void determineWorkingPoint(TString algo="csv",TString baseURL="~/scratch0/top-nosyst/plotter.root")
{
  float workPoint(0.244);
  float sfb(1.020),    sfberr(0.04);      //from BTV-11-003
  float sflight(1.08), sflighterr(0.13);  //from BTV-11-002
  //  float sfb(0.99),        sfberr(0.099);      //from BTV-11-001
  //  float sflight(1.07882), sflighterr(0.244);  //from BTV-11-001
  if(algo=="tche")
    {
      workPoint=1.7;
      sfb=0.95; sfberr=0.095;
      sflight=1.08018; sflighterr=0.1125;
    }

  TObjArray bjets=getDistributionFromPlotter(algo+"b",baseURL);
  TObjArray lightjets=getDistributionFromPlotter(algo+"light",baseURL);
  
  TH1F *bDisc=(TH1F *) bjets.At(1);
  TH1F *lightDisc=(TH1F *) lightjets.At(1);
  
  setStyle();
  gStyle->SetOptFit(0);

  TCanvas *cnv = getNewCanvas("c","c",false);
  cnv->Clear();
  cnv->SetCanvasSize(1200,1200);
  cnv->SetWindowSize(1200,1200);
  cnv->Divide(2,2);

  //draw the discriminator
  TPad *p = (TPad *)cnv->cd(1); 
  bDisc->SetTitle("b");
  bDisc->SetLineColor(1);
  bDisc->SetMarkerColor(1);
  bDisc->SetMarkerStyle(20);
  bDisc->SetFillStyle(0);
  bDisc->DrawNormalized("histe1");
  lightDisc->SetLineColor(1);
  lightDisc->SetMarkerColor(1);
  lightDisc->SetMarkerStyle(24);
  lightDisc->SetFillStyle(0);
  lightDisc->SetTitle("udcsg");
  lightDisc->DrawNormalized("histe1same");
  TLegend *leg=p->BuildLegend();
  formatForCmsPublic(p,leg,"CMS simulation",2);

  //draw the b/light efficiencies
  p=(TPad *)cnv->cd(2);
  p->SetLogy();
  TGraphAsymmErrors *bEff     = getEfficiencyFrom(bDisc);
  TGraphAsymmErrors *lightEff = getEfficiencyFrom(lightDisc);
  bEff->SetMarkerStyle(20);
  bEff->SetFillStyle(0);
  bEff->Draw("ap");
  bEff->GetXaxis()->SetTitle(bDisc->GetXaxis()->GetTitle());
  bEff->GetYaxis()->SetTitle("Efficiency");
  lightEff->SetMarkerStyle(24);
  lightEff->SetFillStyle(0);
  lightEff->Draw("p");

  //draw relatively to a given working point
  p=(TPad *)cnv->cd(3);
  Double_t baseBEff=bEff->Eval(workPoint);
  TGraphAsymmErrors *relBEff=new TGraphAsymmErrors;
  relBEff->SetMarkerStyle(20);
  relBEff->SetFillStyle(0);
  Double_t baseLightEff=lightEff->Eval(workPoint);
  TGraphAsymmErrors *relLightEff=new TGraphAsymmErrors;
  relLightEff->SetMarkerStyle(24);
  relLightEff->SetFillStyle(0);
  for(int ip=0; ip<bEff->GetN(); ip++)
    {
      Double_t cut, y,ey; 
      bEff->GetPoint(ip,cut,y);     ey = bEff->GetErrorY(ip);
      Double_t relEff(y/baseBEff);
      if(relEff<sfb+2*sfberr && relEff>sfb-2*sfberr)
	{
	  int ipt=relBEff->GetN();
	  relBEff->SetPoint(ipt,cut,relEff);
	  relBEff->SetPointError(ipt,0,0,ey/baseBEff,ey/baseBEff);
	}

      lightEff->GetPoint(ip,cut,y);     ey = lightEff->GetErrorY(ip);
      relEff=y/baseLightEff;
      //      if(relEff<sflight+7*sflighterr && relEff>sflight-7*sflighterr)
      if(relEff<sflight+3*sflighterr && relEff>sflight-3*sflighterr)
	{
	  int ipt=relLightEff->GetN();
	  relLightEff->SetPoint(ipt,cut,relEff);
	  relLightEff->SetPointError(ipt,0,0,ey/baseLightEff,ey/baseLightEff);
	}
    }

  relLightEff->Draw("ap");
  relLightEff->GetXaxis()->SetTitle( bDisc->GetXaxis()->GetTitle() );
  relLightEff->GetYaxis()->SetTitle( "#varepsilon/#varepsilon_{0}" );
  relLightEff->Fit("expo","Q+");
  TF1 *ffunc=relLightEff->GetFunction("expo");
  float newLightCut=(TMath::Log(sflight)-ffunc->GetParameter(0))/ffunc->GetParameter(1);
  float newLightCutErrPlus=(TMath::Log(sflight+sflighterr)-ffunc->GetParameter(0))/ffunc->GetParameter(1)-newLightCut;
  float newLightCutErrMinus=(TMath::Log(sflight-sflighterr)-ffunc->GetParameter(0))/ffunc->GetParameter(1)-newLightCut;
  TArrow *lightArrow = new TArrow(newLightCut, sflight-3*sflighterr, newLightCut, sflight-3*sflighterr*0.8, 0.02, "<|");
  lightArrow->SetLineColor(kGray+2);
  lightArrow->SetFillColor(kGray+2);
  lightArrow->Draw("SAME <|");

  relBEff->Draw("p");
  relBEff->Fit("expo","Q+");
  ffunc=relBEff->GetFunction("expo");
  float newBCut=(TMath::Log(sfb)-ffunc->GetParameter(0))/ffunc->GetParameter(1);
  float newBCutErrPlus=(TMath::Log(sfb+sfberr)-ffunc->GetParameter(0))/ffunc->GetParameter(1)-newBCut;
  float newBCutErrMinus=(TMath::Log(sfb-sfberr)-ffunc->GetParameter(0))/ffunc->GetParameter(1)-newBCut;
  cout <<  sfb << " " << sfb+sfberr << " " << sfb-sfberr << endl;
  TArrow *bArrow    = new TArrow(newBCut, sflight-3*sflighterr, newBCut, sflight-3*sflighterr*0.8, 0.02, "<|");
  bArrow->Draw("SAME <|");

  //draw epsilon_b vs epsilon_q
  p=(TPad *)cnv->cd(4);
  p->SetLogy();

  TGraphAsymmErrors *perf=new TGraphAsymmErrors;
  perf->SetName("algoperformance");
  perf->SetMarkerStyle(20);
  perf->SetFillStyle(0);
  for(int ip=0; ip<bEff->GetN(); ip++)
    {
      Double_t cut;
      Double_t x,ex; bEff->GetPoint(ip,cut,x);     ex = bEff->GetErrorY(ip);
      Double_t y,ey; lightEff->GetPoint(ip,cut,y); ey = lightEff->GetErrorY(ip);
      perf->SetPoint(ip,x,y);
      perf->SetPointError(ip,ex,ex,ey,ey);
    }
  perf->Draw("ap");
  perf->GetXaxis()->SetTitle( bEff->GetTitle() );
  perf->GetYaxis()->SetTitle( lightEff->GetTitle() );

  //new performance expected after applying the new cuts
  TGraphAsymmErrors *newperf=new TGraphAsymmErrors;
  newperf->SetName("newalgoperformance");
  newperf->SetMarkerStyle(24);
  newperf->SetFillStyle(0);
  newperf->SetLineWidth(2);
  newperf->SetLineColor(kRed);
  newperf->SetLineColor(kRed);
  newperf->SetPoint(0,baseBEff*sfb,baseLightEff*sflight);
  newperf->SetPointError(0,baseBEff*sfberr,baseBEff*sfberr,baseLightEff*sflighterr,baseLightEff*sflighterr);
  newperf->Draw("p");

  cnv->Modified();
  cnv->Update();
  cnv->SaveAs("discFlavor.C");  
  cnv->SaveAs("discFlavor.png");  


  cout << "[determineWorkingPoint]" << endl
       << "To emulate the measured scale-factors you can use the following new cuts per jet flavor" << endl
       << "SF-b : "     << newBCut << " +" << newBCutErrPlus << " " << newBCutErrMinus << endl
       << "SF-light : " << newLightCut << " +" << newLightCutErrPlus << " " << newLightCutErrMinus << endl;
}
Ejemplo n.º 2
0
void SingleAnalysis::DrawGraphs()
{
	std::cout << "Drawing graphs" << std::endl;

	// special case for erec and deviation
	m_pERecCanvas->cd();

	TPad *pERecPad = new TPad("ERecPad", "ERecPad", 0.02, 0.37, 0.95, 0.99);
	pERecPad->Draw();
	pERecPad->cd();
	pERecPad->Range(-19.23077,0.01,96.15385,1428.571);
	pERecPad->SetFillColor(0);
	pERecPad->SetBorderMode(0);
	pERecPad->SetBorderSize(2);
	pERecPad->SetTickx(1);
	pERecPad->SetTicky(1);
	pERecPad->SetLeftMargin(0.1666667);
	pERecPad->SetRightMargin(0.01);
	pERecPad->SetTopMargin(0.02);
	pERecPad->SetBottomMargin(0.0);
	pERecPad->SetFrameLineWidth(1);
	pERecPad->SetFrameBorderMode(0);

	m_canvasMultiGraphMap[E_REC].second->Draw("ap");
	this->PostDrawMultiGraph(E_REC, m_canvasMultiGraphMap[E_REC].second);

	TLegend *pLegend = pERecPad->BuildLegend();
	pLegend->SetBorderSize(0);
	pLegend->SetLineColor(0);
	pLegend->SetLineStyle(0);
	pLegend->SetLineWidth(1);
	pLegend->SetFillColor(0);
	pLegend->SetFillStyle(0);
	pLegend->SetTextSize(0.04);

	pERecPad->Modified();

	m_pERecCanvas->cd();

	TPad *pERecDeviationPad = new TPad("ERecDeviationPad", "ERecDeviationPad", 0.02, 0, 0.95, 0.37);
	pERecDeviationPad->Draw();
	pERecDeviationPad->cd();
	pERecDeviationPad->Range(-19.23077,-0.3993507,96.15385,0.25);
	pERecDeviationPad->SetFillColor(0);
	pERecDeviationPad->SetBorderMode(0);
	pERecDeviationPad->SetBorderSize(2);
	pERecDeviationPad->SetTickx(1);
	pERecDeviationPad->SetTicky(1);
	pERecDeviationPad->SetLeftMargin(0.1666667);
	pERecDeviationPad->SetRightMargin(0.01);
	pERecDeviationPad->SetTopMargin(0);
	pERecDeviationPad->SetBottomMargin(0.23);
	pERecDeviationPad->SetFrameLineWidth(1);
	pERecDeviationPad->SetFrameBorderMode(0);

	m_canvasMultiGraphMap[E_REC_DEVIATION].second->Draw("ap");

	TF1 *pLin = new TF1("lin", "0", 0, 90);
	pLin->SetLineColor(kBlack);
	pLin->SetLineWidth(1);
	pLin->SetLineStyle(2);
	pLin->Draw("same");

	this->PostDrawMultiGraph(E_REC_DEVIATION, m_canvasMultiGraphMap[E_REC_DEVIATION].second);

	pERecDeviationPad->Modified();

	for(CanvasMultiGraphMap::iterator graphIter = m_canvasMultiGraphMap.begin(), graphEndIter = m_canvasMultiGraphMap.end() ;
			graphEndIter != graphIter ; ++graphIter)
	{
		if(graphIter->first == E_REC || graphIter->first == E_REC_DEVIATION)
			continue;

		graphIter->second.first->cd();

		graphIter->second.second->Draw("ap");
		this->PostDrawMultiGraph(graphIter->first, graphIter->second.second);

		TLegend *pLegend = graphIter->second.first->BuildLegend();
		pLegend->SetBorderSize(0);
		pLegend->SetLineColor(0);
		pLegend->SetLineStyle(1);
		pLegend->SetLineWidth(1);
		pLegend->SetFillColor(0);
		pLegend->SetFillStyle(0);
		pLegend->SetTextSize(0.04);
	}
}
Ejemplo n.º 3
0
CompareSpectra(Int_t part, Int_t charge, Int_t cent = -1, Int_t ratio = kFALSE, Int_t fitfunc = -1, Bool_t cutSpectra = kTRUE) 
{

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

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

  LoadLibraries();
  AliBWFunc bwf;
  bwf.SetVarType(AliBWFunc::kdNdpt);
  TF1 *fFitFunc = NULL;

  switch (fitfunc) {
  case 0:
    gROOT->LoadMacro("SpectraAnalysis.C");
    fFitFunc = STAR_BlastWave("fBW", AliPID::ParticleMass(part), 0.9, 0.1, 1.);
    fBW->SetParLimits(3, 0.5, 1.5);
    //    fBW->FixParameter(3, 1.);
    break;
  case 1:
    fFitFunc = bwf.GetLevi(AliPID::ParticleMass(part), AliPID::ParticleMass(part), 5., 1000.);
    break;
  case 2:
    fFitFunc = bwf.GetBoltzmann(AliPID::ParticleMass(part), AliPID::ParticleMass(part), 100.);
    break;
  case 3:
    fFitFunc = bwf.GetMTExp(AliPID::ParticleMass(part),AliPID::ParticleMass(part) , 100.);
    break;
  case 4:
    fFitFunc = bwf.GetPTExp(AliPID::ParticleMass(part), 100.);
    break;
  case 5:
    fFitFunc = bwf.GetBGBW(AliPID::ParticleMass(part), 0.5, 0.1, 1.e6);
    break;
  case 6:
    fFitFunc = new TF1("fpol9", "pol9", 0., 5.0);
    break;
  }
  if (fFitFunc) fFitFunc->SetLineWidth(2);

  TFile *itssafile = TFile::Open(ratio ? itssaratiofilename : itssafilename);
  //  TFile *itstpcfile = TFile::Open(itstpcfilename);
  if (part / 3 == charge / 3)
    Char_t *tpctofratiofilename = tpctofratiofilenameA;
  else
    Char_t *tpctofratiofilename = tpctofratiofilenameB;
  TFile *tpctoffile = TFile::Open(ratio ? tpctofratiofilename : tpctoffilename);
  TFile *toffile = TFile::Open(ratio ? tofratiofilename : toffilename);
  //  TFile *hydrofile = TFile::Open(hydrofilename);

  TCanvas *cCanvas = new TCanvas("cCanvas");
  if (cent == -1) cCanvas->Divide(5, 2);
  TCanvas *cCanvasCombined = new TCanvas("cCanvasCombined");
  TCanvas *cCanvasRatio = new TCanvas("cCanvasRatio");
  if (cent == -1) cCanvasRatio->Divide(5, 2);
  TCanvas *cCanvasRatioComb = new TCanvas("cCanvasRatioComb");
  if (cent == -1) cCanvasRatioComb->Divide(5, 2);
  TCanvas *cCanvasRatioFit = new TCanvas("cCanvasRatioFit");
  if (cent == -1) cCanvasRatioFit->Divide(5, 2);
  TPad *curpad = NULL;
  TH1D *hITSsa, *hITSTPC, *hTPCTOF, *hTOF;
  TGraph *hHydro;
  TGraphErrors *gCombined[10];
  TProfile *pCombined[10];
  TH1D *hCombined[10];
  TH1D *hRatio_ITSsa_ITSTPC[10];
  TH1D *hRatio_ITSsa_TPCTOF[10];
  TH1D *hRatio_ITSTPC_TPCTOF[10];
  TH1D *hRatio_ITSTPC_TOF[10];
  TH1D *hRatio_TPCTOF_TOF[10];
  TH1D *hRatio_ITSsa_TOF[10];
  for (Int_t icent = 0; icent < 10; icent++) {
    if (cent != -1 && icent != cent) continue;
    gCombined[icent] = new TGraphErrors();
    pCombined[icent] = new TProfile(Form("pCombined_cent%d", icent), "", NptBins, ptBin);
    hCombined[icent] = new TH1D(Form("hCombined_cent%d", icent), "", NptBins, ptBin);
    TObjArray spectraArray;
    hITSsa = ratio ? GetITSsaRatio(itssafile, part, charge, icent, cutSpectra): GetITSsaSpectrum(itssafile, part, charge, icent, cutSpectra);
    //    hITSTPC = GetITSTPCSpectrum(itstpcfile, part, charge, icent, cutSpectra);
    hTPCTOF = ratio ? GetTPCTOFRatio(tpctoffile, part, charge, icent, cutSpectra) : GetTPCTOFSpectrum(tpctoffile, part, charge, icent, cutSpectra);
    hTOF = ratio ? GetTOFRatio(toffile, part, charge, icent, cutSpectra) : GetTOFSpectrum(toffile, part, charge, icent, cutSpectra);
    //    hHydro = GetHydroSpectrum(hydrofile, part, charge, icent);
    if (cent == -1)
      curpad = (TPad *)cCanvas->cd(icent + 1);
    else
      curpad = (TPad *)cCanvas->cd();
    if (!ratio)
      TH1D *hArea = new TH1D(Form("hArea_%d", icent), Form("%s (%s);p_{T} (GeV/c);#frac{d^{2}N}{dy dp_{t}};", partChargeName[part][charge], centName[icent]), 100, 0., 5.);
    else
      TH1D *hArea = new TH1D(Form("hArea_%d", icent), Form("%s (%s);p_{T} (GeV/c);#frac{d^{2}N}{dy dp_{t}};", "generic ratio", centName[icent]), 100, 0., 5.);
    hArea->Draw();
    Double_t minimum = 0.001;
    Double_t maximum = 1000.;
    if (hITSsa) {
      AddPointsToGraph(hITSsa, gCombined[icent]);
      AddPointsToProfile(hITSsa, pCombined[icent]);
      spectraArray.Add(hITSsa);
      hITSsa->DrawCopy("same");
      if (hITSsa->GetMaximum() > maximum) maximum = hITSsa->GetMaximum();
      if (hITSsa->GetMinimum() < minimum) minimum = hITSsa->GetMinimum();
    }
    if (hITSTPC) {
      AddPointsToGraph(hITSTPC, gCombined[icent]);
      AddPointsToProfile(hITSTPC, pCombined[icent]);
      spectraArray.Add(hITSTPC);
      hITSTPC->DrawCopy("same");
      if (hITSTPC->GetMaximum() > maximum) maximum = hITSTPC->GetMaximum();
      if (hITSTPC->GetMinimum() < minimum) minimum = hITSTPC->GetMinimum();
    }
    if (hTPCTOF) {
      AddPointsToGraph(hTPCTOF, gCombined[icent]);
      AddPointsToProfile(hTPCTOF, pCombined[icent]);
      spectraArray.Add(hTPCTOF);
      hTPCTOF->DrawCopy("same");
      if (hTPCTOF->GetMaximum() > maximum) maximum = hTPCTOF->GetMaximum();
      if (hTPCTOF->GetMinimum() < minimum) minimum = hTPCTOF->GetMinimum();
    }
    if (hTOF) {
      AddPointsToGraph(hTOF, gCombined[icent]);
      AddPointsToProfile(hTOF, pCombined[icent]);
      spectraArray.Add(hTOF);
      hTOF->DrawCopy("same");
      if (hTOF->GetMaximum() > maximum) maximum = hTOF->GetMaximum();
      if (hTOF->GetMinimum() < minimum) minimum = hTOF->GetMinimum();
    }
    if (hHydro) {
      ;//hHydro->Draw("c,same");
    }
    TLegend *legend = curpad->BuildLegend();
    legend->SetFillStyle(0);
    legend->SetFillColor(0);
    legend->DeleteEntry();

    hArea->SetMaximum(maximum * 1.1);
    hArea->SetMinimum(0.01);
    //    gPad->SetLogy();

    /*** RATIOS ***/

    /* switch canvas */
    if (cent == -1)
      curpad = (TPad *)cCanvasRatio->cd(icent + 1);
    else
      curpad = (TPad *)cCanvasRatio->cd();

   
    /* area histo */
    if (!ratio)
      TH1D *hAreaRatio = new TH1D(Form("hAreaRatio_%d", icent), Form("%s (%s);p_{T} (GeV/c);ratio;", partChargeName[part][charge], centName[icent]), 100, 0., 5.);
    else
      TH1D *hAreaRatio = new TH1D(Form("hAreaRatio_%d", icent), Form("%s (%s);p_{T} (GeV/c);ratio;", "generic ratio", centName[icent]), 100, 0., 5.);

    hAreaRatio->SetMaximum(1.5);
    hAreaRatio->SetMinimum(0.5);
    hAreaRatio->Draw();

    /* do ratios */
    if (hITSsa && hITSTPC) {
      hRatio_ITSsa_ITSTPC[icent] = new TH1D(*hITSsa);
      hRatio_ITSsa_ITSTPC[icent]->Divide(hITSTPC);
      hRatio_ITSsa_ITSTPC[icent]->SetNameTitle(Form("hRatio_ITSsa_ITSTPC_cent%d", icent), "ITSsa / ITSTPC");
      hRatio_ITSsa_ITSTPC[icent]->Draw("same");
    }
    if (hITSsa && hTPCTOF) {
      hRatio_ITSsa_TPCTOF[icent] = new TH1D(*hITSsa);
      hRatio_ITSsa_TPCTOF[icent]->Divide(hTPCTOF);
      hRatio_ITSsa_TPCTOF[icent]->SetNameTitle(Form("hRatio_ITSsa_TPCTOF_cent%d", icent), "ITSsa / TPCTOF");
      hRatio_ITSsa_TPCTOF[icent]->SetMarkerStyle(23);
      hRatio_ITSsa_TPCTOF[icent]->SetMarkerColor(4);
      hRatio_ITSsa_TPCTOF[icent]->Draw("same");
    }
    if (hITSTPC && hTPCTOF) {
      hRatio_ITSTPC_TPCTOF[icent] = new TH1D(*hITSTPC);
      hRatio_ITSTPC_TPCTOF[icent]->Divide(hTPCTOF);
      hRatio_ITSTPC_TPCTOF[icent]->SetNameTitle(Form("hRatio_ITSTPC_TPCTOF_cent%d", icent), "ITSTPC / TPCTOF");
      hRatio_ITSTPC_TPCTOF[icent]->Draw("same");
    }
    if (hTPCTOF && hTOF) {
      hRatio_TPCTOF_TOF[icent] = new TH1D(*hTPCTOF);
      hRatio_TPCTOF_TOF[icent]->Divide(hTOF);
      hRatio_TPCTOF_TOF[icent]->SetNameTitle(Form("hRatio_TPCTOF_TOF_cent%d", icent), "TPCTOF / TOF");
      hRatio_TPCTOF_TOF[icent]->Draw("same");
    }
    if (hITSsa && hTOF) {
      hRatio_ITSsa_TOF[icent] = new TH1D(*hITSsa);
      hRatio_ITSsa_TOF[icent]->Divide(hTOF);
      hRatio_ITSsa_TOF[icent]->SetNameTitle(Form("hRatio_ITSsa_TOF_cent%d", icent), "ITSsa / TOF");
      //      hRatio_ITSsa_TOF[icent]->SetMarkerStyle(25);
      //      hRatio_ITSsa_TOF[icent]->SetMarkerColor(2);
      hRatio_ITSsa_TOF[icent]->Draw("same");
    }

    /* legend */
    TLegend *legendRatio = curpad->BuildLegend();
    legendRatio->SetFillStyle(0);
    legendRatio->SetFillColor(0);
    legendRatio->DeleteEntry();

    CombineSpectra(hCombined[icent], &spectraArray);
    hCombined[icent]->SetFillStyle(0);
    hCombined[icent]->SetFillColor(kOrange + 1);
    hCombined[icent]->SetMarkerColor(kOrange+1);
    hCombined[icent]->SetMarkerStyle(24);
    hCombined[icent]->SetLineColor(kOrange+1);
    hCombined[icent]->SetLineWidth(2);
    hCombined[icent]->SetMarkerSize(0);
    
    //    hCombined[icent]->DrawCopy("same,E2");
    //    pCombined[icent]->DrawCopy("same");

    if (cent == -1)
      cCanvas->cd(icent + 1);
    else
      cCanvas->cd();
    //    hCombined[icent]->Draw("same, E2");

    cCanvasCombined->cd();
    if (cent == -1 && icent != 0)
      hCombined[icent]->Draw("E2,same");
    else
      hCombined[icent]->Draw("E2");

    //    cCanvasCombined->DrawClonePad();
    if (hITSsa) {
      hITSsa->DrawCopy("same");
    }
    if (hITSTPC) {
      hITSTPC->DrawCopy("same");
    }
    if (hTPCTOF) {
      hTPCTOF->DrawCopy("same");
    }
    if (hTOF) {
      hTOF->DrawCopy("same");
    }
    if (hHydro) {
      ;//hHydro->Draw("c,same");
    }

    if (cent == -1)
      cCanvasRatioComb->cd(icent + 1);
    else
      cCanvasRatioComb->cd();
    //    hCombined[icent]->Draw("same, E2");

    TH1 *hhr = HistoUtils_smartratio(hCombined[icent], hCombined[icent]);
    hhr->SetMaximum(1.25);
    hhr->SetMinimum(0.75);
    hhr->SetFillStyle(3001);
    hhr->SetTitle("combined error;p_{T} (GeV/c);ratio wrt. combined");
    hhr->Draw("e2");
    if (hITSsa) {
      hhr = HistoUtils_smartratio(hITSsa, hCombined[icent]);
      hhr->SetLineColor(1);
      hhr->SetLineWidth(2);
      hhr->Draw("e2,same");
    }
    if (hITSTPC) {
      hhr = HistoUtils_smartratio(hITSTPC, hCombined[icent]);
      hhr->SetLineColor(1);
      hhr->SetLineWidth(2);
      hhr->Draw("e2,same");
    }
    if (hTPCTOF) {
      hhr = HistoUtils_smartratio(hTPCTOF, hCombined[icent]);
      hhr->SetLineColor(8);
      hhr->SetLineWidth(2);
      hhr->Draw("e2,same");
    }
    if (hTOF) {
      hhr = HistoUtils_smartratio(hTOF, hCombined[icent]);
      hhr->SetLineColor(4);
      hhr->SetLineWidth(2);
      hhr->Draw("e2,same");
    }
    if (hHydro) {
      ;//hHydro->Draw("c,same");
    }


    if (!fFitFunc)
      continue;
    
    //    gCombined[icent]->Draw("p*");
    //    gCombined[icent]->Fit(fFitFunc, "0q", "", 0.5, 1.0);
    //    gCombined[icent]->Fit(fFitFunc, "0q", "", 0.2, 1.5);
    hCombined[icent]->Fit(fFitFunc, "0q", "", 0., 5.);
    fFitFunc->DrawCopy("same");
    printf("cent = %d, dNdy = %f +- %f\n", icent, fFitFunc->GetParameter(0), fFitFunc->GetParError(0));

    if (cent == -1)
      cCanvas->cd(icent + 1);
    else
      cCanvas->cd();
    fFitFunc->DrawCopy("same");

    if (cent == -1)
      cCanvasRatioFit->cd(icent + 1);
    else
      cCanvasRatioFit->cd();
    if (!ratio)
      TH1D *hAreaRatioFit = new TH1D(Form("hAreaRatioFit_%d", icent), Form("%s (%s);p_{T} (GeV/c);ratio wrt. fit;", partChargeName[part][charge], centName[icent]), 100, 0., 5.);
    else
      TH1D *hAreaRatioFit = new TH1D(Form("hAreaRatioFit_%d", icent), Form("%s (%s);p_{T} (GeV/c);ratio wrt. fit;", "generic ratio", centName[icent]), 100, 0., 5.);
    hAreaRatioFit->SetMaximum(1.5);
    hAreaRatioFit->SetMinimum(0.5);
    hAreaRatioFit->Draw();
    legend->Draw("same");

    if (hITSsa) {
      hITSsa->Divide(fFitFunc);
      hITSsa->DrawCopy("same");
    }
    if (hITSTPC) {
      hITSTPC->Divide(fFitFunc);
      hITSTPC->DrawCopy("same");
    }
    if (hTPCTOF) {
      hTPCTOF->Divide(fFitFunc);
      hTPCTOF->DrawCopy("same");
    }
    if (hTOF) {
      hTOF->Divide(fFitFunc);
      hTOF->DrawCopy("same");
    }

  }

}
Ejemplo n.º 4
0
void view()
{
  TFile* f = TFile::Open("result.root");

  int signalColorTable[20], backgroundColorTable[20];

  for ( int i=0; i<20; ++i )
  {
    signalColorTable[i] = kAzure+10-i;
    backgroundColorTable[i] = kOrange+10-i;
  }

  TList* signalPlots = makePlots((TDirectory*)f->Get("MC_Signal_EMEM"), signalColorTable);
  TList* backgroundPlots = makePlots((TDirectory*)f->Get("MC_Background_EMEM"), backgroundColorTable, true);

  if ( signalPlots == 0 || backgroundPlots == 0 ) return;

  const int nPlots = signalPlots->GetSize();
  for ( int i=0; i<nPlots; ++i )
  {
    THStack* hSignal = (THStack*)signalPlots->At(i);
    THStack* hBackground = (THStack*)backgroundPlots->At(i);

    TString histName = hSignal->GetName();
    bool doLog = histName.Contains("Pt");// || histName.Contains("RelIso");

    TCanvas* c = new TCanvas(TString("c")+hSignal->GetName(), hSignal->GetTitle(), 1200, 600);
    TPad* pad;

    c->Divide(2,1);

    TString xTitle, yTitle;

    pad = (TPad*)c->cd(1);
    if ( doLog ) pad->SetLogy();
    pad->SetBorderSize(0);
    pad->SetBorderMode(0);
    hBackground->Draw();

    xTitle = ((TH1*)hBackground->GetHists()->At(0))->GetXaxis()->GetTitle();
    yTitle = ((TH1*)hBackground->GetHists()->At(0))->GetYaxis()->GetTitle();
    hBackground->GetXaxis()->SetTitle(xTitle);
    hBackground->GetYaxis()->SetTitle(yTitle);

    pad->BuildLegend(0.6, 0.6, 0.98, 0.98);

    pad = (TPad*)c->cd(2);
    if ( doLog ) pad->SetLogy();
    pad->SetBorderSize(0);
    pad->SetBorderMode(0);
    hSignal->Draw("nostack");

    xTitle = ((TH1*)hSignal->GetHists()->At(0))->GetXaxis()->GetTitle();
    yTitle = ((TH1*)hSignal->GetHists()->At(0))->GetYaxis()->GetTitle();
    hSignal->GetXaxis()->SetTitle(xTitle);
    hSignal->GetYaxis()->SetTitle(yTitle);

    pad->BuildLegend(0.6, 0.7, 0.98, 0.98);

    c->Print(TString(c->GetName())+".png");
  }
}