d3/de2/isotracks__cff_8py_source.html

 import FWCore.ParameterSet.Config as cms
 from PhysicsTools.NanoAOD.common_cff import *
 from PhysicsTools.NanoAOD.simplePATIsolatedTrackFlatTableProducer_cfi import simplePATIsolatedTrackFlatTableProducer

 finalIsolatedTracks = cms.EDProducer("IsolatedTrackCleaner",
     tracks = cms.InputTag("isolatedTracks"),
     cut = cms.string("((pt>5 && (abs(pdgId) == 11 || abs(pdgId) == 13)) || pt > 10) && (abs(pdgId) < 15 || abs(eta) < 2.5) && ((abs(dxy) < 0.2 && abs(dz) < 0.1) || pt>15) && ((pfIsolationDR03().chargedHadronIso < 5 && pt < 25) || pfIsolationDR03().chargedHadronIso/pt < 0.2)"),
     finalLeptons = cms.VInputTag(
         cms.InputTag("finalElectrons"),
         cms.InputTag("finalLooseMuons"),
     ),
 )

 isoForIsoTk = cms.EDProducer("IsoTrackIsoValueMapProducer",
     src = cms.InputTag("finalIsolatedTracks"),
     relative = cms.bool(True),
     rho_MiniIso = cms.InputTag("fixedGridRhoFastjetAll"),
     EAFile_MiniIso = cms.FileInPath("PhysicsTools/NanoAOD/data/effAreaMuons_cone03_pfNeuHadronsAndPhotons_80X.txt"),
 )

 isFromLostTrackForIsoTk = cms.EDProducer("IsFromLostTrackMapProducer",
     srcIsoTracks = cms.InputTag("finalIsolatedTracks"),
     lostTracks = cms.InputTag("lostTracks"),
 )

 isoTrackTable = simplePATIsolatedTrackFlatTableProducer.clone(
     src = cms.InputTag("finalIsolatedTracks"),
     name = cms.string("IsoTrack"),
     doc  = cms.string("isolated tracks after basic selection (" + finalIsolatedTracks.cut.value() + ") and lepton veto"),
     variables = cms.PSet(P3Vars,
         dz = Var("dz",float,doc="dz (with sign) wrt first PV, in cm",precision=10),
         dxy = Var("dxy",float,doc="dxy (with sign) wrt first PV, in cm",precision=10),
         pfRelIso03_chg = Var("pfIsolationDR03().chargedHadronIso/pt",float,doc="PF relative isolation dR=0.3, charged component",precision=10),
         pfRelIso03_all = Var("(pfIsolationDR03().chargedHadronIso + max(pfIsolationDR03().neutralHadronIso + pfIsolationDR03().photonIso - pfIsolationDR03().puChargedHadronIso/2,0.0))/pt",float,doc="PF relative isolation dR=0.3, total (deltaBeta corrections)",precision=10),
         isPFcand = Var("packedCandRef().isNonnull()",bool,doc="if isolated track is a PF candidate"),
         fromPV = Var("fromPV", "int16", doc="isolated track comes from PV"),
         pdgId = Var("pdgId",int,doc="PDG id of PF cand"),
         isHighPurityTrack = Var("isHighPurityTrack",bool,doc="track is high purity"),
         charge = Var("charge", "int16", doc="electric charge"),
     ),
     externalVariables = cms.PSet(
         miniPFRelIso_chg = ExtVar("isoForIsoTk:miniIsoChg",float,doc="mini PF relative isolation, charged component",precision=10),
         miniPFRelIso_all = ExtVar("isoForIsoTk:miniIsoAll",float,doc="mini PF relative isolation, total (with scaled rho*EA PU corrections)",precision=10),
         isFromLostTrack = ExtVar("isFromLostTrackForIsoTk:isFromLostTrack",bool,doc="if isolated track comes from a lost track"),
     ),
 )

 isoTrackTask = cms.Task(finalIsolatedTracks,isoForIsoTk,isFromLostTrackForIsoTk)
 isoTrackTablesTask = cms.Task(isoTrackTable)

common_cff.Var
def Var(expr, valtype, doc=None, precision=-1, lazyEval=False)
Definition: common_cff.py:17

common_cff.ExtVar
def ExtVar(tag, valtype, doc=None, precision=-1)
Definition: common_cff.py:28

common_cff