# take into account different electron vetos in mu and e channel options['cutsElec' ] = 'et > 20. & abs(eta) < 2.5' if(PF2PATwithoutLeptonIsoCut): ## change the source of the PAT leptons to nonIso leptons to be able to do isolation studies process.load("PhysicsTools.PatAlgos.producersLayer1.electronProducer_cfi") process.patElectrons.pfElectronSource = cms.InputTag("pfSelectedElectrons") else: options['skipIfNoPFElec']=True elif(leptonTypeId==13): if(PF2PATwithoutLeptonIsoCut): ## change the source of the PAT leptons to nonIso leptons to be able to do isolation studies process.load("PhysicsTools.PatAlgos.producersLayer1.muonProducer_cfi") process.patMuons.pfMuonSource = cms.InputTag("pfSelectedMuons") else: options['skipIfNoPFMuon']=True prependPF2PATSequence(process, allpaths, options) ## change the source of the PAT leptons to nonIso leptons to be able to do isolation studies if(PF2PATwithoutLeptonIsoCut): for path in allpaths: if(leptonTypeId==11): getattr(process,path).remove(process.electronMatch) getattr(process,path).remove(process.patElectrons) if(dataSelector == 1): getattr(process,path).replace(process.pfIsolatedElectrons, process.electronMatch*process.patElectrons*process.pfIsolatedElectrons) else: getattr(process,path).replace(process.pfIsolatedElectrons, process.patElectrons*process.pfIsolatedElectrons) elif(leptonTypeId==13): getattr(process,path).remove(process.muonMatch) getattr(process,path).remove(process.patMuons) if(dataSelector == 1):
'switchOffEmbedding': False, 'addResolutions': True, 'resolutionsVersion': 'fall11', 'runOnOLDcfg': True, 'cutsMuon': 'pt > 10. & abs(eta) < 2.5', 'cutsElec': 'et > 15. & abs(eta) < 2.5', 'cutsJets': 'pt > 10 & abs(eta) < 5.0', 'electronIDs': ['CiC','classical','MVA'], 'pfIsoConeMuon': 0.4, 'pfIsoConeElec': 0.3, 'pfIsoValMuon': 0.2, 'pfIsoValElec': 0.15, 'skipIfNoPFMuon': True, 'skipIfNoPFElec': False, 'doDeltaBetaCorrMuon' : True, 'doDeltaBetaCorrElec' : True, 'addNoCutPFMuon': False, 'addNoCutPFElec': False, 'noMuonTopProjection': False, 'noElecTopProjection': False, 'analyzersBeforeMuonIso':cms.Sequence(), 'analyzersBeforeElecIso':cms.Sequence(), 'excludeElectronsFromWsFromGenJets': True, 'METCorrectionLevel': 1 } prependPF2PATSequence(process, recoPaths, PFoptions) #for path in recoPaths: # replace object consistently with names from PF2PAT #massSearchReplaceAnyInputTag(getattr(process,path), 'patMETsPF', 'patMETs') #massSearchReplaceAnyInputTag(getattr(process,path), 'selectedPatJetsAK5PF', 'selectedPatJets')
process = cms.Process("ResolutionTreeWriter") process.load("FWCore.MessageService.MessageLogger_cfi") process.MessageLogger.cerr.threshold = "INFO" process.MessageLogger.cerr.FwkReport.reportEvery = 1000 process.load("Configuration.StandardSequences.FrontierConditions_GlobalTag_cff") process.load("Configuration.StandardSequences.Geometry_cff") process.GlobalTag.globaltag = cms.string("START42_V17::All") process.source = cms.Source( "PoolSource", fileNames=cms.untracked.vstring( "/store/mc/Fall11/TTJets_TuneZ2_7TeV-madgraph-tauola/AODSIM/PU_S6_START42_V14B-v2/0000/0040932D-A80F-E111-BBF7-00304867BFAA.root" ), ) process.maxEvents = cms.untracked.PSet(input=cms.untracked.int32(100)) process.TFileService = cms.Service("TFileService", fileName=cms.string("ResolutionTree.root")) from TopAnalysis.TopUtils.ResolutionTreeWriter_cfi import writeResolutionTree process.resolutionTreeWriter = writeResolutionTree process.p = cms.Path(process.resolutionTreeWriter) from TopAnalysis.TopUtils.usePatTupleWithParticleFlow_cff import prependPF2PATSequence PFoptions = {"runOnAOD": True} prependPF2PATSequence(process, "p", PFoptions)