def build_config(self, nickname, *args, **kwargs): #Maybe change this the arguments to process/year and DATA/MC
#Change this json config files as well?
"""
if hasattr(self, "include") == False:
self["include"] = []
self["include"] += ["$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsLooseElectronID.json", #Done
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsLooseMuonID.json", #Done
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsElectronID.json", #Done
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsMuonID.json", #Done
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsTauID.json", #Done
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsJEC.json", #Done
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsJECUncertaintySplit.json", #Done
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsJetID.json", #Done
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsBTaggedJetID.json", #Done
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsSvfit.json", #Done
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsMinimalPlotlevelFilter_tt.json", #Done
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Includes/settingsMVATestMethods.json", #Done
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsTauES.json", #Done
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2CPStudies/Includes/settingsTauPolarisationMva.json"] #Done
"""
ElectronID_config = sEID.Electron_ID(nickname)
ElectronID_config.looseElectron_ID(nickname) #append the config for loose electron ID because it is used
self.update(ElectronID_config)
MuonID_config = sMID.Muon_ID(nickname)
MuonID_config.looseMuon_ID(nickname) #append the config for loose Muon ID because it is used
self.update(MuonID_config)
TauID_config = sTID.Tau_ID(nickname) #here loose is not appended since loose tau ID is not used
self.update(TauID_config)
JEC_config = sJEC.JEC(nickname) #Is allready in baseconfig, for now leave it in; possibly remove it
self.update(JEC_config)
JECUncertaintySplit_config = sJECUS.JECUncertaintySplit(nickname)
self.update(JECUncertaintySplit_config)
JetID_config = sJID.Jet_ID(nickname)
self.update(JetID_config)
BTaggedJet_config = sBTJID.BTaggedJet_ID(nickname)
self.update(BTaggedJet_config)
Svfit_config = sSvfit.Svfit(nickname)
self.update(Svfit_config)
MinimalPlotlevelFilter_config = sMPlF.MinimalPlotlevelFilter()
MinimalPlotlevelFilter_config.tt()
self.update(MinimalPlotlevelFilter_config)
MVATestMethods_config = sMVATM.MVATestMethods()
self.update(MVATestMethods_config)
TauES_config = sTES.TauES(nickname)
self.update(TauES_config)
TauPolarisationMva_config = sTPMVA.TauPolarisationMva()
self.update(TauPolarisationMva_config)
self["TauPolarisationTmvaWeights"] = ["/afs/cern.ch/user/m/mfackeld/public/weights_tmva/training.weights.xml",
"/afs/cern.ch/user/m/mfackeld/public/weights_sklearn/training_tt.weights.xml"]
self["Channel"] = "TT"
self["MinNTaus"] = 2
self["TauID"] = "TauIDRecommendation13TeV"
self["TauUseOldDMs"] = True
self["TauLowerPtCuts"] = ["40.0"] #in json with default
self["TauUpperAbsEtaCuts"] = ["2.1"] #in json with default
self["DiTauPairMinDeltaRCut"] = 0.5
self["DiTauPairIsTauIsoMVA"] = True
self["EventWeight"] = "eventWeight"
self["RooWorkspace"] = "$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/scaleFactorWeights/htt_scalefactors_sm_moriond_v2.root"
self["TauTauTriggerWeightWorkspace"] = "$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/scaleFactorWeights/htt_scalefactors_sm_moriond_v2.root"
self["TauTauTriggerWeightWorkspaceWeightNames"] = ["0:triggerWeight", "1:triggerWeight"]
self["TauTauTriggerWeightWorkspaceObjectNames"] = ["0:t_genuine_TightIso_tt_ratio,t_fake_TightIso_tt_ratio", "1:t_genuine_TightIso_tt_ratio,t_fake_TightIso_tt_ratio"]
self["TauTauTriggerWeightWorkspaceObjectArguments"] = ["0:t_pt,t_dm","1:t_pt,t_dm"]
self["EleTauFakeRateWeightFile"] = [
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/scaleFactorWeights/antiElectronDiscrMVA6FakeRateWeights.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/scaleFactorWeights/antiElectronDiscrMVA6FakeRateWeights.root"
]
if re.search("Run2016|Spring16|Summer16", nickname):
#settings for jetstotaufakesproducer
self["FakeFaktorFile"] = "root://grid-vo-cms.physik.rwth-aachen.de:1094//store/user/jdegens/higgs-kit/ff/2016/tt/fakeFactors_tt_inclusive.root"
self["FakeFactorMethod"] = "cp2016"
self["FakeFactorRooWorkspaceFunction"] = [
"w_fracs_1:w_tt_fracs_1",
"qcd_fracs_1:qcd_tt_fracs_1",
"ttbar_fracs_1:ttbar_tt_fracs_1",
"dy_fracs_1:dy_tt_fracs_1",
"w_fracs_2:w_tt_fracs_2",
"qcd_fracs_2:qcd_tt_fracs_2",
"ttbar_fracs_2:ttbar_tt_fracs_2",
"dy_fracs_2:dy_tt_fracs_2"
]
self["FakeFactorFractionsRooWorkspaceFile"] = "$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/fakeFactorWeights/rooworkspacefractions/ff_fracs_new_2016.root"
self["TauTauRestFrameReco"] = "collinear_approximation"
self["TriggerObjectLowerPtCut"] = 28.0
self["InvalidateNonMatchingElectrons"] = False
self["InvalidateNonMatchingMuons"] = False
self["InvalidateNonMatchingTaus"] = True
self["InvalidateNonMatchingJets"] = False
self["UseUWGenMatching"] = "true" #TODO change this to boolean? or change the rest to string?
self["DirectIso"] = True
self["TopPtReweightingStrategy"] = "Run2" #FIXME this looks more right
self["OSChargeLeptons"] = True
self["SvfitKappaParameter"] = 5.0
self["AddGenMatchedTaus"] = True
self["AddGenMatchedTauJets"] = True
self["BranchGenMatchedTaus"] = True
self["Consumers"] = ["KappaLambdaNtupleConsumer",
"cutflow_histogram",
"SvfitCacheConsumer"]#,
#"CutFlowTreeConsumer",
#"KappaTausConsumer",
#"KappaTaggedJetsConsumer",
#"RunTimeConsumer",
#"PrintEventsConsumer",
#"PrintGenParticleDecayTreeConsumer"]
if re.search("Embedding", nickname):
self["NoHltFiltering"]= True
self["DiTauPairNoHLT"]= True
else:
self["NoHltFiltering"]=False
self["DiTauPairNoHLT"]= False
#set it here and if it is something else then change it in the ifs below
self["HltPaths"] = ["HLT_DoubleMediumIsoPFTau35_Trk1_eta2p1_Reg", "HLT_DoubleMediumCombinedIsoPFTau35_Trk1_eta2p1_Reg"]
self["TauTriggerFilterNames"] = [
"HLT_DoubleMediumIsoPFTau35_Trk1_eta2p1_Reg_v:hltDoublePFTau35TrackPt1MediumIsolationDz02Reg", #here are : in string
"HLT_DoubleMediumCombinedIsoPFTau35_Trk1_eta2p1_Reg_v:hltDoublePFTau35TrackPt1MediumCombinedIsolationDz02Reg"
]
if "Run2016" in nickname and not "Run2016H" in nickname:
self["HltPaths"] = ["HLT_DoubleMediumIsoPFTau35_Trk1_eta2p1_Reg"]
self["TauTriggerFilterNames"]=["HLT_DoubleMediumIsoPFTau35_Trk1_eta2p1_Reg_v:hltDoublePFTau35TrackPt1MediumIsolationDz02Reg"]
elif "Run2016H" in nickname:
self["HltPaths"] = ["HLT_DoubleMediumCombinedIsoPFTau35_Trk1_eta2p1_Reg"]
self["TauTriggerFilterNames"] = ["HLT_DoubleMediumCombinedIsoPFTau35_Trk1_eta2p1_Reg_v:hltDoublePFTau35TrackPt1MediumCombinedIsolationDz02Reg"]
elif "Fall15MiniAODv2" in nickname or "Run2015D" in nickname or "Embedding2015" in nickname:
self["HltPaths"] = ["HLT_DoubleMediumIsoPFTau35_Trk1_eta2p1_Reg"]
self["TauTriggerFilterNames"] = ["HLT_DoubleMediumIsoPFTau35_Trk1_eta2p1_Reg_v:hltDoublePFTau35TrackPt1MediumIsolationDz02Reg"]
elif "Embedding2016" in nickname or "EmbeddingMC" in nickname: #TODO Ask thomas what it should be line 40 in json
self["HltPaths"] = [""]
#Quantities, this looks for tt em mt et very similar, check if it is the same and if so put it in baseconfig for all channels
quantities_dict = quantities.quantities()
quantities_dict.build_quantities(nickname, channel = self["Channel"])
#put rest of quantities in CPQuantities.py?
quantities_dict["Quantities"] += [
"nLooseElectrons",
"nLooseMuons",
"nDiTauPairCandidates",
"nAllDiTauPairCandidates"
]
if re.search("(DY.?JetsToLL).*(?=(Spring16|Summer16))", nickname):
quantities_dict["Quantities"] += [
"tauSpinnerValidOutputs",
"tauSpinnerPolarisation",
]
elif re.search("(DY.?JetsToLL).*(?=Fall15)", nickname):
quantities_dict["Quantities"] += [
"tauSpinnerValidOutputs",
"tauSpinnerPolarisation",
]
elif re.search("(DY.?JetsToLL).*(?=Fall15)", nickname):
quantities_dict["Quantities"] += quantities_dict.genMatchedCPQuantities()
elif re.search("Embedding2016", nickname):
quantities_dict["Quantities"] += [
"tauSpinnerValidOutputs",
"tauSpinnerPolarisation",
]
self.update(copy.deepcopy(quantities_dict))
#Producers and filters, TODO filter everything which is the same and use this as the startint list, then just add the other variables per sample
self["Processors"] = [
"producer:HltProducer",
"filter:HltFilter",
"producer:MetSelector",
################## special for each channel in et mt tt em.
"producer:ValidTausProducer",
"filter:ValidTausFilter",
"producer:TauTriggerMatchingProducer",
"filter:MinTausCountFilter",
"producer:ValidElectronsProducer",
"producer:ValidMuonsProducer",
"producer:ValidTTPairCandidatesProducer",
"filter:ValidDiTauPairCandidatesFilter",
"producer:HttValidLooseElectronsProducer",
"producer:HttValidLooseMuonsProducer",
##################
"producer:Run2DecayChannelProducer",
"producer:TaggedJetCorrectionsProducer",
"producer:ValidTaggedJetsProducer",
"producer:ValidBTaggedJetsProducer",
"producer:TauTauRestFrameSelector",
"producer:DiLeptonQuantitiesProducer",
"producer:DiJetQuantitiesProducer",
]
if re.search("(Spring16|Summer16|Run2016)", nickname):
self["Processors"] += ["producer:RefitVertexSelector"]
self["Processors"] += ["producer:RecoTauCPProducer"]
self["Processors"] += ["producer:PolarisationQuantitiesSvfitProducer"]
self["Processors"] += ["producer:PolarisationQuantitiesSvfitM91Producer"]
self["Processors"] += ["producer:PolarisationQuantitiesSimpleFitProducer"]
self["Processors"] += ["producer:TaggedJetUncertaintyShiftProducer"]
if re.search("Run2016", nickname):
#self["Processors"] += ["producer:MVATestMethodsProducer"]
self["Processors"] += ["producer:SimpleFitProducer"]
self["Processors"] += ["producer:GenMatchedPolarisationQuantitiesProducer"]
self["Processors"] += ["filter:MinimalPlotlevelFilter"]
self["Processors"] += ["producer:SvfitProducer"]
self["Processors"] += ["producer:SvfitM91Producer"]
self["Processors"] += ["producer:SvfitM125Producer"]
self["Processors"] += ["producer:MELAProducer"]
self["Processors"] += ["producer:MELAM125Producer"]
self["Processors"] += ["producer:JetToTauFakesProducer"] #TODO check if only needed in data
#self["Processors"] += ["producer:TauPolarisationTmvaReader"]
else:
self["Processors"] += ["producer:TauCorrectionsProducer"]
self["Processors"] += ["producer:TauTauTriggerWeightProducer"]
self["Processors"] += ["producer:MetCorrector"]
self["Processors"] += [
"producer:SimpleEleTauFakeRateWeightProducer",
"producer:SimpleMuTauFakeRateWeightProducer"
]
if re.search("(LFV).*(?=(Spring16|Summer16))", nickname):
self["Processors"] += [
"producer:ZPtReweightProducer"
#"filter:MinimalPlotlevelFilter"
]
self["Processors"] += ["producer:GenMatchedTauCPProducer"]
else:
self["Processors"] += ["filter:MinimalPlotlevelFilter"]
self["Processors"] += ["producer:SvfitProducer"]
self["Processors"] += ["producer:SvfitM91Producer"]
self["Processors"] += ["producer:SvfitM125Producer"]
self["Processors"] += ["producer:MELAProducer"]
self["Processors"] += ["producer:MELAM125Producer"]
if re.search("(DY.?JetsToLL).*(?=(Spring16|Summer16))", nickname):
self["Processors"] += ["producer:JetToTauFakesProducer"] #TODO also needed for mc to -
self["Processors"] += ["producer:ZPtReweightProducer"]
self["Processors"] += ["producer:SimpleFitProducer"]
self["Processors"] += ["producer:GenMatchedTauCPProducer"]
self["Processors"] += ["producer:GenMatchedPolarisationQuantitiesProducer"]
#self["Processors"] += ["producer:TauPolarisationTmvaReader"]
elif re.search("(HToTauTau|H2JetsToTauTau|Higgs).*(?=(Spring16|Summer16))", nickname):
self["Processors"] += [
"producer:TopPtReweightingProducer"
]
#self["Processors"] += ["producer:MVATestMethodsProducer"]
self["Processors"] += ["producer:GenMatchedTauCPProducer"]
self["Processors"] += ["producer:GenMatchedPolarisationQuantitiesProducer"]
#self["Processors"] += ["producer:TauPolarisationTmvaReader"]
#self["Processors"] += ["producer:MadGraphReweightingProducer"]
else:
self["Processors"] += ["producer:JetToTauFakesProducer"] #TODO Also needed for MC to -
self["Processors"] += [ "producer:TopPtReweightingProducer"]
#self["Processors"] += ["producer:MVATestMethodsProducer"]
self["Processors"] += ["producer:SimpleFitProducer"]
self["Processors"] += ["producer:GenMatchedPolarisationQuantitiesProducer"]
#self["Processors"] += ["producer:TauPolarisationTmvaReader"]
elif re.search("(Fall15|Run2015)", nickname):
#self["Processors"] += ["producer:RefitVertexSelector"]
self["Processors"] += ["producer:RecoTauCPProducer"]
self["Processors"] += ["producer:PolarisationQuantitiesSvfitProducer"]
self["Processors"] += ["producer:PolarisationQuantitiesSvfitM91Producer"]
self["Processors"] += ["producer:PolarisationQuantitiesSimpleFitProducer"]
self["Processors"] += ["filter:MinimalPlotlevelFilter"]
self["Processors"] += ["producer:MvaMetSelector"]
if re.search("Run2015", nickname):
#self["Processors"] += ["producer:SimpleFitProducer"]
self["Processors"] += ["producer:GenMatchedPolarisationQuantitiesProducer"]
#self["Processors"] += ["producer:SvfitProducer"]
#self["Processors"] += ["producer:SvfitM91Producer"]
#self["Processors"] += ["producer:SvfitM125Producer"]
#self["Processors"] += ["producer:MELAProducer"]
#self["Processors"] += ["producer:MELAM125Producer"]
else:
self["Processors"] += ["producer:MvaMetCorrector"]
self["Processors"] += ["producer:MetCorrector"]
self["Processors"] += ["producer:TauCorrectionsProducer"]
self["Processors"] += [
"producer:EleTauFakeRateWeightProducer"
]
if re.search("(DY.?JetsToLL).*(?=Fall15)", nickname):
self["Processors"] += ["producer:ZPtReweightProducer"]
#self["Processors"] += ["producer:SimpleFitProducer"]
self["Processors"] += ["producer:GenMatchedTauCPProducer"]
self["Processors"] += ["producer:GenMatchedPolarisationQuantitiesProducer"]
elif re.search("(HToTauTau|H2JetsToTauTau|Higgs).*(?=Fall15)",nickname):
self["Processors"] += ["producer:SvfitProducer"]
self["Processors"] += ["producer:SvfitM91Producer"]
self["Processors"] += ["producer:SvfitM125Producer"]
self["Processors"] += ["producer:MELAProducer"]
self["Processors"] += ["producer:MELAM125Producer"]
elif re.search("^((?!(DY.?JetsToLL|HToTauTau|H2JetsToTauTau|Higgs)).)*Fall15", nickname):
self["Processors"] += ["producer:SvfitProducer"]
self["Processors"] += ["producer:SvfitM91Producer"]
self["Processors"] += ["producer:SvfitM125Producer"]
self["Processors"] += ["producer:MELAProducer"]
self["Processors"] += ["producer:MELAM125Producer"]
self["Processors"] += ["producer:EventWeightProducer"]
self["Processors"] = list(set(self["Processors"]))
processorOrderingkey = processorOrdering.processors_ordered(channel = self["Channel"])
ordered_processors = processorOrderingkey.order_processors(self["Processors"])
self["Processors"] = copy.deepcopy(ordered_processors)
def build_config(self, nickname, *args, **kwargs): #Maybe change this the arguments to process/year and DATA/MC
"""
"include" : [
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsLooseElectronID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsLooseMuonID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsElectronID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsVetoMuonID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsMuonID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsTauID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsJEC.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsJECUncertaintySplit.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsJetID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsBTaggedJetID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsSvfit.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsMinimalPlotlevelFilter_mt.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Includes/settingsMVATestMethods.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsTauES.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2CPStudies/Includes/settingsTauPolarisationMva.json"
],
"""
datasetsHelper = datasetsHelperTwopz.datasetsHelperTwopz(os.path.expandvars("$CMSSW_BASE/src/Kappa/Skimming/data/datasets.json"))
# define frequently used conditions
isEmbedded = datasetsHelper.isEmbedded(nickname)
isData = datasetsHelper.isData(nickname) and (not isEmbedded)
ElectronID_config = sEID.Electron_ID(nickname)
ElectronID_config.looseElectron_ID(nickname) #append the config for loose electron ID because it is used
self.update(ElectronID_config)
MuonID_config = sMID.Muon_ID(nickname)
MuonID_config.looseMuon_ID(nickname) #append the config for loose Muon ID because it is used
MuonID_config.vetoMuon_ID(nickname)
self.update(MuonID_config)
TauID_config = sTID.Tau_ID(nickname) #here loose is not appended since loose tau ID is not used
self.update(TauID_config)
JEC_config = sJEC.JEC(nickname) #Is allready in baseconfig, for now leave it in; possibly remove it
self.update(JEC_config)
JECUncertaintySplit_config = sJECUS.JECUncertaintySplit(nickname)
self.update(JECUncertaintySplit_config)
JetID_config = sJID.Jet_ID(nickname)
self.update(JetID_config)
BTaggedJet_config = sBTJID.BTaggedJet_ID(nickname)
self.update(BTaggedJet_config)
Svfit_config = sSvfit.Svfit(nickname)
self.update(Svfit_config)
MinimalPlotlevelFilter_config = sMPlF.MinimalPlotlevelFilter()
MinimalPlotlevelFilter_config.mt()
self.update(MinimalPlotlevelFilter_config)
MVATestMethods_config = sMVATM.MVATestMethods()
self.update(MVATestMethods_config)
TauES_config = sTES.TauES(nickname)
self.update(TauES_config)
TauPolarisationMva_config = sTPMVA.TauPolarisationMva()
self.update(TauPolarisationMva_config)
self["TauPolarisationTmvaWeights"] = [
"/afs/cern.ch/user/m/mfackeld/public/weights_tmva/training.weights.xml",
"/afs/cern.ch/user/m/mfackeld/public/weights_sklearn/training_mt.weights.xml"
]
self["Channel"] = "MT"
self["MinNMuons"] = 1
self["MinNTaus"] = 1
self["HltPaths_comment"] = "The first path must be the single lepton trigger. A corresponding Pt cut is implemented in the Run2DecayChannelProducer."
if re.search("(Fall15MiniAODv2|Run2015D|Embedding2015)", nickname):
self["HltPaths"] = ["HLT_IsoMu18"]
self["NoHltFiltering"] = False
self["DiTauPairNoHLT"] = False
elif re.search("Run2016|Spring16|Summer16|Embedding(2016|MC)", nickname):
self["HltPaths"] = [
"HLT_IsoMu22",
"HLT_IsoTkMu22",
"HLT_IsoMu22_eta2p1",
"HLT_IsoTkMu22_eta2p1",
"HLT_IsoMu19_eta2p1_LooseIsoPFTau20",
"HLT_IsoMu19_eta2p1_LooseIsoPFTau20_SingleL1"
]
self["NoHltFiltering"] = True if isEmbedded else False
self["DiTauPairNoHLT"] = False
# elif re.search("Embedding(2016|MC)", nickname):
# self["HltPaths"] = []
# self["NoHltFiltering"] = True
# self["DiTauPairNoHLT"] = True
self["TauID"] = "TauIDRecommendation13TeV"
self["TauUseOldDMs"] = True
if re.search("(Fall15MiniAODv2|Run2015D|Embedding2015)", nickname):
self["MuonLowerPtCuts"] = ["19.0"]
else:
self["MuonLowerPtCuts"] = ["20.0"]
self["MuonUpperAbsEtaCuts"] = ["2.1"]
self["TauLowerPtCuts"] = ["20.0"]
self["TauUpperAbsEtaCuts"] = ["2.3"]
self["TriggerObjectLowerPtCut"] = -1.0
self["DiTauPairMinDeltaRCut"] = 0.5
self["DiTauPairIsTauIsoMVA"] = True
if re.search("(Fall15MiniAODv2|Run2015D|Embedding2015)", nickname):
self["DiTauPairLepton1LowerPtCuts"] = [
"HLT_IsoMu18_v:19.0"
]
self["DiTauPairHltPathsWithoutCommonMatchRequired"] = [
"HLT_IsoMu18_v"
]
elif re.search("Run2016|Spring16|Summer16|Embedding(2016|MC)", nickname):
self["DiTauPairLepton1LowerPtCuts"] = [
"HLT_IsoMu24_v:25.0",
"HLT_IsoTkMu24_v:25.0"
]
self["DiTauPairHltPathsWithoutCommonMatchRequired"] = [
"HLT_IsoMu22_v",
"HLT_IsoTkMu22_v",
"HLT_IsoMu22_eta2p1_v",
"HLT_IsoTkMu22_eta2p1_v",
"HLT_IsoMu19_eta2p1_LooseIsoPFTau20_v",
"HLT_IsoMu19_eta2p1_LooseIsoPFTau20_SingleL1_v"
]
else: #I believe "Run2016|Spring16|Summer16|Embedding(2016|MC)" is everything else but for safety i did it here, 2017 not included yet
self["DiTauPairLepton1LowerPtCuts"] = [
"HLT_IsoMu24_v:25.0",
"HLT_IsoTkMu24_v:25.0"
]
if re.search("Run2016|Spring16|Summer16|Embedding(2016|MC)", nickname):
self["DiTauPairHLTLast"] = True
self["HLTBranchNames"] = [
"trg_singlemuon:HLT_IsoMu22_v",
"trg_singlemuon:HLT_IsoTkMu22_v",
"trg_singlemuon:HLT_IsoMu22_eta2p1_v",
"trg_singlemuon:HLT_IsoTkMu22_eta2p1_v",
"trg_mutaucross:HLT_IsoMu19_eta2p1_LooseIsoPFTau20_v",
"trg_mutaucross:HLT_IsoMu19_eta2p1_LooseIsoPFTau20_SingleL1_v"
]
self["MuonTriggerFilterNames"] = [
"HLT_IsoMu22_v:hltL3crIsoL1sMu20L1f0L2f10QL3f22QL3trkIsoFiltered0p09",
"HLT_IsoTkMu22_v:hltL3fL1sMu20L1f0Tkf22QL3trkIsoFiltered0p09",
"HLT_IsoMu22_eta2p1_v:hltL3crIsoL1sSingleMu20erL1f0L2f10QL3f22QL3trkIsoFiltered0p09",
"HLT_IsoTkMu22_eta2p1_v:hltL3fL1sMu20erL1f0Tkf22QL3trkIsoFiltered0p09",
"HLT_IsoMu19_eta2p1_LooseIsoPFTau20_v:hltL3crIsoL1sMu18erTauJet20erL1f0L2f10QL3f19QL3trkIsoFiltered0p09",
"HLT_IsoMu19_eta2p1_LooseIsoPFTau20_v:hltOverlapFilterIsoMu19LooseIsoPFTau20",
"HLT_IsoMu19_eta2p1_LooseIsoPFTau20_SingleL1_v:hltL3crIsoL1sSingleMu18erIorSingleMu20erL1f0L2f10QL3f19QL3trkIsoFiltered0p09",
"HLT_IsoMu19_eta2p1_LooseIsoPFTau20_SingleL1_v:hltOverlapFilterSingleIsoMu19LooseIsoPFTau20"
]
self["TauTriggerFilterNames"] = [
"HLT_IsoMu19_eta2p1_LooseIsoPFTau20_v:hltL1sMu18erTau20er",
#"HLT_IsoMu19_eta2p1_LooseIsoPFTau20_v:hltOverlapFilterIsoMu19LooseIsoPFTau20",
"HLT_IsoMu19_eta2p1_LooseIsoPFTau20_SingleL1_v:hltL1sSingleMu18erIorSingleMu20er",
#"HLT_IsoMu19_eta2p1_LooseIsoPFTau20_SingleL1_v:hltPFTau20TrackLooseIsoAgainstMuon",
#"HLT_IsoMu19_eta2p1_LooseIsoPFTau20_SingleL1_v:hltOverlapFilterSingleIsoMu19LooseIsoPFTau20"
]
elif re.search("(Fall15MiniAODv2|Run2015D|Embedding2015)", nickname):
self["MuonTriggerFilterNames"] = [
"HLT_IsoMu18_v:hltL3crIsoL1sMu16L1f0L2f10QL3f18QL3trkIsoFiltered0p09"
]
self["DiTauPairHLTLast"] = False
else:
self["DiTauPairHLTLast"] = False
self["EventWeight"] = "eventWeight"
self["SaveRooWorkspaceTriggerWeightAsOptionalOnly"] = "true"
if isEmbedded:
self["EmbeddingWeightWorkspace"] = "$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/scaleFactorWeights/htt_scalefactors_v16_11_embedded.root"
self["EmbeddingWeightWorkspaceWeightNames"] = [
"0:triggerWeight_doublemu",
"0:isoweight",
"0:idweight",
"0:triggerWeight_singleMu",
"1:MuTau_TauLeg_EmbeddedEfficiencyWeight",
"1:MuTau_TauLeg_DataEfficiencyWeight"
]
self["EmbeddingWeightWorkspaceObjectNames"] = [
"0:m_sel_trg_ratio",
"0:m_iso_ratio",
"0:m_id_ratio",
"0:m_trg_ratio",
"1:t_TightIso_mt_emb",
"1:t_genuine_TightIso_mt_data,t_fake_TightIso_mt_data"
]
self["EmbeddingWeightWorkspaceObjectArguments"] = [
"0:gt1_pt,gt1_eta,gt2_pt,gt2_eta",
"0:m_pt,m_eta",
"0:m_pt,m_eta",
"0:m_pt,m_eta",
"1:t_pt,t_eta",
"1:t_pt,t_eta"
]
else:
self["RooWorkspace"] = "$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/scaleFactorWeights/htt_scalefactors_sm_moriond_v2.root"
self["RooWorkspaceWeightNames"] = [
"0:triggerWeight_singleMu",
"0:idIsoWeight"
]
self["RooWorkspaceObjectNames"] = [
"0:m_trgMu22OR_eta2p1_desy_ratio",
"0:m_idiso0p15_desy_ratio"
]
self["RooWorkspaceObjectArguments"] = [
"0:m_pt,m_eta",
"0:m_pt,m_eta"
]
self["SaveMuTauTriggerWeightAsOptionalOnly"] = "true"
self["MuTauTriggerWeightWorkspace"] = "$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/scaleFactorWeights/htt_scalefactors_sm_moriond_v2.root"
self["MuTauTriggerWeightWorkspaceWeightNames"] = [
"0:triggerWeight_muTauCross",
"1:triggerWeight_muTauCross"
]
self["MuTauTriggerWeightWorkspaceObjectNames"] = [
"0:m_trgMu19leg_eta2p1_desy_ratio",
"1:t_genuine_TightIso_mt_ratio,t_fake_TightIso_mt_ratio"
]
self["MuTauTriggerWeightWorkspaceObjectArguments"] = [
"0:m_pt,m_eta",
"1:t_pt,t_eta"
]
if re.search("(Fall15MiniAODv2|Run2015D|Embedding2015)", nickname):
self["TriggerEfficiencyData"] = ["0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_Run2015_Muon_IsoMu18_fall15.root"]
self["TriggerEfficiencyMc"] = ["0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_MC_Muon_IsoMu18_fall15.root"]
self["IdentificationEfficiencyData"] = ["0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_Run2015_Muon_IdIso0p1_fall15.root"]
self["IdentificationEfficiencyMc"] = ["0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_MC_Muon_IdIso0p1_fall15.root"]
else:
self["TriggerEfficiencyData"] = ["0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_Run2016_Muon_Mu22OR_eta2p1_eff.root"]
self["TriggerEfficiencyMc"] = ["0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_MC_Muon_Mu22OR_eta2p1_eff.root"]
self["IdentificationEfficiencyData"] = ["0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_Run2016_Muon_IdIso_IsoLt0p15_2016BtoH_eff.root"]
self["IdentificationEfficiencyMc"] = ["0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_MC_Muon_IdIso_IsoLt0p15_2016BtoH_eff.root"]
self["TriggerEfficiencyMode"] = "multiply_weights"
self["IdentificationEfficiencyMode"] = "multiply_weights"
self["EleTauFakeRateWeightFile"] = [
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/scaleFactorWeights/antiElectronDiscrMVA6FakeRateWeights.root"
]
self["TauTauRestFrameReco"] = "collinear_approximation"
self["InvalidateNonMatchingElectrons"] = False
self["InvalidateNonMatchingMuons"] = True
self["InvalidateNonMatchingTaus"] = True
self["InvalidateNonMatchingJets"] = False
self["UseUWGenMatching"] = "true"
self["DirectIso"] = True
self["OSChargeLeptons"] = True
self["SvfitKappaParameter"] = 4.0
self["AddGenMatchedParticles"] = True
self["AddGenMatchedTaus"] = True
self["AddGenMatchedTauJets"] = True
self["BranchGenMatchedMuons"] = True
self["BranchGenMatchedTaus"] = True
if re.search("Run2016|Spring16|Summer16|Embedding2016", nickname):
#settings for jetstotaufakesproducer
self["FakeFaktorFile"] = "root://grid-vo-cms.physik.rwth-aachen.de:1094//store/user/jdegens/higgs-kit/ff/2016/mt/fakeFactors_20180831_tight.root"
self["FakeFactorMethod"] = "cp2016"
self["FakeFactorRooWorkspaceFunction"] = [
"w_fracs:w_mt_fracs",
"qcd_fracs:qcd_mt_fracs",
"ttbar_fracs:ttbar_mt_fracs"
]
self["FakeFactorFractionsRooWorkspaceFile"] = "$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/fakeFactorWeights/rooworkspacefractions/ff_fracs_new_2016.root"
self["Consumers"] = [
"KappaLambdaNtupleConsumer",
"cutflow_histogram",
"SvfitCacheConsumer",
"#CutFlowTreeConsumer",
"#KappaMuonsConsumer",
"#KappaTausConsumer",
"#KappaTaggedJetsConsumer",
"#RunTimeConsumer",
"#PrintEventsConsumer",
"#PrintGenParticleDecayTreeConsumer"
]
quantities_dict = quantities.quantities()
quantities_dict.build_quantities(nickname, channel = self["Channel"])
quantities_dict["Quantities"] += [
"nVetoMuons",
"nLooseElectrons",
"nLooseMuons",
"nDiTauPairCandidates",
"nAllDiTauPairCandidates"
] #Check if they are used everywhere if so make this the start list
#put rest of quantities in CPQuantities.py?
if re.search("(DY.?JetsTo(LL|TauTau)).*(?=(Spring16|Summer16))", nickname): #the same as tt
# quantities_dict["Quantities"] += quantities_dict.lheWeightsDYQuantities()
quantities_dict["Quantities"] += [
"tauSpinnerValidOutputs",
"tauSpinnerPolarisation",
"trg_singlemuon",
"trg_mutaucross",
"triggerWeight_singleMu_1",
"triggerWeight_muTauCross_1",
"triggerWeight_muTauCross_2"
]
elif re.search("(DY.?JetsTo(LL|TauTau)).*(?=Fall15)", nickname):
quantities_dict["Quantities"] += [
"tauSpinnerValidOutputs",
"tauSpinnerPolarisation",
]
elif re.search("(HToTauTau|H2JetsToTauTau|Higgs).*(?=(Spring16|Summer16))", nickname):
quantities_dict["Quantities"] += [
"trg_singlemuon",
"trg_mutaucross",
"triggerWeight_singleMu_1",
"triggerWeight_muTauCross_1",
"triggerWeight_muTauCross_2"
] #commented out: "#tauPolarisationTMVA", "#tauPolarisationSKLEARN",
elif re.search("Embedding2016", nickname):
quantities_dict["Quantities"] += quantities_dict.genQuantities()
quantities_dict["Quantities"] += [
"trg_singlemuon",
"triggerWeight_doublemu_1",
"isoweight_1",
"idweight_1",
"triggerWeight_singleMu_1",
"trg_mutaucross",
"triggerWeight_muTauCross_2",
"MuTau_TauLeg_EmbeddedEfficiencyWeight_2",
"MuTau_TauLeg_DataEfficiencyWeight_2"
]
elif re.search("(LFV).*(?=(Spring16|Summer16))", nickname):
quantities_dict["Quantities"] += [
"triggerWeight_singleMu_1",
"triggerWeight_muTauCross_1",
"triggerWeight_muTauCross_2",
"jetCorrectionWeight"
]
elif re.search("Run2016", nickname):
quantities_dict["Quantities"] += [
"trg_singlemuon",
"trg_mutaucross",
"triggerWeight_singleMu_1",
"triggerWeight_muTauCross_1",
"triggerWeight_muTauCross_2"
]
elif re.search("Run2015", nickname):
pass
elif re.search("^((?!(DY.?JetsTo(LL|TauTau)|HToTauTau|H2JetsToTauTau|Higgs)).)*Fall15", nickname):
pass
elif re.search("(HToTauTau|H2JetsToTauTau|Higgs).*(?=Fall15)", nickname):
pass
else:
quantities_dict["Quantities"] += [
"trg_singlemuon",
"trg_mutaucross",
"triggerWeight_singleMu_1",
"triggerWeight_muTauCross_1",
"triggerWeight_muTauCross_2"
]
self.update(copy.deepcopy(quantities_dict))
self["Processors"] = [
"producer:HltProducer",
"filter:HltFilter",
"producer:MetSelector",
################## special for each channel in et mt tt em.
"producer:ValidMuonsProducer",
"filter:ValidMuonsFilter",
"producer:MuonTriggerMatchingProducer",
"filter:MinMuonsCountFilter",
"producer:ValidElectronsProducer",
"producer:ValidTausProducer",
"filter:ValidTausFilter",
"producer:TauTriggerMatchingProducer",
"filter:MinTausCountFilter",
"producer:ValidMTPairCandidatesProducer",
"filter:ValidDiTauPairCandidatesFilter",
"producer:HttValidVetoMuonsProducer",
"producer:HttValidLooseElectronsProducer",
"producer:HttValidLooseMuonsProducer",
##################
"producer:Run2DecayChannelProducer",
"producer:DiVetoMuonVetoProducer",
"producer:TaggedJetCorrectionsProducer",
"producer:ValidTaggedJetsProducer",
"producer:ValidBTaggedJetsProducer",
"producer:TauTauRestFrameSelector",
"producer:DiLeptonQuantitiesProducer",
"producer:DiJetQuantitiesProducer",
]
if re.search("(Spring16|Summer16|Run2016|Embedding2016)", nickname):
self["Processors"] += ["producer:RefitVertexSelector"]
self["Processors"] += ["producer:RecoTauCPProducer"]
self["Processors"] += ["producer:PolarisationQuantitiesSvfitProducer"]
self["Processors"] += ["producer:PolarisationQuantitiesSvfitM91Producer"]
self["Processors"] += ["producer:PolarisationQuantitiesSimpleFitProducer"]
self["Processors"] += ["producer:TaggedJetUncertaintyShiftProducer"]
if re.search("(Run2016|Embedding2016)", nickname):
self["Processors"] += ["producer:JetToTauFakesProducer"]
#self["Processors"] += ["producer:MVATestMethodsProducer"]
self["Processors"] += ["producer:SimpleFitProducer"]
#self["Processors"] += ["producer:GenMatchedTauCPProducer"]
self["Processors"] += ["producer:GenMatchedPolarisationQuantitiesProducer"]
self["Processors"] += ["filter:MinimalPlotlevelFilter"]
self["Processors"] += ["producer:SvfitProducer"]
self["Processors"] += ["producer:SvfitM91Producer"]
# self["Processors"] += ["producer:SvfitM125Producer"]
self["Processors"] += ["producer:MELAProducer"]
# self["Processors"] += ["producer:MELAM125Producer"]
if re.search("Embedding2016", nickname):
self["Processors"] += ["producer:RooWorkspaceWeightProducer"] #do this properly after checking
self["Processors"] += ["producer:EmbeddingWeightProducer"]
self["Processors"] += ["producer:MuTauTriggerWeightProducer"]
self["Processors"] += ["producer:TauCorrectionsProducer"]
#self["Processors"] += ["producer:TauPolarisationTmvaReader"]
else:
self["Processors"] += ["producer:TauCorrectionsProducer"]
self["Processors"] += ["producer:RooWorkspaceWeightProducer"]
self["Processors"] += ["producer:MuTauTriggerWeightProducer"]
self["Processors"] += ["producer:MetCorrector"]
self["Processors"] += [
"producer:SimpleEleTauFakeRateWeightProducer",
"producer:SimpleMuTauFakeRateWeightProducer"
]
if re.search("(LFV).*(?=(Spring16|Summer16))", nickname):
self["Processors"] += [
"producer:ZPtReweightProducer"
#"filter:MinimalPlotlevelFilter"
]
self["Processors"] += ["producer:GenMatchedTauCPProducer"]
self["Processors"] += ["producer:LFVJetCorrection2016Producer"]
else:
self["Processors"] += ["filter:MinimalPlotlevelFilter"]
self["Processors"] += ["producer:SvfitProducer"]
self["Processors"] += ["producer:SvfitM91Producer"]
# self["Processors"] += ["producer:SvfitM125Producer"]
self["Processors"] += ["producer:MELAProducer"]
# self["Processors"] += ["producer:MELAM125Producer"]
if re.search("(DY.?JetsTo(LL|TauTau)).*(?=(Spring16|Summer16))", nickname):
self["Processors"] += ["producer:JetToTauFakesProducer"]
self["Processors"] += ["producer:ZPtReweightProducer"]
self["Processors"] += ["producer:SimpleFitProducer"]
self["Processors"] += ["producer:GenMatchedTauCPProducer"]
self["Processors"] += ["producer:GenMatchedPolarisationQuantitiesProducer"]
#self["Processors"] += ["producer:TauPolarisationTmvaReader"]
elif re.search("(HToTauTau|H2JetsToTauTau|Higgs).*(?=(Spring16|Summer16))", nickname):
self["Processors"] += [
"producer:TopPtReweightingProducer"
]
#self["Processors"] += ["producer:MVATestMethodsProducer"]
self["Processors"] += ["producer:GenMatchedTauCPProducer"]
self["Processors"] += ["producer:GenMatchedPolarisationQuantitiesProducer"] # I put this on in to create the same config as json but i dont think it is needed
#self["Processors"] += ["producer:TauPolarisationTmvaReader"]
#self["Processors"] += ["producer:MadGraphReweightingProducer"]
else:
self["Processors"] += ["producer:JetToTauFakesProducer"]
self["Processors"] += [ "producer:TopPtReweightingProducer"]
#self["Processors"] += ["producer:MVATestMethodsProducer"]
self["Processors"] += ["producer:SimpleFitProducer"]
self["Processors"] += ["producer:GenMatchedPolarisationQuantitiesProducer"]
#self["Processors"] += ["producer:TauPolarisationTmvaReader"]
elif re.search("(Fall15|Run2015)", nickname):
#self["Processors"] += ["producer:RefitVertexSelector"]
self["Processors"] += ["producer:RecoTauCPProducer"]
self["Processors"] += ["producer:PolarisationQuantitiesSvfitProducer"]
self["Processors"] += ["producer:PolarisationQuantitiesSvfitM91Producer"]
self["Processors"] += ["producer:PolarisationQuantitiesSimpleFitProducer"]
self["Processors"] += ["filter:MinimalPlotlevelFilter"]
self["Processors"] += ["producer:MvaMetSelector"]
if re.search("Run2015", nickname):
#self["Processors"] += ["producer:SimpleFitProducer"]
self["Processors"] += ["producer:GenMatchedPolarisationQuantitiesProducer"]
#self["Processors"] += ["producer:SvfitProducer"]
#self["Processors"] += ["producer:SvfitM91Producer"]
#self["Processors"] += ["producer:SvfitM125Producer"]
#self["Processors"] += ["producer:MELAProducer"]
#self["Processors"] += ["producer:MELAM125Producer"]
else:
self["Processors"] += ["producer:MvaMetCorrector"]
self["Processors"] += ["producer:MetCorrector"]
self["Processors"] += ["producer:TauCorrectionsProducer"]
self["Processors"] += ["producer:TriggerWeightProducer",
"producer:IdentificationWeightProducer",
"producer:EleTauFakeRateWeightProducer"
]
if re.search("(DY.?JetsTo(LL|TauTau)).*(?=Fall15)", nickname):
self["Processors"] += ["producer:ZPtReweightProducer"]
#self["Processors"] += ["producer:SimpleFitProducer"]
self["Processors"] += ["producer:GenMatchedTauCPProducer"]
self["Processors"] += ["producer:GenMatchedPolarisationQuantitiesProducer"]
elif re.search("(HToTauTau|H2JetsToTauTau|Higgs).*(?=Fall15)",nickname):
self["Processors"] += ["producer:SvfitProducer"]
self["Processors"] += ["producer:SvfitM91Producer"]
# self["Processors"] += ["producer:SvfitM125Producer"]
self["Processors"] += ["producer:MELAProducer"]
# self["Processors"] += ["producer:MELAM125Producer"]
elif re.search("^((?!(DY.?JetsTo(LL|TauTau)|HToTauTau|H2JetsToTauTau|Higgs)).)*Fall15", nickname):
self["Processors"] += ["producer:SvfitProducer"]
self["Processors"] += ["producer:SvfitM91Producer"]
# self["Processors"] += ["producer:SvfitM125Producer"]
self["Processors"] += ["producer:MELAProducer"]
# self["Processors"] += ["producer:MELAM125Producer"]
self["Processors"] += ["producer:EventWeightProducer"]
self["Processors"] = list(set(self["Processors"]))
processorOrderingkey = processorOrdering.processors_ordered(channel = self["Channel"])
ordered_processors = processorOrderingkey.order_processors(self["Processors"])
self["Processors"] = copy.deepcopy(ordered_processors)
def build_config(self, nickname, *args, **kwargs): #Maybe change this the arguments to process/year and DATA/MC
"""
"include" : [
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsLooseElectronID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsLooseMuonID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsElectronID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsVetoMuonID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsMuonID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsTauID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsJEC.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsJECUncertaintySplit.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsJetID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsBTaggedJetID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsSvfit.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsMinimalPlotlevelFilter_mm.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Includes/settingsMVATestMethods.json"
],
"""
ElectronID_config = sEID.Electron_ID(nickname)
ElectronID_config.looseElectron_ID(nickname) #append the config for loose electron ID because it is used
self.update(ElectronID_config)
MuonID_config = sMID.Muon_ID(nickname)
MuonID_config.looseMuon_ID(nickname) #append the config for loose Muon ID because it is used
MuonID_config.vetoMuon_ID(nickname)
self.update(MuonID_config)
TauID_config = sTID.Tau_ID(nickname) #here loose is not appended since loose tau ID is not used
self.update(TauID_config)
JEC_config = sJEC.JEC(nickname) #Is allready in baseconfig, for now leave it in; possibly remove it
self.update(JEC_config)
JECUncertaintySplit_config = sJECUS.JECUncertaintySplit(nickname)
self.update(JECUncertaintySplit_config)
JetID_config = sJID.Jet_ID(nickname)
self.update(JetID_config)
BTaggedJet_config = sBTJID.BTaggedJet_ID(nickname)
self.update(BTaggedJet_config)
Svfit_config = sSvfit.Svfit(nickname)
self.update(Svfit_config)
MinimalPlotlevelFilter_config = sMPlF.MinimalPlotlevelFilter()
MinimalPlotlevelFilter_config.mm()
self.update(MinimalPlotlevelFilter_config)
MVATestMethods_config = sMVATM.MVATestMethods()
self.update(MVATestMethods_config)
self["Channel"] = "MM"
self["MinNMuons"] = 2
self["HltPaths_comment"] = "The first path must be the single lepton trigger. A corresponding Pt cut is implemented in the Run2DecayChannelProducer."
self["HltPaths"] = [
"HLT_IsoMu24",
"HLT_IsoTkMu24"
]
self["NoHltFiltering"] = False
self["DiTauPairLepton1LowerPtCuts"] = [
"HLT_IsoMu24_v:25.0",
"HLT_IsoTkMu24_v:25.0"
]
if re.search("(Fall15MiniAODv2|Run2015D|Embedding2015)", nickname):
self["HltPaths"] =[
"HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_DZ",
"HLT_Mu17_TrkIsoVVL_TkMu8_TrkIsoVVL_DZ"
]
self["DiTauPairLepton1LowerPtCuts"] = [
"HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_DZ_v:20.0",
"HLT_Mu17_TrkIsoVVL_TkMu8_TrkIsoVVL_DZ_v:20.0"
]
self["DiTauPairLepton2LowerPtCuts"] = [
"HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_DZ_v:10.0",
"HLT_Mu17_TrkIsoVVL_TkMu8_TrkIsoVVL_DZ_v:10.0"
]
elif re.search("Embedding(2016|MC)", nickname):
self["HltPaths"] = [""]
self["NoHltFiltering"] = True
self["TauID"] = "TauIDRecommendation13TeV"
self["TauUseOldDMs"] = False
self["MuonLowerPtCuts"] = [
"10.0"
]
self["MuonUpperAbsEtaCuts"] = [
"2.4"
]
self["DiTauPairMinDeltaRCut"] = 0.3
self["DeltaRTriggerMatchingMuons"] = 0.1
if re.search("Run2016|Spring16|Summer16", nickname):
self["DiTauPairHltPathsWithoutCommonMatchRequired"] = [
"HLT_IsoMu24_v",
"HLT_IsoTkMu24_v"
]
self["DiTauPairNoHLT"] = False
self["EventWeight"] = "eventWeight"
self["RooWorkspace"] = "$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/scaleFactorWeights/htt_scalefactors_sm_moriond_v2.root"
self["RooWorkspaceWeightNames"] = [
"0:idIsoWeight",
"1:idIsoWeight"
]
self["RooWorkspaceObjectNames"] = [
"0:m_idiso0p15_desy_ratio",
"1:m_idiso0p15_desy_ratio"
]
self["RooWorkspaceObjectArguments"] = [
"0:m_pt,m_eta",
"1:m_pt,m_eta"
]
self["MuMuTriggerWeightWorkspace"] = "$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/scaleFactorWeights/htt_scalefactors_sm_moriond_v2.root"
self["MuMuTriggerWeightWorkspaceWeightNames"] = [
"0:triggerWeight",
"1:triggerWeight"
]
self["MuMuTriggerWeightWorkspaceObjectNames"] = [
"0:m_trgIsoMu24orTkIsoMu24_desy_ratio",
"1:m_trgIsoMu24orTkIsoMu24_desy_ratio"
]
self["MuMuTriggerWeightWorkspaceObjectArguments"] = [
"0:m_pt,m_eta",
"1:m_pt,m_eta"
]
if re.search("(Fall15MiniAODv2|Run2015D|Embedding2015)", nickname):
self["TriggerEfficiencyData"] = [
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_Run2015_Muon_Mu8_fall15.root",
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_Run2015_Muon_Mu17_fall15.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_Run2015_Muon_Mu8_fall15.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_Run2015_Muon_Mu17_fall15.root"
]
self["TriggerEfficiencyMc"] = [
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_MC_Muon_Mu8_fall15.root",
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_MC_Muon_Mu17_fall15.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_MC_Muon_Mu8_fall15.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_MC_Muon_Mu17_fall15.root"
]
self["IdentificationEfficiencyData"] = [
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_Run2015_Muon_IdIso0p15_fall15.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_Run2015_Muon_IdIso0p15_fall15.root"
]
self["IdentificationEfficiencyMc"] = [
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_MC_Muon_IdIso0p15_fall15.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_MC_Muon_IdIso0p15_fall15.root"
]
else:
#self["TriggerEfficiencyData"] = not given
self["TriggerEfficiencyMc"] = [
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_dummy.root",
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_dummy.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_dummy.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_dummy.root"
]
self["IdentificationEfficiencyData"] = [
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_Run2016_Muon_IdIso_IsoLt0p15_2016BtoH_eff.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_Run2016_Muon_IdIso_IsoLt0p15_2016BtoH_eff.root"
]
self["IdentificationEfficiencyMc"] = [
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_MC_Muon_IdIso_IsoLt0p15_2016BtoH_eff.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_MC_Muon_IdIso_IsoLt0p15_2016BtoH_eff.root"
]
self["TriggerEfficiencyMode"] = "correlate_triggers"
self["IdentificationEfficiencyMode"] = "multiply_weights"
self["TauTauRestFrameReco"] = "collinear_approximation"
if re.search("Run2016|Spring16|Summer16", nickname):
self["MuonTriggerFilterNames"] = [
"HLT_IsoMu24_v:hltL3crIsoL1sMu22L1f0L2f10QL3f24QL3trkIsoFiltered0p09",
"HLT_IsoTkMu24_v:hltL3fL1sMu22L1f0Tkf24QL3trkIsoFiltered0p09"
]
if re.search("(Fall15MiniAODv2|Run2015D|Embedding2015)", nickname):
self["MuonTriggerFilterNames"] = [
"HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_DZ_v:hltDiMuonGlb17Glb8RelTrkIsoFiltered0p4DzFiltered0p2",
"HLT_Mu17_TrkIsoVVL_TkMu8_TrkIsoVVL_DZ_v:hltDiMuonGlb17Trk8RelTrkIsoFiltered0p4DzFiltered0p2"
]
self["InvalidateNonMatchingElectrons"] = False
self["InvalidateNonMatchingMuons"] = True
self["InvalidateNonMatchingTaus"] = True
self["InvalidateNonMatchingJets"] = False
self["DirectIso"] = True
self["AddGenMatchedParticles"] = True
self["BranchGenMatchedMuons"] = True
self["Consumers"] = [
"KappaLambdaNtupleConsumer",
"cutflow_histogram",
"#PrintHltConsumer",
"#SvfitCacheConsumer",
"#CutFlowTreeConsumer",
"#KappaMuonsConsumer",
"#KappaTausConsumer",
"#KappaTaggedJetsConsumer",
"#RunTimeConsumer",
"#PrintEventsConsumer"
]
quantities_dict = quantities.quantities()
quantities_dict["Quantities"] += quantities_dict.fourVectorQuantities()
quantities_dict["Quantities"] += quantities_dict.syncQuantities()
quantities_dict["Quantities"] += iq.weightQuantities()
quantities_dict["Quantities"] += iq.SingleTauQuantities()
quantities_dict["Quantities"] += [
"nLooseElectrons",
"nLooseMuons",
"nDiTauPairCandidates",
"nAllDiTauPairCandidates"
]
if re.search("(DY.?JetsToLL).*(?=(Spring16|Summer16))", nickname):
quantities_dict["Quantities"] += quantities_dict.genMatchedCPQuantities()
quantities_dict["Quantities"] += quantities_dict.recoCPQuantities()
quantities_dict["Quantities"] += quantities_dict.melaQuantities()
quantities_dict["Quantities"] += quantities_dict.melaQuantities()
elif re.search("(LFV).*(?=(Spring16|Summer16))", nickname):
quantities_dict["Quantities"] += quantities_dict.genQuantitiesZ()
self.update(copy.deepcopy(quantities_dict))
self["OSChargeLeptons"] = True
if re.search("(Fall15MiniAODv2|Run2015)", nickname):
self["MuonEnergyCorrection"] = "rochcorr2015"
self["MuonRochesterCorrectionsFile"] = "$CMSSW_BASE/src/Artus/KappaAnalysis/data/rochcorr/RoccoR_13tev_2015.txt"
else:
self["MuonEnergyCorrection"] = "rochcorr2016"
self["MuonRochesterCorrectionsFile"] = "$CMSSW_BASE/src/Artus/KappaAnalysis/data/rochcorr2016"
if re.search("(DY.?JetsToLL|EWKZ2Jets).*(?=(Spring16|Summer16))",nickname):
self["Processors"] = [
"producer:HltProducer",
"filter:HltFilter",
"producer:MetSelector",
"producer:MuonCorrectionsProducer",
"producer:ValidMuonsProducer",
"filter:ValidMuonsFilter",
"producer:MuonTriggerMatchingProducer",
"filter:MinMuonsCountFilter",
"producer:ValidElectronsProducer",
"producer:ValidTausProducer",
"producer:ValidMMPairCandidatesProducer",
"filter:ValidDiTauPairCandidatesFilter",
"producer:HttValidLooseElectronsProducer",
"producer:HttValidLooseMuonsProducer",
"producer:Run2DecayChannelProducer",
"producer:TaggedJetCorrectionsProducer",
"producer:ValidTaggedJetsProducer",
"producer:ValidBTaggedJetsProducer",
"producer:TaggedJetUncertaintyShiftProducer",
"producer:MetCorrector",
"producer:DiLeptonQuantitiesProducer",
"producer:TauTauRestFrameSelector",
"producer:DiJetQuantitiesProducer",
"producer:ZPtReweightProducer",
"filter:MinimalPlotlevelFilter"
]
self["Processors"] += ["#producer:MVATestMethodsProducer"]
self["Processors"] += ["#producer:SvfitProducer"]
self["Processors"] += ["producer:MELAProducer"]
self["Processors"] += ["producer:MELAM125Producer"]
self["Processors"] += ["#producer:TriggerWeightProducer"]
self["Processors"] += ["producer:IdentificationWeightProducer"]
self["Processors"] += ["#producer:RooWorkspaceWeightProducer"]
self["Processors"] += ["producer:MuMuTriggerWeightProducer"]
self["Processors"] += ["producer:GenMatchedTauCPProducer"]
self["Processors"] += ["producer:RefitVertexSelector"]
self["Processors"] += ["producer:RecoTauCPProducer"]
self["Processors"] += ["producer:EventWeightProducer"]
elif re.search("^((?!(DY.?JetsToLL|EWKZ2Jets)).)*Fall15", nickname):
self["Processors"] = [
"producer:HltProducer",
"filter:HltFilter",
"producer:MetSelector",
"producer:MuonCorrectionsProducer",
"producer:ValidMuonsProducer",
"filter:ValidMuonsFilter",
"producer:MuonTriggerMatchingProducer",
"filter:MinMuonsCountFilter",
"producer:ValidElectronsProducer",
"producer:ValidTausProducer",
"producer:ValidMMPairCandidatesProducer",
"filter:ValidDiTauPairCandidatesFilter",
"producer:HttValidLooseElectronsProducer",
"producer:HttValidLooseMuonsProducer",
"producer:Run2DecayChannelProducer",
"producer:MvaMetSelector",
"producer:TaggedJetCorrectionsProducer",
"producer:ValidTaggedJetsProducer",
"producer:ValidBTaggedJetsProducer",
"#producer:TaggedJetUncertaintyShiftProducer",
"producer:MetCorrector",
"producer:MvaMetCorrector",
"producer:TauTauRestFrameSelector",
"producer:DiLeptonQuantitiesProducer",
"producer:DiJetQuantitiesProducer",
"filter:MinimalPlotlevelFilter"
]
self["Processors"] += ["#producer:MVATestMethodsProducer"]
self["Processors"] += ["#producer:SvfitProducer"]
self["Processors"] += ["producer:MELAProducer"]
self["Processors"] += ["producer:MELAM125Producer"]
self["Processors"] += ["producer:RefitVertexSelector"]
self["Processors"] += ["producer:RecoTauCPProducer"]
self["Processors"] += ["producer:TriggerWeightProducer"]
self["Processors"] += ["producer:IdentificationWeightProducer"]
self["Processors"] += ["producer:EventWeightProducer"]
elif re.search("(DY.?JetsToLL|EWKZ2Jets).*(?=Fall15)", nickname):
self["Processors"] = [
"producer:HltProducer",
"filter:HltFilter",
"producer:MetSelector",
"producer:MuonCorrectionsProducer",
"producer:ValidMuonsProducer",
"filter:ValidMuonsFilter",
"producer:MuonTriggerMatchingProducer",
"filter:MinMuonsCountFilter",
"producer:ValidElectronsProducer",
"producer:ValidTausProducer",
"producer:ValidMMPairCandidatesProducer",
"filter:ValidDiTauPairCandidatesFilter",
"producer:HttValidLooseElectronsProducer",
"producer:HttValidLooseMuonsProducer",
"producer:Run2DecayChannelProducer",
"producer:MvaMetSelector",
"producer:TaggedJetCorrectionsProducer",
"producer:ValidTaggedJetsProducer",
"producer:ValidBTaggedJetsProducer",
"#producer:TaggedJetUncertaintyShiftProducer",
"producer:MetCorrector",
"producer:MvaMetCorrector",
"producer:TauTauRestFrameSelector",
"producer:DiLeptonQuantitiesProducer",
"producer:DiJetQuantitiesProducer",
"producer:ZPtReweightProducer",
"filter:MinimalPlotlevelFilter"
]
self["Processors"] += ["#producer:MVATestMethodsProducer"]
self["Processors"] += ["#producer:SvfitProducer"]
self["Processors"] += ["producer:TriggerWeightProducer"]
self["Processors"] += ["producer:IdentificationWeightProducer"]
self["Processors"] += ["producer:EventWeightProducer"]
elif re.search("Run2016", nickname):
self["Processors"] = [
"producer:HltProducer",
"filter:HltFilter",
"producer:MetSelector",
"producer:MuonCorrectionsProducer",
"producer:ValidMuonsProducer",
"filter:ValidMuonsFilter",
"producer:MuonTriggerMatchingProducer",
"filter:MinMuonsCountFilter",
"producer:ValidElectronsProducer",
"producer:ValidTausProducer",
"producer:ValidMMPairCandidatesProducer",
"filter:ValidDiTauPairCandidatesFilter",
"producer:HttValidLooseElectronsProducer",
"producer:HttValidLooseMuonsProducer",
"producer:Run2DecayChannelProducer",
"producer:TaggedJetCorrectionsProducer",
"producer:ValidTaggedJetsProducer",
"producer:ValidBTaggedJetsProducer",
"producer:TaggedJetUncertaintyShiftProducer",
"producer:TauTauRestFrameSelector",
"producer:DiLeptonQuantitiesProducer",
"producer:DiJetQuantitiesProducer",
"filter:MinimalPlotlevelFilter"
]
self["Processors"] += ["#producer:MVATestMethodsProducer"]
self["Processors"] += ["#producer:SvfitProducer"]
self["Processors"] += ["producer:MELAProducer"]
self["Processors"] += ["producer:MELAM125Producer"]
self["Processors"] += ["producer:RefitVertexSelector"]
self["Processors"] += ["producer:RecoTauCPProducer"]
self["Processors"] += ["producer:EventWeightProducer"]
elif re.search("Run2015", nickname):
self["Processors"] = [
"producer:HltProducer",
"filter:HltFilter",
"producer:MetSelector",
"producer:MuonCorrectionsProducer",
"producer:ValidMuonsProducer",
"filter:ValidMuonsFilter",
"producer:MuonTriggerMatchingProducer",
"filter:MinMuonsCountFilter",
"producer:ValidElectronsProducer",
"producer:ValidTausProducer",
"producer:ValidMMPairCandidatesProducer",
"filter:ValidDiTauPairCandidatesFilter",
"producer:HttValidLooseElectronsProducer",
"producer:HttValidLooseMuonsProducer",
"producer:Run2DecayChannelProducer",
"producer:MvaMetSelector",
"producer:TaggedJetCorrectionsProducer",
"producer:ValidTaggedJetsProducer",
"producer:ValidBTaggedJetsProducer",
"#producer:TaggedJetUncertaintyShiftProducer",
"producer:TauTauRestFrameSelector",
"producer:DiLeptonQuantitiesProducer",
"producer:DiJetQuantitiesProducer",
"filter:MinimalPlotlevelFilter"
]
self["Processors"] += ["#producer:MVATestMethodsProducer"]
self["Processors"] += ["#producer:SvfitProducer"]
self["Processors"] += ["producer:EventWeightProducer"]
elif re.search("(LFV).*(?=(Spring16|Summer16))", nickname):
self["Processors"] = [
"producer:HltProducer",
"filter:HltFilter",
"producer:MetSelector",
"producer:MuonCorrectionsProducer",
"producer:ValidMuonsProducer",
"filter:ValidMuonsFilter",
"producer:MuonTriggerMatchingProducer",
"filter:MinMuonsCountFilter",
"producer:ValidElectronsProducer",
"producer:ValidTausProducer",
"producer:ValidMMPairCandidatesProducer",
"filter:ValidDiTauPairCandidatesFilter",
"producer:HttValidLooseElectronsProducer",
"producer:HttValidLooseMuonsProducer",
"producer:Run2DecayChannelProducer",
"producer:TaggedJetCorrectionsProducer",
"producer:ValidTaggedJetsProducer",
"producer:ValidBTaggedJetsProducer",
"producer:TaggedJetUncertaintyShiftProducer",
"producer:MetCorrector",
"producer:DiLeptonQuantitiesProducer",
"producer:TauTauRestFrameSelector",
"producer:DiJetQuantitiesProducer",
"producer:ZPtReweightProducer",
"#filter:MinimalPlotlevelFilter"
]
self["Processors"] += ["#producer:MVATestMethodsProducer"]
self["Processors"] += ["#producer:SvfitProducer"]
self["Processors"] += ["#producer:TriggerWeightProducer"]
self["Processors"] += ["producer:IdentificationWeightProducer"]
self["Processors"] += ["#producer:RooWorkspaceWeightProducer"]
self["Processors"] += ["producer:MuMuTriggerWeightProducer"]
self["Processors"] += ["producer:EventWeightProducer"]
else:
self["Processors"] = [
"producer:HltProducer",
"filter:HltFilter",
"producer:MetSelector",
"producer:MuonCorrectionsProducer",
"producer:ValidMuonsProducer",
"filter:ValidMuonsFilter",
"producer:MuonTriggerMatchingProducer",
"filter:MinMuonsCountFilter",
"producer:ValidElectronsProducer",
"producer:ValidTausProducer",
"producer:ValidMMPairCandidatesProducer",
"filter:ValidDiTauPairCandidatesFilter",
"producer:HttValidLooseElectronsProducer",
"producer:HttValidLooseMuonsProducer",
"producer:Run2DecayChannelProducer",
"producer:TaggedJetCorrectionsProducer",
"producer:ValidTaggedJetsProducer",
"producer:ValidBTaggedJetsProducer",
"producer:TaggedJetUncertaintyShiftProducer",
"producer:MetCorrector",
"producer:TauTauRestFrameSelector",
"producer:DiLeptonQuantitiesProducer",
"producer:DiJetQuantitiesProducer",
"producer:TopPtReweightingProducer",
"filter:MinimalPlotlevelFilter"
]
self["Processors"] += ["#producer:MVATestMethodsProducer"]
self["Processors"] += ["#producer:SvfitProducer"]
self["Processors"] += ["producer:MELAProducer"]
self["Processors"] += ["producer:MELAM125Producer"]
self["Processors"] += ["#producer:TriggerWeightProducer"]
self["Processors"] += ["producer:IdentificationWeightProducer"]
self["Processors"] += ["#producer:RooWorkspaceWeightProducer"]
self["Processors"] += ["producer:MuMuTriggerWeightProducer"]
self["Processors"] += ["producer:RefitVertexSelector"]
self["Processors"] += ["producer:RecoTauCPProducer"]
self["Processors"] += ["producer:EventWeightProducer"]
def build_config(self, nickname, *args, **kwargs):
JEC_config = sJEC.JEC(nickname) #Is allready in baseconfig, for now leave it in; possibly remove it
self.update(JEC_config)
JetID_config = sJID.Jet_ID(nickname)
self.update(JetID_config)
BTaggedJet_config = sBTJID.BTaggedJet_ID(nickname)
self.update(BTaggedJet_config)
self["EventWeight"] = "eventWeight"
self["Consumers"] = [
"cutflow_histogram",
"KappaLambdaNtupleConsumer",
"#RunTimeConsumer",
"#PrintEventsConsumer",
"#PrintGenParticleDecayTreeConsumer"
]
quantities_dict = quantities.quantities()
quantities_dict["Quantities"] += quantities_dict.weightQuantities()
quantities_dict["Quantities"] += [
"run",
"lumi",
"event",
]
if re.search("DY.?JetsToLL", nickname):
quantities_dict["Quantities"] += quantities_dict.genQuantities()
quantities_dict["Quantities"] += quantities_dict.genCPQuantities()
quantities_dict["Quantities"] += quantities_dict.genQuantitiesZ()
quantities_dict["Quantities"] += [
"genbosonmass",
"tauSpinnerValidOutputs",
"tauSpinnerPolarisation",
"tauSpinnerPdgIdTau_1",
"tauSpinnerPdgIdTau_2",
"tauSpinnerETau_1",
"tauSpinnerETau_2",
"tauSpinnerEPi_1",
"tauSpinnerEPi_2",
"polarisationOmegaGen_1",
"polarisationOmegaGen_2",
"polarisationOmegaBarGen_1",
"polarisationOmegaBarGen_2",
"polarisationOmegaVisibleGen_1",
"polarisationOmegaVisibleGen_2",
"polarisationCombinedOmegaGen",
"polarisationCombinedOmegaBarGen",
"polarisationCombinedOmegaVisibleGen",
]
elif re.search("LFV", nickname):
quantities_dict["Quantities"] += quantities_dict.genCPQuantities()
quantities_dict["Quantities"] += quantities_dict.genQuantitiesZ()
elif re.search("HToTauTau|H2JetsToTauTau|Higgs",nickname):
quantities_dict["Quantities"] += quantities_dict.genQuantities()
quantities_dict["Quantities"] += quantities_dict.genHiggsQuantities()
quantities_dict["Quantities"] += quantities_dict.genCPQuantities()
quantities_dict["Quantities"] += [
"nJets",
"nJets30",
"leadingJetLV",
"trailingJetLV",
"thirdJetLV",
"fourthJetLV",
"fifthJetLV",
"sixthJetLV",
"diJetDeltaPhi"
]
elif re.search("Embedding2016", nickname):
quantities_dict["Quantities"] += [
"tauSpinnerValidOutputs",
"tauSpinnerPolarisation",
]
self.update(copy.deepcopy(quantities_dict))
self["Quantities"]=list(set(self["Quantities"])) #removes dublicates from list by making it a set and then again a list
if re.search("HToTauTau|H2JetsToTauTau|Higgs",nickname):
self["Processors"] = [
"producer:TaggedJetCorrectionsProducer",
"producer:ValidTaggedJetsProducer",
"#producer:ValidBTaggedJetsProducer",
"producer:DiJetQuantitiesProducer"
]
elif re.search("DY.?JetsToLL", nickname):
self["Processors"] = [
"producer:GenPolarisationQuantitiesProducer",
]
else:
self["Processors"] = []
def build_config(
self, nickname, *args, **kwargs
): #Maybe change this the arguments to process/year and DATA/MC
ElectronID_config = sEID.Electron_ID(nickname)
ElectronID_config.looseElectron_ID(
nickname
) #append the config for loose electron ID because it is used
self.update(ElectronID_config)
MuonID_config = sMID.Muon_ID(nickname)
MuonID_config.looseMuon_ID(
nickname) #append the config for loose Muon ID because it is used
self.update(MuonID_config)
TauID_config = sTID.Tau_ID(
nickname
) #here loose is not appended since loose tau ID is not used
self.update(TauID_config)
JEC_config = sJEC.JEC(
nickname
) #Is allready in baseconfig, for now leave it in; possibly remove it
self.update(JEC_config)
JECUncertaintySplit_config = sJECUS.JECUncertaintySplit(nickname)
self.update(JECUncertaintySplit_config)
JetID_config = sJID.Jet_ID(nickname)
self.update(JetID_config)
BTaggedJet_config = sBTJID.BTaggedJet_ID(nickname)
self.update(BTaggedJet_config)
Svfit_config = sSvfit.Svfit(nickname)
self.update(Svfit_config)
MinimalPlotlevelFilter_config = sMPlF.MinimalPlotlevelFilter()
MinimalPlotlevelFilter_config.em()
self.update(MinimalPlotlevelFilter_config)
MVATestMethods_config = sMVATM.MVATestMethods()
self.update(MVATestMethods_config)
self["Channel"] = "EM"
self["MinNElectrons"] = 1
self["MinNMuons"] = 1
self[
"HltPaths_comment"] = "The first path must be one with the higher pt cut on the electron. The second and last path must be one with the higher pt cut on the muon. Corresponding Pt cuts are implemented in the Run2DecayChannelProducer."
self["NoHltFiltering"] = False #*default
self["DiTauPairLepton1LowerPtCuts"] = [ # **default
"HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_v:24.0"
]
self["DiTauPairLepton2LowerPtCuts"] = [ # ***default
"HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_v:24.0",
"HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_v:24.0"
]
self["DiTauPairNoHLT"] = False
if re.search("(Fall15MiniAODv2|Run2015D|Embedding2015)", nickname):
self["HltPaths"] = [
"HLT_Mu8_TrkIsoVVL_Ele17_CaloIdL_TrackIdL_IsoVL",
"HLT_Mu17_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL"
]
self["DiTauPairLepton1LowerPtCuts"] = [ #**
"HLT_Mu17_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_v:18.0"
]
self["DiTauPairLepton2LowerPtCuts"] = [
"HLT_Mu8_TrkIsoVVL_Ele17_CaloIdL_TrackIdL_IsoVL_v:18.0"
]
elif re.search("Run2016(B|C|D|E|F)|Spring16|Summer16", nickname):
self["HltPaths"] = [
"HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL",
"HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL"
]
elif re.search("Run2016(G|H)", nickname):
self["HltPaths"] = [
"HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ",
"HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ"
]
self["DiTauPairLepton1LowerPtCuts"] = [ #**
"HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v:24.0"
]
elif re.search("Embedding(2016|MC)", nickname):
self["HltPaths"] = []
self["NoHltFiltering"] = True #*if "Embedding(2016|MC)"
self["DiTauPairLepton1LowerPtCuts"] = [ #**
"HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_v:-1.0",
"HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v:-1.0"
]
self["DiTauPairLepton2LowerPtCuts"] = [ #***
"HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_v:-1.0",
"HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_v:-1.0"
]
self["DiTauPairNoHLT"] = True
self["LowerCutHardLepPt"] = 24.0
self["ElectronLowerPtCuts"] = ["13.0"]
self["ElectronUpperAbsEtaCuts"] = ["2.5"]
self["MuonLowerPtCuts"] = ["10.0"]
self["MuonUpperAbsEtaCuts"] = ["2.4"]
self["DeltaRTriggerMatchingElectrons"] = 0.4
self["DeltaRTriggerMatchingMuons"] = 0.4
self["DiTauPairMinDeltaRCut"] = 0.3
self["DiTauPairIsTauIsoMVA"] = True
self["EventWeight"] = "eventWeight"
self[
"RooWorkspace"] = "$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/scaleFactorWeights/htt_scalefactors_v16_5_1.root"
self["RooWorkspaceWeightNames"] = [
"0:idIsoWeight", "0:emuQcdOsssWeight", "0:emuQcdOsssRateUpWeight",
"0:emuQcdOsssRateDownWeight", "0:emuQcdOsssShapeUpWeight",
"0:emuQcdOsssShapeDownWeight", "0:emuQcdExtrapUpWeight",
"0:emuQcdExtrapDownWeight", "1:idIsoWeight", "1:emuQcdOsssWeight",
"1:emuQcdOsssRateUpWeight", "1:emuQcdOsssRateDownWeight",
"1:emuQcdOsssShapeUpWeight", "1:emuQcdOsssShapeDownWeight",
"1:emuQcdExtrapUpWeight", "1:emuQcdExtrapDownWeight"
]
self["RooWorkspaceObjectNames"] = [
"0:e_idiso0p15_desy_ratio",
"0:em_qcd_osss_binned",
"0:em_qcd_osss_rateup_binned",
"0:em_qcd_osss_ratedown_binned",
"0:em_qcd_osss_shapeup_binned",
"0:em_qcd_osss_shapedown_binned",
"0:em_qcd_extrap_up",
"0:em_qcd_extrap_down",
"1:m_idiso0p20_desy_ratio",
"1:em_qcd_osss_binned",
"1:em_qcd_osss_rateup_binned",
"1:em_qcd_osss_ratedown_binned",
"1:em_qcd_osss_shapeup_binned",
"1:em_qcd_osss_shapedown_binned",
"1:em_qcd_extrap_up",
"1:em_qcd_extrap_down",
]
self["RooWorkspaceObjectArguments"] = [
"0:e_pt,e_eta", "0:njets,dR,e_pt,m_pt", "0:njets,dR,e_pt,m_pt",
"0:njets,dR,e_pt,m_pt", "0:njets,dR,e_pt,m_pt",
"0:njets,dR,e_pt,m_pt", "0:njets,dR,e_pt,m_pt",
"0:njets,dR,e_pt,m_pt", "1:m_pt,m_eta", "1:njets,dR,e_pt,m_pt",
"1:njets,dR,e_pt,m_pt", "1:njets,dR,e_pt,m_pt",
"1:njets,dR,e_pt,m_pt", "1:njets,dR,e_pt,m_pt",
"1:njets,dR,e_pt,m_pt", "1:njets,dR,e_pt,m_pt"
]
if re.search("(Fall15MiniAODv2|Run2015D|Embedding2015)", nickname):
self["TriggerEfficiencyData"] = [
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_Run2015_Electron_Ele12_fall15.root", #2 times 0:... and 1:...
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_Run2015_Electron_Ele17_fall15.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_Run2015_Muon_Mu8_fall15.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_Run2015_Muon_Mu17_fall15.root"
]
self["TriggerEfficiencyMc"] = [
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_MC_Electron_Ele12_fall15.root",
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_MC_Electron_Ele17_fall15.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_MC_Muon_Mu8_fall15.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_MC_Muon_Mu17_fall15.root"
]
self["IdentificationEfficiencyData"] = [
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_Run2016_Electron_IdIso_IsoLt0p15_eff.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_Run2016_Muon_IdIso_IsoLt0p2_2016BtoH_eff.root"
]
self["IdentificationEfficiencyMc"] = [
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_MC_Electron_IdIso0p15_fall15.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_MC_Muon_IdIso0p15_fall15.root"
]
else:
self["TriggerEfficiencyData"] = [
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_Run2016_Electron_Ele12leg_eff.root", #2 times 0:... and 1:...
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_Run2016_Electron_Ele23leg_eff.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_Run2016_Muon_Mu8leg_2016BtoH_eff.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_Run2016_Muon_Mu23leg_2016BtoH_eff.root"
]
self["TriggerEfficiencyMc"] = [
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_MC_Electron_Ele12leg_eff.root",
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_MC_Electron_Ele23leg_eff.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_MC_Muon_Mu8leg_2016BtoH_eff.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_MC_Muon_Mu23leg_2016BtoH_eff.root"
]
self["IdentificationEfficiencyData"] = [
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_Run2016_Electron_IdIso_IsoLt0p15_eff.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_Run2016_Muon_IdIso_IsoLt0p2_2016BtoH_eff.root"
]
self["IdentificationEfficiencyMc"] = [
"0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_MC_Electron_IdIso_IsoLt0p15_eff.root",
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_MC_Muon_IdIso_IsoLt0p2_2016BtoH_eff.root"
]
self["TriggerEfficiencyMode"] = "correlate_triggers"
self["IdentificationEfficiencyMode"] = "multiply_weights"
self["TauTauRestFrameReco"] = "collinear_approximation"
if re.search("(Fall15MiniAODv2|Run2015D|Embedding2015)", nickname):
self["ElectronTriggerFilterNames"] = [
"HLT_Mu17_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_v:hltMu17TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegTrackIsoFilter",
"HLT_Mu8_TrkIsoVVL_Ele17_CaloIdL_TrackIdL_IsoVL_v:hltMu8TrkIsoVVLEle17CaloIdLTrackIdLIsoVLElectronlegTrackIsoFilter"
]
self["MuonTriggerFilterNames"] = [
"HLT_Mu17_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_v:hltMu17TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegL3IsoFiltered17",
"HLT_Mu8_TrkIsoVVL_Ele17_CaloIdL_TrackIdL_IsoVL_v:hltMu8TrkIsoVVLEle17CaloIdLTrackIdLIsoVLMuonlegL3IsoFiltered8"
]
elif re.search("Run2016(B|C|D|E|F)|Spring16|Summer16", nickname):
self["ElectronTriggerFilterNames"] = [
"HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_v:hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegTrackIsoFilter",
"HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_v:hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegTrackIsoFilter"
]
self["MuonTriggerFilterNames"] = [
"HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_v:hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegL3IsoFiltered23",
"HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_v:hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL3IsoFiltered8"
]
elif re.search("Run2016(G|H)", nickname):
self["ElectronTriggerFilterNames"] = [
"HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v:hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegTrackIsoFilter",
"HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v:hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLDZFilter",
"HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_v:hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegTrackIsoFilter",
"HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_v:hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZFilter"
]
self["MuonTriggerFilterNames"] = [
"HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v:hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegL3IsoFiltered23",
"HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v:hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLDZFilter",
"HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_v:hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL3IsoFiltered8",
"HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_v:hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZFilter"
]
self["InvalidateNonMatchingElectrons"] = True
self["InvalidateNonMatchingMuons"] = True
self["InvalidateNonMatchingTaus"] = False
self["InvalidateNonMatchingJets"] = False
self["DirectIso"] = True
self["OSChargeLeptons"] = True
self["SvfitKappaParameter"] = 3.0
self["AddGenMatchedParticles"] = True
self["BranchGenMatchedElectrons"] = True
self["BranchGenMatchedMuons"] = True
self["Consumers"] = [
"KappaLambdaNtupleConsumer", "cutflow_histogram",
"SvfitCacheConsumer", "#CutFlowTreeConsumer",
"#KappaElectronsConsumer", "#KappaMuonsConsumer",
"#KappaTaggedJetsConsumer", "#RunTimeConsumer",
"#PrintEventsConsumer", "#PrintGenParticleDecayTreeConsumer"
]
quantities_dict = quantities.quantities()
quantities_dict.build_quantities(nickname, channel=self["Channel"])
#put rest of quantities in CPQuantities.py?
quantities_dict["Quantities"] += [
"nLooseElectrons", "nLooseMuons", "nDiTauPairCandidates",
"nAllDiTauPairCandidates"
]
if re.search("(DY.?JetsToLL).*(?=(Spring16|Summer16))", nickname):
quantities_dict[
"Quantities"] += quantities_dict.lheWeightsDYQuantities()
quantities_dict["Quantities"] += [
"tauSpinnerValidOutputs",
"tauSpinnerPolarisation",
]
elif re.search(
"(HToTauTau|H2JetsToTauTau|Higgs).*(?=(Spring16|Summer16))",
nickname):
quantities_dict[
"Quantities"] += quantities_dict.svfitSyncQuantities()
elif re.search("(DY.?JetsToLL).*(?=Fall15)", nickname):
quantities_dict["Quantities"] += [
"tauSpinnerValidOutputs",
"tauSpinnerPolarisation",
]
elif re.search("Embedding2016", nickname):
quantities_dict["Quantities"] += [
"tauSpinnerValidOutputs",
"tauSpinnerPolarisation",
]
elif re.search("(LFV).*(?=(Spring16|Summer16))", nickname):
quantities_dict["Quantities"] += ["jetCorrectionWeight"]
self.update(copy.deepcopy(quantities_dict))
self["Processors"] = [
"producer:HltProducer",
"filter:HltFilter",
"producer:MetSelector",
################## special for each channel in et mt tt em.
"producer:ValidElectronsProducer",
"filter:ValidElectronsFilter",
"producer:ElectronTriggerMatchingProducer",
"filter:MinElectronsCountFilter",
"producer:ValidMuonsProducer",
"filter:ValidMuonsFilter",
"producer:MuonTriggerMatchingProducer",
"filter:MinMuonsCountFilter",
"producer:ValidTausProducer",
"producer:ValidEMPairCandidatesProducer",
"filter:ValidDiTauPairCandidatesFilter",
"producer:HttValidLooseMuonsProducer",
##################
"producer:Run2DecayChannelProducer",
"producer:TaggedJetCorrectionsProducer",
"producer:ValidTaggedJetsProducer",
"producer:ValidBTaggedJetsProducer",
"producer:TauTauRestFrameSelector",
"producer:DiLeptonQuantitiesProducer",
"producer:DiJetQuantitiesProducer",
"producer:HttValidLooseElectronsProducer"
]
if re.search("(Spring16|Summer16|Run2016)", nickname):
self["Processors"] += ["producer:RefitVertexSelector"]
self["Processors"] += ["producer:RecoTauCPProducer"]
self["Processors"] += [
"producer:PolarisationQuantitiesSvfitProducer"
]
self["Processors"] += [
"producer:PolarisationQuantitiesSvfitM91Producer"
]
self["Processors"] += [
"producer:PolarisationQuantitiesSimpleFitProducer"
]
self["Processors"] += [
"producer:TaggedJetUncertaintyShiftProducer"
]
if re.search("Run2016", nickname):
#self["Processors"] += ["producer:MVATestMethodsProducer"]
self["Processors"] += ["producer:SimpleFitProducer"]
self["Processors"] += [
"producer:GenMatchedPolarisationQuantitiesProducer"
]
self["Processors"] += ["filter:MinimalPlotlevelFilter"]
self["Processors"] += ["producer:SvfitProducer"]
self["Processors"] += ["producer:SvfitM91Producer"]
self["Processors"] += ["producer:SvfitM125Producer"]
self["Processors"] += ["producer:MELAProducer"]
self["Processors"] += ["producer:MELAM125Producer"]
#self["Processors"] += ["producer:TauPolarisationTmvaReader"]
else:
#self["Processors"] += ["producer:TauCorrectionsProducer"]
self["Processors"] += ["producer:ElectronCorrectionsProducer"
] #channel dependent
self["Processors"] += ["producer:TriggerWeightProducer"]
self["Processors"] += ["producer:MetCorrector"]
self["Processors"] += ["producer:RooWorkspaceWeightProducer"]
if re.search("(LFV).*(?=(Spring16|Summer16))", nickname):
self["Processors"] += [
"producer:ZPtReweightProducer"
#"filter:MinimalPlotlevelFilter"
]
self["Processors"] += ["producer:GenMatchedTauCPProducer"]
self["Processors"] += [
"producer:LFVJetCorrection2016Producer"
]
else:
self["Processors"] += ["filter:MinimalPlotlevelFilter"]
self["Processors"] += ["producer:SvfitProducer"]
self["Processors"] += ["producer:SvfitM91Producer"]
self["Processors"] += ["producer:SvfitM125Producer"]
self["Processors"] += ["producer:MELAProducer"]
self["Processors"] += ["producer:MELAM125Producer"]
if re.search("(DY.?JetsToLL).*(?=(Spring16|Summer16))",
nickname):
self["Processors"] += ["producer:ZPtReweightProducer"]
self["Processors"] += ["producer:SimpleFitProducer"]
self["Processors"] += [
"producer:GenMatchedTauCPProducer"
]
self["Processors"] += [
"producer:GenMatchedPolarisationQuantitiesProducer"
]
#self["Processors"] += ["producer:TauPolarisationTmvaReader"]
elif re.search(
"(HToTauTau|H2JetsToTauTau|Higgs).*(?=(Spring16|Summer16))",
nickname):
self["Processors"] += [
"producer:TopPtReweightingProducer"
]
#self["Processors"] += ["producer:MVATestMethodsProducer"]
self["Processors"] += [
"producer:GenMatchedTauCPProducer"
]
#self["Processors"] += ["producer:TauPolarisationTmvaReader"]
#self["Processors"] += ["producer:MadGraphReweightingProducer"]
else:
self["Processors"] += [
"producer:TopPtReweightingProducer"
]
#self["Processors"] += ["producer:MVATestMethodsProducer"]
self["Processors"] += ["producer:SimpleFitProducer"]
self["Processors"] += [
"producer:GenMatchedPolarisationQuantitiesProducer"
]
#self["Processors"] += ["producer:TauPolarisationTmvaReader"]
elif re.search("(Fall15|Run2015)", nickname):
#self["Processors"] += ["producer:RefitVertexSelector"]
self["Processors"] += ["producer:RecoTauCPProducer"]
self["Processors"] += [
"producer:PolarisationQuantitiesSvfitProducer"
]
self["Processors"] += [
"producer:PolarisationQuantitiesSvfitM91Producer"
]
self["Processors"] += [
"producer:PolarisationQuantitiesSimpleFitProducer"
]
self["Processors"] += ["filter:MinimalPlotlevelFilter"]
self["Processors"] += ["producer:MvaMetSelector"]
if re.search("Run2015", nickname):
pass
#self["Processors"] += ["producer:SimpleFitProducer"]
#self["Processors"] += ["producer:SvfitProducer"]
#self["Processors"] += ["producer:SvfitM91Producer"]
#self["Processors"] += ["producer:SvfitM125Producer"]
#self["Processors"] += ["producer:MELAProducer"]
#self["Processors"] += ["producer:MELAM125Producer"]
else:
self["Processors"] += ["producer:MvaMetCorrector"]
self["Processors"] += ["producer:MetCorrector"]
self["Processors"] += [
"producer:RecoElectronGenParticleMatchingProducer"
] #if you grep this, it is already in globalprocessors
self["Processors"] += [
"producer:RecoMuonGenParticleMatchingProducer"
]
self["Processors"] += ["producer:MatchedLeptonsProducer"]
#self["Processors"] += ["producer:TauCorrectionsProducer"]
self["Processors"] += [
"producer:TriggerWeightProducer",
"producer:IdentificationWeightProducer",
"producer:EleTauFakeRateWeightProducer"
]
if re.search("(DY.?JetsToLL).*(?=Fall15)", nickname):
self["Processors"] += ["producer:ZPtReweightProducer"]
#self["Processors"] += ["producer:SimpleFitProducer"]
self["Processors"] += ["producer:GenMatchedTauCPProducer"]
self["Processors"] += [
"producer:GenMatchedPolarisationQuantitiesProducer"
]
elif re.search("(HToTauTau|H2JetsToTauTau|Higgs).*(?=Fall15)",
nickname):
self["Processors"] += ["producer:SvfitProducer"]
self["Processors"] += ["producer:SvfitM91Producer"]
self["Processors"] += ["producer:SvfitM125Producer"]
self["Processors"] += ["producer:MELAProducer"]
self["Processors"] += ["producer:MELAM125Producer"]
elif re.search(
"^((?!(DY.?JetsToLL|HToTauTau|H2JetsToTauTau|Higgs)).)*Fall15",
nickname):
self["Processors"] += ["producer:SvfitProducer"]
self["Processors"] += ["producer:SvfitM91Producer"]
self["Processors"] += ["producer:SvfitM125Producer"]
self["Processors"] += ["producer:MELAProducer"]
self["Processors"] += ["producer:MELAM125Producer"]
self["Processors"] += ["producer:EventWeightProducer"]
self["Processors"] = list(set(self["Processors"]))
processorOrderingkey = processorOrdering.processors_ordered(
channel=self["Channel"])
ordered_processors = processorOrderingkey.order_processors(
self["Processors"])
self["Processors"] = copy.deepcopy(ordered_processors)
def build_config(self, nickname, *args, **kwargs): #Maybe change this the arguments to process/year and DATA/MC
"""
"include" : [
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsLooseElectronID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsLooseMuonID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsElectronID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsVetoElectronID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsMuonID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsTauID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsJEC.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsJECUncertaintySplit.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsJetID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsBTaggedJetID.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsSvfit.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsMinimalPlotlevelFilter_et.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Includes/settingsMVATestMethods.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2Analysis/Includes/settingsTauES.json",
"$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/ArtusConfigs/Run2CPStudies/Includes/settingsTauPolarisationMva.json"
],
"""
ElectronID_config = sEID.Electron_ID(nickname)
ElectronID_config.looseElectron_ID(nickname) #append the config for loose electron ID because it is used
ElectronID_config.vetoElectron_ID(nickname)
self.update(ElectronID_config)
MuonID_config = sMID.Muon_ID(nickname)
MuonID_config.looseMuon_ID(nickname) #append the config for loose Muon ID because it is used
self.update(MuonID_config)
TauID_config = sTID.Tau_ID(nickname) #here loose is not appended since loose tau ID is not used
self.update(TauID_config)
JEC_config = sJEC.JEC(nickname) #Is allready in baseconfig, for now leave it in; possibly remove it
self.update(JEC_config)
JECUncertaintySplit_config = sJECUS.JECUncertaintySplit(nickname)
self.update(JECUncertaintySplit_config)
JetID_config = sJID.Jet_ID(nickname)
self.update(JetID_config)
BTaggedJet_config = sBTJID.BTaggedJet_ID(nickname)
self.update(BTaggedJet_config)
Svfit_config = sSvfit.Svfit(nickname)
self.update(Svfit_config)
MinimalPlotlevelFilter_config = sMPlF.MinimalPlotlevelFilter()
MinimalPlotlevelFilter_config.et()
self.update(MinimalPlotlevelFilter_config)
MVATestMethods_config = sMVATM.MVATestMethods()
self.update(MVATestMethods_config)
TauES_config = sTES.TauES(nickname)
self.update(TauES_config)
TauPolarisationMva_config = sTPMVA.TauPolarisationMva()
self.update(TauPolarisationMva_config)
self["TauPolarisationTmvaWeights"] = [
"/afs/cern.ch/user/m/mfackeld/public/weights_tmva/training.weights.xml",
"/afs/cern.ch/user/m/mfackeld/public/weights_sklearn/training_et.weights.xml"
]
self["Channel"] = "ET"
self["MinNElectrons"] = 1
self["MinNTaus"] = 1
self["HltPaths_comment"] = "The first path must be the single lepton trigger. A corresponding Pt cut is implemented in the Run2DecayChannelProducer."
self["NoHltFiltering"] = False #else
self["DiTauPairNoHLT" ] = False
self["ElectronLowerPtCuts"] = ["26.0"] #default: !=2015
self["DiTauPairLepton1LowerPtCuts"] = ["HLT_Ele25_eta2p1_WPTight_Gsf_v:26.0"] #default: !=2015 or !=2017
if re.search("(Fall15MiniAODv2|Run2015D|Embedding2015)", nickname):
self["HltPaths"] = ["HLT_Ele23_WPLoose_Gsf"]
self["ElectronLowerPtCuts"] = ["24.0"] #2015
self["DiTauPairLepton1LowerPtCuts"] = ["HLT_Ele23_WPLoose_Gsf_v:24.0"] #2015
self["DiTauPairHltPathsWithoutCommonMatchRequired"] = ["HLT_Ele23_WPLoose_Gsf_v"]
elif re.search("Run2016|Spring16|Summer16", nickname): #spring16 self["NoHltFiltering"] = True for cp config False for RUN2 set to false here
self["HltPaths"] = ["HLT_Ele25_eta2p1_WPTight_Gsf"]
self["DiTauPairHltPathsWithoutCommonMatchRequired"] = ["HLT_Ele25_eta2p1_WPTight_Gsf_v"]
elif re.search("Embedding(2016|MC)", nickname):
self["HltPaths"] =[""]
self["NoHltFiltering"] = True #else: self["NoHltFiltering"] = True
self["DiTauPairNoHLT" ] = False
self["DiTauPairHltPathsWithoutCommonMatchRequired"] = ["HLT_Ele25_eta2p1_WPTight_Gsf_v"]
elif re.search("Run2017|Summer17|Fall17", nickname):
self["HltPaths"] = [
"HLT_Ele35_WPTight_Gsf",
"HLT_Ele32_WPTight_Gsf"
]
self["ElectronLowerPtCuts"] = [ "36.0"]
self["DiTauPairLepton1LowerPtCuts"] = [
"HLT_Ele35_WPTight_Gsf_v:36.0",
"HLT_Ele32_WPTight_Gsf_v:36.0"
]
self["DiTauPairHltPathsWithoutCommonMatchRequired"] = [
"HLT_Ele35_WPTight_Gsf_v",
"HLT_Ele32_WPTight_Gsf_v"
]
self["TauID"] = "TauIDRecommendation13TeV"
self["TauUseOldDMs"] = True
self["ElectronUpperAbsEtaCuts"] = ["2.1"]
self["TauLowerPtCuts"] = ["20.0"]
self["TauUpperAbsEtaCuts"] = ["2.3"]
self["TriggerObjectLowerPtCut"] = -1.0
self["DiTauPairMinDeltaRCut"] = 0.5
self["DiTauPairIsTauIsoMVA"] = True
self["EventWeight"] = "eventWeight"
self["RooWorkspace"] = "$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/scaleFactorWeights/htt_scalefactors_sm_moriond_v2.root"
self["RooWorkspaceWeightNames"] = [
"0:triggerWeight",
"0:idIsoWeight"
]
self["RooWorkspaceObjectNames"] = [
"0:e_trgEle25eta2p1WPTight_desy_ratio",
"0:e_idiso0p1_desy_ratio"
]
self["RooWorkspaceObjectArguments"] = [
"0:e_pt,e_eta",
"0:e_pt,e_eta"
]
if re.search("(Fall15MiniAODv2|Run2015D|Embedding2015)", nickname):
self["TriggerEfficiencyData"] = [ "0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_Run2015_Electron_Ele23_fall15.root" ]
self["TriggerEfficiencyMc"] = [ "0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_MC_Electron_Ele23_fall15.root"]
self["IdentificationEfficiencyData"] = ["0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_Run2015_Electron_IdIso0p1_fall15.root"]
self["IdentificationEfficiencyMc"] = ["0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_MC_Electron_IdIso0p1_fall15.root"]
elif re.search("Run2017|Summer17|Fall17", nickname):
self["TriggerEfficiencyData"] = ["0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_Run2017_Electron_Ele32orEle35.root"]
self["TriggerEfficiencyMc"] = ["0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_MCFall2017_Electron_Ele32orEle35.root"]
self["IdentificationEfficiencyData"] = ["0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_Run2017_Electron_IdIso_IsoLt0.10_eff_RerecoFall17.root"]
self["IdentificationEfficiencyMc"] = ["0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_MCFall2017_Electron_IdIso_IsoLt0.10_eff_RerecoFall17.root"]
else:
self["TriggerEfficiencyData"] = ["0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_Run2016_Electron_Ele25WPTight_eff.root" ]
self["TriggerEfficiencyMc"] = ["0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/triggerWeights/triggerEfficiency_MC_Electron_Ele25WPTight_eff.root" ]
self["IdentificationEfficiencyData"] = ["0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_Run2016_Electron_IdIso_IsoLt0p1_eff.root"]
self["IdentificationEfficiencyMc"] = ["0:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/identificationWeights/identificationEfficiency_MC_Electron_IdIso_IsoLt0p1_eff.root"]
self["TriggerEfficiencyMode"] = "multiply_weights"
self["IdentificationEfficiencyMode"] = "multiply_weights"
if re.search("Run2017|Summer17|Fall17", nickname):
self["EleTauFakeRateWeightFile"] =[""]
else:
self["EleTauFakeRateWeightFile"] = [
"1:$CMSSW_BASE/src/HiggsAnalysis/KITHiggsToTauTau/data/root/scaleFactorWeights/antiElectronDiscrMVA6FakeRateWeights.root"
]
self["TauTauRestFrameReco"] = "collinear_approximation"
if re.search("(Fall15MiniAODv2|Run2015D|Embedding2015)", nickname):
self["ElectronTriggerFilterNames"] = ["HLT_Ele23_WPLoose_Gsf_v:hltEle23WPLooseGsfTrackIsoFilter"]
elif re.search("Run2016|Spring16|Summer16|Embedding(2016|MC)", nickname):
self["ElectronTriggerFilterNames"] = ["HLT_Ele25_eta2p1_WPTight_Gsf_v:hltEle25erWPTightGsfTrackIsoFilter"]
elif re.search("Run2017|Summer17|Fall17", nickname):
self["ElectronTriggerFilterNames"] = [
"HLT_Ele35_WPTight_Gsf_v:hltEle35noerWPTightGsfTrackIsoFilter",
"HLT_Ele32_WPTight_Gsf_v:hltEle32WPTightGsfTrackIsoFilter"
]
self["InvalidateNonMatchingElectrons"] = True
self["InvalidateNonMatchingMuons"] = False
self["InvalidateNonMatchingTaus"] = True
self["InvalidateNonMatchingJets"] = False
self["UseUWGenMatching"] = "true"
self["DirectIso"] = True
self["OSChargeLeptons"] = True
self["SvfitKappaParameter"] = 4.0
self["AddGenMatchedParticles"] = True
self["AddGenMatchedTaus"] = True
self["AddGenMatchedTauJets"] = True
self["BranchGenMatchedElectrons"] = True
self["BranchGenMatchedTaus"] = True
self["Consumers"] = [
"KappaLambdaNtupleConsumer",
"cutflow_histogram",
"SvfitCacheConsumer",
"#CutFlowTreeConsumer",
"#KappaElectronsConsumer",
"#KappaTausConsumer",
"#KappaTaggedJetsConsumer",
"#RunTimeConsumer",
"#PrintEventsConsumer",
"#PrintGenParticleDecayTreeConsumer"
]
quantities_dict = quantities.quantities()
quantities_dict.build_quantities(nickname, channel = self["Channel"])
#put rest of quantities in CPQuantities.py?
quantities_dict["Quantities"] += [
"nVetoElectrons",
"nLooseElectrons",
"nLooseMuons",
"nDiTauPairCandidates",
"nAllDiTauPairCandidates"
]
if re.search("(DY.?JetsToLL).*(?=(Spring16|Summer16|Summer17|Fall17))", nickname): #the same as tt
quantities_dict["Quantities"] += quantities_dict.genQuantities()
quantities_dict["Quantities"] += quantities_dict.lheWeightsDYQuantities()
quantities_dict["Quantities"] += [
"tauSpinnerValidOutputs",
"tauSpinnerPolarisation",
]
elif re.search("(HToTauTau|H2JetsToTauTau|Higgs).*(?=(Spring16|Summer16|Summer17|Fall17))", nickname):
quantities_dict["Quantities"] += [
"#tauPolarisationTMVA",
"#tauPolarisationSKLEARN",
]
elif re.search("(DY.?JetsToLL).*(?=Fall15)", nickname):
quantities_dict["Quantities"] += [
"tauSpinnerValidOutputs",
"tauSpinnerPolarisation",
]
elif re.search("Embedding2016", nickname):
quantities_dict["Quantities"] += [
"tauSpinnerValidOutputs",
"tauSpinnerPolarisation",
]
elif re.search("(LFV).*(?=(Spring16|Summer16))", nickname):
quantities_dict["Quantities"] += [
"jetCorrectionWeight"
]
self.update(copy.deepcopy(quantities_dict))
self["Processors"] = [
"producer:HltProducer",
"filter:HltFilter",
"producer:MetSelector",
################## special for each channel in et mt tt em.
"producer:ValidElectronsProducer",
"filter:ValidElectronsFilter",
"producer:ElectronTriggerMatchingProducer",
"filter:MinElectronsCountFilter",
"producer:ValidMuonsProducer",
"producer:ValidTausProducer",
"filter:ValidTausFilter",
"producer:TauTriggerMatchingProducer",
"filter:MinTausCountFilter",
"producer:ValidETPairCandidatesProducer",
"filter:ValidDiTauPairCandidatesFilter",
"producer:HttValidVetoElectronsProducer",
"producer:HttValidLooseElectronsProducer",
"producer:HttValidLooseMuonsProducer",
"producer:DiVetoElectronVetoProducer",
##################
"producer:Run2DecayChannelProducer",
"producer:TaggedJetCorrectionsProducer",
"producer:ValidTaggedJetsProducer",
"producer:ValidBTaggedJetsProducer",
"producer:TauTauRestFrameSelector",
"producer:DiLeptonQuantitiesProducer",
"producer:DiJetQuantitiesProducer",
]
if re.search("(Spring16|Summer16|Run2016|Run2017|Summer17|Fall17)", nickname):
self["Processors"] += ["producer:RefitVertexSelector"]
self["Processors"] += ["producer:RecoTauCPProducer"]
self["Processors"] += ["producer:PolarisationQuantitiesSvfitProducer"]
self["Processors"] += ["producer:PolarisationQuantitiesSvfitM91Producer"]
self["Processors"] += ["producer:PolarisationQuantitiesSimpleFitProducer"]
if re.search("(Run2017|Summer17|Fall17)", nickname) == None:
self["Processors"] += ["producer:TaggedJetUncertaintyShiftProducer"]
if re.search("Run2016|Run2017", nickname):
#self["Processors"] += ["producer:MVATestMethodsProducer"]
self["Processors"] += ["producer:SimpleFitProducer"]
self["Processors"] += ["producer:GenMatchedPolarisationQuantitiesProducer"]
self["Processors"] += ["filter:MinimalPlotlevelFilter"]
self["Processors"] += ["producer:SvfitProducer"]
self["Processors"] += ["producer:SvfitM91Producer"]
self["Processors"] += ["producer:SvfitM125Producer"]
self["Processors"] += ["producer:MELAProducer"]
self["Processors"] += ["producer:MELAM125Producer"]
#self["Processors"] += ["producer:TauPolarisationTmvaReader"]
else:
self["Processors"] += ["producer:TauCorrectionsProducer"]
self["Processors"] += ["producer:RooWorkspaceWeightProducer"] #changes from file to file
self["Processors"] += ["producer:MetCorrector"]
self["Processors"] += [
"producer:SimpleEleTauFakeRateWeightProducer",
"producer:SimpleMuTauFakeRateWeightProducer"
]
if re.search("(LFV).*(?=(Spring16|Summer16))", nickname):
self["Processors"] += [
"producer:ZPtReweightProducer"
#"filter:MinimalPlotlevelFilter"
]
self["Processors"] += ["producer:GenMatchedTauCPProducer"]
self["Processors"] += ["producer:LFVJetCorrection2016Producer"]
else:
self["Processors"] += ["filter:MinimalPlotlevelFilter"]
self["Processors"] += ["producer:SvfitProducer"]
self["Processors"] += ["producer:SvfitM91Producer"]
self["Processors"] += ["producer:SvfitM125Producer"]
self["Processors"] += ["producer:MELAProducer"]
self["Processors"] += ["producer:MELAM125Producer"]
if re.search("(DY.?JetsToLL).*(?=(Spring16|Summer16|Summer17|Fall17))", nickname):
self["Processors"] += ["producer:ZPtReweightProducer"]
self["Processors"] += ["producer:SimpleFitProducer"]
self["Processors"] += ["producer:GenMatchedTauCPProducer"]
self["Processors"] += ["producer:GenMatchedPolarisationQuantitiesProducer"]
#self["Processors"] += ["producer:TauPolarisationTmvaReader"]
elif re.search("(HToTauTau|H2JetsToTauTau|Higgs).*(?=(Spring16|Summer16|Summer17|Fall17))", nickname):
self["Processors"] += [
"producer:TopPtReweightingProducer"
]
#self["Processors"] += ["producer:MVATestMethodsProducer"]
self["Processors"] += ["producer:GenMatchedTauCPProducer"]
#self["Processors"] += ["producer:TauPolarisationTmvaReader"]
#self["Processors"] += ["producer:MadGraphReweightingProducer"]
else:
self["Processors"] += [ "producer:TopPtReweightingProducer"]
#self["Processors"] += ["producer:MVATestMethodsProducer"]
self["Processors"] += ["producer:SimpleFitProducer"]
self["Processors"] += ["producer:GenMatchedPolarisationQuantitiesProducer"]
#self["Processors"] += ["producer:TauPolarisationTmvaReader"]
elif re.search("(Fall15|Run2015)", nickname):
#self["Processors"] += ["producer:RefitVertexSelector"]
self["Processors"] += ["producer:RecoTauCPProducer"]
self["Processors"] += ["producer:PolarisationQuantitiesSvfitProducer"]
self["Processors"] += ["producer:PolarisationQuantitiesSvfitM91Producer"]
self["Processors"] += ["producer:PolarisationQuantitiesSimpleFitProducer"]
self["Processors"] += ["filter:MinimalPlotlevelFilter"]
self["Processors"] += ["producer:MvaMetSelector"]
if re.search("Run2015", nickname):
#self["Processors"] += ["producer:SimpleFitProducer"]
self["Processors"] += ["producer:GenMatchedPolarisationQuantitiesProducer"]
#self["Processors"] += ["producer:SvfitProducer"]
#self["Processors"] += ["producer:SvfitM91Producer"]
#self["Processors"] += ["producer:SvfitM125Producer"]
#self["Processors"] += ["producer:MELAProducer"]
#self["Processors"] += ["producer:MELAM125Producer"]
else:
self["Processors"] += ["producer:MvaMetCorrector"]
self["Processors"] += ["producer:MetCorrector"]
self["Processors"] += ["producer:TauCorrectionsProducer"]
self["Processors"] += [
"producer:EleTauFakeRateWeightProducer"
]
if re.search("(DY.?JetsToLL).*(?=Fall15)", nickname):
self["Processors"] += ["producer:ZPtReweightProducer"]
#self["Processors"] += ["producer:SimpleFitProducer"]
self["Processors"] += ["producer:GenMatchedTauCPProducer"]
self["Processors"] += ["producer:GenMatchedPolarisationQuantitiesProducer"]
elif re.search("(HToTauTau|H2JetsToTauTau|Higgs).*(?=Fall15)",nickname):
self["Processors"] += ["producer:SvfitProducer"]
self["Processors"] += ["producer:SvfitM91Producer"]
self["Processors"] += ["producer:SvfitM125Producer"]
self["Processors"] += ["producer:MELAProducer"]
self["Processors"] += ["producer:MELAM125Producer"]
elif re.search("^((?!(DY.?JetsToLL|HToTauTau|H2JetsToTauTau|Higgs)).)*Fall15", nickname):
self["Processors"] += ["producer:SvfitProducer"]
self["Processors"] += ["producer:SvfitM91Producer"]
self["Processors"] += ["producer:SvfitM125Producer"]
self["Processors"] += ["producer:MELAProducer"]
self["Processors"] += ["producer:MELAM125Producer"]
self["Processors"] += ["producer:EventWeightProducer"]
self["Processors"] = list(set(self["Processors"]))
processorOrderingkey = processorOrdering.processors_ordered(channel = self["Channel"])
ordered_processors = processorOrderingkey.order_processors(self["Processors"])
self["Processors"] = copy.deepcopy(ordered_processors)
