3 import FWCore.ParameterSet.Config
as cms
5 from TauAnalysis.MCEmbeddingTools.rerunParticleFlow
import rerunParticleFlow
12 from TauAnalysis.MCEmbeddingTools.setDefaults
import setDefaults
15 inputProcess = process.customization_options.inputProcessRECO.value()
16 print "Input process set to '%s'" % inputProcess
18 process._Process__name =
"EmbeddedRECO"
21 process.DQMStore = cms.Service(
"DQMStore")
23 if process.customization_options.isMC.value():
27 process.genMuonsFromZs = cms.EDProducer(
"GenParticlesFromZsSelectorForMCEmbedding",
28 src = cms.InputTag(
"genParticles",
"", process.customization_options.inputProcessSIM.value()),
29 pdgIdsMothers = cms.vint32(23, 22),
30 pdgIdsDaughters = cms.vint32(13),
31 maxDaughters = cms.int32(2),
32 minDaughters = cms.int32(2),
33 before_or_afterFSR = cms.string(
"afterFSR"),
34 verbosity = cms.int32(0)
36 process.ProductionFilterSequence.replace(process.cleanedGeneralTracks, process.genMuonsFromZs*process.cleanedGeneralTracks)
37 process.ProductionFilterSequence.replace(process.cleanedParticleFlow, process.genMuonsFromZs*process.cleanedParticleFlow)
41 process.genMetCalo = cms.EDProducer(
"MixedGenMEtProducer",
42 srcGenParticles1 = cms.InputTag(
"genParticles",
"", process.customization_options.inputProcessSIM.value()),
43 srcGenParticles2 = cms.InputTag(
"genParticles"),
44 srcRemovedMuons = cms.InputTag(process.customization_options.ZmumuCollection.getModuleLabel()),
45 type = cms.string(
"calo"),
48 process.genMetTrue = process.genMetCalo.clone(
49 type = cms.string(
"pf")
56 process.genMetCalo = cms.EDProducer(
"MixedGenMEtProducer",
57 srcGenParticles1 = cms.InputTag(
""),
58 srcGenParticles2 = cms.InputTag(
"genParticles"),
59 srcRemovedMuons = cms.InputTag(process.customization_options.ZmumuCollection.getModuleLabel()),
60 type = cms.string(
"calo"),
61 isMC = cms.bool(
False)
63 process.genMetTrue = process.genMetCalo.clone(
64 type = cms.string(
"pf")
66 for p
in process.paths:
67 pth = getattr(process, p)
68 if "genParticles" in pth.moduleNames():
69 pth.replace(process.genParticles, process.genParticles*process.genMetCalo*process.genMetTrue)
72 print "Setting collection of Z->mumu candidates to '%s'" % process.customization_options.ZmumuCollection.getModuleLabel()
73 if not (hasattr(process,
"cleanedGeneralTracks")
and hasattr(process,
"cleanedParticleFlow")):
74 process.load(
"TauAnalysis.MCEmbeddingTools.PFEmbeddingSource_cff")
75 if process.customization_options.replaceGenOrRecMuonMomenta.value() ==
'gen':
76 print "Taking momenta of generated tau leptons from generator level muons"
77 process.generator.src = cms.InputTag(
'genMuonsFromZs')
78 elif process.customization_options.replaceGenOrRecMuonMomenta.value() ==
'rec':
79 print "Taking momenta of generated tau leptons from reconstructed muons"
80 process.generator.src = process.customization_options.ZmumuCollection
82 raise ValueError(
"Invalid Configuration parameter 'replaceGenOrRecMuonMomenta' = %s !!" % process.customization_options.replaceGenOrRecMuonMomenta.value())
84 process.cleanedGeneralTracks.selectedMuons = process.customization_options.ZmumuCollection
85 process.cleanedParticleFlow.selectedMuons = process.customization_options.ZmumuCollection
86 if process.customization_options.muonTrackCleaningMode.value() == 1:
87 process.cleanedGeneralTracks.removeDuplicates = cms.bool(
False)
88 process.cleanedParticleFlow.removeDuplicates = cms.bool(
False)
89 elif process.customization_options.muonTrackCleaningMode.value() == 2:
90 process.cleanedGeneralTracks.removeDuplicates = cms.bool(
True)
91 process.cleanedParticleFlow.removeDuplicates = cms.bool(
True)
93 raise ValueError(
"Invalid Configuration parameter 'muonTrackCleaningMode' = %i !!" % process.customization_options.muonTrackCleaningMode.value())
96 outputModule = process.output
100 outputModule = getattr(process, str(getattr(process,
list(process.endpaths)[-1])))
104 print "Changing event-content to AODSIM + Z->mumu candidates"
105 outputModule.outputCommands = cms.untracked.vstring(
"drop *")
106 outputModule.outputCommands.extend(process.AODSIMEventContent.outputCommands)
110 for item
in outputModule.outputCommands[:]:
111 if item ==
"drop *" and index != 0:
112 del outputModule.outputCommands[index]
117 outputModule.outputCommands.extend([
118 'keep *_genMuonsFromZs_*_*'
122 outputModule.outputCommands.extend([
123 'keep *_goodMuons_*_*',
124 'keep *_goodMuonsPFIso_*_*',
125 'keep *_highestPtMuPlus_*_*',
126 'keep *_highestPtMuMinus_*_*',
127 'keep *_highestPtMuPlusPFIso_*_*',
128 'keep *_highestPtMuMinusPFIso_*_*'
133 outputModule.outputCommands.extend([
134 'keep *_goldenZmumuCandidatesGe0IsoMuons_*_*',
135 'keep *_goldenZmumuCandidatesGe1IsoMuons_*_*',
136 'keep *_goldenZmumuCandidatesGe2IsoMuons_*_*',
137 'keep TH2DMEtoEDM_MEtoEDMConverter_*_*'
143 outputModule.outputCommands.extend([
144 'keep *_goldenZmumuFilterResult_*_*',
145 'keep *_muonRadiationFilterResult_*_*'
151 outputModule.outputCommands.extend([
152 'keep *HepMCProduct_generator_*_*'
157 outputModule.outputCommands.extend([
158 'keep *_muonCaloEnergyDepositsByDistance_totalDistanceMuPlus_*',
159 'keep *_muonCaloEnergyDepositsByDistance_totalEnergyDepositMuPlus_*',
160 'keep *_muonCaloEnergyDepositsByDistance_totalDistanceMuMinus_*',
161 'keep *_muonCaloEnergyDepositsByDistance_totalEnergyDepositMuMinus_*',
162 'keep *_castorreco_removedEnergyMuMinus*_*',
163 'keep *_castorreco_removedEnergyMuPlus*_*',
164 'keep *_hfreco_removedEnergyMuMinus*_*',
165 'keep *_hfreco_removedEnergyMuPlus*_*',
166 'keep *_ecalPreshowerRecHit_removedEnergyMuMinus*_*',
167 'keep *_ecalPreshowerRecHit_removedEnergyMuPlus*_*',
168 'keep *_ecalRecHit_removedEnergyMuMinus*_*',
169 'keep *_ecalRecHit_removedEnergyMuPlus*_*',
170 'keep *_hbhereco_removedEnergyMuMinus*_*',
171 'keep *_hbhereco_removedEnergyMuPlus*_*',
172 'keep *_horeco_removedEnergyMuMinus*_*',
173 'keep *_horeco_removedEnergyMuPlus*_*',
178 hltProcessName =
"HLT"
180 hltProcessName = __HLT__
184 process.dimuonsHLTFilter.TriggerResultsTag.processName = hltProcessName
185 process.goodZToMuMuAtLeast1HLT.TrigTag.processName = hltProcessName
186 process.goodZToMuMuAtLeast1HLT.triggerEvent.processName = hltProcessName
187 process.hltTrigReport,HLTriggerResults.processName = hltProcessName
193 if hasattr(process,
'HLTAnalyzerEndpath'):
194 process.HLTAnalyzerEndpath.remove(process.hltL1GtTrigReport)
197 print "Setting mdtau to %i" % process.customization_options.mdtau.value()
198 process.generator.Ztautau.TauolaOptions.InputCards.mdtau = process.customization_options.mdtau
199 if hasattr(process.generator,
"ParticleGun"):
200 process.generator.ParticleGun.ExternalDecays.Tauola.InputCards.mdtau = process.customization_options.mdtau
201 if process.customization_options.useTauolaPolarization.value():
202 print "Enabling tau polarization effects in TAUOLA"
206 process.generator.Ztautau.TauolaOptions.UseTauolaPolarization = cms.bool(
True)
208 print "Disabling tau polarization effects in TAUOLA"
211 process.generator.Ztautau.TauolaOptions.UseTauolaPolarization = cms.bool(
False)
213 print "Setting minVisibleTransverseMomentum to '%s'" % process.customization_options.minVisibleTransverseMomentum.value()
214 process.generator.Ztautau.minVisibleTransverseMomentum = process.customization_options.minVisibleTransverseMomentum
216 print "Setting transformationMode to %i" % process.customization_options.transformationMode.value()
217 process.generator.Ztautau.transformationMode = process.customization_options.transformationMode
219 print "Setting rfRotationAngle to %1.0f" % process.customization_options.rfRotationAngle.value()
220 process.generator.Ztautau.rfRotationAngle = process.customization_options.rfRotationAngle
222 if process.customization_options.overrideBeamSpot.value():
223 bs = cms.string(
"BeamSpotObjects_2009_LumiBased_SigmaZ_v28_offline")
224 process.GlobalTag.toGet = cms.VPSet(
226 record = cms.string(
"BeamSpotObjectsRcd"),
228 connect = cms.untracked.string(
"frontier://FrontierProd/CMS_COND_31X_BEAMSPOT")
231 print "BeamSpot in globaltag set to '%s'" % bs
233 print "BeamSpot in globaltag not changed"
237 print "Disabling gen. vertex smearing"
238 process.VtxSmeared = cms.EDProducer(
"FlatEvtVtxGenerator",
239 MaxZ = cms.double(0.0),
240 MaxX = cms.double(0.0),
241 MaxY = cms.double(0.0),
242 MinX = cms.double(0.0),
243 MinY = cms.double(0.0),
244 MinZ = cms.double(0.0),
245 TimeOffset = cms.double(0.0),
246 src = cms.InputTag(
"generator",
"unsmeared")
249 if process.customization_options.useJson.value():
250 print "Enabling event selection by JSON file"
251 import PhysicsTools.PythonAnalysis.LumiList
as LumiList
252 import FWCore.ParameterSet.Types
as CfgTypes
254 process.source.lumisToProcess = CfgTypes.untracked(CfgTypes.VLuminosityBlockRange())
255 process.source.lumisToProcess.extend(myLumis)
261 if process.customization_options.embeddingMode.value() ==
"RH" and process.customization_options.cleaningMode ==
'PF':
263 process.ProductionFilterSequence += process.rerunParticleFlowSequenceForPFMuonCleaning
267 process.generalTracksORG = process.generalTracks.clone()
268 process.generalTracks = cms.EDProducer(
"TrackMixer",
271 collection1 = cms.InputTag(
"generalTracksORG",
"",
"EmbeddedRECO"),
272 collection2 = cms.InputTag(
"cleanedGeneralTracks")
275 verbosity = cms.int32(0)
278 for p
in process.paths:
279 pth = getattr(process,p)
280 if "generalTracks" in pth.moduleNames():
281 pth.replace(process.generalTracks, process.generalTracksORG*process.generalTracks)
286 process.trackerDrivenElectronSeedsORG = process.trackerDrivenElectronSeeds.clone()
287 process.trackerDrivenElectronSeedsORG.TkColList = cms.VInputTag(
288 cms.InputTag(
"generalTracksORG")
291 process.trackerDrivenElectronSeeds = cms.EDProducer(
"ElectronSeedTrackRefUpdater",
292 PreIdLabel = process.trackerDrivenElectronSeedsORG.PreIdLabel,
293 PreGsfLabel = process.trackerDrivenElectronSeedsORG.PreGsfLabel,
294 targetTracks = cms.InputTag(
"generalTracks"),
295 inSeeds = cms.InputTag(
"trackerDrivenElectronSeedsORG", process.trackerDrivenElectronSeedsORG.PreGsfLabel.value()),
296 inPreId = cms.InputTag(
"trackerDrivenElectronSeedsORG", process.trackerDrivenElectronSeedsORG.PreIdLabel.value()),
299 for p
in process.paths:
300 pth = getattr(process,p)
301 if "trackerDrivenElectronSeeds" in pth.moduleNames():
302 pth.replace(process.trackerDrivenElectronSeeds, process.trackerDrivenElectronSeedsORG*process.trackerDrivenElectronSeeds)
307 outputModule.outputCommands.extend([
'keep recoTracks_generalTracksORG_*_*'])
312 process.electronGsfTracksORG = process.electronGsfTracks.clone()
313 process.electronGsfTracks = cms.EDProducer(
"GsfTrackMixer",
314 collection1 = cms.InputTag(
"electronGsfTracksORG",
"",
"EmbeddedRECO"),
315 collection2 = cms.InputTag(
"electronGsfTracks",
"", inputProcess)
318 process.gsfConversionTrackProducer.TrackProducer = cms.string(
'electronGsfTracksORG')
320 for p
in process.paths:
321 pth = getattr(process,p)
322 if "electronGsfTracks" in pth.moduleNames():
323 pth.replace(process.electronGsfTracks, process.electronGsfTracksORG*process.electronGsfTracks)
325 process.generalConversionTrackProducer.TrackProducer = cms.string(
'generalTracksORG')
326 process.uncleanedOnlyGeneralConversionTrackProducer.TrackProducer = cms.string(
'generalTracksORG')
328 process.gsfElectronsORG = process.gsfElectrons.clone()
329 process.gsfElectrons = cms.EDProducer(
"GSFElectronsMixer",
330 col1 = cms.InputTag(
"gsfElectronsORG"),
331 col2 = cms.InputTag(
"gsfElectrons",
"", inputProcess)
333 for p
in process.paths:
334 pth = getattr(process,p)
335 if "gsfElectrons" in pth.moduleNames():
336 pth.replace(process.gsfElectrons, process.gsfElectronsORG*process.gsfElectrons)
341 for p
in process.paths:
342 pth = getattr(process,p)
343 for mod
in pth.moduleNames():
344 if mod.find(
"dedx") != -1
and mod.find(
"Zmumu") == -1:
345 if mod.find(
"ForPFMuonCleaning") == -1:
346 print "Removing %s" % mod
347 module = getattr(process, mod)
355 process.muonCaloDistances = cms.EDProducer(
'MuonCaloDistanceProducer',
356 trackAssociator = TrackAssociatorParameterBlock.TrackAssociatorParameters,
357 selectedMuons = process.customization_options.ZmumuCollection)
358 process.ProductionFilterSequence += process.muonCaloDistances
361 l1ExtraCollections = [
362 [
"L1EmParticle",
"Isolated" ],
363 [
"L1EmParticle",
"NonIsolated" ],
364 [
"L1EtMissParticle",
"MET" ],
365 [
"L1EtMissParticle",
"MHT" ],
366 [
"L1JetParticle",
"Central" ],
367 [
"L1JetParticle",
"Forward" ],
368 [
"L1JetParticle",
"Tau" ],
369 [
"L1MuonParticle",
"" ]
371 l1extraParticleCollections = []
372 for l1ExtraCollection
in l1ExtraCollections:
373 inputType = l1ExtraCollection[0]
375 srcVeto = cms.InputTag(
'')
377 if inputType ==
"L1EmParticle":
378 pluginType =
"L1ExtraEmParticleMixerPlugin"
379 srcSelectedMuons = process.customization_options.ZmumuCollection
381 elif inputType ==
"L1EtMissParticle":
382 pluginType =
"L1ExtraMEtMixerPlugin"
383 elif inputType ==
"L1JetParticle":
384 pluginType =
"L1ExtraJetParticleMixerPlugin"
385 srcSelectedMuons = process.customization_options.ZmumuCollection
387 elif inputType ==
"L1MuonParticle":
388 pluginType =
"L1ExtraMuonParticleMixerPlugin"
389 srcSelectedMuons = process.customization_options.ZmumuCollection
392 raise ValueError(
"Invalid L1Extra type = %s !!" % inputType)
393 instanceLabel = l1ExtraCollection[1]
394 l1extraParticleCollections.append(cms.PSet(
395 pluginType = cms.string(pluginType),
396 instanceLabel = cms.string(instanceLabel),
397 srcSelectedMuons2 = srcSelectedMuons,
398 dRveto2 = cms.double(dRveto)))
399 if inputType ==
'L1EtMissParticle':
400 l1extraParticleCollections[-1].srcMuons = cms.InputTag(
"muonCaloDistances",
"muons")
401 l1extraParticleCollections[-1].distanceMapMuPlus = cms.InputTag(
"muonCaloDistances",
"distancesMuPlus")
402 l1extraParticleCollections[-1].distanceMapMuMinus = cms.InputTag(
"muonCaloDistances",
"distancesMuPlus")
403 l1extraParticleCollections[-1].H_Calo_AbsEtaLt12 = cms.double(process.customization_options.muonCaloCleaningSF.value()*0.75)
404 l1extraParticleCollections[-1].H_Calo_AbsEta12to17 = cms.double(process.customization_options.muonCaloCleaningSF.value()*0.6)
405 l1extraParticleCollections[-1].H_Calo_AbsEtaGt17 = cms.double(process.customization_options.muonCaloCleaningSF.value()*0.3)
407 process.l1extraParticlesORG = process.l1extraParticles.clone()
408 process.l1extraParticles = cms.EDProducer(
'L1ExtraMixer',
409 src1 = cms.InputTag(
"l1extraParticlesORG"),
410 src2 = cms.InputTag(
"l1extraParticles",
"", inputProcess),
411 collections = cms.VPSet(l1extraParticleCollections)
413 for p
in process.paths:
414 pth = getattr(process,p)
415 if "l1extraParticles" in pth.moduleNames():
416 pth.replace(process.l1extraParticles, process.l1extraParticlesORG*process.l1extraParticles)
418 if process.customization_options.embeddingMode.value() ==
"PF":
419 print "Using PF-embedding"
420 from TauAnalysis.MCEmbeddingTools.embeddingCustomizePF
import customise
as customisePF
422 elif process.customization_options.embeddingMode.value() ==
"RH":
423 print "Using RH-embedding"
424 from TauAnalysis.MCEmbeddingTools.embeddingCustomizeRH
import customise
as customiseRH
425 customiseRH(process, inputProcess)
427 raise ValueError(
"Invalid Configuration parameter 'embeddingMode' = %s !!" % process.customization_options.embeddingMode.value())
432 for s
in process.sequences:
433 seq = getattr(process,s)
434 seq.remove(process.offlineBeamSpot)
437 process.metreco.remove(process.BeamHaloId)
442 outputModule = process.output
446 outputModule = getattr(process, str(getattr(process,
list(process.endpaths)[-1])))
450 process.filterEmptyEv.src = cms.untracked.InputTag(
"generatorSmeared",
"",
"EmbeddedRECO")
453 process.schedule.remove(process.DQM_FEDIntegrity_v3)
457 process.load(
"TauAnalysis/MCEmbeddingTools/ZmumuStandaloneSelection_cff")
458 process.goldenZmumuFilter.src = process.customization_options.ZmumuCollection
459 if process.customization_options.applyZmumuSkim.value():
460 print "Enabling Zmumu skim"
461 process.load(
"TrackingTools/TransientTrack/TransientTrackBuilder_cfi")
462 for path
in process.paths:
463 if process.customization_options.isMC.value():
464 getattr(process,path)._seq = process.goldenZmumuFilterSequence * getattr(process,path)._seq
466 getattr(process,path)._seq = process.goldenZmumuFilterSequenceData * getattr(process,path)._seq
467 process.options = cms.untracked.PSet(
468 wantSummary = cms.untracked.bool(
True)
471 process.goldenZmumuFilterResult = cms.EDProducer(
"CandViewCountEventSelFlagProducer",
472 src = process.customization_options.ZmumuCollection,
473 minNumber = cms.uint32(1)
475 process.goldenZmumuFilterEfficiencyPath = cms.Path(process.goldenZmumuSelectionSequence + process.goldenZmumuFilterResult + process.MEtoEDMConverter)
476 process.schedule.append(process.goldenZmumuFilterEfficiencyPath)
478 print "Zmumu skim disabled"
480 process.load(
"TauAnalysis/MCEmbeddingTools/muonRadiationFilter_cfi")
481 process.muonRadiationFilter.srcSelectedMuons = process.customization_options.ZmumuCollection
482 if process.customization_options.applyMuonRadiationFilter.value():
483 print "Muon -> muon + photon radiation filter enabled"
486 process.reconstruction_step += process.muonRadiationFilterSequence
487 process.options = cms.untracked.PSet(
488 wantSummary = cms.untracked.bool(
True)
491 process.muonRadiationFilterResult = cms.EDProducer(
"DummyBoolEventSelFlagProducer")
492 process.muonRadiationFilterEfficiencyPath = cms.Path(process.goldenZmumuSelectionSequence + process.muonRadiationFilterSequence + process.muonRadiationFilterResult)
493 process.schedule.append(process.muonRadiationFilterEfficiencyPath)
495 print "Muon -> muon + photon radiation filter disabled"
498 if process.customization_options.disableCaloNoise.value():
499 print "Disabling ECAL/HCAL noise simulation"
500 process.simEcalUnsuppressedDigis.doNoise = cms.bool(
False)
501 process.simEcalUnsuppressedDigis.doESNoise = cms.bool(
False)
502 process.simHcalUnsuppressedDigis.doNoise = cms.bool(
False)
503 process.simHcalUnsuppressedDigis.doThermalNoise = cms.bool(
False)
505 print "Keeping ECAL/HCAL noise simulation enabled"
508 if process.customization_options.replaceGenOrRecMuonMomenta.value() ==
"rec" and hasattr(process,
"goldenZmumuSelectionSequence"):
509 if process.customization_options.applyRochesterMuonCorr.value():
510 print "Enabling Rochester muon momentum corrections"
511 process.patMuonsForZmumuSelectionRochesterMomentumCorr = cms.EDProducer(
"RochesterCorrPATMuonProducer",
512 src = cms.InputTag(
'patMuonsForZmumuSelection'),
513 isMC = cms.bool(process.customization_options.isMC.value())
515 process.goldenZmumuSelectionSequence.replace(process.patMuonsForZmumuSelection, process.patMuonsForZmumuSelection*process.patMuonsForZmumuSelectionRochesterMomentumCorr)
516 process.goodMuons.src = cms.InputTag(
'patMuonsForZmumuSelectionRochesterMomentumCorr')
518 print "Rochester muon momentum corrections disabled"
520 if process.customization_options.applyMuonRadiationCorrection.value() !=
"":
521 print "Muon -> muon + photon radiation correction enabled"
522 process.load(
"TauAnalysis/MCEmbeddingTools/muonRadiationCorrWeightProducer_cfi")
523 if process.customization_options.applyMuonRadiationCorrection.value() ==
"photos":
524 process.muonRadiationCorrWeightProducer.lutDirectoryRef = cms.string(
'genMuonRadCorrAnalyzerPHOTOS')
525 process.muonRadiationCorrWeightProducer.lutDirectoryOthers = cms.PSet(
526 Summer12mcMadgraph = cms.string(
'genMuonRadCorrAnalyzer')
528 elif process.customization_options.applyMuonRadiationCorrection.value() ==
"pythia":
529 process.muonRadiationCorrWeightProducer.lutDirectoryRef = cms.string(
'genMuonRadCorrAnalyzerPYTHIA')
530 process.muonRadiationCorrWeightProducer.lutDirectoryOthers = cms.PSet(
531 Summer12mcMadgraph = cms.string(
'genMuonRadCorrAnalyzer')
534 raise ValueError(
"Invalid Configuration parameter 'applyMuonRadiationCorrection' = %s !!" % process.customization_options.applyMuonRadiationCorrection.value())
535 process.reconstruction_step += process.muonRadiationCorrWeightProducer
536 outputModule.outputCommands.extend([
537 'keep *_muonRadiationCorrWeightProducer_*_*',
538 'keep *_generator_muonsBeforeRad_*',
539 'keep *_generator_muonsAfterRad_*'
542 print "Muon -> muon + photon radiation correction disabled"
547 process.load(
"TauAnalysis/MCEmbeddingTools/embeddingKineReweight_cff")
548 if process.customization_options.applyMuonRadiationCorrection.value() !=
"":
549 if process.customization_options.mdtau.value() == 116:
550 process.embeddingKineReweightGENtoEmbedded.inputFileName = cms.FileInPath(
"TauAnalysis/MCEmbeddingTools/data/makeEmbeddingKineReweightLUTs_GENtoEmbedded_mutau.root")
551 process.reconstruction_step += process.embeddingKineReweightSequenceGENtoEmbedded
552 elif process.customization_options.mdtau.value() == 115:
553 process.embeddingKineReweightGENtoEmbedded.inputFileName = cms.FileInPath(
"TauAnalysis/MCEmbeddingTools/data/makeEmbeddingKineReweightLUTs_GENtoEmbedded_etau.root")
554 process.reconstruction_step += process.embeddingKineReweightSequenceGENtoEmbedded
555 if process.customization_options.replaceGenOrRecMuonMomenta.value() ==
'rec':
556 process.reconstruction_step += process.embeddingKineReweightSequenceGENtoREC
557 outputModule.outputCommands.extend([
558 'keep *_embeddingKineReweight_*_*'
563 process.load(
"TauAnalysis/MCEmbeddingTools/ZmumuEvtSelEffCorrWeightProducer_cfi")
564 process.ZmumuEvtSelEffCorrWeightProducer.selectedMuons = process.customization_options.ZmumuCollection
565 process.ZmumuEvtSelEffCorrWeightProducer.verbosity = cms.int32(0)
566 process.reconstruction_step += process.ZmumuEvtSelEffCorrWeightProducer
567 outputModule.outputCommands.extend([
568 'keep *_ZmumuEvtSelEffCorrWeightProducer_*_*'
return(e1-e2)*(e1-e2)+dp *dp
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger list("!*","!HLTx*"if it matches 2 triggers or more) will accept the event if all the matching triggers are FAIL.It will reject the event if any of the triggers are PASS or EXCEPTION(this matches the behavior of"!*"before the partial wildcard feature was incorporated).Triggers which are in the READY state are completely ignored.(READY should never be returned since the trigger paths have been run