = (TProfile*)gDirectory->Get(Form("%spmuf%s%s",
                                                         cpumc,ctp,cpu));
        assert(pmc2);
      //TH1D *hmc2 = (_vspu ? pmc2->ProjectionX() : tools::Rebin(pmc2, href));
        TH1D *hmc2 = tools::Rebin(pmc2, href);
        for (int i = 1; i != hmc2->GetNbinsX()+1; ++i) {
          hmc->SetBinContent(i, hmc->GetBinContent(i)+hmc2->GetBinContent(i));
        }
        delete hmc2;
      } // sf="cef"
      
      // For betastar, multiply by chf
      if (sf=="betastar") {
        assert(ddt->cd(Form("Eta_%1.1f-%1.1f",y1,y2)));
        TProfile *pdt2 = (TProfile*)gDirectory->Get(Form("%spchf%s%s",
                                                         cpudt,ctp,cpu));
        assert(pdt2);
        //TH1D *hdt2 = (_vspu ? pdt2->ProjectionX() : tools::Rebin(pdt2, href));
        TH1D *hdt2 = tools::Rebin(pdt2, href);
        for (int i = 1; i != hdt2->GetNbinsX()+1; ++i) {
          hdt->SetBinContent(i, hdt->GetBinContent(i)*hdt2->GetBinContent(i));
        }
        delete hdt2;
        
        assert(dmc->cd(Form("Eta_%1.1f-%1.1f",y1,y2)));
        TProfile *pmc2 = (TProfile*)gDirectory->Get(Form("%spchf%s%s",
                                                         cpumc,ctp,cpu));
        assert(pmc2);
        //TH1D *hmc2 = (_vspu ? pmc2->ProjectionX() : tools::Rebin(pmc2, href));
        TH1D *hmc2 = tools::Rebin(pmc2, href);
        for (int i = 1; i != hmc2->GetNbinsX()+1; ++i) {
          hmc->SetBinContent(i, hmc->GetBinContent(i)*hmc2->GetBinContent(i));
        }
        delete hmc2;
      } // betastar -> chf * betastar
      
      // For beta, multiply by chf
      if (sf=="beta") {
        assert(ddt->cd(Form("Eta_%1.1f-%1.1f",y1,y2)));
        TProfile *pdt2 = (TProfile*)gDirectory->Get(Form("%spchf%s%s",
                                                         cpudt,ctp,cpu));
        assert(pdt2);
        //TH1D *hdt2 = (_vspu ? pdt2->ProjectionX() : tools::Rebin(pdt2, href));
        TH1D *hdt2 = tools::Rebin(pdt2, href);
        for (int i = 1; i != hdt2->GetNbinsX()+1; ++i) {
          hdt->SetBinContent(i, hdt->GetBinContent(i)*hdt2->GetBinContent(i));
        }
        delete hdt2;
        
        assert(dmc->cd(Form("Eta_%1.1f-%1.1f",y1,y2)));
        TProfile *pmc2 = (TProfile*)gDirectory->Get(Form("%spchf%s%s",
                                                         cpumc,ctp,cpu));
        assert(pmc2);
        //TH1D *hmc2 = (_vspu ? pmc2->ProjectionX() : tools::Rebin(pmc2, href));
        TH1D *hmc2 = tools::Rebin(pmc2, href);
        for (int i = 1; i != hmc2->GetNbinsX()+1; ++i) {
          hmc->SetBinContent(i, hmc->GetBinContent(i)*hmc2->GetBinContent(i));
        }
        delete hmc2;
      } // beta -> chf * beta
      
      // For chf, multiply by (1-beta-betastar)
      if (sf=="chf") {
        assert(ddt->cd(Form("Eta_%1.1f-%1.1f",y1,y2)));
        TProfile *pdt2 = (TProfile*)gDirectory->Get(Form("%spbeta%s%s",
                                                         cpudt,ctp,cpu));
        assert(pdt2);
        //TH1D *hdt2 = (_vspu ? pdt2->ProjectionX() : tools::Rebin(pdt2, href));
        TH1D *hdt2 = tools::Rebin(pdt2, href);
        TProfile *pdt3 = (TProfile*)gDirectory->Get(Form("%spbetastar%s%s",
                                                         cpudt,ctp,cpu));
        assert(pdt3);
        //TH1D *hdt3 = (_vspu ? pdt3->ProjectionX() : tools::Rebin(pdt3, href));
        TH1D *hdt3 = tools::Rebin(pdt3, href);
        for (int i = 1; i != hdt2->GetNbinsX()+1; ++i) {
          hdt->SetBinContent(i, hdt->GetBinContent(i)
                             * (1 - (dobeta ? hdt2->GetBinContent(i) : 0)
                                - hdt3->GetBinContent(i)));
        }
        delete hdt2;
        delete hdt3;
        
        assert(dmc->cd(Form("Eta_%1.1f-%1.1f",y1,y2)));
        TProfile *pmc2 = (TProfile*)gDirectory->Get(Form("%spbeta%s%s",
                                                         cpumc,ctp,cpu));
        assert(pmc2);
        //TH1D *hmc2 = (_vspu ? pmc2->ProjectionX() : tools::Rebin(pmc2, href));
        TH1D *hmc2 = tools::Rebin(pmc2, href);
        TProfile *pmc3 = (TProfile*)gDirectory->Get(Form("%spbetastar%s%s",
                                                         cpumc,ctp,cpu));
        assert(pmc3);
        //TH1D *hmc3 = (_vspu ? pmc3->ProjectionX() : tools::Rebin(pmc3, href));
        TH1D *hmc3 = tools::Rebin(pmc3, href);
        for (int i = 1; i != hmc2->GetNbinsX()+1; ++i) {
          hmc->SetBinContent(i, hmc->GetBinContent(i)
                             * (1 - (dobeta ? hmc2->GetBinContent(i) : 0)
                                - hmc3->GetBinContent(i)));
        }
        delete hmc2;
        delete hmc3;
      } // chf -> chf*(1-beta-betastar)
      
      delete href;
      
      hmc->SetMarkerStyle(kNone);
      hmc->SetFillStyle(1001);
      hmc->SetFillColor(style[cf].first - 7);
      hmc->SetLineColor(style[cf].first + 1);
      hmc->GetXaxis()->SetRangeUser(_vspu ? pvmin : ptmin, _vspu ? pvmin : ptmax);
      hsmc->Add(hmc, "SAME H");
      
      hdt->SetFillStyle(1001); // for legend
      hdt->SetFillColor(style[cf].first - 7); // for legend
      hdt->SetLineColor(style[cf].first + 1);
      hdt->SetMarkerStyle(style[cf].second);
      hdt->SetMarkerSize(sf=="nhf"||(sf=="chf"&&dobeta) ? 1.3 : 1.0);
      if (!_vspu)
        hdt->GetXaxis()->SetRangeUser(_vspu ? pvmin : ptmin, _vspu ? pvmin : ptmax);
      hsdt->Add(hdt, "SAME P");
      
      // Then, do the difference
      TH1D *hdf = (TH1D*)hdt->Clone(Form("hdf%d",ieta));
      hdf->Add(hdt, hmc, 100, -100);
      hdf->SetLineColor(style[cf].first + 1);
      hdf->SetMarkerColor(style[cf].first + 1);
      hdf->SetMarkerStyle(style[cf].second);
      hdf->SetLineWidth(ieta==0 ? 2 : 0);
      hdf->SetMarkerSize(ieta==0 ? (sf=="nhf"||(sf=="chf"&&dobeta) ? 1.8 : 1.3) : 0.7);
      hsdf->Add(hdf, "SAME P");
      
      c1->cd(2);

      if (jfrac==0) {
        TLine *l = new TLine();
        l->DrawLine(_vspu ? pvmin : ptmin, 0, _vspu ? pvmax : ptmax, 0);
        TLatex *tex = new TLatex();
        tex->SetNDC();
        tex->SetTextSize(h2->GetYaxis()->GetLabelSize());
        tex->DrawLatex(0.17,0.80,Form("Anti-k_{T} R=0.4%s",
                                      _shiftJES ? ", shifted by JES" : ""));
      }

      hdf->Draw("SAME");
      leg->AddEntry(hdt,name[cf].c_str(),"PF");
      mdf[sf] = hdf;

    } // for jfrac

    c1->cd(1);
    if (!_vspu) gPad->SetLogx();
    hsmc->Draw("SAME");
    hsdt->Draw("SAME");
    leg->Draw("SAME"); // redraw
    gPad->RedrawAxis();


    c1->cd(2);
    if (!_vspu) gPad->SetLogx();
    //hsdf->Draw("SAME");
    gPad->RedrawAxis();
    
    c1->SaveAs(Form("pdf/drawFracs_%1.1f-%1.1f%s%s.pdf",
                    y1, y2, _shiftJES ? "_shiftJES" : "",
                    _vspu ? "_vsNPV" : ""));


    // Estimate jet response slope by analyzing composition
    TLatex *tex = new TLatex();
    tex->SetNDC(); tex->SetTextSize(h2->GetYaxis()->GetLabelSize()*0.7);
    if (dobeta) {

      //TF1 *fchf = new TF1("fchf","[0]+[1]*pow(x,[2])",40,2000);//ptmin,ptmax);
      //fchf->SetParameters(0,-2, -0.05);
      TF1 *fchf = new TF1("fchf",jesFit,40,3000,2);
      fchf->SetParameters( 0.9881-1, 0.2440 ); // Fall15_25nsV2
      //mdf["beta"]->Fit(fchf,"QRN");
      TH1D *hchfa = (TH1D*)mdf["beta"]->Clone("hcfha");
      hchfa->Add(mdf["chf"]);
      hchfa->Add(mdf["betastar"]);
      hchfa->Fit(fchf,"QRN");
      fchf->SetLineColor(kRed+3);
      fchf->Draw("SAME");
      hchfa->SetMarkerStyle(kFullStar);
      hchfa->SetMarkerColor(kRed+3);
      hchfa->SetLineColor(kRed+3);
      hchfa->Draw("SAMEP");
    }
    else {

      //TF1 *fchf = new TF1("fchf","[0]+[1]*pow(x,[2])",40,2000);//ptmin,ptmax);
      //fchf->SetParameters(0,-2, -0.05);
      TF1 *fchf = new TF1("fchf",jesFit,40,3000,2);
      fchf->SetParameters( 0.9881-1, 0.2440 ); // Fall15_25nsV2
      mdf["chf"]->Fit(fchf,"QRN");
      fchf->SetLineColor(kRed+2);
      fchf->Draw("SAME");

      tex->SetTextColor(kRed);
      tex->DrawLatex(0.17,0.40,Form("%1.2f#pm%1.2f%%, #chi^2/NDF=%1.1f/%d",
                                    fchf->GetParameter(0), fchf->GetParError(0),
                                    fchf->GetChisquare(), fchf->GetNDF()));
    }

    //TF1 *fnhf = new TF1("fnhf","[0]+[1]*pow(x,[2])",40,2000);//ptmin,ptmax);
    //fnhf->SetParameters(0,-2, -0.05);
    TF1 *fnhf = new TF1("fnhf",jesFit,40,3000,2);
    fnhf->SetParameters( 0.9881-1, 0.2440 ); // Fall15_25nsV2
    mdf["nhf"]->Fit(fnhf,"QRN");
    fnhf->SetLineColor(kGreen+2);
    fnhf->Draw("SAME");

    //TF1 *fnef = new TF1("fnef","[0]+[1]*pow(x,[2])",40,2000);//ptmin,ptmax);
    //fnef->SetParameters(0,-2, -0.05);
    TF1 *fnef = new TF1("fnef",jesFit,40,3000,2);
    fnef->SetParameters( 0.9881-1, 0.2440 ); // Fall15_25nsV2
    mdf["nef"]->Fit(fnef,"QRN");
    fnef->SetLineColor(kBlue+1);
    fnef->Draw("SAME");

    //TH1D *hall = (TH1D*)hchfa->Clone("hall");
    TH1D *hall = (TH1D*)mdf["chf"]->Clone("hall");
    if (dobeta) hall->Add(mdf["beta"]);
    hall->Add(mdf["betastar"]);
    hall->Add(mdf["nef"]);
    hall->Add(mdf["nhf"]);
    hall->Add(mdf["cef"]);
    hall->SetMarkerStyle(kFullCross);
    hall->SetMarkerColor(kBlack);
    //hall->Draw("SAMEL");

    h2->SetMaximum(+5);//+3.0);
    h2->SetMinimum(-5);//-1.5);
    if (ieta==0) c1->SaveAs(Form("pdf/drawFracs_WithFit%s%s.pdf",
                                 _shiftJES ? "_shiftJES" : "",
                                 _vspu ? "_vsNPV" : ""));
  }
  // For ieta
  
} // drawFracs