python/src/HistosMuons.cc

#include <iostream>
#include <fstream>

#include "FWCore/MessageLogger/interface/MessageLogger.h"

#include "DataFormats/MuonReco/interface/Muon.h"
#include "DataFormats/MuonReco/interface/MuonIsolation.h"


#include "UserCode/HbbAnalysis/interface/HistosMuons.hh"

namespace HbbAnalysis {//namespace

  void HistosMuons::Initialise(TFileDirectory & aDir, std::string aName, bool aDoGenMatched){

    doGenMatched_ = aDoGenMatched;
    CreateHistos(aName,aDir);

    p_nMuons = aDir.make<TH1F>("p_nMuons",";N_{muons};N_{entries}",20,0,20);

    p_caloCompat = aDir.make<TH1F>("p_caloCompat",";caloCompatibility;N_{entries}/0.01",100,0,1);
    p_segCompat = aDir.make<TH1F>("p_segCompat",";segmentCompatibility;N_{entries}/0.01",100,0,1);
    p_nChambers = aDir.make<TH1F>("p_nChambers",";N_{chambers};N_{entries}",50,0,50);
    p_nMatchesLoose = aDir.make<TH1F>("p_nMatchesLoose",";N_{matches} (NoArbitration);N_{entries}",50,0,50);
    p_nMatchesMedium = aDir.make<TH1F>("p_nMatchesMedium",";N_{matches} (SegmentArbitration);N_{entries}",50,0,50);
    p_nMatchesTight = aDir.make<TH1F>("p_nMatchesTight",";N_{matches} (SegmentAndTrackArbitration);N_{entries}",50,0,50);
    p_type = aDir.make<TH1F>("p_type",";type;N_{good}/type",15,0,15);
    p_muonType = aDir.make<TH1F>("p_muonType",";muon type;N_{muons}/type",5,0,5);
    p_muonID = aDir.make<TH1F>("p_muonID",";muon ID;N_{good}/ID",15,0,15);

    p_caloCompatvsPt = aDir.make<TH2F>("p_caloCompatvsPt",";p_{T} (GeV);caloCompatibility",20,0,100,100,0,1);
    p_segCompatvsPt = aDir.make<TH2F>("p_segCompatvsPt",";p_{T} (GeV);segmentCompatibility",20,0,100,100,0,1);
    p_nChambersvsPt = aDir.make<TH2F>("p_nChambersvsPt",";p_{T} (GeV);N_{chambers}",20,0,100,50,0,50);
    p_nMatchesvsPt = aDir.make<TH2F>("p_nMatchesvsPt",";p_{T} (GeV);N_{matches} (SegmentArbitration)",20,0,100,50,0,50);
    p_muonTypevsPt = aDir.make<TH2F>("p_muonTypevsPt",";p_{T} (GeV);muon type",20,0,100,5,0,5);
    p_muonIDvsPt = aDir.make<TH2F>("p_muonIDvsPt",";p_{T} (GeV);muon ID",20,0,100,15,0,15);

    p_caloCompatvsEta = aDir.make<TH2F>("p_caloCompatvsEta",";#eta;caloCompatibility",50,-2.5,2.5,100,0,1);
    p_segCompatvsEta = aDir.make<TH2F>("p_segCompatvsEta",";#eta;segmentCompatibility",50,-2.5,2.5,100,0,1);
    p_nChambersvsEta = aDir.make<TH2F>("p_nChambersvsEta",";#eta;N_{chambers}",50,-2.5,2.5,50,0,50);
    p_nMatchesvsEta = aDir.make<TH2F>("p_nMatchesvsEta",";#eta;N_{matches} (SegmentArbitration)",50,-2.5,2.5,50,0,50);
    p_muonTypevsEta = aDir.make<TH2F>("p_muonTypevsEta",";#eta;muon type",50,-2.5,2.5,5,0,5);
    p_muonIDvsEta = aDir.make<TH2F>("p_muonIDvsEta",";#eta;muon ID",50,-2.5,2.5,15,0,15);

    //efficiency of ID cut
    peff_muID = aDir.make<TH1F>("peff_muID",";muon ID;N_{ID}/N_{tot}",15,0,15);
    peff_muIDvsEta = aDir.make<TH2F>("peff_muIDvsEta",";#eta;muon ID;N_{ID}/N_{tot}",50,-2.5,2.5,15,0,15);
    idEff_.initialise(peff_muID->GetNbinsX(),peff_muID->GetXaxis()->GetXmin(),peff_muID->GetXaxis()->GetXmax());
    for (unsigned id(0); id<15;id++){
      idEffEta_[id].initialise(peff_muIDvsEta->GetNbinsX(),peff_muIDvsEta->GetXaxis()->GetXmin(),peff_muIDvsEta->GetXaxis()->GetXmax());
    }


    p_isoR03_emEt = aDir.make<TH1F>("p_isoR03_emEt",";emEt (#DeltaR=0.3, GeV);N_{entries}/0.05 GeV",500,0,25);
    p_isoR05_emEt = aDir.make<TH1F>("p_isoR05_emEt",";emEt (#DeltaR=0.5, GeV);N_{entries}/0.05 GeV",500,0,25);
    p_isoR03_hadEt = aDir.make<TH1F>("p_isoR03_hadEt",";hadEt (#DeltaR=0.3, GeV);N_{entries}/0.05 GeV",500,0,25);
    p_isoR05_hadEt = aDir.make<TH1F>("p_isoR05_hadEt",";hadEt (#DeltaR=0.5, GeV);N_{entries}/0.05 GeV",500,0,25);
    p_isoR03_nTracks = aDir.make<TH1F>("p_isoR03_nTracks",";N_{tracks} (#DeltaR=0.3);N_{entries}",20,0,20);
    p_isoR05_nTracks = aDir.make<TH1F>("p_isoR05_nTracks",";N_{tracks} (#DeltaR=0.5);N_{entries}",20,0,20);
    p_isoR03_nJets = aDir.make<TH1F>("p_isoR03_nJets",";N_{Jets} (#DeltaR=0.3);N_{entries}",10,0,10);
    p_isoR05_nJets = aDir.make<TH1F>("p_isoR05_nJets",";N_{Jets} (#DeltaR=0.5);N_{entries}",10,0,10);


    //TString lIsoVar[4] = {"sumPt","sumPtOverPt","combIso","combIsoOverPt"};
    assert (getNVar() == 4);
    p_isoR03[0] = aDir.make<TH1F>("p_isoR03_sumPt",";sumPt (#DeltaR=0.3, GeV);N_{entries}/0.05 GeV",300,0,30);
    p_isoR03[1] = aDir.make<TH1F>("p_isoR03_sumPtOverPt",";sumPt/Pt (#DeltaR=0.3);N_{entries}",100,0,1);
    p_isoR03[2] = aDir.make<TH1F>("p_isoR03_combIso",";combIso (#DeltaR=0.3, GeV);N_{entries}/0.05 GeV",300,0,30);
    p_isoR03[3] = aDir.make<TH1F>("p_isoR03_combIsoOverPt",";combIso/Pt (#DeltaR=0.3);N_{entries}",100,0,1);

    p_isoR05[0] = aDir.make<TH1F>("p_isoR05_sumPt",";sumPt (#DeltaR=0.5, GeV);N_{entries}/0.05 GeV",300,0,30);
    p_isoR05[1] = aDir.make<TH1F>("p_isoR05_sumPtOverPt",";sumPt/Pt (#DeltaR=0.5);N_{entries}",100,0,1);
    p_isoR05[2] = aDir.make<TH1F>("p_isoR05_combIso",";combIso (#DeltaR=0.5, GeV);N_{entries}/0.05 GeV",300,0,30);
    p_isoR05[3] = aDir.make<TH1F>("p_isoR05_combIsoOverPt",";combIso/Pt (#DeltaR=0.5);N_{entries}",100,0,1);

    //efficiency curves vs cut value
    peff_muIsoR03[0] = aDir.make<TH1F>("peff_muIsoR03_sumPt",";sumPt (#DeltaR=0.3, GeV);N_{sel}/N_{tot}",50,0,5);
    peff_muIsoR03[1] = aDir.make<TH1F>("peff_muIsoR03_sumPtOverPt",";sumPt/Pt (#DeltaR=0.3);N_{sel}/N_{tot}",50,0,1);
    peff_muIsoR03[2] = aDir.make<TH1F>("peff_muIsoR03_combIso",";combIso (#DeltaR=0.3, GeV);N_{sel}/N_{tot}",50,0,10);
    peff_muIsoR03[3] = aDir.make<TH1F>("peff_muIsoR03_combIsoOverPt",";combIso/Pt (#DeltaR=0.3);N_{sel}/N_{tot}",50,0,1);

    peff_muIsoR05[0] = aDir.make<TH1F>("peff_muIsoR05_sumPt",";sumPt (#DeltaR=0.5, GeV);N_{sel}/N_{tot}",50,0,5);
    peff_muIsoR05[1] = aDir.make<TH1F>("peff_muIsoR05_sumPtOverPt",";sumPt/Pt (#DeltaR=0.5);N_{sel}/N_{tot}",50,0,1);
    peff_muIsoR05[2] = aDir.make<TH1F>("peff_muIsoR05_combIso",";combIso (#DeltaR=0.5, GeV);N_{sel}/N_{tot}",50,0,10);
    peff_muIsoR05[3] = aDir.make<TH1F>("peff_muIsoR05_combIsoOverPt",";combIso/Pt (#DeltaR=0.5);N_{sel}/N_{tot}",50,0,1);

    //efficiency curves vs pT muon
    peff_muPt[0] = aDir.make<TH1F>("peff_muPt_sumPt",";p_{T} (GeV);N_{sel}/N_{tot}",18,10,100);
    const unsigned int lNBinsPt = peff_muPt[0]->GetNbinsX();
    const double lMinPt = peff_muPt[0]->GetXaxis()->GetXmin();
    const double lMaxPt = peff_muPt[0]->GetXaxis()->GetXmax();
    peff_muPt[1] = aDir.make<TH1F>("peff_muPt_sumPtOverPt",";p_{T} (GeV);N_{sel}/N_{tot}",lNBinsPt,lMinPt,lMaxPt);
    peff_muPt[2] = aDir.make<TH1F>("peff_muPt_combIso",";p_{T} (GeV);N_{sel}/N_{tot}",lNBinsPt,lMinPt,lMaxPt);
    peff_muPt[3] = aDir.make<TH1F>("peff_muPt_combIsoOverPt",";p_{T} (GeV);N_{sel}/N_{tot}",lNBinsPt,lMinPt,lMaxPt);


    //efficiency curves vs eta muon
    peff_muEta[0] = aDir.make<TH1F>("peff_muEta_sumPt",";#eta;N_{sel}/N_{tot}",42,-2.1,2.1);
    const unsigned int lNBinsEta = peff_muEta[0]->GetNbinsX();
    const double lMinEta = peff_muEta[0]->GetXaxis()->GetXmin();
    const double lMaxEta = peff_muEta[0]->GetXaxis()->GetXmax();
    peff_muEta[1] = aDir.make<TH1F>("peff_muEta_sumPtOverPt",";#eta;N_{sel}/N_{tot}",lNBinsEta,lMinEta,lMaxEta);
    peff_muEta[2] = aDir.make<TH1F>("peff_muEta_combIso",";#eta;N_{sel}/N_{tot}",lNBinsEta,lMinEta,lMaxEta);
    peff_muEta[3] = aDir.make<TH1F>("peff_muEta_combIsoOverPt",";#eta;N_{sel}/N_{tot}",lNBinsEta,lMinEta,lMaxEta);

    //efficiency calculation tool
    for (unsigned int i(0); i<getNVar(); i++){
      const unsigned int lNBinsR03 = peff_muIsoR03[i]->GetNbinsX();
      const double lMinR03 = peff_muIsoR03[i]->GetXaxis()->GetXmin();
      const double lMaxR03 = peff_muIsoR03[i]->GetXaxis()->GetXmax();
      const unsigned int lNBinsR05 = peff_muIsoR05[i]->GetNbinsX();
      const double lMinR05 = peff_muIsoR05[i]->GetXaxis()->GetXmin();
      const double lMaxR05 = peff_muIsoR05[i]->GetXaxis()->GetXmax();
      isoR03Eff_[i].initialise(lNBinsR03,lMinR03,lMaxR03);
      isoR05Eff_[i].initialise(lNBinsR05,lMinR05,lMaxR05);
      isoEffPt_[i].initialise(lNBinsPt,lMinPt,lMaxPt);
      isoEffEta_[i].initialise(lNBinsEta,lMinEta,lMaxEta);
    }


  }//Initialise

  void HistosMuons::FillEventHistograms(edm::Handle<std::vector<pat::Muon> > aMuCol){

    if (doGenMatched_) {
      unsigned int nMuMatched = 0;
      for (std::vector<pat::Muon>::const_iterator iMuon = aMuCol->begin(); 
           iMuon != aMuCol->end(); 
           iMuon++) 
        {
          if (MatchesGenMuon(*iMuon)) nMuMatched++;
        }
      p_nMuons->Fill(nMuMatched);
    }
    else p_nMuons->Fill(aMuCol->size());

  }

  void HistosMuons::FillHistograms(const pat::Muon & aMuon, bool isLead){//FillHistograms

    const reco::Muon* recoMuon = dynamic_cast<const reco::Muon*>(aMuon.originalObject());
    bool lIsGenMatched = !doGenMatched_ || (doGenMatched_ && MatchesGenMuon(aMuon));
    if (lIsGenMatched) {
      if (isLead) {
        FillBaseHistograms(aMuon.pt(),aMuon.eta(),aMuon.phi());
        p_caloCompat->Fill(recoMuon->caloCompatibility());
        p_segCompat->Fill(recoMuon->segmentCompatibility());
        p_nChambers->Fill(recoMuon->numberOfChambers());
        p_nMatchesLoose->Fill(recoMuon->numberOfMatches(reco::Muon::NoArbitration));
        p_nMatchesMedium->Fill(recoMuon->numberOfMatches(reco::Muon::SegmentArbitration));
        p_nMatchesTight->Fill(recoMuon->numberOfMatches(reco::Muon::SegmentAndTrackArbitration));
        p_type->Fill(recoMuon->type());
        
        if (recoMuon->isGlobalMuon()) {
          p_muonType->Fill(1);
          p_muonTypevsPt->Fill(aMuon.pt(),1);
          p_muonTypevsEta->Fill(aMuon.eta(),1);
        }
        else if (recoMuon->isTrackerMuon()) {
          p_muonType->Fill(2);
          p_muonTypevsPt->Fill(aMuon.pt(),2);
          p_muonTypevsEta->Fill(aMuon.eta(),2);
        }
        else if (recoMuon->isStandAloneMuon()) {
          p_muonType->Fill(3);
          p_muonTypevsPt->Fill(aMuon.pt(),3);
          p_muonTypevsEta->Fill(aMuon.eta(),3);
        }
        else if (recoMuon->isCaloMuon()) {
          p_muonType->Fill(4);
          p_muonTypevsPt->Fill(aMuon.pt(),4);
          p_muonTypevsEta->Fill(aMuon.eta(),4);
        }
        else {
          p_muonType->Fill(0);
          p_muonTypevsPt->Fill(aMuon.pt(),0);
          p_muonTypevsEta->Fill(aMuon.eta(),0);
        }

        for (unsigned int id(0); id<idEff_.numberOfBins(); id++){
          idEff_.incrementTotal(id);
          for (unsigned ieta(0); ieta<idEffEta_[id].numberOfBins(); ieta++){
            double lCutMin = idEffEta_[id].xMin()+idEffEta_[id].stepSize()*ieta;
            double lCutMax = idEffEta_[id].xMin()+idEffEta_[id].stepSize()*(ieta+1);
            
            if (aMuon.eta() >= lCutMin && aMuon.eta() < lCutMax){
              idEffEta_[id].incrementTotal(ieta);
            }
          }
        }

        for (unsigned ieta(0); ieta<idEffEta_[0].numberOfBins(); ieta++){
          double lCutMin = idEffEta_[0].xMin()+idEffEta_[0].stepSize()*ieta;
          double lCutMax = idEffEta_[0].xMin()+idEffEta_[0].stepSize()*(ieta+1);
            

          if (recoMuon->isGood(reco::Muon::AllGlobalMuons)){
            if (ieta == 0) {
              p_muonID->Fill(1);
              p_muonIDvsPt->Fill(aMuon.pt(),1);
              p_muonIDvsEta->Fill(aMuon.eta(),1);
              idEff_.incrementPass(1);
            }
            if (aMuon.eta() >= lCutMin && aMuon.eta() < lCutMax){
              idEffEta_[1].incrementPass(ieta);
            }
          }
          if (recoMuon->isGood(reco::Muon::AllStandAloneMuons)){
            if (ieta == 0) {
              p_muonID->Fill(2);
              p_muonIDvsPt->Fill(aMuon.pt(),2);
              p_muonIDvsEta->Fill(aMuon.eta(),2);
              idEff_.incrementPass(2);
            }
            if (aMuon.eta() >= lCutMin && aMuon.eta() < lCutMax){
              idEffEta_[2].incrementPass(ieta);
            }
          }
          if (recoMuon->isGood(reco::Muon::AllTrackerMuons)){
            if (ieta == 0) {
              p_muonID->Fill(3);
              p_muonIDvsPt->Fill(aMuon.pt(),3);
              p_muonIDvsEta->Fill(aMuon.eta(),3);
              idEff_.incrementPass(3);
            }
            if (aMuon.eta() >= lCutMin && aMuon.eta() < lCutMax){
              idEffEta_[3].incrementPass(ieta);
            }
          }
          if (recoMuon->isGood(reco::Muon::TrackerMuonArbitrated)){
            if (ieta == 0) {
              p_muonID->Fill(4);
              p_muonIDvsPt->Fill(aMuon.pt(),4);
              p_muonIDvsEta->Fill(aMuon.eta(),4);
              idEff_.incrementPass(4);
            }
            if (aMuon.eta() >= lCutMin && aMuon.eta() < lCutMax){
              idEffEta_[4].incrementPass(ieta);
            }
          }
          if (recoMuon->isGood(reco::Muon::AllArbitrated)){
            if (ieta == 0) {
              p_muonID->Fill(5);
              p_muonIDvsPt->Fill(aMuon.pt(),5);
              p_muonIDvsEta->Fill(aMuon.eta(),5);
              idEff_.incrementPass(5);
            }
            if (aMuon.eta() >= lCutMin && aMuon.eta() < lCutMax){
              idEffEta_[5].incrementPass(ieta);
            }
          }
          if (recoMuon->isGood(reco::Muon::GlobalMuonPromptTight)){
            if (ieta == 0) {
              p_muonID->Fill(6);
              p_muonIDvsPt->Fill(aMuon.pt(),6);
              p_muonIDvsEta->Fill(aMuon.eta(),6);
              idEff_.incrementPass(6);
            }
            if (aMuon.eta() >= lCutMin && aMuon.eta() < lCutMax){
              idEffEta_[6].incrementPass(ieta);
            }
          }
          if (recoMuon->isGood(reco::Muon::TMLastStationLoose)){
            if (ieta == 0) {
              p_muonID->Fill(7);
              p_muonIDvsPt->Fill(aMuon.pt(),7);
              p_muonIDvsEta->Fill(aMuon.eta(),7);
              idEff_.incrementPass(7);
            }
            if (aMuon.eta() >= lCutMin && aMuon.eta() < lCutMax){
              idEffEta_[7].incrementPass(ieta);
            }
          }
          if (recoMuon->isGood(reco::Muon::TMLastStationTight)){
            if (ieta == 0) {
              p_muonID->Fill(8);
              p_muonIDvsPt->Fill(aMuon.pt(),8);
              p_muonIDvsEta->Fill(aMuon.eta(),8);
              idEff_.incrementPass(8);
            }
            if (aMuon.eta() >= lCutMin && aMuon.eta() < lCutMax){
              idEffEta_[8].incrementPass(ieta);
            }
          }
          if (recoMuon->isGood(reco::Muon::TM2DCompatibilityLoose)){
            if (ieta == 0) {
              p_muonID->Fill(9);
              p_muonIDvsPt->Fill(aMuon.pt(),9);
              p_muonIDvsEta->Fill(aMuon.eta(),9);
              idEff_.incrementPass(9);
            }
            if (aMuon.eta() >= lCutMin && aMuon.eta() < lCutMax){
              idEffEta_[9].incrementPass(ieta);
            }
          }
          if (recoMuon->isGood(reco::Muon::TM2DCompatibilityTight)){
            if (ieta == 0) {
              p_muonID->Fill(10);
              p_muonIDvsPt->Fill(aMuon.pt(),10);
              p_muonIDvsEta->Fill(aMuon.eta(),10);
              idEff_.incrementPass(10);
            }
            if (aMuon.eta() >= lCutMin && aMuon.eta() < lCutMax){
              idEffEta_[10].incrementPass(ieta);
            }
          }
          if (recoMuon->isGood(reco::Muon::TMOneStationLoose)){
            if (ieta == 0) {
              p_muonID->Fill(11);
              p_muonIDvsPt->Fill(aMuon.pt(),11);
              p_muonIDvsEta->Fill(aMuon.eta(),11);
              idEff_.incrementPass(11);
            }
            if (aMuon.eta() >= lCutMin && aMuon.eta() < lCutMax){
              idEffEta_[11].incrementPass(ieta);
            }
          }
          if (recoMuon->isGood(reco::Muon::TMOneStationTight)){
            if (ieta == 0) {
              p_muonID->Fill(12);
              p_muonIDvsPt->Fill(aMuon.pt(),12);
              p_muonIDvsEta->Fill(aMuon.eta(),12);
              idEff_.incrementPass(12);
            }
            if (aMuon.eta() >= lCutMin && aMuon.eta() < lCutMax){
              idEffEta_[12].incrementPass(ieta);
            }
          }
          if (recoMuon->isGood(reco::Muon::TMLastStationOptimizedLowPtLoose)){
            if (ieta == 0) {
              p_muonID->Fill(13);
              p_muonIDvsPt->Fill(aMuon.pt(),13);
              p_muonIDvsEta->Fill(aMuon.eta(),13);
              idEff_.incrementPass(13);
            }
            if (aMuon.eta() >= lCutMin && aMuon.eta() < lCutMax){
              idEffEta_[13].incrementPass(ieta);
            }
          }
          if (recoMuon->isGood(reco::Muon::TMLastStationOptimizedLowPtTight)){
            if (ieta == 0) {
              p_muonID->Fill(14);
              p_muonIDvsPt->Fill(aMuon.pt(),14);
              p_muonIDvsEta->Fill(aMuon.eta(),14);
              idEff_.incrementPass(14);
            }
            if (aMuon.eta() >= lCutMin && aMuon.eta() < lCutMax){
              idEffEta_[14].incrementPass(ieta);
            }
          }

        }

        p_caloCompatvsPt->Fill(aMuon.pt(),recoMuon->caloCompatibility());
        p_segCompatvsPt->Fill(aMuon.pt(),recoMuon->segmentCompatibility());
        p_nChambersvsPt->Fill(aMuon.pt(),recoMuon->numberOfChambers());
        p_nMatchesvsPt->Fill(aMuon.pt(),recoMuon->numberOfMatches());

        p_caloCompatvsEta->Fill(aMuon.eta(),recoMuon->caloCompatibility());
        p_segCompatvsEta->Fill(aMuon.eta(),recoMuon->segmentCompatibility());
        p_nChambersvsEta->Fill(aMuon.eta(),recoMuon->numberOfChambers());
        p_nMatchesvsEta->Fill(aMuon.eta(),recoMuon->numberOfMatches());

      }

      p_isoR03_emEt->Fill(recoMuon->isolationR03().emEt);
      p_isoR05_emEt->Fill(recoMuon->isolationR05().emEt);
      p_isoR03_hadEt->Fill(recoMuon->isolationR03().hadEt);
      p_isoR05_hadEt->Fill(recoMuon->isolationR05().hadEt);
      p_isoR03_nTracks->Fill(recoMuon->isolationR03().nTracks);
      p_isoR05_nTracks->Fill(recoMuon->isolationR05().nTracks);
      p_isoR03_nJets->Fill(recoMuon->isolationR03().nJets);
      p_isoR05_nJets->Fill(recoMuon->isolationR05().nJets);

      double lIsoR03Var[4] = {
        recoMuon->isolationR03().sumPt,
        recoMuon->isolationR03().sumPt/aMuon.pt(),
        recoMuon->isolationR03().sumPt+recoMuon->isolationR03().emEt,
        (recoMuon->isolationR03().sumPt+recoMuon->isolationR03().emEt)/aMuon.pt() 
      };
      double lIsoR05Var[4] = {
        recoMuon->isolationR05().sumPt,
        recoMuon->isolationR05().sumPt/aMuon.pt(),
        recoMuon->isolationR05().sumPt+recoMuon->isolationR05().emEt,
        (recoMuon->isolationR05().sumPt+recoMuon->isolationR05().emEt)/aMuon.pt() 
      };

      double lIsoR03Cut[4] = {3.,0.09,6.,0.18};

      for (unsigned int i(0); i<getNVar(); i++){//loop on iso variables
        p_isoR03[i]->Fill(lIsoR03Var[i]);
        p_isoR05[i]->Fill(lIsoR05Var[i]);
 
        //R03
        for (unsigned int lBin(0); lBin<isoR03Eff_[i].numberOfBins(); lBin++){
          double lCut = isoR03Eff_[i].xMin()+isoR03Eff_[i].stepSize()*lBin;

          //std::cout << "******** var R03 #" << i << ", bin " << lBin << " isolation = " << lIsoR03Var[i] << ", cut = " << lCut << std::endl;

          isoR03Eff_[i].incrementTotal(lBin);
          if (lIsoR03Var[i] <= lCut){
            isoR03Eff_[i].incrementPass(lBin);
          }
        }
  
        //R05
        for (unsigned int lBin(0); lBin<isoR05Eff_[i].numberOfBins(); lBin++){
          double lCut = isoR05Eff_[i].xMin()+isoR05Eff_[i].stepSize()*lBin;

          //std::cout << "******** var R05 #" << i << ", bin " << lBin << " isolation = " << lIsoR03Var[i] << ", cut = " << lCut << std::endl;

          isoR05Eff_[i].incrementTotal(lBin);
          if (lIsoR05Var[i] <= lCut){
            isoR05Eff_[i].incrementPass(lBin);
          }
        }
  
        //eff vs pT
        for (unsigned int lBin(0); lBin<isoEffPt_[i].numberOfBins(); lBin++){
          double lCutMin = isoEffPt_[i].xMin()+isoEffPt_[i].stepSize()*lBin;
          double lCutMax = isoEffPt_[i].xMin()+isoEffPt_[i].stepSize()*(lBin+1);

          if (aMuon.pt() >= lCutMin && aMuon.pt() < lCutMax){
            isoEffPt_[i].incrementTotal(lBin);

            if (lIsoR03Var[i] <= lIsoR03Cut[i]){
              isoEffPt_[i].incrementPass(lBin);
            }
          }
        }

        //eff vs eta
        for (unsigned int lBin(0); lBin<isoEffEta_[i].numberOfBins(); lBin++){
          double lCutMin = isoEffEta_[i].xMin()+isoEffEta_[i].stepSize()*lBin;
          double lCutMax = isoEffEta_[i].xMin()+isoEffEta_[i].stepSize()*(lBin+1);

          if (aMuon.eta() >= lCutMin && aMuon.eta() < lCutMax){
            isoEffEta_[i].incrementTotal(lBin);

            if (lIsoR03Var[i] <= lIsoR03Cut[i]){
              isoEffEta_[i].incrementPass(lBin);
            }
          }
        }

      }//loop on iso variables
    }//lIsGenMatched
         
  }//FillHistograms


  void HistosMuons::FillEffHistograms(){//FillEffHistograms


    for (unsigned int id(0); id<idEff_.numberOfBins(); id++){
      peff_muID->SetBinContent(id+1,idEff_.getRatio(id));
      peff_muID->SetBinError(id+1,idEff_.getRatioError(id));

      for (unsigned int lBin(0); lBin<idEffEta_[id].numberOfBins(); lBin++){
        peff_muIDvsEta->SetBinContent(lBin+1,id+1,idEffEta_[id].getRatio(lBin));
        peff_muIDvsEta->SetBinError(lBin+1,id+1,idEffEta_[id].getRatioError(lBin));
      }

    }

    for (unsigned int i(0); i<getNVar(); i++){//loop on iso variables

      for (unsigned int lBin(0); lBin<isoR03Eff_[i].numberOfBins(); lBin++){
        peff_muIsoR03[i]->SetBinContent(lBin+1,isoR03Eff_[i].getRatio(lBin));
        peff_muIsoR03[i]->SetBinError(lBin+1,isoR03Eff_[i].getRatioError(lBin));
      }
      for (unsigned int lBin(0); lBin<isoR05Eff_[i].numberOfBins(); lBin++){
        peff_muIsoR05[i]->SetBinContent(lBin+1,isoR05Eff_[i].getRatio(lBin));
        peff_muIsoR05[i]->SetBinError(lBin+1,isoR05Eff_[i].getRatioError(lBin));
      }

      //eff vs pT
      for (unsigned int lBin(0); lBin<isoEffPt_[i].numberOfBins(); lBin++){
      peff_muPt[i]->SetBinContent(lBin+1,isoEffPt_[i].getRatio(lBin));
      peff_muPt[i]->SetBinError(lBin+1,isoEffPt_[i].getRatioError(lBin));
      }

      //eff vs eta
      for (unsigned int lBin(0); lBin<isoEffEta_[i].numberOfBins(); lBin++){
        peff_muEta[i]->SetBinContent(lBin+1,isoEffEta_[i].getRatio(lBin));
        peff_muEta[i]->SetBinError(lBin+1,isoEffEta_[i].getRatioError(lBin));
      }

    }//loop on iso variables

  }//FillEffHistograms


  bool HistosMuons::MatchesGenMuon(const pat::Muon& aPatMuon)
  {
    
    bool isGenMuonMatched = false;

    //if (aPatMuon.genParticlesSize() == 0) {
    //  edm::LogWarning("MatchesGenMuon") << "No ref to gen particles for pat::Muon ! ";
    //  return false;
    // }

    const std::vector<reco::GenParticleRef> & lVec = aPatMuon.genParticleRefs();
    //for ( std::vector<reco::GenParticleRef>::const_iterator it = aPatMuon.genParticleRefs().begin(); 
    //    it != aPatMuon.genParticleRefs().end(); ++it ) {
    for ( std::vector<reco::GenParticleRef>::const_iterator it = lVec.begin(); 
          it != lVec.end(); ++it ) {
      if ( it->ref().isNonnull() && it->ref().isValid() ) {
        const reco::GenParticleRef & genParticle = (*it);
        //assert (genParticle->isNonnull() && genParticle->isValid());
        if ( genParticle->pdgId() == -13 || genParticle->pdgId() == +13 ) isGenMuonMatched = true;
      } else {
        edm::LogWarning("MatchesGenMuon") << " edm::Ref of genParticle associated to pat::Muon is invalid !!";
      }
    }
    return isGenMuonMatched;
  }

}//namespace


Revision:	1.1
Committed:	Wed Apr 15 11:51:27 2009 UTC (16 years ago) by amagnan
Content type:	text/plain
Branch:	MAIN
Branch point for:	v00-00-00
Log Message:	Initial revision