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egmTreesContent_cff.py
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egmTreesContent_cff.py
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import FWCore.ParameterSet.Config as cms
##########################################################################
## TREE CONTENT
#########################################################################
from EgammaAnalysis.TnPTreeProducer.cmssw_version import isReleaseAbove
ZVariablesToStore = cms.PSet(
eta = cms.string("eta"),
abseta = cms.string("abs(eta)"),
pt = cms.string("pt"),
mass = cms.string("mass"),
)
SCProbeVariablesToStore = cms.PSet(
sc_eta = cms.string("eta"),
sc_phi = cms.string("phi"),
sc_abseta = cms.string("abs(eta)"),
sc_pt = cms.string("pt"),
sc_et = cms.string("et"),
sc_e = cms.string("energy"),
sc_tkIso = cms.InputTag("recoEcalCandidateHelper:scTkIso"),
)
EleProbeVariablesToStore = cms.PSet(
el_eta = cms.string("eta"),
el_phi = cms.string("phi"),
el_abseta = cms.string("abs(eta)"),
el_pt = cms.string("pt"),
el_pf_pt = cms.InputTag("eleVarHelper:pfPt"),
el_et = cms.string("et"),
el_e = cms.string("energy"),
el_q = cms.string("charge"),
el_isGap = cms.string("isGap"),
## super cluster quantities
el_sc_e = cms.string("superCluster().energy"),
el_sc_rawE = cms.string("superCluster().rawEnergy"),
el_sc_esE = cms.string("superCluster().preshowerEnergy"),
el_sc_et = cms.string("superCluster().energy*sin(superClusterPosition.theta)"),
el_sc_eta = cms.string("-log(tan(superCluster.position.theta/2))"),
el_sc_phi = cms.string("superCluster.phi"),
el_sc_abseta = cms.string("abs(-log(tan(superCluster.position.theta/2)))"),
el_seed_e = cms.string("superCluster.seed.energy"),
el_ecalEnergy = cms.string("ecalEnergy()"),
# el_xseed_e = cms.string("superCluster.seed.seed.energy"),
#id based
# el_dEtaSeeOut = cms.string("deltaEtaSeedClusterTrackAtCalo"),
el_dEtaIn = cms.string("deltaEtaSuperClusterTrackAtVtx"),
el_dPhiIn = cms.string("deltaPhiSuperClusterTrackAtVtx"),
el_dEtaSeed = cms.string("deltaEtaSuperClusterTrackAtVtx+log(tan(superCluster.position.theta/2))-log(tan(superCluster.seed.position.theta/2))"),
el_phiW = cms.string("superCluster().phiWidth"),
el_etaW = cms.string("superCluster().etaWidth"),
el_5x5_e1x5 = cms.string("full5x5_showerShape().e1x5"),
el_5x5_e2x5 = cms.string("full5x5_showerShape().e2x5Max"),
el_5x5_e5x5 = cms.string("full5x5_showerShape().e5x5"),
el_5x5_r9 = cms.string("full5x5_showerShape().r9"),
el_5x5_sieie = cms.string("full5x5_showerShape().sigmaIetaIeta"),
el_5x5_sieip = cms.string("full5x5_showerShape().sigmaIetaIphi"),
el_e1x5 = cms.string("showerShape().e1x5"),
el_e2x5 = cms.string("showerShape().e2x5Max"),
el_e5x5 = cms.string("showerShape().e5x5"),
el_r9 = cms.string("showerShape().r9"),
el_sieie = cms.string("showerShape().sigmaIetaIeta"),
el_5x5_circularity = cms.InputTag("eleVarHelper:5x5circularity"),
el_5x5_hoe = cms.string("full5x5_hcalOverEcal()"),
el_hoe = cms.string("hadronicOverEm()"),
el_hoe_bc = cms.string("hcalOverEcalBc"),
el_eoverp_wES = cms.string("(superCluster().rawEnergy+superCluster().preshowerEnergy)/gsfTrack().pMode()"),
el_1overEminus1overP = cms.string("abs(1-eSuperClusterOverP())/ecalEnergy()"),
# mva id
el_nonTrigMVA80X = cms.InputTag("electronMVAValueMapProducer:ElectronMVAEstimatorRun2Spring16GeneralPurposeV1Values"),
el_hzzMVA80X = cms.InputTag("electronMVAValueMapProducer:ElectronMVAEstimatorRun2Spring16HZZV1Values"),
el_noIsoMVA94X = cms.InputTag("electronMVAValueMapProducer:ElectronMVAEstimatorRun2Fall17NoIsoV1Values"),
el_IsoMVA94X = cms.InputTag("electronMVAValueMapProducer:ElectronMVAEstimatorRun2Fall17IsoV1RawValues"),
el_noIsoMVA94XV2 = cms.InputTag("electronMVAValueMapProducer:ElectronMVAEstimatorRun2Fall17NoIsoV2RawValues"),
el_IsoMVA94XV2 = cms.InputTag("electronMVAValueMapProducer:ElectronMVAEstimatorRun2Fall17IsoV2RawValues"),
#isolation
el_chIso = cms.string("pfIsolationVariables().sumChargedHadronPt"),
el_phoIso = cms.string("pfIsolationVariables().sumPhotonEt"),
el_neuIso = cms.string("pfIsolationVariables().sumNeutralHadronEt"),
el_dr03EcalRecHitSumEt = cms.string("dr03EcalRecHitSumEt"),
el_ecalIso = cms.string("ecalPFClusterIso"), # this one seem to be always 0 in CMSSW_10_2_X
el_hcalIso = cms.string("hcalPFClusterIso"), # this one seem to be always 0 in CMSSW_10_2_X
el_trkIso = cms.string("trackIso"),
el_dr03TkSumPt = cms.string("dr03TkSumPt"),
# this relative PF lepton isolation component is added to the standard PF isolation sum
# in order to get the isolation variable used in the triboson analysis
# in the small test runs this variable is always 0, but I guess it is very rare to find another lepton in the cone
el_relPfLepIso03 = cms.InputTag("eleVarHelper:pfLeptonIsolation"),
#added for VHbbEIso
el_sumPUPt = cms.string("pfIsolationVariables().sumPUPt"),
el_relIso03_dB = cms.string("(pfIsolationVariables().sumChargedHadronPt + max(pfIsolationVariables().sumNeutralHadronEt + pfIsolationVariables().sumPhotonEt - 0.5 * pfIsolationVariables().sumPUPt,0.0)) / pt() "),
# tracker Variabels
el_tk_pt = cms.string("gsfTrack().ptMode"),
el_tk_eta = cms.string("gsfTrack().etaMode"),
el_tk_phi = cms.string("gsfTrack().phiMode"),
el_fbrem = cms.string("fbrem"),
el_mHits = cms.InputTag("eleVarHelper:missinghits"),
el_gsfHits = cms.InputTag("eleVarHelper:gsfhits"),
el_dz = cms.InputTag("eleVarHelper:dz"),
el_dxy = cms.InputTag("eleVarHelper:dxy"),
el_sip = cms.InputTag("eleVarHelper:sip"),
el_3charge = cms.string("chargeInfo().isGsfCtfScPixConsistent"),
el_ecalDriven = cms.string("ecalDrivenSeed"),
el_gsfhits = cms.string("gsfTrack().hitPattern().trackerLayersWithMeasurement()"),
el_gsfchi2 = cms.string("gsfTrack().normalizedChi2()"),
el_kfhits = cms.InputTag("eleVarHelper:kfhits"),
el_kfchi2 = cms.InputTag("eleVarHelper:kfchi2"),
el_lost_hits = cms.string("gsfTrack().lost()"),
el_found_hits = cms.string("gsfTrack().found()"), # sometimes called valid_hits
el_convVtxFitProb = cms.InputTag("eleVarHelper:convVtxFitProb"),
el_hasMatchedConversion = cms.InputTag("eleVarHelper:hasMatchedConversion"),
# Track cluster matching
el_ep = cms.string("eSuperClusterOverP()"),
el_eelepout = cms.string("eEleClusterOverPout()"),
el_IoEmIop = cms.InputTag("eleVarHelper:ioemiop"),
)
PhoProbeVariablesToStore = cms.PSet(
ph_eta = cms.string("eta"),
ph_abseta = cms.string("abs(eta)"),
ph_et = cms.string("et"),
ph_e = cms.string("energy"),
## super cluster quantities
ph_sc_energy = cms.string("superCluster.energy"),
ph_sc_rawEnergy = cms.string("superCluster.rawEnergy"),
ph_sc_et = cms.string("superCluster.energy*sin(superCluster.position.theta)"),
ph_sc_eta = cms.string("-log(tan(superCluster.position.theta/2))"),
ph_sc_abseta = cms.string("abs(-log(tan(superCluster.position.theta/2)))"),
ph_sc_etaWidth = cms.string("superCluster.etaWidth"),
ph_sc_phiWidth = cms.string("superCluster.phiWidth"),
## preshower energy plane 1 and 2
ph_preshower_energy_plane1 = cms.string("superCluster.preshowerEnergyPlane1"),
ph_preshower_energy_plane2 = cms.string("superCluster.preshowerEnergyPlane2"),
#id based
ph_full5x5x_r9 = cms.string("full5x5_r9"),
ph_r9 = cms.string("r9"),
ph_sieie = cms.string("full5x5_sigmaIetaIeta"),
ph_s4 = cms.string("full5x5_showerShapeVariables.e2x2/full5x5_showerShapeVariables.e5x5"),
ph_sieip = cms.string("full5x5_showerShapeVariables.sigmaIetaIphi"),
ph_ESsigma = cms.string("full5x5_showerShapeVariables.effSigmaRR"),
ph_hoe = cms.string("hadronicOverEm"),
#pho mva
ph_mva80X = cms.InputTag("photonMVAValueMapProducer:PhotonMVAEstimatorRun2Spring16NonTrigV1Values"),
ph_mva94X = cms.InputTag("photonMVAValueMapProducer:PhotonMVAEstimatorRunIIFall17v1p1Values"),
ph_mva94XV2 = cms.InputTag("photonMVAValueMapProducer:PhotonMVAEstimatorRunIIFall17v2Values"),
# iso
ph_chIso = cms.string("chargedHadronIso"),
ph_neuIso = cms.string("neutralHadronIso"),
ph_phoIso = cms.string("photonIso"),
ph_chWorIso = cms.string("chargedHadronWorstVtxIso"),
)
if not isReleaseAbove(10, 6): # old way of accessing these in CMSSW_10_2
PhoProbeVariablesToStore.ph_sieip = cms.InputTag("photonIDValueMapProducer:phoFull5x5SigmaIEtaIPhi")
PhoProbeVariablesToStore.ph_ESsigma = cms.InputTag("photonIDValueMapProducer:phoESEffSigmaRR")
PhoProbeVariablesToStore.ph_chIso = cms.InputTag("photonIDValueMapProducer:phoChargedIsolation")
PhoProbeVariablesToStore.ph_neuIso = cms.InputTag("photonIDValueMapProducer:phoNeutralHadronIsolation")
PhoProbeVariablesToStore.ph_phoIso = cms.InputTag("photonIDValueMapProducer:phoPhotonIsolation")
PhoProbeVariablesToStore.ph_chWorIso = cms.InputTag("photonIDValueMapProducer:phoWorstChargedIsolation")
TagVariablesToStore = cms.PSet(
Ele_eta = cms.string("eta"),
Ele_phi = cms.string("phi"),
Ele_abseta = cms.string("abs(eta)"),
Ele_pt = cms.string("pt"),
Ele_et = cms.string("et"),
Ele_e = cms.string("energy"),
Ele_q = cms.string("charge"),
Ele_3charge = cms.string("chargeInfo().isGsfCtfScPixConsistent"),
## super cluster quantities
sc_e = cms.string("superCluster.energy"),
sc_et = cms.string("superCluster.energy*sin(superClusterPosition.theta)"),
sc_eta = cms.string("-log(tan(superClusterPosition.theta/2))"),
sc_abseta = cms.string("abs(-log(tan(superCluster.position.theta/2)))"),
# Ele_mHits = cms.InputTag("eleVarHelper:missinghits"),
Ele_dz = cms.InputTag("eleVarHelper:dz"),
Ele_dxy = cms.InputTag("eleVarHelper:dxy"),
el_sip = cms.InputTag("eleVarHelper:sip"),
Ele_nonTrigMVA80X = cms.InputTag("electronMVAValueMapProducer:ElectronMVAEstimatorRun2Spring16GeneralPurposeV1Values"),
Ele_hzzMVA80X = cms.InputTag("electronMVAValueMapProducer:ElectronMVAEstimatorRun2Spring16HZZV1Values"),
Ele_trigMVA = cms.InputTag("electronMVAValueMapProducer:ElectronMVAEstimatorRun2Fall17IsoV1Values"),
Ele_noIsoMVA94X = cms.InputTag("electronMVAValueMapProducer:ElectronMVAEstimatorRun2Fall17NoIsoV1Values"),
Ele_IsoMVA94X = cms.InputTag("electronMVAValueMapProducer:ElectronMVAEstimatorRun2Fall17IsoV1Values"),
Ele_noIsoMVA94XV2 = cms.InputTag("electronMVAValueMapProducer:ElectronMVAEstimatorRun2Fall17NoIsoV2Values"),
Ele_IsoMVA94XV2 = cms.InputTag("electronMVAValueMapProducer:ElectronMVAEstimatorRun2Fall17IsoV2Values"),
)
CommonStuffForGsfElectronProbe = cms.PSet(
addEventVariablesInfo = cms.bool(True),
variables = cms.PSet(EleProbeVariablesToStore),
pairVariables = cms.PSet(ZVariablesToStore),
tagVariables = cms.PSet(TagVariablesToStore),
addRunLumiInfo = cms.bool (True),
pileupInfoTag = cms.InputTag("slimmedAddPileupInfo"),
vertexCollection = cms.InputTag("offlineSlimmedPrimaryVertices"),
beamSpot = cms.InputTag("offlineBeamSpot"),
addCaloMet = cms.bool(False),
pfMet = cms.InputTag("slimmedMETsPuppi"),
rho = cms.InputTag("fixedGridRhoFastjetAll"),
# pfMet = cms.InputTag("slimmedMETsNoHF"),
pairFlags = cms.PSet(
# mass60to120 = cms.string("60 < mass < 120")
),
tagFlags = cms.PSet(),
)
CommonStuffForPhotonProbe = CommonStuffForGsfElectronProbe.clone()
CommonStuffForPhotonProbe.variables = cms.PSet(PhoProbeVariablesToStore)
CommonStuffForSuperClusterProbe = CommonStuffForGsfElectronProbe.clone()
CommonStuffForSuperClusterProbe.variables = cms.PSet(SCProbeVariablesToStore)
def getTnPVariablesForMCTruth(isMC=True):
if isMC:
return cms.PSet(
isMC = cms.bool(True),
tagMatches = cms.InputTag("genTagEle"),
motherPdgId = cms.vint32(),
#motherPdgId = cms.vint32(22,23),
#motherPdgId = cms.vint32(443), # JPsi
#motherPdgId = cms.vint32(553), # Yupsilon
makeMCUnbiasTree = cms.bool(False),
#checkMotherInUnbiasEff = cms.bool(False),
mcVariables = cms.PSet(
probe_eta = cms.string("eta"),
probe_phi = cms.string("phi"),
probe_et = cms.string("et"),
probe_e = cms.string("energy"),
),
mcFlags = cms.PSet(
probe_flag = cms.string("pt>0")
),
)
else:
return cms.PSet(isMC = cms.bool(False))
def setupTnPVariablesForAOD():
CommonStuffForSuperClusterProbe.pileupInfoTag = cms.InputTag("addPileupInfo")
CommonStuffForSuperClusterProbe.vertexCollection = cms.InputTag("offlinePrimaryVerticesWithBS")
CommonStuffForSuperClusterProbe.pfMet = cms.InputTag("pfMet")
CommonStuffForGsfElectronProbe.pileupInfoTag = cms.InputTag("addPileupInfo")
CommonStuffForGsfElectronProbe.vertexCollection = cms.InputTag("offlinePrimaryVerticesWithBS")
CommonStuffForGsfElectronProbe.pfMet = cms.InputTag("pfMet")
CommonStuffForPhotonProbe.pileupInfoTag = cms.InputTag("addPileupInfo")
CommonStuffForPhotonProbe.vertexCollection = cms.InputTag("offlinePrimaryVerticesWithBS")
CommonStuffForPhotonProbe.pfMet = cms.InputTag("pfMet")
del CommonStuffForGsfElectronProbe.variables.el_ecalIso
del CommonStuffForGsfElectronProbe.variables.el_hcalIso
del CommonStuffForGsfElectronProbe.variables.el_trkIso