JetResolution_t.cc File Reference

#include "CondFormats/JetMETObjects/interface/JetResolution.h"
#include <TROOT.h>
#include <TApplication.h>
#include <TRandom3.h>
#include <TCanvas.h>
#include <TLegend.h>
#include <TH1F.h>
#include <TMath.h>
#include <cstdlib>
#include <iostream>
#include <sstream>
#include <string>
#include <sys/stat.h>

Go to the source code of this file.

Functions
int	main (int argc, char **argv)

Function Documentation

int main	(	int	argc,
		char **	argv
	)

Definition at line 32 of file JetResolution_t.cc.

References dir2webdir::argc, dtNoiseDBValidation_cfg::cerr, launcher::cmssw_base, cmsBenchmark::cmssw_release_base, gather_cfg::cout, eta(), i, launcher::nevts, JetResolution::parameterEta(), scaleCards::path, phi, Pi, and JetResolution::resolutionEtaPt().

{
  if (argc>1&&string(argv[1])=="--help") {
    cout<<"USAGE: JetResolution_t --era <era> --alg <alg> --nevts <n> --gaussian"<<endl;
    return 0;
  }
  
  string   era("Spring10");
  string   alg("AK5Calo");
  unsigned nevts(10000);
  bool     doGaussian(false);
  
  for (int i=1;i<argc;i++) {
    if      (string(argv[i])=="--era")      { era = argv[i+1]; i++; }
    else if (string(argv[i])=="--alg")      { alg = argv[i+1]; i++; }
    else if (string(argv[i])=="--nevts")    { stringstream ss; ss<<argv[i+1]; ss>>nevts; i++; }
    else if (string(argv[i])=="--gaussian") { doGaussian = true; }
    else {
      cerr<<"ERROR: unknown option '"<<argv[i]<<"'"<<endl;
      return 0;
    }
  }
  
  cout<<"era:      "<<era<<endl;
  cout<<"alg:      "<<alg<<endl;
  cout<<"nevts:    "<<nevts<<endl;
  cout<<"gaussian: "<<doGaussian<<endl<<endl;

  
  string cmssw_base(getenv("CMSSW_BASE"));
  string cmssw_release_base(getenv("CMSSW_RELEASE_BASE"));
  string path = cmssw_base + "/src/CondFormats/JetMETObjects/data";
  struct stat st;
  if (stat(path.c_str(),&st)!=0)
    path = cmssw_release_base + "/src/CondFormats/JetMETObjects/data";
  if (stat(path.c_str(),&st)!=0) {
    cerr<<"ERROR: tried to set path but failed, abort."<<endl;
    return 0;
  }
  
  
  string ptFileName  = path + "/" + era + "_PtResolution_" +alg+".txt";
  string etaFileName = path + "/" + era + "_EtaResolution_"+alg+".txt";
  string phiFileName = path + "/" + era + "_PhiResolution_"+alg+".txt";

  cout<<ptFileName<<endl;
  cout<<etaFileName<<endl;
  cout<<phiFileName<<endl;
  cout<<endl;

  JetResolution ptResol(ptFileName,doGaussian);
  JetResolution etaResol(etaFileName,doGaussian);
  JetResolution phiResol(phiFileName,doGaussian);
  

  // SIMPLE TEST
  float pt =  200.*gRandom->Exp(0.1);
  float eta = gRandom->Uniform(-5.0,5.0);
  float phi = gRandom->Uniform(-TMath::Pi(),TMath::Pi());

  cout<<"pT="<<pt<<" eta="<<eta<<" phi="<<phi<<endl;

  TF1* fPtResol  = ptResol.resolutionEtaPt(eta,pt);
  TF1* fEtaResol = etaResol.resolutionEtaPt(eta,pt);
  TF1* fPhiResol = phiResol.resolutionEtaPt(eta,pt);

  fPtResol ->Print(); cout<<endl;
  fEtaResol->Print(); cout<<endl;
  fPhiResol->Print(); cout<<endl;
  

  // GENERATE SPECTRA AND SMEAR
  TH1F* hRndPt = new TH1F("RndPt",";random number",200,0.0,5.0);
  TH1F* hGenPt = new TH1F("GenPt",";p_{T} [GeV]",100,0.,250.);
  TH1F* hJetPt = new TH1F("JetPt",";p_{T} [GeV]",100,0.,250.);

  TH1F* hRndEta = new TH1F("RndEta",";random number",200,-5.0,5.0);
  TH1F* hGenEta = new TH1F("GenEta",";#eta",51,-5.,5.);
  TH1F* hJetEta = new TH1F("JetEta",";#eta",51,-5.,5.);

  TH1F* hRndPhi = new TH1F("RndPhi",";random number",200,-3.15,3.15);
  TH1F* hGenPhi = new TH1F("GenPhi",";#varphi",41,-3.15,3.15);
  TH1F* hJetPhi = new TH1F("JetPhi",";#varphi",41,-3.15,3.15);

  for (unsigned ievt=0;ievt<nevts;ievt++) {
    
    if ((ievt+1)%1000==0) cout<<ievt+1<<" events processed."<<endl;
    
    float genpt  = 200.*gRandom->Exp(0.1); if (genpt<1.0) continue;
    float geneta = gRandom->Uniform(-5.0,5.0);
    float genphi = gRandom->Uniform(-TMath::Pi(),TMath::Pi());

    fPtResol  = ptResol.resolutionEtaPt(geneta,genpt);
    fEtaResol = etaResol.resolutionEtaPt(geneta,genpt);
    fPhiResol = phiResol.resolutionEtaPt(geneta,genpt);

    float rndpt   = fPtResol ->GetRandom();
    float rndeta  = fEtaResol->GetRandom();
    float rndphi  = fPhiResol->GetRandom();
    
    float jetpt   = rndpt*genpt;
    float jeteta  = rndeta+geneta;
    float jetphi  = rndphi+genphi;
        
    hRndPt->Fill(rndpt);
    hGenPt->Fill(genpt);
    hJetPt->Fill(jetpt);

    hRndEta->Fill(rndeta);
    hGenEta->Fill(geneta);
    hJetEta->Fill(jeteta);

    hRndPhi->Fill(rndphi);
    hGenPhi->Fill(genphi);
    hJetPhi->Fill(jetphi);
  }
  
  // RUN ROOT APPLICATION AND DRAW BOTH DISTRIBUTIONS
  argc=1;
  TApplication* app = new TApplication("JetResolution_t",&argc,argv);
  gROOT->SetStyle("Plain");


  // PLOT RESOLUTION FOR DIFFERENT ETA BINS
  TCanvas* cResolution = new TCanvas("Resolution","Resolution",0,0,1000,400);
  cResolution->Divide(3,1);

  cResolution->cd(1);
  gPad->SetLogx();
  
  TF1* fPtEta1 = ptResol.parameterEta("sigma",0.25);
  TF1* fPtEta2 = ptResol.parameterEta("sigma",1.75);
  TF1* fPtEta3 = ptResol.parameterEta("sigma",2.75);

  fPtEta1->SetLineWidth(1);    fPtEta2->SetLineWidth(1);     fPtEta3->SetLineWidth(1);
  fPtEta1->SetNpx(500);        fPtEta2->SetNpx(500);         fPtEta3->SetNpx(500);
  fPtEta1->SetLineColor(kRed); fPtEta2->SetLineColor(kBlue); fPtEta3->SetLineColor(kGreen);
  fPtEta1->SetRange(5.0,500.); fPtEta2->SetRange(5.0,500.);  fPtEta3->SetRange(5.0,500.);
  fPtEta1->Draw();             fPtEta2->Draw("SAME");        fPtEta3->Draw("SAME");
  
  fPtEta1->SetTitle("p_{T} - Resolution");
  fPtEta1->GetHistogram()->SetXTitle("p_{T} [GeV]");
  fPtEta1->GetHistogram()->SetYTitle("#sigma(p_{T})/p_{T}");
  fPtEta1->GetHistogram()->GetYaxis()->CenterTitle();
  fPtEta1->GetHistogram()->GetYaxis()->SetTitleOffset(1.33);
    
  TLegend* legPtRes = new TLegend(0.6,0.85,0.85,0.6);
  legPtRes->SetFillColor(10);
  legPtRes->AddEntry(fPtEta1,"#eta=0.25","l");
  legPtRes->AddEntry(fPtEta2,"#eta=1.75","l");
  legPtRes->AddEntry(fPtEta3,"#eta=2.75","l");
  legPtRes->Draw();
  

  cResolution->cd(2);
  gPad->SetLogx();
  
  TF1* fEtaEta1 = etaResol.parameterEta("sigma",0.25);
  TF1* fEtaEta2 = etaResol.parameterEta("sigma",1.75);
  TF1* fEtaEta3 = etaResol.parameterEta("sigma",2.75);

  fEtaEta1->SetLineWidth(1);    fEtaEta2->SetLineWidth(1);     fEtaEta3->SetLineWidth(1);
  fEtaEta1->SetNpx(500);        fEtaEta2->SetNpx(500);         fEtaEta3->SetNpx(500);
  fEtaEta1->SetLineColor(kRed); fEtaEta2->SetLineColor(kBlue); fEtaEta3->SetLineColor(kGreen);
  fEtaEta1->SetRange(5.0,500.); fEtaEta2->SetRange(5.0,500.);  fEtaEta3->SetRange(5.0,500.);
  fEtaEta1->Draw();             fEtaEta2->Draw("SAME");        fEtaEta3->Draw("SAME");
  
  fEtaEta1->SetTitle("#eta - Resolution");
  fEtaEta1->GetHistogram()->SetXTitle("p_{T} [GeV]");
  fEtaEta1->GetHistogram()->SetYTitle("#sigma(#eta)");
  fEtaEta1->GetHistogram()->GetYaxis()->CenterTitle();
  fEtaEta1->GetHistogram()->GetYaxis()->SetTitleOffset(1.33);
    
  TLegend* legEtaRes = new TLegend(0.6,0.85,0.85,0.6);
  legEtaRes->SetFillColor(10);
  legEtaRes->AddEntry(fEtaEta1,"#eta=0.25","l");
  legEtaRes->AddEntry(fEtaEta2,"#eta=1.75","l");
  legEtaRes->AddEntry(fEtaEta3,"#eta=2.75","l");
  legEtaRes->Draw();
  

  cResolution->cd(3);
  gPad->SetLogx();
  
  TF1* fPhiEta1 = phiResol.parameterEta("sigma",0.25);
  TF1* fPhiEta2 = phiResol.parameterEta("sigma",1.75);
  TF1* fPhiEta3 = phiResol.parameterEta("sigma",2.75);

  fPhiEta1->SetLineWidth(1);    fPhiEta2->SetLineWidth(1);     fPhiEta3->SetLineWidth(1);
  fPhiEta1->SetNpx(500);        fPhiEta2->SetNpx(500);         fPhiEta3->SetNpx(500);
  fPhiEta1->SetLineColor(kRed); fPhiEta2->SetLineColor(kBlue); fPhiEta3->SetLineColor(kGreen);
  fPhiEta1->SetRange(5.0,500.); fPhiEta2->SetRange(5.0,500.);  fPhiEta3->SetRange(5.0,500.);
  fPhiEta1->Draw();             fPhiEta2->Draw("SAME");        fPhiEta3->Draw("SAME");
  
  fPhiEta1->SetTitle("#varphi - Resolution");
  fPhiEta1->GetHistogram()->SetXTitle("p_{T} [GeV]");
  fPhiEta1->GetHistogram()->SetYTitle("#sigma(#varphi)");
  fPhiEta1->GetHistogram()->GetYaxis()->CenterTitle();  
  fPhiEta1->GetHistogram()->GetYaxis()->SetTitleOffset(1.33);
  
  TLegend* legPhiRes = new TLegend(0.6,0.85,0.85,0.6);
  legPhiRes->SetFillColor(10);
  legPhiRes->AddEntry(fPhiEta1,"#eta=0.25","l");
  legPhiRes->AddEntry(fPhiEta2,"#eta=1.75","l");
  legPhiRes->AddEntry(fPhiEta3,"#eta=2.75","l");
  legPhiRes->Draw();
  

  
  // PLOT GEN VS SMEARED DISTRIBUTIONS
  TCanvas* cSmearing = new TCanvas("Smearing","Smearing",100,100,1000,600);
  cSmearing->Divide(3,2);

  cSmearing->cd(1);
  gPad->SetLogy();
  hRndPt->Draw();

  cSmearing->cd(2);
  gPad->SetLogy();
  hRndEta->Draw();

  cSmearing->cd(3);
  gPad->SetLogy();
  hRndPhi->Draw();

  cSmearing->cd(4);
  gPad->SetLogy();
  hGenPt->Draw();
  hJetPt->Draw("SAME");
  hJetPt->SetLineColor(kRed);
  if (hGenPt->GetMaximum()<hJetPt->GetMaximum())
    hGenPt->SetMaximum(1.1*hJetPt->GetMaximum());
  TLegend* legPt = new TLegend(0.6,0.8,0.85,0.65);
  legPt->SetFillColor(10);
  legPt->AddEntry(hGenPt,"generated","l");
  legPt->AddEntry(hJetPt,"smeared","l");
  legPt->Draw();

  cSmearing->cd(5);
  hGenEta->Draw();
  hJetEta->Draw("SAME");
  hJetEta->SetLineColor(kRed);
  if (hGenEta->GetMaximum()<hJetEta->GetMaximum())
    hGenEta->SetMaximum(1.1*hJetEta->GetMaximum());
  hGenEta->SetMinimum(0.0);
  hGenEta->SetMaximum(1.5*hGenEta->GetMaximum());
  TLegend* legEta = new TLegend(0.6,0.8,0.85,0.65);
  legEta->SetFillColor(10);
  legEta->AddEntry(hGenEta,"generated","l");
  legEta->AddEntry(hJetEta,"smeared","l");
  legEta->Draw();

  cSmearing->cd(6);
  hGenPhi->Draw();
  hJetPhi->Draw("SAME");
  hJetPhi->SetLineColor(kRed);
  if (hGenPhi->GetMaximum()<hJetPhi->GetMaximum())
    hGenPhi->SetMaximum(1.1*hJetPhi->GetMaximum());
  hGenPhi->SetMinimum(0.0);
  hGenPhi->SetMaximum(1.5*hGenPhi->GetMaximum());
  TLegend* legPhi = new TLegend(0.6,0.8,0.85,0.65);
  legPhi->SetFillColor(10);
  legPhi->AddEntry(hGenPhi,"generated","l");
  legPhi->AddEntry(hJetPhi,"smeared","l");
  legPhi->Draw();

  app->Run();
  
  return 0;
}