Exemplo n.º 1
0
void root_hist_test()
{
  // Project3D uses overflows?
  TH3* h3D = new TH3D("h3D", "h3D", 2,0,2, 2,0,2, 2,0,2);
  for(int i=0; i<=h3D->GetNbinsX()+1; i++) {
    for(int j=0; j<=h3D->GetNbinsY()+1; j++) {
      for(int k=0; k<=h3D->GetNbinsZ()+1; k++) {
        h3D->SetBinContent(i,j,k, 1);
      }
    }
  }

  printf("h3D integral = %d\tentries = %d\n", h3D->Integral(), h3D->GetEntries());

  h3D->GetZaxis()->SetRange(3,3);
  TH2* hYX = (TH2*) h3D->Project3D("yx");

  printf("hYX integral = %d\tentries = %d\n", hYX->Integral(), hYX->GetEntries());
  hYX->Draw("colz");
}
Exemplo n.º 2
0
Arquivo: QA.C Projeto: ktf/AliPhysics
void QAtracklets(const Char_t *fdata, const Char_t *fmc)
{

  style();
  
  TFile *fdtin = TFile::Open(fdata);
  TList *ldtin = (TList *)fdtin->Get("clist");
  TH2 *hdtin = (TH2 *)ldtin->FindObject("etaphiTracklets");
  TH1 *pdtin = (TH1 *)hdtin->ProjectionY("pdtin_tracklets");
  pdtin->SetMarkerStyle(20);
  pdtin->SetMarkerSize(1.);
  pdtin->SetMarkerColor(kAzure-3);
  hdtin->Scale(1. / hdtin->GetEntries());
  pdtin->Scale(1. / hdtin->GetEntries());
  
  TFile *fmcin = TFile::Open(fmc);
  TList *lmcin = (TList *)fmcin->Get("clist");

  if(!lmcin) {
      std::cout << "NOLIST" << std::endl;

  }
  lmcin->ls();
  TH2 *hmcin = (TH2 *)lmcin->FindObject("etaphiTracklets");
  if(!hmcin) {
    std::cout << "NO H!! etaphiTracklets" << std::endl;
    
  }
  TH1 *pmcin = (TH1 *)hmcin->ProjectionY("pmcin_tracklets");
  pmcin->SetLineColor(kRed+1);
  pmcin->SetFillStyle(1001);
  pmcin->SetFillColorAlpha(kRed+1, 0.1);
  hmcin->Scale(1. / hmcin->GetEntries());
  pmcin->Scale(1. / hmcin->GetEntries());
  

  /*  
  pdtin->Scale(pmcin->Integral(pmcin->FindBin(0. + 0.001),
			       pmcin->FindBin(1. - 0.001))
	       / pdtin->Integral(pdtin->FindBin(0. + 0.001),
				 pdtin->FindBin(1. - 0.001)));
  */  
  
  TCanvas *cData = new TCanvas("cTrackletData", "cTrackletData", 800, 800);
  //  cData->SetLogz();
  TH1 * hfr = cData->DrawFrame(-2.5, 0., 2.5, 2. * TMath::Pi());
  hfr->SetTitle(";#eta;#varphi");
  hdtin->Draw("same,col");
  cData->SaveAs(canvasPrefix+"trackletData.pdf");

  TCanvas *cMC = new TCanvas("cTrackletMC", "cTrackletMC", 800, 800);
  //  cMC->SetLogz();
  hfr = cMC->DrawFrame(-2.5, 0., 2.5, 2. * TMath::Pi());
  hfr->SetTitle(";#eta;#varphi");
  hmcin->Draw("same,col");
  cMC->SaveAs(canvasPrefix+"trackletMC.pdf");
  
  TCanvas *cPhi = new TCanvas("cTrackletPhi", "cTrackletPhi", 800, 800);
  //  cPhi->SetLogy();
  hfr = cPhi->DrawFrame(0., 0., 2. * TMath::Pi(), 0.01);
  hfr->SetTitle(";#varphi;");
  pdtin->DrawCopy("same");
  pmcin->DrawCopy("same,histo");
  TLegend *legend = new TLegend(0.20, 0.18+0.63, 0.50, 0.30+0.63);
  legend->SetFillColor(0);
  legend->SetBorderSize(0);
  legend->SetTextFont(42);
  legend->SetTextSize(0.04);
  legend->AddEntry(pdtin, "data", "pl");
  legend->AddEntry(pmcin, "Monte Carlo", "l");
  legend->Draw("same");
  cPhi->SaveAs(canvasPrefix+"trackletPhi.pdf");
  
  TCanvas *cPhir = new TCanvas("cTrackletPhir", "cTrackletPhir", 800, 800);
  //  cPhi->SetLogy();
  hfr = cPhir->DrawFrame(0., 0.5, 2. * TMath::Pi(), 1.5);
  hfr->SetTitle(";#varphi;data / Monte Carlo");
  pdtin->Divide(pmcin);
  pdtin->Draw("same");
  cPhir->SaveAs(canvasPrefix+"trackletPhir.pdf");

  
  
}