5 #include <TLorentzVector.h>
25 for (reco::MuonCollection::const_iterator it =
muons->begin(); it !=
muons->end() && recoMuon_.nMuons <
maxMuon;
27 recoMuon_.e.push_back(it->energy());
28 recoMuon_.pt.push_back(it->pt());
29 recoMuon_.et.push_back(it->et());
30 recoMuon_.eta.push_back(it->eta());
31 recoMuon_.phi.push_back(it->phi());
32 recoMuon_.charge.push_back(it->charge());
36 recoMuon_.isLooseMuon.push_back(flagLoose);
40 recoMuon_.isMediumMuon.push_back(flagMedium);
43 bool flagTight =
false;
46 recoMuon_.isTightMuon.push_back(flagTight);
48 double iso = (it->pfIsolationR04().sumChargedHadronPt +
50 it->pfIsolationR04().sumNeutralHadronEt + it->pfIsolationR04().sumPhotonEt -
51 0.5 * it->pfIsolationR04().sumPUPt)) /
53 recoMuon_.iso.push_back(iso);
55 double MET_local = TMath::Sqrt(METx * METx + METy * METy);
56 recoMuon_.met.push_back(MET_local);
59 METP4.SetPxPyPzE(METx, METy, 0, MET_local);
62 Muon.SetPtEtaPhiE(it->pt(), it->eta(), it->phi(), it->energy());
64 double scalSum = MET_local +
Muon.Pt();
65 TLorentzVector vecSum(
Muon);
67 double vecSumPt = vecSum.Pt();
69 recoMuon_.mt.push_back(TMath::Sqrt(scalSum * scalSum - vecSumPt * vecSumPt));
79 recoMuon_.etaSt1.push_back(-9999);
80 recoMuon_.phiSt1.push_back(-9999);
88 recoMuon_.etaSt2.push_back(-9999);
89 recoMuon_.phiSt2.push_back(-9999);