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Functions | Variables
nano_cff Namespace Reference

Functions

def nanoAOD_activateVID (process)
 
def nanoAOD_addDeepInfo (process, addDeepBTag, addDeepFlavour)
 
def nanoAOD_addDeepInfoAK8 (process, addDeepBTag, addDeepBoostedJet, addDeepDoubleX, jecPayload)
 
def nanoAOD_customizeCommon (process)
 
def nanoAOD_customizeData (process)
 
def nanoAOD_customizeMC (process)
 
def nanoAOD_recalibrateMETs (process, isData)
 
def nanoAOD_runMETfixEE2017 (process, isData)
 

Variables

 _102x_sequence
 
 _80x_sequence
 Era dependent customization. More...
 
 bool
 
 btagSFdir
 
 btagWeightTable
 
 cut
 
 debug
 
 discNames
 
 discShortNames
 
 doc
 
 electronName
 
 electrons
 
 electronSel
 
 extraFlagsTable
 
 Flag_ecalBadCalibFilterV2
 
 genEvent
 
 genWeightsTable
 
 jetName
 
 jets
 
 jetSel
 
 l1bits
 
 legacyL1
 
 lhaid
 
 lheInfo
 
 lheInfoTable
 
 lheWeightPrecision
 
 linkedObjects
 
 maxPdfWeights
 
 measurementTypesB
 
 measurementTypesC
 
 measurementTypesUDSG
 
 muonName
 
 muons
 
 muonSel
 
 name
 
 namedWeightIDs
 
 namedWeightLabels
 
 nanoMetadata
 
 nanoSequence
 
 nanoSequenceCommon
 
 nanoSequenceFS
 
 nanoSequenceMC
 
 nanoSequenceOnlyFullSim
 
 operatingPoints
 
 photonName
 
 photons
 
 photonSel
 
 precision
 
 preferredPDFs
 
 simpleCleanerTable
 
 src
 
 src_ext
 
 storeLHEParticles
 
 storeUnprefireableBit
 
 strings
 
 sysTypes
 
 tag
 
 tauName
 
 taus
 
 tauSel
 
 variables
 
 weightFiles
 

Function Documentation

def nano_cff.nanoAOD_activateVID (   process)

Definition at line 194 of file nano_cff.py.

References vid_id_tools.setupAllVIDIdsInModule(), vid_id_tools.switchOnVIDElectronIdProducer(), and vid_id_tools.switchOnVIDPhotonIdProducer().

Referenced by nanoAOD_customizeCommon().

194 def nanoAOD_activateVID(process):
195  switchOnVIDElectronIdProducer(process,DataFormat.MiniAOD)
196  for modname in electron_id_modules_WorkingPoints_nanoAOD.modules:
197  setupAllVIDIdsInModule(process,modname,setupVIDElectronSelection)
198  process.electronSequence.insert(process.electronSequence.index(process.bitmapVIDForEle),process.egmGsfElectronIDSequence)
199  for modifier in run2_miniAOD_80XLegacy, :
200  modifier.toModify(process.electronMVAValueMapProducer, srcMiniAOD = "slimmedElectronsUpdated")
201  modifier.toModify(process.egmGsfElectronIDs, physicsObjectSrc = "slimmedElectronsUpdated")
202  for modifier in run2_nanoAOD_94XMiniAODv1,run2_nanoAOD_94XMiniAODv2,run2_nanoAOD_94X2016 ,run2_nanoAOD_102Xv1:
203  modifier.toModify(process.electronMVAValueMapProducer, srcMiniAOD = "slimmedElectronsTo106X")
204  modifier.toModify(process.egmGsfElectronIDs, physicsObjectSrc = "slimmedElectronsTo106X")
205 
206 
207 
208  switchOnVIDPhotonIdProducer(process,DataFormat.MiniAOD) # do not call this to avoid resetting photon IDs in VID, if called before inside makePuppiesFromMiniAOD
209  for modname in photon_id_modules_WorkingPoints_nanoAOD.modules:
210  setupAllVIDIdsInModule(process,modname,setupVIDPhotonSelection)
211  process.photonSequence.insert(process.photonSequence.index(bitmapVIDForPho),process.egmPhotonIDSequence)
212  for modifier in run2_miniAOD_80XLegacy,run2_nanoAOD_94XMiniAODv1,run2_nanoAOD_94XMiniAODv2,run2_nanoAOD_94X2016 ,run2_nanoAOD_102Xv1:
213  modifier.toModify(process.photonMVAValueMapProducer, srcMiniAOD = "slimmedPhotonsTo106X")
214  modifier.toModify(process.egmPhotonIDs, physicsObjectSrc = "slimmedPhotonsTo106X")
215  return process
216 
def switchOnVIDElectronIdProducer(process, dataFormat, task=None)
Electrons.
Definition: vid_id_tools.py:66
def setupAllVIDIdsInModule(process, id_module_name, setupFunction, patProducer=None, addUserData=True, task=None)
Definition: vid_id_tools.py:49
def nanoAOD_activateVID(process)
Definition: nano_cff.py:194
def switchOnVIDPhotonIdProducer(process, dataFormat, task=None)
Photons.
def nano_cff.nanoAOD_addDeepInfo (   process,
  addDeepBTag,
  addDeepFlavour 
)

Definition at line 143 of file nano_cff.py.

References join(), and edm.print().

Referenced by nanoAOD_customizeCommon().

143 def nanoAOD_addDeepInfo(process,addDeepBTag,addDeepFlavour):
144  _btagDiscriminators=[]
145  if addDeepBTag:
146  print("Updating process to run DeepCSV btag")
147  _btagDiscriminators += ['pfDeepCSVJetTags:probb','pfDeepCSVJetTags:probbb','pfDeepCSVJetTags:probc']
148  if addDeepFlavour:
149  print("Updating process to run DeepFlavour btag")
150  _btagDiscriminators += ['pfDeepFlavourJetTags:probb','pfDeepFlavourJetTags:probbb','pfDeepFlavourJetTags:problepb','pfDeepFlavourJetTags:probc']
151  if len(_btagDiscriminators)==0: return process
152  print("Will recalculate the following discriminators: "+", ".join(_btagDiscriminators))
153  updateJetCollection(
154  process,
155  jetSource = cms.InputTag('slimmedJets'),
156  jetCorrections = ('AK4PFchs', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute','L2L3Residual']), 'None'),
157  btagDiscriminators = _btagDiscriminators,
158  postfix = 'WithDeepInfo',
159  )
160  process.load("Configuration.StandardSequences.MagneticField_cff")
161  process.jetCorrFactorsNano.src="selectedUpdatedPatJetsWithDeepInfo"
162  process.updatedJets.jetSource="selectedUpdatedPatJetsWithDeepInfo"
163  if addDeepFlavour:
164  process.pfDeepFlavourJetTagsWithDeepInfo.graph_path = 'RecoBTag/Combined/data/DeepFlavourV03_10X_training/constant_graph.pb'
165  process.pfDeepFlavourJetTagsWithDeepInfo.lp_names = ["cpf_input_batchnorm/keras_learning_phase"]
166  return process
167 
def nanoAOD_addDeepInfo(process, addDeepBTag, addDeepFlavour)
Definition: nano_cff.py:143
S & print(S &os, JobReport::InputFile const &f)
Definition: JobReport.cc:66
static std::string join(char **cmd)
Definition: RemoteFile.cc:18
def nano_cff.nanoAOD_addDeepInfoAK8 (   process,
  addDeepBTag,
  addDeepBoostedJet,
  addDeepDoubleX,
  jecPayload 
)

Definition at line 217 of file nano_cff.py.

References join(), and edm.print().

Referenced by nanoAOD_customizeCommon().

217 def nanoAOD_addDeepInfoAK8(process,addDeepBTag,addDeepBoostedJet, addDeepDoubleX, jecPayload):
218  _btagDiscriminators=[]
219  if addDeepBTag:
220  print("Updating process to run DeepCSV btag to AK8 jets")
221  _btagDiscriminators += ['pfDeepCSVJetTags:probb','pfDeepCSVJetTags:probbb']
222  if addDeepBoostedJet:
223  print("Updating process to run DeepBoostedJet on datasets before 103X")
224  from RecoBTag.MXNet.pfDeepBoostedJet_cff import _pfDeepBoostedJetTagsAll as pfDeepBoostedJetTagsAll
225  _btagDiscriminators += pfDeepBoostedJetTagsAll
226  if addDeepDoubleX:
227  print("Updating process to run DeepDoubleX on datasets before 104X")
228  _btagDiscriminators += ['pfMassIndependentDeepDoubleBvLJetTags:probHbb', 'pfMassIndependentDeepDoubleCvLJetTags:probHcc', 'pfMassIndependentDeepDoubleCvBJetTags:probHcc']
229  if len(_btagDiscriminators)==0: return process
230  print("Will recalculate the following discriminators on AK8 jets: "+", ".join(_btagDiscriminators))
231  updateJetCollection(
232  process,
233  jetSource = cms.InputTag('slimmedJetsAK8'),
234  pvSource = cms.InputTag('offlineSlimmedPrimaryVertices'),
235  svSource = cms.InputTag('slimmedSecondaryVertices'),
236  rParam = 0.8,
237  jetCorrections = (jecPayload.value(), cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute', 'L2L3Residual']), 'None'),
238  btagDiscriminators = _btagDiscriminators,
239  postfix='AK8WithDeepInfo',
240  printWarning = False
241  )
242  process.jetCorrFactorsAK8.src="selectedUpdatedPatJetsAK8WithDeepInfo"
243  process.updatedJetsAK8.jetSource="selectedUpdatedPatJetsAK8WithDeepInfo"
244  return process
245 
def nanoAOD_addDeepInfoAK8(process, addDeepBTag, addDeepBoostedJet, addDeepDoubleX, jecPayload)
Definition: nano_cff.py:217
S & print(S &os, JobReport::InputFile const &f)
Definition: JobReport.cc:66
static std::string join(char **cmd)
Definition: RemoteFile.cc:18
def nano_cff.nanoAOD_customizeCommon (   process)

Definition at line 254 of file nano_cff.py.

References nanoAOD_activateVID(), nanoAOD_addDeepInfo(), and nanoAOD_addDeepInfoAK8().

Referenced by nanoAOD_customizeData(), and nanoAOD_customizeMC().

255 # makePuppiesFromMiniAOD(process,True) # call this here as it calls switchOnVIDPhotonIdProducer
256  process = nanoAOD_activateVID(process)
257  nanoAOD_addDeepInfo_switch = cms.PSet(
258  nanoAOD_addDeepBTag_switch = cms.untracked.bool(False),
259  nanoAOD_addDeepFlavourTag_switch = cms.untracked.bool(False),
260  )
261  run2_miniAOD_80XLegacy.toModify(nanoAOD_addDeepInfo_switch, nanoAOD_addDeepBTag_switch = cms.untracked.bool(True))
262  for modifier in run2_miniAOD_80XLegacy, run2_nanoAOD_94X2016, run2_nanoAOD_94XMiniAODv1, run2_nanoAOD_94XMiniAODv2:
263  modifier.toModify(nanoAOD_addDeepInfo_switch, nanoAOD_addDeepFlavourTag_switch = cms.untracked.bool(True))
264  process = nanoAOD_addDeepInfo(process,
265  addDeepBTag=nanoAOD_addDeepInfo_switch.nanoAOD_addDeepBTag_switch,
266  addDeepFlavour=nanoAOD_addDeepInfo_switch.nanoAOD_addDeepFlavourTag_switch)
267  nanoAOD_addDeepInfoAK8_switch = cms.PSet(
268  nanoAOD_addDeepBTag_switch = cms.untracked.bool(False),
269  nanoAOD_addDeepBoostedJet_switch = cms.untracked.bool(True), # will deactivate this in future miniAOD releases
270  nanoAOD_addDeepDoubleX_switch = cms.untracked.bool(True),
271  jecPayload = cms.untracked.string('AK8PFPuppi')
272  )
273  # deepAK8 should not run on 80X, that contains ak8PFJetsCHS jets
274  run2_miniAOD_80XLegacy.toModify(nanoAOD_addDeepInfoAK8_switch,
275  nanoAOD_addDeepBTag_switch = cms.untracked.bool(True),
276  nanoAOD_addDeepBoostedJet_switch = cms.untracked.bool(False),
277  nanoAOD_addDeepDoubleX_switch = cms.untracked.bool(False),
278  jecPayload = cms.untracked.string('AK8PFchs'))
279  process = nanoAOD_addDeepInfoAK8(process,
280  addDeepBTag=nanoAOD_addDeepInfoAK8_switch.nanoAOD_addDeepBTag_switch,
281  addDeepBoostedJet=nanoAOD_addDeepInfoAK8_switch.nanoAOD_addDeepBoostedJet_switch,
282  addDeepDoubleX=nanoAOD_addDeepInfoAK8_switch.nanoAOD_addDeepDoubleX_switch,
283  jecPayload=nanoAOD_addDeepInfoAK8_switch.jecPayload)
284  return process
285 
def nanoAOD_addDeepInfo(process, addDeepBTag, addDeepFlavour)
Definition: nano_cff.py:143
def nanoAOD_addDeepInfoAK8(process, addDeepBTag, addDeepBoostedJet, addDeepDoubleX, jecPayload)
Definition: nano_cff.py:217
def nanoAOD_activateVID(process)
Definition: nano_cff.py:194
def nanoAOD_customizeCommon(process)
Definition: nano_cff.py:254
def nano_cff.nanoAOD_customizeData (   process)

Definition at line 286 of file nano_cff.py.

References nanoAOD_customizeCommon(), nanoAOD_recalibrateMETs(), and nanoAOD_runMETfixEE2017().

287  process = nanoAOD_customizeCommon(process)
288  process = nanoAOD_recalibrateMETs(process,isData=True)
289  for modifier in run2_nanoAOD_94XMiniAODv1, run2_nanoAOD_94XMiniAODv2:
290  modifier.toModify(process, lambda p: nanoAOD_runMETfixEE2017(p,isData=True))
291  process.unpackedPatTrigger.triggerResults = "TriggerResults::reHLT"
292  (run2_miniAOD_80XLegacy | run2_nanoAOD_94X2016 | run2_nanoAOD_94XMiniAODv1 | run2_nanoAOD_94XMiniAODv2 | run2_nanoAOD_102Xv1).toModify(
293  unpackedPatTrigger,
294  triggerResults = "TriggerResults::HLT"
295  )
296 
297  return process
298 
def nanoAOD_customizeCommon(process)
Definition: nano_cff.py:254
def nanoAOD_recalibrateMETs(process, isData)
Definition: nano_cff.py:170
def nanoAOD_runMETfixEE2017(process, isData)
Definition: nano_cff.py:247
def nanoAOD_customizeData(process)
Definition: nano_cff.py:286
def nano_cff.nanoAOD_customizeMC (   process)

Definition at line 299 of file nano_cff.py.

References nanoAOD_customizeCommon(), nanoAOD_recalibrateMETs(), and nanoAOD_runMETfixEE2017().

299 def nanoAOD_customizeMC(process):
300  process = nanoAOD_customizeCommon(process)
301  process = nanoAOD_recalibrateMETs(process,isData=False)
302  for modifier in run2_nanoAOD_94XMiniAODv1, run2_nanoAOD_94XMiniAODv2:
303  modifier.toModify(process, lambda p: nanoAOD_runMETfixEE2017(p,isData=False))
304  return process
305 
def nanoAOD_customizeMC(process)
Definition: nano_cff.py:299
def nanoAOD_customizeCommon(process)
Definition: nano_cff.py:254
def nanoAOD_recalibrateMETs(process, isData)
Definition: nano_cff.py:170
def nanoAOD_runMETfixEE2017(process, isData)
Definition: nano_cff.py:247
def nano_cff.nanoAOD_recalibrateMETs (   process,
  isData 
)

Definition at line 170 of file nano_cff.py.

References runMETCorrectionsAndUncertainties.runMetCorAndUncFromMiniAOD(), and common_cff.Var().

Referenced by nanoAOD_customizeData(), and nanoAOD_customizeMC().

170 def nanoAOD_recalibrateMETs(process,isData):
171  runMetCorAndUncFromMiniAOD(process,isData=isData)
172  process.nanoSequenceCommon.insert(process.nanoSequenceCommon.index(process.jetSequence),cms.Sequence(process.fullPatMetSequence))
173  process.basicJetsForMetForT1METNano = process.basicJetsForMet.clone(
174  src = process.updatedJetsWithUserData.src,
175  skipEM = False,
176  type1JetPtThreshold = 0.0,
177  calcMuonSubtrRawPtAsValueMap = cms.bool(True),
178  )
179  process.jetSequence.insert(process.jetSequence.index(process.updatedJetsWithUserData),cms.Sequence(process.basicJetsForMetForT1METNano))
180  process.updatedJetsWithUserData.userFloats.muonSubtrRawPt = cms.InputTag("basicJetsForMetForT1METNano:MuonSubtrRawPt")
181  process.corrT1METJetTable.src = process.finalJets.src
182  process.corrT1METJetTable.cut = "pt<15 && abs(eta)<9.9"
183  for table in process.jetTable, process.corrT1METJetTable:
184  table.variables.muonSubtrFactor = Var("1-userFloat('muonSubtrRawPt')/(pt()*jecFactor('Uncorrected'))",float,doc="1-(muon-subtracted raw pt)/(raw pt)",precision=6)
185  process.metTables += process.corrT1METJetTable
186 # makePuppiesFromMiniAOD(process,True) # call this before in the global customizer otherwise it would reset photon IDs in VID
187 # runMetCorAndUncFromMiniAOD(process,isData=isData,metType="Puppi",postfix="Puppi",jetFlavor="AK4PFPuppi")
188 # process.puppiNoLep.useExistingWeights = False
189 # process.puppi.useExistingWeights = False
190 # process.nanoSequenceCommon.insert(process.nanoSequenceCommon.index(jetSequence),cms.Sequence(process.puppiMETSequence+process.fullPatMetSequencePuppi))
191  return process
192 
def Var(expr, valtype, compression=None, doc=None, mcOnly=False, precision=-1)
Definition: common_cff.py:20
def nanoAOD_recalibrateMETs(process, isData)
Definition: nano_cff.py:170
def runMetCorAndUncFromMiniAOD(process, metType="PF", jetCollUnskimmed="slimmedJets", photonColl="slimmedPhotons", electronColl="slimmedElectrons", muonColl="slimmedMuons", tauColl="slimmedTaus", pfCandColl="packedPFCandidates", jetFlavor="AK4PFchs", jetCleaning="LepClean", isData=False, manualJetConfig=False, reclusterJets=None, jetSelection="pt>15 && abs(eta)<9.9", recoMetFromPFCs=None, jetCorLabelL3="ak4PFCHSL1FastL2L3Corrector", jetCorLabelRes="ak4PFCHSL1FastL2L3ResidualCorrector", CHS=False, reapplyJEC=True, jecUncFile="", computeMETSignificance=True, fixEE2017=False, fixEE2017Params=None, postfix="")
def nano_cff.nanoAOD_runMETfixEE2017 (   process,
  isData 
)

Definition at line 247 of file nano_cff.py.

References runMETCorrectionsAndUncertainties.runMetCorAndUncFromMiniAOD().

Referenced by nanoAOD_customizeData(), and nanoAOD_customizeMC().

247 def nanoAOD_runMETfixEE2017(process,isData):
248  runMetCorAndUncFromMiniAOD(process,isData=isData,
249  fixEE2017 = True,
250  fixEE2017Params = {'userawPt': True, 'ptThreshold':50.0, 'minEtaThreshold':2.65, 'maxEtaThreshold': 3.139},
251  postfix = "FixEE2017")
252  process.nanoSequenceCommon.insert(process.nanoSequenceCommon.index(jetSequence),process.fullPatMetSequenceFixEE2017)
253 
def nanoAOD_runMETfixEE2017(process, isData)
Definition: nano_cff.py:247
def runMetCorAndUncFromMiniAOD(process, metType="PF", jetCollUnskimmed="slimmedJets", photonColl="slimmedPhotons", electronColl="slimmedElectrons", muonColl="slimmedMuons", tauColl="slimmedTaus", pfCandColl="packedPFCandidates", jetFlavor="AK4PFchs", jetCleaning="LepClean", isData=False, manualJetConfig=False, reclusterJets=None, jetSelection="pt>15 && abs(eta)<9.9", recoMetFromPFCs=None, jetCorLabelL3="ak4PFCHSL1FastL2L3Corrector", jetCorLabelRes="ak4PFCHSL1FastL2L3ResidualCorrector", CHS=False, reapplyJEC=True, jecUncFile="", computeMETSignificance=True, fixEE2017=False, fixEE2017Params=None, postfix="")

Variable Documentation

nano_cff._102x_sequence
private

Definition at line 317 of file nano_cff.py.

nano_cff._80x_sequence
private

Era dependent customization.

Definition at line 307 of file nano_cff.py.

nano_cff.bool

Definition at line 140 of file nano_cff.py.

nano_cff.btagSFdir

Definition at line 57 of file nano_cff.py.

nano_cff.btagWeightTable

Definition at line 59 of file nano_cff.py.

nano_cff.cut

Definition at line 61 of file nano_cff.py.

nano_cff.debug

Definition at line 110 of file nano_cff.py.

nano_cff.discNames

Definition at line 62 of file nano_cff.py.

nano_cff.discShortNames

Definition at line 67 of file nano_cff.py.

nano_cff.doc

Definition at line 42 of file nano_cff.py.

nano_cff.electronName

Definition at line 53 of file nano_cff.py.

nano_cff.electrons

Definition at line 35 of file nano_cff.py.

Referenced by ElectronIDAnalyzer.analyze(), PatElectronAnalyzer.analyze(), ElectronMcSignalValidatorMiniAOD.analyze(), PatBasicAnalyzer.analyze(), TtSemiLepSignalSelMVATrainer.analyze(), HiggsToZZ4LeptonsSkimEff.analyze(), ResolutionCreator.analyze(), SiStripElectronAnalyzer.analyze(), B2GSingleLeptonHLTValidation.analyze(), B2GDoubleLeptonHLTValidation.analyze(), TopSingleLeptonHLTValidation.analyze(), TopDiLeptonHLTValidation.analyze(), ObjMonitor.analyze(), TopMonitor.analyze(), PhotonMonitor.analyze(), MuonMonitor.analyze(), GenPurposeSkimmerData.analyze(), METMonitor.analyze(), HTMonitor.analyze(), ZCounting.analyzeElectrons(), EgammaObjects.analyzeElectrons(), RPixDetClusterizer.buildClusters(), pat::LeptonJetIsolationAngle.calculate(), RPixDetClusterizer.calibrate(), PixelThresholdClusterizer.calibrate(), GsfElectronProducer.clonePreviousElectrons(), HLTTauRefProducer.doElectrons(), pat::DuplicatedElectronRemover.duplicatesToRemove(), EGExtraInfoModifierFromValueMaps< MapType, OutputType >.EGExtraInfoModifierFromValueMaps(), EGFull5x5ShowerShapeModifierFromValueMaps.EGFull5x5ShowerShapeModifierFromValueMaps(), EGRegressionModifierV1.EGRegressionModifierV1(), EGRegressionModifierV2.EGRegressionModifierV2(), pat::DuplicatedPhotonRemover.electronsBySeed(), pat::DuplicatedPhotonRemover.electronsBySuperCluster(), AdHocNTupler.fill(), EwkElecTauHistManager.fillHistograms(), pat::PATLeptonCountFilter.filter(), HiggsToWW2LeptonsSkim.filter(), HiggsToZZ4LeptonsSkim.filter(), ElectronIdFilter.filter(), LeptonSkimming.filter(), pat::PATMHTProducer.getElectrons(), CSCWireHitSim.getIonizationClusters(), DeepTauId.getPredictions(), DeepTauId.getPredictionsV1(), HGCalHitCalibration.HGCalHitCalibration(), HLTPMDocaFilter.hltFilter(), HLTFiltCand.hltFilter(), HLTElectronMuonInvMassFilter.hltFilter(), HLTPMMassFilter.hltFilter(), HLTTauRefProducer.HLTTauRefProducer(), pat::DuplicatedPhotonRemover::EqualBySuperCluster.operator()(), pat::DuplicatedElectronRemover::BestEoverP.operator()(), GsfElectronProducer.produce(), GsfElectronEcalDrivenProducer.produce(), GEDGsfElectronProducer.produce(), LowPtGsfElectronProducer.produce(), GsfElectronCoreEcalDrivenProducer.produce(), GEDGsfElectronCoreProducer.produce(), GsfElectronCoreProducer.produce(), LowPtGsfElectronCoreProducer.produce(), TtDilepEvtSolutionMaker.produce(), StEvtSolutionMaker.produce(), ElectronMatchedCandidateProducer.produce(), TtFullLepKinSolutionProducer.produce(), ElectronIDExternalProducer< algo >.produce(), TtSemiLepSignalSelMVAComputer.produce(), TtSemiEvtSolutionMaker.produce(), pat::DuplicatedElectronCleaner.produce(), pat::PATConversionProducer.produce(), pat::__class__Producer.produce(), edm::GenericSelectorByValueMap< T, C >.produce(), PATObjectCrossLinker.produce(), PFTauPrimaryVertexProducerBase.produce(), pat::PATElectronProducer.produce(), HLTJetsCleanedFromLeadingLeptons< JetType >.produce(), BoostedTopProducer.produce(), SelectedElectronFEDListProducer< TEle, TCand >.produce(), ElectronIDSelector< algo >.select(), pf2pat::ElectronIDPFCandidateSelectorDefinition.select(), uniqueElectronFinder(), and CSCGasCollisions.writeSummary().

nano_cff.electronSel

Definition at line 50 of file nano_cff.py.

nano_cff.extraFlagsTable

Definition at line 139 of file nano_cff.py.

nano_cff.Flag_ecalBadCalibFilterV2

Definition at line 140 of file nano_cff.py.

nano_cff.genEvent
nano_cff.genWeightsTable

Definition at line 95 of file nano_cff.py.

nano_cff.jetName

Definition at line 53 of file nano_cff.py.

nano_cff.jets

Definition at line 33 of file nano_cff.py.

nano_cff.jetSel

Definition at line 48 of file nano_cff.py.

nano_cff.l1bits

Definition at line 118 of file nano_cff.py.

nano_cff.legacyL1

Definition at line 118 of file nano_cff.py.

nano_cff.lhaid
nano_cff.lheInfo
nano_cff.lheInfoTable

Definition at line 112 of file nano_cff.py.

nano_cff.lheWeightPrecision

Definition at line 108 of file nano_cff.py.

nano_cff.linkedObjects

Definition at line 32 of file nano_cff.py.

nano_cff.maxPdfWeights

Definition at line 109 of file nano_cff.py.

nano_cff.measurementTypesB

Definition at line 78 of file nano_cff.py.

nano_cff.measurementTypesC

Definition at line 79 of file nano_cff.py.

nano_cff.measurementTypesUDSG

Definition at line 80 of file nano_cff.py.

nano_cff.muonName

Definition at line 53 of file nano_cff.py.

Referenced by main().

nano_cff.muons

Definition at line 34 of file nano_cff.py.

nano_cff.muonSel

Definition at line 49 of file nano_cff.py.

nano_cff.name

Definition at line 41 of file nano_cff.py.

nano_cff.namedWeightIDs

Definition at line 106 of file nano_cff.py.

nano_cff.namedWeightLabels

Definition at line 107 of file nano_cff.py.

nano_cff.nanoMetadata

Definition at line 26 of file nano_cff.py.

nano_cff.nanoSequence

Definition at line 130 of file nano_cff.py.

nano_cff.nanoSequenceCommon

Definition at line 122 of file nano_cff.py.

nano_cff.nanoSequenceFS

Definition at line 132 of file nano_cff.py.

nano_cff.nanoSequenceMC

Definition at line 134 of file nano_cff.py.

nano_cff.nanoSequenceOnlyFullSim

Definition at line 128 of file nano_cff.py.

nano_cff.operatingPoints

Definition at line 77 of file nano_cff.py.

nano_cff.photonName

Definition at line 54 of file nano_cff.py.

nano_cff.photons

Definition at line 37 of file nano_cff.py.

Referenced by HcalSiPMHitResponse.add(), HcalSiPMHitResponse.addPEnoise(), PatBasicAnalyzer.analyze(), PhotonIDSimpleAnalyzer.analyze(), PatPhotonSimpleAnalyzer.analyze(), SimplePi0DiscAnalyzer.analyze(), ContainmentCorrectionAnalyzer.analyze(), PhotonValidatorMiniAOD.analyze(), HigPhotonJetHLTOfflineSource.analyze(), ObjMonitor.analyze(), TopMonitor.analyze(), PhotonMonitor.analyze(), EgammaObjects.analyzePhotons(), HLTTauRefProducer.doPhotons(), pat::DuplicatedPhotonRemover.duplicatesBySeed(), pat::DuplicatedPhotonRemover.duplicatesBySuperCluster(), EGExtraInfoModifierFromValueMaps< MapType, OutputType >.EGExtraInfoModifierFromValueMaps(), EGFull5x5ShowerShapeModifierFromValueMaps.EGFull5x5ShowerShapeModifierFromValueMaps(), EGRegressionModifierV1.EGRegressionModifierV1(), EGRegressionModifierV2.EGRegressionModifierV2(), pat::DuplicatedPhotonRemover.electronsBySeed(), pat::DuplicatedPhotonRemover.electronsBySuperCluster(), AdHocNTupler.fill(), citk::PFIsolationSumProducerForPUPPI.fillDescriptions(), citk::PFIsolationSumProducer.fillDescriptions(), L1TEGammaOffline.fillPhotons(), HiggsTo2GammaSkim.filter(), MonoPhotonSkimmer.filter(), AlCaGammaJetSelector.filter(), SinglePhotonJetPlusHOFilter.filter(), HcalQie.getCode(), HFShowerFibreBundle.getHits(), HFShowerPMT.getHits(), HGCalHitCalibration.HGCalHitCalibration(), HLTFiltCand.hltFilter(), HLTTauRefProducer.HLTTauRefProducer(), EGPhotonImporter.importToBlock(), pat::DuplicatedPhotonRemover::EqualBySuperCluster.operator()(), ParticleLevelProducer.produce(), PhotonIDProducer.produce(), photonIsolationHIProducer.produce(), PFLinker.produce(), pat::__class__Producer.produce(), ReducedEGProducer.produce(), PATObjectCrossLinker.produce(), NanoAODBaseCrossCleaner.produce(), pat::PATPhotonProducer.produce(), HLTJetsCleanedFromLeadingLeptons< JetType >.produce(), pat::Muon.setIsolationPUPPI(), pat::Muon.setIsolationPUPPINoLeptons(), and HepMCValidationHelper.sortByPseudoRapidity().

nano_cff.photonSel

Definition at line 52 of file nano_cff.py.

nano_cff.precision

Definition at line 114 of file nano_cff.py.

nano_cff.preferredPDFs

Definition at line 98 of file nano_cff.py.

nano_cff.simpleCleanerTable

Definition at line 40 of file nano_cff.py.

nano_cff.src

Definition at line 60 of file nano_cff.py.

nano_cff.src_ext

Definition at line 119 of file nano_cff.py.

nano_cff.storeLHEParticles

Definition at line 115 of file nano_cff.py.

nano_cff.storeUnprefireableBit

Definition at line 119 of file nano_cff.py.

nano_cff.strings
nano_cff.sysTypes

Definition at line 81 of file nano_cff.py.

nano_cff.tag

Definition at line 28 of file nano_cff.py.

nano_cff.tauName

Definition at line 54 of file nano_cff.py.

nano_cff.taus

Definition at line 36 of file nano_cff.py.

Referenced by HLTTauDQML1Plotter.analyze(), TopTauAnalyzer.analyze(), PatBasicAnalyzer.analyze(), l1t::L1TStage2CaloAnalyzer.analyze(), ResolutionCreator.analyze(), TauValidationMiniAOD.analyze(), l1t::GtInputDump.analyze(), l1t::L1TGlobalAnalyzer.analyze(), l1t::GtRecordDump.analyze(), L1TTauOffline.analyze(), HPSPFRecoTauAlgorithm.buildOneProng(), HPSPFRecoTauAlgorithm.buildOneProngStrip(), HPSPFRecoTauAlgorithm.buildOneProngTwoStrips(), HPSPFRecoTauAlgorithm.buildThreeProngs(), L1TStage2CaloLayer2Comp.compareTaus(), l1t::GtRecordDump.dumpTestVectors(), L1RCTJetSummaryCard.fillTauBits(), pat::PATLeptonCountFilter.filter(), L1RCT.getRegions(), deep_tau::DeepTauBase.globalEndJob(), HLTPFTauPairLeadTrackDzMatchFilter.hltFilter(), HLTFiltCand.hltFilter(), L1TSummary.L1TSummary(), L1UpgradeTreeProducer.L1UpgradeTreeProducer(), deep_tau::DeepTauBase::Output.Output(), l1t::stage2::TauPacker.pack(), l1t::stage1::TauPacker.pack(), l1t::stage1::IsoTauPacker.pack(), TtDilepEvtSolutionMaker.produce(), PFJetsTauOverlapRemoval.produce(), PFTauL1TJetsMatching.produce(), RecoTauPiZeroUnembedder.produce(), pat::__class__Producer.produce(), l1t::FakeInputProducer.produce(), PATObjectCrossLinker.produce(), RecoTauProducer.produce(), NanoAODBaseCrossCleaner.produce(), L1TStage2Layer2Producer.produce(), l1t::GenToInputProducer.produce(), l1t::BXVectorInputProducer.produce(), TauDiscriminationProducerBase< TauType, TauDiscriminator >.produce(), L1TStage1Layer2Producer.produce(), deep_tau::DeepTauBase.produce(), HepMCValidationHelper.removeIsolatedLeptons(), HLTL1TSeed.seedsL1TriggerObjectMaps(), and TauJetCorrector::ParametrizationTauJet.value().

nano_cff.tauSel

Definition at line 51 of file nano_cff.py.

nano_cff.variables

Definition at line 139 of file nano_cff.py.

nano_cff.weightFiles

Definition at line 72 of file nano_cff.py.