def addFlashggPF(process):
print "JET PRODUCER :: Flashgg PF producer ::"
from RecoJets.JetProducers.ak4PFJets_cfi import ak4PFJets
from RecoJets.JetProducers.ak4GenJets_cfi import ak4GenJets
process.ak4PFJets = ak4PFJets.clone (src = 'packedPFCandidates', doAreaFastjet = True)
process.ak4GenJets = ak4GenJets.clone(src = 'packedGenParticles')
## cluster the jets
addJetCollection(
process,
labelName = 'AK4PF',
jetSource = cms.InputTag('ak4PFJets'),
pvSource = cms.InputTag('offlineSlimmedPrimaryVertices'),
pfCandidates = cms.InputTag('packedPFCandidates'),
svSource = cms.InputTag('slimmedSecondaryVertices'),
btagDiscriminators = [ flashggBTag ],
jetCorrections = ('AK4PFchs', ['L1FastJet', 'L2Relative', 'L3Absolute'], 'None'),
genJetCollection = cms.InputTag('ak4GenJets'),
genParticles = cms.InputTag('prunedGenParticles'),
# jet param
algo = 'AK', rParam = 0.4
)
## adjust MC matching
process.patJetGenJetMatchAK4PF.matched = "ak4GenJets"
process.patJetPartonMatchAK4PF.matched = "prunedGenParticles"
#process.patJetPartons.particles = "prunedGenParticles"
#adjust PV used for Jet Corrections
process.patJetCorrFactorsAK4PF.primaryVertices = "offlineSlimmedPrimaryVertices"
def convertPFToPATJet(proc, inputColl, outputColl, alg, r, corrAlgo, corrLevels):
addJetCollection(
proc,
labelName = outputColl,
jetSource = cms.InputTag(inputColl),
algo = alg,
rParam = r,
# jetCorrections = None,
trackSource = cms.InputTag('unpackedTracksAndVertices'),
pvSource = cms.InputTag('offlineSlimmedPrimaryVertices'),
jetCorrections = (corrAlgo, cms.vstring(corrLevels), 'None')
#btagDiscriminators = ['combinedSecondaryVertexBJetTags'],
)
for module in [getattr(proc,'patJets'+outputColl)]:
module.addJetCharge = False
module.addBTagInfo = False
module.getJetMCFlavour = False
module.addAssociatedTracks = False
module.addGenPartonMatch = False
module.addGenJetMatch = True
if 'Puppi' in inputColl: module.addJetCorrFactors = False
else: module.addJetCorrFactors = True
getattr(proc, 'patJetGenJetMatch'+inputColl).matched = cms.InputTag(alg.upper()+'GenJets');
def make_patjet_collection(process, sequence, pfjet_tag, gnjet_tag, tags_dict, algo, tag, matching=True): # "addJetCollection" makes two sets of PF and GN jets each: "patJets" + tag and "selectedPatJets" + tag. # print tags_dict addJetCollection(process, labelName=tag, jetSource=cms.InputTag(pfjet_tag), algo=algo.name, rParam=algo.r, jetCorrections=None, genJetCollection=cms.InputTag(gnjet_tag), pfCandidates=cms.InputTag(tags_dict["pf"]), genParticles=cms.InputTag(tags_dict["gn_reco"]), pvSource=cms.InputTag(tags_dict["vp"]), svSource=cms.InputTag(tags_dict["vs"]), elSource=cms.InputTag(tags_dict["le"]), muSource=cms.InputTag(tags_dict["lm"]), # btagDiscriminators=bTagDiscriminators, # btagInfos=bTagInfos, # getJetMCFlavour=GetJetMCFlavour, outputModules = ['outputFile'], getJetMCFlavour=matching, ) tag = "patJets" + tag getattr(process, tag).addTagInfos = cms.bool(True) return tag
def addFlashggPFCHSLegJets(process):
#process.load("Configuration.StandardSequences.Geometry_cff")
#process.myPrefer = cms.ESPrefer("CaloSubdetectorGeometry" [,"ZDC"
# [,ZdcGeometryFromDBEP = cms.vstring("<C++ data type>[/<data label>]"[,...])]
# )
# load various necessary plugins.
process.load("PhysicsTools.PatAlgos.producersLayer1.patCandidates_cff")
process.load('PhysicsTools.PatAlgos.slimming.unpackedTracksAndVertices_cfi')
# leptons to remove as per default CHS workflow
process.selectedMuons = cms.EDFilter("CandPtrSelector", src = cms.InputTag("slimmedMuons"), cut = cms.string('''abs(eta)<2.5 && pt>10. &&
(pfIsolationR04().sumChargedHadronPt+
max(0.,pfIsolationR04().sumNeutralHadronEt+
pfIsolationR04().sumPhotonEt-
0.50*pfIsolationR04().sumPUPt))/pt < 0.20 &&
(isPFMuon && (isGlobalMuon || isTrackerMuon) )'''))
process.selectedElectrons = cms.EDFilter("CandPtrSelector", src = cms.InputTag("slimmedElectrons"), cut = cms.string('''abs(eta)<2.5 && pt>20. &&
gsfTrack.isAvailable() &&
gsfTrack.hitPattern().numberOfLostHits(\'MISSING_INNER_HITS\') < 2 &&
(pfIsolationVariables().sumChargedHadronPt+
max(0.,pfIsolationVariables().sumNeutralHadronEt+
pfIsolationVariables().sumPhotonEt-
0.5*pfIsolationVariables().sumPUPt))/pt < 0.15'''))
# Simple producer which just removes the Candidates which don't come from the legacy vertex according to the Flashgg Vertex Map
process.flashggCHSLegacyVertexCandidates = cms.EDProducer('FlashggCHSLegacyVertexCandidateProducer',
PFCandidatesTag=cms.untracked.InputTag('packedPFCandidates'),
DiPhotonTag=cms.untracked.InputTag('flashggDiPhotons'),
VertexCandidateMapTag = cms.InputTag("flashggVertexMapForCHS"),
VertexTag=cms.untracked.InputTag('offlineSlimmedPrimaryVertices')
)
process.pfCHSLeg = cms.EDFilter("CandPtrSelector", src = cms.InputTag("flashggCHSLegacyVertexCandidates"), cut = cms.string(""))
# then remove the previously selected muons
process.pfNoMuonCHSLeg = cms.EDProducer("CandPtrProjector", src = cms.InputTag("pfCHSLeg"), veto = cms.InputTag("selectedMuons"))
# then remove the previously selected electrons
process.pfNoElectronsCHSLeg = cms.EDProducer("CandPtrProjector", src = cms.InputTag("pfNoMuonCHSLeg"), veto = cms.InputTag("selectedElectrons"))
#Import RECO jet producer for ak4 PF and GEN jet
from RecoJets.JetProducers.ak4PFJets_cfi import ak4PFJets
from RecoJets.JetProducers.ak4GenJets_cfi import ak4GenJets
process.ak4PFJetsCHSLeg = ak4PFJets.clone(src = 'pfNoElectronsCHSLeg', doAreaFastjet = True)
process.ak4GenJetsLeg = ak4GenJets.clone(src = 'packedGenParticles')
# cluster the jets
addJetCollection(
process,
postfix = "",
labelName = 'AK4PFCHSLeg',
pfCandidates = cms.InputTag('packedPFCandidates'),
jetSource = cms.InputTag('ak4PFJetsCHSLeg'),
#trackSource = cms.InputTag('unpackedTracksAndVertices'),
pvSource = cms.InputTag('unpackedTracksAndVertices'),
jetCorrections = ('AK4PFchs', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'None'),
#btagDiscriminators = [ 'combinedSecondaryVertexBJetTags' ]
btagDiscriminators = [ 'pfJetProbabilityBJetTags' ]
,algo= 'AK', rParam = 0.4
)
# adjust MC matching
process.patJetGenJetMatchAK4PFCHSLeg.matched = "ak4GenJetsLeg"
process.patJetPartonMatchAK4PFCHSLeg.matched = "prunedGenParticles"
process.patJetPartons.particles = "prunedGenParticles"
# adjust PV collection used for Jet Corrections
process.patJetCorrFactorsAK4PFCHSLeg.primaryVertices = "offlineSlimmedPrimaryVertices"
def addAK4Jets(process, addPAT=False):
process.ak4PFJets = ak4PF.clone(src='packedPFCandidates')
process.ak4PFJets.doAreaFastjet = cms.bool(True)
if addPAT:
addJetCollection(
process,
postfix = "",
labelName = 'AK4PF',
jetSource = cms.InputTag('ak4PFJets'),
# trackSource = cms.InputTag('unpackedTracksAndVertices'),
pvSource = cms.InputTag('unpackedTracksAndVertices'),
jetCorrections = ('AK4PF', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'Type-2'),
btagDiscriminators = ['combinedSecondaryVertexBJetTags'],
algo = 'AK',
rParam = 0.4
)
process.patJetGenJetMatchAK4PF.matched = "slimmedGenJets"
process.patJetPartonMatchAK4PF.matched = "prunedGenParticles"
process.patJetPartons.particles = "prunedGenParticles"
process.patJetPartonsLegacy.src = "prunedGenParticles"
process.patJetCorrFactorsAK4PF.primaryVertices = "offlineSlimmedPrimaryVertices"
process.impactParameterTagInfosAK4PF.primaryVertex = cms.InputTag("unpackedTracksAndVertices")
# process.inclusiveSecondaryVertexFinderTagInfosAK4PF.extSVCollection = cms.InputTag("unpackedTracksAndVertices","secondary","")
# process.combinedSecondaryVertexBJetTagsAK4PF.trackMultiplicityMin = 1
process.jetTracksAssociatorAtVertexAK4PF.tracks = cms.InputTag("unpackedTracksAndVertices")
process.pileupJetIdMET = pileupJetIdMET.clone()
process.pileupJetIdFull = pileupJetIdFull.clone()
process.patJetsAK4PF.userData.userFloats.src = [ cms.InputTag("pileupJetIdMET:met53xDiscriminant"), cms.InputTag("pileupJetIdFull:full53xDiscriminant")]
process.jetSequenceAK4 = cms.Sequence(
process.ak4PFJets +
process.unpackedTracksAndVertices +
process.jetTracksAssociatorAtVertexAK4PF +
process.patJetCorrFactorsAK4PF +
process.pileupJetIdMET +
process.pileupJetIdFull +
process.patJetChargeAK4PF +
process.patJetPartons +
process.patJetPartonMatchAK4PF +
process.patJetGenJetMatchAK4PF +
process.patJetFlavourAssociationAK4PF +
process.patJetPartonsLegacy +
process.patJetPartonAssociationLegacyAK4PF +
process.patJetFlavourAssociationLegacyAK4PF +
# process.inclusiveSecondaryVertexFinderTagInfosAK4PF +
process.impactParameterTagInfosAK4PF +
process.secondaryVertexTagInfosAK4PF +
process.combinedSecondaryVertexBJetTagsAK4PF +
process.patJetsAK4PF
)
else:
process.jetSequenceAK4 = cms.Sequence(
process.ak4PFJets
)
return process.jetSequenceAK4
def addFlashggPF(process, doQGTagging = True, label ='', debug = False):
from RecoJets.JetProducers.ak4PFJets_cfi import ak4PFJets
# process.ak4PFJets = ak4PFJets.clone (src = 'packedPFCandidates', doAreaFastjet = True)
setattr(process, 'ak4PFJets' + label, ak4PFJets.clone (src = 'packedPFCandidates', doAreaFastjet = True))
# cluster the jets
addJetCollection(
process,
postfix = label,
labelName = 'AK4PF' ,
jetSource = cms.InputTag('ak4PFJets'+label),
pvSource = cms.InputTag('offlineSlimmedPrimaryVertices'),
pfCandidates = cms.InputTag('packedPFCandidates'),
svSource = cms.InputTag('slimmedSecondaryVertices'),
elSource = cms.InputTag("slimmedElectrons"),
muSource = cms.InputTag("slimmedMuons"),
runIVF = True,
btagDiscriminators = [ flashggBTag, flashggCMVABTag , flashggDeepCSVb, flashggDeepCSVbb, flashggDeepCSVc, flashggDeepCSVudsg, ],
jetCorrections = ('AK4PFchs', ['L1FastJet', 'L2Relative', 'L3Absolute'], 'None'),
genJetCollection = cms.InputTag('slimmedGenJets'),
genParticles = cms.InputTag('prunedGenParticles'),
algo = 'AK', rParam = 0.4
)
# adjust PV used for Jet Corrections
# getattr(process, 'patJetCorrFactors'+_labelName+label)
getattr(process, 'patJetCorrFactorsAK4PF' + label).primaryVertices = "offlineSlimmedPrimaryVertices"
#process.patJetCorrFactorsAK4PF.primaryVertices = "offlineSlimmedPrimaryVertices"
print ' --> patJetCorrFactorsAK4PF == ', getattr(process, 'patJetCorrFactorsAK4PF' + label)
print ' --> patJetsAK4PF == ', getattr(process, 'patJetsAK4PF' + label)
flashggJetsPF = cms.EDProducer('FlashggJetProducer',
DiPhotonTag=cms.InputTag('flashggDiPhotons'),
VertexTag=cms.InputTag('offlineSlimmedPrimaryVertices'),
JetTag=cms.InputTag('patJetsAK4PF' + label ),
VertexCandidateMapTag = cms.InputTag("flashggVertexMapForCHS"),
# PileupJetIdParameters=cms.PSet(pu_jetid),
)
setattr(process, 'flashggJetsPF' + label, flashggJetsPF)
if doQGTagging:
from RecoJets.JetProducers.QGTagger_cfi import QGTagger
setattr(process, 'QGTaggerPF' + label, QGTagger.clone( srcJets = 'flashggJetsPF' + label ,jetsLabel = 'QGL_AK4PF'))
return getattr(process, 'flashggJetsPF' + label)
def addSUSYJetCollection(process,jetMetCorrections,jets = 'IC5Calo',mcVersion='',doJTA=True,doType1MET=True,doJetID=True,jetIdLabel=None):
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
algorithm = jets[0:3]
type = jets[3:len(jets)]
jetCorrLabel = (jets,cms.vstring(jetMetCorrections))
if 'IC' in algorithm: collection = algorithm.replace('IC','iterativeCone')
elif 'SC' in algorithm: collection = algorithm.replace('SC','sisCone')
elif 'AK' in algorithm: collection = algorithm.replace('AK','ak')
elif 'KT' in algorithm: collection = algorithm.replace('KT','kt')
else: raise ValueError, "Unknown jet algorithm: %s" % (jets)
jetIdLabel = algorithm.lower()
if type == 'Calo':
jetCollection = '%(collection)sCaloJets' % locals()
if not 'AK7' in algorithm:
doType1MET = True
elif type == 'PF':
jetCollection = '%(collection)sPFJets' % locals()
doJetID = False
elif type == 'JPT':
if 'IC' in algorithm: collectionJPT = algorithm.replace('IC','Icone')
elif 'SC' in algorithm: collectionJPT = algorithm.replace('SC','Siscone')
elif 'AK' in algorithm: collectionJPT = algorithm.replace('AK','AntiKt')
else: raise ValueError, "Unknown jet algorithm: %s" % (jets)
jetCollection = 'JetPlusTrackZSPCorJet%(collectionJPT)s' % locals()
elif type == 'Track':
jetCollection = '%(collection)sTrackJets' % locals()
jetCorrLabel = None
doJetID = False
else: raise ValueError, "Unknown jet type: %s" % (jets)
addJetCollection(process, cms.InputTag(jetCollection),
algorithm, type,
doJTA = doJTA,
doBTagging = True,
jetCorrLabel = jetCorrLabel,
doType1MET = doType1MET,
doL1Cleaning = True,
doL1Counters = True,
doJetID = doJetID,
jetIdLabel = jetIdLabel,
genJetCollection = cms.InputTag('%(collection)sGenJets' % locals())
)
def Pat(self) :
from PhysicsTools.PatAlgos.tools.coreTools import removeMCMatching,removeCleaning,restrictInputToAOD,removeAllPATObjectsBut
from PhysicsTools.PatAlgos.tools.jetTools import switchJetCollection
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
if self.options.isData: removeMCMatching(self.process, ['All'])
restrictInputToAOD(self.process)
removeCleaning(self.process)
removeAllPATObjectsBut(self.process, ['Jets','METs','Muons'])
addJetCollection(self.process,
cms.InputTag('ak5CaloJets'),
'AK5',
'Calo',
jetCorrLabel = ('AK5Calo',self.options.jetCorrections),
genJetCollection = cms.InputTag('ak5GenJets'),
doType1MET = False,
)
switchJetCollection(self.process,
cms.InputTag('ak5PFJets'),
doJTA = True,
doBTagging = True,
doJetID = True,
jetCorrLabel = ('AK5PF',self.options.jetCorrections),
genJetCollection = cms.InputTag('ak5GenJets'),
doType1MET = False,
jetIdLabel = 'ak5pf'
)
self.process.selectedPatJets.cut = cms.string("pt > 30 && \
abs(eta) < 3.0 && \
neutralHadronEnergyFraction < 0.9 && \
neutralEmEnergyFraction < 0.90 && \
nConstituents > 1 && \
(? abs(eta)<2.4 ? chargedHadronEnergyFraction : 1) > 0 && \
(? abs(eta)<2.4 ? chargedHadronMultiplicity : 1) > 0 && \
(? abs(eta)<2.4 ? chargedEmEnergyFraction : 0) < 0.99")
del self.process.out
del self.process.outpath
return self.process.patDefaultSequence
def addC8Jets(p, runOnMC):
p2 = p.replace('AK5', 'CA8')
###############################
###### Bare CA 0.8 jets #######
###############################
setattr(process, "ca8PFJets" + p2, ca4PFJets.clone(
rParam = cms.double(0.8),
src = cms.InputTag('pfNoElectron' + p),
doAreaFastjet = cms.bool(True),
doRhoFastjet = cms.bool(True),
Rho_EtaMax = cms.double(6.0),
Ghost_EtaMax = cms.double(7.0),
srcPVs = cms.InputTag("goodOfflinePrimaryVertices")
))
# Add ca8PFJets to the main process path
getattr(process, "patPF2PATSequence" + p).replace(
getattr(process, "pfNoElectron" + p), getattr(process, "pfNoElectron" + p) * getattr(process, "ca8PFJets" + p2)
)
addJetCollection(process,
cms.InputTag('ca8PFJets' + p2),
'CA8', 'PFchs' if 'chs' in p else 'PF',
doJTA = True,
doBTagging = True,
jetCorrLabel = ('AK7PFchs', ['L1FastJet', 'L2Relative', 'L3Absolute']),
doType1MET = True,
doL1Cleaning = False,
doL1Counters = False,
genJetCollection = cms.InputTag("ca8GenJetsNoNu"),
doJetID = True,
)
if not runOnMC:
# Remove MC Matching
removeMCMatching(process, names = ["All"])
def nanoAOD_recalibrateMETs(process, isData):
# add DeepMETs
nanoAOD_DeepMET_switch = cms.PSet(ResponseTune_Graph=cms.untracked.string(
'RecoMET/METPUSubtraction/data/deepmet/deepmet_resp_v1_2018.pb'))
for modifier in run2_miniAOD_80XLegacy, run2_nanoAOD_94X2016:
modifier.toModify(
nanoAOD_DeepMET_switch,
ResponseTune_Graph=cms.untracked.string(
"RecoMET/METPUSubtraction/data/deepmet/deepmet_resp_v1_2016.pb"
))
print("add DeepMET Producers")
process.load('RecoMET.METPUSubtraction.deepMETProducer_cfi')
process.deepMETsResolutionTune = process.deepMETProducer.clone()
process.deepMETsResponseTune = process.deepMETProducer.clone()
process.deepMETsResponseTune.graph_path = nanoAOD_DeepMET_switch.ResponseTune_Graph.value(
)
runMetCorAndUncFromMiniAOD(process, isData=isData)
process.nanoSequenceCommon.insert(2,
cms.Sequence(process.fullPatMetSequence))
from PhysicsTools.PatAlgos.slimming.puppiForMET_cff import makePuppiesFromMiniAOD
makePuppiesFromMiniAOD(process, True)
process.puppiNoLep.useExistingWeights = True
process.puppi.useExistingWeights = True
run2_nanoAOD_106Xv1.toModify(process.puppiNoLep, useExistingWeights=False)
run2_nanoAOD_106Xv1.toModify(process.puppi, useExistingWeights=False)
print("will make Puppies on top of MINIAOD")
# makePuppiesFromMiniAOD(process,True) # call this before in the global customizer otherwise it would reset photon IDs in VID
nanoAOD_PuppiV15_switch = cms.PSet(
recoMetFromPFCs=cms.untracked.bool(False),
reclusterJets=cms.untracked.bool(False),
)
run2_nanoAOD_106Xv1.toModify(nanoAOD_PuppiV15_switch,
recoMetFromPFCs=True,
reclusterJets=True)
if nanoAOD_PuppiV15_switch.reclusterJets:
from RecoJets.JetProducers.ak4PFJets_cfi import ak4PFJets
from PhysicsTools.PatAlgos.tools.helpers import getPatAlgosToolsTask, addToProcessAndTask
task = getPatAlgosToolsTask(process)
addToProcessAndTask(
'ak4PuppiJets',
ak4PFJets.clone(src='puppi', doAreaFastjet=True, jetPtMin=10.),
process, task)
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
addJetCollection(
process,
labelName='Puppi',
jetSource=cms.InputTag('ak4PuppiJets'),
algo='AK',
rParam=0.4,
genJetCollection=cms.InputTag('slimmedGenJets'),
jetCorrections=('AK4PFPuppi', [
'L1FastJet', 'L2Relative', 'L3Absolute', 'L2L3Residual'
], 'None'),
pfCandidates=cms.InputTag('packedPFCandidates'),
pvSource=cms.InputTag('offlineSlimmedPrimaryVertices'),
svSource=cms.InputTag('slimmedSecondaryVertices'),
muSource=cms.InputTag('slimmedMuons'),
elSource=cms.InputTag('slimmedElectrons'),
genParticles=cms.InputTag('prunedGenParticles'),
getJetMCFlavour=False)
process.patJetsPuppi.addGenPartonMatch = cms.bool(False)
process.patJetsPuppi.addGenJetMatch = cms.bool(False)
print("nanoAOD_PuppiV15_switch.reclusterJets is true")
runMetCorAndUncFromMiniAOD(
process,
isData=isData,
metType="Puppi",
postfix="Puppi",
jetFlavor="AK4PFPuppi",
recoMetFromPFCs=bool(nanoAOD_PuppiV15_switch.recoMetFromPFCs),
reclusterJets=bool(nanoAOD_PuppiV15_switch.reclusterJets))
process.nanoSequenceCommon.insert(
2,
cms.Sequence(process.puppiMETSequence +
process.fullPatMetSequencePuppi))
return process
def reSetJet(process):
## Filter out neutrinos from packed GenParticles
process.packedGenParticlesForJetsNoNu = cms.EDFilter(
"CandPtrSelector",
src=cms.InputTag("packedGenParticles"),
cut=cms.string(
"abs(pdgId) != 12 && abs(pdgId) != 14 && abs(pdgId) != 16"))
## Define GenJets
from RecoJets.JetProducers.ak5GenJets_cfi import ak5GenJets
process.ak5GenJetsNoNu = ak5GenJets.clone(
src='packedGenParticlesForJetsNoNu')
## Select charged hadron subtracted packed PF candidates
process.pfCHS = cms.EDFilter("CandPtrSelector",
src=cms.InputTag("packedPFCandidates"),
cut=cms.string("fromPV"))
from RecoJets.JetProducers.ak5PFJets_cfi import ak5PFJets
## Define PFJetsCHS
process.ak5PFJetsCHS = ak5PFJets.clone(src='pfCHS', doAreaFastjet=True)
#################################################
## Remake PAT jets
#################################################
## b-tag discriminators
bTagDiscriminators = ['pfCombinedInclusiveSecondaryVertexV2BJetTags']
#################################################################
slimmedAddPileupInfo = cms.EDProducer(
'PileupSummaryInfoSlimmer',
#src = cms.InputTag('addPileupInfo'),
keepDetailedInfoFor=cms.vint32(0))
#######################################################
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
## Add PAT jet collection based on the above-defined ak5PFJetsCHS
addJetCollection(
process,
labelName='AK5PFCHS',
jetSource=cms.InputTag('ak5PFJetsCHS'),
pvSource=cms.InputTag('offlineSlimmedPrimaryVertices'),
bsSource=cms.InputTag('offlineBeamSpot'),
pfCandidates=cms.InputTag('packedPFCandidates'),
svSource=cms.InputTag('slimmedSecondaryVertices'),
btagDiscriminators=bTagDiscriminators,
#jetCorrections = ('AK5PFchs', ['L1FastJet', 'L2Relative', 'L3Absolute'], 'None'), #commented before adding jet corrections
genJetCollection=cms.InputTag('ak5GenJetsNoNu'),
genParticles=cms.InputTag('prunedGenParticles'),
algo='AK',
rParam=0.5)
getattr(process, 'selectedPatJetsAK5PFCHS').cut = cms.string('pt > 20.')
process.rejet = cms.Path(
process.packedGenParticlesForJetsNoNu * process.ak5GenJetsNoNu *
process.pfCHS * process.ak5PFJetsCHS *
process.patJetCorrFactorsAK5PFCHS * process.patJetPartons *
process.patJetFlavourAssociationAK5PFCHS *
process.patJetPartonMatchAK5PFCHS * process.patJetGenJetMatchAK5PFCHS *
process.pfImpactParameterTagInfosAK5PFCHS *
process.pfInclusiveSecondaryVertexFinderTagInfosAK5PFCHS *
process.pfCombinedInclusiveSecondaryVertexV2BJetTagsAK5PFCHS *
process.patJetsAK5PFCHS * process.selectedPatJetsAK5PFCHS)
from PhysicsTools.PatAlgos.tools.pfTools import adaptPVs
## Adapt primary vertex collection and BeamSpot
adaptPVs(process,
pvCollection=cms.InputTag('offlineSlimmedPrimaryVertices'))
adaptBSs(process, bsCollection=cms.InputTag('offlineBeamSpot'))
from PhysicsTools.PatAlgos.tools.jetTools import updateJetCollection
updateJetCollection(
process,
jetSource=cms.InputTag('slimmedJets'),
labelName='UpdatedJEC',
jetCorrections=('AK5PFchs',
cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']),
'None') # Do not forget 'L2L3Residual' on data
)
process.load('Configuration.StandardSequences.Services_cff'
) #Added info from now onwards
process.load("JetMETCorrections.Modules.JetResolutionESProducer_cfi")
from CondCore.DBCommon.CondDBSetup_cfi import *
import os
process.jer = cms.ESSource(
"PoolDBESSource",
CondDBSetup,
toGet=cms.VPSet(
# Resolution
cms.PSet(
record=cms.string('JetResolutionRcd'),
tag=cms.string('JR_Fall15_25nsV2_MC_PtResolution_AK5PFchs'),
label=cms.untracked.string('AK5PFchs_pt')),
# Scale factors
cms.PSet(record=cms.string('JetResolutionScaleFactorRcd'),
tag=cms.string('JR_Fall15_25nsV2_MC_SF_AK4PFchs'),
label=cms.untracked.string('AK5PFchs')),
),
connect=cms.string('sqlite:Fall15_25nsV2_MC.db'))
process.es_prefer_jer = cms.ESPrefer('PoolDBESSource', 'jer')
def JetSubstructure(process,
isMC,
coneSize=0.8,
algo="AK",
pileupMethod="chs",
selection="pt > 175 && abs(eta) < 2.5",
addPruning=True,
addPrunedSubjets=True,
addSoftDrop=True,
addSoftDropSubjets=True,
addTrimming=False,
addTrimmedSubjets=False,
addFiltering=False,
addFilteredSubjets=False,
addNsubjettiness=True,
addEnergyCorrelation=True,
addQJets=False,
addQGLikelihood=True):
print "############################"
print "add substructure information"
print "isMC = ", isMC
print "coneSize = ", coneSize
print "algo = ", algo
print "pileupMethod = ", pileupMethod
print "selection = ", selection
print "addPruning = ", addPruning
print "addPrunedSubjets = ", addPrunedSubjets
print "addSoftDrop = ", addSoftDrop
print "addSoftDropSubjets = ", addSoftDropSubjets
print "addTrimming = ", addTrimming
print "addTrimmedSubjets = ", addTrimmedSubjets
print "addFiltering = ", addFiltering
print "addFilteredSubjets = ", addFilteredSubjets
print "addNsubjettiness = ", addNsubjettiness
print "addEnergyCorrelation = ", addEnergyCorrelation
print "addQJets = ", addQJets
print "addQGLikelihood = ", addQGLikelihood
print "############################"
## build jet algo name for jet clustering
coneSizeStr = str(coneSize).replace("0", "").replace(".", "")
jetAlgo = algo + coneSizeStr
if algo == "AK":
ALGO = "AntiKt"
elif algo == "CA":
ALGO = "CambridgeAachen"
if isMC:
## run gen jet clustering from genParticles
if not hasattr(process, "genParticlesForJetsNoNu"):
setattr(
process, 'genParticlesForJetsNoNu',
cms.EDFilter(
"CandPtrSelector",
src=cms.InputTag("packedGenParticles"),
cut=cms.string(
"abs(pdgId) != 12 && abs(pdgId) != 14 && abs(pdgId) != 16 && abs(pdgId) != 1000022 && abs(pdgId) != 1000012 &&"
+
"abs(pdgId) != 1000014 && abs(pdgId) != 1000016 && abs(pdgId) != 2000012 && abs(pdgId) != 2000014 &&"
+
"abs(pdgId) != 2000016 && abs(pdgId) != 1000039 && abs(pdgId) != 5100039 && abs(pdgId) != 4000012 &&"
+
"abs(pdgId) != 4000014 && abs(pdgId) != 4000016 && abs(pdgId) != 9900012 && abs(pdgId) != 9900014 &&"
+
"abs(pdgId) != 9900016 && abs(pdgId) != 39 && abs(pdgId) != 9100012"
))) ## skip all the possible invisible particles
if not hasattr(process, "genJets" + jetAlgo):
setattr(
process, "genJets" + jetAlgo,
ak4GenJets.clone(src='genParticlesForJetsNoNu',
rParam=coneSize,
jetAlgorithm=ALGO,
jetPtMin=cms.double(50.))
) ## fix a lower reasonable threshold give the jet response
## filter only hadronically decaying W/Z and Higgs at generator level
if not hasattr(process, "genBosons"):
setattr(
process, "genBosons",
cms.EDFilter(
"CandPtrSelector",
src=cms.InputTag("prunedGenParticles"),
cut=cms.string(
"(abs(pdgId) == 23 || abs(pdgId) == 24 || abs(pdgId) == 25) &&"
+
"numberOfDaughters > 1 && abs(daughter(0).pdgId) <= 5 && abs(daughter(1).pdgId) <= 5"
)))
## b-tag discriminators to be considered
bTagDiscriminators = [
#'pfCombinedInclusiveSecondaryVertexV2BJetTags', ## don't run b-tagging on the whole large cone jet
'pfBoostedDoubleSecondaryVertexAK8BJetTags' ## new tag for Boosted double b-tagging
]
## jet energy corrections already loaded in JECLevels
if pileupMethod != "chs" and pileupMethod != "Puppi" and pileupMethod != "":
sys.exit(
"Invalid pileupMethod setup --> only recognized options are 'chs' and 'Puppi'"
)
## JEC
JECLevel = copy.deepcopy(process.JECLevels.labels)
payloadName = ""
payloadNameSubJet = ""
jetCollection = ""
pfCand = ""
## in case of CHS select particles and re-cluster jets
if pileupMethod == "chs":
## obtain chs candidates
if not hasattr(process, "chs"):
setattr(
process, 'chs',
cms.EDFilter('CandPtrSelector',
src=cms.InputTag("packedPFCandidates"),
cut=cms.string('fromPV')))
## cluster basic jets given rParameter and algorithm
if not hasattr(process, jetAlgo + 'PFJets' + pileupMethod.upper()):
setattr(
process, jetAlgo + 'PFJets' + pileupMethod.upper(),
ak4PFJetsCHS.clone(src=cms.InputTag('chs'),
doAreaFastjet=True,
rParam=coneSize,
jetAlgorithm=ALGO))
payloadName = jetAlgo + 'PF' + pileupMethod
payloadNameSubjet = 'AK4PF' + pileupMethod
jetCollection = jetAlgo + 'PFJets' + pileupMethod.upper()
pfCand = "chs"
## for puppi jets
elif pileupMethod == "Puppi":
### re-run optimal puppi weights
if not hasattr(process, "puppi"):
from PhysicsTools.PatAlgos.slimming.puppiForMET_cff import makePuppiesFromMiniAOD
makePuppiesFromMiniAOD(process, False)
process.puppi.useExistingWeights = cms.bool(False)
process.puppiNoLep.useExistingWeights = cms.bool(False)
## cluster puppi jets given rParameter and algorithm
if not hasattr(process, jetAlgo + 'PFJets' + pileupMethod):
setattr(
process, jetAlgo + 'PFJets' + pileupMethod,
ak4PFJetsPuppi.clone(src=cms.InputTag('puppi'),
doAreaFastjet=True,
rParam=coneSize,
jetAlgorithm=ALGO))
payloadName = jetAlgo + 'PF' + pileupMethod
payloadNameSubjet = 'AK4PF' + pileupMethod
jetCollection = jetAlgo + 'PFJets' + pileupMethod
pfCand = "puppi"
## standard PF jets
elif pileupMethod == "":
## no pileup mitigation
if not hasattr(process, jetAlgo + 'PFJets'):
setattr(
process, jetAlgo + 'PFJets',
ak4PFJetsPuppi.clone(src=cms.InputTag('packedPFCandidates'),
doAreaFastjet=True,
rParam=coneSize,
jetAlgorithm=ALGO))
payloadName = jetAlgo + 'PF'
payloadNameSubjet = 'AK4PF'
jetCollection = jetAlgo + 'PFJets'
pfCand = "packedPFCandidates"
## apply selection and produce a restricted set of consituents only for jets passig the selection
if not hasattr(process, jetCollection + "Reduced"):
setattr(
process, jetCollection + "Reduced",
cms.EDFilter("MiniAODJetConstituentSelector",
src=cms.InputTag(jetCollection),
cut=cms.string("pt > 100 && abs(eta) < 2.5")))
## build pat-jets from this skimmed collection: example
if not hasattr(process, "patJets" + jetCollection):
addJetCollection(
process,
labelName=jetCollection,
jetSource=cms.InputTag(jetCollection + "Reduced"),
algo=algo,
rParam=coneSize,
pfCandidates=cms.InputTag(pfCand),
jetCorrections=(payloadName, JECLevel, 'None'),
svSource=cms.InputTag('slimmedSecondaryVertices'),
genJetCollection=cms.InputTag("genJets" + jetAlgo),
pvSource=cms.InputTag('offlineSlimmedPrimaryVertices'),
btagDiscriminators=bTagDiscriminators,
getJetMCFlavour=isMC,
genParticles=cms.InputTag("prunedGenParticles"),
)
### special jec set for pruned/sof-drop mass correction --> to be taken from the EDAnalyzer
if hasattr(process, "patJetCorrFactors" + jetCollection):
if isMC:
setattr(
process, "patJetCorrFactors" + jetCollection + "v2",
getattr(
process, "patJetCorrFactors" + jetCollection).clone(
levels=cms.vstring('L2Relative', 'L3Absolute')))
else:
setattr(
process, "patJetCorrFactors" + jetCollection + "v2",
getattr(process, "patJetCorrFactors" +
jetCollection).clone(levels=cms.vstring(
'L2Relative', 'L3Absolute', 'L2L3Residual')))
getattr(process, "patJets" +
jetCollection).jetCorrFactorsSource = cms.VInputTag(
cms.InputTag("patJetCorrFactors" + jetCollection),
cms.InputTag("patJetCorrFactors" + jetCollection +
"v2"))
if hasattr(process, "selectedPatJets" + jetCollection):
getattr(process, "selectedPatJets" +
jetCollection).cut = cms.string(selection)
## match reco-jets with hadronically decaying genBosons (W,Z,H)
if isMC:
if not hasattr(process, jetCollection + 'GenBosonMatched'):
setattr(
process,
jetCollection + 'GenBosonMatched',
cms.EDProducer(
"RecoJetCandDeltaRValueMapProducer",
## basic reco::jet ungroomed
src=cms.InputTag(jetCollection + "Reduced"),
## mathched groomed pat jet
matched=cms.InputTag('genBosons'),
distMax=cms.double(coneSize),
values=cms.vstring("pt", "eta", "phi", "mass"),
valueLabels=cms.vstring("pt", "eta", "phi", "mass")))
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + 'GenBosonMatched:pt'
]
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + 'GenBosonMatched:eta'
]
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + 'GenBosonMatched:phi'
]
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + 'GenBosonMatched:mass'
]
## add QGLikelihood on fat jet
if addQGLikelihood:
if not hasattr(process, jetCollection + "QGL"):
setattr(
process, jetCollection + "QGL",
QGTagger.clone(srcJets=cms.InputTag(jetCollection + "Reduced"),
jetsLabel=cms.string('QGL_AK4PFchs'),
srcVertexCollection=cms.InputTag(
'offlineSlimmedPrimaryVertices')))
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + 'QGL:qgLikelihood'
]
## addNsubjettiness
if addNsubjettiness:
if not hasattr(process, 'Njettiness' + jetCollection):
setattr(
process, 'Njettiness' + jetCollection,
Njettiness.clone(src=cms.InputTag(jetCollection + "Reduced"),
cone=cms.double(coneSize)))
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
'Njettiness' + jetCollection + ':tau1',
'Njettiness' + jetCollection + ':tau2',
'Njettiness' + jetCollection + ':tau3',
'Njettiness' + jetCollection + ':tau4'
]
## on gen jets
if isMC:
if not hasattr(process, "NjettinessGenJets" + jetAlgo):
setattr(
process, "NjettinessGenJets" + jetAlgo,
Njettiness.clone(src=cms.InputTag("genJets" + jetAlgo),
cone=cms.double(coneSize)))
## pattify gen jets --> temp
if not hasattr(process, 'patGenJets' + jetAlgo):
setattr(
process, 'patGenJets' + jetAlgo,
patJets.clone(
jetSource=cms.InputTag("genJets" + jetAlgo),
addJetCorrFactors=cms.bool(False),
addBTagInfo=cms.bool(False),
addDiscriminators=cms.bool(False),
discriminatorSources=cms.VInputTag('None'),
addAssociatedTracks=cms.bool(False),
addJetCharge=cms.bool(False),
addGenPartonMatch=cms.bool(False),
embedGenPartonMatch=cms.bool(False),
addGenJetMatch=cms.bool(False),
embedGenJetMatch=cms.bool(False),
getJetMCFlavour=cms.bool(False),
addJetFlavourInfo=cms.bool(False)))
getattr(process, 'patGenJets' +
jetAlgo).userData.userFloats.src += [
"NjettinessGenJets" + jetAlgo + ':tau1'
]
getattr(process, 'patGenJets' +
jetAlgo).userData.userFloats.src += [
"NjettinessGenJets" + jetAlgo + ':tau2'
]
getattr(process, 'patGenJets' +
jetAlgo).userData.userFloats.src += [
"NjettinessGenJets" + jetAlgo + ':tau3'
]
getattr(process, 'patGenJets' +
jetAlgo).userData.userFloats.src += [
"NjettinessGenJets" + jetAlgo + ':tau4'
]
if not hasattr(process, jetCollection + 'GenNjettinessMatched'):
setattr(
process,
jetCollection + 'GenNjettinessMatched',
cms.EDProducer(
"RecoPATJetDeltaRValueMapProducer",
## basic reco::jet ungroomed
src=cms.InputTag(jetCollection + "Reduced"),
## mathched groomed pat jet
matched=cms.InputTag('patGenJets' + jetAlgo),
distMax=cms.double(coneSize),
values=cms.vstring(
"userFloat('NjettinessGenJets" + jetAlgo +
":tau1')", "userFloat('NjettinessGenJets" +
jetAlgo + ":tau2')",
"userFloat('NjettinessGenJets" + jetAlgo +
":tau3')", "userFloat('NjettinessGenJets" +
jetAlgo + ":tau4')"),
valueLabels=cms.vstring("tau1", "tau2", "tau3",
"tau4")))
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + 'GenNjettinessMatched:tau1',
jetCollection + 'GenNjettinessMatched:tau2',
jetCollection + 'GenNjettinessMatched:tau3',
jetCollection + 'GenNjettinessMatched:tau4'
]
## add ECF
if addEnergyCorrelation:
if not hasattr(process, 'ecf' + jetCollection):
setattr(
process, 'ecf' + jetCollection,
ECF.clone(src=cms.InputTag(jetCollection + "Reduced"),
Njets=cms.vuint32(1, 2, 3)))
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
'ecf' + jetCollection + ':ecf1'
]
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
'ecf' + jetCollection + ':ecf2'
]
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
'ecf' + jetCollection + ':ecf3'
]
## add QJets
if addQJets:
if not hasattr(process, "qjets" + jetCollection):
setattr(
process, "qjets" + jetCollection,
QJetsAdder.clone(src=cms.InputTag(jetCollection + "Reduced"),
jeRad=cms.double(coneSize),
jetAlgo=cms.string(algo)))
setattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
"qjets" + jetCollection + ":QjetsVolatility"
]
### start with substructure: Pruning (run it on both reco and gen jets):
Tags = []
Labels = []
JECLevelTemp = copy.deepcopy(JECLevel)
if 'L1FastJet' in JECLevelTemp:
JECLevelTemp.remove(
'L1FastJet') ## in any case groomers are removing already pileup
if addPruning:
runGroomedMethod(process,
isMC=isMC,
jetCollection=jetCollection,
coneSize=coneSize,
algo=algo,
payloadName=payloadName,
payloadNameSubjet=payloadNameSubjet,
JECLevel=JECLevelTemp,
pfCand=pfCand,
btagDiscriminators=bTagDiscriminators,
addSubJets=addPrunedSubjets,
addQGLikelihood=addQGLikelihood,
isPruning=True,
isSoftDrop=False,
isTrimming=False,
isFiltering=False)
if addPrunedSubjets:
Tags += ['patJets' + jetCollection + 'PrunedPacked']
Labels += ['Pruned']
if addSoftDrop:
runGroomedMethod(process,
isMC=isMC,
jetCollection=jetCollection,
coneSize=coneSize,
algo=algo,
payloadName=payloadName,
payloadNameSubjet=payloadNameSubjet,
JECLevel=JECLevelTemp,
pfCand=pfCand,
btagDiscriminators=bTagDiscriminators,
addSubJets=addSoftDropSubjets,
addQGLikelihood=addQGLikelihood,
isPruning=False,
isSoftDrop=True,
isTrimming=False,
isFiltering=False)
if addSoftDropSubjets:
Tags += ['patJets' + jetCollection + 'SoftDropPacked']
Labels += ['SoftDrop']
if addTrimming:
runGroomedMethod(process,
isMC=isMC,
jetCollection=jetCollection,
coneSize=coneSize,
algo=algo,
payloadName=payloadName,
payloadNameSubjet=payloadNameSubjet,
JECLevel=JECLevelTemp,
pfCand=pfCand,
btagDiscriminators=bTagDiscriminators,
addSubJets=addTrimmedSubjets,
addQGLikelihood=addQGLikelihood,
isPruning=False,
isSoftDrop=False,
isTrimming=True,
isFiltering=False)
if addTrimmedSubjets:
Tags += ['patJets' + jetCollection + 'TrimmedPacked']
Labels += ['Trimmed']
if addFiltering:
runGroomedMethod(process,
isMC=isMC,
jetCollection=jetCollection,
coneSize=coneSize,
algo=algo,
payloadName=payloadName,
payloadNameSubjet=payloadNameSubjet,
JECLevel=JECLevelTemp,
pfCand=pfCand,
btagDiscriminators=bTagDiscriminators,
addSubJets=addFilteredSubjets,
addQGLikelihood=addQGLikelihood,
isPruning=False,
isSoftDrop=False,
isTrimming=False,
isFiltering=True)
if addFilteredSubjets:
Tags += ['patJets' + jetCollection + 'FilteredPacked']
Labels += ['Filtered']
## finally fix the pat fat jet collection
if not hasattr(process, "packedPatJets" + jetCollection):
setattr(
process, "packedPatJets" + jetCollection,
cms.EDProducer("JetSubstructurePacker",
jetSrc=cms.InputTag("selectedPatJets" +
jetCollection),
distMax=cms.double(coneSize),
fixDaughters=cms.bool(False),
algoTags=cms.VInputTag(),
algoLabels=cms.vstring()))
getattr(process, "packedPatJets" + jetCollection).algoTags = Tags
getattr(process, "packedPatJets" + jetCollection).algoLabels = Labels
return "packedPatJets" + jetCollection
from JetMETCorrections.Type1MET.correctionTermsPfMetType1Type2_cff import *
from PhysicsTools.PatUtils.patPFMETCorrections_cff import patPFJetMETtype1p2Corr
process.patMETs.addGenMET = cms.bool(False)
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
if options.cmsswVersion == "72X":
addJetCollection(
process,
postfix="",
labelName='AK4PFCHS',
jetSource=cms.InputTag('ak4PFJetsCHS'),
pvSource=cms.InputTag('unpackedTracksAndVertices'),
trackSource=cms.InputTag('unpackedTracksAndVertices'),
svSource=cms.InputTag('unpackedTracksAndVertices', 'secondary'),
jetCorrections=('AK4PFchs',
cms.vstring(['L1FastJet', 'L2Relative',
'L3Absolute']), 'Type-2'),
btagDiscriminators=['combinedInclusiveSecondaryVertexV2BJetTags'],
genJetCollection=cms.InputTag('ak4GenJets'),
algo='AK',
rParam=0.4)
addJetCollection(
process,
postfix="",
labelName='AK4PFCHSNoMu',
jetSource=cms.InputTag('ak4PFJetsCHSNoMu'),
pvSource=cms.InputTag('unpackedTracksAndVertices'),
trackSource=cms.InputTag('unpackedTracksAndVertices'),
def applySubstructure( process ) :
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
from PhysicsTools.PatAlgos.producersLayer1.jetProducer_cfi import _patJets as patJetsDefault
#add AK8
addJetCollection(process, labelName = 'AK8',
jetSource = cms.InputTag('ak8PFJetsCHS'),
algo= 'AK', rParam = 0.8,
jetCorrections = ('AK8PFchs', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'None'),
btagDiscriminators = ([x.getModuleLabel() for x in patJetsDefault.discriminatorSources] + ['pfBoostedDoubleSecondaryVertexAK8BJetTags']),
genJetCollection = cms.InputTag('slimmedGenJetsAK8')
)
process.patJetsAK8.userData.userFloats.src = [] # start with empty list of user floats
process.selectedPatJetsAK8.cut = cms.string("pt > 170")
process.load('RecoJets.JetProducers.ak8PFJetsPuppi_cfi')
process.ak8PFJetsPuppi.doAreaFastjet = True # even for standard ak8PFJets this is overwritten in RecoJets/Configuration/python/RecoPFJets_cff
from RecoJets.JetAssociationProducers.j2tParametersVX_cfi import j2tParametersVX
process.ak8PFJetsPuppiTracksAssociatorAtVertex = cms.EDProducer("JetTracksAssociatorAtVertex",
j2tParametersVX,
jets = cms.InputTag("ak8PFJetsPuppi")
)
process.patJetPuppiCharge = cms.EDProducer("JetChargeProducer",
src = cms.InputTag("ak8PFJetsPuppiTracksAssociatorAtVertex"),
var = cms.string('Pt'),
exp = cms.double(1.0)
)
## AK8 groomed masses
from RecoJets.Configuration.RecoPFJets_cff import ak8PFJetsCHSPruned, ak8PFJetsCHSSoftDrop, ak8PFJetsPuppiSoftDrop
process.ak8PFJetsCHSPruned = ak8PFJetsCHSPruned.clone()
process.ak8PFJetsCHSSoftDrop = ak8PFJetsCHSSoftDrop.clone()
process.ak8PFJetsPuppiSoftDrop = ak8PFJetsPuppiSoftDrop.clone()
process.load("RecoJets.JetProducers.ak8PFJetsCHS_groomingValueMaps_cfi")
process.patJetsAK8.userData.userFloats.src += ['ak8PFJetsCHSPrunedMass','ak8PFJetsCHSSoftDropMass']
process.patJetsAK8.addTagInfos = cms.bool(False)
# add Njetiness
process.load('RecoJets.JetProducers.nJettinessAdder_cfi')
process.NjettinessAK8 = process.Njettiness.clone()
process.NjettinessAK8.src = cms.InputTag("ak8PFJetsCHS")
process.NjettinessAK8.cone = cms.double(0.8)
process.patJetsAK8.userData.userFloats.src += ['NjettinessAK8:tau1','NjettinessAK8:tau2','NjettinessAK8:tau3']
#add AK8 from PUPPI
process.load('RecoJets.JetProducers.ak8PFJetsPuppi_cfi')
process.ak8PFJetsPuppi.doAreaFastjet = True # even for standard ak8PFJets this is overwritten in RecoJets/Configuration/python/RecoPFJets_cff
addJetCollection(process, labelName = 'AK8Puppi',
jetSource = cms.InputTag('ak8PFJetsPuppi'),
algo= 'AK', rParam = 0.8,
jetCorrections = ('AK8PFPuppi', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'None'),
genJetCollection = cms.InputTag('slimmedGenJetsAK8')
)
process.patJetsAK8Puppi.userData.userFloats.src = [] # start with empty list of user floats
process.selectedPatJetsAK8Puppi.cut = cms.string("pt > 170")
from RecoJets.JetAssociationProducers.j2tParametersVX_cfi import j2tParametersVX
process.ak8PFJetsPuppiTracksAssociatorAtVertex = cms.EDProducer("JetTracksAssociatorAtVertex",
j2tParametersVX,
jets = cms.InputTag("ak8PFJetsPuppi")
)
process.patJetAK8PuppiCharge = cms.EDProducer("JetChargeProducer",
src = cms.InputTag("ak8PFJetsPuppiTracksAssociatorAtVertex"),
var = cms.string('Pt'),
exp = cms.double(1.0)
)
## AK8 groomed masses
from RecoJets.Configuration.RecoPFJets_cff import ak8PFJetsPuppiSoftDrop
process.ak8PFJetsPuppiSoftDrop = ak8PFJetsPuppiSoftDrop.clone()
process.load("RecoJets.JetProducers.ak8PFJetsPuppi_groomingValueMaps_cfi")
process.patJetsAK8Puppi.userData.userFloats.src += ['ak8PFJetsPuppiSoftDropMass']
process.patJetsAK8Puppi.addTagInfos = cms.bool(False)
# add Njetiness
process.NjettinessAK8Puppi = process.Njettiness.clone()
process.NjettinessAK8Puppi.src = cms.InputTag("ak8PFJetsPuppi")
process.NjettinessAK8Puppi.cone = cms.double(0.8)
process.patJetsAK8Puppi.userData.userFloats.src += ['NjettinessAK8Puppi:tau1','NjettinessAK8Puppi:tau2','NjettinessAK8Puppi:tau3']
process.ak8PFJetsPuppiValueMap = cms.EDProducer("RecoJetToPatJetDeltaRValueMapProducer",
src = cms.InputTag("ak8PFJetsCHS"),
matched = cms.InputTag("patJetsAK8Puppi"),
distMax = cms.double(0.8),
values = cms.vstring([
'userFloat("NjettinessAK8Puppi:tau1")',
'userFloat("NjettinessAK8Puppi:tau2")',
'userFloat("NjettinessAK8Puppi:tau3")',
'pt','eta','phi','mass'
]),
valueLabels = cms.vstring( [
'NjettinessAK8PuppiTau1',
'NjettinessAK8PuppiTau2',
'NjettinessAK8PuppiTau3',
'pt','eta','phi','mass'
])
)
#process.patJetsAK8.userData.userFloats.src += ['NjettinessAK8:tau1','NjettinessAK8:tau2','NjettinessAK8:tau3']
process.patJetsAK8.userData.userFloats.src += [cms.InputTag('ak8PFJetsPuppiValueMap','NjettinessAK8PuppiTau1'),
cms.InputTag('ak8PFJetsPuppiValueMap','NjettinessAK8PuppiTau2'),
cms.InputTag('ak8PFJetsPuppiValueMap','NjettinessAK8PuppiTau3'),
cms.InputTag('ak8PFJetsPuppiValueMap','pt'),
cms.InputTag('ak8PFJetsPuppiValueMap','eta'),
cms.InputTag('ak8PFJetsPuppiValueMap','phi'),
cms.InputTag('ak8PFJetsPuppiValueMap','mass'),
]
## PATify pruned fat jets
addJetCollection(
process,
labelName = 'AK8PFCHSSoftDrop',
jetSource = cms.InputTag('ak8PFJetsCHSSoftDrop'),
btagDiscriminators = ['None'],
jetCorrections = ('AK8PFchs', ['L1FastJet', 'L2Relative', 'L3Absolute'], 'None'),
getJetMCFlavour = False # jet flavor disabled
)
## PATify soft drop subjets
addJetCollection(
process,
labelName = 'AK8PFCHSSoftDropSubjets',
jetSource = cms.InputTag('ak8PFJetsCHSSoftDrop','SubJets'),
algo = 'ak', # needed for subjet flavor clustering
rParam = 0.8, # needed for subjet flavor clustering
btagDiscriminators = ['pfCombinedSecondaryVertexV2BJetTags', 'pfCombinedInclusiveSecondaryVertexV2BJetTags'],
jetCorrections = ('AK4PFchs', ['L1FastJet', 'L2Relative', 'L3Absolute'], 'None'),
explicitJTA = True, # needed for subjet b tagging
svClustering = True, # needed for subjet b tagging
genJetCollection = cms.InputTag('slimmedGenJets'),
fatJets=cms.InputTag('ak8PFJetsCHS'), # needed for subjet flavor clustering
groomedFatJets=cms.InputTag('ak8PFJetsCHSSoftDrop') # needed for subjet flavor clustering
)
process.selectedPatJetsAK8PFCHSSoftDrop.cut = cms.string("pt > 170")
process.slimmedJetsAK8PFCHSSoftDropSubjets = cms.EDProducer("PATJetSlimmer",
src = cms.InputTag("selectedPatJetsAK8PFCHSSoftDropSubjets"),
packedPFCandidates = cms.InputTag("packedPFCandidates"),
dropJetVars = cms.string("1"),
dropDaughters = cms.string("0"),
rekeyDaughters = cms.string("1"),
dropTrackRefs = cms.string("1"),
dropSpecific = cms.string("1"),
dropTagInfos = cms.string("1"),
modifyJets = cms.bool(True),
modifierConfig = cms.PSet( modifications = cms.VPSet() )
)
## Establish references between PATified fat jets and subjets using the BoostedJetMerger
process.slimmedJetsAK8PFCHSSoftDropPacked = cms.EDProducer("BoostedJetMerger",
jetSrc=cms.InputTag("selectedPatJetsAK8PFCHSSoftDrop"),
subjetSrc=cms.InputTag("slimmedJetsAK8PFCHSSoftDropSubjets")
)
## PATify pruned fat jets
addJetCollection(
process,
labelName = 'AK8PFPuppiSoftDrop',
jetSource = cms.InputTag('ak8PFJetsPuppiSoftDrop'),
btagDiscriminators = ['None'],
jetCorrections = ('AK8PFPuppi', ['L1FastJet', 'L2Relative', 'L3Absolute'], 'None'),
getJetMCFlavour = False # jet flavor disabled
)
## PATify soft drop subjets
addJetCollection(
process,
labelName = 'AK8PFPuppiSoftDropSubjets',
jetSource = cms.InputTag('ak8PFJetsPuppiSoftDrop','SubJets'),
algo = 'ak', # needed for subjet flavor clustering
rParam = 0.8, # needed for subjet flavor clustering
btagDiscriminators = ['pfCombinedSecondaryVertexV2BJetTags', 'pfCombinedInclusiveSecondaryVertexV2BJetTags'],
jetCorrections = ('AK4PFPuppi', ['L1FastJet', 'L2Relative', 'L3Absolute'], 'None'),
explicitJTA = True, # needed for subjet b tagging
svClustering = True, # needed for subjet b tagging
genJetCollection = cms.InputTag('slimmedGenJets'),
fatJets=cms.InputTag('ak8PFJetsPuppi'), # needed for subjet flavor clustering
groomedFatJets=cms.InputTag('ak8PFJetsPuppiSoftDrop') # needed for subjet flavor clustering
)
process.selectedPatJetsAK8PFPuppiSoftDrop.cut = cms.string("pt > 170")
process.slimmedJetsAK8PFPuppiSoftDropSubjets = cms.EDProducer("PATJetSlimmer",
src = cms.InputTag("selectedPatJetsAK8PFPuppiSoftDropSubjets"),
packedPFCandidates = cms.InputTag("packedPFCandidates"),
dropJetVars = cms.string("1"),
dropDaughters = cms.string("0"),
rekeyDaughters = cms.string("1"),
dropTrackRefs = cms.string("1"),
dropSpecific = cms.string("1"),
dropTagInfos = cms.string("1"),
modifyJets = cms.bool(True),
modifierConfig = cms.PSet( modifications = cms.VPSet() )
)
## Establish references between PATified fat jets and subjets using the BoostedJetMerger
process.slimmedJetsAK8PFPuppiSoftDropPacked = cms.EDProducer("BoostedJetMerger",
jetSrc=cms.InputTag("selectedPatJetsAK8PFPuppiSoftDrop"),
subjetSrc=cms.InputTag("slimmedJetsAK8PFPuppiSoftDropSubjets")
)
process.packedPatJetsAK8 = cms.EDProducer("JetSubstructurePacker",
jetSrc = cms.InputTag("selectedPatJetsAK8"),
distMax = cms.double(0.8),
algoTags = cms.VInputTag(
# NOTE: For an optimal storage of the AK8 jet daughters, the first subjet collection listed here should be
# derived from AK8 jets, i.e., subjets should contain either all or a subset of AK8 constituents.
# The PUPPI collection has its own pointers to its own PUPPI constituents.
cms.InputTag("slimmedJetsAK8PFCHSSoftDropPacked"),
cms.InputTag("slimmedJetsAK8PFPuppiSoftDropPacked")
),
algoLabels = cms.vstring(
'SoftDrop',
'SoftDropPuppi'
),
fixDaughters = cms.bool(True),
packedPFCandidates = cms.InputTag("packedPFCandidates"),
)
# switch off daughter re-keying since it's done in the JetSubstructurePacker (and can't be done afterwards)
process.slimmedJetsAK8.rekeyDaughters = "0"
rParam=0.8,
jetAlgorithm='AntiKt')
jetSeq += process.ak8PFJetsPuppi
process.jetSequence = jetSeq
addJetCollection(
process,
#labelName = 'AK8PFCHS',
labelName='AK8PFPuppi',
#jetSource = cms.InputTag('ak8PFJetsCHS'),
jetSource=cms.InputTag('ak8PFJetsPuppi'),
#pvSource = cms.InputTag('offlinePrimaryVertices'),
#svSource = cms.InputTag('inclusiveCandidateSecondaryVertices'),
algo='AK',
rParam=0.8,
#jetCorrections = ('AK8PFchs', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'Type-2'),
jetCorrections=('AK8PFPuppi',
cms.vstring(['L1FastJet', 'L2Relative',
'L3Absolute']), 'Type-2'),
btagDiscriminators=[
'pfBoostedDoubleSecondaryVertexAK8BJetTags',
'pfDeepDoubleBJetTags:probQ',
'pfDeepDoubleBJetTags:probH',
])
#process.patJetsAK8PFCHS.addTagInfos = True
process.patJetsAK8PFPuppi.addTagInfos = True
from pdb import set_trace
process.load("PhysicsTools.PatAlgos.producersLayer1.patCandidates_cff")
process.load("Configuration.EventContent.EventContent_cff")
process.load('Configuration.StandardSequences.Geometry_cff')
process.load('Configuration.StandardSequences.MagneticField_38T_cff')
process.load(
'Configuration.StandardSequences.FrontierConditions_GlobalTag_cff')
process.GlobalTag.globaltag = 'START70_V6::All'
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
addJetCollection(process,
postfix="",
labelName='AK5PFCHS',
jetSource=cms.InputTag('ak5PFJetsCHS'),
trackSource=cms.InputTag('unpackedTracksAndVertices'),
pvSource=cms.InputTag('unpackedTracksAndVertices'),
jetCorrections=('AK5PFchs',
cms.vstring(
['L1FastJet', 'L2Relative',
'L3Absolute']), 'Type-2'),
btagDiscriminators=['combinedSecondaryVertexBJetTags'])
process.patJetPartonMatchAK5PFCHS.matched = "prunedGenParticles"
process.patJetPartons.particles = "prunedGenParticles"
process.patJetPartonsLegacy.src = "prunedGenParticles" # if using legacy jet flavour (not used by default)
process.patJetPartonsLegacy.skipFirstN = cms.uint32(
0) # do not skip first 6 particles, we already pruned some!
process.patJetPartonsLegacy.acceptNoDaughters = cms.bool(
True
) # as we drop intermediate stuff, we need to accept quarks with no siblings
process.patJetCorrFactorsAK5PFCHS.primaryVertices = "offlineSlimmedPrimaryVertices"
def miniAOD_customizeCommon(process):
process.patMuons.isoDeposits = cms.PSet()
process.patElectrons.isoDeposits = cms.PSet()
process.patTaus.isoDeposits = cms.PSet()
process.patPhotons.isoDeposits = cms.PSet()
#
process.patMuons.embedTrack = True # used for IDs
process.patMuons.embedCombinedMuon = True # used for IDs
process.patMuons.embedMuonBestTrack = True # used for IDs
process.patMuons.embedStandAloneMuon = True # maybe?
process.patMuons.embedPickyMuon = False # no, use best track
process.patMuons.embedTpfmsMuon = False # no, use best track
process.patMuons.embedDytMuon = False # no, use best track
#
# disable embedding of electron and photon associated objects already stored by the ReducedEGProducer
process.patElectrons.embedGsfElectronCore = False ## process.patElectrons.embed in AOD externally stored gsf electron core
process.patElectrons.embedSuperCluster = False ## process.patElectrons.embed in AOD externally stored supercluster
process.patElectrons.embedPflowSuperCluster = False ## process.patElectrons.embed in AOD externally stored supercluster
process.patElectrons.embedSeedCluster = False ## process.patElectrons.embed in AOD externally stored the electron's seedcluster
process.patElectrons.embedBasicClusters = False ## process.patElectrons.embed in AOD externally stored the electron's basic clusters
process.patElectrons.embedPreshowerClusters = False ## process.patElectrons.embed in AOD externally stored the electron's preshower clusters
process.patElectrons.embedPflowBasicClusters = False ## process.patElectrons.embed in AOD externally stored the electron's pflow basic clusters
process.patElectrons.embedPflowPreshowerClusters = False ## process.patElectrons.embed in AOD externally stored the electron's pflow preshower clusters
process.patElectrons.embedRecHits = False ## process.patElectrons.embed in AOD externally stored the RecHits - can be called from the PATElectronProducer
process.patElectrons.electronSource = cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.patElectrons.electronIDSources = cms.PSet(
# configure many IDs as InputTag <someName> = <someTag> you
# can comment out those you don't want to save some disk space
eidRobustLoose = cms.InputTag("reducedEgamma","eidRobustLoose"),
eidRobustTight = cms.InputTag("reducedEgamma","eidRobustTight"),
eidLoose = cms.InputTag("reducedEgamma","eidLoose"),
eidTight = cms.InputTag("reducedEgamma","eidTight"),
eidRobustHighEnergy = cms.InputTag("reducedEgamma","eidRobustHighEnergy"),
)
process.elPFIsoDepositCharged.src = cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.elPFIsoDepositChargedAll.src = cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.elPFIsoDepositNeutral.src = cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.elPFIsoDepositGamma.src = cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.elPFIsoDepositPU.src = cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
#
process.patPhotons.embedSuperCluster = False ## whether to process.patPhotons.embed in AOD externally stored supercluster
process.patPhotons.embedSeedCluster = False ## process.patPhotons.embed in AOD externally stored the photon's seedcluster
process.patPhotons.embedBasicClusters = False ## process.patPhotons.embed in AOD externally stored the photon's basic clusters
process.patPhotons.embedPreshowerClusters = False ## process.patPhotons.embed in AOD externally stored the photon's preshower clusters
process.patPhotons.embedRecHits = False ## process.patPhotons.embed in AOD externally stored the RecHits - can be called from the PATPhotonProducer
process.patPhotons.photonSource = cms.InputTag("reducedEgamma","reducedGedPhotons")
process.patPhotons.photonIDSources = cms.PSet(
PhotonCutBasedIDLoose = cms.InputTag('reducedEgamma',
'PhotonCutBasedIDLoose'),
PhotonCutBasedIDTight = cms.InputTag('reducedEgamma',
'PhotonCutBasedIDTight')
)
process.phPFIsoDepositCharged.src = cms.InputTag("reducedEgamma","reducedGedPhotons")
process.phPFIsoDepositChargedAll.src = cms.InputTag("reducedEgamma","reducedGedPhotons")
process.phPFIsoDepositNeutral.src = cms.InputTag("reducedEgamma","reducedGedPhotons")
process.phPFIsoDepositGamma.src = cms.InputTag("reducedEgamma","reducedGedPhotons")
process.phPFIsoDepositPU.src = cms.InputTag("reducedEgamma","reducedGedPhotons")
#
process.selectedPatJets.cut = cms.string("pt > 10")
process.selectedPatMuons.cut = cms.string("pt > 5 || isPFMuon || (pt > 3 && (isGlobalMuon || isStandAloneMuon || numberOfMatches > 0 || muonID('RPCMuLoose')))")
process.selectedPatElectrons.cut = cms.string("")
process.selectedPatTaus.cut = cms.string("pt > 18. && tauID('decayModeFinding')> 0.5")
process.selectedPatPhotons.cut = cms.string("")
# add CMS top tagger
from RecoJets.JetProducers.caTopTaggers_cff import caTopTagInfos as toptag
process.cmsttRaw = toptag.clone()
process.caTopTagInfos = cms.EDProducer("RecoJetDeltaRTagInfoValueMapProducer",
src = cms.InputTag("ak8PFJetsCHS"),
matched = cms.InputTag("cmsTopTagPFJetsCHS"),
matchedTagInfos = cms.InputTag("cmsttRaw"),
distMax = cms.double(0.8)
)
#add AK8
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
addJetCollection(process, labelName = 'AK8',
jetSource = cms.InputTag('ak8PFJetsCHS'),
algo= 'AK', rParam = 0.8,
jetCorrections = ('AK8PFchs', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'None'),
btagInfos = ['caTopTagInfos']
)
process.patJetsAK8.userData.userFloats.src = [] # start with empty list of user floats
process.selectedPatJetsAK8.cut = cms.string("pt > 100")
process.patJetGenJetMatchAK8.matched = 'slimmedGenJets'
## AK8 groomed masses
from RecoJets.Configuration.RecoPFJets_cff import ak8PFJetsCHSPruned, ak8PFJetsCHSFiltered, ak8PFJetsCHSTrimmed
process.ak8PFJetsCHSPruned = ak8PFJetsCHSPruned.clone()
process.ak8PFJetsCHSTrimmed = ak8PFJetsCHSTrimmed.clone()
process.ak8PFJetsCHSFiltered = ak8PFJetsCHSFiltered.clone()
process.load("RecoJets.JetProducers.ak8PFJetsCHS_groomingValueMaps_cfi")
process.patJetsAK8.userData.userFloats.src += ['ak8PFJetsCHSPrunedLinks','ak8PFJetsCHSTrimmedLinks','ak8PFJetsCHSFilteredLinks']
# Add AK8 top tagging variables
process.patJetsAK8.tagInfoSources = cms.VInputTag(cms.InputTag("caTopTagInfos"))
process.patJetsAK8.addTagInfos = cms.bool(True)
# add Njetiness
process.load('RecoJets.JetProducers.nJettinessAdder_cfi')
process.NjettinessAK8 = process.Njettiness.clone()
process.NjettinessAK8.src = cms.InputTag("ak8PFJetsCHS")
process.NjettinessAK8.cone = cms.double(0.8)
process.patJetsAK8.userData.userFloats.src += ['NjettinessAK8:tau1','NjettinessAK8:tau2','NjettinessAK8:tau3']
#
from PhysicsTools.PatAlgos.tools.trigTools import switchOnTriggerStandAlone
switchOnTriggerStandAlone( process, outputModule = '' )
process.patTrigger.packTriggerPathNames = cms.bool(True)
#
# apply type I/type I + II PFMEt corrections to pat::MET object
# and estimate systematic uncertainties on MET
# FIXME: this and the typeI MET should become AK4 once we have the proper JEC?
from PhysicsTools.PatUtils.tools.runType1PFMEtUncertainties import runType1PFMEtUncertainties
addJetCollection(process, postfix = "ForMetUnc", labelName = 'AK4PF', jetSource = cms.InputTag('ak4PFJets'), jetCorrections = ('AK4PF', ['L1FastJet', 'L2Relative', 'L3Absolute'], ''))
process.patJetsAK4PFForMetUnc.getJetMCFlavour = False
runType1PFMEtUncertainties(process,
addToPatDefaultSequence=False,
jetCollection="selectedPatJetsAK4PFForMetUnc",
electronCollection="selectedPatElectrons",
muonCollection="selectedPatMuons",
tauCollection="selectedPatTaus",
makeType1p2corrPFMEt=True,
outputModule=None)
#keep this after all addJetCollections otherwise it will attempt computing them also for stuf with no taginfos
#Some useful BTAG vars
process.patJets.userData.userFunctions = cms.vstring(
'?(tagInfoSecondaryVertex().nVertices()>0)?(tagInfoSecondaryVertex().secondaryVertex(0).p4.M):(0)',
'?(tagInfoSecondaryVertex().nVertices()>0)?(tagInfoSecondaryVertex().secondaryVertex(0).nTracks):(0)',
'?(tagInfoSecondaryVertex().nVertices()>0)?(tagInfoSecondaryVertex().flightDistance(0).value):(0)',
'?(tagInfoSecondaryVertex().nVertices()>0)?(tagInfoSecondaryVertex().flightDistance(0).significance):(0)',
'?(tagInfoSecondaryVertex().nVertices()>0)?(tagInfoSecondaryVertex().secondaryVertex(0).p4.x):(0)',
'?(tagInfoSecondaryVertex().nVertices()>0)?(tagInfoSecondaryVertex().secondaryVertex(0).p4.y):(0)',
'?(tagInfoSecondaryVertex().nVertices()>0)?(tagInfoSecondaryVertex().secondaryVertex(0).p4.z):(0)',
'?(tagInfoSecondaryVertex().nVertices()>0)?(tagInfoSecondaryVertex().secondaryVertex(0).position.x):(0)',
'?(tagInfoSecondaryVertex().nVertices()>0)?(tagInfoSecondaryVertex().secondaryVertex(0).position.y):(0)',
'?(tagInfoSecondaryVertex().nVertices()>0)?(tagInfoSecondaryVertex().secondaryVertex(0).position.z):(0)',
)
process.patJets.userData.userFunctionLabels = cms.vstring('vtxMass','vtxNtracks','vtx3DVal','vtx3DSig','vtxPx','vtxPy','vtxPz','vtxPosX','vtxPosY','vtxPosZ')
process.patJets.tagInfoSources = cms.VInputTag(cms.InputTag("secondaryVertexTagInfos"))
process.patJets.addTagInfos = cms.bool(True)
#
## PU JetID
process.load("PhysicsTools.PatAlgos.slimming.pileupJetId_cfi")
process.patJets.userData.userFloats.src = [ cms.InputTag("pileupJetId:fullDiscriminant"), ]
#VID Electron IDs
electron_ids = ['RecoEgamma.ElectronIdentification.Identification.cutBasedElectronID_CSA14_50ns_V1_cff',
'RecoEgamma.ElectronIdentification.Identification.cutBasedElectronID_CSA14_PU20bx25_V0_cff',
'RecoEgamma.ElectronIdentification.Identification.heepElectronID_HEEPV50_CSA14_25ns_cff',
'RecoEgamma.ElectronIdentification.Identification.heepElectronID_HEEPV50_CSA14_startup_cff']
switchOnVIDElectronIdProducer(process)
process.egmGsfElectronIDs.physicsObjectSrc = \
cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.electronIDValueMapProducer.src = \
cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.electronIDValueMapProducer.ebReducedRecHitCollection = \
cms.InputTag("reducedEgamma","reducedEBRecHits")
process.electronIDValueMapProducer.eeReducedRecHitCollection = \
cms.InputTag("reducedEgamma","reducedEERecHits")
process.electronIDValueMapProducer.esReducedRecHitCollection = \
cms.InputTag("reducedEgamma","reducedESRecHits")
for idmod in electron_ids:
setupAllVIDIdsInModule(process,idmod,setupVIDElectronSelection)
'pfNegativeCombinedMVABJetTags',
'pfCombinedMVAV2BJetTags'
#CTagging
,
'pfCombinedCvsLJetTags',
'pfCombinedCvsBJetTags'
#ChargeTagging
,
'pfChargeBJetTags'
]
# uncomment the following lines to add ak4PFJets with new b-tags to your PAT output
addJetCollection(process,
labelName='AK4PF',
jetSource=cms.InputTag('ak4PFJets'),
jetCorrections=('AK4PF',
cms.vstring(
['L1FastJet', 'L2Relative',
'L3Absolute']), 'Type-2'),
btagDiscriminators=btagDiscriminators)
process.patJetsAK4PF.addTagInfos = True
# uncomment the following lines to add ak8PFJetsCHS with new b-tags to your PAT output
addJetCollection(
process,
labelName='AK8PFCHS',
jetSource=cms.InputTag('ak8PFJetsCHS'),
jetCorrections=('AK8PFchs',
cms.vstring(['L1FastJet', 'L2Relative',
'L3Absolute']), 'Type-2'),
algo='AK',
rParam=0.8,
def miniAOD_customizeCommon(process):
process.patMuons.isoDeposits = cms.PSet()
process.patElectrons.isoDeposits = cms.PSet()
process.patTaus.isoDeposits = cms.PSet()
process.patPhotons.isoDeposits = cms.PSet()
#
process.patMuons.embedTrack = True # used for IDs
process.patMuons.embedCombinedMuon = True # used for IDs
process.patMuons.embedMuonBestTrack = True # used for IDs
process.patMuons.embedStandAloneMuon = True # maybe?
process.patMuons.embedPickyMuon = False # no, use best track
process.patMuons.embedTpfmsMuon = False # no, use best track
process.patMuons.embedDytMuon = False # no, use best track
#
# disable embedding of electron and photon associated objects already stored by the ReducedEGProducer
process.patElectrons.embedGsfElectronCore = False ## process.patElectrons.embed in AOD externally stored gsf electron core
process.patElectrons.embedSuperCluster = False ## process.patElectrons.embed in AOD externally stored supercluster
process.patElectrons.embedPflowSuperCluster = False ## process.patElectrons.embed in AOD externally stored supercluster
process.patElectrons.embedSeedCluster = False ## process.patElectrons.embed in AOD externally stored the electron's seedcluster
process.patElectrons.embedBasicClusters = False ## process.patElectrons.embed in AOD externally stored the electron's basic clusters
process.patElectrons.embedPreshowerClusters = False ## process.patElectrons.embed in AOD externally stored the electron's preshower clusters
process.patElectrons.embedPflowBasicClusters = False ## process.patElectrons.embed in AOD externally stored the electron's pflow basic clusters
process.patElectrons.embedPflowPreshowerClusters = False ## process.patElectrons.embed in AOD externally stored the electron's pflow preshower clusters
process.patElectrons.embedRecHits = False ## process.patElectrons.embed in AOD externally stored the RecHits - can be called from the PATElectronProducer
process.patElectrons.electronSource = cms.InputTag(
"reducedEgamma", "reducedGedGsfElectrons")
process.patElectrons.electronIDSources = cms.PSet(
# configure many IDs as InputTag <someName> = <someTag> you
# can comment out those you don't want to save some disk space
eidRobustLoose=cms.InputTag("reducedEgamma", "eidRobustLoose"),
eidRobustTight=cms.InputTag("reducedEgamma", "eidRobustTight"),
eidLoose=cms.InputTag("reducedEgamma", "eidLoose"),
eidTight=cms.InputTag("reducedEgamma", "eidTight"),
eidRobustHighEnergy=cms.InputTag("reducedEgamma",
"eidRobustHighEnergy"),
)
process.elPFIsoDepositChargedPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedGsfElectrons")
process.elPFIsoDepositChargedAllPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedGsfElectrons")
process.elPFIsoDepositNeutralPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedGsfElectrons")
process.elPFIsoDepositGammaPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedGsfElectrons")
process.elPFIsoDepositPUPAT.src = cms.InputTag("reducedEgamma",
"reducedGedGsfElectrons")
#
process.patPhotons.embedSuperCluster = False ## whether to process.patPhotons.embed in AOD externally stored supercluster
process.patPhotons.embedSeedCluster = False ## process.patPhotons.embed in AOD externally stored the photon's seedcluster
process.patPhotons.embedBasicClusters = False ## process.patPhotons.embed in AOD externally stored the photon's basic clusters
process.patPhotons.embedPreshowerClusters = False ## process.patPhotons.embed in AOD externally stored the photon's preshower clusters
process.patPhotons.embedRecHits = False ## process.patPhotons.embed in AOD externally stored the RecHits - can be called from the PATPhotonProducer
process.patPhotons.photonSource = cms.InputTag("reducedEgamma",
"reducedGedPhotons")
process.patPhotons.photonIDSources = cms.PSet(
PhotonCutBasedIDLoose=cms.InputTag('reducedEgamma',
'PhotonCutBasedIDLoose'),
PhotonCutBasedIDTight=cms.InputTag('reducedEgamma',
'PhotonCutBasedIDTight'))
process.phPFIsoDepositChargedPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedPhotons")
process.phPFIsoDepositChargedAllPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedPhotons")
process.phPFIsoDepositNeutralPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedPhotons")
process.phPFIsoDepositGammaPAT.src = cms.InputTag("reducedEgamma",
"reducedGedPhotons")
process.phPFIsoDepositPUPAT.src = cms.InputTag("reducedEgamma",
"reducedGedPhotons")
#
process.selectedPatJets.cut = cms.string("pt > 10")
process.selectedPatMuons.cut = cms.string(
"pt > 5 || isPFMuon || (pt > 3 && (isGlobalMuon || isStandAloneMuon || numberOfMatches > 0 || muonID('RPCMuLoose')))"
)
process.selectedPatElectrons.cut = cms.string("")
process.selectedPatTaus.cut = cms.string(
"pt > 18. && tauID('decayModeFinding')> 0.5")
process.selectedPatPhotons.cut = cms.string("")
# add CMS top tagger
from RecoJets.JetProducers.caTopTaggers_cff import caTopTagInfos
process.caTopTagInfos = caTopTagInfos.clone()
process.caTopTagInfosPAT = cms.EDProducer(
"RecoJetDeltaRTagInfoValueMapProducer",
src=cms.InputTag("ak8PFJetsCHS"),
matched=cms.InputTag("cmsTopTagPFJetsCHS"),
matchedTagInfos=cms.InputTag("caTopTagInfos"),
distMax=cms.double(0.8))
#add AK8
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
addJetCollection(
process,
labelName='AK8',
jetSource=cms.InputTag('ak8PFJetsCHS'),
algo='AK',
rParam=0.8,
jetCorrections=('AK8PFchs',
cms.vstring(['L1FastJet', 'L2Relative',
'L3Absolute']), 'None'),
btagInfos=['caTopTagInfosPAT'])
process.patJetsAK8.userData.userFloats.src = [
] # start with empty list of user floats
process.selectedPatJetsAK8.cut = cms.string("pt > 100")
process.patJetGenJetMatchAK8.matched = 'slimmedGenJets'
## AK8 groomed masses
from RecoJets.Configuration.RecoPFJets_cff import ak8PFJetsCHSPruned, ak8PFJetsCHSSoftDrop, ak8PFJetsCHSFiltered, ak8PFJetsCHSTrimmed
process.ak8PFJetsCHSPruned = ak8PFJetsCHSPruned.clone()
process.ak8PFJetsCHSSoftDrop = ak8PFJetsCHSSoftDrop.clone()
process.ak8PFJetsCHSTrimmed = ak8PFJetsCHSTrimmed.clone()
process.ak8PFJetsCHSFiltered = ak8PFJetsCHSFiltered.clone()
process.load("RecoJets.JetProducers.ak8PFJetsCHS_groomingValueMaps_cfi")
process.patJetsAK8.userData.userFloats.src += [
'ak8PFJetsCHSPrunedMass', 'ak8PFJetsCHSSoftDropMass',
'ak8PFJetsCHSTrimmedMass', 'ak8PFJetsCHSFilteredMass'
]
# Add AK8 top tagging variables
process.patJetsAK8.tagInfoSources = cms.VInputTag(
cms.InputTag("caTopTagInfosPAT"))
process.patJetsAK8.addTagInfos = cms.bool(True)
# add Njetiness
process.load('RecoJets.JetProducers.nJettinessAdder_cfi')
process.NjettinessAK8 = process.Njettiness.clone()
process.NjettinessAK8.src = cms.InputTag("ak8PFJetsCHS")
process.NjettinessAK8.cone = cms.double(0.8)
process.patJetsAK8.userData.userFloats.src += [
'NjettinessAK8:tau1', 'NjettinessAK8:tau2', 'NjettinessAK8:tau3'
]
#
from PhysicsTools.PatAlgos.tools.trigTools import switchOnTriggerStandAlone
switchOnTriggerStandAlone(process, outputModule='')
process.patTrigger.packTriggerPathNames = cms.bool(True)
#
# apply type I/type I + II PFMEt corrections to pat::MET object
# and estimate systematic uncertainties on MET
# FIXME: this and the typeI MET should become AK4 once we have the proper JEC?
from PhysicsTools.PatUtils.tools.runType1PFMEtUncertainties import runType1PFMEtUncertainties
addJetCollection(process,
postfix="ForMetUnc",
labelName='AK4PF',
jetSource=cms.InputTag('ak4PFJets'),
jetCorrections=('AK4PF',
['L1FastJet', 'L2Relative',
'L3Absolute'], ''))
process.patJetsAK4PFForMetUnc.getJetMCFlavour = False
runType1PFMEtUncertainties(process,
addToPatDefaultSequence=False,
jetCollection="selectedPatJetsAK4PFForMetUnc",
electronCollection="selectedPatElectrons",
muonCollection="selectedPatMuons",
tauCollection="selectedPatTaus",
makeType1p2corrPFMEt=True,
outputModule=None)
#keep this after all addJetCollections otherwise it will attempt computing them also for stuf with no taginfos
#Some useful BTAG vars
process.patJets.userData.userFunctions = cms.vstring(
'?(tagInfoSecondaryVertex().nVertices()>0)?(tagInfoSecondaryVertex().secondaryVertex(0).p4.M):(0)',
'?(tagInfoSecondaryVertex().nVertices()>0)?(tagInfoSecondaryVertex().secondaryVertex(0).nTracks):(0)',
'?(tagInfoSecondaryVertex().nVertices()>0)?(tagInfoSecondaryVertex().flightDistance(0).value):(0)',
'?(tagInfoSecondaryVertex().nVertices()>0)?(tagInfoSecondaryVertex().flightDistance(0).significance):(0)',
'?(tagInfoSecondaryVertex().nVertices()>0)?(tagInfoSecondaryVertex().secondaryVertex(0).p4.x):(0)',
'?(tagInfoSecondaryVertex().nVertices()>0)?(tagInfoSecondaryVertex().secondaryVertex(0).p4.y):(0)',
'?(tagInfoSecondaryVertex().nVertices()>0)?(tagInfoSecondaryVertex().secondaryVertex(0).p4.z):(0)',
'?(tagInfoSecondaryVertex().nVertices()>0)?(tagInfoSecondaryVertex().secondaryVertex(0).position.x):(0)',
'?(tagInfoSecondaryVertex().nVertices()>0)?(tagInfoSecondaryVertex().secondaryVertex(0).position.y):(0)',
'?(tagInfoSecondaryVertex().nVertices()>0)?(tagInfoSecondaryVertex().secondaryVertex(0).position.z):(0)',
)
process.patJets.userData.userFunctionLabels = cms.vstring(
'vtxMass', 'vtxNtracks', 'vtx3DVal', 'vtx3DSig', 'vtxPx', 'vtxPy',
'vtxPz', 'vtxPosX', 'vtxPosY', 'vtxPosZ')
process.patJets.tagInfoSources = cms.VInputTag(
cms.InputTag("secondaryVertexTagInfos"))
process.patJets.addTagInfos = cms.bool(True)
#
## PU JetID
process.load("PhysicsTools.PatAlgos.slimming.pileupJetId_cfi")
process.patJets.userData.userFloats.src = [
cms.InputTag("pileupJetId:fullDiscriminant"),
]
#VID Electron IDs
electron_ids = [
'RecoEgamma.ElectronIdentification.Identification.cutBasedElectronID_CSA14_50ns_V1_cff',
'RecoEgamma.ElectronIdentification.Identification.cutBasedElectronID_CSA14_PU20bx25_V0_cff',
'RecoEgamma.ElectronIdentification.Identification.heepElectronID_HEEPV50_CSA14_25ns_cff',
'RecoEgamma.ElectronIdentification.Identification.heepElectronID_HEEPV50_CSA14_startup_cff'
]
switchOnVIDElectronIdProducer(process)
process.egmGsfElectronIDs.physicsObjectSrc = \
cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.electronIDValueMapProducer.src = \
cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.electronIDValueMapProducer.ebReducedRecHitCollection = \
cms.InputTag("reducedEgamma","reducedEBRecHits")
process.electronIDValueMapProducer.eeReducedRecHitCollection = \
cms.InputTag("reducedEgamma","reducedEERecHits")
process.electronIDValueMapProducer.esReducedRecHitCollection = \
cms.InputTag("reducedEgamma","reducedESRecHits")
for idmod in electron_ids:
setupAllVIDIdsInModule(process, idmod, setupVIDElectronSelection)
#addMETCollection(process, labelName='patMETCalo', metSource='met')
addMETCollection(process, labelName='patMETPF', metSource='pfMetT1')
#addMETCollection(process, labelName='patMETTC', metSource='tcMet') # FIXME: removed from RECO/AOD; needs functionality to add to processing
## uncomment the following line to add different jet collections
## to the event content
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
from PhysicsTools.PatAlgos.tools.jetTools import switchJetCollection
## uncomment the following lines to add ak4PFJetsCHS to your PAT output
labelAK4PFCHS = 'AK4PFCHS'
postfixAK4PFCHS = 'Copy'
addJetCollection(process,
postfix=postfixAK4PFCHS,
labelName=labelAK4PFCHS,
jetSource=cms.InputTag('ak4PFJetsCHS'),
jetCorrections=('AK4PFchs',
cms.vstring(
['L1FastJet', 'L2Relative',
'L3Absolute']), 'Type-2'))
process.out.outputCommands.append('drop *_selectedPatJets%s%s_caloTowers_*' %
(labelAK4PFCHS, postfixAK4PFCHS))
# uncomment the following lines to add ak4PFJets to your PAT output
switchJetCollection(
process,
jetSource=cms.InputTag('ak4PFJets'),
jetCorrections=('AK4PF',
cms.vstring(['L1FastJet', 'L2Relative',
'L3Absolute']), 'Type-1'),
btagDiscriminators=[
'jetBProbabilityBJetTags', 'jetProbabilityBJetTags',
def configurePatTuple(process, isMC=True, **kwargs):
'''
Core function for PATTuple production
'''
#fix argparser output
isMC = bool(isMC)
########################
## ##
## PATTuple content ##
## ##
########################
# Stuff we always keep
output_commands = [
'*_addPileupInfo_*_*',
'edmMergeableCounter_*_*_*',
'*_lumiProducer_*_*',
'*_particleFlow_*_*',
'*_offlineBeamSpot_*_*',
'*_generalTracks_*_*',
'*_electronGsfTracks_*_*',
'*_gsfElectrons_*_*',
'*_gsfElectronCores_*_*',
'*_offlinePrimaryVertices*_*_*',
'*_ak5GenJets_*_*',
'*_hltTriggerSummaryAOD_*_*',
'edmTriggerResults_TriggerResults_*_%s' % process.name_(),
'*_MEtoEDMConverter*_*_%s' % process.name_(),
'LHEEventProduct_*_*_*',
'GenEventInfoProduct_generator_*_*',
'*_kt6PFJetsForRhoComputationVoronoi_rho_*',
'*_kt6PFJetsForIso_rho_*',
'*_kt6PFJets_rho_*',
'*_kt6PFJetsHZGPho_rho_*',
'*_kt6PFJetsCentralHZGEle_rho_*',
'*_kt6PFJetsCentralHZGMu_rho_*',
'*_kt6PFJetsCentralNeutralHZGMu_rho_*',
'*_kt6PFJetsCentral_rho_*',
'*_kt6PFJetsCentralNeutral_rho_*', # for zz muons
'*_photonCore_*_*',
'*_boostedFsrPhotons_*_*',
# for Zmumu -> embedded samples
# https://twiki.cern.ch/twiki/bin/view/CMS/MuonTauReplacementRecHit
'*_generalTracksORG_*_EmbeddedRECO',
'*_electronGsfTracksORG_*_EmbeddedRECO',
'double_TauSpinnerReco_TauSpinnerWT_EmbeddedSPIN',
'double_ZmumuEvtSelEffCorrWeightProducer_weight_EmbeddedRECO',
'double_muonRadiationCorrWeightProducer_weight_EmbeddedRECO',
'GenFilterInfo_generator_minVisPtFilter_EmbeddedRECO',
]
# Define our patTuple production sequence
process.tuplize = cms.Sequence()
# Only keep interesting genParticles
process.load("FinalStateAnalysis.RecoTools.genParticleTrimmer_cfi")
process.genParticles = process.prunedGenParticles.clone()
if isMC:
#process.tuplize += process.genParticles
#output_commands.append('*_genParticles_*_%s' % process.name_())
output_commands.append('*_genParticles_*_*')
output_commands.append('*_tauGenJetsSelectorAllHadrons_*_*')
output_commands.append('*_tauGenJets_*_*')
output_commands.append('*_ak5GenJets_*_*')
########################
## ##
## PAT ##
## ##
########################
# Run pat default sequence
process.load("PhysicsTools.PatAlgos.patSequences_cff")
# Embed PF Isolation in electrons & muons
pfTools.usePFIso(process)
# Setup H2Tau custom iso definitions
setup_h2tau_iso(process)
# Setup hZg custom iso definitions
add_hZg_iso_needs(process)
# Now run PAT
process.tuplize += process.patDefaultSequence
# Add FSR photons for ZZ analysis
process.load("FinalStateAnalysis.PatTools.fsrPhotons_cff")
process.tuplize += process.fsrPhotonSequence
########################
## GEN ##
########################
# Disable gen match embedding - we keep it in the ntuple
process.patMuons.embedGenMatch = False
process.patElectrons.embedGenMatch = False
process.patTaus.embedGenMatch = False
process.patTaus.embedGenJetMatch = False
process.patPhotons.embedGenMatch = False
if not isMC:
coreTools.runOnData(process)
########################
## MUONS ##
########################
# Unembed junk
process.patMuons.embedCaloMETMuonCorrs = False
process.patMuons.embedTcMETMuonCorrs = False
process.patMuons.embedTrack = True
process.patMuons.pvSrc = cms.InputTag("selectedPrimaryVertex")
process.load("FinalStateAnalysis.PatTools.patMuonProduction_cff")
final_muon_collection = chain_sequence(process.customizeMuonSequence,
"selectedPatMuons")
process.customizeMuonSequence.insert(0, process.selectedPatMuons)
process.patDefaultSequence.replace(process.selectedPatMuons,
process.customizeMuonSequence)
process.cleanPatMuons.src = final_muon_collection
process.patMuonRochesterCorrectionEmbedder.isMC = cms.bool(bool(isMC))
########################
## TAUS ##
########################
# Use HPS taus
tautools.switchToPFTauHPS(
process) #this NEEDS a sequence called patDefaultSequence
# Disable tau IsoDeposits
process.patDefaultSequence.remove(process.patPFTauIsolation)
process.patTaus.isoDeposits = cms.PSet()
process.patTaus.userIsolation = cms.PSet()
process.load("FinalStateAnalysis.PatTools.patTauProduction_cff")
# Require all taus to pass decay mode finding and have high PT
process.patTauGarbageRemoval.cut = cms.string(
"pt > 17 && abs(eta) < 2.5 && tauID('decayModeFindingNewDMs')")
final_tau_collection = chain_sequence(process.customizeTauSequence,
"selectedPatTaus")
# Inject into the pat sequence
process.customizeTauSequence.insert(0, process.selectedPatTaus)
process.patDefaultSequence.replace(process.selectedPatTaus,
process.customizeTauSequence)
process.cleanPatTaus.src = final_tau_collection
# Remove muons and electrons
process.cleanPatTaus.checkOverlaps.muons.requireNoOverlaps = False
process.cleanPatTaus.checkOverlaps.electrons.requireNoOverlaps = False
# Cuts already applied by the garbage removal
process.cleanPatTaus.preselection = ''
process.cleanPatTaus.finalCut = ''
########################
## ELECTRONS ##
########################
# Use POG recommendations for (these) electron Isos
process.elPFIsoValueGamma04PFIdPFIso.deposits[0].vetos = cms.vstring(
'EcalEndcaps:ConeVeto(0.08)')
process.elPFIsoValueGamma04NoPFIdPFIso.deposits[0].vetos = cms.vstring(
'EcalEndcaps:ConeVeto(0.08)')
process.elPFIsoValueCharged04PFIdPFIso.deposits[0].vetos = cms.vstring(
'EcalEndcaps:ConeVeto(0.015)')
process.elPFIsoValueCharged04NoPFIdPFIso.deposits[0].vetos = cms.vstring(
'EcalEndcaps:ConeVeto(0.015)')
# Do extra electron ID
process.load("FinalStateAnalysis.PatTools.electrons.electronID_cff")
if cmssw_major_version() == 4:
process.patDefaultSequence.replace(
process.patElectrons,
process.recoElectronID42X + process.patElectrons)
process.patElectrons.electronIDSources = process.electronIDSources42X
else:
process.patDefaultSequence.replace(
process.patElectrons,
process.recoElectronID5YX + process.patElectrons)
process.patElectrons.electronIDSources = process.electronIDSources5YX
process.electronMatch.checkCharge = cms.bool(False)
process.patElectrons.embedTrack = False
process.patElectrons.embedPFCandidate = False
process.patElectrons.embedGsfElectronCore = False
process.patElectrons.embedSuperCluster = True
# Produce the electron collections
process.load("FinalStateAnalysis.PatTools.patElectronProduction_cff")
# Electron Energy Regression and Calibrations
process.load(
"EgammaAnalysis.ElectronTools.electronRegressionEnergyProducer_cfi")
process.load("EgammaAnalysis.ElectronTools.calibratedPatElectrons_cfi")
#setup the energy regression for the specific dataset
if kwargs['eleReg']:
print "-- Applying Electron Regression and Calibration --"
process.customizeElectronSequence += process.eleRegressionEnergy
process.customizeElectronSequence += process.calibratedPatElectrons
process.eleRegressionEnergy.energyRegressionType = cms.uint32(2)
process.calibratedPatElectrons.correctionsType = cms.int32(2)
if isMC:
process.calibratedPatElectrons.inputDataset = cms.string(
"Summer12_LegacyPaper")
else:
process.calibratedPatElectrons.inputDataset = cms.string(
"22Jan2013ReReco")
process.calibratedPatElectrons.combinationType = cms.int32(3)
process.calibratedPatElectrons.lumiRatio = cms.double(1.0)
process.calibratedPatElectrons.synchronization = cms.bool(True)
process.calibratedPatElectrons.isMC = cms.bool(isMC == 1)
process.calibratedPatElectrons.verbose = cms.bool(False)
final_electron_collection = chain_sequence(
process.customizeElectronSequence,
"selectedPatElectrons",
# Some of the EGamma modules have non-standard src InputTags,
# specify them here.
("src", "inputPatElectronsTag", "inputElectronsTag"))
#process.tuplize += process.customizeElectronSequence #why do we need this?
process.customizeElectronSequence.insert(0, process.selectedPatElectrons)
process.patDefaultSequence.replace(process.selectedPatElectrons,
process.customizeElectronSequence)
# We have to do the pat Jets before the pat electrons since we embed them
process.customizeElectronSequence.insert(0, process.selectedPatJets)
# Define cleanPatElectrons input collection
process.cleanPatElectrons.src = final_electron_collection
# Define the default lepton cleaning
process.cleanPatElectrons.preselection = cms.string('pt > 5')
process.cleanPatElectrons.checkOverlaps.muons.requireNoOverlaps = False
# Make sure we don't kill any good taus by calling them electrons
# Note that we don't actually remove these overlaps.
process.cleanPatElectrons.checkOverlaps.taus = cms.PSet(
src=final_tau_collection,
algorithm=cms.string("byDeltaR"),
preselection=cms.string(
"tauID('decayModeFinding') > 0.5 &&"
"tauID('byLooseCombinedIsolationDeltaBetaCorr') > 0.5 &&"
"tauID('againstElectronLoose') > 0.5 && "
"pt > 10"),
deltaR=cms.double(0.1),
checkRecoComponents=cms.bool(False),
pairCut=cms.string(""),
requireNoOverlaps=cms.bool(False),
)
########################
## JETS ##
########################
# Use PFJets and turn on JEC
jec = ['L1FastJet', 'L2Relative', 'L3Absolute']
# If we are running on data (not MC), or embedded sample,
# apply the MC-DATA residual correction.
if not isMC or kwargs['embedded']:
jec.extend(['L2L3Residual'])
# tmp
# define the b-tag squences for offline reconstruction
process.load("RecoBTag.SecondaryVertex.secondaryVertex_cff")
process.load("RecoBTau.JetTagComputer.combinedMVA_cff")
process.load('RecoVertex/AdaptiveVertexFinder/inclusiveVertexing_cff')
process.load('RecoBTag/SecondaryVertex/bToCharmDecayVertexMerger_cfi')
#process.load("PhysicsTools.PatAlgos.patSequences_cff")
# Define options for BTagging - these are release dependent.
btag_options = {'doBTagging': True}
if cmssw_major_version() == 5:
btag_options['btagInfo'] = [
'impactParameterTagInfos', 'secondaryVertexTagInfos',
'softMuonTagInfos', 'secondaryVertexNegativeTagInfos',
'inclusiveSecondaryVertexFinderFilteredTagInfos'
]
btag_options['btagdiscriminators'] = [
'trackCountingHighEffBJetTags',
'trackCountingHighPurBJetTags',
'simpleSecondaryVertexHighEffBJetTags',
'simpleSecondaryVertexHighPurBJetTags',
'simpleInclusiveSecondaryVertexHighEffBJetTags',
'simpleInclusiveSecondaryVertexHighPurBJetTags',
'combinedSecondaryVertexMVABJetTags',
'combinedSecondaryVertexBJetTags',
'jetBProbabilityBJetTags',
'jetProbabilityBJetTags',
]
#Avoid embedding
process.patJets.embedPFCandidates = True
process.patJets.embedCaloTowers = False
process.patJets.embedGenJetMatch = True
process.patJets.addAssociatedTracks = True
process.patJets.embedGenPartonMatch = True
# Add AK5chs PFJets
jettools.addJetCollection(process,
cms.InputTag('ak5PFchsJets'),
algoLabel="AK5",
typeLabel="PFchs",
doJTA=True,
jetCorrLabel=('AK5PFchs', jec),
doType1MET=False,
doL1Cleaning=False,
doL1Counters=False,
genJetCollection=cms.InputTag('ak5GenJets'),
doJetID=True,
**btag_options)
# Use AK5 PFJets
jettools.switchJetCollection(
process,
cms.InputTag('ak5PFJets'),
doJTA=True,
jetCorrLabel=('AK5PF', jec),
#jetCorrLabel = None,
doType1MET=False,
doJetID=True,
genJetCollection=cms.InputTag("ak5GenJets"),
**btag_options)
# Customize/embed all our sequences
process.load("FinalStateAnalysis.PatTools.patJetProduction_cff")
helpers.cloneProcessingSnippet(process, process.customizeJetSequence,
'AK5PFchs')
process.patJetGarbageRemoval.cut = 'pt > 12'
final_jet_collection = chain_sequence(process.customizeJetSequence,
"patJets")
process.customizeJetSequence.insert(0, process.patJets)
# Make it a "complete" sequence
process.customizeJetSequence += process.selectedPatJets
# process.customizeJetSequence += process.btagging
# We can't mess up the selected pat jets because the taus use them.
process.selectedPatJets.src = final_jet_collection
process.patDefaultSequence.replace(process.patJets,
process.customizeJetSequence)
process.customizeJetSequenceAK5PFchs.remove(process.patJetsPUIDAK5PFchs)
process.customizeJetSequenceAK5PFchs.remove(
process.pileupJetIdProducerAK5PFchs)
process.patJetGarbageRemovalAK5PFchs.cut = 'pt > 20'
process.patJetCorrFactorsAK5PFchs.payload = cms.string('AK5PFchs')
final_jetchs_collection = chain_sequence(
process.customizeJetSequenceAK5PFchs, "patJetsAK5PFchs")
process.customizeJetSequenceAK5PFchs.insert(0, process.patJetsAK5PFchs)
# Make it a "complete" sequence
process.customizeJetSequenceAK5PFchs += process.selectedPatJetsAK5PFchs
# We can't mess up the selected pat jets because the taus use them.
process.selectedPatJetsAK5PFchs.src = final_jetchs_collection
process.selectedPatJetsAK5chsPF = process.selectedPatJetsAK5PFchs.clone(
) #that's what we keep
process.customizeJetSequenceAK5PFchs += process.selectedPatJetsAK5chsPF
process.patDefaultSequence.replace(process.patJetsAK5PFchs,
process.customizeJetSequenceAK5PFchs)
output_commands.append('*_selectedPatJets_*_*')
output_commands.append('*_selectedPatJetsAK5chsPF_*_*')
output_commands.append('*SecondaryVertexTagInfo*_*_*_*')
output_commands.append('*TrackIPTagInfo*_*_*_*')
output_commands.append('*SoftLeptonTagInfo*_*_*_*')
output_commands.append('*_ak5PFJets_*_*')
output_commands.append('*_ak5PFchsJets_*_*')
########################
## MET ##
########################
# Use PFMEt
mettools.addPfMET(process)
# We cut out a lot of the junky taus and jets - but we need these
# to correctly apply the MET uncertainties. So, let's make a
# non-cleaned version of the jet and tau sequence.
process.jetsForMetSyst = helpers.cloneProcessingSnippet(
process, process.customizeJetSequence, 'ForMETSyst')
process.tausForMetSyst = helpers.cloneProcessingSnippet(
process, process.customizeTauSequence, 'ForMETSyst')
# Don't apply any cut for these
process.patTauGarbageRemovalForMETSyst.cut = ''
process.patJetGarbageRemovalForMETSyst.cut = ''
process.tuplize += process.jetsForMetSyst
process.tuplize += process.tausForMetSyst
# We have to make our clone of cleanPatTaus separately, since e/mu
# cleaning is applied - therefore it isn't in the customizeTausSequence.
process.cleanPatTausForMETSyst = process.cleanPatTaus.clone(
src=cms.InputTag(process.cleanPatTaus.src.value() + "ForMETSyst"))
process.cleanPatTausForMETSyst.preselection = ''
process.cleanPatTausForMETSyst.finalCut = ''
process.patTausEmbedJetInfoForMETSyst.jetSrc = \
final_jet_collection.value() + "ForMETSyst"
process.tuplize += process.cleanPatTausForMETSyst
# Setup MET production
process.load("FinalStateAnalysis.PatTools.patMETProduction_cff")
# The MET systematics depend on all other systematics
process.systematicsMET.tauSrc = cms.InputTag("cleanPatTausForMETSyst")
process.systematicsMET.muonSrc = cms.InputTag("cleanPatMuons")
process.systematicsMET.electronSrc = cms.InputTag("cleanPatElectrons")
final_met_collection = chain_sequence(process.customizeMETSequence,
"patMETsPF")
process.tuplize += process.customizeMETSequence
process.patMETsPF.addGenMET = bool(isMC)
output_commands.append('*_%s_*_*' % final_met_collection.value())
# Make a version with the MVA MET reconstruction method
process.load("FinalStateAnalysis.PatTools.met.mvaMetOnPatTuple_cff")
process.tuplize += process.pfMEtMVAsequence
mva_met_sequence = helpers.cloneProcessingSnippet(
process, process.customizeMETSequence, "MVA")
final_mvamet_collection = chain_sequence(mva_met_sequence, "patMEtMVA")
process.tuplize += mva_met_sequence
output_commands.append('*_%s_*_*' % final_mvamet_collection.value())
# Keep all the data formats needed for the systematics
output_commands.append('recoLeafCandidates_*_*_%s' % process.name_())
# We can drop to jet and tau MET specific products. They were only used for
# computation of the MET numbers.
output_commands.append('drop recoLeafCandidates_*ForMETSyst_*_%s' %
process.name_())
########################
## PHOTONS ##
########################
#alter the photon matching to accept various fakes
# and sort matches by d-pt-rel
if isMC:
process.photonMatch = cms.EDProducer(
"MCMatcherByPt",
src=cms.InputTag("photons"),
maxDPtRel=cms.double(100.0),
mcPdgId=cms.vint32(),
mcStatus=cms.vint32(1),
resolveByMatchQuality=cms.bool(False),
maxDeltaR=cms.double(0.3),
checkCharge=cms.bool(False),
resolveAmbiguities=cms.bool(True),
matched=cms.InputTag("genParticles"))
# Setup pat::Photon Production
process.load("FinalStateAnalysis.PatTools.patPhotonProduction_cff")
final_photon_collection = chain_sequence(process.customizePhotonSequence,
"selectedPatPhotons")
#setup PHOSPHOR for a specific dataset
if cmssw_major_version() == 4: # for now 2011 = CMSSW42X
process.patPhotonPHOSPHOREmbedder.year = cms.uint32(2011)
else: # 2012 is 5YX
process.patPhotonPHOSPHOREmbedder.year = cms.uint32(2012)
process.patPhotonPHOSPHOREmbedder.isMC = cms.bool(bool(isMC))
#inject photons into pat sequence
process.customizePhotonSequence.insert(0, process.selectedPatPhotons)
process.patDefaultSequence.replace(process.selectedPatPhotons,
process.customizePhotonSequence)
process.cleanPatPhotons.src = final_photon_collection
########################
## TRIGGER ##
########################
trigtools.switchOnTrigger(process)
#configure the PAT trigger
if kwargs['HLTprocess']:
process.patTrigger.processName = cms.string(kwargs['HLTprocess'])
process.patTriggerEvent.processName = cms.string(kwargs['HLTprocess'])
########################
## -------------- ##
########################
output_commands.append('*_cleanPatTaus_*_*')
output_commands.append('*_cleanPatElectrons_*_*')
output_commands.append('*_cleanPatMuons_*_*')
output_commands.append('*_cleanPatPhotons_*_*')
########################
## ##
## FSA ##
## ##
########################
# Now build the PATFinalStateLS object, which holds LumiSection info.
process.load(
"FinalStateAnalysis.PatTools.finalStates.patFinalStateLSProducer_cfi")
process.tuplize += process.finalStateLS
output_commands.append('*_finalStateLS_*_*')
if isMC:
process.finalStateLS.xSec = kwargs['xSec']
# Tell the framework to shut up!
process.load("FWCore.MessageLogger.MessageLogger_cfi")
process.MessageLogger.cerr.FwkReport.reportEvery = 1000
# Which collections are used to build the final states
fs_daughter_inputs = {
'electrons': 'cleanPatElectrons',
'muons': 'cleanPatMuons',
'taus': 'cleanPatTaus',
'photons': 'cleanPatPhotons',
'jets': 'selectedPatJets',
'pfmet': final_met_collection,
'mvamet': final_mvamet_collection,
}
# Setup all the PATFinalState objects
produce_final_states(process,
fs_daughter_inputs,
output_commands,
process.tuplize,
kwargs['puTag'],
zzMode=kwargs.get('zzMode', False))
return process.tuplize, output_commands
def applySubstructure(process, postfix=""):
task = getPatAlgosToolsTask(process)
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
from PhysicsTools.PatAlgos.producersLayer1.jetProducer_cfi import _patJets as patJetsDefault
# Configure the RECO jets
from RecoJets.JetProducers.ak4PFJets_cfi import ak4PFJetsPuppi
from RecoJets.JetProducers.ak8PFJets_cfi import ak8PFJetsPuppi, ak8PFJetsPuppiSoftDrop, ak8PFJetsPuppiConstituents, ak8PFJetsCHSConstituents
addToProcessAndTask('ak4PFJetsPuppi' + postfix, ak4PFJetsPuppi.clone(),
process, task)
addToProcessAndTask('ak8PFJetsPuppi' + postfix, ak8PFJetsPuppi.clone(),
process, task)
addToProcessAndTask(
'ak8PFJetsPuppiConstituents',
ak8PFJetsPuppiConstituents.clone(
cut=cms.string('pt > 170.0 && abs(rapidity()) < 2.4')), process,
task)
addToProcessAndTask('ak8PFJetsCHSConstituents',
ak8PFJetsCHSConstituents.clone(), process, task)
addToProcessAndTask(
'ak8PFJetsPuppiSoftDrop' + postfix,
ak8PFJetsPuppiSoftDrop.clone(
src=cms.InputTag('ak8PFJetsPuppiConstituents', 'constituents')),
process, task)
#add AK8 CHS
addJetCollection(
process,
postfix=postfix,
labelName='AK8',
jetSource=cms.InputTag('ak8PFJetsCHS' + postfix),
algo='AK',
rParam=0.8,
jetCorrections=('AK8PFchs',
cms.vstring(['L1FastJet', 'L2Relative',
'L3Absolute']), 'None'),
genJetCollection=cms.InputTag('slimmedGenJetsAK8'))
getattr(process, "patJetsAK8" + postfix).userData.userFloats.src = [
] # start with empty list of user floats
getattr(process, "selectedPatJetsAK8").cut = cms.string("pt > 170")
## add AK8 groomed masses with CHS
from RecoJets.Configuration.RecoPFJets_cff import ak8PFJetsCHSPruned, ak8PFJetsCHSSoftDrop
addToProcessAndTask('ak8PFJetsCHSPruned' + postfix,
ak8PFJetsCHSPruned.clone(), process, task)
addToProcessAndTask('ak8PFJetsCHSSoftDrop' + postfix,
ak8PFJetsCHSSoftDrop.clone(), process, task)
from RecoJets.JetProducers.ak8PFJetsCHS_groomingValueMaps_cfi import ak8PFJetsCHSPrunedMass, ak8PFJetsCHSTrimmedMass, ak8PFJetsCHSFilteredMass, ak8PFJetsCHSSoftDropMass
addToProcessAndTask('ak8PFJetsCHSPrunedMass' + postfix,
ak8PFJetsCHSPrunedMass.clone(), process, task)
addToProcessAndTask('ak8PFJetsCHSTrimmedMass' + postfix,
ak8PFJetsCHSTrimmedMass.clone(), process, task)
addToProcessAndTask('ak8PFJetsCHSFilteredMass' + postfix,
ak8PFJetsCHSFilteredMass.clone(), process, task)
addToProcessAndTask('ak8PFJetsCHSSoftDropMass' + postfix,
ak8PFJetsCHSSoftDropMass.clone(), process, task)
getattr(process, "patJetsAK8").userData.userFloats.src += [
'ak8PFJetsCHSPrunedMass' + postfix,
'ak8PFJetsCHSSoftDropMass' + postfix
]
getattr(process, "patJetsAK8").addTagInfos = cms.bool(False)
# add Njetiness for CHS
process.load('RecoJets.JetProducers.nJettinessAdder_cfi')
task.add(process.Njettiness)
addToProcessAndTask('NjettinessAK8' + postfix, process.Njettiness.clone(),
process, task)
getattr(process,
"NjettinessAK8").src = cms.InputTag("ak8PFJetsCHS" + postfix)
getattr(process, "NjettinessAK8").cone = cms.double(0.8)
getattr(process, "patJetsAK8").userData.userFloats.src += [
'NjettinessAK8' + postfix + ':tau1',
'NjettinessAK8' + postfix + ':tau2',
'NjettinessAK8' + postfix + ':tau3'
]
# add Njetiness from CHS
addToProcessAndTask('NjettinessAK8Subjets' + postfix,
process.Njettiness.clone(), process, task)
getattr(process, "NjettinessAK8Subjets" + postfix).src = cms.InputTag(
"ak8PFJetsPuppiSoftDrop" + postfix, "SubJets")
getattr(process, "NjettinessAK8Subjets").cone = cms.double(0.8)
## PATify CHS soft drop fat jets
addJetCollection(
process,
postfix=postfix,
labelName='AK8PFCHSSoftDrop',
jetSource=cms.InputTag('ak8PFJetsCHSSoftDrop' + postfix),
btagDiscriminators=['None'],
jetCorrections=('AK8PFchs', ['L1FastJet', 'L2Relative',
'L3Absolute'], 'None'),
getJetMCFlavour=False # jet flavor disabled
)
#add RECO AK8 from PUPPI and RECO AK8 PUPPI with soft drop... will be needed by ungroomed AK8 jets later
## PATify puppi soft drop fat jets
addJetCollection(
process,
postfix=postfix,
labelName='AK8PFPuppiSoftDrop' + postfix,
jetSource=cms.InputTag('ak8PFJetsPuppiSoftDrop' + postfix),
btagDiscriminators=['None'],
jetCorrections=('AK8PFPuppi', ['L2Relative', 'L3Absolute'], 'None'),
getJetMCFlavour=False # jet flavor disabled
)
## PATify soft drop subjets
addJetCollection(
process,
postfix=postfix,
labelName='AK8PFPuppiSoftDropSubjets',
jetSource=cms.InputTag('ak8PFJetsPuppiSoftDrop' + postfix, 'SubJets'),
algo='ak', # needed for subjet flavor clustering
rParam=0.8, # needed for subjet flavor clustering
btagDiscriminators=[
'pfDeepCSVJetTags:probb', 'pfDeepCSVJetTags:probbb',
'pfCombinedInclusiveSecondaryVertexV2BJetTags',
'pfCombinedMVAV2BJetTags'
],
jetCorrections=('AK4PFPuppi', ['L2Relative', 'L3Absolute'], 'None'),
explicitJTA=True, # needed for subjet b tagging
svClustering=True, # needed for subjet b tagging
genJetCollection=cms.InputTag('slimmedGenJets'),
fatJets=cms.InputTag(
'ak8PFJetsPuppi'), # needed for subjet flavor clustering
groomedFatJets=cms.InputTag(
'ak8PFJetsPuppiSoftDrop') # needed for subjet flavor clustering
)
# add groomed ECFs and N-subjettiness to soft dropped pat::Jets for fat jets and subjets
process.load('RecoJets.JetProducers.ECF_cff')
addToProcessAndTask(
'nb1AK8PuppiSoftDrop' + postfix,
process.ecfNbeta1.clone(
src=cms.InputTag("ak8PFJetsPuppiSoftDrop" + postfix),
cuts=cms.vstring('', '', 'pt > 250')), process, task)
addToProcessAndTask(
'nb2AK8PuppiSoftDrop' + postfix,
process.ecfNbeta2.clone(
src=cms.InputTag("ak8PFJetsPuppiSoftDrop" + postfix),
cuts=cms.vstring('', '', 'pt > 250')), process, task)
getattr(process, "patJetsAK8PFPuppiSoftDrop").userData.userFloats.src += [
'nb1AK8PuppiSoftDrop' + postfix + ':ecfN2',
'nb1AK8PuppiSoftDrop' + postfix + ':ecfN3'
]
getattr(process, "patJetsAK8PFPuppiSoftDrop").userData.userFloats.src += [
'nb2AK8PuppiSoftDrop' + postfix + ':ecfN2',
'nb2AK8PuppiSoftDrop' + postfix + ':ecfN3'
]
addToProcessAndTask(
'nb1AK8PuppiSoftDropSubjets' + postfix,
process.ecfNbeta1.clone(
src=cms.InputTag("ak8PFJetsPuppiSoftDrop" + postfix, "SubJets")),
process, task)
addToProcessAndTask(
'nb2AK8PuppiSoftDropSubjets' + postfix,
process.ecfNbeta2.clone(
src=cms.InputTag("ak8PFJetsPuppiSoftDrop" + postfix, "SubJets")),
process, task)
getattr(process, "patJetsAK8PFPuppiSoftDropSubjets" +
postfix).userData.userFloats.src += [
'nb1AK8PuppiSoftDropSubjets' + postfix + ':ecfN2',
'nb1AK8PuppiSoftDropSubjets' + postfix + ':ecfN3'
]
getattr(process, "patJetsAK8PFPuppiSoftDropSubjets" +
postfix).userData.userFloats.src += [
'nb2AK8PuppiSoftDropSubjets' + postfix + ':ecfN2',
'nb2AK8PuppiSoftDropSubjets' + postfix + ':ecfN3'
]
getattr(process, "patJetsAK8PFPuppiSoftDropSubjets" +
postfix).userData.userFloats.src += [
'NjettinessAK8Subjets' + postfix + ':tau1',
'NjettinessAK8Subjets' + postfix + ':tau2',
'NjettinessAK8Subjets' + postfix + ':tau3'
]
# rekey the groomed ECF value maps to the ungroomed reco jets, which will then be picked
# up by PAT in the user floats.
addToProcessAndTask(
"ak8PFJetsPuppiSoftDropValueMap" + postfix,
cms.EDProducer(
"RecoJetToPatJetDeltaRValueMapProducer",
src=cms.InputTag("ak8PFJetsPuppi" + postfix),
matched=cms.InputTag("patJetsAK8PFPuppiSoftDrop" + postfix),
distMax=cms.double(0.8),
values=cms.vstring([
'userFloat("nb1AK8PuppiSoftDrop' + postfix + ':ecfN2")',
'userFloat("nb1AK8PuppiSoftDrop' + postfix + ':ecfN3")',
'userFloat("nb2AK8PuppiSoftDrop' + postfix + ':ecfN2")',
'userFloat("nb2AK8PuppiSoftDrop' + postfix + ':ecfN3")',
]),
valueLabels=cms.vstring([
'nb1AK8PuppiSoftDropN2',
'nb1AK8PuppiSoftDropN3',
'nb2AK8PuppiSoftDropN2',
'nb2AK8PuppiSoftDropN3',
])), process, task)
# Patify AK8 PF PUPPI
addJetCollection(
process,
postfix=postfix,
labelName='AK8Puppi',
jetSource=cms.InputTag('ak8PFJetsPuppi' + postfix),
algo='AK',
rParam=0.8,
jetCorrections=('AK8PFPuppi', cms.vstring(['L2Relative',
'L3Absolute']), 'None'),
btagDiscriminators=(
[x.value() for x in patJetsDefault.discriminatorSources] +
['pfBoostedDoubleSecondaryVertexAK8BJetTags']),
genJetCollection=cms.InputTag('slimmedGenJetsAK8'))
getattr(process, "patJetsAK8Puppi" + postfix).userData.userFloats.src = [
] # start with empty list of user floats
getattr(process,
"selectedPatJetsAK8Puppi" + postfix).cut = cms.string("pt > 170")
from RecoJets.JetAssociationProducers.j2tParametersVX_cfi import j2tParametersVX
addToProcessAndTask(
'ak8PFJetsPuppiTracksAssociatorAtVertex' + postfix,
cms.EDProducer("JetTracksAssociatorAtVertex",
j2tParametersVX.clone(coneSize=cms.double(0.8)),
jets=cms.InputTag("ak8PFJetsPuppi")), process, task)
addToProcessAndTask(
'patJetAK8PuppiCharge' + postfix,
cms.EDProducer(
"JetChargeProducer",
src=cms.InputTag("ak8PFJetsPuppiTracksAssociatorAtVertex"),
var=cms.string('Pt'),
exp=cms.double(1.0)), process, task)
## now add AK8 groomed masses and ECF
from RecoJets.JetProducers.ak8PFJetsPuppi_groomingValueMaps_cfi import ak8PFJetsPuppiSoftDropMass
addToProcessAndTask('ak8PFJetsPuppiSoftDropMass' + postfix,
ak8PFJetsPuppiSoftDropMass.clone(), process, task)
getattr(process, "patJetsAK8Puppi" + postfix).userData.userFloats.src += [
'ak8PFJetsPuppiSoftDropMass' + postfix
]
getattr(process, "patJetsAK8Puppi" + postfix).addTagInfos = cms.bool(False)
getattr(process, "patJetsAK8Puppi" + postfix).userData.userFloats.src += [
cms.InputTag('ak8PFJetsPuppiSoftDropValueMap' + postfix,
'nb1AK8PuppiSoftDropN2'),
cms.InputTag('ak8PFJetsPuppiSoftDropValueMap' + postfix,
'nb1AK8PuppiSoftDropN3'),
cms.InputTag('ak8PFJetsPuppiSoftDropValueMap' + postfix,
'nb2AK8PuppiSoftDropN2'),
cms.InputTag('ak8PFJetsPuppiSoftDropValueMap' + postfix,
'nb2AK8PuppiSoftDropN3'),
]
# add PUPPI Njetiness
addToProcessAndTask('NjettinessAK8Puppi' + postfix,
process.Njettiness.clone(), process, task)
getattr(process, "NjettinessAK8Puppi" +
postfix).src = cms.InputTag("ak8PFJetsPuppi" + postfix)
getattr(process, "NjettinessAK8Puppi").cone = cms.double(0.8)
getattr(process, "patJetsAK8Puppi").userData.userFloats.src += [
'NjettinessAK8Puppi' + postfix + ':tau1',
'NjettinessAK8Puppi' + postfix + ':tau2',
'NjettinessAK8Puppi' + postfix + ':tau3'
]
# Now combine the CHS and PUPPI information into the PUPPI jets via delta R value maps
addToProcessAndTask(
"ak8PFJetsCHSValueMap" + postfix,
cms.EDProducer(
"RecoJetToPatJetDeltaRValueMapProducer",
src=cms.InputTag("ak8PFJetsPuppi" + postfix),
matched=cms.InputTag("patJetsAK8" + postfix),
distMax=cms.double(0.8),
values=cms.vstring([
'userFloat("ak8PFJetsCHSPrunedMass"' + postfix + ')',
'userFloat("ak8PFJetsCHSSoftDropMass"' + postfix + ')',
'userFloat("NjettinessAK8' + postfix + ':tau1")',
'userFloat("NjettinessAK8' + postfix + ':tau2")',
'userFloat("NjettinessAK8' + postfix + ':tau3")', 'pt', 'eta',
'phi', 'mass'
]),
valueLabels=cms.vstring([
'ak8PFJetsCHSPrunedMass', 'ak8PFJetsCHSSoftDropMass',
'NjettinessAK8CHSTau1', 'NjettinessAK8CHSTau2',
'NjettinessAK8CHSTau3', 'pt', 'eta', 'phi', 'mass'
])), process, task)
# Now set up the user floats
getattr(process, "patJetsAK8Puppi" + postfix).userData.userFloats.src += [
cms.InputTag('ak8PFJetsCHSValueMap' + postfix,
'ak8PFJetsCHSPrunedMass'),
cms.InputTag('ak8PFJetsCHSValueMap' + postfix,
'ak8PFJetsCHSSoftDropMass'),
cms.InputTag('ak8PFJetsCHSValueMap' + postfix, 'NjettinessAK8CHSTau1'),
cms.InputTag('ak8PFJetsCHSValueMap' + postfix, 'NjettinessAK8CHSTau2'),
cms.InputTag('ak8PFJetsCHSValueMap' + postfix, 'NjettinessAK8CHSTau3'),
cms.InputTag('ak8PFJetsCHSValueMap' + postfix, 'pt'),
cms.InputTag('ak8PFJetsCHSValueMap' + postfix, 'eta'),
cms.InputTag('ak8PFJetsCHSValueMap' + postfix, 'phi'),
cms.InputTag('ak8PFJetsCHSValueMap' + postfix, 'mass'),
]
addToProcessAndTask(
"slimmedJetsAK8PFPuppiSoftDropSubjets" + postfix,
cms.EDProducer(
"PATJetSlimmer",
src=cms.InputTag("selectedPatJetsAK8PFPuppiSoftDropSubjets"),
packedPFCandidates=cms.InputTag("packedPFCandidates"),
dropJetVars=cms.string("1"),
dropDaughters=cms.string("0"),
rekeyDaughters=cms.string("1"),
dropTrackRefs=cms.string("1"),
dropSpecific=cms.string("1"),
dropTagInfos=cms.string("1"),
modifyJets=cms.bool(True),
mixedDaughters=cms.bool(False),
modifierConfig=cms.PSet(modifications=cms.VPSet())), process, task)
## Establish references between PATified fat jets and subjets using the BoostedJetMerger
addToProcessAndTask(
"slimmedJetsAK8PFPuppiSoftDropPacked" + postfix,
cms.EDProducer(
"BoostedJetMerger",
jetSrc=cms.InputTag("selectedPatJetsAK8PFPuppiSoftDrop"),
subjetSrc=cms.InputTag("slimmedJetsAK8PFPuppiSoftDropSubjets")),
process, task)
addToProcessAndTask(
"packedPatJetsAK8" + postfix,
cms.EDProducer(
"JetSubstructurePacker",
jetSrc=cms.InputTag("selectedPatJetsAK8Puppi" + postfix),
distMax=cms.double(0.8),
algoTags=cms.VInputTag(
cms.InputTag("slimmedJetsAK8PFPuppiSoftDropPacked" + postfix)),
algoLabels=cms.vstring('SoftDropPuppi'),
fixDaughters=cms.bool(True),
packedPFCandidates=cms.InputTag("packedPFCandidates" + postfix),
), process, task)
# switch off daughter re-keying since it's done in the JetSubstructurePacker (and can't be done afterwards)
process.slimmedJetsAK8.rekeyDaughters = "0"
def miniAOD_customizeCommon(process):
process.patMuons.isoDeposits = cms.PSet()
process.patElectrons.isoDeposits = cms.PSet()
process.patTaus.isoDeposits = cms.PSet()
process.patPhotons.isoDeposits = cms.PSet()
#
process.patMuons.embedTrack = True # used for IDs
process.patMuons.embedCombinedMuon = True # used for IDs
process.patMuons.embedMuonBestTrack = True # used for IDs
process.patMuons.embedStandAloneMuon = True # maybe?
process.patMuons.embedPickyMuon = False # no, use best track
process.patMuons.embedTpfmsMuon = False # no, use best track
process.patMuons.embedDytMuon = False # no, use best track
#
# disable embedding of electron and photon associated objects already stored by the ReducedEGProducer
process.patElectrons.embedGsfElectronCore = False ## process.patElectrons.embed in AOD externally stored gsf electron core
process.patElectrons.embedSuperCluster = False ## process.patElectrons.embed in AOD externally stored supercluster
process.patElectrons.embedPflowSuperCluster = False ## process.patElectrons.embed in AOD externally stored supercluster
process.patElectrons.embedSeedCluster = False ## process.patElectrons.embed in AOD externally stored the electron's seedcluster
process.patElectrons.embedBasicClusters = False ## process.patElectrons.embed in AOD externally stored the electron's basic clusters
process.patElectrons.embedPreshowerClusters = False ## process.patElectrons.embed in AOD externally stored the electron's preshower clusters
process.patElectrons.embedPflowBasicClusters = False ## process.patElectrons.embed in AOD externally stored the electron's pflow basic clusters
process.patElectrons.embedPflowPreshowerClusters = False ## process.patElectrons.embed in AOD externally stored the electron's pflow preshower clusters
process.patElectrons.embedRecHits = False ## process.patElectrons.embed in AOD externally stored the RecHits - can be called from the PATElectronProducer
process.patElectrons.electronSource = cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.patElectrons.electronIDSources = cms.PSet(
# configure many IDs as InputTag <someName> = <someTag> you
# can comment out those you don't want to save some disk space
eidRobustLoose = cms.InputTag("reducedEgamma","eidRobustLoose"),
eidRobustTight = cms.InputTag("reducedEgamma","eidRobustTight"),
eidLoose = cms.InputTag("reducedEgamma","eidLoose"),
eidTight = cms.InputTag("reducedEgamma","eidTight"),
eidRobustHighEnergy = cms.InputTag("reducedEgamma","eidRobustHighEnergy"),
)
process.patElectrons.addPFClusterIso = cms.bool(True)
process.patElectrons.ecalPFClusterIsoMap = cms.InputTag("reducedEgamma", "eleEcalPFClusIso")
process.patElectrons.hcalPFClusterIsoMap = cms.InputTag("reducedEgamma", "eleHcalPFClusIso")
process.elPFIsoDepositChargedPAT.src = cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.elPFIsoDepositChargedAllPAT.src = cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.elPFIsoDepositNeutralPAT.src = cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.elPFIsoDepositGammaPAT.src = cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.elPFIsoDepositPUPAT.src = cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
#
process.patPhotons.embedSuperCluster = False ## whether to process.patPhotons.embed in AOD externally stored supercluster
process.patPhotons.embedSeedCluster = False ## process.patPhotons.embed in AOD externally stored the photon's seedcluster
process.patPhotons.embedBasicClusters = False ## process.patPhotons.embed in AOD externally stored the photon's basic clusters
process.patPhotons.embedPreshowerClusters = False ## process.patPhotons.embed in AOD externally stored the photon's preshower clusters
process.patPhotons.embedRecHits = False ## process.patPhotons.embed in AOD externally stored the RecHits - can be called from the PATPhotonProducer
process.patPhotons.addPFClusterIso = cms.bool(True)
process.patPhotons.ecalPFClusterIsoMap = cms.InputTag("reducedEgamma", "phoEcalPFClusIso")
process.patPhotons.hcalPFClusterIsoMap = cms.InputTag("reducedEgamma", "phoHcalPFClusIso")
process.patPhotons.photonSource = cms.InputTag("reducedEgamma","reducedGedPhotons")
process.patPhotons.electronSource = cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.patPhotons.photonIDSources = cms.PSet(
PhotonCutBasedIDLoose = cms.InputTag('reducedEgamma',
'PhotonCutBasedIDLoose'),
PhotonCutBasedIDTight = cms.InputTag('reducedEgamma',
'PhotonCutBasedIDTight')
)
process.phPFIsoDepositChargedPAT.src = cms.InputTag("reducedEgamma","reducedGedPhotons")
process.phPFIsoDepositChargedAllPAT.src = cms.InputTag("reducedEgamma","reducedGedPhotons")
process.phPFIsoDepositNeutralPAT.src = cms.InputTag("reducedEgamma","reducedGedPhotons")
process.phPFIsoDepositGammaPAT.src = cms.InputTag("reducedEgamma","reducedGedPhotons")
process.phPFIsoDepositPUPAT.src = cms.InputTag("reducedEgamma","reducedGedPhotons")
#
process.selectedPatJets.cut = cms.string("pt > 10")
process.selectedPatMuons.cut = cms.string("pt > 5 || isPFMuon || (pt > 3 && (isGlobalMuon || isStandAloneMuon || numberOfMatches > 0 || muonID('RPCMuLoose')))")
process.selectedPatElectrons.cut = cms.string("")
process.selectedPatTaus.cut = cms.string("pt > 18. && tauID('decayModeFindingNewDMs')> 0.5")
process.selectedPatPhotons.cut = cms.string("")
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
from PhysicsTools.PatAlgos.slimming.applySubstructure_cff import applySubstructure
applySubstructure( process )
#
from PhysicsTools.PatAlgos.tools.trigTools import switchOnTriggerStandAlone
switchOnTriggerStandAlone( process, outputModule = '' )
process.patTrigger.packTriggerPathNames = cms.bool(True)
#
# apply type I + other PFMEt corrections to pat::MET object
# and estimate systematic uncertainties on MET
from PhysicsTools.PatUtils.tools.runMETCorrectionsAndUncertainties import runMetCorAndUncForMiniAODProduction
runMetCorAndUncForMiniAODProduction(process, metType="PF",
jetCollUnskimmed="patJets",
jetColl="selectedPatJets")
#caloMET computation
from PhysicsTools.PatAlgos.tools.metTools import addMETCollection
addMETCollection(process,
labelName = "patCaloMet",
metSource = "caloMetM"
)
#noHF pfMET =========
process.noHFCands = cms.EDFilter("GenericPFCandidateSelector",
src=cms.InputTag("particleFlow"),
cut=cms.string("abs(pdgId)!=1 && abs(pdgId)!=2 && abs(eta)<3.0")
)
runMetCorAndUncForMiniAODProduction(process,
pfCandColl=cms.InputTag("noHFCands"),
recomputeMET=True, #needed for HF removal
postfix="NoHF"
)
process.load('PhysicsTools.PatAlgos.slimming.slimmedMETs_cfi')
process.slimmedMETsNoHF = process.slimmedMETs.clone()
process.slimmedMETsNoHF.src = cms.InputTag("patMETsNoHF")
process.slimmedMETsNoHF.rawVariation = cms.InputTag("patPFMetNoHF")
process.slimmedMETsNoHF.t1Uncertainties = cms.InputTag("patPFMetT1%sNoHF")
process.slimmedMETsNoHF.t01Variation = cms.InputTag("patPFMetT0pcT1NoHF")
process.slimmedMETsNoHF.t1SmearedVarsAndUncs = cms.InputTag("patPFMetT1Smear%sNoHF")
process.slimmedMETsNoHF.tXYUncForRaw = cms.InputTag("patPFMetTxyNoHF")
process.slimmedMETsNoHF.tXYUncForT1 = cms.InputTag("patPFMetT1TxyNoHF")
process.slimmedMETsNoHF.tXYUncForT01 = cms.InputTag("patPFMetT0pcT1TxyNoHF")
process.slimmedMETsNoHF.tXYUncForT1Smear = cms.InputTag("patPFMetT1SmearTxyNoHF")
process.slimmedMETsNoHF.tXYUncForT01Smear = cms.InputTag("patPFMetT0pcT1SmearTxyNoHF")
del process.slimmedMETsNoHF.caloMET
# ================== NoHF pfMET
#keep this after all addJetCollections otherwise it will attempt computing them also for stuf with no taginfos
#Some useful BTAG vars
process.patJets.userData.userFunctions = cms.vstring(
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).p4.M):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).numberOfSourceCandidatePtrs):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").flightDistance(0).value):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").flightDistance(0).significance):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).p4.x):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).p4.y):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).p4.z):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).vertex.x):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).vertex.y):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).vertex.z):(0)',
)
process.patJets.userData.userFunctionLabels = cms.vstring('vtxMass','vtxNtracks','vtx3DVal','vtx3DSig','vtxPx','vtxPy','vtxPz','vtxPosX','vtxPosY','vtxPosZ')
process.patJets.tagInfoSources = cms.VInputTag(cms.InputTag("pfSecondaryVertexTagInfos"))
process.patJets.addTagInfos = cms.bool(True)
#
## PU JetID
process.load("RecoJets.JetProducers.PileupJetID_cfi")
process.patJets.userData.userFloats.src = [ cms.InputTag("pileupJetId:fullDiscriminant"), ]
## CaloJets
process.caloJetMap = cms.EDProducer("RecoJetDeltaRValueMapProducer",
src = process.patJets.jetSource,
matched = cms.InputTag("ak4CaloJets"),
distMax = cms.double(0.4),
values = cms.vstring('pt','emEnergyFraction'),
valueLabels = cms.vstring('pt','emEnergyFraction'),
lazyParser = cms.bool(True) )
process.patJets.userData.userFloats.src += [ cms.InputTag("caloJetMap:pt"), cms.InputTag("caloJetMap:emEnergyFraction") ]
#EGM object modifications
from RecoEgamma.EgammaTools.egammaObjectModificationsInMiniAOD_cff import egamma_modifications
process.slimmedElectrons.modifierConfig.modifications = egamma_modifications
process.slimmedPhotons.modifierConfig.modifications = egamma_modifications
#VID Electron IDs
electron_ids = ['RecoEgamma.ElectronIdentification.Identification.cutBasedElectronID_PHYS14_PU20bx25_V2_cff',
'RecoEgamma.ElectronIdentification.Identification.cutBasedElectronID_Spring15_25ns_V1_cff',
'RecoEgamma.ElectronIdentification.Identification.cutBasedElectronID_Spring15_50ns_V1_cff',
'RecoEgamma.ElectronIdentification.Identification.heepElectronID_HEEPV60_cff',
'RecoEgamma.ElectronIdentification.Identification.mvaElectronID_Spring15_25ns_nonTrig_V1_cff']
switchOnVIDElectronIdProducer(process,DataFormat.MiniAOD)
process.egmGsfElectronIDs.physicsObjectSrc = \
cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.electronMVAValueMapProducer.src = \
cms.InputTag('reducedEgamma','reducedGedGsfElectrons')
process.electronRegressionValueMapProducer.src = \
cms.InputTag('reducedEgamma','reducedGedGsfElectrons')
for idmod in electron_ids:
setupAllVIDIdsInModule(process,idmod,setupVIDElectronSelection,None,False)
#VID Photon IDs
photon_ids = ['RecoEgamma.PhotonIdentification.Identification.cutBasedPhotonID_PHYS14_PU20bx25_V2p1_cff',
'RecoEgamma.PhotonIdentification.Identification.cutBasedPhotonID_Spring15_50ns_V1_cff',
'RecoEgamma.PhotonIdentification.Identification.mvaPhotonID_Spring15_25ns_nonTrig_V2p1_cff',
'RecoEgamma.PhotonIdentification.Identification.mvaPhotonID_Spring15_50ns_nonTrig_V2p1_cff']
switchOnVIDPhotonIdProducer(process,DataFormat.MiniAOD)
process.egmPhotonIDs.physicsObjectSrc = \
cms.InputTag("reducedEgamma","reducedGedPhotons")
process.photonIDValueMapProducer.src = \
cms.InputTag("reducedEgamma","reducedGedPhotons")
process.photonRegressionValueMapProducer.src = \
cms.InputTag("reducedEgamma","reducedGedPhotons")
process.photonIDValueMapProducer.particleBasedIsolation = \
cms.InputTag("reducedEgamma","reducedPhotonPfCandMap")
process.photonMVAValueMapProducer.src = \
cms.InputTag('reducedEgamma','reducedGedPhotons')
for idmod in photon_ids:
setupAllVIDIdsInModule(process,idmod,setupVIDPhotonSelection,None,False)
# Adding puppi jets
process.load('CommonTools.PileupAlgos.Puppi_cff')
process.load('RecoJets.JetProducers.ak4PFJetsPuppi_cfi')
process.ak4PFJetsPuppi.doAreaFastjet = True # even for standard ak4PFJets this is overwritten in RecoJets/Configuration/python/RecoPFJets_cff
#process.puppi.candName = cms.InputTag('packedPFCandidates')
#process.puppi.vertexName = cms.InputTag('offlineSlimmedPrimaryVertices')
# kind of ugly, is there a better way to do this?
process.pfNoLepPUPPI = cms.EDFilter("PdgIdCandViewSelector",
src = cms.InputTag("particleFlow"),
pdgId = cms.vint32( 1,2,22,111,130,310,2112,211,-211,321,-321,999211,2212,-2212 )
)
process.pfLeptonsPUPPET = cms.EDFilter("PdgIdCandViewSelector",
src = cms.InputTag("particleFlow"),
pdgId = cms.vint32(-11,11,-13,13),
)
process.puppiNoLep = process.puppi.clone()
process.puppiNoLep.candName = cms.InputTag('pfNoLepPUPPI')
from RecoJets.JetAssociationProducers.j2tParametersVX_cfi import j2tParametersVX
process.ak4PFJetsPuppiTracksAssociatorAtVertex = cms.EDProducer("JetTracksAssociatorAtVertex",
j2tParametersVX,
jets = cms.InputTag("ak4PFJetsPuppi")
)
process.patJetPuppiCharge = cms.EDProducer("JetChargeProducer",
src = cms.InputTag("ak4PFJetsPuppiTracksAssociatorAtVertex"),
var = cms.string('Pt'),
exp = cms.double(1.0)
)
addJetCollection(process, postfix = "", labelName = 'Puppi', jetSource = cms.InputTag('ak4PFJetsPuppi'),
jetCorrections = ('AK4PFchs', ['L2Relative', 'L3Absolute'], ''),
algo= 'AK', rParam = 0.4, btagDiscriminators = map(lambda x: x.value() ,process.patJets.discriminatorSources)
)
process.patJetGenJetMatchPuppi.matched = 'slimmedGenJets'
process.patJetsPuppi.userData.userFloats.src = cms.VInputTag(cms.InputTag(""))
process.patJetsPuppi.jetChargeSource = cms.InputTag("patJetPuppiCharge")
process.selectedPatJetsPuppi.cut = cms.string("pt > 20")
process.load('PhysicsTools.PatAlgos.slimming.slimmedJets_cfi')
process.slimmedJetsPuppi = process.slimmedJets.clone()
process.slimmedJetsPuppi.src = cms.InputTag("selectedPatJetsPuppi")
process.slimmedJetsPuppi.packedPFCandidates = cms.InputTag("packedPFCandidates")
## puppi met
process.load('RecoMET.METProducers.PFMET_cfi')
process.puppiForMET = cms.EDProducer("CandViewMerger",
src = cms.VInputTag( "pfLeptonsPUPPET", "puppiNoLep")
)
process.pfMetPuppi = process.pfMet.clone()
process.pfMetPuppi.src = cms.InputTag("puppiForMET")
process.pfMetPuppi.alias = cms.string('pfMetPuppi')
# type1 correction, from puppi jets
process.corrPfMetType1Puppi = process.corrPfMetType1.clone(
src = 'ak4PFJetsPuppi',
jetCorrLabel = 'ak4PFCHSL2L3Corrector',
)
del process.corrPfMetType1Puppi.offsetCorrLabel # no L1 for PUPPI jets
process.pfMetT1Puppi = process.pfMetT1.clone(
src = 'pfMetPuppi',
srcCorrections = [ cms.InputTag("corrPfMetType1Puppi","type1") ]
)
from PhysicsTools.PatAlgos.tools.metTools import addMETCollection
addMETCollection(process, labelName='patMETPuppi', metSource='pfMetT1Puppi') # T1
addMETCollection(process, labelName='patPFMetPuppi', metSource='pfMetPuppi') # RAW
process.load('PhysicsTools.PatAlgos.slimming.slimmedMETs_cfi')
process.slimmedMETsPuppi = process.slimmedMETs.clone()
process.slimmedMETsPuppi.src = cms.InputTag("patMETPuppi")
process.slimmedMETsPuppi.rawVariation = cms.InputTag("patPFMetPuppi") # only central value
# only central values for puppi met
del process.slimmedMETsPuppi.t01Variation
del process.slimmedMETsPuppi.t1SmearedVarsAndUncs
del process.slimmedMETsPuppi.tXYUncForRaw
del process.slimmedMETsPuppi.tXYUncForT1
del process.slimmedMETsPuppi.tXYUncForT01
del process.slimmedMETsPuppi.tXYUncForT1Smear
del process.slimmedMETsPuppi.tXYUncForT01Smear
del process.slimmedMETsPuppi.caloMET
addJetCollection(
process,
labelName='AK5PF',
jetSource=cms.InputTag('ak5PFJets'),
jetCorrections=('AK5PF',
cms.vstring(['L1FastJet', 'L2Relative',
'L3Absolute']), 'Type-2'),
btagDiscriminators=[
'jetBProbabilityBJetTags',
'jetProbabilityBJetTags',
'trackCountingHighPurBJetTags',
'trackCountingHighEffBJetTags',
'negativeOnlyJetBProbabilityJetTags',
'negativeOnlyJetProbabilityJetTags',
'negativeTrackCountingHighEffJetTags',
'negativeTrackCountingHighPurJetTags',
'positiveOnlyJetBProbabilityJetTags',
'positiveOnlyJetProbabilityJetTags',
'simpleSecondaryVertexHighEffBJetTags',
'simpleSecondaryVertexHighPurBJetTags',
'simpleSecondaryVertexNegativeHighEffBJetTags',
'simpleSecondaryVertexNegativeHighPurBJetTags',
'combinedSecondaryVertexBJetTags',
'combinedSecondaryVertexPositiveBJetTags'
#,'combinedSecondaryVertexV1BJetTags'
#,'combinedSecondaryVertexV1PositiveBJetTags'
,
'combinedSecondaryVertexMVABJetTags',
'combinedSecondaryVertexNegativeBJetTags'
#,'combinedSecondaryVertexV1NegativeBJetTags'
,
'softPFMuonBJetTags',
'softPFMuonByPtBJetTags',
'softPFMuonByIP3dBJetTags',
'softPFMuonByIP2dBJetTags',
'positiveSoftPFMuonBJetTags',
'positiveSoftPFMuonByPtBJetTags',
'positiveSoftPFMuonByIP3dBJetTags',
'positiveSoftPFMuonByIP2dBJetTags',
'negativeSoftPFMuonBJetTags',
'negativeSoftPFMuonByPtBJetTags',
'negativeSoftPFMuonByIP3dBJetTags',
'negativeSoftPFMuonByIP2dBJetTags',
'softPFElectronBJetTags',
'softPFElectronByPtBJetTags',
'softPFElectronByIP3dBJetTags',
'softPFElectronByIP2dBJetTags',
'positiveSoftPFElectronBJetTags',
'positiveSoftPFElectronByPtBJetTags',
'positiveSoftPFElectronByIP3dBJetTags',
'positiveSoftPFElectronByIP2dBJetTags',
'negativeSoftPFElectronBJetTags',
'negativeSoftPFElectronByPtBJetTags',
'negativeSoftPFElectronByIP3dBJetTags',
'negativeSoftPFElectronByIP2dBJetTags',
'simpleInclusiveSecondaryVertexHighEffBJetTags',
'simpleInclusiveSecondaryVertexHighPurBJetTags',
'doubleSecondaryVertexHighEffBJetTags',
'combinedInclusiveSecondaryVertexBJetTags',
'combinedInclusiveSecondaryVertexPositiveBJetTags'
#,'combinedMVABJetTags'
,
'positiveCombinedMVABJetTags',
'negativeCombinedMVABJetTags'
#,'combinedSecondaryVertexSoftPFLeptonV1BJetTags'
#,'positiveCombinedSecondaryVertexSoftPFLeptonV1BJetTags'
#,'negativeCombinedSecondaryVertexSoftPFLeptonV1BJetTags'
],
)
jecLevelsCalo.insert( 0, 'L1Offset' )
jecLevelsCalo.remove( 'L1FastJet' )
process.patJetCorrFactors.levels = jecLevelsCalo
#process.patJetCorrFactors.useRho = False # FIXME: does not apply
if usePFJets:
if useL1FastJet:
process.ak5PFJets = ak5PFJets.clone( doAreaFastjet = True )
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
from PhysicsTools.PatAlgos.tools.metTools import addPfMET
addJetCollection( process
, cms.InputTag( jetAlgo.lower() + pfSuffix + 'Jets' )
, jetAlgo
, pfSuffix
, doJTA = True
, doBTagging = True
, jetCorrLabel = ( jecSetAddPF, jecLevels )
, doType1MET = False
, doL1Cleaning = False
, doL1Counters = True
, genJetCollection = cms.InputTag( jetAlgo.lower() + 'GenJets' )
, doJetID = True
)
addPfMET( process
, jetAlgo + pfSuffix
)
#removeSpecificPATObjects( process
# , names = [ 'Photons', 'Taus' ]
# ) # includes 'removeCleaning'
if runPF2PAT:
if not runOnMC:
'combinedSecondaryVertexBJetTags',
'combinedSecondaryVertexPositiveBJetTags',
'combinedSecondaryVertexV1BJetTags',
'combinedSecondaryVertexSoftPFLeptonV1BJetTags',
'combinedSecondaryVertexMVABJetTags',
'combinedInclusiveSecondaryVertexBJetTags',
'combinedInclusiveSecondaryVertexPositiveBJetTags'
]
if doAK5:
addJetCollection(
process,
labelName='AK5PF',
postfix=postfix,
jetSource=cms.InputTag('ak5PFJets'),
algo='AK5',
jetCorrections=('AK5PF', inputJetCorrLabel, ''),
#btagDiscriminators = btagDiscriminators,
#btagInfos = btagInfos,
#jetTrackAssociation = True,
outputModules=outputModules,
)
if doAK4:
#addJetCollection(process,
# labelName = 'AK4PF',
# postfix = postfix,
# jetSource = cms.InputTag('ak4PFJets'),
# algo = 'AK4',
# jetCorrections = ('AK5PF', inputJetCorrLabel, ''),
# btagDiscriminators = btagDiscriminators,
# btagInfos = btagInfos,
def addFlashggPuppiJets(process,
vertexIndex = 0,
doQGTagging = True,
label ='',
useLocalJEC = True,
dbfile = 'flashgg/MetaData/data/PuppiJEC/PY8_RunIISpring15DR74_bx50_MC.db',
debug = False):
from CommonTools.PileupAlgos.flashggPuppi_cff import flashggPuppi
from RecoJets.JetProducers.ak4PFJets_cfi import ak4PFJets
# fill the puppi parameters
setattr(process, 'flashggPuppi' + label,
flashggPuppi.clone( candName = cms.InputTag('packedPFCandidates'),
vertexName = cms.InputTag('offlineSlimmedPrimaryVertices'),
diPhotonTag = cms.InputTag('flashggDiPhotons'),
VertexCandidateMapTag = cms.InputTag('flashggVertexMapForPUPPI'),
vertexIndex = cms.uint32(vertexIndex),
debug = cms.untracked.bool(debug)
)
)
setattr ( process, 'ak4PFJetsPuppi' + label,
ak4PFJets.clone ( src = cms.InputTag('flashggPuppi' + label), doAreaFastjet = True)
)
if useLocalJEC :
print ':: using a local JEC dbfile for PUPPI :',
print '\t -- ', dbfile
from flashgg.MicroAOD.flashggJetTools_cfi import loadLocalJECDBfile
loadLocalJECDBfile(process,
dbfile = os.environ['CMSSW_BASE'] + '/src/' + dbfile,
tag = 'JetCorrectorParametersCollection_PY8_RunIISpring15DR74_bx50_MC_AK4PUPPI',
label = 'AK4PFPuppi')
# do jet clustering
addJetCollection(
process,
postfix = label,
labelName = 'AK4PUPPI',
jetSource = cms.InputTag('ak4PFJetsPuppi' + label),
pvSource = cms.InputTag('offlineSlimmedPrimaryVertices'),
pfCandidates = cms.InputTag('packedPFCandidates'),
svSource = cms.InputTag('slimmedSecondaryVertices'),
btagDiscriminators = [ flashggBTag ],
jetCorrections = ('AK4PFPuppi',['L1FastJet', 'L2Relative', 'L3Absolute'], 'None'),
genJetCollection = cms.InputTag('slimmedGenJets'),
genParticles = cms.InputTag('prunedGenParticles'),
# jet param
algo = 'AK', rParam = 0.4
)
getattr(process, 'patJetCorrFactorsAK4PUPPI' + label).primaryVertices = "offlineSlimmedPrimaryVertices"
setattr( process,'flashggPUPPIJets'+ label,
cms.EDProducer('FlashggJetProducer',
DiPhotonTag = cms.InputTag('flashggDiPhotons'),
VertexTag = cms.InputTag('offlineSlimmedPrimaryVertices'),
JetTag = cms.InputTag('patJetsAK4PUPPI' + label),
VertexCandidateMapTag = cms.InputTag("flashggVertexMapForPUPPI"),
UsePuppi = cms.untracked.bool(True),
ComputeSimpleRMS = cms.bool(True)
# PileupJetIdParameters = cms.PSet(pu_jetid)
))
# randomize Jets
from flashgg.MicroAOD.flashggRandomizedJetProducer_cfi import flashggRandomizedJets
flashggRandomizedPUPPIJets = flashggRandomizedJets.clone()
flashggRandomizedPUPPIJets.src = "flashggPUPPIJets" + label
setattr(process.RandomNumberGeneratorService, 'flashggRandomizedPUPPIJets' + label, cms.PSet(initialSeed = cms.untracked.uint32(36421523 + int(label))))
setattr( process, 'flashggRandomizedPUPPIJets' + label, flashggRandomizedPUPPIJets )
setattr( process, 'selectedFlashggPUPPIJets'+ label,
cms.EDFilter("FLASHggJetSelector",
src = cms.InputTag( 'flashggRandomizedPUPPIJets'+ label ),
cut = cms.string("pt > 15.")
))
def miniAOD_customizeCommon(process):
process.patMuons.isoDeposits = cms.PSet()
process.patElectrons.isoDeposits = cms.PSet()
process.patTaus.isoDeposits = cms.PSet()
process.patPhotons.isoDeposits = cms.PSet()
#
process.patMuons.embedTrack = True # used for IDs
process.patMuons.embedCombinedMuon = True # used for IDs
process.patMuons.embedMuonBestTrack = True # used for IDs
process.patMuons.embedStandAloneMuon = True # maybe?
process.patMuons.embedPickyMuon = False # no, use best track
process.patMuons.embedTpfmsMuon = False # no, use best track
process.patMuons.embedDytMuon = False # no, use best track
#
# disable embedding of electron and photon associated objects already stored by the ReducedEGProducer
process.patElectrons.embedGsfElectronCore = False ## process.patElectrons.embed in AOD externally stored gsf electron core
process.patElectrons.embedSuperCluster = False ## process.patElectrons.embed in AOD externally stored supercluster
process.patElectrons.embedPflowSuperCluster = False ## process.patElectrons.embed in AOD externally stored supercluster
process.patElectrons.embedSeedCluster = False ## process.patElectrons.embed in AOD externally stored the electron's seedcluster
process.patElectrons.embedBasicClusters = False ## process.patElectrons.embed in AOD externally stored the electron's basic clusters
process.patElectrons.embedPreshowerClusters = False ## process.patElectrons.embed in AOD externally stored the electron's preshower clusters
process.patElectrons.embedPflowBasicClusters = False ## process.patElectrons.embed in AOD externally stored the electron's pflow basic clusters
process.patElectrons.embedPflowPreshowerClusters = False ## process.patElectrons.embed in AOD externally stored the electron's pflow preshower clusters
process.patElectrons.embedRecHits = False ## process.patElectrons.embed in AOD externally stored the RecHits - can be called from the PATElectronProducer
process.patElectrons.electronSource = cms.InputTag(
"reducedEgamma", "reducedGedGsfElectrons")
process.patElectrons.electronIDSources = cms.PSet(
# configure many IDs as InputTag <someName> = <someTag> you
# can comment out those you don't want to save some disk space
eidRobustLoose=cms.InputTag("reducedEgamma", "eidRobustLoose"),
eidRobustTight=cms.InputTag("reducedEgamma", "eidRobustTight"),
eidLoose=cms.InputTag("reducedEgamma", "eidLoose"),
eidTight=cms.InputTag("reducedEgamma", "eidTight"),
eidRobustHighEnergy=cms.InputTag("reducedEgamma",
"eidRobustHighEnergy"),
)
process.patElectrons.addPFClusterIso = cms.bool(True)
process.patElectrons.ecalPFClusterIsoMap = cms.InputTag(
"reducedEgamma", "eleEcalPFClusIso")
process.patElectrons.hcalPFClusterIsoMap = cms.InputTag(
"reducedEgamma", "eleHcalPFClusIso")
process.elPFIsoDepositChargedPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedGsfElectrons")
process.elPFIsoDepositChargedAllPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedGsfElectrons")
process.elPFIsoDepositNeutralPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedGsfElectrons")
process.elPFIsoDepositGammaPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedGsfElectrons")
process.elPFIsoDepositPUPAT.src = cms.InputTag("reducedEgamma",
"reducedGedGsfElectrons")
#
process.patPhotons.embedSuperCluster = False ## whether to process.patPhotons.embed in AOD externally stored supercluster
process.patPhotons.embedSeedCluster = False ## process.patPhotons.embed in AOD externally stored the photon's seedcluster
process.patPhotons.embedBasicClusters = False ## process.patPhotons.embed in AOD externally stored the photon's basic clusters
process.patPhotons.embedPreshowerClusters = False ## process.patPhotons.embed in AOD externally stored the photon's preshower clusters
process.patPhotons.embedRecHits = False ## process.patPhotons.embed in AOD externally stored the RecHits - can be called from the PATPhotonProducer
process.patPhotons.addPFClusterIso = cms.bool(True)
process.patPhotons.ecalPFClusterIsoMap = cms.InputTag(
"reducedEgamma", "phoEcalPFClusIso")
process.patPhotons.hcalPFClusterIsoMap = cms.InputTag(
"reducedEgamma", "phoHcalPFClusIso")
process.patPhotons.photonSource = cms.InputTag("reducedEgamma",
"reducedGedPhotons")
process.patPhotons.electronSource = cms.InputTag("reducedEgamma",
"reducedGedGsfElectrons")
process.patPhotons.photonIDSources = cms.PSet(
PhotonCutBasedIDLoose=cms.InputTag('reducedEgamma',
'PhotonCutBasedIDLoose'),
PhotonCutBasedIDTight=cms.InputTag('reducedEgamma',
'PhotonCutBasedIDTight'))
process.phPFIsoDepositChargedPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedPhotons")
process.phPFIsoDepositChargedAllPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedPhotons")
process.phPFIsoDepositNeutralPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedPhotons")
process.phPFIsoDepositGammaPAT.src = cms.InputTag("reducedEgamma",
"reducedGedPhotons")
process.phPFIsoDepositPUPAT.src = cms.InputTag("reducedEgamma",
"reducedGedPhotons")
#
process.selectedPatJets.cut = cms.string("pt > 10")
process.selectedPatMuons.cut = cms.string(
"pt > 5 || isPFMuon || (pt > 3 && (isGlobalMuon || isStandAloneMuon || numberOfMatches > 0 || muonID('RPCMuLoose')))"
)
process.selectedPatElectrons.cut = cms.string("")
process.selectedPatTaus.cut = cms.string(
"pt > 18. && tauID('decayModeFindingNewDMs')> 0.5")
process.selectedPatPhotons.cut = cms.string("")
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
from PhysicsTools.PatAlgos.slimming.applySubstructure_cff import applySubstructure
applySubstructure(process)
#
from PhysicsTools.PatAlgos.tools.trigTools import switchOnTriggerStandAlone
switchOnTriggerStandAlone(process, outputModule='')
process.patTrigger.packTriggerPathNames = cms.bool(True)
#
# apply type I/type I + II PFMEt corrections to pat::MET object
# and estimate systematic uncertainties on MET
# FIXME: are we 100% sure this should still be PF and not PFchs? -> MM: Yes for <=75X
addJetCollection(process,
postfix="ForMetUnc",
labelName='AK4PF',
jetSource=cms.InputTag('ak4PFJets'),
jetCorrections=('AK4PF',
['L1FastJet', 'L2Relative',
'L3Absolute'], ''))
process.patJetsAK4PFForMetUnc.getJetMCFlavour = False
from PhysicsTools.PatUtils.tools.runMETCorrectionsAndUncertainties import runMETCorrectionsAndUncertainties
#MET flavors
runMETCorrectionsAndUncertainties(
process,
metType="PF",
correctionLevel=["T0", "T1", "T2", "Smear", "Txy"],
computeUncertainties=False,
produceIntermediateCorrections=True,
addToPatDefaultSequence=False,
jetCollectionUnskimmed="patJetsAK4PFForMetUnc",
jetCollection="selectedPatJetsAK4PFForMetUnc",
postfix="",
)
#MET T1 uncertainties
runMETCorrectionsAndUncertainties(
process,
metType="PF",
correctionLevel=["T1"],
computeUncertainties=True,
produceIntermediateCorrections=False,
addToPatDefaultSequence=False,
jetCollectionUnskimmed="patJetsAK4PFForMetUnc",
jetCollection="selectedPatJetsAK4PFForMetUnc",
postfix="",
)
#MET T1 Smeared JER uncertainties
runMETCorrectionsAndUncertainties(
process,
metType="PF",
correctionLevel=["T1", "Smear"],
computeUncertainties=True,
produceIntermediateCorrections=False,
addToPatDefaultSequence=False,
jetCollectionUnskimmed="patJetsAK4PFForMetUnc",
jetCollection="selectedPatJetsAK4PFForMetUnc",
postfix="",
)
from PhysicsTools.PatAlgos.tools.metTools import addMETCollection
addMETCollection(process, labelName="patCaloMet", metSource="caloMetM")
#keep this after all addJetCollections otherwise it will attempt computing them also for stuf with no taginfos
#Some useful BTAG vars
process.patJets.userData.userFunctions = cms.vstring(
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).p4.M):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).numberOfSourceCandidatePtrs):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").flightDistance(0).value):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").flightDistance(0).significance):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).p4.x):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).p4.y):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).p4.z):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).vertex.x):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).vertex.y):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).vertex.z):(0)',
)
process.patJets.userData.userFunctionLabels = cms.vstring(
'vtxMass', 'vtxNtracks', 'vtx3DVal', 'vtx3DSig', 'vtxPx', 'vtxPy',
'vtxPz', 'vtxPosX', 'vtxPosY', 'vtxPosZ')
process.patJets.tagInfoSources = cms.VInputTag(
cms.InputTag("pfSecondaryVertexTagInfos"))
process.patJets.addTagInfos = cms.bool(True)
#
## PU JetID
process.load("PhysicsTools.PatAlgos.slimming.pileupJetId_cfi")
process.patJets.userData.userFloats.src = [
cms.InputTag("pileupJetId:fullDiscriminant"),
]
## CaloJets
process.caloJetMap = cms.EDProducer(
"RecoJetDeltaRValueMapProducer",
src=process.patJets.jetSource,
matched=cms.InputTag("ak4CaloJets"),
distMax=cms.double(0.4),
values=cms.vstring('pt', 'emEnergyFraction'),
valueLabels=cms.vstring('pt', 'emEnergyFraction'),
lazyParser=cms.bool(True))
process.patJets.userData.userFloats.src += [
cms.InputTag("caloJetMap:pt"),
cms.InputTag("caloJetMap:emEnergyFraction")
]
#EGM object modifications
from RecoEgamma.EgammaTools.egammaObjectModificationsInMiniAOD_cff import egamma_modifications
process.slimmedElectrons.modifierConfig.modifications = egamma_modifications
process.slimmedPhotons.modifierConfig.modifications = egamma_modifications
#VID Electron IDs
electron_ids = [
'RecoEgamma.ElectronIdentification.Identification.cutBasedElectronID_PHYS14_PU20bx25_V2_cff',
'RecoEgamma.ElectronIdentification.Identification.cutBasedElectronID_Spring15_50ns_V1_cff',
'RecoEgamma.ElectronIdentification.Identification.heepElectronID_HEEPV60_cff',
'RecoEgamma.ElectronIdentification.Identification.mvaElectronID_Spring15_25ns_nonTrig_V1_cff'
]
switchOnVIDElectronIdProducer(process, DataFormat.MiniAOD)
process.egmGsfElectronIDs.physicsObjectSrc = \
cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.electronMVAValueMapProducer.src = \
cms.InputTag('reducedEgamma','reducedGedGsfElectrons')
for idmod in electron_ids:
setupAllVIDIdsInModule(process, idmod, setupVIDElectronSelection, None,
False)
#VID Photon IDs
photon_ids = [
'RecoEgamma.PhotonIdentification.Identification.cutBasedPhotonID_PHYS14_PU20bx25_V2_cff',
'RecoEgamma.PhotonIdentification.Identification.cutBasedPhotonID_Spring15_50ns_V1_cff',
'RecoEgamma.PhotonIdentification.Identification.mvaPhotonID_Spring15_25ns_nonTrig_V0_cff',
'RecoEgamma.PhotonIdentification.Identification.mvaPhotonID_Spring15_50ns_nonTrig_V2_cff'
]
switchOnVIDPhotonIdProducer(process, DataFormat.MiniAOD)
process.egmPhotonIDs.physicsObjectSrc = \
cms.InputTag("reducedEgamma","reducedGedPhotons")
process.photonIDValueMapProducer.src = \
cms.InputTag("reducedEgamma","reducedGedPhotons")
process.photonIDValueMapProducer.particleBasedIsolation = \
cms.InputTag("reducedEgamma","reducedPhotonPfCandMap")
process.photonMVAValueMapProducer.src = \
cms.InputTag('reducedEgamma','reducedGedPhotons')
for idmod in photon_ids:
setupAllVIDIdsInModule(process, idmod, setupVIDPhotonSelection, None,
False)
# Adding puppi jets
process.load('CommonTools.PileupAlgos.Puppi_cff')
process.load('RecoJets.JetProducers.ak4PFJetsPuppi_cfi')
process.ak4PFJetsPuppi.doAreaFastjet = True # even for standard ak4PFJets this is overwritten in RecoJets/Configuration/python/RecoPFJets_cff
#process.puppi.candName = cms.InputTag('packedPFCandidates')
#process.puppi.vertexName = cms.InputTag('offlineSlimmedPrimaryVertices')
from RecoJets.JetAssociationProducers.j2tParametersVX_cfi import j2tParametersVX
process.ak4PFJetsPuppiTracksAssociatorAtVertex = cms.EDProducer(
"JetTracksAssociatorAtVertex",
j2tParametersVX,
jets=cms.InputTag("ak4PFJetsPuppi"))
process.patJetPuppiCharge = cms.EDProducer(
"JetChargeProducer",
src=cms.InputTag("ak4PFJetsPuppiTracksAssociatorAtVertex"),
var=cms.string('Pt'),
exp=cms.double(1.0))
addJetCollection(process,
postfix="",
labelName='Puppi',
jetSource=cms.InputTag('ak4PFJetsPuppi'),
jetCorrections=('AK4PFchs', ['L2Relative',
'L3Absolute'], ''),
algo='AK',
rParam=0.4,
btagDiscriminators=map(
lambda x: x.value(),
process.patJets.discriminatorSources))
process.patJetGenJetMatchPuppi.matched = 'slimmedGenJets'
process.patJetsPuppi.userData.userFloats.src = cms.VInputTag(
cms.InputTag(""))
process.patJetsPuppi.jetChargeSource = cms.InputTag("patJetPuppiCharge")
process.selectedPatJetsPuppi.cut = cms.string("pt > 20")
process.load('PhysicsTools.PatAlgos.slimming.slimmedJets_cfi')
process.slimmedJetsPuppi = process.slimmedJets.clone()
process.slimmedJetsPuppi.src = cms.InputTag("selectedPatJetsPuppi")
process.slimmedJetsPuppi.packedPFCandidates = cms.InputTag(
"packedPFCandidates")
## puppi met
process.load('RecoMET.METProducers.PFMET_cfi')
process.pfMetPuppi = process.pfMet.clone()
process.pfMetPuppi.src = cms.InputTag("puppi")
process.pfMetPuppi.alias = cms.string('pfMetPuppi')
# type1 correction, from puppi jets
process.corrPfMetType1Puppi = process.corrPfMetType1.clone(
src='ak4PFJetsPuppi',
jetCorrLabel='ak4PFCHSL2L3Corrector',
)
del process.corrPfMetType1Puppi.offsetCorrLabel # no L1 for PUPPI jets
process.pfMetT1Puppi = process.pfMetT1.clone(
src='pfMetPuppi',
srcCorrections=[cms.InputTag("corrPfMetType1Puppi", "type1")])
from PhysicsTools.PatAlgos.tools.metTools import addMETCollection
addMETCollection(process,
labelName='patMETPuppi',
metSource='pfMetT1Puppi') # T1
addMETCollection(process,
labelName='patPFMetPuppi',
metSource='pfMetPuppi') # RAW
process.load('PhysicsTools.PatAlgos.slimming.slimmedMETs_cfi')
process.slimmedMETsPuppi = process.slimmedMETs.clone()
process.slimmedMETsPuppi.src = cms.InputTag("patMETPuppi")
process.slimmedMETsPuppi.rawVariation = cms.InputTag(
"patPFMetPuppi") # only central value
# only central values for puppi met
del process.slimmedMETsPuppi.t01Variation
del process.slimmedMETsPuppi.t1SmearedVarsAndUncs
del process.slimmedMETsPuppi.tXYUncForRaw
del process.slimmedMETsPuppi.tXYUncForT1
del process.slimmedMETsPuppi.tXYUncForT01
del process.slimmedMETsPuppi.tXYUncForT1Smear
del process.slimmedMETsPuppi.tXYUncForT01Smear
del process.slimmedMETsPuppi.caloMET
def miniAOD_customizeCommon(process):
process.patMuons.isoDeposits = cms.PSet()
process.patElectrons.isoDeposits = cms.PSet()
process.patTaus.isoDeposits = cms.PSet()
process.patPhotons.isoDeposits = cms.PSet()
#
process.patMuons.embedTrack = True # used for IDs
process.patMuons.embedCombinedMuon = True # used for IDs
process.patMuons.embedMuonBestTrack = True # used for IDs
process.patMuons.embedStandAloneMuon = True # maybe?
process.patMuons.embedPickyMuon = False # no, use best track
process.patMuons.embedTpfmsMuon = False # no, use best track
process.patMuons.embedDytMuon = False # no, use best track
process.patMuons.addPuppiIsolation = cms.bool(True)
process.patMuons.puppiIsolationChargedHadrons = cms.InputTag("muonPUPPIIsolation","h+-DR040-ThresholdVeto000-ConeVeto000")
process.patMuons.puppiIsolationNeutralHadrons = cms.InputTag("muonPUPPIIsolation","h0-DR040-ThresholdVeto000-ConeVeto001")
process.patMuons.puppiIsolationPhotons = cms.InputTag("muonPUPPIIsolation","gamma-DR040-ThresholdVeto000-ConeVeto001")
process.patMuons.puppiNoLeptonsIsolationChargedHadrons = cms.InputTag("muonPUPPINoLeptonsIsolation","h+-DR040-ThresholdVeto000-ConeVeto000")
process.patMuons.puppiNoLeptonsIsolationNeutralHadrons = cms.InputTag("muonPUPPINoLeptonsIsolation","h0-DR040-ThresholdVeto000-ConeVeto001")
process.patMuons.puppiNoLeptonsIsolationPhotons = cms.InputTag("muonPUPPINoLeptonsIsolation","gamma-DR040-ThresholdVeto000-ConeVeto001")
process.patMuons.computeMiniIso = cms.bool(True)
process.patMuons.computeMuonMVA = cms.bool(True)
#
# disable embedding of electron and photon associated objects already stored by the ReducedEGProducer
process.patElectrons.embedGsfElectronCore = False ## process.patElectrons.embed in AOD externally stored gsf electron core
process.patElectrons.embedSuperCluster = False ## process.patElectrons.embed in AOD externally stored supercluster
process.patElectrons.embedPflowSuperCluster = False ## process.patElectrons.embed in AOD externally stored supercluster
process.patElectrons.embedSeedCluster = False ## process.patElectrons.embed in AOD externally stored the electron's seedcluster
process.patElectrons.embedBasicClusters = False ## process.patElectrons.embed in AOD externally stored the electron's basic clusters
process.patElectrons.embedPreshowerClusters = False ## process.patElectrons.embed in AOD externally stored the electron's preshower clusters
process.patElectrons.embedPflowBasicClusters = False ## process.patElectrons.embed in AOD externally stored the electron's pflow basic clusters
process.patElectrons.embedPflowPreshowerClusters = False ## process.patElectrons.embed in AOD externally stored the electron's pflow preshower clusters
process.patElectrons.embedRecHits = False ## process.patElectrons.embed in AOD externally stored the RecHits - can be called from the PATElectronProducer
process.patElectrons.electronSource = cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.patElectrons.usePfCandidateMultiMap = True
process.patElectrons.pfCandidateMultiMap = cms.InputTag("reducedEgamma","reducedGsfElectronPfCandMap")
process.patElectrons.electronIDSources = cms.PSet(
# configure many IDs as InputTag <someName> = <someTag> you
# can comment out those you don't want to save some disk space
eidRobustLoose = cms.InputTag("reducedEgamma","eidRobustLoose"),
eidRobustTight = cms.InputTag("reducedEgamma","eidRobustTight"),
eidLoose = cms.InputTag("reducedEgamma","eidLoose"),
eidTight = cms.InputTag("reducedEgamma","eidTight"),
eidRobustHighEnergy = cms.InputTag("reducedEgamma","eidRobustHighEnergy"),
)
process.patElectrons.addPFClusterIso = cms.bool(True)
#add puppi isolation in miniAOD
process.patElectrons.addPuppiIsolation = cms.bool(True)
process.patElectrons.puppiIsolationChargedHadrons = cms.InputTag("egmElectronPUPPIIsolation","h+-DR030-BarVeto000-EndVeto001")
process.patElectrons.puppiIsolationNeutralHadrons = cms.InputTag("egmElectronPUPPIIsolation","h0-DR030-BarVeto000-EndVeto000")
process.patElectrons.puppiIsolationPhotons = cms.InputTag("egmElectronPUPPIIsolation","gamma-DR030-BarVeto000-EndVeto008")
process.patElectrons.puppiNoLeptonsIsolationChargedHadrons = cms.InputTag("egmElectronPUPPINoLeptonsIsolation","h+-DR030-BarVeto000-EndVeto001")
process.patElectrons.puppiNoLeptonsIsolationNeutralHadrons = cms.InputTag("egmElectronPUPPINoLeptonsIsolation","h0-DR030-BarVeto000-EndVeto000")
process.patElectrons.puppiNoLeptonsIsolationPhotons = cms.InputTag("egmElectronPUPPINoLeptonsIsolation","gamma-DR030-BarVeto000-EndVeto008")
process.patElectrons.computeMiniIso = cms.bool(True)
process.patElectrons.ecalPFClusterIsoMap = cms.InputTag("reducedEgamma", "eleEcalPFClusIso")
process.patElectrons.hcalPFClusterIsoMap = cms.InputTag("reducedEgamma", "eleHcalPFClusIso")
process.elPFIsoDepositChargedPAT.src = cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.elPFIsoDepositChargedAllPAT.src = cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.elPFIsoDepositNeutralPAT.src = cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.elPFIsoDepositGammaPAT.src = cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.elPFIsoDepositPUPAT.src = cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
#
process.patPhotons.embedSuperCluster = False ## whether to process.patPhotons.embed in AOD externally stored supercluster
process.patPhotons.embedSeedCluster = False ## process.patPhotons.embed in AOD externally stored the photon's seedcluster
process.patPhotons.embedBasicClusters = False ## process.patPhotons.embed in AOD externally stored the photon's basic clusters
process.patPhotons.embedPreshowerClusters = False ## process.patPhotons.embed in AOD externally stored the photon's preshower clusters
process.patPhotons.embedRecHits = False ## process.patPhotons.embed in AOD externally stored the RecHits - can be called from the PATPhotonProducer
process.patPhotons.addPFClusterIso = cms.bool(True)
#add puppi isolation in miniAOD
process.patPhotons.addPuppiIsolation = cms.bool(True)
process.patPhotons.puppiIsolationChargedHadrons = cms.InputTag("egmPhotonPUPPIIsolation","h+-DR030-")
process.patPhotons.puppiIsolationNeutralHadrons = cms.InputTag("egmPhotonPUPPIIsolation","h0-DR030-")
process.patPhotons.puppiIsolationPhotons = cms.InputTag("egmPhotonPUPPIIsolation","gamma-DR030-")
process.patPhotons.ecalPFClusterIsoMap = cms.InputTag("reducedEgamma", "phoEcalPFClusIso")
process.patPhotons.hcalPFClusterIsoMap = cms.InputTag("reducedEgamma", "phoHcalPFClusIso")
process.patPhotons.photonSource = cms.InputTag("reducedEgamma","reducedGedPhotons")
process.patPhotons.electronSource = cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.patPhotons.photonIDSources = cms.PSet(
PhotonCutBasedIDLoose = cms.InputTag('reducedEgamma',
'PhotonCutBasedIDLoose'),
PhotonCutBasedIDTight = cms.InputTag('reducedEgamma',
'PhotonCutBasedIDTight')
)
process.phPFIsoDepositChargedPAT.src = cms.InputTag("reducedEgamma","reducedGedPhotons")
process.phPFIsoDepositChargedAllPAT.src = cms.InputTag("reducedEgamma","reducedGedPhotons")
process.phPFIsoDepositNeutralPAT.src = cms.InputTag("reducedEgamma","reducedGedPhotons")
process.phPFIsoDepositGammaPAT.src = cms.InputTag("reducedEgamma","reducedGedPhotons")
process.phPFIsoDepositPUPAT.src = cms.InputTag("reducedEgamma","reducedGedPhotons")
#
process.patOOTPhotons.photonSource = cms.InputTag("reducedEgamma","reducedOOTPhotons")
process.patOOTPhotons.electronSource = cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
#
process.selectedPatJets.cut = cms.string("pt > 10")
process.selectedPatMuons.cut = cms.string("pt > 5 || isPFMuon || (pt > 3 && (isGlobalMuon || isStandAloneMuon || numberOfMatches > 0 || muonID('RPCMuLoose')))")
from Configuration.Eras.Modifier_phase2_muon_cff import phase2_muon
phase2_muon.toModify(process.selectedPatMuons, cut = "pt > 5 || isPFMuon || (pt > 3 && (isGlobalMuon || isStandAloneMuon || numberOfMatches > 0 || muonID('RPCMuLoose') || muonID('ME0MuonArbitrated') || muonID('GEMMuonArbitrated')) )")
process.selectedPatElectrons.cut = cms.string("")
process.selectedPatTaus.cut = cms.string("pt > 18. && tauID('decayModeFindingNewDMs')> 0.5")
process.selectedPatPhotons.cut = cms.string("")
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
from PhysicsTools.PatAlgos.slimming.applySubstructure_cff import applySubstructure
applySubstructure( process )
#
from PhysicsTools.PatAlgos.tools.trigTools import switchOnTriggerStandAlone
switchOnTriggerStandAlone( process, outputModule = '' )
process.patTrigger.packTriggerPathNames = cms.bool(True)
#
# apply type I + other PFMEt corrections to pat::MET object
# and estimate systematic uncertainties on MET
from PhysicsTools.PatUtils.tools.runMETCorrectionsAndUncertainties import runMetCorAndUncForMiniAODProduction
runMetCorAndUncForMiniAODProduction(process, metType="PF",
jetCollUnskimmed="patJets")
#caloMET computation
from PhysicsTools.PatAlgos.tools.metTools import addMETCollection
addMETCollection(process,
labelName = "patCaloMet",
metSource = "caloMetM"
)
#noHF pfMET =========
task = getPatAlgosToolsTask(process)
process.noHFCands = cms.EDFilter("GenericPFCandidateSelector",
src=cms.InputTag("particleFlow"),
cut=cms.string("abs(pdgId)!=1 && abs(pdgId)!=2 && abs(eta)<3.0")
)
task.add(process.noHFCands)
runMetCorAndUncForMiniAODProduction(process,
pfCandColl=cms.InputTag("noHFCands"),
recoMetFromPFCs=True, #needed for HF removal
jetSelection="pt>15 && abs(eta)<3.",
postfix="NoHF"
)
process.load('PhysicsTools.PatAlgos.slimming.slimmedMETs_cfi')
task.add(process.slimmedMETs)
addToProcessAndTask('slimmedMETsNoHF', process.slimmedMETs.clone(), process, task)
process.slimmedMETsNoHF.src = cms.InputTag("patMETsNoHF")
process.slimmedMETsNoHF.rawVariation = cms.InputTag("patPFMetNoHF")
process.slimmedMETsNoHF.t1Uncertainties = cms.InputTag("patPFMetT1%sNoHF")
process.slimmedMETsNoHF.t01Variation = cms.InputTag("patPFMetT0pcT1NoHF")
process.slimmedMETsNoHF.t1SmearedVarsAndUncs = cms.InputTag("patPFMetT1Smear%sNoHF")
process.slimmedMETsNoHF.tXYUncForRaw = cms.InputTag("patPFMetTxyNoHF")
process.slimmedMETsNoHF.tXYUncForT1 = cms.InputTag("patPFMetT1TxyNoHF")
process.slimmedMETsNoHF.tXYUncForT01 = cms.InputTag("patPFMetT0pcT1TxyNoHF")
process.slimmedMETsNoHF.tXYUncForT1Smear = cms.InputTag("patPFMetT1SmearTxyNoHF")
process.slimmedMETsNoHF.tXYUncForT01Smear = cms.InputTag("patPFMetT0pcT1SmearTxyNoHF")
del process.slimmedMETsNoHF.caloMET
# ================== NoHF pfMET
# ================== CHSMET
process.CHSCands = cms.EDFilter("CandPtrSelector",
src=cms.InputTag("packedPFCandidates"),
cut=cms.string("fromPV(0) > 0")
)
task.add(process.CHSCands)
process.pfMetCHS = cms.EDProducer("PFMETProducer",
src = cms.InputTag("CHSCands"),
alias = cms.string('pfMet'),
globalThreshold = cms.double(0.0),
calculateSignificance = cms.bool(False),
)
task.add(process.pfMetCHS)
addMETCollection(process,
labelName = "patCHSMet",
metSource = "pfMetCHS"
)
process.patCHSMet.computeMETSignificance = cms.bool(False)
# ================== CHSMET
# ================== TrkMET
process.TrkCands = cms.EDFilter("CandPtrSelector",
src=cms.InputTag("packedPFCandidates"),
cut=cms.string("charge()!=0 && pvAssociationQuality()>=4 && vertexRef().key()==0")
)
task.add(process.TrkCands)
process.pfMetTrk = cms.EDProducer("PFMETProducer",
src = cms.InputTag("TrkCands"),
alias = cms.string('pfMet'),
globalThreshold = cms.double(0.0),
calculateSignificance = cms.bool(False),
)
task.add(process.pfMetTrk)
addMETCollection(process,
labelName = "patTrkMet",
metSource = "pfMetTrk"
)
process.patTrkMet.computeMETSignificance = cms.bool(False)
# ================== TrkMET
## PU JetID
process.load("RecoJets.JetProducers.PileupJetID_cfi")
task.add(process.pileUpJetIDTask)
process.patJets.userData.userFloats.src = [ cms.InputTag("pileupJetId:fullDiscriminant"), ]
process.patJets.userData.userInts.src = [ cms.InputTag("pileupJetId:fullId"), ]
## Quark Gluon Likelihood
process.load('RecoJets.JetProducers.QGTagger_cfi')
task.add(process.QGTaggerTask)
process.patJets.userData.userFloats.src += [ cms.InputTag('QGTagger:qgLikelihood'), ]
## CaloJets
process.caloJetMap = cms.EDProducer("RecoJetDeltaRValueMapProducer",
src = process.patJets.jetSource,
matched = cms.InputTag("ak4CaloJets"),
distMax = cms.double(0.4),
values = cms.vstring('pt','emEnergyFraction'),
valueLabels = cms.vstring('pt','emEnergyFraction'),
lazyParser = cms.bool(True) )
task.add(process.caloJetMap)
process.patJets.userData.userFloats.src += [ cms.InputTag("caloJetMap:pt"), cms.InputTag("caloJetMap:emEnergyFraction") ]
#Muon object modifications
from PhysicsTools.PatAlgos.slimming.muonIsolationsPUPPI_cfi import makeInputForPUPPIIsolationMuon
makeInputForPUPPIIsolationMuon(process)
#EGM object modifications
from PhysicsTools.PatAlgos.slimming.egmIsolationsPUPPI_cfi import makeInputForPUPPIIsolationEgm
makeInputForPUPPIIsolationEgm(process)
from RecoEgamma.EgammaTools.egammaObjectModificationsInMiniAOD_cff import egamma_modifications
process.slimmedElectrons.modifierConfig.modifications = egamma_modifications
process.slimmedPhotons.modifierConfig.modifications = egamma_modifications
#VID Electron IDs
electron_ids = ['RecoEgamma.ElectronIdentification.Identification.cutBasedElectronID_PHYS14_PU20bx25_V2_cff',
'RecoEgamma.ElectronIdentification.Identification.cutBasedElectronID_Spring15_25ns_V1_cff',
'RecoEgamma.ElectronIdentification.Identification.cutBasedElectronID_Spring15_50ns_V2_cff',
'RecoEgamma.ElectronIdentification.Identification.heepElectronID_HEEPV60_cff',
'RecoEgamma.ElectronIdentification.Identification.mvaElectronID_Spring15_25ns_nonTrig_V1_cff',
'RecoEgamma.ElectronIdentification.Identification.mvaElectronID_Spring15_25ns_Trig_V1_cff',
'RecoEgamma.ElectronIdentification.Identification.mvaElectronID_Spring15_50ns_Trig_V1_cff']
switchOnVIDElectronIdProducer(process,DataFormat.MiniAOD, task)
process.egmGsfElectronIDs.physicsObjectSrc = \
cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.electronMVAValueMapProducer.src = \
cms.InputTag('reducedEgamma','reducedGedGsfElectrons')
process.electronRegressionValueMapProducer.src = \
cms.InputTag('reducedEgamma','reducedGedGsfElectrons')
for idmod in electron_ids:
setupAllVIDIdsInModule(process,idmod,setupVIDElectronSelection,None,False,task)
#heepIDVarValueMaps only exists if HEEP V6.1 or HEEP 7.0 ID has already been loaded
if hasattr(process,'heepIDVarValueMaps'):
process.heepIDVarValueMaps.elesMiniAOD = cms.InputTag('reducedEgamma','reducedGedGsfElectrons')
#force HEEP to use miniAOD (otherwise it'll detect the AOD)
process.heepIDVarValueMaps.dataFormat = cms.int32(2)
#VID Photon IDs
photon_ids = ['RecoEgamma.PhotonIdentification.Identification.cutBasedPhotonID_Spring15_25ns_V1_cff',
'RecoEgamma.PhotonIdentification.Identification.cutBasedPhotonID_Spring15_50ns_V1_cff',
'RecoEgamma.PhotonIdentification.Identification.mvaPhotonID_Spring15_25ns_nonTrig_V2p1_cff',
'RecoEgamma.PhotonIdentification.Identification.mvaPhotonID_Spring15_50ns_nonTrig_V2p1_cff',
'RecoEgamma.PhotonIdentification.Identification.cutBasedPhotonID_Spring16_V2p2_cff',
'RecoEgamma.PhotonIdentification.Identification.mvaPhotonID_Spring16_nonTrig_V1_cff']
switchOnVIDPhotonIdProducer(process,DataFormat.AOD, task)
process.egmPhotonIsolation.srcToIsolate = \
cms.InputTag("reducedEgamma","reducedGedPhotons")
for iPSet in process.egmPhotonIsolation.isolationConeDefinitions:
iPSet.particleBasedIsolation = cms.InputTag("reducedEgamma","reducedPhotonPfCandMap")
process.egmPhotonIDs.physicsObjectSrc = \
cms.InputTag("reducedEgamma","reducedGedPhotons")
process.photonIDValueMapProducer.src = \
cms.InputTag("reducedEgamma","reducedGedPhotons")
process.photonRegressionValueMapProducer.src = \
cms.InputTag("reducedEgamma","reducedGedPhotons")
process.photonIDValueMapProducer.particleBasedIsolation = \
cms.InputTag("reducedEgamma","reducedPhotonPfCandMap")
process.photonMVAValueMapProducer.src = \
cms.InputTag('reducedEgamma','reducedGedPhotons')
for idmod in photon_ids:
setupAllVIDIdsInModule(process,idmod,setupVIDPhotonSelection,None,False,task)
#---------------------------------------------------------------------------
#Adding Boosted Subjets taus
from RecoTauTag.Configuration.boostedHPSPFTaus_cfi import addBoostedTaus
addBoostedTaus(process)
#---------------------------------------------------------------------------
#Adding tau reco for 80X legacy reMiniAOD
#make a copy of makePatTauTask to avoid labels and substitution problems
_makePatTausTaskWithTauReReco = process.makePatTausTask.copy()
#add PFTau reco modules to cloned makePatTauTask
process.load("RecoTauTag.Configuration.RecoPFTauTag_cff")
_makePatTausTaskWithTauReReco.add(process.PFTauTask)
#replace original task by extended one for the miniAOD_80XLegacy era
from Configuration.Eras.Modifier_run2_miniAOD_80XLegacy_cff import run2_miniAOD_80XLegacy
run2_miniAOD_80XLegacy.toReplaceWith(
process.makePatTausTask, _makePatTausTaskWithTauReReco)
#---------------------------------------------------------------------------
# Adding puppi jets
if not hasattr(process, 'ak4PFJetsPuppi'): #MM: avoid confilct with substructure call
process.load('RecoJets.JetProducers.ak4PFJetsPuppi_cfi')
task.add(process.ak4PFJets)
task.add(process.ak4PFJetsPuppi)
process.ak4PFJetsPuppi.doAreaFastjet = True # even for standard ak4PFJets this is overwritten in RecoJets/Configuration/python/RecoPFJets_cff
from RecoJets.JetAssociationProducers.j2tParametersVX_cfi import j2tParametersVX
process.ak4PFJetsPuppiTracksAssociatorAtVertex = cms.EDProducer("JetTracksAssociatorAtVertex",
j2tParametersVX,
jets = cms.InputTag("ak4PFJetsPuppi")
)
task.add(process.ak4PFJetsPuppiTracksAssociatorAtVertex)
process.patJetPuppiCharge = cms.EDProducer("JetChargeProducer",
src = cms.InputTag("ak4PFJetsPuppiTracksAssociatorAtVertex"),
var = cms.string('Pt'),
exp = cms.double(1.0)
)
task.add(process.patJetPuppiCharge)
addJetCollection(process, postfix = "", labelName = 'Puppi', jetSource = cms.InputTag('ak4PFJetsPuppi'),
jetCorrections = ('AK4PFPuppi', ['L2Relative', 'L3Absolute'], ''),
pfCandidates = cms.InputTag('puppi'), # using Puppi candidates as input for b tagging of Puppi jets
algo= 'AK', rParam = 0.4, btagDiscriminators = map(lambda x: x.value() ,process.patJets.discriminatorSources)
)
process.patJetGenJetMatchPuppi.matched = 'slimmedGenJets'
process.patJetsPuppi.jetChargeSource = cms.InputTag("patJetPuppiCharge")
process.selectedPatJetsPuppi.cut = cms.string("pt > 15")
process.load('PhysicsTools.PatAlgos.slimming.slimmedJets_cfi')
task.add(process.slimmedJets)
task.add(process.slimmedJetsAK8)
addToProcessAndTask('slimmedJetsPuppi', process.slimmedJets.clone(), process, task)
process.slimmedJetsPuppi.src = cms.InputTag("selectedPatJetsPuppi")
process.slimmedJetsPuppi.packedPFCandidates = cms.InputTag("packedPFCandidates")
## puppi met
from PhysicsTools.PatAlgos.slimming.puppiForMET_cff import makePuppies
makePuppies( process );
runMetCorAndUncForMiniAODProduction(process, metType="Puppi",
pfCandColl=cms.InputTag("puppiForMET"),
jetCollUnskimmed="slimmedJetsPuppi",
recoMetFromPFCs=True,
jetFlavor="AK4PFPuppi",
postfix="Puppi"
)
process.load('PhysicsTools.PatAlgos.slimming.slimmedMETs_cfi')
task.add(process.slimmedMETs)
addToProcessAndTask('slimmedMETsPuppi', process.slimmedMETs.clone(), process, task)
process.slimmedMETsPuppi.src = cms.InputTag("patMETsPuppi")
process.slimmedMETsPuppi.rawVariation = cms.InputTag("patPFMetPuppi")
process.slimmedMETsPuppi.t1Uncertainties = cms.InputTag("patPFMetT1%sPuppi")
process.slimmedMETsPuppi.t01Variation = cms.InputTag("patPFMetT0pcT1Puppi")
process.slimmedMETsPuppi.t1SmearedVarsAndUncs = cms.InputTag("patPFMetT1Smear%sPuppi")
process.slimmedMETsPuppi.tXYUncForRaw = cms.InputTag("patPFMetTxyPuppi")
process.slimmedMETsPuppi.tXYUncForT1 = cms.InputTag("patPFMetT1TxyPuppi")
process.slimmedMETsPuppi.tXYUncForT01 = cms.InputTag("patPFMetT0pcT1TxyPuppi")
process.slimmedMETsPuppi.tXYUncForT1Smear = cms.InputTag("patPFMetT1SmearTxyPuppi")
process.slimmedMETsPuppi.tXYUncForT01Smear = cms.InputTag("patPFMetT0pcT1SmearTxyPuppi")
del process.slimmedMETsPuppi.caloMET
# add DetIdAssociatorRecords to EventSetup (for isolatedTracks)
process.load("TrackingTools.TrackAssociator.DetIdAssociatorESProducer_cff")
#addMETCollection(process, labelName='patMETCalo', metSource='met')
addMETCollection(process, labelName='patMETPF', metSource='pfMetT1')
#addMETCollection(process, labelName='patMETTC', metSource='tcMet') # FIXME: removed from RECO/AOD; needs functionality to add to processing
## uncomment the following line to add different jet collections
## to the event content
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
from PhysicsTools.PatAlgos.tools.jetTools import switchJetCollection
## uncomment the following lines to add ak4PFJetsCHS to your PAT output
labelAK4PFCHS = 'AK4PFCHS'
postfixAK4PFCHS = 'Copy'
addJetCollection(
process,
postfix = postfixAK4PFCHS,
labelName = labelAK4PFCHS,
jetSource = cms.InputTag('ak4PFJetsCHS'),
jetCorrections = ('AK4PFchs', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'Type-2')
)
process.out.outputCommands.append( 'drop *_selectedPatJets%s%s_caloTowers_*'%( labelAK4PFCHS, postfixAK4PFCHS ) )
# uncomment the following lines to add ak4PFJets to your PAT output
switchJetCollection(
process,
jetSource = cms.InputTag('ak4PFJets'),
jetCorrections = ('AK4PF', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'Type-1'),
btagDiscriminators = [
'pfJetBProbabilityBJetTags'
, 'pfJetProbabilityBJetTags'
, 'pfTrackCountingHighPurBJetTags'
, 'pfTrackCountingHighEffBJetTags'
process.patJetsAK8Softdrop.jetCorrFactorsSource = cms.VInputTag(
cms.InputTag("patJetCorrFactorsAK8Softdrop"))
process.selectedPatJetsAK8Softdrop = selectedPatJetsAK8.clone(
cut='pt > 100', src="patJetsAK8Softdrop")
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
## PATify soft drop subjets
addJetCollection(
process,
labelName='AK8SoftDropSubjets',
jetSource=cms.InputTag('ak8PFJetsCHSSoftDrop', 'SubJets'),
algo='ak', # needed for subjet flavor clustering
rParam=0.8, # needed for subjet flavor clustering
getJetMCFlavour=False,
pvSource=cms.InputTag('offlineSlimmedPrimaryVertices'),
genJetCollection=cms.InputTag('slimmedGenJets'),
genParticles=cms.InputTag('prunedGenParticles'),
btagDiscriminators=['None'],
jetCorrections=('AK4PFPuppi', ['L2Relative', 'L3Absolute'], 'None'),
# explicitJTA = True, # needed for subjet b tagging
# svClustering = True, # needed for subjet b tagging
# fatJets=cms.InputTag('ak8PFJetsCHS'), # needed for subjet flavor clustering
# groomedFatJets=cms.InputTag('ak8PFJetsCHSSoftDrop') # needed for subjet flavor clustering
)
#'''
#from RecoBTag.DeepFlavour.DeepFlavourJetTagsProducer_cfi import *
# this loads all available b-taggers
#process.load("RecoBTag.Configuration.RecoBTag_cff")
#process.load("RecoBTag.DeepFlavour.DeepFlavourJetTagsProducer_cfi")
#process.load("RecoBTag.DeepFlavour.deepFlavour_cff")
#'''
preSeq += process.trackJetSequence
# Make pat track-jets
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
addJetCollection(
process,
labelName = 'AK4PFTrack',
jetSource = cms.InputTag('ak4TrackJets'),
algo = 'AK',
rParam = 0.4,
jetCorrections = None,
pfCandidates = cms.InputTag( 'packedPFCandidates' ),
svSource = cms.InputTag( 'slimmedSecondaryVertices' ),
genJetCollection = cms.InputTag( 'slimmedGenJets'),
pvSource = cms.InputTag( 'offlineSlimmedPrimaryVertices' ),
btagDiscriminators = [
#'pfTrackCountingHighEffBJetTags',
#'pfTrackCountingHighPurBJetTags',
'pfJetProbabilityBJetTags'
#'pfJetBProbabilityBJetTags'
],
getJetMCFlavour = isMC,
genParticles = cms.InputTag('prunedGenParticles'),
outputModules = ['outputFile']
)
getattr(process,'selectedPatJetsAK4PFTrack').cut = cms.string('pt > 1.0')
preSeq += getattr(process,'selectedPatJetsAK4PFTrack')
process.skimEventProducer.trackJetTag = cms.InputTag("selectedPatJetsAK4PFTrack")
def runGroomedMethod(process,
isMC,
jetCollection,
coneSize,
algo,
payloadName,
payloadNameSubjet,
JECLevel,
pfCand,
btagDiscriminators,
addSubJets=True,
addQGLikelihood=True,
isPruning=True,
isSoftDrop=True,
isTrimming=True,
isFiltering=True):
### name for cone size and algo
coneSizeStr = str(coneSize).replace("0", "").replace(".", "")
jetAlgo = algo + coneSizeStr
if algo == "AK":
ALGO = "AntiKt"
elif algo == "CA":
ALGO = "CambridgeAachen"
btagSubjets = ['pfCombinedInclusiveSecondaryVertexV2BJetTags']
### form the right postfix
if not isPruning and not isSoftDrop and not isTrimming and not isFiltering:
sys.exit("runGroomedMethod: all bools are false --> please check")
if isPruning and not isSoftDrop and not isTrimming and not isFiltering:
postfix = "Pruned"
elif not isPruning and isSoftDrop and not isTrimming and not isFiltering:
postfix = "SoftDrop"
elif not isPruning and not isSoftDrop and isTrimming and not isFiltering:
postfix = "Trimmed"
elif not isPruning and not isSoftDrop and not isTrimming and isFiltering:
postfix = "Filtered"
else:
sys.exit(
"wrong setup, only one groomer is allowed each time --> please check"
)
## build default reco groomed jets
if not hasattr(process, jetCollection + postfix):
if isPruning:
setattr(process, jetCollection + postfix,
ak8PFJetsCHSPruned.clone())
elif isSoftDrop:
setattr(process, jetCollection + postfix,
ak8PFJetsCHSSoftDrop.clone())
elif isTrimming:
setattr(process, jetCollection + postfix,
ak8PFJetsCHSTrimmed.clone())
elif isFiltering:
setattr(process, jetCollection + postfix,
ak8PFJetsCHSFiltered.clone())
getattr(process, jetCollection + postfix).src = cms.InputTag(
jetCollection + "Reduced", 'constituents')
getattr(process, jetCollection + postfix).rParam = coneSize
getattr(process, jetCollection + postfix).jetAlgorithm = ALGO
## write compounds means that subjets are stored as reco::Jet while the groomed jet is stored as base::Jet
getattr(process,
jetCollection + postfix).writeCompound = cms.bool(True)
getattr(process,
jetCollection + postfix).doAreaFastjet = cms.bool(True)
## gen groomed jets
if isMC:
if not hasattr(process, "genJets" + jetAlgo + postfix):
## store AK8 gen::Jet
setattr(
process, "genJets" + jetAlgo + postfix,
getattr(process, jetCollection + postfix).clone(
src=cms.InputTag('genParticlesForJetsNoNu'),
writeCompound=cms.bool(False),
useExplicitGhosts=cms.bool(True),
jetPtMin=cms.double(50.),
jetType=cms.string('GenJet'),
jetCollInstanceName=cms.string("")))
## pruned pat jets with embeded gen-jet info
if not hasattr(process, "patJets" + jetCollection + postfix):
addJetCollection(
process,
labelName=jetCollection + postfix,
jetSource=cms.InputTag(jetCollection + postfix),
algo=algo,
pfCandidates=cms.InputTag(pfCand),
rParam=coneSize,
jetCorrections=(payloadName, JECLevel, 'None'),
svSource=cms.InputTag('slimmedSecondaryVertices'),
genJetCollection=cms.InputTag("genJets" + jetAlgo + postfix),
pvSource=cms.InputTag('offlineSlimmedPrimaryVertices'),
btagDiscriminators=
btagDiscriminators, ## no b-tag info for pruned jets
getJetMCFlavour=
isMC, ## no flavor info
genParticles=cms.InputTag("prunedGenParticles"))
## matched fat jet with groomed one adding info as user float
if not hasattr(process, jetCollection + postfix + 'Matched'):
setattr(
process,
jetCollection + postfix + 'Matched',
cms.EDProducer(
"RecoPATJetDeltaRValueMapProducer",
## basic reco::jet ungroomed
src=cms.InputTag(jetCollection + "Reduced"),
## mathched groomed pat jet
matched=cms.InputTag('patJets' + jetCollection + postfix),
distMax=cms.double(coneSize),
values=cms.vstring(
"mass", "pt", "eta", "phi",
"bDiscriminator('pfCombinedInclusiveSecondaryVertexV2BJetTags')",
"bDiscriminator('pfBoostedDoubleSecondaryVertexAK8BJetTags')",
"correctedP4(0).mass()", "correctedP4(0).pt()",
"correctedP4(0).eta()", "correctedP4(0).phi()"),
valueLabels=cms.vstring(
"mass", "pt", "eta", "phi",
"pfCombinedInclusiveSecondaryVertexV2BJetTags",
"pfBoostedDoubleSecondaryVertexAK8BJetTags", "rawmass",
"rawpt", "raweta", "rawphi")))
if isMC:
getattr(process,
jetCollection + postfix + 'Matched').valueLabels += [
"hadronFlavour", "partonFlavour", "genMass", "genPt",
"genEta", "genPhi"
]
getattr(process, jetCollection + postfix + 'Matched').values += [
"hadronFlavour", "partonFlavour", "genJet().mass",
"genJet().pt", "genJet().eta", "genJet().phi"
]
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + postfix + 'Matched:mass'
]
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + postfix + 'Matched:pt'
]
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + postfix +
'Matched:pfCombinedInclusiveSecondaryVertexV2BJetTags'
]
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + postfix +
'Matched:pfBoostedDoubleSecondaryVertexAK8BJetTags'
]
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + postfix + 'Matched:eta'
]
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + postfix + 'Matched:phi'
]
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + postfix + 'Matched:rawmass'
]
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + postfix + 'Matched:rawpt'
]
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + postfix + 'Matched:raweta'
]
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + postfix + 'Matched:rawphi'
]
if isMC:
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + postfix + 'Matched:hadronFlavour'
]
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + postfix + 'Matched:partonFlavour'
]
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + postfix + 'Matched:genMass'
]
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + postfix + 'Matched:genPt'
]
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + postfix + 'Matched:genEta'
]
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + postfix + 'Matched:genPhi'
]
## add QGL --> some tricks are needed
if addQGLikelihood:
## redo groomed jet with a special postfix (ForQGL)
if not hasattr(process, jetCollection + postfix + "ForQGL"):
setattr(
process, jetCollection + postfix + "ForQGL",
getattr(process, jetCollection + postfix).clone(
writeCompound=cms.bool(False),
jetCollInstanceName=cms.string("")))
## run QGL evaluator
if not hasattr(process, jetCollection + postfix + "QGL"):
setattr(
process, jetCollection + postfix + "QGL",
QGTagger.clone(srcJets=cms.InputTag(jetCollection + postfix +
"ForQGL"),
jetsLabel=cms.string('QGL_AK4PFchs'),
srcVertexCollection=cms.InputTag(
'offlineSlimmedPrimaryVertices')))
## pattify jets on the fly
if not hasattr(process, 'patJets' + jetCollection + postfix + "QGL"):
setattr(
process, 'patJets' + jetCollection + postfix + "QGL",
patJets.clone(jetSource=cms.InputTag(jetCollection + postfix +
"ForQGL"),
addJetCorrFactors=cms.bool(False),
addBTagInfo=cms.bool(False),
addDiscriminators=cms.bool(False),
discriminatorSources=cms.VInputTag('None'),
addAssociatedTracks=cms.bool(False),
addJetCharge=cms.bool(False),
addGenPartonMatch=cms.bool(False),
embedGenPartonMatch=cms.bool(False),
addGenJetMatch=cms.bool(False),
embedGenJetMatch=cms.bool(False),
getJetMCFlavour=cms.bool(False),
addJetFlavourInfo=cms.bool(False)))
getattr(process, 'patJets' + jetCollection + postfix +
"QGL").userData.userFloats.src += [
jetCollection + postfix + "QGL:qgLikelihood"
]
## match QGL value with the original jet
if not hasattr(process, jetCollection + postfix + "QGLMatched"):
setattr(
process, jetCollection + postfix + 'QGLMatched',
cms.EDProducer(
"RecoPATJetDeltaRValueMapProducer",
src=cms.InputTag(jetCollection + "Reduced"),
matched=cms.InputTag('patJets' + jetCollection + postfix +
"QGL"),
distMax=cms.double(coneSize),
values=cms.vstring("userFloat('" + jetCollection +
postfix + "QGL:qgLikelihood')"),
valueLabels=cms.vstring("qgLikelihood")))
getattr(process,
'patJets' + jetCollection).userData.userFloats.src += [
jetCollection + postfix + 'QGLMatched:qgLikelihood'
]
## add subjet information
if addSubJets:
## gen groomed sub-jets --> star with default clustering
if isMC and not hasattr(process,
"genJets" + jetAlgo + postfix + "SubJets"):
setattr(
process, "genJets" + jetAlgo + postfix + "SubJets",
getattr(process, "genJets" + jetAlgo + postfix).clone(
writeCompound=cms.bool(True),
jetCollInstanceName=cms.string('SubJets')))
if not hasattr(process,
"patJets" + jetCollection + postfix + "SubJets"):
addJetCollection(
process,
labelName=jetCollection + postfix + 'SubJets',
jetSource=cms.InputTag(jetCollection + postfix, 'SubJets'),
algo=algo, # needed for subjet b tagging
rParam=coneSize, # needed for subjet b tagging
pfCandidates=cms.InputTag(pfCand),
jetCorrections=(payloadNameSubjet, JECLevel, 'None'),
pvSource=cms.InputTag('offlineSlimmedPrimaryVertices'),
svSource=cms.InputTag('slimmedSecondaryVertices'),
getJetMCFlavour=isMC,
genParticles=cms.InputTag("prunedGenParticles"),
btagDiscriminators=btagSubjets,
genJetCollection=cms.InputTag(
"genJets" + jetAlgo + postfix + "SubJets", "SubJets"),
explicitJTA=True, # needed for subjet b tagging
svClustering=True, # needed for subjet b tagging
fatJets=cms.InputTag(
jetCollection +
"Reduced"), # needed for subjet flavor clustering
groomedFatJets=cms.InputTag(
jetCollection +
postfix), # needed for subjet flavor clustering
)
## adding sub-jet QGL
if addQGLikelihood:
if not hasattr(process, jetCollection + postfix + "SubJetsQGL"):
setattr(
process, jetCollection + postfix + "SubJetsQGL",
QGTagger.clone(srcJets=cms.InputTag(
jetCollection + postfix, "SubJets"),
jetsLabel=cms.string('QGL_AK4PFchs'),
srcVertexCollection=cms.InputTag(
'offlineSlimmedPrimaryVertices')))
getattr(process, 'patJets' + jetCollection + postfix +
"SubJets").userData.userFloats.src += [
jetCollection + postfix + 'SubJetsQGL:qgLikelihood'
]
## Establish references between PATified fat jets and subjets using the BoostedJetMerger
if not hasattr(process,
'patJets' + jetCollection + postfix + 'Packed'):
setattr(
process, 'patJets' + jetCollection + postfix + 'Packed',
cms.EDProducer(
"BoostedJetMerger",
jetSrc=cms.InputTag('selectedPatJets' + jetCollection +
postfix),
subjetSrc=cms.InputTag("selectedPatJets" + jetCollection +
postfix + "SubJets")))
def applySubstructure( process, postfix="" ) :
task = getPatAlgosToolsTask(process)
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
from PhysicsTools.PatAlgos.producersLayer1.jetProducer_cfi import _patJets as patJetsDefault
# Configure the RECO jets
from RecoJets.JetProducers.ak4PFJets_cfi import ak4PFJetsPuppi
from RecoJets.JetProducers.ak8PFJets_cfi import ak8PFJetsPuppi, ak8PFJetsPuppiSoftDrop, ak8PFJetsPuppiConstituents, ak8PFJetsCHSConstituents
from RecoJets.JetProducers.ak8GenJets_cfi import ak8GenJets, ak8GenJetsSoftDrop, ak8GenJetsConstituents
addToProcessAndTask('ak4PFJetsPuppi'+postfix,ak4PFJetsPuppi.clone(), process, task)
addToProcessAndTask('ak8PFJetsPuppi'+postfix,ak8PFJetsPuppi.clone(), process, task)
addToProcessAndTask('ak8PFJetsPuppiConstituents', ak8PFJetsPuppiConstituents.clone(cut = cms.string('pt > 170.0 && abs(rapidity()) < 2.4') ), process, task )
addToProcessAndTask('ak8PFJetsCHSConstituents', ak8PFJetsCHSConstituents.clone(), process, task )
addToProcessAndTask('ak8PFJetsPuppiSoftDrop'+postfix, ak8PFJetsPuppiSoftDrop.clone( src = cms.InputTag('ak8PFJetsPuppiConstituents', 'constituents') ), process, task)
addToProcessAndTask('ak8GenJetsNoNuConstituents'+postfix, ak8GenJetsConstituents.clone(src='ak8GenJetsNoNu'), process, task )
addToProcessAndTask('ak8GenJetsNoNuSoftDrop'+postfix,ak8GenJetsSoftDrop.clone(src=cms.InputTag('ak8GenJetsNoNuConstituents'+postfix, 'constituents')),process,task)
addToProcessAndTask('slimmedGenJetsAK8SoftDropSubJets'+postfix,
cms.EDProducer("PATGenJetSlimmer",
src = cms.InputTag("ak8GenJetsNoNuSoftDrop"+postfix, "SubJets"),
packedGenParticles = cms.InputTag("packedGenParticles"),
cut = cms.string(""),
cutLoose = cms.string(""),
nLoose = cms.uint32(0),
clearDaughters = cms.bool(False), #False means rekeying
dropSpecific = cms.bool(True), # Save space
), process, task )
#add AK8 CHS
addJetCollection(process, postfix=postfix, labelName = 'AK8',
jetSource = cms.InputTag('ak8PFJetsCHS'+postfix),
algo= 'AK', rParam = 0.8,
btagDiscriminators = ['None'],
jetCorrections = ('AK8PFchs', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'None'),
genJetCollection = cms.InputTag('slimmedGenJetsAK8')
)
getattr(process,"patJetsAK8"+postfix).userData.userFloats.src = [] # start with empty list of user floats
getattr(process,"selectedPatJetsAK8").cut = cms.string("pt > 170")
## add AK8 groomed masses with CHS
from RecoJets.Configuration.RecoPFJets_cff import ak8PFJetsCHSPruned, ak8PFJetsCHSSoftDrop
addToProcessAndTask('ak8PFJetsCHSPruned'+postfix, ak8PFJetsCHSPruned.clone(), process, task)
addToProcessAndTask('ak8PFJetsCHSSoftDrop'+postfix, ak8PFJetsCHSSoftDrop.clone(), process, task)
from RecoJets.JetProducers.ak8PFJetsCHS_groomingValueMaps_cfi import ak8PFJetsCHSPrunedMass, ak8PFJetsCHSTrimmedMass, ak8PFJetsCHSFilteredMass, ak8PFJetsCHSSoftDropMass
addToProcessAndTask('ak8PFJetsCHSPrunedMass'+postfix, ak8PFJetsCHSPrunedMass.clone(), process, task)
addToProcessAndTask('ak8PFJetsCHSTrimmedMass'+postfix, ak8PFJetsCHSTrimmedMass.clone(), process, task)
addToProcessAndTask('ak8PFJetsCHSFilteredMass'+postfix, ak8PFJetsCHSFilteredMass.clone(), process, task)
addToProcessAndTask('ak8PFJetsCHSSoftDropMass'+postfix, ak8PFJetsCHSSoftDropMass.clone(), process, task)
getattr(process,"patJetsAK8").userData.userFloats.src += ['ak8PFJetsCHSPrunedMass'+postfix,'ak8PFJetsCHSSoftDropMass'+postfix]
getattr(process,"patJetsAK8").addTagInfos = cms.bool(False)
# add Njetiness for CHS
process.load('RecoJets.JetProducers.nJettinessAdder_cfi')
task.add(process.Njettiness)
addToProcessAndTask('NjettinessAK8'+postfix, process.Njettiness.clone(), process, task)
getattr(process,"NjettinessAK8").src = cms.InputTag("ak8PFJetsCHS"+postfix)
getattr(process,"NjettinessAK8").cone = cms.double(0.8)
getattr(process,"patJetsAK8").userData.userFloats.src += ['NjettinessAK8'+postfix+':tau1','NjettinessAK8'+postfix+':tau2','NjettinessAK8'+postfix+':tau3','NjettinessAK8'+postfix+':tau4']
# add Njetiness from CHS
addToProcessAndTask('NjettinessAK8Subjets'+postfix, process.Njettiness.clone(), process, task)
getattr(process,"NjettinessAK8Subjets"+postfix).src = cms.InputTag("ak8PFJetsPuppiSoftDrop"+postfix, "SubJets")
getattr(process,"NjettinessAK8Subjets").cone = cms.double(0.8)
## PATify CHS soft drop fat jets
addJetCollection(
process,
postfix=postfix,
labelName = 'AK8PFCHSSoftDrop',
jetSource = cms.InputTag('ak8PFJetsCHSSoftDrop'+postfix),
btagDiscriminators = ['None'],
jetCorrections = ('AK8PFchs', ['L1FastJet', 'L2Relative', 'L3Absolute'], 'None'),
getJetMCFlavour = False # jet flavor disabled
)
#add RECO AK8 from PUPPI and RECO AK8 PUPPI with soft drop... will be needed by ungroomed AK8 jets later
## PATify puppi soft drop fat jets
addJetCollection(
process,
postfix=postfix,
labelName = 'AK8PFPuppiSoftDrop' + postfix,
jetSource = cms.InputTag('ak8PFJetsPuppiSoftDrop'+postfix),
btagDiscriminators = ['None'],
genJetCollection = cms.InputTag('slimmedGenJetsAK8'),
jetCorrections = ('AK8PFPuppi', ['L2Relative', 'L3Absolute'], 'None'),
getJetMCFlavour = False # jet flavor disabled
)
## PATify soft drop subjets
addJetCollection(
process,
postfix=postfix,
labelName = 'AK8PFPuppiSoftDropSubjets',
jetSource = cms.InputTag('ak8PFJetsPuppiSoftDrop'+postfix,'SubJets'),
algo = 'ak', # needed for subjet flavor clustering
rParam = 0.8, # needed for subjet flavor clustering
btagDiscriminators = ['pfDeepCSVJetTags:probb', 'pfDeepCSVJetTags:probbb', 'pfCombinedInclusiveSecondaryVertexV2BJetTags','pfCombinedMVAV2BJetTags'],
jetCorrections = ('AK4PFPuppi', ['L2Relative', 'L3Absolute'], 'None'),
explicitJTA = True, # needed for subjet b tagging
svClustering = True, # needed for subjet b tagging
genJetCollection = cms.InputTag('slimmedGenJetsAK8SoftDropSubJets'),
fatJets=cms.InputTag('ak8PFJetsPuppi'), # needed for subjet flavor clustering
groomedFatJets=cms.InputTag('ak8PFJetsPuppiSoftDrop') # needed for subjet flavor clustering
)
# add groomed ECFs and N-subjettiness to soft dropped pat::Jets for fat jets and subjets
process.load('RecoJets.JetProducers.ECF_cff')
addToProcessAndTask('nb1AK8PuppiSoftDrop'+postfix, process.ecfNbeta1.clone(src = cms.InputTag("ak8PFJetsPuppiSoftDrop"+postfix), cuts = cms.vstring('', '', 'pt > 250')), process, task)
addToProcessAndTask('nb2AK8PuppiSoftDrop'+postfix, process.ecfNbeta2.clone(src = cms.InputTag("ak8PFJetsPuppiSoftDrop"+postfix), cuts = cms.vstring('', '', 'pt > 250')), process, task)
#too slow now ==> disable
from Configuration.Eras.Modifier_pp_on_AA_2018_cff import pp_on_AA_2018
from Configuration.Eras.Modifier_pp_on_XeXe_2017_cff import pp_on_XeXe_2017
from Configuration.Eras.Modifier_phase2_common_cff import phase2_common
for e in [pp_on_XeXe_2017, pp_on_AA_2018, phase2_common]:
e.toModify(getattr(process,'nb1AK8PuppiSoftDrop'+postfix), cuts = ['pt > 999999', 'pt > 999999', 'pt > 999999'] )
e.toModify(getattr(process,'nb2AK8PuppiSoftDrop'+postfix), cuts = ['pt > 999999', 'pt > 999999', 'pt > 999999'] )
getattr(process,"patJetsAK8PFPuppiSoftDrop").userData.userFloats.src += ['nb1AK8PuppiSoftDrop'+postfix+':ecfN2','nb1AK8PuppiSoftDrop'+postfix+':ecfN3']
getattr(process,"patJetsAK8PFPuppiSoftDrop").userData.userFloats.src += ['nb2AK8PuppiSoftDrop'+postfix+':ecfN2','nb2AK8PuppiSoftDrop'+postfix+':ecfN3']
addToProcessAndTask('nb1AK8PuppiSoftDropSubjets'+postfix, process.ecfNbeta1.clone(src = cms.InputTag("ak8PFJetsPuppiSoftDrop"+postfix, "SubJets")), process, task)
addToProcessAndTask('nb2AK8PuppiSoftDropSubjets'+postfix, process.ecfNbeta2.clone(src = cms.InputTag("ak8PFJetsPuppiSoftDrop"+postfix, "SubJets")), process, task)
getattr(process,"patJetsAK8PFPuppiSoftDropSubjets"+postfix).userData.userFloats.src += ['nb1AK8PuppiSoftDropSubjets'+postfix+':ecfN2','nb1AK8PuppiSoftDropSubjets'+postfix+':ecfN3']
getattr(process,"patJetsAK8PFPuppiSoftDropSubjets"+postfix).userData.userFloats.src += ['nb2AK8PuppiSoftDropSubjets'+postfix+':ecfN2','nb2AK8PuppiSoftDropSubjets'+postfix+':ecfN3']
getattr(process,"patJetsAK8PFPuppiSoftDropSubjets"+postfix).userData.userFloats.src += ['NjettinessAK8Subjets'+postfix+':tau1','NjettinessAK8Subjets'+postfix+':tau2','NjettinessAK8Subjets'+postfix+':tau3','NjettinessAK8Subjets'+postfix+':tau4']
for e in [pp_on_XeXe_2017, pp_on_AA_2018, phase2_common]:
e.toModify(getattr(process,'nb1AK8PuppiSoftDropSubjets'+postfix), cuts = ['pt > 999999', 'pt > 999999', 'pt > 999999'] )
e.toModify(getattr(process,'nb2AK8PuppiSoftDropSubjets'+postfix), cuts = ['pt > 999999', 'pt > 999999', 'pt > 999999'] )
# rekey the groomed ECF value maps to the ungroomed reco jets, which will then be picked
# up by PAT in the user floats.
addToProcessAndTask("ak8PFJetsPuppiSoftDropValueMap"+postfix,
cms.EDProducer("RecoJetToPatJetDeltaRValueMapProducer",
src = cms.InputTag("ak8PFJetsPuppi"+postfix),
matched = cms.InputTag("patJetsAK8PFPuppiSoftDrop"+postfix),
distMax = cms.double(0.8),
values = cms.vstring([
'userFloat("nb1AK8PuppiSoftDrop'+postfix+':ecfN2")',
'userFloat("nb1AK8PuppiSoftDrop'+postfix+':ecfN3")',
'userFloat("nb2AK8PuppiSoftDrop'+postfix+':ecfN2")',
'userFloat("nb2AK8PuppiSoftDrop'+postfix+':ecfN3")',
]),
valueLabels = cms.vstring( [
'nb1AK8PuppiSoftDropN2',
'nb1AK8PuppiSoftDropN3',
'nb2AK8PuppiSoftDropN2',
'nb2AK8PuppiSoftDropN3',
]) ),
process, task)
# Patify AK8 PF PUPPI
addJetCollection(process, postfix=postfix, labelName = 'AK8Puppi',
jetSource = cms.InputTag('ak8PFJetsPuppi'+postfix),
algo= 'AK', rParam = 0.8,
jetCorrections = ('AK8PFPuppi', cms.vstring(['L2Relative', 'L3Absolute']), 'None'),
btagDiscriminators = ([
'pfCombinedSecondaryVertexV2BJetTags',
'pfCombinedInclusiveSecondaryVertexV2BJetTags',
'pfCombinedMVAV2BJetTags',
'pfDeepCSVJetTags:probb',
'pfDeepCSVJetTags:probc',
'pfDeepCSVJetTags:probudsg',
'pfDeepCSVJetTags:probbb',
'pfBoostedDoubleSecondaryVertexAK8BJetTags']),
genJetCollection = cms.InputTag('slimmedGenJetsAK8')
)
getattr(process,"patJetsAK8Puppi"+postfix).userData.userFloats.src = [] # start with empty list of user floats
getattr(process,"selectedPatJetsAK8Puppi"+postfix).cut = cms.string("pt > 100")
getattr(process,"selectedPatJetsAK8Puppi"+postfix).cutLoose = cms.string("pt > 30")
getattr(process,"selectedPatJetsAK8Puppi"+postfix).nLoose = cms.uint32(3)
from RecoJets.JetAssociationProducers.j2tParametersVX_cfi import j2tParametersVX
addToProcessAndTask('ak8PFJetsPuppiTracksAssociatorAtVertex'+postfix, cms.EDProducer("JetTracksAssociatorAtVertex",
j2tParametersVX.clone( coneSize = cms.double(0.8) ),
jets = cms.InputTag("ak8PFJetsPuppi") ),
process, task)
addToProcessAndTask('patJetAK8PuppiCharge'+postfix, cms.EDProducer("JetChargeProducer",
src = cms.InputTag("ak8PFJetsPuppiTracksAssociatorAtVertex"),
var = cms.string('Pt'),
exp = cms.double(1.0) ),
process, task)
## now add AK8 groomed masses and ECF
from RecoJets.JetProducers.ak8PFJetsPuppi_groomingValueMaps_cfi import ak8PFJetsPuppiSoftDropMass
addToProcessAndTask('ak8PFJetsPuppiSoftDropMass'+postfix, ak8PFJetsPuppiSoftDropMass.clone(), process, task)
getattr(process,"patJetsAK8Puppi"+postfix).userData.userFloats.src += ['ak8PFJetsPuppiSoftDropMass'+postfix]
getattr(process,"patJetsAK8Puppi"+postfix).addTagInfos = cms.bool(False)
getattr(process,"patJetsAK8Puppi"+postfix).userData.userFloats.src += [
cms.InputTag('ak8PFJetsPuppiSoftDropValueMap'+postfix,'nb1AK8PuppiSoftDropN2'),
cms.InputTag('ak8PFJetsPuppiSoftDropValueMap'+postfix,'nb1AK8PuppiSoftDropN3'),
cms.InputTag('ak8PFJetsPuppiSoftDropValueMap'+postfix,'nb2AK8PuppiSoftDropN2'),
cms.InputTag('ak8PFJetsPuppiSoftDropValueMap'+postfix,'nb2AK8PuppiSoftDropN3'),
]
# add PUPPI Njetiness
addToProcessAndTask('NjettinessAK8Puppi'+postfix, process.Njettiness.clone(), process, task)
getattr(process,"NjettinessAK8Puppi"+postfix).src = cms.InputTag("ak8PFJetsPuppi"+postfix)
getattr(process,"NjettinessAK8Puppi").cone = cms.double(0.8)
getattr(process,"patJetsAK8Puppi").userData.userFloats.src += ['NjettinessAK8Puppi'+postfix+':tau1','NjettinessAK8Puppi'+postfix+':tau2','NjettinessAK8Puppi'+postfix+':tau3','NjettinessAK8Puppi'+postfix+':tau4']
# Now combine the CHS and PUPPI information into the PUPPI jets via delta R value maps
addToProcessAndTask("ak8PFJetsCHSValueMap"+postfix, cms.EDProducer("RecoJetToPatJetDeltaRValueMapProducer",
src = cms.InputTag("ak8PFJetsPuppi"+postfix),
matched = cms.InputTag("patJetsAK8"+postfix),
distMax = cms.double(0.8),
values = cms.vstring([
'userFloat("ak8PFJetsCHSPrunedMass"'+postfix+')',
'userFloat("ak8PFJetsCHSSoftDropMass"'+postfix+')',
'userFloat("NjettinessAK8'+postfix+':tau1")',
'userFloat("NjettinessAK8'+postfix+':tau2")',
'userFloat("NjettinessAK8'+postfix+':tau3")',
'userFloat("NjettinessAK8'+postfix+':tau4")',
'pt','eta','phi','mass', 'jetArea', 'jecFactor(0)'
]),
valueLabels = cms.vstring( [
'ak8PFJetsCHSPrunedMass',
'ak8PFJetsCHSSoftDropMass',
'NjettinessAK8CHSTau1',
'NjettinessAK8CHSTau2',
'NjettinessAK8CHSTau3',
'NjettinessAK8CHSTau4',
'pt','eta','phi','mass', 'jetArea', 'rawFactor'
]) ),
process, task)
# Now set up the user floats
getattr(process,"patJetsAK8Puppi"+postfix).userData.userFloats.src += [
cms.InputTag('ak8PFJetsCHSValueMap'+postfix,'ak8PFJetsCHSPrunedMass'),
cms.InputTag('ak8PFJetsCHSValueMap'+postfix,'ak8PFJetsCHSSoftDropMass'),
cms.InputTag('ak8PFJetsCHSValueMap'+postfix,'NjettinessAK8CHSTau1'),
cms.InputTag('ak8PFJetsCHSValueMap'+postfix,'NjettinessAK8CHSTau2'),
cms.InputTag('ak8PFJetsCHSValueMap'+postfix,'NjettinessAK8CHSTau3'),
cms.InputTag('ak8PFJetsCHSValueMap'+postfix,'NjettinessAK8CHSTau4'),
cms.InputTag('ak8PFJetsCHSValueMap'+postfix,'pt'),
cms.InputTag('ak8PFJetsCHSValueMap'+postfix,'eta'),
cms.InputTag('ak8PFJetsCHSValueMap'+postfix,'phi'),
cms.InputTag('ak8PFJetsCHSValueMap'+postfix,'mass'),
cms.InputTag('ak8PFJetsCHSValueMap'+postfix,'jetArea'),
cms.InputTag('ak8PFJetsCHSValueMap'+postfix,'rawFactor'),
]
addToProcessAndTask("slimmedJetsAK8PFPuppiSoftDropSubjets"+postfix,
cms.EDProducer("PATJetSlimmer",
src = cms.InputTag("selectedPatJetsAK8PFPuppiSoftDropSubjets"),
packedPFCandidates = cms.InputTag("packedPFCandidates"),
dropJetVars = cms.string("1"),
dropDaughters = cms.string("0"),
rekeyDaughters = cms.string("1"),
dropTrackRefs = cms.string("1"),
dropSpecific = cms.string("1"),
dropTagInfos = cms.string("1"),
modifyJets = cms.bool(True),
mixedDaughters = cms.bool(False),
modifierConfig = cms.PSet( modifications = cms.VPSet() )
),
process, task)
## Establish references between PATified fat jets and subjets using the BoostedJetMerger
addToProcessAndTask("slimmedJetsAK8PFPuppiSoftDropPacked"+postfix,
cms.EDProducer("BoostedJetMerger",
jetSrc=cms.InputTag("selectedPatJetsAK8PFPuppiSoftDrop"),
subjetSrc=cms.InputTag("slimmedJetsAK8PFPuppiSoftDropSubjets")
),
process, task )
addToProcessAndTask("packedPatJetsAK8"+postfix, cms.EDProducer("JetSubstructurePacker",
jetSrc = cms.InputTag("selectedPatJetsAK8Puppi"+postfix),
distMax = cms.double(0.8),
algoTags = cms.VInputTag(
cms.InputTag("slimmedJetsAK8PFPuppiSoftDropPacked"+postfix)
),
algoLabels = cms.vstring(
'SoftDropPuppi'
),
fixDaughters = cms.bool(True),
packedPFCandidates = cms.InputTag("packedPFCandidates"+postfix),
),
process, task)
# switch off daughter re-keying since it's done in the JetSubstructurePacker (and can't be done afterwards)
process.slimmedJetsAK8.rekeyDaughters = "0"
# Reconfigure the slimmedAK8 jet information to keep
process.slimmedJetsAK8.dropDaughters = cms.string("pt < 170")
process.slimmedJetsAK8.dropSpecific = cms.string("pt < 170")
process.slimmedJetsAK8.dropTagInfos = cms.string("pt < 170")
preSeq += process.trackJetSequence
# Make pat track-jets
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
addJetCollection(
process,
labelName = 'AK4PFTrack',
jetSource = cms.InputTag('ak4TrackJets'),
algo = 'AK',
rParam = 0.4,
jetCorrections = None,
pfCandidates = cms.InputTag( 'packedPFCandidates' ),
svSource = cms.InputTag( 'slimmedSecondaryVertices' ),
genJetCollection = cms.InputTag( 'slimmedGenJets'),
pvSource = cms.InputTag( 'offlineSlimmedPrimaryVertices' ),
btagDiscriminators = [
#'pfTrackCountingHighEffBJetTags',
#'pfTrackCountingHighPurBJetTags',
'pfJetProbabilityBJetTags'
#'pfJetBProbabilityBJetTags'
],
getJetMCFlavour = isMC,
genParticles = cms.InputTag('prunedGenParticles'),
outputModules = ['outputFile']
)
getattr(process,'selectedPatJetsAK4PFTrack').cut = cms.string('pt > 1.0')
preSeq += getattr(process,'selectedPatJetsAK4PFTrack')
process.skimEventProducer.trackJetTag = cms.InputTag("selectedPatJetsAK4PFTrack")
def applySubstructure(process):
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
# add CMS top tagger
from RecoJets.JetProducers.caTopTaggers_cff import caTopTagInfos
process.caTopTagInfos = caTopTagInfos.clone()
process.caTopTagInfosPAT = cms.EDProducer(
"RecoJetDeltaRTagInfoValueMapProducer",
src=cms.InputTag("ak8PFJetsCHS"),
matched=cms.InputTag("cmsTopTagPFJetsCHS"),
matchedTagInfos=cms.InputTag("caTopTagInfos"),
distMax=cms.double(0.8))
from PhysicsTools.PatAlgos.producersLayer1.jetProducer_cfi import patJets as patJetsDefault
#add AK8
addJetCollection(
process,
labelName='AK8',
jetSource=cms.InputTag('ak8PFJetsCHS'),
algo='AK',
rParam=0.8,
jetCorrections=('AK8PFchs',
cms.vstring(['L1FastJet', 'L2Relative',
'L3Absolute']), 'None'),
btagDiscriminators=(
[x.getModuleLabel() for x in patJetsDefault.discriminatorSources] +
['pfBoostedDoubleSecondaryVertexAK8BJetTags']),
genJetCollection=cms.InputTag('slimmedGenJetsAK8'))
process.patJetsAK8.userData.userFloats.src = [
] # start with empty list of user floats
process.selectedPatJetsAK8.cut = cms.string("pt > 170")
## AK8 groomed masses
from RecoJets.Configuration.RecoPFJets_cff import ak8PFJetsCHSPruned, ak8PFJetsCHSSoftDrop, ak8PFJetsCHSFiltered, ak8PFJetsCHSTrimmed
process.ak8PFJetsCHSPruned = ak8PFJetsCHSPruned.clone()
process.ak8PFJetsCHSSoftDrop = ak8PFJetsCHSSoftDrop.clone()
process.ak8PFJetsCHSTrimmed = ak8PFJetsCHSTrimmed.clone()
process.ak8PFJetsCHSFiltered = ak8PFJetsCHSFiltered.clone()
process.load("RecoJets.JetProducers.ak8PFJetsCHS_groomingValueMaps_cfi")
process.patJetsAK8.userData.userFloats.src += [
'ak8PFJetsCHSPrunedMass', 'ak8PFJetsCHSSoftDropMass',
'ak8PFJetsCHSTrimmedMass', 'ak8PFJetsCHSFilteredMass'
]
# Add AK8 top tagging variables
process.patJetsAK8.tagInfoSources = cms.VInputTag(
cms.InputTag("caTopTagInfosPAT"))
process.patJetsAK8.addTagInfos = cms.bool(True)
# add Njetiness
process.load('RecoJets.JetProducers.nJettinessAdder_cfi')
process.NjettinessAK8 = process.Njettiness.clone()
process.NjettinessAK8.src = cms.InputTag("ak8PFJetsCHS")
process.NjettinessAK8.cone = cms.double(0.8)
process.patJetsAK8.userData.userFloats.src += [
'NjettinessAK8:tau1', 'NjettinessAK8:tau2', 'NjettinessAK8:tau3'
]
## PATify pruned fat jets
addJetCollection(
process,
labelName='AK8PFCHSSoftDrop',
jetSource=cms.InputTag('ak8PFJetsCHSSoftDrop'),
btagDiscriminators=['None'],
jetCorrections=('AK8PFchs', ['L1FastJet', 'L2Relative',
'L3Absolute'], 'None'),
getJetMCFlavour=False # jet flavor disabled
)
## PATify soft drop subjets
addJetCollection(
process,
labelName='AK8PFCHSSoftDropSubjets',
jetSource=cms.InputTag('ak8PFJetsCHSSoftDrop', 'SubJets'),
algo='ak', # needed for subjet flavor clustering
rParam=0.8, # needed for subjet flavor clustering
btagDiscriminators=[
'pfCombinedSecondaryVertexV2BJetTags',
'pfCombinedInclusiveSecondaryVertexV2BJetTags'
],
jetCorrections=('AK4PFchs', ['L1FastJet', 'L2Relative',
'L3Absolute'], 'None'),
explicitJTA=True, # needed for subjet b tagging
svClustering=True, # needed for subjet b tagging
genJetCollection=cms.InputTag('slimmedGenJets'),
fatJets=cms.InputTag(
'ak8PFJetsCHS'), # needed for subjet flavor clustering
groomedFatJets=cms.InputTag(
'ak8PFJetsCHSSoftDrop') # needed for subjet flavor clustering
)
process.selectedPatJetsAK8PFCHSSoftDrop.cut = cms.string("pt > 170")
process.slimmedJetsAK8PFCHSSoftDropSubjets = cms.EDProducer(
"PATJetSlimmer",
src=cms.InputTag("selectedPatJetsAK8PFCHSSoftDropSubjets"),
packedPFCandidates=cms.InputTag("packedPFCandidates"),
dropJetVars=cms.string("1"),
dropDaughters=cms.string("0"),
rekeyDaughters=cms.string("1"),
dropTrackRefs=cms.string("1"),
dropSpecific=cms.string("1"),
dropTagInfos=cms.string("1"),
modifyJets=cms.bool(True),
modifierConfig=cms.PSet(modifications=cms.VPSet()))
## Establish references between PATified fat jets and subjets using the BoostedJetMerger
process.slimmedJetsAK8PFCHSSoftDropPacked = cms.EDProducer(
"BoostedJetMerger",
jetSrc=cms.InputTag("selectedPatJetsAK8PFCHSSoftDrop"),
subjetSrc=cms.InputTag("slimmedJetsAK8PFCHSSoftDropSubjets"))
addJetCollection(
process,
labelName='CMSTopTagCHS',
jetSource=cms.InputTag('cmsTopTagPFJetsCHS'),
jetCorrections=('AK8PFchs',
cms.vstring(['L1FastJet', 'L2Relative',
'L3Absolute']), 'None'),
btagDiscriminators=['None'],
genJetCollection=cms.InputTag('slimmedGenJetsAK8'),
getJetMCFlavour=False #
)
process.selectedPatJetsCMSTopTagCHS.cut = cms.string("pt > 200")
addJetCollection(
process,
labelName='CMSTopTagCHSSubjets',
jetSource=cms.InputTag('cmsTopTagPFJetsCHS', 'caTopSubJets'),
algo='AK', # needed for subjet flavor clustering
rParam=0.8, # needed for subjet flavor clustering
btagDiscriminators=[
'pfCombinedSecondaryVertexV2BJetTags',
'pfCombinedInclusiveSecondaryVertexV2BJetTags'
],
jetCorrections=('AK4PFchs', ['L1FastJet', 'L2Relative',
'L3Absolute'], 'None'),
genJetCollection=cms.InputTag(
'slimmedGenJets'
), # Using ak4GenJets for matching which is not entirely appropriate
explicitJTA=True, # needed for subjet b tagging
svClustering=True, # needed for subjet b tagging
fatJets=cms.InputTag(
'ak8PFJetsCHS'), # needed for subjet flavor clustering
groomedFatJets=cms.InputTag(
'cmsTopTagPFJetsCHS') # needed for subjet flavor clustering
)
process.slimmedJetsCMSTopTagCHSSubjets = cms.EDProducer(
"PATJetSlimmer",
src=cms.InputTag("selectedPatJetsCMSTopTagCHSSubjets"),
packedPFCandidates=cms.InputTag("packedPFCandidates"),
dropJetVars=cms.string("1"),
dropDaughters=cms.string("0"),
rekeyDaughters=cms.string("1"),
dropTrackRefs=cms.string("1"),
dropSpecific=cms.string("1"),
dropTagInfos=cms.string("1"),
modifyJets=cms.bool(True),
modifierConfig=cms.PSet(modifications=cms.VPSet()))
## Establish references between PATified fat jets and subjets using the BoostedJetMerger
process.slimmedJetsCMSTopTagCHSPacked = cms.EDProducer(
"BoostedJetMerger",
jetSrc=cms.InputTag("selectedPatJetsCMSTopTagCHS"),
subjetSrc=cms.InputTag("slimmedJetsCMSTopTagCHSSubjets"))
process.packedPatJetsAK8 = cms.EDProducer(
"JetSubstructurePacker",
jetSrc=cms.InputTag("selectedPatJetsAK8"),
distMax=cms.double(0.8),
algoTags=cms.VInputTag(
# NOTE: For an optimal storage of the AK8 jet daughters, the first subjet collection listed here should be
# derived from AK8 jets, i.e., subjets should contain either all or a subset of AK8 constituents.
# The CMSTopTag subjets are derived from CA8 jets later matched to AK8 jets and could in principle
# contain extra constituents not clustered inside AK8 jets.
cms.InputTag("slimmedJetsAK8PFCHSSoftDropPacked"),
cms.InputTag("slimmedJetsCMSTopTagCHSPacked")),
algoLabels=cms.vstring('SoftDrop', 'CMSTopTag'),
fixDaughters=cms.bool(True),
packedPFCandidates=cms.InputTag("packedPFCandidates"),
)
# switch off daughter re-keying since it's done in the JetSubstructurePacker (and can't be done afterwards)
process.slimmedJetsAK8.rekeyDaughters = "0"
process.ak4GenJets = ak4GenJets.clone(src = 'packedGenParticles')
# The following is make patJets, but EI is done with the above
process.load("PhysicsTools.PatAlgos.producersLayer1.patCandidates_cff")
process.load("Configuration.EventContent.EventContent_cff")
process.load('Configuration.StandardSequences.Geometry_cff')
process.load('Configuration.StandardSequences.MagneticField_38T_cff')
process.load('Configuration.StandardSequences.FrontierConditions_GlobalTag_cff')
process.GlobalTag.globaltag = 'PLS170_V7AN1::All'
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
addJetCollection(
process,
postfix = "",
labelName = 'AK4PF',
jetSource = cms.InputTag('ak4PFJets'),
trackSource = cms.InputTag('unpackedTracksAndVertices'),
pvSource = cms.InputTag('unpackedTracksAndVertices'),
jetCorrections = ('AK4PF', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'None'),
btagDiscriminators = ['combinedSecondaryVertexBJetTags']
,algo= 'AK', rParam = 0.4)
# adjust MC matching
process.patJetGenJetMatchAK4PF.matched = "ak4GenJets"
process.patJetPartonMatchAK4PF.matched = "prunedGenParticles"
process.patJetPartons.particles = "prunedGenParticles"
# adjust PV used for Jet Corrections
process.patJetCorrFactorsAK4PF.primaryVertices = "offlineSlimmedPrimaryVertices"
# the following part is needed if you want to run b-tagging on the freshly made jets
# CAVEAT: it is not 100% the same b-tagging as in RECO, but performance plots are almost identical
process.ak5PFJetsCHS = ak5PFJets.clone(src = 'chs', doAreaFastjet = True) # no idea while doArea is false by default, but it's True in RECO so we have to set it
process.ak5GenJets = ak5GenJets.clone(src = 'packedGenParticles')
process.load("PhysicsTools.PatAlgos.producersLayer1.patCandidates_cff")
process.load("Configuration.EventContent.EventContent_cff")
process.load('Configuration.StandardSequences.Geometry_cff')
process.load('Configuration.StandardSequences.MagneticField_38T_cff')
process.load('Configuration.StandardSequences.FrontierConditions_GlobalTag_cff')
process.GlobalTag.globaltag = 'START70_V6::All'
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
addJetCollection(
process,
postfix = "",
labelName = 'AK5PFCHS',
jetSource = cms.InputTag('ak5PFJetsCHS'),
trackSource = cms.InputTag('unpackedTracksAndVertices'),
pvSource = cms.InputTag('unpackedTracksAndVertices'),
jetCorrections = ('AK5PFchs', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'Type-2'),
btagDiscriminators = [ 'combinedSecondaryVertexBJetTags' ]
)
process.patJetPartonMatchPatJetsAK5PFCHS.matched = "prunedGenParticles"
process.patJetPartons.src = "prunedGenParticles"
process.patJetPartons.skipFirstN = cms.uint32(0) # do not skip first 6 particles, we already pruned some!
process.patJetPartons.acceptNoDaughters = cms.bool(True) # as we drop intermediate stuff, we need to accept quarks with no siblings
process.patJetCorrFactorsPatJetsAK5PFCHS.primaryVertices = "offlineSlimmedPrimaryVertices"
#recreate tracks and pv for btagging
process.load('PhysicsTools.PatAlgos.slimming.unpackedTracksAndVertices_cfi')
process.combinedSecondaryVertex.trackMultiplicityMin = 1 #silly sv, uses un filtered tracks.. i.e. any pt
process.load("FWCore.MessageLogger.MessageLogger_cfi")
'pfCombinedInclusiveSecondaryVertexBJetTags',
'pfPositiveCombinedInclusiveSecondaryVertexBJetTags',
'pfNegativeCombinedInclusiveSecondaryVertexBJetTags',
'pfCombinedInclusiveSecondaryVertexV2BJetTags',
'pfPositiveCombinedInclusiveSecondaryVertexV2BJetTags',
'pfNegativeCombinedInclusiveSecondaryVertexV2BJetTags',
'pfCombinedMVABJetTags',
'pfPositiveCombinedMVABJetTags',
'pfNegativeCombinedMVABJetTags'
]
# uncomment the following lines to add ak4PFJets with new b-tags to your PAT output
addJetCollection(
process,
labelName='AK4PF',
jetSource=cms.InputTag('ak4PFJets'),
jetCorrections=('AK4PF',
cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']),
'Type-2'), # FIXME: Use proper JECs, as soon as available
btagDiscriminators=btagDiscriminators)
process.patJetsAK4PF.addTagInfos = True
# uncomment the following lines to add subjets of pruned ca8PFJetsCHS with new b-tags to your PAT output
addJetCollection(
process,
labelName='CA8PFCHSPrunedSubjets',
jetSource=cms.InputTag('ca8PFJetsCHSPruned', 'SubJets'),
jetCorrections=('AK4PFchs',
cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']),
'Type-2'), # FIXME: Use proper JECs, as soon as available
algo='CA',
rParam=0.8,
process.load("PhysicsTools.PatAlgos.patSequences_cff")
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
from PhysicsTools.PatAlgos.tools.jetTools import switchJetCollection
addJetCollection(
process,
labelName = 'AK4PFCHS',
jetSource = cms.InputTag('ak4PFJetsCHS'),
algo = 'ak',
rParam = 0.4,
jetCorrections = ('AK5PFchs', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'None'),
btagDiscriminators = [
'jetBProbabilityBJetTags'
, 'jetProbabilityBJetTags'
, 'trackCountingHighPurBJetTags'
, 'trackCountingHighEffBJetTags'
, 'simpleSecondaryVertexHighEffBJetTags'
, 'simpleSecondaryVertexHighPurBJetTags'
, 'combinedSecondaryVertexBJetTags'
],
)
addJetCollection(
process,
labelName = 'CA8PFCHS',
jetSource = cms.InputTag('ca8PFJetsCHS'),
algo = 'ca',
rParam = 0.8,
jetCorrections = ('AK7PFchs', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'None')
def addFlashggPFCHS0(process):
print "JET PRODUCER :: Flashgg PFCHS producer ::"
# leptons to remove as per default CHS workflow
# select the isolated leptons : electrons + muons
process.selectedMuons = cms.EDFilter("CandPtrSelector",
src = cms.InputTag("slimmedMuons"),
cut = cms.string('''abs(eta)<2.5 && pt>10. &&
(pfIsolationR04().sumChargedHadronPt+
max(0.,pfIsolationR04().sumNeutralHadronEt+
pfIsolationR04().sumPhotonEt-
0.50*pfIsolationR04().sumPUPt))/pt < 0.20 &&
(isPFMuon && (isGlobalMuon || isTrackerMuon) )'''))
process.selectedElectrons = cms.EDFilter("CandPtrSelector",
src = cms.InputTag("slimmedElectrons"),
cut = cms.string('''abs(eta)<2.5 && pt>20. &&
gsfTrack.isAvailable() &&
gsfTrack.hitPattern().numberOfLostHits(\'MISSING_INNER_HITS\') < 2 &&
(pfIsolationVariables().sumChargedHadronPt+
max(0.,pfIsolationVariables().sumNeutralHadronEt+
pfIsolationVariables().sumPhotonEt-
0.5*pfIsolationVariables().sumPUPt))/pt < 0.15'''))
# Simple producer which just removes the Candidates which
# don't come from the legacy vertex according to the Flashgg Vertex Map
process.flashggCHSLegacyVertexCandidates = cms.EDProducer('FlashggCHSLegacyVertexCandidateProducer',
PFCandidatesTag = cms.InputTag('packedPFCandidates'),
DiPhotonTag = cms.InputTag('flashggDiPhotons'),
VertexCandidateMapTag = cms.InputTag("flashggVertexMapForCHS"),
VertexTag = cms.InputTag('offlineSlimmedPrimaryVertices')
)
process.pfCHS0 = cms.EDFilter("CandPtrSelector",
src = cms.InputTag("flashggCHSLegacyVertexCandidates"),
cut = cms.string(""))
# then remove the previously selected muons
process.pfNoMuonCHS0 = cms.EDProducer("CandPtrProjector",
src = cms.InputTag("pfCHS0"),
veto = cms.InputTag("selectedMuons"))
# then remove the previously selected electrons
process.pfNoElectronsCHS0 = cms.EDProducer("CandPtrProjector",
src = cms.InputTag("pfNoMuonCHS0"),
veto = cms.InputTag("selectedElectrons"))
#Import RECO jet producer for ak4 PF and GEN jet
from RecoJets.JetProducers.ak4PFJets_cfi import ak4PFJets
process.ak4PFJetsCHS0 = ak4PFJets.clone ( src = 'pfNoElectronsCHS0', doAreaFastjet = True)
# NOTE : these line are from the new Jet recipe
# The following is make patJets, but EI is done with the above
process.load("Configuration.StandardSequences.MagneticField_cff")
process.load("Configuration.Geometry.GeometryRecoDB_cff")
process.load("Configuration.StandardSequences.FrontierConditions_GlobalTag_cff")
# cluster the jets
# NOTE: this is the 74X recipe for the jet clustering
addJetCollection(
process,
labelName = 'AK4PFCHS0',
jetSource = cms.InputTag('ak4PFJetsCHS0'),
pvSource = cms.InputTag('offlineSlimmedPrimaryVertices'),
pfCandidates = cms.InputTag('packedPFCandidates'),
svSource = cms.InputTag('slimmedSecondaryVertices'),
btagDiscriminators = [ flashggBTag ],
jetCorrections = ('AK4PFchs', ['L1FastJet', 'L2Relative', 'L3Absolute'], 'None'),
genParticles = cms.InputTag('prunedGenParticles'),
genJetCollection = cms.InputTag('slimmedGenJets'),
# jet param
algo = 'AK', rParam = 0.4
)
#adjust PV used for Jet Corrections
process.patJetCorrFactorsAK4PFCHS0.primaryVertices = "offlineSlimmedPrimaryVertices"
#addMETCollection(process, labelName='patMETCalo', metSource='met')
addMETCollection(process, labelName='patMETPF', metSource='pfMetT1')
#addMETCollection(process, labelName='patMETTC', metSource='tcMet') # FIXME: removed from RECO/AOD; needs functionality to add to processing
## uncomment the following line to add different jet collections
## to the event content
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
from PhysicsTools.PatAlgos.tools.jetTools import switchJetCollection
## uncomment the following lines to add ak4PFJetsCHS to your PAT output
labelAK4PFCHS = 'AK4PFCHS'
postfixAK4PFCHS = 'Copy'
addJetCollection(process,
postfix=postfixAK4PFCHS,
labelName=labelAK4PFCHS,
jetSource=cms.InputTag('ak4PFJetsCHS'),
jetCorrections=('AK4PFchs',
cms.vstring(
['L1FastJet', 'L2Relative',
'L3Absolute']), 'Type-2'))
process.out.outputCommands.append('drop *_selectedPatJets%s%s_caloTowers_*' %
(labelAK4PFCHS, postfixAK4PFCHS))
# uncomment the following lines to add ak4PFJets to your PAT output
switchJetCollection(
process,
jetSource=cms.InputTag('ak4PFJets'),
jetCorrections=('AK4PF',
cms.vstring(['L1FastJet', 'L2Relative',
'L3Absolute']), 'Type-1'),
btagDiscriminators=[
'pfJetBProbabilityBJetTags', 'pfJetProbabilityBJetTags',
,'pfDeepCSVJetTags:probc'
,'pfDeepCSVJetTags:probudsg'
,'pfDeepCSVJetTags:probbb'
# DeepCMVA
,'pfDeepCMVAJetTags:probb'
,'pfDeepCMVAJetTags:probc'
,'pfDeepCMVAJetTags:probudsg'
,'pfDeepCMVAJetTags:probbb'
,'pfDeepCMVAJetTags:probcc'
]
# uncomment the following lines to add ak4PFJets with new b-tags to your PAT output
addJetCollection(
process,
labelName = 'AK4PF',
jetSource = cms.InputTag('ak4PFJets'),
jetCorrections = ('AK4PF', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'Type-2'),
btagDiscriminators = btagDiscriminators
)
process.patJetsAK4PF.addTagInfos = True
# uncomment the following lines to add ak8PFJetsCHS with new b-tags to your PAT output
addJetCollection(
process,
labelName = 'AK8PFCHS',
jetSource = cms.InputTag('ak8PFJetsCHS'),
jetCorrections = ('AK8PFchs', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'Type-2'),
algo = 'AK',
rParam = 0.8,
btagDiscriminators = ['pfBoostedDoubleSecondaryVertexAK8BJetTags']
)
process.load('PhysicsTools.PatAlgos.producersLayer1.patCandidates_cff')
process.load('PhysicsTools.PatAlgos.selectionLayer1.selectedPatCandidates_cff')
process.load("RecoJets.Configuration.RecoGenJets_cff")
process.load("RecoJets.Configuration.GenJetParticles_cff")
#process.ca8GenJetsNoNu = process.ca6GenJetsNoNu.clone( rParam = 0.8 )
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
from PhysicsTools.PatAlgos.tools.jetTools import switchJetCollection
addJetCollection(process,
labelName='AK4PFCHS',
jetSource=cms.InputTag('ak4PFJetsCHS'),
algo='ak4',
rParam=0.4,
jetCorrections=('AK5PFchs',
cms.vstring(
['L1FastJet', 'L2Relative',
'L3Absolute']), 'None'))
addJetCollection(process,
labelName='CA8PFCHS',
jetSource=cms.InputTag('ca8PFJetsCHS'),
algo='ca8',
rParam=0.8,
jetCorrections=('AK7PFchs',
cms.vstring(
['L1FastJet', 'L2Relative',
'L3Absolute']), 'None'))
#process.Tracer = cms.Service('Tracer')
process.load('PhysicsTools.PatAlgos.producersLayer1.patCandidates_cff')
process.load('PhysicsTools.PatAlgos.selectionLayer1.selectedPatCandidates_cff')
process.load("RecoJets.Configuration.RecoGenJets_cff")
process.load("RecoJets.Configuration.GenJetParticles_cff")
#process.ca8GenJetsNoNu = process.ca6GenJetsNoNu.clone( rParam = 0.8 )
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
from PhysicsTools.PatAlgos.tools.jetTools import switchJetCollection
addJetCollection(
process,
labelName = 'AK4PFCHS',
jetSource = cms.InputTag('ak4PFJetsCHS'),
algo = 'ak4',
rParam = 0.4,
jetCorrections = ('AK5PFchs', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'None')
)
addJetCollection(
process,
labelName = 'CA8PFCHS',
jetSource = cms.InputTag('ca8PFJetsCHS'),
algo = 'ca8',
rParam = 0.8,
jetCorrections = ('AK7PFchs', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'None')
)
addJetCollection(
process,
def miniAOD_customizeCommon(process):
process.patMuons.isoDeposits = cms.PSet()
process.patElectrons.isoDeposits = cms.PSet()
process.patTaus.isoDeposits = cms.PSet()
process.patPhotons.isoDeposits = cms.PSet()
#
process.patMuons.embedTrack = True # used for IDs
process.patMuons.embedCombinedMuon = True # used for IDs
process.patMuons.embedMuonBestTrack = True # used for IDs
process.patMuons.embedStandAloneMuon = True # maybe?
process.patMuons.embedPickyMuon = False # no, use best track
process.patMuons.embedTpfmsMuon = False # no, use best track
process.patMuons.embedDytMuon = False # no, use best track
#
# disable embedding of electron and photon associated objects already stored by the ReducedEGProducer
process.patElectrons.embedGsfElectronCore = False ## process.patElectrons.embed in AOD externally stored gsf electron core
process.patElectrons.embedSuperCluster = False ## process.patElectrons.embed in AOD externally stored supercluster
process.patElectrons.embedPflowSuperCluster = False ## process.patElectrons.embed in AOD externally stored supercluster
process.patElectrons.embedSeedCluster = False ## process.patElectrons.embed in AOD externally stored the electron's seedcluster
process.patElectrons.embedBasicClusters = False ## process.patElectrons.embed in AOD externally stored the electron's basic clusters
process.patElectrons.embedPreshowerClusters = False ## process.patElectrons.embed in AOD externally stored the electron's preshower clusters
process.patElectrons.embedPflowBasicClusters = False ## process.patElectrons.embed in AOD externally stored the electron's pflow basic clusters
process.patElectrons.embedPflowPreshowerClusters = False ## process.patElectrons.embed in AOD externally stored the electron's pflow preshower clusters
process.patElectrons.embedRecHits = False ## process.patElectrons.embed in AOD externally stored the RecHits - can be called from the PATElectronProducer
process.patElectrons.electronSource = cms.InputTag(
"reducedEgamma", "reducedGedGsfElectrons")
process.patElectrons.electronIDSources = cms.PSet(
# configure many IDs as InputTag <someName> = <someTag> you
# can comment out those you don't want to save some disk space
eidRobustLoose=cms.InputTag("reducedEgamma", "eidRobustLoose"),
eidRobustTight=cms.InputTag("reducedEgamma", "eidRobustTight"),
eidLoose=cms.InputTag("reducedEgamma", "eidLoose"),
eidTight=cms.InputTag("reducedEgamma", "eidTight"),
eidRobustHighEnergy=cms.InputTag("reducedEgamma",
"eidRobustHighEnergy"),
)
process.patElectrons.addPFClusterIso = cms.bool(True)
process.patElectrons.ecalPFClusterIsoMap = cms.InputTag(
"reducedEgamma", "eleEcalPFClusIso")
process.patElectrons.hcalPFClusterIsoMap = cms.InputTag(
"reducedEgamma", "eleHcalPFClusIso")
process.elPFIsoDepositChargedPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedGsfElectrons")
process.elPFIsoDepositChargedAllPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedGsfElectrons")
process.elPFIsoDepositNeutralPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedGsfElectrons")
process.elPFIsoDepositGammaPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedGsfElectrons")
process.elPFIsoDepositPUPAT.src = cms.InputTag("reducedEgamma",
"reducedGedGsfElectrons")
#
process.patPhotons.embedSuperCluster = False ## whether to process.patPhotons.embed in AOD externally stored supercluster
process.patPhotons.embedSeedCluster = False ## process.patPhotons.embed in AOD externally stored the photon's seedcluster
process.patPhotons.embedBasicClusters = False ## process.patPhotons.embed in AOD externally stored the photon's basic clusters
process.patPhotons.embedPreshowerClusters = False ## process.patPhotons.embed in AOD externally stored the photon's preshower clusters
process.patPhotons.embedRecHits = False ## process.patPhotons.embed in AOD externally stored the RecHits - can be called from the PATPhotonProducer
process.patPhotons.addPFClusterIso = cms.bool(True)
process.patPhotons.ecalPFClusterIsoMap = cms.InputTag(
"reducedEgamma", "phoEcalPFClusIso")
process.patPhotons.hcalPFClusterIsoMap = cms.InputTag(
"reducedEgamma", "phoHcalPFClusIso")
process.patPhotons.photonSource = cms.InputTag("reducedEgamma",
"reducedGedPhotons")
process.patPhotons.electronSource = cms.InputTag("reducedEgamma",
"reducedGedGsfElectrons")
process.patPhotons.photonIDSources = cms.PSet(
PhotonCutBasedIDLoose=cms.InputTag('reducedEgamma',
'PhotonCutBasedIDLoose'),
PhotonCutBasedIDTight=cms.InputTag('reducedEgamma',
'PhotonCutBasedIDTight'))
process.phPFIsoDepositChargedPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedPhotons")
process.phPFIsoDepositChargedAllPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedPhotons")
process.phPFIsoDepositNeutralPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedPhotons")
process.phPFIsoDepositGammaPAT.src = cms.InputTag("reducedEgamma",
"reducedGedPhotons")
process.phPFIsoDepositPUPAT.src = cms.InputTag("reducedEgamma",
"reducedGedPhotons")
#
process.selectedPatJets.cut = cms.string("pt > 10")
process.selectedPatMuons.cut = cms.string(
"pt > 5 || isPFMuon || (pt > 3 && (isGlobalMuon || isStandAloneMuon || numberOfMatches > 0 || muonID('RPCMuLoose')))"
)
process.selectedPatElectrons.cut = cms.string("")
process.selectedPatTaus.cut = cms.string(
"pt > 18. && tauID('decayModeFindingNewDMs')> 0.5")
process.selectedPatPhotons.cut = cms.string("")
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
from PhysicsTools.PatAlgos.slimming.applySubstructure_cff import applySubstructure
applySubstructure(process)
#
from PhysicsTools.PatAlgos.tools.trigTools import switchOnTriggerStandAlone
switchOnTriggerStandAlone(process, outputModule='')
process.patTrigger.packTriggerPathNames = cms.bool(True)
#
# apply type I + other PFMEt corrections to pat::MET object
# and estimate systematic uncertainties on MET
process.selectedPatJetsForMETUnc = process.selectedPatJets.clone()
process.selectedPatJetsForMETUnc.cut = cms.string("pt > 15")
from PhysicsTools.PatUtils.tools.runMETCorrectionsAndUncertainties import runMetCorAndUncForMiniAODProduction
runMetCorAndUncForMiniAODProduction(process,
metType="PF",
jetCollUnskimmed="patJets",
jetColl="selectedPatJetsForMETUnc")
#caloMET computation
from PhysicsTools.PatAlgos.tools.metTools import addMETCollection
addMETCollection(process, labelName="patCaloMet", metSource="caloMetM")
#noHF pfMET =========
process.noHFCands = cms.EDFilter(
"GenericPFCandidateSelector",
src=cms.InputTag("particleFlow"),
cut=cms.string("abs(pdgId)!=1 && abs(pdgId)!=2 && abs(eta)<3.0"))
runMetCorAndUncForMiniAODProduction(
process,
pfCandColl=cms.InputTag("noHFCands"),
recoMetFromPFCs=True, #needed for HF removal
postfix="NoHF")
process.load('PhysicsTools.PatAlgos.slimming.slimmedMETs_cfi')
process.slimmedMETsNoHF = process.slimmedMETs.clone()
process.slimmedMETsNoHF.src = cms.InputTag("patMETsNoHF")
process.slimmedMETsNoHF.rawVariation = cms.InputTag("patPFMetNoHF")
process.slimmedMETsNoHF.t1Uncertainties = cms.InputTag("patPFMetT1%sNoHF")
process.slimmedMETsNoHF.t01Variation = cms.InputTag("patPFMetT0pcT1NoHF")
process.slimmedMETsNoHF.t1SmearedVarsAndUncs = cms.InputTag(
"patPFMetT1Smear%sNoHF")
process.slimmedMETsNoHF.tXYUncForRaw = cms.InputTag("patPFMetTxyNoHF")
process.slimmedMETsNoHF.tXYUncForT1 = cms.InputTag("patPFMetT1TxyNoHF")
process.slimmedMETsNoHF.tXYUncForT01 = cms.InputTag(
"patPFMetT0pcT1TxyNoHF")
process.slimmedMETsNoHF.tXYUncForT1Smear = cms.InputTag(
"patPFMetT1SmearTxyNoHF")
process.slimmedMETsNoHF.tXYUncForT01Smear = cms.InputTag(
"patPFMetT0pcT1SmearTxyNoHF")
del process.slimmedMETsNoHF.caloMET
# ================== NoHF pfMET
#keep this after all addJetCollections otherwise it will attempt computing them also for stuf with no taginfos
#Some useful BTAG vars
if not hasattr(process, 'pfImpactParameterTagInfos'):
process.load('RecoBTag.ImpactParameter.pfImpactParameterTagInfos_cfi')
if not hasattr(process, 'pfSecondaryVertexTagInfos'):
process.load('RecoBTag.SecondaryVertex.pfSecondaryVertexTagInfos_cfi')
process.patJets.userData.userFunctions = cms.vstring(
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).p4.M):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).numberOfSourceCandidatePtrs):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").flightDistance(0).value):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").flightDistance(0).significance):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).p4.x):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).p4.y):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).p4.z):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).vertex.x):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).vertex.y):(0)',
'?(tagInfoCandSecondaryVertex("pfSecondaryVertex").nVertices()>0)?(tagInfoCandSecondaryVertex("pfSecondaryVertex").secondaryVertex(0).vertex.z):(0)',
)
process.patJets.userData.userFunctionLabels = cms.vstring(
'vtxMass', 'vtxNtracks', 'vtx3DVal', 'vtx3DSig', 'vtxPx', 'vtxPy',
'vtxPz', 'vtxPosX', 'vtxPosY', 'vtxPosZ')
process.patJets.tagInfoSources = cms.VInputTag(
cms.InputTag("pfSecondaryVertexTagInfos"))
process.patJets.addTagInfos = cms.bool(True)
#
## PU JetID
process.load("RecoJets.JetProducers.PileupJetID_cfi")
process.patJets.userData.userFloats.src = [
cms.InputTag("pileupJetId:fullDiscriminant"),
]
## CaloJets
process.caloJetMap = cms.EDProducer(
"RecoJetDeltaRValueMapProducer",
src=process.patJets.jetSource,
matched=cms.InputTag("ak4CaloJets"),
distMax=cms.double(0.4),
values=cms.vstring('pt', 'emEnergyFraction'),
valueLabels=cms.vstring('pt', 'emEnergyFraction'),
lazyParser=cms.bool(True))
process.patJets.userData.userFloats.src += [
cms.InputTag("caloJetMap:pt"),
cms.InputTag("caloJetMap:emEnergyFraction")
]
#EGM object modifications
from RecoEgamma.EgammaTools.egammaObjectModificationsInMiniAOD_cff import egamma_modifications
process.slimmedElectrons.modifierConfig.modifications = egamma_modifications
process.slimmedPhotons.modifierConfig.modifications = egamma_modifications
#VID Electron IDs
electron_ids = [
'RecoEgamma.ElectronIdentification.Identification.cutBasedElectronID_PHYS14_PU20bx25_V2_cff',
'RecoEgamma.ElectronIdentification.Identification.cutBasedElectronID_Spring15_25ns_V1_cff',
'RecoEgamma.ElectronIdentification.Identification.cutBasedElectronID_Spring15_50ns_V2_cff',
'RecoEgamma.ElectronIdentification.Identification.heepElectronID_HEEPV60_cff',
'RecoEgamma.ElectronIdentification.Identification.mvaElectronID_Spring15_25ns_nonTrig_V1_cff',
'RecoEgamma.ElectronIdentification.Identification.mvaElectronID_Spring15_25ns_Trig_V1_cff',
'RecoEgamma.ElectronIdentification.Identification.mvaElectronID_Spring15_50ns_Trig_V1_cff'
]
switchOnVIDElectronIdProducer(process, DataFormat.MiniAOD)
process.egmGsfElectronIDs.physicsObjectSrc = \
cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.electronMVAValueMapProducer.src = \
cms.InputTag('reducedEgamma','reducedGedGsfElectrons')
process.electronRegressionValueMapProducer.src = \
cms.InputTag('reducedEgamma','reducedGedGsfElectrons')
for idmod in electron_ids:
setupAllVIDIdsInModule(process, idmod, setupVIDElectronSelection, None,
False)
#VID Photon IDs
photon_ids = [
'RecoEgamma.PhotonIdentification.Identification.cutBasedPhotonID_Spring15_25ns_V1_cff',
'RecoEgamma.PhotonIdentification.Identification.cutBasedPhotonID_Spring15_50ns_V1_cff',
'RecoEgamma.PhotonIdentification.Identification.mvaPhotonID_Spring15_25ns_nonTrig_V2p1_cff',
'RecoEgamma.PhotonIdentification.Identification.mvaPhotonID_Spring15_50ns_nonTrig_V2p1_cff'
]
switchOnVIDPhotonIdProducer(process, DataFormat.MiniAOD)
process.egmPhotonIDs.physicsObjectSrc = \
cms.InputTag("reducedEgamma","reducedGedPhotons")
process.photonIDValueMapProducer.src = \
cms.InputTag("reducedEgamma","reducedGedPhotons")
process.photonRegressionValueMapProducer.src = \
cms.InputTag("reducedEgamma","reducedGedPhotons")
process.photonIDValueMapProducer.particleBasedIsolation = \
cms.InputTag("reducedEgamma","reducedPhotonPfCandMap")
process.photonMVAValueMapProducer.src = \
cms.InputTag('reducedEgamma','reducedGedPhotons')
for idmod in photon_ids:
setupAllVIDIdsInModule(process, idmod, setupVIDPhotonSelection, None,
False)
#---------------------------------------------------------------------------
#Adding Boosted Subjets taus
from RecoTauTag.Configuration.boostedHPSPFTaus_cfi import addBoostedTaus
addBoostedTaus(process)
#---------------------------------------------------------------------------
# Adding puppi jets
process.load('CommonTools.PileupAlgos.Puppi_cff')
process.load('RecoJets.JetProducers.ak4PFJetsPuppi_cfi')
process.ak4PFJetsPuppi.doAreaFastjet = True # even for standard ak4PFJets this is overwritten in RecoJets/Configuration/python/RecoPFJets_cff
#process.puppi.candName = cms.InputTag('packedPFCandidates')
#process.puppi.vertexName = cms.InputTag('offlineSlimmedPrimaryVertices')
# kind of ugly, is there a better way to do this?
process.pfNoLepPUPPI = cms.EDFilter(
"PdgIdCandViewSelector",
src=cms.InputTag("particleFlow"),
pdgId=cms.vint32(1, 2, 22, 111, 130, 310, 2112, 211, -211, 321, -321,
999211, 2212, -2212))
process.pfLeptonsPUPPET = cms.EDFilter(
"PdgIdCandViewSelector",
src=cms.InputTag("particleFlow"),
pdgId=cms.vint32(-11, 11, -13, 13),
)
process.puppiNoLep = process.puppi.clone()
process.puppiNoLep.candName = cms.InputTag('pfNoLepPUPPI')
from RecoJets.JetAssociationProducers.j2tParametersVX_cfi import j2tParametersVX
process.ak4PFJetsPuppiTracksAssociatorAtVertex = cms.EDProducer(
"JetTracksAssociatorAtVertex",
j2tParametersVX,
jets=cms.InputTag("ak4PFJetsPuppi"))
process.patJetPuppiCharge = cms.EDProducer(
"JetChargeProducer",
src=cms.InputTag("ak4PFJetsPuppiTracksAssociatorAtVertex"),
var=cms.string('Pt'),
exp=cms.double(1.0))
addJetCollection(
process,
postfix="",
labelName='Puppi',
jetSource=cms.InputTag('ak4PFJetsPuppi'),
jetCorrections=('AK4PFPuppi', ['L2Relative', 'L3Absolute'], ''),
algo='AK',
rParam=0.4,
btagDiscriminators=map(lambda x: x.value(),
process.patJets.discriminatorSources))
process.patJetGenJetMatchPuppi.matched = 'slimmedGenJets'
process.patJetsPuppi.userData.userFloats.src = cms.VInputTag(
cms.InputTag(""))
process.patJetsPuppi.jetChargeSource = cms.InputTag("patJetPuppiCharge")
process.selectedPatJetsPuppi.cut = cms.string("pt > 20")
process.load('PhysicsTools.PatAlgos.slimming.slimmedJets_cfi')
process.slimmedJetsPuppi = process.slimmedJets.clone()
process.slimmedJetsPuppi.src = cms.InputTag("selectedPatJetsPuppi")
process.slimmedJetsPuppi.packedPFCandidates = cms.InputTag(
"packedPFCandidates")
## puppi met
process.load('RecoMET.METProducers.PFMET_cfi')
process.puppiForMET = cms.EDProducer("CandViewMerger",
src=cms.VInputTag(
"pfLeptonsPUPPET", "puppiNoLep"))
process.pfMetPuppi = process.pfMet.clone()
process.pfMetPuppi.src = cms.InputTag("puppiForMET")
process.pfMetPuppi.alias = cms.string('pfMetPuppi')
# type1 correction, from puppi jets
process.corrPfMetType1Puppi = process.corrPfMetType1.clone(
src='ak4PFJetsPuppi',
jetCorrLabel='ak4PFPuppiL2L3Corrector',
)
del process.corrPfMetType1Puppi.offsetCorrLabel # no L1 for PUPPI jets
process.pfMetT1Puppi = process.pfMetT1.clone(
src='pfMetPuppi',
srcCorrections=[cms.InputTag("corrPfMetType1Puppi", "type1")])
from PhysicsTools.PatAlgos.tools.metTools import addMETCollection
addMETCollection(process,
labelName='patMETPuppi',
metSource='pfMetT1Puppi') # T1
addMETCollection(process,
labelName='patPFMetPuppi',
metSource='pfMetPuppi') # RAW
process.load('PhysicsTools.PatAlgos.slimming.slimmedMETs_cfi')
process.slimmedMETsPuppi = process.slimmedMETs.clone()
process.slimmedMETsPuppi.src = cms.InputTag("patMETPuppi")
process.slimmedMETsPuppi.rawVariation = cms.InputTag(
"patPFMetPuppi") # only central value
# only central values for puppi met
del process.slimmedMETsPuppi.t01Variation
del process.slimmedMETsPuppi.t1SmearedVarsAndUncs
del process.slimmedMETsPuppi.tXYUncForRaw
del process.slimmedMETsPuppi.tXYUncForT1
del process.slimmedMETsPuppi.tXYUncForT01
del process.slimmedMETsPuppi.tXYUncForT1Smear
del process.slimmedMETsPuppi.tXYUncForT01Smear
del process.slimmedMETsPuppi.caloMET
#addMETCollection(process, labelName='patMETCalo', metSource='met')
addMETCollection(process, labelName='patMETPF', metSource='pfMetT1')
#addMETCollection(process, labelName='patMETTC', metSource='tcMet') # FIXME: removed from RECO/AOD; needs functionality to add to processing
## uncomment the following line to add different jet collections
## to the event content
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
from PhysicsTools.PatAlgos.tools.jetTools import switchJetCollection
## uncomment the following lines to add ak4PFJetsCHS to your PAT output
labelAK4PFCHS = 'AK4PFCHS'
postfixAK4PFCHS = 'Copy'
addJetCollection(
process,
postfix = postfixAK4PFCHS,
labelName = labelAK4PFCHS,
jetSource = cms.InputTag('ak4PFJetsCHS'),
jetCorrections = ('AK4PFchs', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'Type-2') # FIXME: Use proper JECs, as soon as available
)
process.out.outputCommands.append( 'drop *_selectedPatJets%s%s_caloTowers_*'%( labelAK4PFCHS, postfixAK4PFCHS ) )
# uncomment the following lines to add ak4PFJets to your PAT output
labelAK4PF = 'AK4PF'
addJetCollection(
process,
labelName = labelAK4PF,
jetSource = cms.InputTag('ak4PFJets'),
jetCorrections = ('AK4PF', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'Type-1'), # FIXME: Use proper JECs, as soon as available
btagDiscriminators = [
'jetBProbabilityBJetTags'
, 'jetProbabilityBJetTags'
def applySubstructure(process, postfix=""):
task = getPatAlgosToolsTask(process)
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
from PhysicsTools.PatAlgos.producersLayer1.jetProducer_cfi import _patJets as patJetsDefault
# Configure the RECO jets
from RecoJets.JetProducers.ak8PFJets_cfi import ak8PFJetsPuppi, ak8PFJetsPuppiSoftDrop, ak8PFJetsPuppiConstituents
setattr(process, 'ak8PFJetsPuppi' + postfix, ak8PFJetsPuppi.clone())
setattr(
process, 'ak8PFJetsPuppiConstituents' + postfix,
ak8PFJetsPuppiConstituents.clone(
cut=cms.string('pt > 170.0 && abs(rapidity()) < 2.4')))
setattr(
process, 'ak8PFJetsPuppiSoftDrop' + postfix,
ak8PFJetsPuppiSoftDrop.clone(src='ak8PFJetsPuppiConstituents' +
postfix + ':constituents'))
from RecoJets.JetProducers.ak8PFJetsPuppi_groomingValueMaps_cfi import ak8PFJetsPuppiSoftDropMass
setattr(process, 'ak8PFJetsPuppiSoftDropMass' + postfix,
ak8PFJetsPuppiSoftDropMass.clone())
from Configuration.Eras.Modifier_run2_miniAOD_80XLegacy_cff import run2_miniAOD_80XLegacy
from Configuration.Eras.Modifier_run2_miniAOD_94XFall17_cff import run2_miniAOD_94XFall17
from Configuration.ProcessModifiers.run2_miniAOD_UL_cff import run2_miniAOD_UL
_run2_miniAOD_ANY = (run2_miniAOD_80XLegacy | run2_miniAOD_94XFall17
| run2_miniAOD_UL)
from Configuration.Eras.Modifier_pA_2016_cff import pA_2016
if postfix == '':
# Avoid recomputing the PUPPI collections that are present in AOD
_rerun_puppijets_task = task.copy()
_rerun_puppijets_task.add(
getattr(process, 'ak8PFJetsPuppi'),
getattr(process, 'ak8PFJetsPuppiConstituents'),
getattr(process, 'ak8PFJetsPuppiSoftDrop'),
getattr(process, 'ak8PFJetsPuppiSoftDropMass'))
(_run2_miniAOD_ANY | pA_2016).toReplaceWith(task,
_rerun_puppijets_task)
else:
task.add(getattr(process, 'ak8PFJetsPuppi' + postfix),
getattr(process, 'ak8PFJetsPuppiConstituents' + postfix),
getattr(process, 'ak8PFJetsPuppiSoftDrop' + postfix),
getattr(process, 'ak8PFJetsPuppiSoftDropMass' + postfix))
from RecoJets.JetProducers.ak8GenJets_cfi import ak8GenJets, ak8GenJetsSoftDrop, ak8GenJetsConstituents
addToProcessAndTask('ak8GenJetsNoNuConstituents' + postfix,
ak8GenJetsConstituents.clone(src='ak8GenJetsNoNu'),
process, task)
addToProcessAndTask(
'ak8GenJetsNoNuSoftDrop' + postfix,
ak8GenJetsSoftDrop.clone(
src=cms.InputTag('ak8GenJetsNoNuConstituents' +
postfix, 'constituents')), process, task)
addToProcessAndTask(
'slimmedGenJetsAK8SoftDropSubJets' + postfix,
cms.EDProducer(
"PATGenJetSlimmer",
src=cms.InputTag("ak8GenJetsNoNuSoftDrop" + postfix, "SubJets"),
packedGenParticles=cms.InputTag("packedGenParticles"),
cut=cms.string(""),
cutLoose=cms.string(""),
nLoose=cms.uint32(0),
clearDaughters=cms.bool(False), #False means rekeying
dropSpecific=cms.bool(True), # Save space
),
process,
task)
## PATify puppi soft drop fat jets
addJetCollection(
process,
postfix=postfix,
labelName='AK8PFPuppiSoftDrop' + postfix,
jetSource=cms.InputTag('ak8PFJetsPuppiSoftDrop' + postfix),
btagDiscriminators=['None'],
genJetCollection=cms.InputTag('slimmedGenJetsAK8'),
jetCorrections=('AK8PFPuppi', ['L2Relative', 'L3Absolute'], 'None'),
getJetMCFlavour=False # jet flavor disabled
)
## PATify soft drop subjets
addJetCollection(
process,
postfix=postfix,
labelName='AK8PFPuppiSoftDropSubjets',
jetSource=cms.InputTag('ak8PFJetsPuppiSoftDrop' + postfix, 'SubJets'),
algo='ak', # needed for subjet flavor clustering
rParam=0.8, # needed for subjet flavor clustering
btagDiscriminators=[
'pfDeepCSVJetTags:probb', 'pfDeepCSVJetTags:probbb',
'pfCombinedInclusiveSecondaryVertexV2BJetTags',
'pfCombinedMVAV2BJetTags'
],
jetCorrections=('AK4PFPuppi', ['L2Relative', 'L3Absolute'], 'None'),
explicitJTA=True, # needed for subjet b tagging
svClustering=True, # needed for subjet b tagging
genJetCollection=cms.InputTag('slimmedGenJetsAK8SoftDropSubJets'),
fatJets=cms.InputTag(
'ak8PFJetsPuppi'), # needed for subjet flavor clustering
groomedFatJets=cms.InputTag(
'ak8PFJetsPuppiSoftDrop') # needed for subjet flavor clustering
)
# add groomed ECFs and N-subjettiness to soft dropped pat::Jets for fat jets and subjets
process.load('RecoJets.JetProducers.ECF_cff')
addToProcessAndTask(
'nb1AK8PuppiSoftDrop' + postfix,
process.ecfNbeta1.clone(
src=cms.InputTag("ak8PFJetsPuppiSoftDrop" + postfix),
cuts=cms.vstring('', '', 'pt > 250')), process, task)
addToProcessAndTask(
'nb2AK8PuppiSoftDrop' + postfix,
process.ecfNbeta2.clone(
src=cms.InputTag("ak8PFJetsPuppiSoftDrop" + postfix),
cuts=cms.vstring('', '', 'pt > 250')), process, task)
#too slow now ==> disable
from Configuration.Eras.Modifier_pp_on_XeXe_2017_cff import pp_on_XeXe_2017
from Configuration.Eras.Modifier_phase2_common_cff import phase2_common
for e in [pp_on_XeXe_2017, phase2_common]:
e.toModify(getattr(process, 'nb1AK8PuppiSoftDrop' + postfix),
cuts=['pt > 999999', 'pt > 999999', 'pt > 999999'])
e.toModify(getattr(process, 'nb2AK8PuppiSoftDrop' + postfix),
cuts=['pt > 999999', 'pt > 999999', 'pt > 999999'])
from RecoJets.JetProducers.nJettinessAdder_cfi import Njettiness
addToProcessAndTask('NjettinessAK8Subjets' + postfix, Njettiness.clone(),
process, task)
getattr(process, "NjettinessAK8Subjets" + postfix).src = cms.InputTag(
"ak8PFJetsPuppiSoftDrop" + postfix, "SubJets")
getattr(process, "patJetsAK8PFPuppiSoftDrop").userData.userFloats.src += [
'nb1AK8PuppiSoftDrop' + postfix + ':ecfN2',
'nb1AK8PuppiSoftDrop' + postfix + ':ecfN3'
]
getattr(process, "patJetsAK8PFPuppiSoftDrop").userData.userFloats.src += [
'nb2AK8PuppiSoftDrop' + postfix + ':ecfN2',
'nb2AK8PuppiSoftDrop' + postfix + ':ecfN3'
]
addToProcessAndTask(
'nb1AK8PuppiSoftDropSubjets' + postfix,
process.ecfNbeta1.clone(
src=cms.InputTag("ak8PFJetsPuppiSoftDrop" + postfix, "SubJets")),
process, task)
addToProcessAndTask(
'nb2AK8PuppiSoftDropSubjets' + postfix,
process.ecfNbeta2.clone(
src=cms.InputTag("ak8PFJetsPuppiSoftDrop" + postfix, "SubJets")),
process, task)
getattr(process, "patJetsAK8PFPuppiSoftDropSubjets" +
postfix).userData.userFloats.src += [
'nb1AK8PuppiSoftDropSubjets' + postfix + ':ecfN2',
'nb1AK8PuppiSoftDropSubjets' + postfix + ':ecfN3'
]
getattr(process, "patJetsAK8PFPuppiSoftDropSubjets" +
postfix).userData.userFloats.src += [
'nb2AK8PuppiSoftDropSubjets' + postfix + ':ecfN2',
'nb2AK8PuppiSoftDropSubjets' + postfix + ':ecfN3'
]
getattr(process, "patJetsAK8PFPuppiSoftDropSubjets" +
postfix).userData.userFloats.src += [
'NjettinessAK8Subjets' + postfix + ':tau1',
'NjettinessAK8Subjets' + postfix + ':tau2',
'NjettinessAK8Subjets' + postfix + ':tau3',
'NjettinessAK8Subjets' + postfix + ':tau4'
]
for e in [pp_on_XeXe_2017, phase2_common]:
e.toModify(getattr(process, 'nb1AK8PuppiSoftDropSubjets' + postfix),
cuts=['pt > 999999', 'pt > 999999', 'pt > 999999'])
e.toModify(getattr(process, 'nb2AK8PuppiSoftDropSubjets' + postfix),
cuts=['pt > 999999', 'pt > 999999', 'pt > 999999'])
# Patify AK8 PF PUPPI
addJetCollection(process,
postfix=postfix,
labelName='AK8Puppi',
jetSource=cms.InputTag('ak8PFJetsPuppi' + postfix),
algo='AK',
rParam=0.8,
jetCorrections=('AK8PFPuppi',
cms.vstring(['L2Relative',
'L3Absolute']), 'None'),
btagDiscriminators=([
'pfCombinedSecondaryVertexV2BJetTags',
'pfCombinedInclusiveSecondaryVertexV2BJetTags',
'pfCombinedMVAV2BJetTags', 'pfDeepCSVJetTags:probb',
'pfDeepCSVJetTags:probc', 'pfDeepCSVJetTags:probudsg',
'pfDeepCSVJetTags:probbb',
'pfBoostedDoubleSecondaryVertexAK8BJetTags'
]),
genJetCollection=cms.InputTag('slimmedGenJetsAK8'))
getattr(process, "patJetsAK8Puppi" + postfix).userData.userFloats.src = [
] # start with empty list of user floats
getattr(process,
"selectedPatJetsAK8Puppi" + postfix).cut = cms.string("pt > 100")
getattr(process, "selectedPatJetsAK8Puppi" +
postfix).cutLoose = cms.string("pt > 30")
getattr(process,
"selectedPatJetsAK8Puppi" + postfix).nLoose = cms.uint32(3)
from RecoJets.JetAssociationProducers.j2tParametersVX_cfi import j2tParametersVX
addToProcessAndTask(
'ak8PFJetsPuppiTracksAssociatorAtVertex' + postfix,
cms.EDProducer("JetTracksAssociatorAtVertex",
j2tParametersVX.clone(coneSize=cms.double(0.8)),
jets=cms.InputTag("ak8PFJetsPuppi")), process, task)
addToProcessAndTask(
'patJetAK8PuppiCharge' + postfix,
cms.EDProducer(
"JetChargeProducer",
src=cms.InputTag("ak8PFJetsPuppiTracksAssociatorAtVertex"),
var=cms.string('Pt'),
exp=cms.double(1.0)), process, task)
## now add AK8 groomed masses and ECF
getattr(process, "patJetsAK8Puppi" + postfix).userData.userFloats.src += [
'ak8PFJetsPuppiSoftDropMass' + postfix
]
getattr(process, "patJetsAK8Puppi" + postfix).addTagInfos = cms.bool(False)
# add PUPPI Njetiness
addToProcessAndTask('NjettinessAK8Puppi' + postfix, Njettiness.clone(),
process, task)
getattr(process, "NjettinessAK8Puppi" +
postfix).src = cms.InputTag("ak8PFJetsPuppi" + postfix)
getattr(process, "patJetsAK8Puppi").userData.userFloats.src += [
'NjettinessAK8Puppi' + postfix + ':tau1',
'NjettinessAK8Puppi' + postfix + ':tau2',
'NjettinessAK8Puppi' + postfix + ':tau3',
'NjettinessAK8Puppi' + postfix + ':tau4'
]
addToProcessAndTask(
"slimmedJetsAK8PFPuppiSoftDropSubjets" + postfix,
cms.EDProducer(
"PATJetSlimmer",
src=cms.InputTag("selectedPatJetsAK8PFPuppiSoftDropSubjets"),
packedPFCandidates=cms.InputTag("packedPFCandidates"),
dropJetVars=cms.string("1"),
dropDaughters=cms.string("0"),
rekeyDaughters=cms.string("1"),
dropTrackRefs=cms.string("1"),
dropSpecific=cms.string("1"),
dropTagInfos=cms.string("1"),
modifyJets=cms.bool(True),
mixedDaughters=cms.bool(False),
modifierConfig=cms.PSet(modifications=cms.VPSet())), process, task)
## Establish references between PATified fat jets and subjets using the BoostedJetMerger
addToProcessAndTask(
"slimmedJetsAK8PFPuppiSoftDropPacked" + postfix,
cms.EDProducer(
"BoostedJetMerger",
jetSrc=cms.InputTag("selectedPatJetsAK8PFPuppiSoftDrop"),
subjetSrc=cms.InputTag("slimmedJetsAK8PFPuppiSoftDropSubjets")),
process, task)
addToProcessAndTask(
"packedPatJetsAK8" + postfix,
cms.EDProducer(
"JetSubstructurePacker",
jetSrc=cms.InputTag("selectedPatJetsAK8Puppi" + postfix),
distMax=cms.double(0.8),
algoTags=cms.VInputTag(
cms.InputTag("slimmedJetsAK8PFPuppiSoftDropPacked" + postfix)),
algoLabels=cms.vstring('SoftDropPuppi'),
fixDaughters=cms.bool(True),
packedPFCandidates=cms.InputTag("packedPFCandidates" + postfix),
), process, task)
# switch off daughter re-keying since it's done in the JetSubstructurePacker (and can't be done afterwards)
process.slimmedJetsAK8.rekeyDaughters = "0"
# Reconfigure the slimmedAK8 jet information to keep
process.slimmedJetsAK8.dropDaughters = cms.string("pt < 170")
process.slimmedJetsAK8.dropSpecific = cms.string("pt < 170")
process.slimmedJetsAK8.dropTagInfos = cms.string("pt < 170")
def addStandardPuppiJets(process,
label ='',
useLocalJEC = True,
dbfile = 'flashgg/MetaData/data/PuppiJEC/PY8_RunIISpring15DR74_bx50_MC.db',
debug = False):
print ':: Running a standard PUPPI : --'
from CommonTools.PileupAlgos.Puppi_cff import puppi
from RecoJets.JetProducers.ak4PFJets_cfi import ak4PFJets
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
# from RecoJets.JetProducers.PileupJetIDParams_cfi import cutbased_new as pu_jetid
from flashgg.MicroAOD.flashggJets_cfi import flashggBTag
setattr(process, 'flashggStdPuppi' + label,
puppi.clone( candName = cms.InputTag('packedPFCandidates'),
vertexName = cms.InputTag('offlineSlimmedPrimaryVertices'),
))
setattr(process, 'ak4PFJetsStdPuppi' + label,
ak4PFJets.clone ( src = cms.InputTag('flashggStdPuppi'),
doAreaFastjet = True
))
if useLocalJEC :
print ':: using a local JEC dbfile for PUPPI :',
print ' -- ', dbfile
from flashgg.MicroAOD.flashggJetTools_cfi import loadLocalJECDBfile
loadLocalJECDBfile(process,
dbfile = os.environ['CMSSW_BASE'] + '/src/' + dbfile,
tag = 'JetCorrectorParametersCollection_PY8_RunIISpring15DR74_bx50_MC_AK4PUPPI',
label = 'AK4PFPuppi')
addJetCollection(
process,
postfix = 'std' + label,
labelName = 'AK4PUPPI',
jetSource = cms.InputTag('ak4PFJetsStdPuppi'),
pvSource = cms.InputTag('offlineSlimmedPrimaryVertices'),
pfCandidates = cms.InputTag('packedPFCandidates'),
svSource = cms.InputTag('slimmedSecondaryVertices'),
btagDiscriminators = [ flashggBTag ],
jetCorrections = ('AK4PFchs',['L1FastJet', 'L2Relative', 'L3Absolute'], 'None'),
genJetCollection = cms.InputTag('slimmedGenJets'),
genParticles = cms.InputTag('prunedGenParticles'),
# jet param
algo = 'AK', rParam = 0.4
)
getattr(process, 'patJetCorrFactorsAK4PUPPIstd' + label).primaryVertices = "offlineSlimmedPrimaryVertices"
setattr(process, 'flashggStdPUPPIJets',
cms.EDProducer('FlashggJetProducer',
DiPhotonTag = cms.InputTag('flashggDiPhotons'),
VertexTag = cms.InputTag('offlineSlimmedPrimaryVertices'),
JetTag = cms.InputTag('patJetsAK4PUPPIstd' + label),
VertexCandidateMapTag = cms.InputTag("flashggVertexMapForPUPPI"),
UsePuppi = cms.untracked.bool(True),
# PileupJetIdParameters = cms.PSet(pu_jetid))
)
)
setattr(process, 'selectedFlashggStdPUPPIJets' + label,
cms.EDFilter("FLASHggJetSelector",
src = cms.InputTag( 'flashggStdPUPPIJets'),
cut = cms.string("pt > 15."))
)
process.CA12JetsCA3FilterjetsPF = CA12JetsCA3FilterjetsPF.clone(
src='pfNoElectronsCHS')
process.CA12JetsCA3FilterjetsPF.jetPtMin = cms.double(180.)
process.CA12JetsCA3FilterjetsPF.doAreaFastjet = cms.bool(False)
process.HEPTopJetsPF = HEPTopJetsPF.clone(src='pfNoElectronsCHS')
process.HEPTopJetsPF.jetPtMin = cms.double(180.)
process.HEPTopJetsPF.doAreaFastjet = cms.bool(True)
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
# add fat CA1.2 pat jet
addJetCollection(process,
postfix="",
jetSource=cms.InputTag('CA12JetsCA3FilterjetsPF', 'fatjet'),
pfCandidates=cms.InputTag('packedPFCandidates'),
labelName='CA12PF',
trackSource=cms.InputTag('unpackedTracksAndVertices'),
pvSource=cms.InputTag('unpackedTracksAndVertices'),
btagDiscriminators=None,
jetCorrections=None,
getJetMCFlavour=False,
genJetCollection=None)
# the two subjets that created the mass drop
addJetCollection(process,
postfix="",
jetSource=cms.InputTag('CA12JetsCA3FilterjetsPF', 'subjets'),
pfCandidates=cms.InputTag('packedPFCandidates'),
labelName='CA3SubPF',
trackSource=cms.InputTag('unpackedTracksAndVertices'),
pvSource=cms.InputTag('unpackedTracksAndVertices'),
btagDiscriminators=None,
jetCorrections=None,
doAreaFastjet = True,
rParam = 0.8,
jetAlgorithm = 'AntiKt' )
jetSeq += process.ak8PFJetsPuppi
process.jetSequence = jetSeq
addJetCollection(
process,
#labelName = 'AK8PFCHS',
labelName = 'AK8PFPuppi',
#jetSource = cms.InputTag('ak8PFJetsCHS'),
jetSource = cms.InputTag('ak8PFJetsPuppi'),
#pvSource = cms.InputTag('offlinePrimaryVertices'),
#svSource = cms.InputTag('inclusiveCandidateSecondaryVertices'),
algo = 'AK',
rParam = 0.8,
#jetCorrections = ('AK8PFchs', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'Type-2'),
jetCorrections = ('AK8PFPuppi', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'Type-2'),
btagDiscriminators = [
'pfBoostedDoubleSecondaryVertexAK8BJetTags',
'pfDeepDoubleBvLJetTags:probQCD',
'pfDeepDoubleBvLJetTags:probHbb',
]
)
#process.patJetsAK8PFCHS.addTagInfos = True
process.patJetsAK8PFPuppi.addTagInfos = True
from pdb import set_trace
from PhysicsTools.PatAlgos.patInputFiles_cff import filesRelValTTbarPileUpMINIAODSIM
def miniAOD_customizeCommon(process):
process.patMuons.isoDeposits = cms.PSet()
process.patElectrons.isoDeposits = cms.PSet()
process.patTaus.isoDeposits = cms.PSet()
process.patPhotons.isoDeposits = cms.PSet()
#
process.patMuons.embedTrack = True # used for IDs
process.patMuons.embedCombinedMuon = True # used for IDs
process.patMuons.embedMuonBestTrack = True # used for IDs
process.patMuons.embedStandAloneMuon = True # maybe?
process.patMuons.embedPickyMuon = False # no, use best track
process.patMuons.embedTpfmsMuon = False # no, use best track
process.patMuons.embedDytMuon = False # no, use best track
process.patMuons.addPuppiIsolation = cms.bool(True)
process.patMuons.puppiIsolationChargedHadrons = cms.InputTag(
"muonPUPPIIsolation", "h+-DR040-ThresholdVeto000-ConeVeto000")
process.patMuons.puppiIsolationNeutralHadrons = cms.InputTag(
"muonPUPPIIsolation", "h0-DR040-ThresholdVeto000-ConeVeto001")
process.patMuons.puppiIsolationPhotons = cms.InputTag(
"muonPUPPIIsolation", "gamma-DR040-ThresholdVeto000-ConeVeto001")
process.patMuons.puppiNoLeptonsIsolationChargedHadrons = cms.InputTag(
"muonPUPPINoLeptonsIsolation", "h+-DR040-ThresholdVeto000-ConeVeto000")
process.patMuons.puppiNoLeptonsIsolationNeutralHadrons = cms.InputTag(
"muonPUPPINoLeptonsIsolation", "h0-DR040-ThresholdVeto000-ConeVeto001")
process.patMuons.puppiNoLeptonsIsolationPhotons = cms.InputTag(
"muonPUPPINoLeptonsIsolation",
"gamma-DR040-ThresholdVeto000-ConeVeto001")
process.patMuons.computeMiniIso = cms.bool(True)
process.patMuons.computeMuonMVA = cms.bool(True)
process.patMuons.computeSoftMuonMVA = cms.bool(True)
#
# disable embedding of electron and photon associated objects already stored by the ReducedEGProducer
process.patElectrons.embedGsfElectronCore = False ## process.patElectrons.embed in AOD externally stored gsf electron core
process.patElectrons.embedSuperCluster = False ## process.patElectrons.embed in AOD externally stored supercluster
process.patElectrons.embedPflowSuperCluster = False ## process.patElectrons.embed in AOD externally stored supercluster
process.patElectrons.embedSeedCluster = False ## process.patElectrons.embed in AOD externally stored the electron's seedcluster
process.patElectrons.embedBasicClusters = False ## process.patElectrons.embed in AOD externally stored the electron's basic clusters
process.patElectrons.embedPreshowerClusters = False ## process.patElectrons.embed in AOD externally stored the electron's preshower clusters
process.patElectrons.embedPflowBasicClusters = False ## process.patElectrons.embed in AOD externally stored the electron's pflow basic clusters
process.patElectrons.embedPflowPreshowerClusters = False ## process.patElectrons.embed in AOD externally stored the electron's pflow preshower clusters
process.patElectrons.embedRecHits = False ## process.patElectrons.embed in AOD externally stored the RecHits - can be called from the PATElectronProducer
process.patElectrons.electronSource = cms.InputTag(
"reducedEgamma", "reducedGedGsfElectrons")
process.patElectrons.usePfCandidateMultiMap = True
process.patElectrons.pfCandidateMultiMap = cms.InputTag(
"reducedEgamma", "reducedGsfElectronPfCandMap")
process.patElectrons.electronIDSources = cms.PSet()
from Configuration.Eras.Modifier_run2_miniAOD_80XLegacy_cff import run2_miniAOD_80XLegacy
run2_miniAOD_80XLegacy.toModify(
process.patElectrons,
addPFClusterIso=cms.bool(True),
ecalPFClusterIsoMap=cms.InputTag("reducedEgamma", "eleEcalPFClusIso"),
hcalPFClusterIsoMap=cms.InputTag("reducedEgamma", "eleHcalPFClusIso"))
from Configuration.Eras.Modifier_run2_miniAOD_94XFall17_cff import run2_miniAOD_94XFall17
run2_miniAOD_94XFall17.toModify(
process.patElectrons,
addPFClusterIso=cms.bool(True),
ecalPFClusterIsoMap=cms.InputTag("reducedEgamma", "eleEcalPFClusIso"),
hcalPFClusterIsoMap=cms.InputTag("reducedEgamma", "eleHcalPFClusIso"))
#add puppi isolation in miniAOD
process.patElectrons.addPuppiIsolation = cms.bool(True)
process.patElectrons.puppiIsolationChargedHadrons = cms.InputTag(
"egmElectronPUPPIIsolation", "h+-DR030-BarVeto000-EndVeto001")
process.patElectrons.puppiIsolationNeutralHadrons = cms.InputTag(
"egmElectronPUPPIIsolation", "h0-DR030-BarVeto000-EndVeto000")
process.patElectrons.puppiIsolationPhotons = cms.InputTag(
"egmElectronPUPPIIsolation", "gamma-DR030-BarVeto000-EndVeto008")
process.patElectrons.puppiNoLeptonsIsolationChargedHadrons = cms.InputTag(
"egmElectronPUPPINoLeptonsIsolation", "h+-DR030-BarVeto000-EndVeto001")
process.patElectrons.puppiNoLeptonsIsolationNeutralHadrons = cms.InputTag(
"egmElectronPUPPINoLeptonsIsolation", "h0-DR030-BarVeto000-EndVeto000")
process.patElectrons.puppiNoLeptonsIsolationPhotons = cms.InputTag(
"egmElectronPUPPINoLeptonsIsolation",
"gamma-DR030-BarVeto000-EndVeto008")
process.patElectrons.computeMiniIso = cms.bool(True)
process.elPFIsoDepositChargedPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedGsfElectrons")
process.elPFIsoDepositChargedAllPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedGsfElectrons")
process.elPFIsoDepositNeutralPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedGsfElectrons")
process.elPFIsoDepositGammaPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedGsfElectrons")
process.elPFIsoDepositPUPAT.src = cms.InputTag("reducedEgamma",
"reducedGedGsfElectrons")
#
process.patPhotons.embedSuperCluster = False ## whether to process.patPhotons.embed in AOD externally stored supercluster
process.patPhotons.embedSeedCluster = False ## process.patPhotons.embed in AOD externally stored the photon's seedcluster
process.patPhotons.embedBasicClusters = False ## process.patPhotons.embed in AOD externally stored the photon's basic clusters
process.patPhotons.embedPreshowerClusters = False ## process.patPhotons.embed in AOD externally stored the photon's preshower clusters
process.patPhotons.embedRecHits = False ## process.patPhotons.embed in AOD externally stored the RecHits - can be called from the PATPhotonProducer
#add puppi isolation in miniAOD
process.patPhotons.addPuppiIsolation = cms.bool(True)
process.patPhotons.puppiIsolationChargedHadrons = cms.InputTag(
"egmPhotonPUPPIIsolation", "h+-DR030-")
process.patPhotons.puppiIsolationNeutralHadrons = cms.InputTag(
"egmPhotonPUPPIIsolation", "h0-DR030-")
process.patPhotons.puppiIsolationPhotons = cms.InputTag(
"egmPhotonPUPPIIsolation", "gamma-DR030-")
from Configuration.Eras.Modifier_run2_miniAOD_80XLegacy_cff import run2_miniAOD_80XLegacy
run2_miniAOD_80XLegacy.toModify(
process.patPhotons,
addPFClusterIso=cms.bool(True),
ecalPFClusterIsoMap=cms.InputTag("reducedEgamma", "phoEcalPFClusIso"),
hcalPFClusterIsoMap=cms.InputTag("reducedEgamma", "phoHcalPFClusIso"))
from Configuration.Eras.Modifier_run2_miniAOD_94XFall17_cff import run2_miniAOD_94XFall17
run2_miniAOD_94XFall17.toModify(
process.patPhotons,
addPFClusterIso=cms.bool(True),
ecalPFClusterIsoMap=cms.InputTag("reducedEgamma", "phoEcalPFClusIso"),
hcalPFClusterIsoMap=cms.InputTag("reducedEgamma", "phoHcalPFClusIso"))
#the 80X legacy customsations are done in ootPhotonProducer for OOT photons
run2_miniAOD_94XFall17.toModify(
process.patOOTPhotons,
addPFClusterIso=cms.bool(True),
ecalPFClusterIsoMap=cms.InputTag("reducedEgamma",
"ootPhoEcalPFClusIso"),
hcalPFClusterIsoMap=cms.InputTag("reducedEgamma",
"ootPhoHcalPFClusIso"))
process.patPhotons.photonSource = cms.InputTag("reducedEgamma",
"reducedGedPhotons")
process.patPhotons.electronSource = cms.InputTag("reducedEgamma",
"reducedGedGsfElectrons")
process.phPFIsoDepositChargedPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedPhotons")
process.phPFIsoDepositChargedAllPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedPhotons")
process.phPFIsoDepositNeutralPAT.src = cms.InputTag(
"reducedEgamma", "reducedGedPhotons")
process.phPFIsoDepositGammaPAT.src = cms.InputTag("reducedEgamma",
"reducedGedPhotons")
process.phPFIsoDepositPUPAT.src = cms.InputTag("reducedEgamma",
"reducedGedPhotons")
#
process.patOOTPhotons.photonSource = cms.InputTag("reducedEgamma",
"reducedOOTPhotons")
process.patOOTPhotons.electronSource = cms.InputTag(
"reducedEgamma", "reducedGedGsfElectrons")
#
process.selectedPatJets.cut = cms.string("pt > 10")
process.selectedPatMuons.cut = cms.string(
"pt > 5 || isPFMuon || (pt > 3 && (isGlobalMuon || isStandAloneMuon || numberOfMatches > 0 || muonID('RPCMuLoose')))"
)
from Configuration.Eras.Modifier_phase2_muon_cff import phase2_muon
phase2_muon.toModify(
process.selectedPatMuons,
cut=
"pt > 5 || isPFMuon || (pt > 3 && (isGlobalMuon || isStandAloneMuon || numberOfMatches > 0 || muonID('RPCMuLoose') || muonID('ME0MuonArbitrated') || muonID('GEMMuonArbitrated')) )"
)
process.selectedPatElectrons.cut = cms.string("")
process.selectedPatTaus.cut = cms.string(
"pt > 18. && tauID('decayModeFindingNewDMs')> 0.5")
process.selectedPatPhotons.cut = cms.string("")
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
from PhysicsTools.PatAlgos.slimming.applySubstructure_cff import applySubstructure
applySubstructure(process)
#
from PhysicsTools.PatAlgos.tools.trigTools import switchOnTriggerStandAlone
switchOnTriggerStandAlone(process, outputModule='')
process.patTrigger.packTriggerPathNames = cms.bool(True)
#
# apply type I + other PFMEt corrections to pat::MET object
# and estimate systematic uncertainties on MET
from PhysicsTools.PatUtils.tools.runMETCorrectionsAndUncertainties import runMetCorAndUncForMiniAODProduction
runMetCorAndUncForMiniAODProduction(process,
metType="PF",
jetCollUnskimmed="patJets")
#caloMET computation
from PhysicsTools.PatAlgos.tools.metTools import addMETCollection
addMETCollection(process, labelName="patCaloMet", metSource="caloMetM")
#noHF pfMET =========
task = getPatAlgosToolsTask(process)
process.noHFCands = cms.EDFilter(
"GenericPFCandidateSelector",
src=cms.InputTag("particleFlow"),
cut=cms.string("abs(pdgId)!=1 && abs(pdgId)!=2 && abs(eta)<3.0"))
task.add(process.noHFCands)
runMetCorAndUncForMiniAODProduction(
process,
pfCandColl=cms.InputTag("noHFCands"),
recoMetFromPFCs=True, #needed for HF removal
jetSelection="pt>15 && abs(eta)<3.",
postfix="NoHF")
process.load('PhysicsTools.PatAlgos.slimming.slimmedMETs_cfi')
task.add(process.slimmedMETs)
addToProcessAndTask('slimmedMETsNoHF', process.slimmedMETs.clone(),
process, task)
process.slimmedMETsNoHF.src = cms.InputTag("patMETsNoHF")
process.slimmedMETsNoHF.rawVariation = cms.InputTag("patPFMetNoHF")
process.slimmedMETsNoHF.t1Uncertainties = cms.InputTag("patPFMetT1%sNoHF")
process.slimmedMETsNoHF.t01Variation = cms.InputTag("patPFMetT0pcT1NoHF")
process.slimmedMETsNoHF.t1SmearedVarsAndUncs = cms.InputTag(
"patPFMetT1Smear%sNoHF")
process.slimmedMETsNoHF.tXYUncForRaw = cms.InputTag("patPFMetTxyNoHF")
process.slimmedMETsNoHF.tXYUncForT1 = cms.InputTag("patPFMetT1TxyNoHF")
process.slimmedMETsNoHF.tXYUncForT01 = cms.InputTag(
"patPFMetT0pcT1TxyNoHF")
process.slimmedMETsNoHF.tXYUncForT1Smear = cms.InputTag(
"patPFMetT1SmearTxyNoHF")
process.slimmedMETsNoHF.tXYUncForT01Smear = cms.InputTag(
"patPFMetT0pcT1SmearTxyNoHF")
del process.slimmedMETsNoHF.caloMET
# ================== NoHF pfMET
# ================== CHSMET
process.CHSCands = cms.EDFilter("CandPtrSelector",
src=cms.InputTag("packedPFCandidates"),
cut=cms.string("fromPV(0) > 0"))
task.add(process.CHSCands)
process.pfMetCHS = cms.EDProducer(
"PFMETProducer",
src=cms.InputTag("CHSCands"),
alias=cms.string('pfMet'),
globalThreshold=cms.double(0.0),
calculateSignificance=cms.bool(False),
)
task.add(process.pfMetCHS)
addMETCollection(process, labelName="patCHSMet", metSource="pfMetCHS")
process.patCHSMet.computeMETSignificance = cms.bool(False)
# ================== CHSMET
# ================== TrkMET
process.TrkCands = cms.EDFilter(
"CandPtrSelector",
src=cms.InputTag("packedPFCandidates"),
cut=cms.string(
"charge()!=0 && pvAssociationQuality()>=4 && vertexRef().key()==0")
)
task.add(process.TrkCands)
process.pfMetTrk = cms.EDProducer(
"PFMETProducer",
src=cms.InputTag("TrkCands"),
alias=cms.string('pfMet'),
globalThreshold=cms.double(0.0),
calculateSignificance=cms.bool(False),
)
task.add(process.pfMetTrk)
addMETCollection(process, labelName="patTrkMet", metSource="pfMetTrk")
process.patTrkMet.computeMETSignificance = cms.bool(False)
# ================== TrkMET
## PU JetID
process.load("RecoJets.JetProducers.PileupJetID_cfi")
task.add(process.pileUpJetIDTask)
process.patJets.userData.userFloats.src = [
cms.InputTag("pileupJetId:fullDiscriminant"),
]
process.patJets.userData.userInts.src = [
cms.InputTag("pileupJetId:fullId"),
]
## Quark Gluon Likelihood
process.load('RecoJets.JetProducers.QGTagger_cfi')
task.add(process.QGTaggerTask)
process.patJets.userData.userFloats.src += [
cms.InputTag('QGTagger:qgLikelihood'),
]
## DeepCSV meta discriminators (simple arithmethic on output probabilities)
process.load('RecoBTag.Combined.deepFlavour_cff')
task.add(process.pfDeepCSVDiscriminatorsJetTags)
process.patJets.discriminatorSources.extend([
cms.InputTag('pfDeepCSVDiscriminatorsJetTags:BvsAll'),
cms.InputTag('pfDeepCSVDiscriminatorsJetTags:CvsB'),
cms.InputTag('pfDeepCSVDiscriminatorsJetTags:CvsL'),
])
## CaloJets
process.caloJetMap = cms.EDProducer(
"RecoJetDeltaRValueMapProducer",
src=process.patJets.jetSource,
matched=cms.InputTag("ak4CaloJets"),
distMax=cms.double(0.4),
values=cms.vstring('pt', 'emEnergyFraction'),
valueLabels=cms.vstring('pt', 'emEnergyFraction'),
lazyParser=cms.bool(True))
task.add(process.caloJetMap)
process.patJets.userData.userFloats.src += [
cms.InputTag("caloJetMap:pt"),
cms.InputTag("caloJetMap:emEnergyFraction")
]
#Muon object modifications
from PhysicsTools.PatAlgos.slimming.muonIsolationsPUPPI_cfi import makeInputForPUPPIIsolationMuon
makeInputForPUPPIIsolationMuon(process)
#EGM object modifications
from PhysicsTools.PatAlgos.slimming.egmIsolationsPUPPI_cfi import makeInputForPUPPIIsolationEgm
makeInputForPUPPIIsolationEgm(process)
from RecoEgamma.EgammaTools.egammaObjectModificationsInMiniAOD_cff import egamma_modifications
process.slimmedElectrons.modifierConfig.modifications = egamma_modifications
process.slimmedPhotons.modifierConfig.modifications = egamma_modifications
#VID Electron IDs
process.patElectrons.addElectronID = cms.bool(True)
electron_ids = [
'RecoEgamma.ElectronIdentification.Identification.heepElectronID_HEEPV70_cff',
'RecoEgamma.ElectronIdentification.Identification.cutBasedElectronID_Fall17_94X_V1_cff',
'RecoEgamma.ElectronIdentification.Identification.mvaElectronID_Fall17_noIso_V1_cff',
'RecoEgamma.ElectronIdentification.Identification.mvaElectronID_Fall17_iso_V1_cff',
'RecoEgamma.ElectronIdentification.Identification.cutBasedElectronID_Summer16_80X_V1_cff',
'RecoEgamma.ElectronIdentification.Identification.mvaElectronID_Spring16_GeneralPurpose_V1_cff',
'RecoEgamma.ElectronIdentification.Identification.mvaElectronID_Spring16_HZZ_V1_cff',
]
switchOnVIDElectronIdProducer(process, DataFormat.MiniAOD, task)
process.egmGsfElectronIDs.physicsObjectSrc = \
cms.InputTag("reducedEgamma","reducedGedGsfElectrons")
process.electronMVAValueMapProducer.src = \
cms.InputTag('reducedEgamma','reducedGedGsfElectrons')
process.electronRegressionValueMapProducer.src = \
cms.InputTag('reducedEgamma','reducedGedGsfElectrons')
for idmod in electron_ids:
setupAllVIDIdsInModule(process, idmod, setupVIDElectronSelection, None,
False, task)
#heepIDVarValueMaps only exists if HEEP V6.1 or HEEP 7.0 ID has already been loaded
if hasattr(process, 'heepIDVarValueMaps'):
process.heepIDVarValueMaps.elesMiniAOD = cms.InputTag(
'reducedEgamma', 'reducedGedGsfElectrons')
#force HEEP to use miniAOD (otherwise it'll detect the AOD)
process.heepIDVarValueMaps.dataFormat = cms.int32(2)
#add the HEEP trk isol to the slimmed electron, add it to the first FromFloatValMap modifier
for pset in process.slimmedElectrons.modifierConfig.modifications:
if pset.hasParameter(
"modifierName") and pset.modifierName == cms.string(
'EGExtraInfoModifierFromFloatValueMaps'):
pset.electron_config.heepTrkPtIso = cms.InputTag(
"heepIDVarValueMaps", "eleTrkPtIso")
break
#VID Photon IDs
process.patPhotons.addPhotonID = cms.bool(True)
photon_ids = [
'RecoEgamma.PhotonIdentification.Identification.cutBasedPhotonID_Fall17_94X_V1_TrueVtx_cff',
'RecoEgamma.PhotonIdentification.Identification.mvaPhotonID_Fall17_94X_V1_cff',
'RecoEgamma.PhotonIdentification.Identification.mvaPhotonID_Fall17_94X_V1p1_cff',
'RecoEgamma.PhotonIdentification.Identification.cutBasedPhotonID_Spring16_V2p2_cff',
'RecoEgamma.PhotonIdentification.Identification.mvaPhotonID_Spring16_nonTrig_V1_cff'
]
switchOnVIDPhotonIdProducer(process, DataFormat.AOD, task)
process.egmPhotonIsolation.srcToIsolate = \
cms.InputTag("reducedEgamma","reducedGedPhotons")
for iPSet in process.egmPhotonIsolation.isolationConeDefinitions:
iPSet.particleBasedIsolation = cms.InputTag("reducedEgamma",
"reducedPhotonPfCandMap")
process.egmPhotonIDs.physicsObjectSrc = \
cms.InputTag("reducedEgamma","reducedGedPhotons")
process.photonIDValueMapProducer.src = \
cms.InputTag("reducedEgamma","reducedGedPhotons")
process.photonRegressionValueMapProducer.src = \
cms.InputTag("reducedEgamma","reducedGedPhotons")
process.photonIDValueMapProducer.particleBasedIsolation = \
cms.InputTag("reducedEgamma","reducedPhotonPfCandMap")
process.photonMVAValueMapProducer.src = \
cms.InputTag('reducedEgamma','reducedGedPhotons')
for idmod in photon_ids:
setupAllVIDIdsInModule(process, idmod, setupVIDPhotonSelection, None,
False, task)
#add the cut base IDs bitmaps of which cuts passed
from RecoEgamma.EgammaTools.egammaObjectModifications_tools import makeVIDBitsModifier
egamma_modifications.append(
makeVIDBitsModifier(process, "egmGsfElectronIDs", "egmPhotonIDs"))
#-- Adding boosted taus
from RecoTauTag.Configuration.boostedHPSPFTaus_cfi import addBoostedTaus
addBoostedTaus(process)
process.load("RecoTauTag.Configuration.RecoPFTauTag_cff")
process.load("RecoTauTag.Configuration.HPSPFTaus_cff")
#-- Adding customization for 94X 2017 legacy reMniAOD
from Configuration.Eras.Modifier_run2_miniAOD_94XFall17_cff import run2_miniAOD_94XFall17
_makePatTausTaskWithRetrainedMVATauID = process.makePatTausTask.copy()
_makePatTausTaskWithRetrainedMVATauID.add(
process.hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTTask)
run2_miniAOD_94XFall17.toReplaceWith(
process.makePatTausTask, _makePatTausTaskWithRetrainedMVATauID)
#-- Adding customization for 80X 2016 legacy reMiniAOD
from Configuration.Eras.Modifier_run2_miniAOD_80XLegacy_cff import run2_miniAOD_80XLegacy
_makePatTausTaskWithTauReReco = process.makePatTausTask.copy()
_makePatTausTaskWithTauReReco.add(process.PFTauTask)
run2_miniAOD_80XLegacy.toReplaceWith(process.makePatTausTask,
_makePatTausTaskWithTauReReco)
# Adding puppi jets
if not hasattr(
process,
'ak4PFJetsPuppi'): #MM: avoid confilct with substructure call
process.load('RecoJets.JetProducers.ak4PFJetsPuppi_cfi')
task.add(process.ak4PFJets)
task.add(process.ak4PFJetsPuppi)
process.ak4PFJetsPuppi.doAreaFastjet = True # even for standard ak4PFJets this is overwritten in RecoJets/Configuration/python/RecoPFJets_cff
from RecoJets.JetAssociationProducers.j2tParametersVX_cfi import j2tParametersVX
process.ak4PFJetsPuppiTracksAssociatorAtVertex = cms.EDProducer(
"JetTracksAssociatorAtVertex",
j2tParametersVX,
jets=cms.InputTag("ak4PFJetsPuppi"))
task.add(process.ak4PFJetsPuppiTracksAssociatorAtVertex)
process.patJetPuppiCharge = cms.EDProducer(
"JetChargeProducer",
src=cms.InputTag("ak4PFJetsPuppiTracksAssociatorAtVertex"),
var=cms.string('Pt'),
exp=cms.double(1.0))
task.add(process.patJetPuppiCharge)
noDeepFlavourDiscriminators = [
x.value() for x in process.patJets.discriminatorSources
if not "DeepFlavour" in x.value()
]
addJetCollection(process,
postfix="",
labelName='Puppi',
jetSource=cms.InputTag('ak4PFJetsPuppi'),
jetCorrections=('AK4PFPuppi',
['L2Relative', 'L3Absolute'], ''),
pfCandidates=cms.InputTag("particleFlow"),
algo='AK',
rParam=0.4,
btagDiscriminators=noDeepFlavourDiscriminators)
process.patJetGenJetMatchPuppi.matched = 'slimmedGenJets'
process.patJetsPuppi.jetChargeSource = cms.InputTag("patJetPuppiCharge")
process.selectedPatJetsPuppi.cut = cms.string("pt > 15")
from PhysicsTools.PatAlgos.slimming.applyDeepBtagging_cff import applyDeepBtagging
applyDeepBtagging(process)
addToProcessAndTask('slimmedJetsPuppiNoMultiplicities',
process.slimmedJetsNoDeepFlavour.clone(), process,
task)
process.slimmedJetsPuppiNoMultiplicities.src = cms.InputTag(
"selectedPatJetsPuppi")
process.slimmedJetsPuppiNoMultiplicities.packedPFCandidates = cms.InputTag(
"packedPFCandidates")
from PhysicsTools.PatAlgos.patPuppiJetSpecificProducer_cfi import patPuppiJetSpecificProducer
from PhysicsTools.PatAlgos.tools.jetTools import updateJetCollection
process.patPuppiJetSpecificProducer = patPuppiJetSpecificProducer.clone(
src=cms.InputTag("slimmedJetsPuppiNoMultiplicities"), )
task.add(process.patPuppiJetSpecificProducer)
updateJetCollection(
process,
labelName='PuppiJetSpecific',
jetSource=cms.InputTag('slimmedJetsPuppiNoMultiplicities'),
)
process.updatedPatJetsPuppiJetSpecific.userData.userFloats.src = [
'patPuppiJetSpecificProducer:puppiMultiplicity',
'patPuppiJetSpecificProducer:neutralPuppiMultiplicity',
'patPuppiJetSpecificProducer:neutralHadronPuppiMultiplicity',
'patPuppiJetSpecificProducer:photonPuppiMultiplicity',
'patPuppiJetSpecificProducer:HFHadronPuppiMultiplicity',
'patPuppiJetSpecificProducer:HFEMPuppiMultiplicity'
]
process.slimmedJetsPuppi = process.selectedUpdatedPatJetsPuppiJetSpecific.clone(
)
delattr(process, 'selectedUpdatedPatJetsPuppiJetSpecific')
task.add(process.slimmedJetsPuppi)
## puppi met
from PhysicsTools.PatAlgos.slimming.puppiForMET_cff import makePuppies
makePuppies(process)
runMetCorAndUncForMiniAODProduction(process,
metType="Puppi",
pfCandColl=cms.InputTag("puppiForMET"),
jetCollUnskimmed="slimmedJetsPuppi",
recoMetFromPFCs=True,
jetFlavor="AK4PFPuppi",
postfix="Puppi")
process.load('PhysicsTools.PatAlgos.slimming.slimmedMETs_cfi')
task.add(process.slimmedMETs)
addToProcessAndTask('slimmedMETsPuppi', process.slimmedMETs.clone(),
process, task)
process.slimmedMETsPuppi.src = cms.InputTag("patMETsPuppi")
process.slimmedMETsPuppi.rawVariation = cms.InputTag("patPFMetPuppi")
process.slimmedMETsPuppi.t1Uncertainties = cms.InputTag(
"patPFMetT1%sPuppi")
process.slimmedMETsPuppi.t01Variation = cms.InputTag("patPFMetT0pcT1Puppi")
process.slimmedMETsPuppi.t1SmearedVarsAndUncs = cms.InputTag(
"patPFMetT1Smear%sPuppi")
process.slimmedMETsPuppi.tXYUncForRaw = cms.InputTag("patPFMetTxyPuppi")
process.slimmedMETsPuppi.tXYUncForT1 = cms.InputTag("patPFMetT1TxyPuppi")
process.slimmedMETsPuppi.tXYUncForT01 = cms.InputTag(
"patPFMetT0pcT1TxyPuppi")
process.slimmedMETsPuppi.tXYUncForT1Smear = cms.InputTag(
"patPFMetT1SmearTxyPuppi")
process.slimmedMETsPuppi.tXYUncForT01Smear = cms.InputTag(
"patPFMetT0pcT1SmearTxyPuppi")
del process.slimmedMETsPuppi.caloMET
# add DetIdAssociatorRecords to EventSetup (for isolatedTracks)
process.load("TrackingTools.TrackAssociator.DetIdAssociatorESProducer_cff")
# EGamma objects from HGCal are not yet in GED
# so add companion collections for Phase-II MiniAOD production
from Configuration.Eras.Modifier_phase2_hgcal_cff import phase2_hgcal
process.load("RecoEgamma.EgammaTools.slimmedEgammaFromMultiCl_cff")
phase2_hgcal.toModify(
task, func=lambda t: t.add(process.slimmedEgammaFromMultiClTask))
process.pfChargedCHS = cms.EDFilter(
"CandPtrSelector", src=cms.InputTag("packedPFCandidates"), cut=cms.string("fromPV && charge!=0")
)
from RecoJets.JetProducers.ak4PFJets_cfi import ak4PFJets
process.ak4PFChargedJetsCHS = ak4PFJets.clone(src="pfChargedCHS", doAreaFastjet=True)
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
addJetCollection(
process,
postfix="",
labelName="AK4ChargedPFCHS",
jetSource=cms.InputTag("ak4PFChargedJetsCHS"),
pvSource=cms.InputTag("offlineSlimmedPrimaryVertices"),
pfCandidates=cms.InputTag("packedPFCandidates"),
svSource=cms.InputTag("slimmedSecondaryVertices"),
btagDiscriminators=["None"],
jetCorrections=("AK4PFchs", [], "None"),
genJetCollection=cms.InputTag("slimmedGenJets"),
genParticles=cms.InputTag("prunedGenParticles"),
algo="AK",
rParam=0.4,
)
process.MessageLogger.cerr.FwkReport.reportEvery = 1000
process.MINIAODSIMoutput.outputCommands.append("keep patJets_patJetsAK4ChargedPFCHS__RERUN")
process.p = cms.Path(process.pfChargedCHS * process.ak4PFChargedJetsCHS * process.patJetsAK4ChargedPFCHS)
process.endpath = cms.EndPath(process.MINIAODSIMoutput)
ofile = os.path.expandvars(options.outputFile)
def addLSJets(process, pfCandLabel="customAK8ConstituentsTable:pfCandsNoLep", runOnMC=False):
jetCollection = 'FatJetLSCollection'
tagName = "FatJetLS"
postfix = "Recluster"
task = getPatAlgosToolsTask(process)
addToProcessAndTask(jetCollection, ak8PFJetsPuppi.clone(src = cms.InputTag(pfCandLabel)),
process, task)
getattr(process, jetCollection).jetAlgorithm = 'AntiKt'
getattr(process, jetCollection).rParam = 0.8
addJetCollection(process,
labelName = "FatJetLS",
postfix = postfix,
jetSource = cms.InputTag(jetCollection),
pvSource = cms.InputTag("offlineSlimmedPrimaryVertices"),
svSource = cms.InputTag("slimmedSecondaryVertices"),
muSource = cms.InputTag("slimmedMuons"),
elSource = cms.InputTag("slimmedElectrons"),
algo = "AK",
rParam = 0.8,
jetCorrections = ('AK8PFPuppi', ['L2Relative', 'L3Absolute'], 'None'),
pfCandidates = cms.InputTag(pfCandLabel),
genJetCollection = cms.InputTag("slimmedGenJetsAK8"),
genParticles = cms.InputTag('prunedGenParticles'),
getJetMCFlavour = False,
btagDiscriminators = ['pfDeepCSVJetTags:probb','pfDeepCSVJetTags:probbb','pfCombinedInclusiveSecondaryVertexV2BJetTags']
)
task = getPatAlgosToolsTask(process)
addToProcessAndTask(jetCollection+'SoftDrop',
ak8PFJetsPuppiSoftDrop.clone( src =cms.InputTag(pfCandLabel),
rParam=0.8,
jetAlgorithm='AntiKt',
useExplicitGhosts=True,
R0= cms.double(0.8),
zcut=0.1,
beta=0,
doAreaFastjet = cms.bool(True),
writeCompound = cms.bool(True),
jetCollInstanceName=cms.string('SubJets') ),
process, task)
task = getPatAlgosToolsTask(process)
addToProcessAndTask(jetCollection+'SoftDropMass',
ak8PFJetsPuppiSoftDropMass.clone( src = cms.InputTag(jetCollection),
matched = cms.InputTag( jetCollection+'SoftDrop'),
distMax = cms.double(0.8)),
process, task)
getattr(process,"patJetsFatJetLSRecluster").userData.userFloats.src = [jetCollection+'SoftDropMass']
addJetCollection(process,
labelName = "FatJetLSSubJets",
postfix = postfix,
jetSource = cms.InputTag(jetCollection+'SoftDrop','SubJets'),
pvSource = cms.InputTag("offlineSlimmedPrimaryVertices"),
svSource = cms.InputTag("slimmedSecondaryVertices"),
algo = 'AK',
rParam = 0.8,
btagDiscriminators = ['pfDeepCSVJetTags:probb', 'pfDeepCSVJetTags:probbb','pfCombinedInclusiveSecondaryVertexV2BJetTags'],
jetCorrections = ('AK4PFPuppi', ['L2Relative', 'L3Absolute'], 'None'),
explicitJTA = True, # needed for subjet b tagging
svClustering = True, # needed for subjet b tagging
genJetCollection = cms.InputTag('slimmedGenJetsAK8SoftDropSubJets'),
genParticles = cms.InputTag('prunedGenParticles'),
getJetMCFlavour = False,
fatJets = cms.InputTag(jetCollection),
groomedFatJets = cms.InputTag(jetCollection+'SoftDrop')
)
selectedPatJetCollection = "selectedPatJets{}{}".format(tagName,postfix)
task = getPatAlgosToolsTask(process)
addToProcessAndTask(selectedPatJetCollection+"Packed",
cms.EDProducer("BoostedJetMerger",
jetSrc=cms.InputTag(selectedPatJetCollection),
subjetSrc=cms.InputTag("patJetsFatJetLSSubJetsRecluster")),
process, task)
task = getPatAlgosToolsTask(process)
addToProcessAndTask('packedPatJets'+'FatJetLS',
cms.EDProducer("JetSubstructurePacker",
jetSrc=cms.InputTag(selectedPatJetCollection),
distMax = cms.double(0.8),
fixDaughters = cms.bool(False),
algoTags = cms.VInputTag(
cms.InputTag(selectedPatJetCollection+"Packed")
),
algoLabels =cms.vstring('SoftDrop')),
process, task)
updateJetCollection(
process,
labelName = "FatJetLS",
postfix = "Final",
jetSource = cms.InputTag('packedPatJets'+'FatJetLS'),
rParam = 0.8,
jetCorrections = ('AK8PFPuppi', ['L2Relative', 'L3Absolute'], 'None'),
btagDiscriminators = ['pfDeepCSVJetTags:probb','pfDeepCSVJetTags:probbb','pfBoostedDoubleSecondaryVertexAK8BJetTags',
'pfCombinedInclusiveSecondaryVertexV2BJetTags',
]
)
patJetFinalCollection="selectedUpdatedPatJets{}{}".format(tagName,"Final")
process.customAK8LSTable = cms.EDProducer("SimpleCandidateFlatTableProducer",
src= cms.InputTag("selectedUpdatedPatJetsFatJetLSFinal"),
cut = cms.string(""),
name = cms.string("FatJetLS"),
doc = cms.string("Lepton subtracted fat jets"),
singleton = cms.bool(False),
extension = cms.bool(False),
variables = cms.PSet(P4Vars,
msoftdropraw = Var("userFloat('FatJetLSCollectionSoftDropMass')", float, doc="raw soft drop mass",precision=10),
)
)
process.customAK8LSsubjetTable = cms.EDProducer("SimpleCandidateFlatTableProducer",
src = cms.InputTag(jetCollection+'SoftDrop',"SubJets"),
cut = cms.string(""),
name = cms.string("FatJetLSSubJet"),
doc = cms.string("Lepton subtracted fat jets sub jets"),
singleton = cms.bool(False),
extension = cms.bool(False),
variables = cms.PSet(P4Vars,
)
)
def addFlashggPFCHSJets(process,
isData,
vertexIndex = 0,
#doQGTagging = True,
label ='',
debug = False):
setattr(process, 'selectedMuons' + label, cms.EDFilter("CandPtrSelector",
src = cms.InputTag("slimmedMuons"),
cut = cms.string('''abs(eta)<2.5 && pt>10. &&
(pfIsolationR04().sumChargedHadronPt+
max(0.,pfIsolationR04().sumNeutralHadronEt+
pfIsolationR04().sumPhotonEt-
0.50*pfIsolationR04().sumPUPt))/pt < 0.20 &&
(isPFMuon && (isGlobalMuon || isTrackerMuon) )''')))
setattr(process, 'selectedElectrons' + label, cms.EDFilter("CandPtrSelector",
src = cms.InputTag("slimmedElectrons"),
cut = cms.string('''abs(eta)<2.5 && pt>20. &&
gsfTrack.isAvailable() &&
gsfTrack.hitPattern().numberOfLostHits(\'MISSING_INNER_HITS\') < 2 &&
(pfIsolationVariables().sumChargedHadronPt+
max(0.,pfIsolationVariables().sumNeutralHadronEt+
pfIsolationVariables().sumPhotonEt-
0.5*pfIsolationVariables().sumPUPt))/pt < 0.15''')))
# Simple producer which just removes the Candidates which
# don't come from the legacy vertex according to the Flashgg Vertex Map
setattr(process,'flashggCHSLegacyVertexCandidates' + label,
cms.EDProducer('FlashggMultiCHSLegacyVertexCandProducer',
PFCandidatesTag = cms.InputTag('packedPFCandidates'),
DiPhotonTag = cms.InputTag('flashggDiPhotons'),
VertexCandidateMapTag = cms.InputTag("flashggVertexMapForCHS"),
VertexTag = cms.InputTag('offlineSlimmedPrimaryVertices'),
vertexIndex = cms.uint32(vertexIndex),
debug = cms.untracked.bool(debug)
)
)
setattr(process, 'pfCHSLeg' + label, cms.EDFilter("CandPtrSelector",
src = cms.InputTag('flashggCHSLegacyVertexCandidates' + label),
cut = cms.string('')))
# then remove the previously selected muons
setattr(process, 'pfNoMuonCHSLeg' + label, cms.EDProducer("CandPtrProjector",
src = cms.InputTag("pfCHSLeg" + label),
veto = cms.InputTag("selectedMuons" + label)))
# then remove the previously selected electrons
setattr(process, 'pfNoElectronsCHSLeg' + label, cms.EDProducer("CandPtrProjector",
src = cms.InputTag("pfNoMuonCHSLeg" + label),
veto = cms.InputTag("selectedElectrons" + label)))
#Import RECO jet producer for ak4 PF and GEN jet
from RecoJets.JetProducers.ak4PFJets_cfi import ak4PFJets
setattr(process, 'ak4PFJetsCHSLeg' + label, ak4PFJets.clone ( src = 'pfNoElectronsCHSLeg' + label, doAreaFastjet = True))
if isData:
JECs = ['L1FastJet', 'L2Relative', 'L3Absolute','L2L3Residual']
else:
JECs = ['L1FastJet', 'L2Relative', 'L3Absolute']
# NOTE: this is the 74X recipe for the jet clustering
addJetCollection(
process,
postfix = label,
labelName = 'AK4PFCHSLeg',
jetSource = cms.InputTag('ak4PFJetsCHSLeg' + label),
pvSource = cms.InputTag('offlineSlimmedPrimaryVertices'),
pfCandidates = cms.InputTag('packedPFCandidates'),
svSource = cms.InputTag('slimmedSecondaryVertices'),
btagDiscriminators = [ flashggBTag ],
jetCorrections = ('AK4PFchs', JECs, 'None'),
genJetCollection = cms.InputTag('slimmedGenJets'),
genParticles = cms.InputTag('prunedGenParticles'),
# jet param
algo = 'AK', rParam = 0.4
)
#adjust PV used for Jet Corrections
#process.patJetCorrFactorsAK4PFCHSLeg.primaryVertices = "offlineSlimmedPrimaryVertices"
getattr(process, 'patJetCorrFactorsAK4PFCHSLeg' + label).primaryVertices = "offlineSlimmedPrimaryVertices"
if not hasattr(process,"QGPoolDBESSource"):
process.QGPoolDBESSource = cms.ESSource("PoolDBESSource",
CondDBSetup,
toGet = cms.VPSet(),
connect = cms.string('sqlite:QGL_'+qgDatabaseVersion+'.db')
)
process.es_prefer_qg = cms.ESPrefer('PoolDBESSource','QGPoolDBESSource')
for type in ['AK4PFchs']:#,'AK4PFchs_antib']:
process.QGPoolDBESSource.toGet.extend(cms.VPSet(cms.PSet(
record = cms.string('QGLikelihoodRcd'),
tag = cms.string('QGLikelihoodObject_'+qgDatabaseVersion+'_'+type),
label = cms.untracked.string('QGL_'+type)
)))
from RecoJets.JetProducers.QGTagger_cfi import QGTagger
setattr( process, 'QGTaggerPFCHS' + label,
QGTagger.clone( srcJets = 'patJetsAK4PFCHSLeg' + label ,jetsLabel = 'QGL_AK4PFchs', vertexIndex = cms.uint32(vertexIndex),
srcVertexCollection = 'offlineSlimmedPrimaryVertices'))
from RecoJets.JetProducers.PileupJetIDParams_cfi import full_80x_chs
flashggJets = cms.EDProducer('FlashggJetProducer',
DiPhotonTag = cms.InputTag('flashggDiPhotons'),
VertexTag = cms.InputTag('offlineSlimmedPrimaryVertices'),
JetTag = cms.InputTag('patJetsAK4PFCHSLeg' + label),
VertexCandidateMapTag = cms.InputTag("flashggVertexMapForCHS"),
qgVariablesInputTag = cms.InputTag('QGTaggerPFCHS'+label, 'qgLikelihood'),
ComputeSimpleRMS = cms.bool(True),
PileupJetIdParameters = full_80x_chs,
rho = cms.InputTag("fixedGridRhoFastjetAll"),
JetCollectionIndex = cms.uint32(vertexIndex),
Debug = cms.untracked.bool(False)
)
setattr( process, 'flashggPFCHSJets'+ label, flashggJets)
# randomize Jets
from flashgg.MicroAOD.flashggRandomizedJetProducer_cfi import flashggRandomizedJets
flashggRandomizedPFCHSJets = flashggRandomizedJets.clone()
flashggRandomizedPFCHSJets.src = "flashggPFCHSJets" + label
setattr(process.RandomNumberGeneratorService, 'flashggRandomizedPFCHSJets' + label, cms.PSet(initialSeed = cms.untracked.uint32(36423784 + int(label))))
setattr( process, 'flashggRandomizedPFCHSJets' + label, flashggRandomizedPFCHSJets )
flashggSelectedJets = cms.EDFilter("FLASHggJetSelector",
src = cms.InputTag( 'flashggRandomizedPFCHSJets' + label ),
cut = cms.string("pt > 15.")
)
setattr( process, 'flashggSelectedPFCHSJets'+label, flashggSelectedJets )
## uncomment the following line to add different jet collections
## to the event content
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
from PhysicsTools.PatAlgos.tools.jetTools import switchJetCollection
## uncomment the following lines to add ak4PFJetsCHS to your PAT output
addJetCollection(
process,
labelName='AK4PFCHS',
jetSource=cms.InputTag('ak4PFJetsCHS'),
algo='ak',
rParam=0.4,
jetCorrections=('AK5PFchs',
cms.vstring(['L1FastJet', 'L2Relative',
'L3Absolute']), 'Type-1'),
btagDiscriminators=[
'jetBProbabilityBJetTags', 'jetProbabilityBJetTags',
'trackCountingHighPurBJetTags', 'trackCountingHighEffBJetTags',
'simpleSecondaryVertexHighEffBJetTags',
'simpleSecondaryVertexHighPurBJetTags',
'combinedSecondaryVertexBJetTags'
],
btagInfos=['secondaryVertexTagInfos'])
addJetCollection(process,
labelName='CA8PFCHS',
jetSource=cms.InputTag('ca8PFJetsCHS'),
algo='ca',
rParam=0.8,
jetCorrections=('AK7PFchs',
process.ak12PFJetsCHSTrimmed = process.ak8PFJetsCHSTrimmed.clone(rParam = 1.2)
process.ak12PFJetsCHSFiltered = process.ak8PFJetsCHSFiltered.clone(rParam = 1.2)
process.ak15PFJetsCHSPruned = process.ak8PFJetsCHSPruned.clone(rParam = 1.5)
process.ak15PFJetsCHSTrimmed = process.ak8PFJetsCHSTrimmed.clone(rParam = 1.5)
process.ak15PFJetsCHSFiltered = process.ak8PFJetsCHSFiltered.clone(rParam = 1.5)
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
from PhysicsTools.PatAlgos.tools.jetTools import switchJetCollection
addJetCollection(
process,
labelName = 'AK4PFCHS',
jetSource = cms.InputTag('ak4PFJetsCHS'),
algo = 'ak4',
rParam = 0.4,
jetCorrections = ('AK4PFchs', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'None'),
trackSource = cms.InputTag('unpackedTracksAndVertices'),
pvSource = cms.InputTag('unpackedTracksAndVertices'),
btagDiscriminators = ['combinedSecondaryVertexBJetTags'],
)
addJetCollection(
process,
labelName = 'AK8PFCHS',
jetSource = cms.InputTag('ak8PFJetsCHS'),
algo = 'ak8',
rParam = 0.8,
jetCorrections = ('AK8PFchs', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'None'),
trackSource = cms.InputTag('unpackedTracksAndVertices'),
pvSource = cms.InputTag('unpackedTracksAndVertices'),
def addRecoJetCollection(
self,
proc,
jet,
inputCollection="",
genJetsCollection="",
minPt=5.,
bTagDiscriminators=None,
JETCorrLevels=None,
):
print(
"jetCollectionTools::RecoJetAdder::addRecoJetCollection: Adding Reco Jet Collection: {}"
.format(jet))
currentTasks = []
if inputCollection and inputCollection not in [
"slimmedJets",
"slimmedJetsAK8",
"slimmedJetsPuppi",
"slimmedCaloJets",
]:
raise RuntimeError("Invalid input collection: %s" %
inputCollection)
if bTagDiscriminators is None:
bTagDiscriminators = self.bTagDiscriminators
if JETCorrLevels is None:
JETCorrLevels = self.JETCorrLevels
#
# Decide which jet collection we're dealing with
#
recoJetInfo = RecoJetInfo(jet, inputCollection)
jetLower = recoJetInfo.jetLower
jetUpper = recoJetInfo.jetUpper
tagName = recoJetInfo.jetTagName
if inputCollection == "slimmedJets":
assert (jetLower == "ak4pfchs")
elif inputCollection == "slimmedJetsAK8":
assert (jetLower == "ak8pfpuppi")
elif inputCollection == "slimmedJetsPuppi":
assert (jetLower == "ak4pfpuppi")
elif inputCollection == "slimmedCaloJets":
assert (jetLower == "ak4calo")
#=======================================================
#
# If jet collection in MiniAOD is not
# specified, build the jet collection.
#
#========================================================
if not inputCollection or recoJetInfo.doCalo:
print(
"jetCollectionTools::RecoJetAdder::addRecoJetCollection: inputCollection not specified. Building recojet collection now"
)
#=======================================================
#
# Prepare the inputs to jet clustering
#
#========================================================
#
# Set up PF candidates
#
pfCand = self.pfLabel
#
# Setup PU method for PF candidates
#
if recoJetInfo.jetPUMethod not in ["", "cs"]:
pfCand += recoJetInfo.jetPUMethod
#
#
#
if pfCand not in self.prerequisites:
#
# Skip if no PU Method or CS specified
#
if recoJetInfo.jetPUMethod in ["", "cs"]:
pass
#
# CHS
#
elif recoJetInfo.jetPUMethod == "chs":
setattr(
proc, pfCand,
cms.EDFilter(
"CandPtrSelector",
src=cms.InputTag(self.pfLabel),
cut=cms.string("fromPV"),
))
self.prerequisites.append(pfCand)
#
# PUPPI
#
elif recoJetInfo.jetPUMethod == "puppi":
setattr(
proc, pfCand,
puppi.clone(
candName=self.pfLabel,
vertexName=self.pvLabel,
))
self.prerequisites.append(pfCand)
#
# Softkiller
#
elif recoJetInfo.jetPUMethod == "sk":
setattr(
proc, pfCand,
softKiller.clone(
PFCandidates=self.pfLabel,
rParam=recoJetInfo.jetSizeNr,
))
self.prerequisites.append(pfCand)
else:
raise RuntimeError(
"Currently unsupported PU method: '%s'" %
recoJetInfo.jetPUMethod)
#============================================
#
# Create the recojet collection
#
#============================================
if not recoJetInfo.doCalo:
jetCollection = '{}Collection'.format(tagName)
if jetCollection in self.main:
raise ValueError("Step '%s' already implemented" %
jetCollection)
setattr(
proc, jetCollection,
ak4PFJetsCS.clone(
src=pfCand,
doAreaFastjet=True,
jetPtMin=minPt,
jetAlgorithm=supportedJetAlgos[recoJetInfo.jetAlgo],
rParam=recoJetInfo.jetSizeNr,
useConstituentSubtraction=recoJetInfo.doCS,
csRParam=0.4 if recoJetInfo.doCS else -1.,
csRho_EtaMax=PFJetParameters.Rho_EtaMax
if recoJetInfo.doCS else -1.,
useExplicitGhosts=recoJetInfo.doCS
or recoJetInfo.jetPUMethod == "sk",
))
currentTasks.append(jetCollection)
else:
jetCollection = inputCollection
#
# PATify
#
if recoJetInfo.jetPUMethod == "puppi":
jetCorrLabel = "Puppi"
elif recoJetInfo.jetPUMethod in ["cs", "sk"]:
jetCorrLabel = "chs"
else:
jetCorrLabel = recoJetInfo.jetPUMethod
#
# Jet correction
#
jetCorrections = (
"{}{}{}{}".format(
recoJetInfo.jetAlgo.upper(), recoJetInfo.jetSize, "Calo"
if recoJetInfo.doCalo else recoJetInfo.jetReco.upper(),
jetCorrLabel),
JETCorrLevels,
"None",
)
addJetCollection(
proc,
labelName=tagName,
jetSource=cms.InputTag(jetCollection),
algo=recoJetInfo.jetAlgo,
rParam=recoJetInfo.jetSizeNr,
pvSource=cms.InputTag(self.pvLabel),
pfCandidates=cms.InputTag(self.pfLabel),
svSource=cms.InputTag(self.svLabel),
muSource=cms.InputTag(self.muLabel),
elSource=cms.InputTag(self.elLabel),
btagDiscriminators=bTagDiscriminators
if not recoJetInfo.doCalo else ["None"],
jetCorrections=jetCorrections,
genJetCollection=cms.InputTag(genJetsCollection),
genParticles=cms.InputTag(self.gpLabel),
)
getJetMCFlavour = not recoJetInfo.doCalo and recoJetInfo.jetPUMethod != "cs"
if not self.runOnMC: #Remove modules for Gen-level object matching
delattr(proc, 'patJetGenJetMatch{}'.format(tagName))
delattr(proc, 'patJetPartonMatch{}'.format(tagName))
getJetMCFlavour = False
setattr(getattr(proc, "patJets{}".format(tagName)),
"getJetMCFlavour", cms.bool(getJetMCFlavour))
setattr(getattr(proc, "patJetCorrFactors{}".format(tagName)),
"payload", cms.string(recoJetInfo.jetCorrPayload))
selJet = "selectedPatJets{}".format(tagName)
else:
selJet = inputCollection
if not recoJetInfo.skipUserData:
#
#
#
jercVar = "jercVars{}".format(tagName)
if jercVar in self.main:
raise ValueError("Step '%s' already implemented" % jercVar)
setattr(proc, jercVar, proc.jercVars.clone(srcJet=selJet))
currentTasks.append(jercVar)
#
# JetID Loose
#
looseJetId = "looseJetId{}".format(tagName)
if looseJetId in self.main:
raise ValueError("Step '%s' already implemented" % looseJetId)
setattr(
proc, looseJetId,
proc.looseJetId.clone(
src=selJet,
filterParams=proc.looseJetId.filterParams.clone(
version="WINTER16"),
))
currentTasks.append(looseJetId)
#
# JetID Tight
#
tightJetId = "tightJetId{}".format(tagName)
if tightJetId in self.main:
raise ValueError("Step '%s' already implemented" % tightJetId)
setattr(
proc, tightJetId,
proc.tightJetId.clone(
src=selJet,
filterParams=proc.tightJetId.filterParams.clone(
version="SUMMER18{}".format(
"PUPPI" if recoJetInfo.jetPUMethod ==
"puppi" else "")),
))
tightJetIdObj = getattr(proc, tightJetId)
run2_jme_2016.toModify(tightJetIdObj.filterParams,
version="WINTER16")
run2_jme_2017.toModify(
tightJetIdObj.filterParams,
version='WINTER17{}'.format(
"PUPPI" if recoJetInfo.jetPUMethod == "puppi" else ""))
currentTasks.append(tightJetId)
#
# JetID TightLepVeto
#
tightJetIdLepVeto = "tightJetIdLepVeto{}".format(tagName)
if tightJetIdLepVeto in self.main:
raise ValueError("Step '%s' already implemented" %
tightJetIdLepVeto)
setattr(
proc, tightJetIdLepVeto,
proc.tightJetIdLepVeto.clone(
src=selJet,
filterParams=proc.tightJetIdLepVeto.filterParams.clone(
version="SUMMER18{}".format(
"PUPPI" if recoJetInfo.jetPUMethod ==
"puppi" else "")),
))
tightJetIdLepVetoObj = getattr(proc, tightJetIdLepVeto)
run2_jme_2016.toModify(tightJetIdLepVetoObj.filterParams,
version="WINTER16")
run2_jme_2017.toModify(
tightJetIdLepVetoObj.filterParams,
version='WINTER17{}'.format(
"PUPPI" if recoJetInfo.jetPUMethod == "puppi" else ""),
)
currentTasks.append(tightJetIdLepVeto)
#
#
#
selectedPatJetsWithUserData = "{}WithUserData".format(selJet)
if selectedPatJetsWithUserData in self.main:
raise ValueError("Step '%s' already implemented" %
selectedPatJetsWithUserData)
setattr(
proc, selectedPatJetsWithUserData,
cms.EDProducer(
"PATJetUserDataEmbedder",
src=cms.InputTag(selJet),
userFloats=cms.PSet(
jercCHPUF=cms.InputTag(
"{}:chargedHadronPUEnergyFraction".format(
jercVar)),
jercCHF=cms.InputTag(
"{}:chargedHadronCHSEnergyFraction".format(
jercVar)),
),
userInts=cms.PSet(
tightId=cms.InputTag(tightJetId),
tightIdLepVeto=cms.InputTag(tightJetIdLepVeto),
),
))
selectedPatJetsWithUserDataObj = getattr(
proc, selectedPatJetsWithUserData)
run2_jme_2016.toModify(
selectedPatJetsWithUserDataObj.userInts,
looseId=cms.InputTag(looseJetId),
)
currentTasks.append(selectedPatJetsWithUserData)
else:
selectedPatJetsWithUserData = "selectedPatJets{}".format(tagName)
#
# Not sure why we can't re-use patJetCorrFactors* created by addJetCollection()
# (even cloning doesn't work) Let's just create our own
#
jetCorrFactors = "jetCorrFactors{}".format(tagName)
if jetCorrFactors in self.main:
raise ValueError("Step '%s' already implemented" % jetCorrFactors)
setattr(
proc, jetCorrFactors,
patJetCorrFactors.clone(
src=selectedPatJetsWithUserData,
levels=JETCorrLevels,
primaryVertices=self.pvLabel,
payload=recoJetInfo.jetCorrPayload,
rho="fixedGridRhoFastjetAll{}".format(
"Calo" if recoJetInfo.doCalo else ""),
))
currentTasks.append(jetCorrFactors)
updatedJets = "updatedJets{}".format(tagName)
if updatedJets in self.main:
raise ValueError("Step '%s' already implemented" % updatedJets)
setattr(
proc, updatedJets,
updatedPatJets.clone(
addBTagInfo=False,
jetSource=selectedPatJetsWithUserData,
jetCorrFactorsSource=[jetCorrFactors],
))
currentTasks.append(updatedJets)
self.main.extend(currentTasks)
return recoJetInfo
addJetCollection(
process,
labelName = 'AK5PF',
jetSource = cms.InputTag('ak5PFJets'),
jetCorrections = ('AK5PF', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'Type-2'),
btagDiscriminators = [
'jetBProbabilityBJetTags'
,'jetProbabilityBJetTags'
,'trackCountingHighPurBJetTags'
,'trackCountingHighEffBJetTags'
,'negativeOnlyJetBProbabilityJetTags'
,'negativeOnlyJetProbabilityJetTags'
,'negativeTrackCountingHighEffJetTags'
,'negativeTrackCountingHighPurJetTags'
,'positiveOnlyJetBProbabilityJetTags'
,'positiveOnlyJetProbabilityJetTags'
,'simpleSecondaryVertexHighEffBJetTags'
,'simpleSecondaryVertexHighPurBJetTags'
,'simpleSecondaryVertexNegativeHighEffBJetTags'
,'simpleSecondaryVertexNegativeHighPurBJetTags'
,'combinedSecondaryVertexBJetTags'
,'combinedSecondaryVertexPositiveBJetTags'
#,'combinedSecondaryVertexV1BJetTags'
#,'combinedSecondaryVertexV1PositiveBJetTags'
,'combinedSecondaryVertexMVABJetTags'
,'combinedSecondaryVertexNegativeBJetTags'
#,'combinedSecondaryVertexV1NegativeBJetTags'
,'softPFMuonBJetTags'
,'softPFMuonByPtBJetTags'
,'softPFMuonByIP3dBJetTags'
,'softPFMuonByIP2dBJetTags'
,'positiveSoftPFMuonBJetTags'
,'positiveSoftPFMuonByPtBJetTags'
,'positiveSoftPFMuonByIP3dBJetTags'
,'positiveSoftPFMuonByIP2dBJetTags'
,'negativeSoftPFMuonBJetTags'
,'negativeSoftPFMuonByPtBJetTags'
,'negativeSoftPFMuonByIP3dBJetTags'
,'negativeSoftPFMuonByIP2dBJetTags'
,'softPFElectronBJetTags'
,'softPFElectronByPtBJetTags'
,'softPFElectronByIP3dBJetTags'
,'softPFElectronByIP2dBJetTags'
,'positiveSoftPFElectronBJetTags'
,'positiveSoftPFElectronByPtBJetTags'
,'positiveSoftPFElectronByIP3dBJetTags'
,'positiveSoftPFElectronByIP2dBJetTags'
,'negativeSoftPFElectronBJetTags'
,'negativeSoftPFElectronByPtBJetTags'
,'negativeSoftPFElectronByIP3dBJetTags'
,'negativeSoftPFElectronByIP2dBJetTags'
,'simpleInclusiveSecondaryVertexHighEffBJetTags'
,'simpleInclusiveSecondaryVertexHighPurBJetTags'
,'doubleSecondaryVertexHighEffBJetTags'
,'combinedInclusiveSecondaryVertexBJetTags'
,'combinedInclusiveSecondaryVertexPositiveBJetTags'
#,'combinedMVABJetTags'
,'positiveCombinedMVABJetTags'
,'negativeCombinedMVABJetTags'
#,'combinedSecondaryVertexSoftPFLeptonV1BJetTags'
#,'positiveCombinedSecondaryVertexSoftPFLeptonV1BJetTags'
#,'negativeCombinedSecondaryVertexSoftPFLeptonV1BJetTags'
],
)
## uncomment the following line to add different jet collections
## to the event content
from PhysicsTools.PatAlgos.tools.jetTools import addJetCollection
from PhysicsTools.PatAlgos.tools.jetTools import switchJetCollection
#runOn62 = True
runOn62 = False
## uncomment the following lines to add ak5PFJetsCHS to your PAT output
labelAK5PFCHS = 'AK5PFCHS'
postfixAK5PFCHS = 'Copy'
addJetCollection(process,
postfix=postfixAK5PFCHS,
labelName=labelAK5PFCHS,
jetSource=cms.InputTag('ak5PFJetsCHS'),
jetCorrections=('AK5PFchsOwca',
cms.vstring(
['L1FastJet', 'L2Relative',
'L3Absolute']), 'Type-2'))
process.out.outputCommands.append('drop *_selectedPatJets%s%s_caloTowers_*' %
(labelAK5PFCHS, postfixAK5PFCHS))
if not runOn62:
# ak4PFJetsCHS
labelAK4PFCHS = 'AK4PFCHS'
postfixAK4PFCHS = 'Copy'
addJetCollection(
process,
postfix=postfixAK4PFCHS,
labelName=labelAK4PFCHS,
jetSource=cms.InputTag('ak4PFJetsCHS'),
