1 import FWCore.ParameterSet.Config
as cms
4 from PhysicsTools.NanoAOD.simpleCandidateFlatTableProducer_cfi
import simpleCandidateFlatTableProducer
17 from RecoTauTag.RecoTau.tauIdWPsDefs
import WORKING_POINTS_v2p5
19 finalTaus = cms.EDFilter(
"PATTauRefSelector",
20 src = cms.InputTag(
"slimmedTaus"),
21 cut = cms.string(
"pt > 18 && ((tauID('decayModeFindingNewDMs') > 0.5 && (tauID('byLooseCombinedIsolationDeltaBetaCorr3Hits') || (tauID('chargedIsoPtSumdR03')+max(0.,tauID('neutralIsoPtSumdR03')-0.072*tauID('puCorrPtSum'))<2.5) || tauID('byVVVLooseDeepTau2017v2p1VSjet') || tauID('byVVVLooseDeepTau2018v2p5VSjet'))) || (?isTauIDAvailable('byPNetVSjetraw')?tauID('byPNetVSjetraw'):-1) > {})".
format(0.05))
24 run3_nanoAOD_124.toModify(
26 cut = cms.string(
"pt > 18 && ((tauID('decayModeFindingNewDMs') > 0.5 && (tauID('byLooseCombinedIsolationDeltaBetaCorr3Hits') || (tauID('chargedIsoPtSumdR03')+max(0.,tauID('neutralIsoPtSumdR03')-0.072*tauID('puCorrPtSum'))<2.5) || tauID('byVVVLooseDeepTau2017v2p1VSjet') || (tauID('byDeepTau2018v2p5VSjetraw') > {}))) || (?isTauIDAvailable('byPNetVSjetraw')?tauID('byPNetVSjetraw'):-1) > {})".
format(WORKING_POINTS_v2p5[
"jet"][
"VVVLoose"],0.05))
30 def _tauIdWPMask(pattern, choices, doc="", from_raw=False, wp_thrs=None):
32 assert wp_thrs
is not None,
"wp_thrs argument in _tauIdWPMask() is None, expect it to be dict-like" 35 for wp_name
in choices:
36 if not isinstance(wp_thrs[wp_name], float):
37 raise TypeError(
"Threshold for WP=%s is not a float number." % wp_name)
38 wp_definition =
"test_bit(tauID('{}')-{}+1,0)".
format(pattern, wp_thrs[wp_name])
39 var_definition.append(wp_definition)
40 var_definition =
" + ".
join(var_definition)
41 var_definition = (
"?isTauIDAvailable('%s')?(" % pattern) + var_definition +
"):0" 43 var_definition =
" + ".
join([
"tauID('%s')" % (pattern % c)
for c
in choices])
44 var_definition = (
"?isTauIDAvailable('%s')?(" % (pattern % choices[0])) + var_definition +
"):0" 46 doc = doc +
": "+
", ".
join([
"%d = %s" % (i,c)
for (i,c)
in enumerate(choices, start=1)])
47 return Var(var_definition,
"uint8", doc=doc)
50 tauTable = simpleCandidateFlatTableProducer.clone(
51 src = cms.InputTag(
"linkedObjects",
"taus"),
52 name= cms.string(
"Tau"),
53 doc = cms.string(
"slimmedTaus after basic selection (" + finalTaus.cut.value()+
")")
56 _tauVarsBase = cms.PSet(P4Vars,
57 charge =
Var(
"charge",
"int16", doc=
"electric charge"),
58 jetIdx =
Var(
"?hasUserCand('jet')?userCand('jet').key():-1",
"int16", doc=
"index of the associated jet (-1 if none)"),
59 eleIdx =
Var(
"?overlaps('electrons').size()>0?overlaps('electrons')[0].key():-1",
"int16", doc=
"index of first matching electron"),
60 muIdx =
Var(
"?overlaps('muons').size()>0?overlaps('muons')[0].key():-1",
"int16", doc=
"index of first matching muon"),
61 svIdx1 =
Var(
"?overlaps('vertices').size()>0?overlaps('vertices')[0].key():-1",
"int16", doc=
"index of first matching secondary vertex"),
62 svIdx2 =
Var(
"?overlaps('vertices').size()>1?overlaps('vertices')[1].key():-1",
"int16", doc=
"index of second matching secondary vertex"),
63 nSVs =
Var(
"?hasOverlaps('vertices')?overlaps('vertices').size():0",
"uint8", doc=
"number of secondary vertices in the tau"),
64 decayMode =
Var(
"decayMode()",
"uint8"),
65 idDecayModeOldDMs =
Var(
"(?isTauIDAvailable('decayModeFinding')?tauID('decayModeFinding'):-1) > 0", bool),
66 idDecayModeNewDMs =
Var(
"(?isTauIDAvailable('decayModeFindingNewDMs')?tauID('decayModeFindingNewDMs'):-1) > 0", bool),
67 leadTkPtOverTauPt =
Var(
"?leadChargedHadrCand.isNonnull()?leadChargedHadrCand.pt/pt:1",float, doc=
"pt of the leading track divided by tau pt",precision=10),
68 leadTkDeltaEta =
Var(
"?leadChargedHadrCand.isNonnull()?(leadChargedHadrCand.eta - eta):0",float, doc=
"eta of the leading track, minus tau eta",precision=8),
69 leadTkDeltaPhi =
Var(
"?leadChargedHadrCand.isNonnull()?deltaPhi(leadChargedHadrCand.phi, phi):0",float, doc=
"phi of the leading track, minus tau phi",precision=8),
71 dxy =
Var(
"?leadChargedHadrCand.isNonnull()?leadChargedHadrCand().dxy():0",float, doc=
"d_{xy} of lead track with respect to PV, in cm (with sign)",precision=10),
72 dz =
Var(
"?leadChargedHadrCand.isNonnull()?leadChargedHadrCand().dz():0",float, doc=
"d_{z} of lead track with respect to PV, in cm (with sign)",precision=14),
75 rawIso =
Var(
"?isTauIDAvailable('byCombinedIsolationDeltaBetaCorrRaw3Hits')?tauID('byCombinedIsolationDeltaBetaCorrRaw3Hits'):-1", float, doc =
"combined isolation (deltaBeta corrections)", precision=10),
76 rawIsodR03 =
Var(
"?isTauIDAvailable('chargedIsoPtSumdR03')?(tauID('chargedIsoPtSumdR03')+max(0.,tauID('neutralIsoPtSumdR03')-0.072*tauID('puCorrPtSum'))):-1", float, doc =
"combined isolation (deltaBeta corrections, dR=0.3)", precision=10),
77 chargedIso =
Var(
"?isTauIDAvailable('chargedIsoPtSum')?tauID('chargedIsoPtSum'):-1", float, doc =
"charged isolation", precision=10),
78 neutralIso =
Var(
"?isTauIDAvailable('neutralIsoPtSum')?tauID('neutralIsoPtSum'):-1", float, doc =
"neutral (photon) isolation", precision=10),
79 puCorr =
Var(
"?isTauIDAvailable('puCorrPtSum')?tauID('puCorrPtSum'):-1", float, doc =
"pileup correction", precision=10),
80 photonsOutsideSignalCone =
Var(
"?isTauIDAvailable('photonPtSumOutsideSignalCone')?tauID('photonPtSumOutsideSignalCone'):-1", float, doc =
"sum of photons outside signal cone", precision=10),
82 idAntiMu =
_tauIdWPMask(
"againstMuon%s3", choices=(
"Loose",
"Tight"), doc=
"Anti-muon discriminator V3: "),
83 idAntiEleDeadECal =
Var(
"(?isTauIDAvailable('againstElectronDeadECAL')?tauID('againstElectronDeadECAL'):-1) > 0", bool, doc =
"Anti-electron dead-ECal discriminator"),
87 _deepTauVars2017v2p1 = cms.PSet(
88 rawDeepTau2017v2p1VSe =
Var(
"?isTauIDAvailable('byDeepTau2017v2p1VSeraw')?tauID('byDeepTau2017v2p1VSeraw'):-1", float, doc=
"byDeepTau2017v2p1VSe raw output discriminator (deepTau2017v2p1)", precision=10),
89 rawDeepTau2017v2p1VSmu =
Var(
"?isTauIDAvailable('byDeepTau2017v2p1VSmuraw')?tauID('byDeepTau2017v2p1VSmuraw'):-1", float, doc=
"byDeepTau2017v2p1VSmu raw output discriminator (deepTau2017v2p1)", precision=10),
90 rawDeepTau2017v2p1VSjet =
Var(
"?isTauIDAvailable('byDeepTau2017v2p1VSjetraw')?tauID('byDeepTau2017v2p1VSjetraw'):-1", float, doc=
"byDeepTau2017v2p1VSjet raw output discriminator (deepTau2017v2p1)", precision=10),
92 choices=(
"VVVLoose",
"VVLoose",
"VLoose",
"Loose",
"Medium",
"Tight",
"VTight",
"VVTight"),
93 doc=
"byDeepTau2017v2p1VSe ID working points (deepTau2017v2p1)"),
95 choices=(
"VLoose",
"Loose",
"Medium",
"Tight"),
96 doc=
"byDeepTau2017v2p1VSmu ID working points (deepTau2017v2p1)"),
98 choices=(
"VVVLoose",
"VVLoose",
"VLoose",
"Loose",
"Medium",
"Tight",
"VTight",
"VVTight"),
99 doc=
"byDeepTau2017v2p1VSjet ID working points (deepTau2017v2p1)"),
101 _deepTauVars2018v2p5 = cms.PSet(
102 rawDeepTau2018v2p5VSe =
Var(
"?isTauIDAvailable('byDeepTau2018v2p5VSeraw')?tauID('byDeepTau2018v2p5VSeraw'):-1", float, doc=
"byDeepTau2018v2p5VSe raw output discriminator (deepTau2018v2p5)", precision=10),
103 rawDeepTau2018v2p5VSmu =
Var(
"?isTauIDAvailable('byDeepTau2018v2p5VSmuraw')?tauID('byDeepTau2018v2p5VSmuraw'):-1", float, doc=
"byDeepTau2018v2p5VSmu raw output discriminator (deepTau2018v2p5)", precision=10),
104 rawDeepTau2018v2p5VSjet =
Var(
"?isTauIDAvailable('byDeepTau2018v2p5VSjetraw')?tauID('byDeepTau2018v2p5VSjetraw'):-1", float, doc=
"byDeepTau2018v2p5VSjet raw output discriminator (deepTau2018v2p5)", precision=10),
106 choices=(
"VVVLoose",
"VVLoose",
"VLoose",
"Loose",
"Medium",
"Tight",
"VTight",
"VVTight"),
107 doc=
"byDeepTau2018v2p5VSe ID working points (deepTau2018v2p5)"),
109 choices=(
"VLoose",
"Loose",
"Medium",
"Tight"),
110 doc=
"byDeepTau2018v2p5VSmu ID working points (deepTau2018v2p5)"),
112 choices=(
"VVVLoose",
"VVLoose",
"VLoose",
"Loose",
"Medium",
"Tight",
"VTight",
"VVTight"),
113 doc=
"byDeepTau2018v2p5VSjet ID working points (deepTau2018v2p5)"),
116 _pnet2023 = cms.PSet(
117 decayModePNet =
Var(
"?isTauIDAvailable('byPNetDecayMode')?tauID('byPNetDecayMode'):-1",
"int16",doc=
"decay mode of the highest tau score of ParticleNet"),
118 rawPNetVSe =
Var(
"?isTauIDAvailable('byPNetVSeraw')?tauID('byPNetVSeraw'):-1", float, doc=
"raw output of ParticleNetVsE discriminator (PNet 2023)", precision=10),
119 rawPNetVSmu =
Var(
"?isTauIDAvailable('byPNetVSmuraw')?tauID('byPNetVSmuraw'):-1", float, doc=
"raw output of ParticleNetVsMu discriminator (PNet 2023)", precision=10),
120 rawPNetVSjet =
Var(
"?isTauIDAvailable('byPNetVSjetraw')?tauID('byPNetVSjetraw'):-1", float, doc=
"raw output of ParticleNetVsJet discriminator (PNet 2023)", precision=10),
121 ptCorrPNet =
Var(
"?isTauIDAvailable('byPNetPtCorr')?tauID('byPNetPtCorr'):1", float, doc=
"pt correction (PNet 2023)", precision=10),
122 qConfPNet =
Var(
"?isTauIDAvailable('byPNetQConf')?tauID('byPNetQConf'):0", float, doc=
"signed charge confidence (PNet 2023)", precision=10),
123 probDM0PNet =
Var(
"?isTauIDAvailable('byPNetProb1h0pi0')?tauID('byPNetProb1h0pi0'):-1", float, doc=
"normalised probablity of decayMode 0, 1h+0pi0 (PNet 2023)", precision=10),
124 probDM1PNet =
Var(
"?isTauIDAvailable('byPNetProb1h1pi0')?tauID('byPNetProb1h1pi0'):-1", float, doc=
"normalised probablity of decayMode 1, 1h+1pi0 (PNet 2023)", precision=10),
125 probDM2PNet =
Var(
"?isTauIDAvailable('byPNetProb1h2pi0')?tauID('byPNetProb1h2pi0'):-1", float, doc=
"normalised probablity of decayMode 2, 1h+2pi0 (PNet 2023)", precision=10),
126 probDM10PNet =
Var(
"?isTauIDAvailable('byPNetProb3h0pi0')?tauID('byPNetProb3h0pi0'):-1", float, doc=
"normalised probablity of decayMode 10, 3h+0pi0 (PNet 2023)", precision=10),
127 probDM11PNet =
Var(
"?isTauIDAvailable('byPNetProb3h1pi0')?tauID('byPNetProb3h1pi0'):-1", float, doc=
"normalised probablity of decayMode 11, 3h+1pi0 (PNet 2023)", precision=10),
130 _variablesMiniV2 = cms.PSet(
132 _deepTauVars2017v2p1,
133 _deepTauVars2018v2p5,
137 tauTable.variables = _variablesMiniV2
139 run3_nanoAOD_124.toModify(
141 idDeepTau2018v2p5VSe =
_tauIdWPMask(
"byDeepTau2018v2p5VSeraw",
142 choices=(
"VVVLoose",
"VVLoose",
"VLoose",
"Loose",
"Medium",
"Tight",
"VTight",
"VVTight"),
143 doc=
"byDeepTau2018v2p5VSe ID working points (deepTau2018v2p5)",
144 from_raw=
True, wp_thrs=WORKING_POINTS_v2p5[
"e"]),
145 idDeepTau2018v2p5VSmu =
_tauIdWPMask(
"byDeepTau2018v2p5VSmuraw",
146 choices=(
"VLoose",
"Loose",
"Medium",
"Tight"),
147 doc=
"byDeepTau2018v2p5VSmu ID working points (deepTau2018v2p5)",
148 from_raw=
True, wp_thrs=WORKING_POINTS_v2p5[
"mu"]),
149 idDeepTau2018v2p5VSjet =
_tauIdWPMask(
"byDeepTau2018v2p5VSjetraw",
150 choices=(
"VVVLoose",
"VVLoose",
"VLoose",
"Loose",
"Medium",
"Tight",
"VTight",
"VVTight"),
151 doc=
"byDeepTau2018v2p5VSjet ID working points (deepTau2018v2p5)",
152 from_raw=
True, wp_thrs=WORKING_POINTS_v2p5[
"jet"])
155 tauSignalCands = cms.EDProducer(
"PATTauSignalCandidatesProducer",
157 storeLostTracks = cms.bool(
True)
160 tauSignalCandsTable = simpleCandidateFlatTableProducer.clone(
161 src = cms.InputTag(
"tauSignalCands"),
162 cut = cms.string(
"pt > 0."),
163 name = cms.string(
"TauProd"),
164 doc = cms.string(
"tau signal candidates"),
165 variables = cms.PSet(
167 pdgId =
Var(
"pdgId", int, doc=
"PDG code assigned by the event reconstruction (not by MC truth)"),
168 tauIdx =
Var(
"status",
"int16", doc=
"index of the mother tau"),
173 tauGenJetsForNano = tauGenJets.clone(
174 GenParticles =
"finalGenParticles",
175 includeNeutrinos =
False 178 tauGenJetsSelectorAllHadronsForNano = tauGenJetsSelectorAllHadrons.clone(
179 src =
"tauGenJetsForNano" 182 genVisTaus = cms.EDProducer(
"GenVisTauProducer",
183 src = cms.InputTag(
"tauGenJetsSelectorAllHadronsForNano"),
184 srcGenParticles = cms.InputTag(
"finalGenParticles")
187 genVisTauTable = simpleCandidateFlatTableProducer.clone(
188 src = cms.InputTag(
"genVisTaus"),
189 cut = cms.string(
"pt > 10."),
190 name = cms.string(
"GenVisTau"),
191 doc = cms.string(
"gen hadronic taus "),
192 variables = cms.PSet(
193 pt =
Var(
"pt", float,precision=8),
194 phi =
Var(
"phi", float,precision=8),
195 eta =
Var(
"eta", float,precision=8),
196 mass =
Var(
"mass", float,precision=8),
197 charge =
Var(
"charge",
"int16"),
198 status =
Var(
"status",
"uint8", doc=
"Hadronic tau decay mode. 0=OneProng0PiZero, 1=OneProng1PiZero, 2=OneProng2PiZero, 10=ThreeProng0PiZero, 11=ThreeProng1PiZero, 15=Other"),
199 genPartIdxMother =
Var(
"?numberOfMothers>0?motherRef(0).key():-1",
"int16", doc=
"index of the mother particle"),
203 tausMCMatchLepTauForTable = cms.EDProducer(
"MCMatcher",
205 matched = cms.InputTag(
"finalGenParticles"),
206 mcPdgId = cms.vint32(11,13),
207 checkCharge = cms.bool(
False),
208 mcStatus = cms.vint32(),
209 maxDeltaR = cms.double(0.3),
210 maxDPtRel = cms.double(0.5),
211 resolveAmbiguities = cms.bool(
True),
212 resolveByMatchQuality = cms.bool(
True),
215 tausMCMatchHadTauForTable = cms.EDProducer(
"MCMatcher",
217 matched = cms.InputTag(
"genVisTaus"),
218 mcPdgId = cms.vint32(15),
219 checkCharge = cms.bool(
False),
220 mcStatus = cms.vint32(),
221 maxDeltaR = cms.double(0.3),
222 maxDPtRel = cms.double(1.),
223 resolveAmbiguities = cms.bool(
True),
224 resolveByMatchQuality = cms.bool(
True),
227 tauMCTable = cms.EDProducer(
"CandMCMatchTableProducer",
229 mcMap = cms.InputTag(
"tausMCMatchLepTauForTable"),
230 mcMapVisTau = cms.InputTag(
"tausMCMatchHadTauForTable"),
231 objName = tauTable.name,
232 objType = tauTable.name,
233 branchName = cms.string(
"genPart"),
234 docString = cms.string(
"MC matching to status==2 taus"),
238 tauTask = cms.Task(finalTaus)
239 tauTablesTask = cms.Task(tauTable)
240 tauSignalCandsTask = cms.Task(tauSignalCands,tauSignalCandsTable)
241 tauTablesTask.add(tauSignalCandsTask)
243 genTauTask = cms.Task(tauGenJetsForNano,tauGenJetsSelectorAllHadronsForNano,genVisTaus,genVisTauTable)
244 tauMCTask = cms.Task(genTauTask,tausMCMatchLepTauForTable,tausMCMatchHadTauForTable,tauMCTable)
def Var(expr, valtype, doc=None, precision=-1)
static std::string join(char **cmd)
def _tauIdWPMask(pattern, choices, doc="", from_raw=False, wp_thrs=None)
Tables for final output and docs ##########################.
1.8.14