dc/de4/HI__PhotonSkim__cff_8py_source.html

 import FWCore.ParameterSet.Config as cms

 # HLT photon trigger
 import HLTrigger.HLTfilters.hltHighLevel_cfi
 hltPhotonHI = HLTrigger.HLTfilters.hltHighLevel_cfi.hltHighLevel.clone()
 hltPhotonHI.HLTPaths = ["HLT_HIPhoton20"]
 hltPhotonHI.throw = False
 hltPhotonHI.andOr = True

 # photon selection
 goodPhotons = cms.EDFilter("PhotonSelector",
     src = cms.InputTag("photons"),
     cut = cms.string('et > 20 && hadronicOverEm < 0.1 && r9 > 0.8 && sigmaIetaIeta > 0.002')
 )

 goodPhotonsForZEE = goodPhotons.clone(
     cut=cms.string('et > 20 && hadronicOverEm < 0.2 && r9 > 0.5 && sigmaIetaIeta > 0.002')
 )

 # leading photon E_T filter
 photonFilter = cms.EDFilter("EtMinPhotonCountFilter",
     src = cms.InputTag("goodPhotons"),
     etMin = cms.double(40.0),
     minNumber = cms.uint32(1)
 )

 # supercluster cleaning sequence (output = cleanPhotons)
 from RecoHI.HiEgammaAlgos.HiEgamma_cff import *

 # photon selection of spike-cleaned collection
 goodCleanPhotons = goodPhotons.clone(src=cms.InputTag("cleanPhotons"))
 goodCleanPhotonsForZEE = goodPhotonsForZEE.clone(src=cms.InputTag("cleanPhotons"))


 # leading E_T filter on cleaned collection
 cleanPhotonFilter = photonFilter.clone(src=cms.InputTag("goodCleanPhotons"))

 # photon skim sequence
 photonSkimSequence = cms.Sequence(hltPhotonHI
                                   * goodPhotons
                                   * photonFilter
                                   * hiPhotonCleaningSequence
                                   * goodCleanPhotons
                                   * cleanPhotonFilter
                                   )

 # selection of valid vertex
 primaryVertexFilterForZEE = cms.EDFilter("VertexSelector",
     src = cms.InputTag("hiSelectedVertex"),
     cut = cms.string("!isFake && abs(z) <= 25 && position.Rho <= 2"),
     filter = cms.bool(True),   # otherwise it won't filter the events
     )

 # two-photon E_T filter
 twoPhotonFilter = cms.EDFilter("EtMinPhotonCountFilter",
     src = cms.InputTag("goodPhotonsForZEE"),
     etMin = cms.double(20.0),
     minNumber = cms.uint32(2)
 )

 # select pairs around Z mass
 photonCombiner = cms.EDProducer("CandViewShallowCloneCombiner",
   checkCharge = cms.bool(False),
   cut = cms.string('60 < mass < 120'),
   decay = cms.string('goodCleanPhotonsForZEE goodCleanPhotonsForZEE')
 )

 photonPairCounter = cms.EDFilter("CandViewCountFilter",
   src = cms.InputTag("photonCombiner"),
   minNumber = cms.uint32(1)
 )

 # run electron sequence (after remaking pixel seeds)
 from Configuration.StandardSequences.ReconstructionHeavyIons_cff import *
 from RecoHI.HiEgammaAlgos.HiElectronSequence_cff import *
 rechits = cms.Sequence(siPixelRecHits*siStripMatchedRecHits)
 electrons = cms.Sequence(rechits*hiPrimSeeds*hiElectronSequence)

 # Z->ee skim sequence
 zEESkimSequence = cms.Sequence(hltPhotonHI
                                * primaryVertexFilterForZEE
                                * goodPhotonsForZEE
                                * twoPhotonFilter
                                * hiPhotonCleaningSequence
                                * goodCleanPhotonsForZEE
                                * photonCombiner
                                * photonPairCounter
                                * electrons
                                )

HiEgamma_cff

ReconstructionHeavyIons_cff

hltHighLevel_cfi

HiElectronSequence_cff