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triggerObjects_cff.py
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1 import FWCore.ParameterSet.Config as cms
4 import copy
5 
6 unpackedPatTrigger = cms.EDProducer("PATTriggerObjectStandAloneUnpacker",
7  patTriggerObjectsStandAlone = cms.InputTag('slimmedPatTrigger'),
8  triggerResults = cms.InputTag('TriggerResults::HLT'),
9  unpackFilterLabels = cms.bool(True)
10 )
11 # ERA-dependent configuration
12 run2_miniAOD_80XLegacy.toModify(
13  unpackedPatTrigger,
14  patTriggerObjectsStandAlone = "selectedPatTrigger",
15  unpackFilterLabels = False
16 )
17 
18 triggerObjectTable = cms.EDProducer("TriggerObjectTableProducer",
19  name= cms.string("TrigObj"),
20  src = cms.InputTag("unpackedPatTrigger"),
21  l1EG = cms.InputTag("caloStage2Digis","EGamma"),
22  l1Sum = cms.InputTag("caloStage2Digis","EtSum"),
23  l1Jet = cms.InputTag("caloStage2Digis","Jet"),
24  l1Muon = cms.InputTag("gmtStage2Digis","Muon"),
25  l1Tau = cms.InputTag("caloStage2Digis","Tau"),
26  selections = cms.VPSet(
27  cms.PSet(
28  name = cms.string("Electron (PixelMatched e/gamma)"), # this selects also photons for the moment!
29  id = cms.int32(11),
30  sel = cms.string("type(92) && pt > 7 && coll('hltEgammaCandidates') && filter('*PixelMatchFilter')"),
31  l1seed = cms.string("type(-98)"), l1deltaR = cms.double(0.3),
32  #l2seed = cms.string("type(92) && coll('')"), l2deltaR = cms.double(0.5),
33  skipObjectsNotPassingQualityBits = cms.bool(True),
34  qualityBits = cms.string(
35  "filter('*CaloIdLTrackIdLIsoVL*TrackIso*Filter') + " \
36  "2*filter('hltEle*WPTight*TrackIsoFilter*') + " \
37  "4*filter('hltEle*WPLoose*TrackIsoFilter') + " \
38  "8*filter('*OverlapFilter*IsoEle*PFTau*') + " \
39  "16*filter('hltEle*Ele*CaloIdLTrackIdLIsoVL*Filter') + " \
40  "32*filter('hltMu*TrkIsoVVL*Ele*CaloIdLTrackIdLIsoVL*Filter*') + " \
41  "64*filter('hltOverlapFilterIsoEle*PFTau*') + " \
42  "128*filter('hltEle*Ele*Ele*CaloIdLTrackIdLDphiLeg*Filter') + " \
43  "256*max(filter('hltL3fL1Mu*DoubleEG*Filtered*'),filter('hltMu*DiEle*CaloIdLTrackIdLElectronleg*Filter')) + " \
44  "512*max(filter('hltL3fL1DoubleMu*EG*Filter*'),filter('hltDiMu*Ele*CaloIdLTrackIdLElectronleg*Filter')) + " \
45  "1024*min(filter('hltEle32L1DoubleEGWPTightGsfTrackIsoFilter'),filter('hltEGL1SingleEGOrFilter')) + " \
46  "2048*filter('hltEle*CaloIdVTGsfTrkIdTGsfDphiFilter') + " \
47  "4096*path('HLT_Ele*PFJet*') + " \
48  "8192*max(filter('hltEG175HEFilter'),filter('hltEG200HEFilter'))"),
49  qualityBitsDoc = cms.string("1 = CaloIdL_TrackIdL_IsoVL, 2 = 1e (WPTight), 4 = 1e (WPLoose), 8 = OverlapFilter PFTau, 16 = 2e, 32 = 1e-1mu, 64 = 1e-1tau, 128 = 3e, 256 = 2e-1mu, 512 = 1e-2mu, 1024 = 1e (32_L1DoubleEG_AND_L1SingleEGOr), 2048 = 1e (CaloIdVT_GsfTrkIdT), 4096 = 1e (PFJet), 8192 = 1e (Photon175_OR_Photon200)"),
50  ),
51  cms.PSet(
52  name = cms.string("Photon (PixelMatch-vetoed e/gamma)"),
53  id = cms.int32(22),
54  sel = cms.string("type(92) && pt > 20 && coll('hltEgammaCandidates') && !filter('*PixelMatchFilter')"),
55  l1seed = cms.string("type(-98)"), l1deltaR = cms.double(0.3),
56  #l2seed = cms.string("type(92) && coll('')"), l2deltaR = cms.double(0.5),
57  skipObjectsNotPassingQualityBits = cms.bool(True),
58  qualityBits = cms.string("0"), qualityBitsDoc = cms.string(""),
59  ),
60  cms.PSet(
61  name = cms.string("Muon"),
62  id = cms.int32(13),
63  sel = cms.string("type(83) && pt > 5 && (coll('hltIterL3MuonCandidates') || (pt > 45 && coll('hltHighPtTkMuonCands')) || (pt > 95 && coll('hltOldL3MuonCandidates')))"),
64  l1seed = cms.string("type(-81)"), l1deltaR = cms.double(0.5),
65  l2seed = cms.string("type(83) && coll('hltL2MuonCandidates')"), l2deltaR = cms.double(0.3),
66  skipObjectsNotPassingQualityBits = cms.bool(True),
67  qualityBits = cms.string(
68  "filter('*RelTrkIsoVVLFiltered0p4') + " \
69  "2*filter('hltL3crIso*Filtered0p07') + " \
70  "4*filter('*OverlapFilterIsoMu*PFTau*') + " \
71  "8*max(filter('hltL3crIsoL1*SingleMu*Filtered0p07'),filter('hltL3crIsoL1sMu*Filtered0p07')) + " \
72  "16*filter('hltDiMuon*Filtered*') + " \
73  "32*filter('hltMu*TrkIsoVVL*Ele*CaloIdLTrackIdLIsoVL*Filter*') + " \
74  "64*filter('hltOverlapFilterIsoMu*PFTau*') + " \
75  "128*filter('hltL3fL1TripleMu*') + " \
76  "256*max(filter('hltL3fL1DoubleMu*EG*Filtered*'),filter('hltDiMu*Ele*CaloIdLTrackIdLElectronleg*Filter')) + " \
77  "512*max(filter('hltL3fL1Mu*DoubleEG*Filtered*'),filter('hltMu*DiEle*CaloIdLTrackIdLElectronleg*Filter')) + " \
78  "1024*max(filter('hltL3fL1sMu*L3Filtered50*'),filter('hltL3fL1sMu*TkFiltered50*')) + " \
79  "2048*max(filter('hltL3fL1sMu*L3Filtered100*'),filter('hltL3fL1sMu*TkFiltered100*'))"),
80  qualityBitsDoc = cms.string("1 = TrkIsoVVL, 2 = Iso, 4 = OverlapFilter PFTau, 8 = 1mu, 16 = 2mu, 32 = 1mu-1e, 64 = 1mu-1tau, 128 = 3mu, 256 = 2mu-1e, 512 = 1mu-2e, 1024 = 1mu (Mu50), 2048 = 1mu (Mu100)"),
81  ),
82  cms.PSet(
83  name = cms.string("Tau"),
84  id = cms.int32(15),
85  sel = cms.string("type(84) && pt > 5 && coll('*Tau*') && ( filter('*LooseChargedIso*') || filter('*MediumChargedIso*') || filter('*TightChargedIso*') || filter('*TightOOSCPhotons*') || filter('hltL2TauIsoFilter') || filter('*OverlapFilterIsoMu*') || filter('*OverlapFilterIsoEle*') || filter('*L1HLTMatched*') || filter('*Dz02*') )"), #All trigger objects from a Tau collection + passing at least one filter
86  l1seed = cms.string("type(-100)"), l1deltaR = cms.double(0.3),
87  l2seed = cms.string("type(84) && coll('hltL2TauJetsL1IsoTauSeeded')"), l2deltaR = cms.double(0.3),
88  skipObjectsNotPassingQualityBits = cms.bool(True),
89  qualityBits = cms.string(
90  "filter('*LooseChargedIso*') + " \
91  "2*filter('*MediumChargedIso*') + " \
92  "4*filter('*TightChargedIso*') + " \
93  "8*filter('*TightOOSCPhotons*') + " \
94  "16*filter('*Hps*') + " \
95  "32*filter('hltSelectedPFTau*MediumChargedIsolationL1HLTMatched*') + " \
96  "64*filter('hltDoublePFTau*TrackPt1*ChargedIsolation*Dz02Reg') + " \
97  "128*filter('hltOverlapFilterIsoEle*PFTau*') + " \
98  "256*filter('hltOverlapFilterIsoMu*PFTau*') + " \
99  "512*filter('hltDoublePFTau*TrackPt1*ChargedIsolation*')"),
100  qualityBitsDoc = cms.string("1 = LooseChargedIso, 2 = MediumChargedIso, 4 = TightChargedIso, 8 = TightID OOSC photons, 16 = HPS, 32 = single-tau + tau+MET, 64 = di-tau, 128 = e-tau, 256 = mu-tau, 512 = VBF+di-tau"),
101  ),
102  cms.PSet(
103  name = cms.string("Jet"),
104  id = cms.int32(1),
105  sel = cms.string("( type(0) || type(85) || type(86) || type(-99) )"),
106  l1seed = cms.string("type(-99)"), l1deltaR = cms.double(0.3),
107  l2seed = cms.string("type(85) || type(86) || type(-99)"), l2deltaR = cms.double(0.3),
108  skipObjectsNotPassingQualityBits = cms.bool(True),
109  qualityBits = cms.string(
110  "1 * filter('*CrossCleaned*LooseChargedIsoPFTau*') + " \
111  "2 * filter('hltBTagCaloCSVp087Triple') + " \
112  "4 * filter('hltDoubleCentralJet90') + " \
113  "8 * filter('hltDoublePFCentralJetLooseID90') + " \
114  "16 * filter('hltL1sTripleJetVBFIorHTTIorDoubleJetCIorSingleJet') + " \
115  "32 * filter('hltQuadCentralJet30') + " \
116  "64 * filter('hltQuadPFCentralJetLooseID30') + " \
117  "128 * max(filter('hltL1sQuadJetC50IorQuadJetC60IorHTT280IorHTT300IorHTT320IorTripleJet846848VBFIorTripleJet887256VBFIorTripleJet927664VBF'), filter('hltL1sQuadJetCIorTripleJetVBFIorHTT')) + " \
118  "256 * filter('hltQuadCentralJet45') + " \
119  "512 * filter('hltQuadPFCentralJetLooseID45') + " \
120  "1024 * max(filter('hltL1sQuadJetC60IorHTT380IorHTT280QuadJetIorHTT300QuadJet'), filter('hltL1sQuadJetC50to60IorHTT280to500IorHTT250to340QuadJet')) + " \
121  "2048 * max(filter('hltBTagCaloCSVp05Double'), filter('hltBTagCaloDeepCSVp17Double')) + " \
122  "4096 * filter('hltPFCentralJetLooseIDQuad30') + " \
123  "8192 * filter('hlt1PFCentralJetLooseID75') + " \
124  "16384 * filter('hlt2PFCentralJetLooseID60') + " \
125  "32768 * filter('hlt3PFCentralJetLooseID45') + " \
126  "65536 * filter('hlt4PFCentralJetLooseID40') + " \
127  "131072 * max(filter('hltBTagPFCSVp070Triple'), max(filter('hltBTagPFDeepCSVp24Triple'), filter('hltBTagPFDeepCSV4p5Triple')) )"
128  ),
129  qualityBitsDoc = cms.string(
130  "Jet bits: bit 0 for VBF cross-cleaned from loose iso PFTau, bit 1 for hltBTagCaloCSVp087Triple, bit 2 for hltDoubleCentralJet90, bit 3 for hltDoublePFCentralJetLooseID90," \
131  " bit 4 for hltL1sTripleJetVBFIorHTTIorDoubleJetCIorSingleJet, bit 5 for hltQuadCentralJet30, bit 6 for hltQuadPFCentralJetLooseID30," \
132  " bit 7 for hltL1sQuadJetC50IorQuadJetC60IorHTT280IorHTT300IorHTT320IorTripleJet846848VBFIorTripleJet887256VBFIorTripleJet927664VBF or hltL1sQuadJetCIorTripleJetVBFIorHTT," \
133  " bit 8 for hltQuadCentralJet45, bit 9 for hltQuadPFCentralJetLooseID45," \
134  " bit 10 for hltL1sQuadJetC60IorHTT380IorHTT280QuadJetIorHTT300QuadJet or hltL1sQuadJetC50to60IorHTT280to500IorHTT250to340QuadJet" \
135  " bit 11 for hltBTagCaloCSVp05Double or hltBTagCaloDeepCSVp17Double, bit 12 for hltPFCentralJetLooseIDQuad30, bit 13 for hlt1PFCentralJetLooseID75," \
136  " bit 14 for hlt2PFCentralJetLooseID60, bit 15 for hlt3PFCentralJetLooseID45, bit 16 for hlt4PFCentralJetLooseID40," \
137  " bit 17 for hltBTagPFCSVp070Triple or hltBTagPFDeepCSVp24Triple or hltBTagPFDeepCSV4p5Triple "),
138  ),
139  cms.PSet(
140  name = cms.string("FatJet"),
141  id = cms.int32(6),
142  sel = cms.string("type(85) && pt > 120 && coll('hltAK8PFJetsCorrected')"),
143  l1seed = cms.string("type(-99)"), l1deltaR = cms.double(0.3),
144  l2seed = cms.string("type(85) && coll('hltAK8CaloJetsCorrectedIDPassed')"), l2deltaR = cms.double(0.3),
145  skipObjectsNotPassingQualityBits = cms.bool(True),
146  qualityBits = cms.string("0"), qualityBitsDoc = cms.string(""),
147  ),
148  cms.PSet(
149  name = cms.string("MET"),
150  id = cms.int32(2),
151  sel = cms.string("type(87) && pt > 30 && coll('hltPFMETProducer')"),
152  l1seed = cms.string("type(-87) && coll('L1ETM')"), l1deltaR = cms.double(9999),
153  l1seed_2 = cms.string("type(-87) && coll('L1ETMHF')"), l1deltaR_2 = cms.double(9999),
154  l2seed = cms.string("type( 87) && coll('hltMetClean')"), l2deltaR = cms.double(9999),
155  skipObjectsNotPassingQualityBits = cms.bool(True),
156  qualityBits = cms.string("0"), qualityBitsDoc = cms.string(""),
157  ),
158  cms.PSet(
159  name = cms.string("HT"),
160  id = cms.int32(3),
161  sel = cms.string("type(89) || type(-89)"),
162  l1seed = cms.string("type(-89) && coll('L1HTT')"), l1deltaR = cms.double(9999),
163  l1seed_2 = cms.string("type(-89) && coll('L1HTTHF')"), l1deltaR_2 = cms.double(9999),
164  l2seed = cms.string("type(89) && coll('hltHtMhtJet30')"), l2deltaR = cms.double(9999),
165  skipObjectsNotPassingQualityBits = cms.bool(True),
166  qualityBits = cms.string(
167  "1 * filter('hltL1sTripleJetVBFIorHTTIorDoubleJetCIorSingleJet') + " \
168  "2 * max(filter('hltL1sQuadJetC50IorQuadJetC60IorHTT280IorHTT300IorHTT320IorTripleJet846848VBFIorTripleJet887256VBFIorTripleJet927664VBF'), filter('hltL1sQuadJetCIorTripleJetVBFIorHTT')) + " \
169  "4 * max(filter('hltL1sQuadJetC60IorHTT380IorHTT280QuadJetIorHTT300QuadJet'), filter('hltL1sQuadJetC50to60IorHTT280to500IorHTT250to340QuadJet')) + " \
170  "8 * max(filter('hltCaloQuadJet30HT300'), filter('hltCaloQuadJet30HT320')) + " \
171  "16 * max(filter('hltPFCentralJetsLooseIDQuad30HT300'), filter('hltPFCentralJetsLooseIDQuad30HT330'))"
172  ),
173  qualityBitsDoc = cms.string(
174  "HT bits: bit 0 for hltL1sTripleJetVBFIorHTTIorDoubleJetCIorSingleJet, bit 1 for hltL1sQuadJetC50IorQuadJetC60IorHTT280IorHTT300IorHTT320IorTripleJet846848VBFIorTripleJet887256VBFIorTripleJet927664VBF or hltL1sQuadJetCIorTripleJetVBFIorHTT, " \
175  "bit 2 for hltL1sQuadJetC60IorHTT380IorHTT280QuadJetIorHTT300QuadJet or hltL1sQuadJetC50to60IorHTT280to500IorHTT250to340QuadJet, " \
176  "bit 3 for hltCaloQuadJet30HT300 or hltCaloQuadJet30HT320, bit 4 for hltPFCentralJetsLooseIDQuad30HT300 or hltPFCentralJetsLooseIDQuad30HT330"
177  ),
178  ),
179  cms.PSet(
180  name = cms.string("MHT"),
181  id = cms.int32(4),
182  sel = cms.string("type(90)"),
183  l1seed = cms.string("type(-90) && coll('L1HTM')"), l1deltaR = cms.double(9999),
184  l1seed_2 = cms.string("type(-90) && coll('L1HTMHF')"), l1deltaR_2 = cms.double(9999),
185  l2seed = cms.string("type(90) && coll('hltHtMhtJet30')"), l2deltaR = cms.double(9999),
186  skipObjectsNotPassingQualityBits = cms.bool(True),
187  qualityBits = cms.string(
188  "1 * max(filter('hltCaloQuadJet30HT300'), filter('hltCaloQuadJet30HT320')) + " \
189  "2 * max(filter('hltPFCentralJetsLooseIDQuad30HT300'), filter('hltPFCentralJetsLooseIDQuad30HT330'))"
190  ),
191  qualityBitsDoc = cms.string
192  (
193  "MHT bits: bit 0 for hltCaloQuadJet30HT300 or hltCaloQuadJet30HT320, bit 1 for hltPFCentralJetsLooseIDQuad30HT300 or hltPFCentralJetsLooseIDQuad30HT330"
194  ),
195  ),
196 
197  ),
198 )
199 
200 # ERA-dependent configuration
201 # Tune filter and collection names to 2016 HLT menus
202 # FIXME: check non-lepton objects and cross check leptons
203 selections2016 = copy.deepcopy(triggerObjectTable.selections)
204 for sel in selections2016:
205  if sel.name=='Muon':
206  sel.sel = cms.string("type(83) && pt > 5 && (coll('hlt*L3MuonCandidates') || coll('hlt*TkMuonCands') || coll('hlt*TrkMuonCands'))")
207  sel.qualityBits = cms.string("filter('*RelTrkIso*Filtered0p4') + 2*filter('hltL3cr*IsoFiltered0p09') + 4*filter('*OverlapFilter*IsoMu*PFTau*') + 8*filter('hltL3f*IsoFiltered0p09') + 1024*max(filter('hltL3fL1sMu*L3Filtered50*'),filter('hltL3fL1sMu*TkFiltered50*'))")
208  sel.qualityBitsDoc = cms.string("1 = TrkIsoVVL, 2 = Iso, 4 = OverlapFilter PFTau, 8 = IsoTkMu, 1024 = 1mu (Mu50)")
209  elif sel.name=='Tau':
210  sel.sel = cms.string("type(84) && pt > 5 && coll('*Tau*') && ( filter('*LooseIso*') || filter('*MediumIso*') || filter('*MediumComb*Iso*') || filter('hltL2TauIsoFilter') || filter('*OverlapFilter*IsoMu*') || filter('*OverlapFilter*IsoEle*') || filter('*L1HLTMatched*') || filter('*Dz02*') )")
211  sel.qualityBits = cms.string("(filter('*LooseIso*')-filter('*VLooseIso*'))+2*filter('*Medium*Iso*')+4*filter('*VLooseIso*')+8*0+16*filter('hltL2TauIsoFilter')+32*filter('*OverlapFilter*IsoMu*')+64*filter('*OverlapFilter*IsoEle*')+128*filter('*L1HLTMatched*')+256*filter('*Dz02*')")
212  sel.qualityBitsDoc = cms.string("1 = LooseIso, 2 = Medium(Comb)Iso, 4 = VLooseIso, 8 = None, 16 = L2p5 pixel iso, 32 = OverlapFilter IsoMu, 64 = OverlapFilter IsoEle, 128 = L1-HLT matched, 256 = Dz")
213 
214 run2_HLTconditions_2016.toModify(
215  triggerObjectTable,
216  selections = selections2016
217 )
218 
219 from PhysicsTools.PatUtils.L1PrefiringWeightProducer_cff import prefiringweight
220 #Next lines are for UL2016 maps
221 (run2_muon_2016 & tracker_apv_vfp30_2016).toModify( prefiringweight, DataEraECAL = cms.string("UL2016preVFP"), DataEraMuon = cms.string("2016preVFP"))
222 (run2_muon_2016 & ~tracker_apv_vfp30_2016).toModify( prefiringweight, DataEraECAL = cms.string("UL2016postVFP"), DataEraMuon = cms.string("2016postVFP"))
223 #Next line is for UL2017 maps
224 run2_jme_2017.toModify( prefiringweight, DataEraECAL = cms.string("UL2017BtoF"), DataEraMuon = cms.string("20172018"))
225 #Next line is for UL2018 maps
226 run2_muon_2018.toModify( prefiringweight, DataEraECAL = cms.string("None"), DataEraMuon = cms.string("20172018"))
227 
228 #For pre-UL 2017 reprocessing, one should use the original maps and no muon jet protection
229 for modifier in run2_nanoAOD_94XMiniAODv1, run2_nanoAOD_94XMiniAODv2:
230  modifier.toModify( prefiringweight, DataEraECAL = cms.string("2017BtoF"), DataEraMuon = cms.string("20172018"))
231  modifier.toModify( prefiringweight, JetMaxMuonFraction = cms.double(-1.) )
232 #For pre-UL 2016 reprocessing, same thing
233 run2_nanoAOD_94X2016.toModify( prefiringweight, DataEraECAL = cms.string("2016BtoH"), DataEraMuon = cms.string("2016") )
234 run2_nanoAOD_94X2016.toModify( prefiringweight, JetMaxMuonFraction = cms.double(-1.) )
235 
236 l1PreFiringEventWeightTable = cms.EDProducer("GlobalVariablesTableProducer",
237  name = cms.string("L1PreFiringWeight"),
238  variables = cms.PSet(
239  Nom = ExtVar(cms.InputTag("prefiringweight:nonPrefiringProb"), "double", doc = "L1 pre-firing event correction weight (1-probability)", precision=8),
240  Up = ExtVar(cms.InputTag("prefiringweight:nonPrefiringProbUp"), "double", doc = "L1 pre-firing event correction weight (1-probability), up var.", precision=8),
241  Dn = ExtVar(cms.InputTag("prefiringweight:nonPrefiringProbDown"), "double", doc = "L1 pre-firing event correction weight (1-probability), down var.", precision=8),
242  Muon_Nom = ExtVar(cms.InputTag("prefiringweight:nonPrefiringProbMuon"), "double", doc = "Muon L1 pre-firing event correction weight (1-probability)", precision=8),
243  Muon_SystUp = ExtVar(cms.InputTag("prefiringweight:nonPrefiringProbMuonSystUp"), "double", doc = "Muon L1 pre-firing event correction weight (1-probability), up var. syst.", precision=8),
244  Muon_SystDn = ExtVar(cms.InputTag("prefiringweight:nonPrefiringProbMuonSystDown"), "double", doc = "Muon L1 pre-firing event correction weight (1-probability), down var. syst.", precision=8),
245  Muon_StatUp = ExtVar(cms.InputTag("prefiringweight:nonPrefiringProbMuonStatUp"), "double", doc = "Muon L1 pre-firing event correction weight (1-probability), up var. stat.", precision=8),
246  Muon_StatDn = ExtVar(cms.InputTag("prefiringweight:nonPrefiringProbMuonStatDown"), "double", doc = "Muon L1 pre-firing event correction weight (1-probability), down var. stat.", precision=8),
247  ECAL_Nom = ExtVar(cms.InputTag("prefiringweight:nonPrefiringProbECAL"), "double", doc = "ECAL L1 pre-firing event correction weight (1-probability)", precision=8),
248  ECAL_Up = ExtVar(cms.InputTag("prefiringweight:nonPrefiringProbECALUp"), "double", doc = "ECAL L1 pre-firing event correction weight (1-probability), up var.", precision=8),
249  ECAL_Dn = ExtVar(cms.InputTag("prefiringweight:nonPrefiringProbECALDown"), "double", doc = "ECAL L1 pre-firing event correction weight (1-probability), down var.", precision=8),
250  )
251 )
252 
253 triggerObjectTables = cms.Sequence( unpackedPatTrigger + triggerObjectTable )
254 
255 #protect nano V8 production from changes to prefiring weights introduce for V9
256 (run2_jme_2016 & run2_nanoAOD_106Xv1 & ~run2_nanoAOD_devel).toModify(prefiringweight,DataEraECAL = cms.string("2016BtoH"))
257 (run2_jme_2017 & run2_nanoAOD_106Xv1 & ~run2_nanoAOD_devel).toModify(prefiringweight,DataEraECAL = cms.string("2017BtoF"))
258 (run2_nanoAOD_106Xv1 & ~run2_nanoAOD_devel).toModify(prefiringweight,DoMuons = cms.bool(False))
259 (run2_nanoAOD_106Xv1 & ~run2_nanoAOD_devel).toModify(l1PreFiringEventWeightTable.variables , Muon_Nom = None, Muon_SystUp = None, Muon_SystDn = None, Muon_StatUp = None, Muon_StatDn = None, ECAL_Nom = None, ECAL_Up = None, ECAL_Dn = None)
260 
261 _triggerObjectTables_withL1PreFiring = triggerObjectTables.copy()
262 _triggerObjectTables_withL1PreFiring.replace(triggerObjectTable, prefiringweight + l1PreFiringEventWeightTable + triggerObjectTable)
263 (run2_HLTconditions_2016 | run2_HLTconditions_2017 | run2_HLTconditions_2018).toReplaceWith(triggerObjectTables, _triggerObjectTables_withL1PreFiring)
def ExtVar(tag, valtype, compression=None, doc=None, mcOnly=False, precision=-1)
Definition: common_cff.py:31