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gedPhotonSequence_cff.py
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1 import FWCore.ParameterSet.Config as cms
2 
3 #
4 # sequence to make photons from clusters in ECAL
5 #
6 # photon producer
7 from RecoEgamma.EgammaPhotonProducers.gedPhotonCore_cfi import *
8 from RecoEgamma.EgammaPhotonProducers.gedPhotons_cfi import *
9 
10 import RecoEgamma.EgammaPhotonProducers.gedPhotons_cfi
11 
12 gedPhotonsTmp = RecoEgamma.EgammaPhotonProducers.gedPhotons_cfi.gedPhotons.clone()
13 gedPhotonsTmp.photonProducer = cms.InputTag("gedPhotonCore")
14 gedPhotonsTmp.candidateP4type = cms.string("fromEcalEnergy")
15 del gedPhotonsTmp.regressionConfig
16 gedPhotonsTmp.outputPhotonCollection = cms.string("")
17 gedPhotonsTmp.reconstructionStep = cms.string("tmp")
18 gedPhotonSequenceTmp = cms.Sequence(gedPhotonCore+gedPhotonsTmp)
19 
20 
21 gedPhotons = RecoEgamma.EgammaPhotonProducers.gedPhotons_cfi.gedPhotons.clone()
22 gedPhotons.photonProducer = cms.InputTag("gedPhotonsTmp")
23 gedPhotons.outputPhotonCollection = cms.string("")
24 gedPhotons.reconstructionStep = cms.string("final")
25 gedPhotons.pfECALClusIsolation = cms.InputTag("photonEcalPFClusterIsolationProducer")
26 gedPhotons.pfHCALClusIsolation = cms.InputTag("photonHcalPFClusterIsolationProducer")
27 gedPhotons.pfIsolCfg = cms.PSet(
28  chargedHadronIso = cms.InputTag("photonIDValueMaps","phoChargedIsolation"),
29  neutralHadronIso = cms.InputTag("photonIDValueMaps","phoNeutralHadronIsolation"),
30  photonIso = cms.InputTag("photonIDValueMaps","phoPhotonIsolation"),
31  chargedHadronWorstVtxIso = cms.InputTag("photonIDValueMaps","phoWorstChargedIsolation"),
32  chargedHadronWorstVtxGeomVetoIso = cms.InputTag("photonIDValueMaps","phoWorstChargedIsolationConeVeto"),
33  chargedHadronPFPVIso = cms.InputTag("egmPhotonIsolationCITK:h+-DR030-"),
34  )
35 
36 
37 gedPhotonSequence = cms.Sequence(gedPhotons)
38 
39 
40 
gedPhotonCore_cfi
gedPhotons_cfi
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