def setup(process, input_files, collection, json_file="", cosmics_zero_tesla=False, cosmics_deco_mode=True): """Mille-specific setup. Arguments: - `process`: cms.Process object - `input_files`: input file list -> cms.untracked.vstring() - `collection`: track collection to be used - `cosmics_zero_tesla`: triggers the corresponding track selection - `cosmics_deco_mode`: triggers the corresponding track selection """ # no database output in the mille step: # -------------------------------------------------------------------------- process.AlignmentProducer.saveToDB = False process.AlignmentProducer.saveApeToDB = False process.AlignmentProducer.saveDeformationsToDB = False # Track selection and refitting # -------------------------------------------------------------------------- process.load("RecoVertex.BeamSpotProducer.BeamSpot_cfi") import Alignment.CommonAlignment.tools.trackselectionRefitting as trackRefitter process.TrackRefittingSequence = trackRefitter.getSequence( process, collection, cosmicsDecoMode=cosmics_deco_mode, cosmicsZeroTesla=cosmics_zero_tesla) # Overwrite Track-Selector filter options from unified sequence to 'False' process.AlignmentTrackSelector.filter = False if collection != "ALCARECOTkAlCosmicsCTF0T": # there is no HighPurity selector for cosmics process.HighPurityTrackSelector.filter = False # Configure the input data # -------------------------------------------------------------------------- process.source = cms.Source("PoolSource", fileNames=input_files) # Set Luminosity-Blockrange from json-file if given if (json_file != "") and (json_file != "placeholder_json"): import FWCore.PythonUtilities.LumiList as LumiList lumi_list = LumiList.LumiList( filename=json_file).getVLuminosityBlockRange() process.source.lumisToProcess = lumi_list # The executed path # -------------------------------------------------------------------------- process.p = cms.Path(process.offlineBeamSpot * process.TrackRefittingSequence)
def setup(process, input_files, collection, json_file = "", cosmics_zero_tesla = False, cosmics_deco_mode = True): """Mille-specific setup. Arguments: - `process`: cms.Process object - `input_files`: input file list -> cms.untracked.vstring() - `collection`: track collection to be used - `cosmics_zero_tesla`: triggers the corresponding track selection - `cosmics_deco_mode`: triggers the corresponding track selection """ # no database output in the mille step: # -------------------------------------------------------------------------- process.AlignmentProducer.saveToDB = False process.AlignmentProducer.saveApeToDB = False process.AlignmentProducer.saveDeformationsToDB = False # Track selection and refitting # -------------------------------------------------------------------------- process.load("RecoVertex.BeamSpotProducer.BeamSpot_cfi") import Alignment.CommonAlignment.tools.trackselectionRefitting as trackRefitter process.TrackRefittingSequence = trackRefitter.getSequence( process, collection, cosmicsDecoMode = cosmics_deco_mode, cosmicsZeroTesla = cosmics_zero_tesla) # Overwrite Track-Selector filter options from unified sequence to 'False' process.AlignmentTrackSelector.filter = False if collection not in ("ALCARECOTkAlCosmicsCTF0T", "ALCARECOTkAlCosmicsInCollisions"): # there is no HighPurity selector for cosmics process.HighPurityTrackSelector.filter = False # Configure the input data # -------------------------------------------------------------------------- process.source = cms.Source("PoolSource", fileNames = input_files) # Set Luminosity-Blockrange from json-file if given if (json_file != "") and (json_file != "placeholder_json"): import FWCore.PythonUtilities.LumiList as LumiList lumi_list = LumiList.LumiList(filename = json_file).getVLuminosityBlockRange() process.source.lumisToProcess = lumi_list # The executed path # -------------------------------------------------------------------------- process.p = cms.Path(process.offlineBeamSpot*process.TrackRefittingSequence)
# process.AlignmentTrackSelector.dzMin = cms.double(-999999.0) # process.AlignmentTrackSelector.dzMax = cms.double(+999999.0) if(theRefitter == RefitType.COMMON): print(">>>>>>>>>> testPVValidation_cfg.py: msg%-i: using the common track selection and refit sequence!") #################################################################### # Load and Configure Common Track Selection and refitting sequence #################################################################### import Alignment.CommonAlignment.tools.trackselectionRefitting as trackselRefit process.seqTrackselRefit = trackselRefit.getSequence(process, 'TRACKTYPETEMPLATE', isPVValidation=True, TTRHBuilder='TTRHBUILDERTEMPLATE', usePixelQualityFlag=True, openMassWindow=False, cosmicsDecoMode=True, cosmicsZeroTesla=False, momentumConstraint=None, cosmicTrackSplitting=False, use_d0cut=False, ) if((process.TrackerTrackHitFilter.usePixelQualityFlag.value()==True) and (process.FirstTrackRefitter.TTRHBuilder.value()=="WithTrackAngle")): print(" \n\n","*"*70,"\n *\t\t\t\t WARNING!!!!!\t\t\t\n *\n * Found an inconsistent configuration!\n * TTRHBuilder = WithTrackAngle requires usePixelQualityFlag = False.\n * Going to reset it! \n *\n","*"*70) process.TrackerTrackHitFilter.usePixelQualityFlag = False elif (theRefitter == RefitType.STANDARD): print(">>>>>>>>>> testPVValidation_cfg.py: msg%-i: using the standard single refit sequence!") #################################################################### # Load and Configure Measurement Tracker Event # (needed in case NavigationSchool is set != '')
trackSelector = AlignmentTrackSelector.CosmicsSkimSelector else: # Extend list here with custom track selectors print("Unknown trackSelection %s, exiting"%(trackSelection)) exit(1) process.MuSkim = trackSelector ## ## If preselected track list is used ## if options.useTrackList: process.MuSkim.src = 'TrackList' process.TriggerSelectionSequence *= process.TrackList import Alignment.CommonAlignment.tools.trackselectionRefitting as trackselRefit process.seqTrackselRefit = trackselRefit.getSequence(process, trackSelector.src.getModuleLabel()) ## ## Path ## process.path = cms.Path( process.offlineBeamSpot* process.seqTrackselRefit* process.MuSkim ) ## ## Define event selection from path ## EventSelection = cms.PSet(
def setup(process, input_files, collection, json_file = "", cosmics_zero_tesla = False, cosmics_deco_mode = True, TTRHBuilder = None): """Mille-specific setup. Arguments: - `process`: cms.Process object - `input_files`: input file list -> cms.untracked.vstring() - `collection`: track collection to be used - `cosmics_zero_tesla`: triggers the corresponding track selection - `cosmics_deco_mode`: triggers the corresponding track selection - `TTRHBuilder`: TransientTrackingRecHitBuilder used in the track selection and refitting sequence; defaults to the default of the above-mentioned sequence """ # no database output in the mille step: # -------------------------------------------------------------------------- process.AlignmentProducer.saveToDB = False process.AlignmentProducer.saveApeToDB = False process.AlignmentProducer.saveDeformationsToDB = False # align calibrations to general settings # -------------------------------------------------------------------------- for calib in process.AlignmentProducer.calibrations: calib.saveToDB = process.AlignmentProducer.saveToDB calib.treeFile = process.AlignmentProducer.algoConfig.treeFile calib.mergeTreeFiles = process.AlignmentProducer.algoConfig.mergeTreeFiles # Track selection and refitting # -------------------------------------------------------------------------- import Alignment.CommonAlignment.tools.trackselectionRefitting as trackRefitter kwargs = {"cosmicsDecoMode": cosmics_deco_mode, "cosmicsZeroTesla": cosmics_zero_tesla} if TTRHBuilder is not None: kwargs["TTRHBuilder"] = TTRHBuilder process.TrackRefittingSequence \ = trackRefitter.getSequence(process, collection, **kwargs) # Ensure the correct APV mode for cosmics # -------------------------------------------------------------------------- if collection in ("ALCARECOTkAlCosmicsCTF0T", "ALCARECOTkAlCosmicsInCollisions"): process.load("Alignment.CommonAlignment.apvModeFilter_cfi") process.apvModeFilter.apvMode = "deco" if cosmics_deco_mode else "peak" import helper helper.add_filter(process, process.apvModeFilter) # Configure the input data # -------------------------------------------------------------------------- process.source = cms.Source("PoolSource", fileNames = input_files) # Set Luminosity-Blockrange from json-file if given if (json_file != "") and (json_file != "placeholder_json"): import FWCore.PythonUtilities.LumiList as LumiList lumi_list = LumiList.LumiList(filename = json_file).getVLuminosityBlockRange() process.source.lumisToProcess = lumi_list # The executed path # -------------------------------------------------------------------------- process.p = cms.Path(process.TrackRefittingSequence* process.AlignmentProducer) if hasattr(process, "mps_filters"): process.p.insert(0, process.mps_filters)
#################################################################### # Load and Configure TrackRefitter #################################################################### # process.load("RecoTracker.TrackProducer.TrackRefitters_cff") # import RecoTracker.TrackProducer.TrackRefitters_cff # process.FinalTrackRefitter = RecoTracker.TrackProducer.TrackRefitter_cfi.TrackRefitter.clone() # process.FinalTrackRefitter.src = "TRACKTYPETEMPLATE" # process.FinalTrackRefitter.TrajectoryInEvent = True # process.FinalTrackRefitter.NavigationSchool = '' # process.FinalTrackRefitter.TTRHBuilder = "WithAngleAndTemplate" #################################################################### # Load and Configure common selection sequence #################################################################### import Alignment.CommonAlignment.tools.trackselectionRefitting as trackselRefit process.seqTrackselRefit = trackselRefit.getSequence(process,'TRACKTYPETEMPLATE') process.HighPurityTrackSelector.trackQualities = cms.vstring() process.HighPurityTrackSelector.pMin = cms.double(0.) process.AlignmentTrackSelector.pMin = cms.double(0.) process.AlignmentTrackSelector.ptMin = cms.double(0.) process.AlignmentTrackSelector.nHitMin2D = cms.uint32(0) process.AlignmentTrackSelector.nHitMin = cms.double(0.) process.AlignmentTrackSelector.d0Min = cms.double(-999999.0) process.AlignmentTrackSelector.d0Max = cms.double(+999999.0) process.AlignmentTrackSelector.dzMin = cms.double(-999999.0) process.AlignmentTrackSelector.dzMax = cms.double(+999999.0) #################################################################### # Output file #################################################################### process.TFileService = cms.Service("TFileService",
## ## Skim tracks ## import Alignment.APEEstimation.AlignmentTrackSelector_cff process.MuSkim = Alignment.APEEstimation.AlignmentTrackSelector_cff.MuSkimSelector ## ## If preselected track list is used ## if options.useTrackList: process.MuSkim.src = 'TrackList' process.TriggerSelectionSequence *= process.TrackList import Alignment.CommonAlignment.tools.trackselectionRefitting as trackselRefit process.seqTrackselRefit = trackselRefit.getSequence( process, 'ALCARECOTkAlMuonIsolated') #~ process.seqTrackselRefit = trackselRefit.getSequence(process, 'ALCARECOTkAlZMuMu') ## ## Path ## process.path = cms.Path(process.offlineBeamSpot * process.seqTrackselRefit * process.MuSkim) ## ## Define event selection from path ## EventSelection = cms.PSet(SelectEvents=cms.untracked.PSet( SelectEvents=cms.vstring('path'))) ##
trackSelector = AlignmentTrackSelector.CosmicsSkimSelector else: # Extend list here with custom track selectors print("Unknown trackSelection %s, exiting"%(trackSelection)) exit(1) process.MuSkim = trackSelector ## ## If preselected track list is used ## if options.useTrackList: process.MuSkim.src = 'TrackList' process.TriggerSelectionSequence *= process.TrackList import Alignment.CommonAlignment.tools.trackselectionRefitting as trackselRefit process.seqTrackselRefit = trackselRefit.getSequence(process, trackSelector.src.getModuleLabel()) ## ## Path ## process.path = cms.Path( process.offlineBeamSpot* process.seqTrackselRefit* process.MuSkim ) ## ## Define event selection from path ## EventSelection = cms.PSet(
process.TwoBodyDecayConstraint.sigmaPositionCut = cms.double(0.5) process.TwoBodyDecayConstraint.rescaleError = cms.double(1.0) process.TwoBodyDecayConstraint.chi2Cut = cms.double(99999.) #process.TwoBodyDecayConstraint.EstimatorParameters.RobustificationConstant = cms.double(1.0) strTBDConstrainer="TwoBodyDecayConstraint,trackParameters" if strTBDConstrainer is not None: print("strTBDConstrainer=",strTBDConstrainer) process.TrackRefitterSequence = TrackRefitterSequencer.getSequence( process, strtrackcollname, TTRHBuilder = strTTRHBuilder, usePixelQualityFlag = None, # Keep default behavior ("WithAngleAndTemplate" -> True, "WithTrackAngle" -> False) openMassWindow = False, cosmicsDecoMode = False, cosmicsZeroTesla = False, #momentumConstraint = None, # Should be a momentum constraint object name or None momentumConstraint = strTBDConstrainer, # Should be a momentum constraint object name or None cosmicTrackSplitting = False, use_d0cut = True ) # Override TrackRefitterSequencer defaults process.HighPurityTrackSelector.pMin = 0.0 process.AlignmentTrackSelector.pMin = 0.0 process.AlignmentTrackSelector.ptMin = 15.0 process.AlignmentTrackSelector.etaMin = -3.0 process.AlignmentTrackSelector.etaMax = 3.0 process.AlignmentTrackSelector.nHitMin = 15 process.AlignmentTrackSelector.minHitsPerSubDet.inPIXEL = cms.int32(1)
## import Alignment.APEEstimation.AlignmentTrackSelector_cff process.MuSkim = Alignment.APEEstimation.AlignmentTrackSelector_cff.MuSkimSelector ## ## If preselected track list is used ## if options.useTrackList: process.MuSkim.src = 'TrackList' process.TriggerSelectionSequence *= process.TrackList import Alignment.CommonAlignment.tools.trackselectionRefitting as trackselRefit #~ process.seqTrackselRefit = trackselRefit.getSequence(process, 'ALCARECOTkAlMuonIsolated') process.seqTrackselRefit = trackselRefit.getSequence(process, 'ALCARECOTkAlZMuMu') ## ## Path ## process.path = cms.Path( process.offlineBeamSpot* process.seqTrackselRefit* process.MuSkim ) ## ## Define event selection from path ##
## Mille-procedure ## ----------------------------------------------------------------------------- if setupAlgoMode == "mille": # no database output in the mille step process.AlignmentProducer.saveDeformationsToDB = False ## Track selection and refitting ## ----------------------------------------------------------------------------- process.load("RecoVertex.BeamSpotProducer.BeamSpot_cfi") import Alignment.CommonAlignment.tools.trackselectionRefitting as trackRefitter process.TrackRefittingSequence = trackRefitter.getSequence( process, setupCollection, cosmicsDecoMode = setupCosmicsDecoMode, cosmicsZeroTesla = setupCosmicsZeroTesla) ## Overwrite Track-Selector filter from unified Sequence to false process.AlignmentTrackSelector.filter = False if setupCollection != "ALCARECOTkAlCosmicsCTF0T": # there is no HighPurity selector for cosmics process.HighPurityTrackSelector.filter = False ## Configure the input data. ## ----------------------------------------------------------------------------- process.source = cms.Source( "PoolSource", skipEvents = cms.untracked.uint32(0),
process.goodvertexSkim = cms.Sequence(process.primaryVertexFilter + process.noscraping + process.noslowpt) if(theRefitter == RefitType.COMMON): print(">>>>>>>>>> testPVValidation_cfg.py: msg%-i: using the common track selection and refit sequence!") #################################################################### # Load and Configure Common Track Selection and refitting sequence #################################################################### import Alignment.CommonAlignment.tools.trackselectionRefitting as trackselRefit process.seqTrackselRefit = trackselRefit.getSequence(process, 'generalTracks', isPVValidation=True, TTRHBuilder='WithAngleAndTemplate', usePixelQualityFlag=True, openMassWindow=False, cosmicsDecoMode=True, cosmicsZeroTesla=False, momentumConstraint=None, cosmicTrackSplitting=False, use_d0cut=False, ) elif (theRefitter == RefitType.STANDARD): print(">>>>>>>>>> testPVValidation_cfg.py: msg%-i: using the standard single refit sequence!") #################################################################### # Load and Configure Measurement Tracker Event # (needed in case NavigationSchool is set != '') #################################################################### # process.load("RecoTracker.MeasurementDet.MeasurementTrackerEventProducer_cfi") # process.MeasurementTrackerEvent.pixelClusterProducer = 'generalTracks'
## Skim tracks ## import Alignment.APEEstimation.AlignmentTrackSelector_cff process.MuSkim = Alignment.APEEstimation.AlignmentTrackSelector_cff.MuSkimSelector ## ## If preselected track list is used ## if options.useTrackList: process.MuSkim.src = 'TrackList' process.TriggerSelectionSequence *= process.TrackList import Alignment.CommonAlignment.tools.trackselectionRefitting as trackselRefit process.seqTrackselRefit = trackselRefit.getSequence(process, 'ALCARECOTkAlMuonIsolated') #~ process.seqTrackselRefit = trackselRefit.getSequence(process, 'ALCARECOTkAlZMuMu') ## ## Path ## process.path = cms.Path( process.offlineBeamSpot* process.MuSkim ) ## ## Define event selection from path ##
if (theRefitter == RefitType.COMMON): print( ">>>>>>>>>> testPVValidation_cfg.py: msg%-i: using the common track selection and refit sequence!" ) #################################################################### # Load and Configure Common Track Selection and refitting sequence #################################################################### import Alignment.CommonAlignment.tools.trackselectionRefitting as trackselRefit process.seqTrackselRefit = trackselRefit.getSequence( process, 'generalTracks', isPVValidation=True, TTRHBuilder='WithAngleAndTemplate', usePixelQualityFlag=True, openMassWindow=False, cosmicsDecoMode=True, cosmicsZeroTesla=False, momentumConstraint=None, cosmicTrackSplitting=False, use_d0cut=False, ) elif (theRefitter == RefitType.STANDARD): print( ">>>>>>>>>> testPVValidation_cfg.py: msg%-i: using the standard single refit sequence!" ) #################################################################### # Load and Configure Measurement Tracker Event # (needed in case NavigationSchool is set != '')
process.TwoBodyDecayConstraint.sigmaPositionCut = cms.double(0.5) process.TwoBodyDecayConstraint.rescaleError = cms.double(1.0) process.TwoBodyDecayConstraint.chi2Cut = cms.double(99999.) #process.TwoBodyDecayConstraint.EstimatorParameters.RobustificationConstant = cms.double(1.0) strTBDConstrainer = "TwoBodyDecayConstraint,trackParameters" if strTBDConstrainer is not None: print("strTBDConstrainer=", strTBDConstrainer) process.TrackRefitterSequence = TrackRefitterSequencer.getSequence( process, strtrackcollname, TTRHBuilder=strTTRHBuilder, usePixelQualityFlag= None, # Keep default behavior ("WithAngleAndTemplate" -> True, "WithTrackAngle" -> False) openMassWindow=False, cosmicsDecoMode=False, cosmicsZeroTesla=False, #momentumConstraint = None, # Should be a momentum constraint object name or None momentumConstraint= strTBDConstrainer, # Should be a momentum constraint object name or None cosmicTrackSplitting=False, use_d0cut=True) # Override TrackRefitterSequencer defaults process.HighPurityTrackSelector.pMin = 0.0 process.AlignmentTrackSelector.pMin = 0.0 process.AlignmentTrackSelector.ptMin = 15.0 process.AlignmentTrackSelector.etaMin = -3.0 process.AlignmentTrackSelector.etaMax = 3.0 process.AlignmentTrackSelector.nHitMin = 15 process.AlignmentTrackSelector.minHitsPerSubDet.inPIXEL = cms.int32(1)
#################################################################### # Load and Configure TrackRefitter #################################################################### # process.load("RecoTracker.TrackProducer.TrackRefitters_cff") # import RecoTracker.TrackProducer.TrackRefitters_cff # process.FinalTrackRefitter = RecoTracker.TrackProducer.TrackRefitter_cfi.TrackRefitter.clone() # process.FinalTrackRefitter.src = "TRACKTYPETEMPLATE" # process.FinalTrackRefitter.TrajectoryInEvent = True # process.FinalTrackRefitter.NavigationSchool = '' # process.FinalTrackRefitter.TTRHBuilder = "WithAngleAndTemplate" #################################################################### # Load and Configure common selection sequence #################################################################### import Alignment.CommonAlignment.tools.trackselectionRefitting as trackselRefit process.seqTrackselRefit = trackselRefit.getSequence(process,'TRACKTYPETEMPLATE') process.HighPurityTrackSelector.trackQualities = cms.vstring() process.HighPurityTrackSelector.pMin = cms.double(0.) process.AlignmentTrackSelector.pMin = cms.double(0.) process.AlignmentTrackSelector.ptMin = cms.double(0.) process.AlignmentTrackSelector.nHitMin2D = cms.uint32(0) process.AlignmentTrackSelector.nHitMin = cms.double(0.) process.AlignmentTrackSelector.d0Min = cms.double(-999999.0) process.AlignmentTrackSelector.d0Max = cms.double(+999999.0) process.AlignmentTrackSelector.dzMin = cms.double(-999999.0) process.AlignmentTrackSelector.dzMax = cms.double(+999999.0) #################################################################### # Output file #################################################################### process.TFileService = cms.Service("TFileService",
## Mille-procedure ## ----------------------------------------------------------------------------- if setupAlgoMode == "mille": # no database output in the mille step process.AlignmentProducer.saveDeformationsToDB = False ## Track selection and refitting ## ----------------------------------------------------------------------------- process.load("RecoVertex.BeamSpotProducer.BeamSpot_cfi") import Alignment.CommonAlignment.tools.trackselectionRefitting as trackRefitter process.TrackRefittingSequence = trackRefitter.getSequence( process, setupCollection, cosmicsDecoMode=setupCosmicsDecoMode, cosmicsZeroTesla=setupCosmicsZeroTesla) ## Overwrite Track-Selector filter from unified Sequence to false process.AlignmentTrackSelector.filter = False if setupCollection != "ALCARECOTkAlCosmicsCTF0T": # there is no HighPurity selector for cosmics process.HighPurityTrackSelector.filter = False ## Configure the input data. ## ----------------------------------------------------------------------------- process.source = cms.Source("PoolSource", skipEvents=cms.untracked.uint32(0), fileNames=readFiles)
def setup(process, input_files, collection, json_file = "", cosmics_zero_tesla = False, cosmics_deco_mode = True, TTRHBuilder = None): """Mille-specific setup. Arguments: - `process`: cms.Process object - `input_files`: input file list -> cms.untracked.vstring() - `collection`: track collection to be used - `cosmics_zero_tesla`: triggers the corresponding track selection - `cosmics_deco_mode`: triggers the corresponding track selection - `TTRHBuilder`: TransientTrackingRecHitBuilder used in the track selection and refitting sequence; defaults to the default of the above-mentioned sequence """ # no database output in the mille step: # -------------------------------------------------------------------------- process.AlignmentProducer.saveToDB = False process.AlignmentProducer.saveApeToDB = False process.AlignmentProducer.saveDeformationsToDB = False # Track selection and refitting # -------------------------------------------------------------------------- import Alignment.CommonAlignment.tools.trackselectionRefitting as trackRefitter kwargs = {"cosmicsDecoMode": cosmics_deco_mode, "cosmicsZeroTesla": cosmics_zero_tesla} if TTRHBuilder is not None: kwargs["TTRHBuilder"] = TTRHBuilder process.TrackRefittingSequence \ = trackRefitter.getSequence(process, collection, **kwargs) # Ensure the correct APV mode for cosmics # -------------------------------------------------------------------------- if collection in ("ALCARECOTkAlCosmicsCTF0T", "ALCARECOTkAlCosmicsInCollisions"): process.load("Alignment.CommonAlignment.apvModeFilter_cfi") process.apvModeFilter.apvMode = "deco" if cosmics_deco_mode else "peak" import helper helper.add_filter(process, process.apvModeFilter) # Configure the input data # -------------------------------------------------------------------------- process.source = cms.Source("PoolSource", fileNames = input_files) # Set Luminosity-Blockrange from json-file if given if (json_file != "") and (json_file != "placeholder_json"): import FWCore.PythonUtilities.LumiList as LumiList lumi_list = LumiList.LumiList(filename = json_file).getVLuminosityBlockRange() process.source.lumisToProcess = lumi_list # The executed path # -------------------------------------------------------------------------- process.p = cms.Path(process.TrackRefittingSequence* process.AlignmentProducer) if hasattr(process, "mps_filters"): process.p.insert(0, process.mps_filters)
## ## Skim tracks ## import Alignment.APEEstimation.AlignmentTrackSelector_cff process.MuSkim = Alignment.APEEstimation.AlignmentTrackSelector_cff.MuSkimSelector ## ## If preselected track list is used ## if options.useTrackList: process.MuSkim.src = 'TrackList' process.TriggerSelectionSequence *= process.TrackList import Alignment.CommonAlignment.tools.trackselectionRefitting as trackselRefit #~ process.seqTrackselRefit = trackselRefit.getSequence(process, 'ALCARECOTkAlMuonIsolated') process.seqTrackselRefit = trackselRefit.getSequence(process, 'ALCARECOTkAlZMuMu') ## ## Path ## process.path = cms.Path(process.offlineBeamSpot * process.seqTrackselRefit * process.MuSkim) ## ## Define event selection from path ## EventSelection = cms.PSet(SelectEvents=cms.untracked.PSet( SelectEvents=cms.vstring('path'))) ## ## configure output module