from MuonAnalysis.Examples.inclusiveMuonPlots_cfi import makeInclusiveMuonPlots; commonInputs = cms.PSet( muons = cms.InputTag('patMuonsWithTrigger'), onlyLeadingMuon = cms.bool(True), old36Xdata = cms.bool(False), primaryVertices = cms.InputTag("offlinePrimaryVertices"), doTrackExtrapolations = cms.bool(False), extraPlots = cms.bool(True), jets = cms.InputTag("ak5PFJets"), met = cms.InputTag("pfMet"), ) CSEL="pt > 20 && (!triggerObjectMatchesByPath('HLT_Mu9').empty() || !triggerObjectMatchesByPath('HLT_Mu15_v1').empty()) && " process.trackerMuons = cms.EDAnalyzer("InclusiveMuonPlots", makeInclusiveMuonPlots(ptScale=3), commonInputs, selection = cms.string(CSEL+"isTrackerMuon") # && muonID('TMLastStationAngTight')"), ) addAliases(process, "trackerMuons") process.globalMuons = process.trackerMuons.clone(selection = CSEL+"isGlobalMuon") addAliases(process, "globalMuons") if False: process.standAloneMuons = process.trackerMuons.clone(selection = CSEL+"isStandAloneMuon") process.standAloneMuonsVH = process.trackerMuons.clone(selection = CSEL+"isStandAloneMuon && outerTrack.numberOfValidHits > 0") addAliases(process, "standAloneMuons") addAliases(process, "standAloneMuonsVH")
cms.Path(sum(modules, process.preFilter + process.bscMinBias))) else: setattr(process, label + "_Classes", cms.Path(sum(modules, process.preFilter))) from MuonAnalysis.Examples.inclusiveMuonPlots_cfi import makeInclusiveMuonPlots commonInputs = cms.PSet( muons=cms.InputTag('patMuonsWithTrigger'), onlyLeadingMuon=cms.bool(False), primaryVertices=cms.InputTag("offlinePrimaryVertices"), ) process.trackerMuons = cms.EDAnalyzer( "InclusiveMuonPlots", makeInclusiveMuonPlots(), commonInputs, selection=cms.string("isTrackerMuon && muonID('TMLastStationAngTight')"), ) addClassAliases(process, "trackerMuons", "classByHitsTMLSAT") process.globalMuons = process.trackerMuons.clone(selection="isGlobalMuon") addClassAliases(process, "globalMuons", "classByHitsGlb") process.standAloneMuons = process.trackerMuons.clone( selection="isStandAloneMuon") process.standAloneMuonsVH = process.trackerMuons.clone( selection="isStandAloneMuon && outerTrack.numberOfValidHits > 0") addClassAliases(process, "standAloneMuons", "classByHitsSta") addClassAliases(process, "standAloneMuonsVH", "classByHitsSta")
## trigger_match = '(' \ ## ' triggerMatchesByPath("HLT_Mu9").at(0).pt() > 15) || ' \ ## '!triggerObjectMatchesByPath("HLT_Mu15_v1").empty()' \ ## ')' trigger_match = ' ' my_cut = ' && isTrackerMuon ' \ ' && innerTrack.pt > 20. ' tight_cut = loose_cut + my_cut + trigger_match from MuonAnalysis.Examples.inclusiveMuonPlots_cfi import makeInclusiveMuonPlots process.globalMuons = cms.EDAnalyzer( "InclusiveMuonPlots", makeInclusiveMuonPlots(0.4, 20.), # muons = cms.InputTag('selectedPatMuons',''), muons=cms.InputTag('patMuonsWithTrigger', ''), selection=cms.string("isGlobalMuon"), onlyLeadingMuon=cms.bool(False), primaryVertices=cms.InputTag("offlinePrimaryVertices"), ) ## Now we make the sub-plots with classification by hits process.globalMuonsGhost = process.globalMuons.clone( selection="isGlobalMuon && (-5 <= userInt('classByHitsGlb') <= -1)") process.globalMuonsPunch = process.globalMuons.clone( selection="isGlobalMuon && ( 0 <= userInt('classByHitsGlb') <= 1)") process.globalMuonsLight = process.globalMuons.clone( selection="isGlobalMuon && (userInt('classByHitsGlb') == 2)") process.globalMuonsHeavy = process.globalMuons.clone(
setattr(process, label+"B", mbar); setattr(process, label+"E", mec ); if requireMB: setattr(process, label+"_Plots", cms.Path(process.preFilter + process.bscMinBias + module + mbar + mec)) else: setattr(process, label+"_Plots", cms.Path(process.preFilter + module + mbar + mec)) from MuonAnalysis.Examples.inclusiveMuonPlots_cfi import makeInclusiveMuonPlots; commonInputs = cms.PSet( muons = cms.InputTag('patMuonsWithTrigger'), onlyLeadingMuon = cms.bool(False), primaryVertices = cms.InputTag("offlinePrimaryVertices"), ) process.trackerMuons = cms.EDAnalyzer("InclusiveMuonPlots", makeInclusiveMuonPlots(), commonInputs, selection = cms.string("isTrackerMuon && muonID('TMLastStationAngTight')"), ) addPlots(process, "trackerMuons") process.globalMuons = process.trackerMuons.clone(selection = "isGlobalMuon") addPlots(process, "globalMuons") process.standAloneMuons = process.trackerMuons.clone(selection = "isStandAloneMuon") process.standAloneMuonsVH = process.trackerMuons.clone(selection = "isStandAloneMuon && outerTrack.numberOfValidHits > 0") addPlots(process, "standAloneMuons") addPlots(process, "standAloneMuonsVH") if True: process.globalMuonsPt3 = process.globalMuons.clone(