import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * tagAndProbeConfigurator = CutSequenceProducer(initialCounter='initialEvents', pyModuleName=__name__, pyNameSpace=locals()) ##Tag and probe electron+GSF track tagAndProbeConfigurator.addDiCandidateModule('tagAndProbeEleTracks', 'PATEleTrackPairProducer', 'convRejElectrons', 'gsfTrackCandidates', 'patMETs', 'selectedPatJets', 1, 9999, text='', leadingObjectsOnly=True, dR=0.15, recoMode="") tagAndProbeConfigurator.addSorter('eleTracksSorted', 'PATEleTrackPairSorter') tagAndProbeConfigurator.addSelector( 'selectedTagAndProbeEleTracks', 'PATEleTrackPairSelector', 'abs(leg2.eta())<2.1&&(!(abs(leg2.eta())>1.442&&abs(leg2.eta())<1.566))&&leg1.pt()>15&&charge==0&&leg2.pt()>5&&mass>15&&mass<120&&leg1.userFloat("WWID")>0&&(leg1.chargedHadronIso+leg1.photonIso+leg1.neutralHadronIso)/leg1.pt()<0.1', 'tagAndProbeEleTracks', 0, 100) tagAndProbeSequenceEleTracks = tagAndProbeConfigurator.returnSequence() ##Tag and probe electron+SC
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * analysisConfigurator = CutSequenceProducer(initialCounter='initialEvents', pyModuleName=__name__, pyNameSpace=locals()) #Add smearing analysisConfigurator.addSmearing('patOverloadedTaus', 'patMuonsForAnalysis', 'convRejElectrons', 'patOverloadedJets', 'METInputTag') #Create di muon pairs for veto purposes analysisConfigurator.addDiCandidateModule('diMuons', 'PATMuPairProducer', 'smearedMuons', 'smearedMuons', 'smearedMET', 'smearedJets', 0, 9999, text='', leadingObjectsOnly=False, dR=0.15, recoMode="") analysisConfigurator.addSelector( 'osDiMuons', 'PATMuPairSelector', 'charge==0&&leg1.isGlobalMuon&&leg2.isGlobalMuon&&leg1.pt()>15&&leg2.pt()>15&&(leg1.chargedHadronIso()+max(0.0,leg1.photonIso()+leg1.neutralHadronIso()-0.5*leg1.userIso(0)))/leg1.pt()<0.2&&(leg2.chargedHadronIso()+max(0.0,leg2.photonIso+leg2.neutralHadronIso()-0.5*leg2.userIso(0)))/leg2.pt()<0.2', 'DiMuonCreation', 0, 0)
import FWCore.ParameterSet.Config as cms ###MU ENRICHED QCD##################################################################################################### from UWAnalysis.Configuration.tools.CutSequenceProducer import * muEnrichedConfigurator = CutSequenceProducer(initialCounter = 'initialMuEnrichedEvents', pyModuleName = __name__, pyNameSpace = locals()) muEnrichedConfigurator.addDiCandidateModule('diMuonsMuEnrichedFR','PATMuPairProducer', 'patMuonsForAnalysis','patMuonsForAnalysis','patMETs','selectedPatJets',0,9999,text = '',leadingObjectsOnly = False,dR = 0.15,recoMode = "") muEnrichedConfigurator.addSelector('osDiMuonsMuEnrichedFR','PATMuPairSelector','charge==0&&leg1.isGlobalMuon&&leg2.isGlobalMuon&&((leg1.chargedHadronIso+leg1.photonIso+leg1.neutralHadronIso)/leg1.pt()<0.26)&&((leg2.chargedHadronIso+leg2.photonIso+leg2.neutralHadronIso)/leg2.pt()<0.3)','',0,0) #Make Muons+MET muEnrichedConfigurator.addCandidateMETModule('muEnrichedCands','PATMuonNuPairProducer','patMuonsForAnalysis','patMETs','selectedPatJets',0,9999,'') muEnrichedConfigurator.addSelector('muEnrichedSelectedCands','PATMuonNuPairSelector','lepton.pt()>15&&abs(lepton.eta())<2.1&&((lepton.chargedHadronIso+lepton.photonIso+lepton.neutralHadronIso)/lepton.pt()>0.5)&&(lepton.triggerObjectMatchesByPath("HLT_Mu9").size>0||(lepton.triggerObjectMatchesByPath("HLT_Mu11").size>0)||(lepton.triggerObjectMatchesByPath("HLT_Mu15_v1").size>0))&&mt<40.','',0,100) muEnrichedConfigurator.addGeneric('muEnrichedJetsForFakeRate','MuonNuPairJetFetcher') muEnrichedSequence = muEnrichedConfigurator.returnSequence()