def metPerformanceD3PD(file, level=3, tuplename='metPerfD3PD', seq=topSequence, D3PDSvc='D3PD::RootD3PDSvc'): from AthenaCommon.AlgSequence import AlgSequence alg = AlgSequence() subAlg = D3PDMakerCoreComps.MakerAlg(tuplename, seq, file=file, D3PDSvc=D3PDSvc) subAlg += EventInfoD3PDObject(0) subAlg += ElectronD3PDObject(0) subAlg += PhotonD3PDObject(0) subAlg += MuonD3PDObject(0) subAlg += JetD3PDObject(level) ##subAlg += JetD3PDObject (level, sgkey='AntiKt4H1TopoJets',prefix='AntiKt4H1Topo_') example to change container subAlg += ClusterD3PDObject(3) ##subAlg += CellD3PDObject(3) don't turn on unless needed. filesize explodes alg += subAlg alg += METPhysicsD3PD( file, tuplename=tuplename, level=level) ##might need MissingETD3PDMaker-00-00-24 for this to work return alg
def ClusterCorrectionD3PD(alg): alg += EventInfoD3PDObject(10) alg += ElectronD3PDObject(10, exclude=[ 'L1Index', 'L2Index', 'EFIndex', 'trackPVPerigeeAssoc', 'trackPerigeeAssoc' ]) alg += PhotonD3PDObject(10, exclude=['L1Index', 'L2Index', 'EFIndex']) alg += ClusterD3PDObject(10, sgkey='egClusterCollection') addCluster(alg, 'ele', 5, 5, 'cl_ele55_') addCluster(alg, 'ele', 3, 5, 'cl_ele35_') addCluster(alg, 'ele', 3, 7, 'cl_ele37_') addCluster(alg, 'gam', 5, 5, 'cl_gam55_') addCluster(alg, 'gam', 3, 5, 'cl_gam35_') addCluster(alg, 'gam', 3, 7, 'cl_gam37_') if rec.doTruth(): alg += egammaTruthD3PDObject(10, prefix='mc_') return
def JetD3PD(file, level=4, tuplename='jet', seq=topSequence, D3PDSvc='D3PD::RootD3PDSvc', streamNameRoot=None, **kw): alg = D3PDMakerCoreComps.MakerAlg(tuplename, seq, file=file, D3PDSvc=D3PDSvc, streamNameRoot=streamNameRoot) JetIncludes = ['AssocTrackCont'] alg += EventInfoD3PDObject(**_args(level, 'EventInfo', kw)) alg += ElectronD3PDObject(**_args(level, 'Electron', kw)) alg += PhotonD3PDObject(**_args(level, 'Photon', kw)) alg += MuonD3PDObject(**_args(level, 'Muon', kw)) #alg += MissingETD3PDObject (**_args (level, 'MissingET', kw)) #at the moment only the first one holds also b tagging information alg += JetD3PDObject(**_args(level, 'AntiKt4H1TopoJets', kw, sgkey='AntiKt4H1TopoJets', prefix='AntiKt4H1Topo_')) alg += JetD3PDObject(**_args(level, 'AntiKt6H1TopoJets', kw, sgkey='AntiKt6H1TopoJets', prefix='AntiKt6H1Topo_')) if D3PDMakerFlags.DoTrigger(): alg += jetMETTriggerBitsD3PDObject(level) alg += PrimaryVertexD3PDObject(**_args(1, 'PrimaryVertex', kw, allowMissing=True, sgkey=D3PDMakerFlags.VertexSGKey(), prefix='vxp_')) if rec.doTruth(): alg += GenEventD3PDObject(**_args(1, 'GenEvent', kw)) alg += TruthParticleD3PDObject(**_args(1, 'TruthParticle', kw)) alg += JetD3PDObject(**_args(1, 'AntiKt4TruthJets', kw, sgkey='AntiKt4TruthJets', prefix='AntiKt4Truth_')) #alg += JetD3PDObject (level, sgkey='AntiKt6TruthJets', prefix='AntiKt6Truth_' ) alg.MetadataTools += [LBMetadataConfig()] return alg
def HSG5D3PD (alg = None, file = 'hsg5.root', tuplename = 'physics', streamname = 'd3pdstream', flags=HSG5Flags, **kw): if flags.doTaus(): # tau from TauD3PDMaker.TauD3PDObject import TauD3PDObject # define associations if flags.doPhotons() and not PhotonD3PDObject.allBlocknames().has_key('RecoveryMatch'): from PhotonD3PDMaker.PhotonRecoveryAssociation import PhotonRecoveryAssociation PhotonRecoveryAssoc = PhotonRecoveryAssociation(PhotonD3PDObject, 'ElectronContainer', D3PDMakerFlags.ElectronSGKey(), prefix = 'el_', blockname = 'RecoveryMatch', target = 'ph_ElectronRecovered_') # define track and cluster filters preseq = AlgSequence (D3PDMakerFlags.PreD3PDAlgSeqName()) if flags.doGoodTracks() and not hasattr( preseq, "GoodTracks" ): filter1 = makeTrackFilterAlg(TracksName = D3PDMakerFlags.TrackSGKey(), OutputTracksName='GoodTracks', ptCut=0.,nSCTPix=4) preseq += filter1 if flags.doHighPtTracks() and not hasattr( preseq, "HighPtTracks" ): filter2 = makeTrackFilterAlg(TracksName = D3PDMakerFlags.TrackSGKey(), OutputTracksName='HighPtTracks', ptCut=5000.,nSCTPix=4) preseq += filter2 if flags.doHighPtClusters() and not hasattr( preseq, "HighPtClusters" ): filter3 = makeClusterFilter(InputName = D3PDMakerFlags.ClusterSGKey(), OutputName = 'HighPtClusters', ptCut=10000.) preseq += filter3 if flags.doHighPtEMClusters() and not hasattr( preseq, "HighPtEMClusters" ): filter4 = makeClusterFilter(InputName = D3PDMakerFlags.EMTopoClusterSGKey(), OutputName = 'HighPtEMClusters', ptCut=10000.) preseq += filter4 # perform recoil calculation if flags.doHadronicRecoil(): from HadronicRecoil.HadronicRecoilConf import HadronicRecoil__ElectronSelector from HadronicRecoil.HadronicRecoilConf import HadronicRecoil__MuonSelector from HadronicRecoil.HadronicRecoilConf import HadronicRecoil__EflowSelector from HadronicRecoil.HadronicRecoilConf import HadronicRecoil__RecoilCalculation from HadronicRecoil.HadronicRecoilConf import HadronicRecoil__EflowRecoil if not hasattr( preseq, "HadronicRecoil::ElectronSelector" ): preseq += HadronicRecoil__ElectronSelector() if not hasattr( preseq, "HadronicRecoil::MuonSelector" ): preseq += HadronicRecoil__MuonSelector() if not hasattr( preseq, "HadronicRecoil::EflowSelector" ): preseq += HadronicRecoil__EflowSelector() if not hasattr( preseq, "HadronicRecoil::RecoilCalculation" ): preseq += HadronicRecoil__RecoilCalculation( ConeSizes = [0.20] ) if not hasattr( preseq, "EflowRecoil_20" ): preseq += HadronicRecoil__EflowRecoil("EflowRecoil_20", TrackRough = "RoughRecoil_track_20", TrackUE = "ueCorrection_track_20", TrackRef = "RefinedRecoil_track_20", ClusNoTrackRough = "RoughRecoil_clusNoTrack_20", ClusNoTrackUE = "ueCorrection_clusNoTrack_20", ClusNoTrackRef = "RefinedRecoil_clusNoTrack_20", RoughRecoil_out = "RoughRecoil_Eflow_20", ueCorrection_out = "ueCorrection_Eflow_20", RefinedRecoil_out= "RefinedRecoil_Eflow_20", MET_out = "MET_HR_Eflow_20" ) # now configure the D3PD if not alg: alg = MSMgr.NewRootStream(StreamName = streamname, FileName = file, TreeName = tuplename) alg += EventInfoD3PDObject (**_args (10, 'EventInfo', kw)) alg += LArCollisionTimeD3PDObject (**_args (10, 'LArCollisionTime', kw)) from TriggerD3PDMaker.BunchStructureMetadata import addBunchStructureMetadata addBunchStructureMetadata (alg) # Eta rings of energy # FIXME brian crashing aod running if not rec.readAOD: from CaloD3PDMaker.RapgapD3PDObject import EtaRingsNonTileD3PDObject from CaloD3PDMaker.RapgapD3PDObject import EtaRingsD3PDObject alg += EtaRingsNonTileD3PDObject ( **_args ( 0, 'EtaRings', kw) ) alg += EtaRingsD3PDObject ( **_args ( 0, 'EtaRings', kw) ) # Electron/Photon blocks alg += ElectronD3PDObject (**_args (10, 'Electron', kw)) if testSGKey ('ElectronContainer', D3PDMakerFlags.GSFElectronSGKey()): alg += GSFElectronD3PDObject (**_args (10, 'GSFElectron', kw, sgkey = D3PDMakerFlags.GSFElectronSGKey(), prefix = 'el_gsf_')) if flags.doPhotons(): print "adding photons" alg += PhotonD3PDObject (**_args (10, 'Photon', kw)) # Muon blocks ### add the scattering significance filler - to be removed when added in the MuonD3PDMaker if not MuonD3PDObject.allBlocknames().has_key("MuonScatteringAngleSignificance"): from AthenaCommon.AppMgr import ToolSvc muonScatteringSigTool=None if hasattr(ToolSvc, "MuonScatteringSigTool"): muonScatteringSigTool=ToolSvc.MuonScatteringSigTool from JetTagD3PDMaker import MuonScatteringAngleSignificanceFillerTool MuonD3PDObject.defineBlock (100, "MuonScatteringAngleSignificance", MuonScatteringAngleSignificanceFillerTool, ScatteringSigTool=muonScatteringSigTool) alg += MuonD3PDObject (**_args (10, 'MuidMuon', kw, sgkey='MuidMuonCollection', prefix='mu_muid_', include = ["EFCBInfoIndex", "EFMGInfoIndex", "EFMEInfoIndex", "L2CBInfoIndex", "L1InfoIndex"], exclude = ["EFCBInfo", "EFMGInfo", "EFMEInfo", "L2CBInfo", "L1Info"], allowMissing = True )) alg += MuonD3PDObject (**_args (10, 'StacoMuon', kw, sgkey='StacoMuonCollection', prefix='mu_staco_', include = ["EFCBInfoIndex", "EFMGInfoIndex", "EFMEInfoIndex", "L2CBInfoIndex", "L1InfoIndex"], exclude = ["EFCBInfo", "EFMGInfo", "EFMEInfo", "L2CBInfo", "L1Info"], allowMissing = True )) from AthenaCommon.KeyStore import CfgItemList if CfgItemList("KeyStore_inputFile").has_item("Analysis::MuonContainer#Muons"): alg += MuonD3PDObject (**_args (10, 'Muons', kw, sgkey='Muons', prefix='mu_muons_', include = ["EFCBInfoIndex", "EFMGInfoIndex", "EFMEInfoIndex", "L2CBInfoIndex", "L1InfoIndex"], exclude = ["EFCBInfo", "EFMGInfo", "EFMEInfo", "L2CBInfo", "L1Info"], allowMissing = True )) alg += MuonD3PDObject (**_args (0, 'CaloMuon', kw, sgkey='CaloMuonCollection', prefix='mu_calo_', include = ["MuonHitSummary", "Authors", "Likelihood", "Isolation", "CaloEnergyLoss", "Quality"] )) # Tau block if flags.doTaus(): alg += TauD3PDObject (**_args ( 1, 'Tau', kw)) # track and cluster blocks # ... all clusters, very low LOD alg += ClusterD3PDObject (**_args ( 0, 'Clusters1', kw, exclude='SamplingBasics')) # ... higher LOD for pt>10 GeV if flags.doHighPtClusters(): alg += ClusterD3PDObject (**_args ( 2, 'Clusters2', kw, sgkey = 'HighPtClusters', prefix = 'clpt10_')) if flags.doHighPtEMClusters(): alg += ClusterD3PDObject (**_args ( 3, 'Clusters3', kw, sgkey = 'HighPtEMClusters', prefix = 'emclpt10_')) from TrackD3PDMaker.TrackD3PDObject import TrackD3PDObject # ... good tracks only (nSCT>3; no pt cut) # use standard level of track info for 'GoodTracks' if flags.doGoodTracks(): # use standard level of track info for 'GoodTracks' alg += TrackParticleD3PDObject (**_args ( 3, 'Tracks1', kw, sgkey = 'GoodTracks', label = 'trk', prefix = 'trk_')) # ... high-pt tracks (nSCT>3; pt>5 GeV) if flags.doHighPtTracks(): from TrackD3PDMaker.TrackD3PDMakerFlags import TrackD3PDFlags as highPtFlags highPtFlags.doTruth = True highPtFlags.storeDiagonalCovarianceAsErrors = True highPtFlags.storeHitTruthMatching = True highPtFlags.storePixelHitsOnTrack = False highPtFlags.storePixelHolesOnTrack = False highPtFlags.storePixelOutliersOnTrack = False highPtFlags.storeSCTHitsOnTrack = False highPtFlags.storeSCTHolesOnTrack = False highPtFlags.storeSCTOutliersOnTrack = False highPtFlags.storeTRTHitsOnTrack = False highPtFlags.storeTRTHolesOnTrack = False highPtFlags.storeTRTOutliersOnTrack = False highPtFlags.storeTrackFitQuality = True highPtFlags.storeTrackMomentum = True highPtFlags.storeTrackSummary = True highPtFlags.storeTrackSummary.IDOutliers = True highPtFlags.storeTrackSummary.PixelInfoPlus = True highPtFlags.storeTrackSummary.SCTInfoPlus = True highPtFlags.storeTrackSummary.TRTInfoPlus = True highPtFlags.storeTrackSummary.InfoPlus = True highPtFlags.trackParametersAtBeamSpotLevelOfDetails = 0 highPtFlags.trackParametersAtGlobalPerigeeLevelOfDetails = 2 highPtFlags.trackParametersAtPrimaryVertexLevelOfDetails = 3 HighPtTrackParticleD3PDObject = TrackD3PDObject(_label='trkpt5', _prefix='trkpt5_', _sgkey='HighPtTracks', typeName='Rec::TrackParticleContainer', flags=highPtFlags) alg += HighPtTrackParticleD3PDObject(**_args ( 3, 'Tracks2', kw, sgkey = 'HighPtTracks', label = 'trkpt5', prefix = 'trkpt5_')) # Jet blocks from JetTagD3PDMaker.JetTagD3PDMakerFlags import JetTagD3PDFlags # include list modified for HSG5D3PD includelist = JetTagD3PDFlags.StdInfoInclude() from JetTagD3PDMaker.JetTagD3PDMakerKeys import JetTagD3PDKeys includelist += [JetTagD3PDKeys.BTagWeightsBlockName()] #includelist += [JetTagD3PDKeys.JetFitterInfoBaseBlockName()] #includelist += [JetTagD3PDKeys.JetFitterTagInfoBlockName()] #includelist += [JetTagD3PDKeys.IP3DInfoBaseBlockName()] #includelist += [JetTagD3PDKeys.IP3DIPInfoBaseBlockName()] #includelist += [JetTagD3PDKeys.JetFitterCombInfoBaseBlockName()] includelist += [JetTagD3PDKeys.JetTrackAssocBlockName()] includelist += [JetTagD3PDKeys.JetTrackBlockName()] includelist += [JetTagD3PDKeys.IPInfoPlusTrackAssocBlockName()] includelist += [JetTagD3PDKeys.IPInfoPlusTrackBlockName()] includelist += ['ConstituentScale'] jetkw = kw if not jetkw.has_key ( 'AK4TopoEMJet_'+JetTagD3PDKeys.JetTrackAssocBlockName()+'_target'): jetkw['AK4TopoEMJet_'+JetTagD3PDKeys.JetTrackAssocBlockName()+'_target']= "trk" if not jetkw.has_key ( 'AK4TopoEMJet_'+JetTagD3PDKeys.IPInfoPlusTrackAssocBlockName()+'_target'): jetkw['AK4TopoEMJet_'+JetTagD3PDKeys.IPInfoPlusTrackAssocBlockName()+'_target']= "trk" alg += JetD3PDObject (**_args ( 3, 'AK4TopoEMJet', jetkw, sgkey='AntiKt4TopoEMJets', prefix='jet_AntiKt4TopoEM_', include = includelist, JetVertexFraction_FromUD=True, JetVertexFraction_FillFullJVF=True, allowMissing = True)) alg += JetD3PDObject (**_args ( 3, 'AK6TopoEMJet', kw, sgkey='AntiKt6TopoEMJets', prefix='jet_AntiKt6TopoEM_', include = [JetTagD3PDFlags.StdInfoInclude(),'ConstituentScale'], JetVertexFraction_FromUD=True, JetVertexFraction_FillFullJVF=True, allowMissing = True)) alg += JetD3PDObject (**_args ( 3, 'AK4LCTopoJet', kw, sgkey='AntiKt4LCTopoJets', prefix='jet_AntiKt4LCTopo_', exclude=['Layer'], include=['ConstituentScale'], JetVertexFraction_FromUD=True, JetVertexFraction_FillFullJVF=True, allowMissing = True)) alg += JetD3PDObject (**_args ( 3, 'AK6LCTopoJet', kw, sgkey='AntiKt6LCTopoJets', prefix='jet_AntiKt6LCTopo_', exclude=['Layer'], include=['ConstituentScale'], JetVertexFraction_FromUD=True, JetVertexFraction_FillFullJVF=True, allowMissing = True)) from TopInputsD3PDMaker.HforD3PDObject import HforD3PDObject alg += HforD3PDObject(**_args (0, 'HforInfo', kw)) # MET blocks # a whole mess to remove x,y components separately for all flavours if flags.doAllMissingET() : alg += MissingETD3PDObject (**_args (10, 'MissingET', kw, exclude=['MET_Base', 'MET_Base0', 'MET_Truth_Int', 'MET_RefFinal_Comps','MET_Calib_Comps','MET_CellOut_Comps', 'MET_CorrTopo_Comps','MET_Cryo_Comps','MET_CryoCone_Comps', 'MET_Final_Comps','MET_LocHadTopo_Comps', 'MET_LocHadTopoObj_Comps', 'MET_Muid_Comps','MET_Muid_Spectro_Comps','MET_Muid_Track_Comps', 'MET_MuonBoy_Comps','MET_MuonBoy_Spectro_Comps','MET_MuonBoy_Track_Comps', 'MET_Muons_Comps','MET_Muons_Spectro_Comps','MET_Muons_Track_Comps', 'MET_MuonMuid_Comps', 'MET_Muon_Comps','MET_Muon_Isol_Muid_Comps', 'MET_Muon_Isol_Staco_Comps','MET_Muon_NonIsol_Muid_Comps', 'MET_Muon_NonIsol_Staco_Comps','MET_Muon_Total_Muid_Comps', 'MET_Muon_Total_Staco_Comps','MET_RefEle_Comps', 'MET_RefEle_em_Comps','MET_RefGamma_Comps', 'MET_RefGamma_em_Comps','MET_RefJet_Comps', 'MET_RefJet_em_Comps','MET_RefMuon_Comps', 'MET_RefMuon_Muid_Comps','MET_RefMons_Comps','MET_RefMuon_Staco_Comps', 'MET_RefMuon_Track_Muid_Comps','MET_RefMuon_Track_Staco_Comps', 'MET_RefMuon_Track_em_Comps','MET_RefMuon_Track_Comps', 'MET_RefMuons_Track_Comps', 'MET_RefMuon_em_Comps','MET_RefTau_Comps', 'MET_RefTau_em_Comps','MET_SoftJets_Comps', 'MET_SoftJets_em_Comps','MET_Topo_Comps', 'MET_TopoObj_Comps','MET_Track_Comps','MET_Comps', 'MET_Track_Weights','MET_Cluster_Weights'], allowMissing=True)) else : alg += MissingETD3PDObject(0, sgkey = "MET_RefFinal", prefix = "MET_RefFinal") # MuonBoy terms used in RefFinal alg += MissingETD3PDObject(0, sgkey = "MET_MuonBoy", prefix = "MET_MuonBoy") alg += MissingETD3PDObject(0, sgkey = "MET_RefMuon", prefix = "MET_RefMuon") alg += MissingETD3PDObject(0, sgkey = "MET_CellOut_Eflow", prefix = "MET_CellOut_Eflow") # terms needed to calculate RefFinal with Muid instead of Staco alg += MissingETD3PDObject(0, sgkey = "MET_RefMuon_Muid", prefix = "MET_RefMuon_Muid") alg += MissingETD3PDObject(0, sgkey = "MET_MuonMuid", prefix = "MET_MuonMuid") alg += MissingETD3PDObject(0, sgkey = "MET_Muid", prefix = "MET_Muid") alg += MissingETD3PDObject(0, sgkey = "MET_CellOut_Eflow_Muid", prefix = "MET_CellOut_Eflow_Muid") # terms needed to calculate RefFinal with third chain instead of Staco from AthenaCommon.KeyStore import CfgItemList keystore = CfgItemList("KeyStore_inputFile") if keystore.has_item("MissingET#MET_Muons"): alg += MissingETD3PDObject(0, sgkey = "MET_Muons", prefix = "MET_Muons") if keystore.has_item("MissingET#MET_RefMuons"): alg += MissingETD3PDObject(0, sgkey = "MET_RefMuons", prefix = "MET_RefMuons") if keystore.has_item("MissingET#MET_CellOut_Eflow_Muons"): alg += MissingETD3PDObject(0, sgkey = "MET_CellOut_Eflow_Muons", prefix = "MET_CellOut_Eflow_Muons") # I have no idea what these are for alg += MissingETD3PDObject(0, sgkey = "MET_SoftJets", prefix = "MET_SoftJets") alg += MissingETD3PDObject(0, sgkey = "MET_RefFinal_em", prefix = "MET_RefFinal_em") alg += MissingETD3PDObject(0, sgkey = "MET_CellOut_em", prefix = "MET_CellOut_em") alg += MissingETD3PDObject(0, sgkey = "MET_SoftJets_em", prefix = "MET_SoftJets_em") # HadronicRecoil blocks if flags.doHadronicRecoil(): alg += ElectronD3PDObject(0, sgkey = "HR_selectedElectrons", prefix = "hr_el_") alg += MuonD3PDObject( 0, sgkey = "HR_selectedMuons", prefix = "hr_mu_" ) alg += MissingETD3PDObject(0, sgkey = "RoughRecoil_20", prefix = "hr_roughRecoil_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject(0, sgkey = "ueCorrection_20", prefix = "hr_ueCorrection_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject(0, sgkey = "RefinedRecoil_20", prefix = "hr_corrRecoil_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject(0, sgkey = "MET_HR_20", prefix = "hr_MET_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject(0, sgkey = "RoughRecoil_track_20", prefix = "hr_roughRecoil_track_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject(0, sgkey = "ueCorrection_track_20", prefix = "hr_ueCorrection_track_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject(0, sgkey = "RefinedRecoil_track_20", prefix = "hr_corrRecoil_track_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject(0, sgkey = "MET_HR_track_20", prefix = "hr_MET_track_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject(0, sgkey = "RoughRecoil_clusNoTrack_20", prefix = "hr_roughRecoil_clusNoTrack_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject(0, sgkey = "ueCorrection_clusNoTrack_20", prefix = "hr_ueCorrection_clusNoTrack_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject(0, sgkey = "RefinedRecoil_clusNoTrack_20", prefix = "hr_corrRecoil_clusNoTrack_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject(0, sgkey = "MET_HR_clusNoTrack_20", prefix = "hr_MET_clusNoTrack_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject(0, sgkey = "RoughRecoil_Eflow_20", prefix = "hr_roughRecoil_Eflow_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject(0, sgkey = "ueCorrection_Eflow_20", prefix = "hr_ueCorrection_Eflow_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject(0, sgkey = "RefinedRecoil_Eflow_20", prefix = "hr_corrRecoil_Eflow_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject(0, sgkey = "MET_HR_Eflow_20", prefix = "hr_MET_Eflow_20", exclude=['MET_Regions','MET_Comps'] ) """ # track and cluster blocks # ... all clusters, very low LOD alg += ClusterD3PDObject (**_args ( 0, 'Clusters1', kw, exclude='SamplingBasics')) # ... higher LOD for pt>10 GeV if flags.doHighPtClusters(): alg += ClusterD3PDObject (**_args ( 2, 'Clusters2', kw, sgkey = 'HighPtClusters', prefix = 'clpt10_')) if flags.doHighPtEMClusters(): alg += ClusterD3PDObject (**_args ( 3, 'Clusters3', kw, sgkey = 'HighPtEMClusters', prefix = 'emclpt10_')) from TrackD3PDMaker.TrackD3PDObject import TrackD3PDObject # ... good tracks only (nSCT>3; no pt cut) # use standard level of track info for 'GoodTracks' if flags.doGoodTracks(): # use standard level of track info for 'GoodTracks' alg += TrackParticleD3PDObject (**_args ( 3, 'Tracks1', kw, sgkey = 'GoodTracks', label = 'trk', prefix = 'trk_')) # ... high-pt tracks (nSCT>3; pt>5 GeV) if flags.doHighPtTracks(): from TrackD3PDMaker.TrackD3PDMakerFlags import TrackD3PDFlags as highPtFlags highPtFlags.doTruth = True highPtFlags.storeDiagonalCovarianceAsErrors = True highPtFlags.storeHitTruthMatching = True highPtFlags.storePixelHitsOnTrack = False highPtFlags.storePixelHolesOnTrack = False highPtFlags.storePixelOutliersOnTrack = False highPtFlags.storeSCTHitsOnTrack = False highPtFlags.storeSCTHolesOnTrack = False highPtFlags.storeSCTOutliersOnTrack = False highPtFlags.storeTRTHitsOnTrack = False highPtFlags.storeTRTHolesOnTrack = False highPtFlags.storeTRTOutliersOnTrack = False highPtFlags.storeTrackFitQuality = True highPtFlags.storeTrackMomentum = True highPtFlags.storeTrackSummary = True highPtFlags.storeTrackSummary.IDOutliers = True highPtFlags.storeTrackSummary.PixelInfoPlus = True highPtFlags.storeTrackSummary.SCTInfoPlus = True highPtFlags.storeTrackSummary.TRTInfoPlus = True highPtFlags.storeTrackSummary.InfoPlus = True highPtFlags.trackParametersAtBeamSpotLevelOfDetails = 0 highPtFlags.trackParametersAtGlobalPerigeeLevelOfDetails = 2 highPtFlags.trackParametersAtPrimaryVertexLevelOfDetails = 3 HighPtTrackParticleD3PDObject = TrackD3PDObject(_label='trkpt5', _prefix='trkpt5_', _sgkey='HighPtTracks', typeName='Rec::TrackParticleContainer', flags=highPtFlags) alg += HighPtTrackParticleD3PDObject(**_args ( 3, 'Tracks2', kw, sgkey = 'HighPtTracks', label = 'trkpt5', prefix = 'trkpt5_')) """ # Primary vertex block - May be missing in single-beam data. alg += PrimaryVertexD3PDObject (**_args (1, 'PrimaryVertex', kw, allowMissing = True, sgkey = D3PDMakerFlags.VertexSGKey(), prefix = 'vxp_')) # MBTS alg += MBTSD3PDObject (**_args (10, 'MBTS', kw)) alg += MBTSTimeD3PDObject (**_args (10, 'MBTSTime', kw)) alg += MBTSTriggerBitsD3PDObject (**_args (10, 'MBTSTriggerBits', kw)) #alg += CollisionDecisionD3PDObject(**_args (10, 'CollisionDecision', kw)) # Truth if rec.doTruth(): from TruthD3PDMaker.TruthParticleD3PDObject import TruthParticleD3PDObject from MuonD3PDMaker.TruthMuonD3PDObject import TruthMuonD3PDObject alg += TruthMuonD3PDObject (**_args ( 2, 'TruthMuon', kw)) alg += GenEventD3PDObject (**_args ( 1, 'GenEvent', kw)) alg += TruthParticleD3PDObject(**_args ( 1, 'TruthParticle', kw)) # TruthJets alg += JetD3PDObject (**_args ( 1, 'AK4TruthJet', kw, sgkey='AntiKt4TruthJets',prefix='jet_AntiKt4Truth_', allowMissing = True)) alg += JetD3PDObject (**_args ( 1, 'AK6TruthJet', kw, sgkey='AntiKt6TruthJets', prefix='jet_AntiKt6Truth_', allowMissing = True)) alg += JetD3PDObject (**_args ( 1, 'AK4TruthJetALL', kw, sgkey='AntiKt4TruthJets_ALL', prefix='jet_AntiKt4TruthALL_', allowMissing = True)) alg += JetD3PDObject (**_args ( 1, 'AK6TruthJetALL', kw, sgkey='AntiKt6TruthJets_ALL', prefix='jet_AntiKt6TruthALL_', allowMissing = True)) alg += JetD3PDObject (**_args ( 1, 'AK4TruthJetWZ', kw, sgkey='AntiKt4TruthJets_WZ', prefix='jet_AntiKt4TruthWZ_', allowMissing = True)) alg += JetD3PDObject (**_args ( 1, 'AK6TruthJetWZ', kw, sgkey='AntiKt6TruthJets_WZ', prefix='jet_AntiKt6TruthWZ_', allowMissing = True)) if not rec.doTruth(): alg += BeamSpotD3PDObject(10) from TrigMissingETD3PDMaker.TrigMETD3PD import TrigMETD3PDObjects TrigMETD3PDObjects(alg,10) # Trigger if D3PDMakerFlags.DoTrigger(): alg += SMWZTriggerBitsD3PDObject (**_args (10, 'SMWZTriggerBits', kw)) # Trigger Decision + metadata alg += TrigDecisionD3PDObject (**_args(10, 'TrigDecision', kw)) addTrigConfMetadata(alg) # Bunch group info alg += BGCodeD3PDObject (**_args (2, 'BGCode', kw)) # Egamma and Mu TrigEgammaD3PDObjects (alg, 1) TrigMuonD3PDObjects( alg, 1) # Esum #alg += EnergySumROID3PDObject(**_args (2, 'EnergySumROI', kw, # prefix = "trig_L1_esum_")) # The LVL2 information: #alg += TrigMETD3PDObject(**_args( 2, 'TrigMETL2', kw, # prefix = "trig_L2_met_", # sgkey = "HLT_T2MissingET" )) # The EF information: #alg += TrigMETD3PDObject(**_args ( 2, 'TrigMETEF', kw, # prefix = "trig_EF_met_", # sgkey = "HLT_TrigEFMissingET" )) # Event metadata alg.MetadataTools += [LBMetadataConfig()] # Invoke routine to write GSCFactor and WidthFraction jet moments #addSTRUCTCalib('AntiKt4LCTopoJets', input='Topo', mainParam=0.4) #addSTRUCTCalib('AntiKt6LCTopoJets', input='Topo', mainParam=0.6) #addSTRUCTCalib('AntiKt4TopoEMJets', input='Topo', mainParam=0.4) #addSTRUCTCalib('AntiKt6TopoEMJets', input='Topo', mainParam=0.6) if D3PDMakerFlags.FilterCollCand(): from CaloD3PDMaker.CollisionFilterAlg import CollisionFilterAlg alg.filterSeq += CollisionFilterAlg (tuplename + '_CollCandFilter') return alg
for sgkey in D3PDMakerFlags.ElectronSGKey().split(","): if cfgKeyStore.isInInput("ElectronContainer", sgkey): d3pdalg += ElectronD3PDObject(1, include=oflEgammaIncludes) added = True break pass if not added: TriggerD3PDStream_msg.warning("Offline electrons not found in input") pass from egammaD3PDMaker.PhotonD3PDObject import PhotonD3PDObject added = False for sgkey in D3PDMakerFlags.PhotonSGKey().split(","): if cfgKeyStore.isInInput("PhotonContainer", sgkey): d3pdalg += PhotonD3PDObject(1, include=oflEgammaIncludes + ['Samplings'], Samplings_Samplings=[2], Samplings_WriteEnergy=False, Samplings_WritePhi=False) added = True break pass if not added: TriggerD3PDStream_msg.warning("Offline photons not found in input") pass ## ## E/gamma trigger information: ## if triggerAvailable: from TrigEgammaD3PDMaker.TrigEgammaD3PD import TrigEgammaD3PDObjects TrigEgammaD3PDObjects(d3pdalg,
def VertexGroupD3PD(alg=None, file=VertexD3PDAnalysisKeys.D3PDFileName(), treeName=VertexD3PDAnalysisKeys.D3PDTreeName(), **kw): print '[TrackD3PDMaker.VertexGroupD3PD] Vertex group D3PD settings:' print 'VertexD3PDAnalysisFlags' print VertexD3PDAnalysisFlags print 'VertexD3PDAnalysisKeys' print VertexD3PDAnalysisKeys if not alg: ## Create a new algorithm from OutputStreamAthenaPool.MultipleStreamManager import MSMgr alg = MSMgr.NewRootStream(treeName, file) ## General event information (custom options prefix: 'ei_') if VertexD3PDAnalysisFlags.useEventInfo(): from EventCommonD3PDMaker.EventInfoD3PDObject import EventInfoD3PDObject alg += EventInfoD3PDObject(**_args('ei_', kw, level=0, prefix='ei_')) ## Trigger information (custom options prefix: 'trig_') if VertexD3PDAnalysisFlags.useTrigger(): from TriggerJobOpts.TriggerConfigGetter import TriggerConfigGetter cfg = TriggerConfigGetter("ReadPool") from TriggerD3PDMaker.defineTriggerBits import defineTriggerBits from TriggerD3PDMaker.TrigConfMetadata import addTrigConfMetadata from TriggerD3PDMaker.TrigDecisionD3PDObject import TrigDecisionD3PDObject alg += TrigDecisionD3PDObject(**_args('trig_', kw, level=2)) addTrigConfMetadata(alg) if VertexD3PDAnalysisFlags.useTriggerRaw(): from TriggerJobOpts.TriggerConfigGetter import TriggerConfigGetter cfg = TriggerConfigGetter("ReadPool") from TriggerD3PDMaker.defineTriggerBits import defineTriggerBits from TriggerD3PDMaker.TrigConfMetadata import addTrigConfMetadata #Setup custom D3PD object with raw trigger info only (e.g. calibration_vdM streams) from D3PDMakerCoreComps.D3PDObject import make_Void_D3PDObject import TriggerD3PDMaker TrigDecisionD3PDObjectRaw = make_Void_D3PDObject( "trigRaw_", "TrigDecisionD3PDObjectRaw", default_name="TrigDecisionFillerRaw") if not VertexD3PDAnalysisFlags.useTrigger(): TrigDecisionD3PDObjectRaw.defineBlock( 0, "TriggerRawInfo", TriggerD3PDMaker.TrigDecisionFillerTool, SaveLVL1Raw=True, SaveHLTRaw=True, SaveBGCode=True) else: TrigDecisionD3PDObjectRaw.defineBlock( 0, "TriggerRawInfo", TriggerD3PDMaker.TrigDecisionFillerTool, SaveHLTRaw=True, SaveBGCode=True) #Finally add object to algorithms alg += TrigDecisionD3PDObjectRaw(**_args('trig_', kw, level=0)) if not VertexD3PDAnalysisFlags.useTrigger(): #unless we've already added it, add meta-data as well addTrigConfMetadata(alg) ## Beam background information (custom options prefix: 'bkg_') if VertexD3PDAnalysisFlags.useBackgroundWord(): from BackgroundD3PDMaker.BackgroundWordD3PDObject import BackgroundWordD3PDObject alg += BackgroundWordD3PDObject(**_args('bkg_', kw, level=0)) ## Tracks and V0 information (custom options prefix: 'trk_', and 'v0_') if VertexD3PDAnalysisFlags.useTracks(): labelDefaultVtx = VertexD3PDAnalysisKeys.LabelDefaultVtx() prefixDefaultVtx = labelDefaultVtx + '_' #Add trailing '_' import TrackD3PDMaker from TrackD3PDMaker.TrackD3PDMakerFlags import TrackD3PDFlags from TrackD3PDMaker.TrackD3PDObject import TrackD3PDObject from D3PDMakerConfig.D3PDMakerFlags import D3PDMakerFlags from TruthD3PDMaker.TruthD3PDMakerFlags import TruthD3PDFlags from TruthD3PDMaker.TruthD3PDMakerKeys import TruthD3PDKeys VtxD3PD_Track_Exclude = ['vx_weight'] TrackD3PDMaker.PerigeeUnbiasedIPAtPVFillerTool.DoBiased = False #Switch off biased perigee TrackParticleD3PDObjectForVertex = TrackD3PDObject( _label='trk', _prefix='trk_', _sgkey=D3PDMakerFlags.TrackSGKey(), _object_name='TrackParticleD3PDObjectForVertex', typeName='Rec::TrackParticleContainer', vertexTarget=labelDefaultVtx, vertexPrefix=prefixDefaultVtx, vertexSGKey='VxPrimaryCandidate', truthTarget=TruthD3PDFlags.GenParticleAssocLabel(), truthPrefix=TruthD3PDKeys.GenParticlePrefix(), detailedTruthPrefix='', # 'mc_detailed_' SGKeyForTruth=D3PDMakerFlags.TrackSGKey(), truthMapKey='TrackParticleTruthCollection', detailedTruthMapKey='', #'DetailedTrackTruth' flags=TrackD3PDFlags) alg += TrackParticleD3PDObjectForVertex( **_args('trk_', kw, level=8, exclude=VtxD3PD_Track_Exclude)) if VertexD3PDAnalysisFlags.useSecondaryVertex(): from TrackD3PDMaker.V0D3PDObject import V0D3PDObject alg += V0D3PDObject(**_args('v0_', kw, level=10)) ## Store beamspot information (custom option perfix: 'bs_') if VertexD3PDAnalysisFlags.useBeamspot(): from TrackD3PDMaker.BeamSpotD3PDObject import BeamSpotD3PDObject alg += BeamSpotD3PDObject(**_args('bs_', kw, level=0)) ## Store vertex information (custom options prefix: 'vtx_' or 'vtx' for BuildVertexD3PDObject) from TrackD3PDMaker.VertexD3PDObject import PrimaryVertexD3PDObject from TrackD3PDMaker.VertexD3PDObject import BuildVertexD3PDObject from InDetRecExample.InDetKeys import InDetKeys from InDetRecExample.InDetJobProperties import InDetFlags #First dump existing content labelDefaultVtx = VertexD3PDAnalysisKeys.LabelDefaultVtx() prefixDefaultVtx = labelDefaultVtx + '_' #Add trailing '_' VtxDefaultD3PDObj = BuildVertexD3PDObject( **_args('vtx', kw, _prefix=prefixDefaultVtx, _label=labelDefaultVtx, _sgkey=InDetKeys.PrimaryVertices(), trackTarget='trk', trackPrefix='trk_', trackType='Rec::TrackParticleContainer')) alg += VtxDefaultD3PDObj(**_args('vtx_', kw, level=10)) #Then also dump the other vertex collections if VertexD3PDAnalysisFlags.useAllVertexCollections: #Use non BC and split collections (sorry, no customization of parameters here) if not InDetFlags.doSplitVertexFindingForMonitoring(): #raise NameError('Requesting split vertices but algorith has not run!') #pass print( '[TrackD3PDMaker.VertexGroupD3PD] WARNING: Requested split vertices, but algorithm has not run! Skipped.' ) else: SplitPrimaryVertexD3PDObject = BuildVertexD3PDObject( _prefix='vxsplit_', _label='vxsplit', _sgkey=InDetKeys.PrimaryVerticesSplitStream(), trackTarget='trk', trackPrefix='trk_', trackType='Rec::TrackParticleContainer') alg += SplitPrimaryVertexD3PDObject(8) #Then store also non beamspot constrained ones if not InDetFlags.doVertexFindingForMonitoring(): #raise NameError('Requesting NBC vertices but algorith has not run!') #pass print( '[TrackD3PDMaker.VertexGroupD3PD] WARNING: Requested non beamspot constrained vertices, but algorithm has not run! Skipped.' ) else: NoBeamConstraintPrimaryVertexD3PDObject = BuildVertexD3PDObject( _prefix='vxnbc_', _label='vxnbc', _sgkey=InDetKeys.PrimaryVerticesWithoutBeamConstraint(), trackTarget='trk', trackPrefix='trk_', trackType='Rec::TrackParticleContainer') alg += NoBeamConstraintPrimaryVertexD3PDObject(8) ## Store truth-level information (custom options prefix: 'tuthVtx_', 'truthEvt_', 'truthPart_') if VertexD3PDAnalysisFlags.useTruth(): from TruthD3PDAnalysis.TruthD3PDAnalysisConf import D3PD__GenObjectsFilterTool trackGenObjectsFilterTool = D3PD__GenObjectsFilterTool( "trackGenObjectsFilterTool") from AthenaCommon.AppMgr import ToolSvc ToolSvc += trackGenObjectsFilterTool if (VertexD3PDAnalysisFlags.filterTightTruth()): trackGenObjectsFilterTool.SelectTruthTracks = True trackGenObjectsFilterTool.PtMin = VertexD3PDAnalysisKeys.TruthTrackCutPtMin( ) trackGenObjectsFilterTool.EtaMax = VertexD3PDAnalysisKeys.TruthTrackCutEtaMax( ) trackGenObjectsFilterTool.RemoveEmptyEvents = True trackGenObjectsFilterTool.RemoveDummyEvents = True trackGenObjectsFilterTool.RemoveInTimePileUp = False trackGenObjectsFilterTool.Remove2BCPileUp = True trackGenObjectsFilterTool.Remove800nsPileUp = True trackGenObjectsFilterTool.RemoveCavernBkg = False trackGenObjectsFilterTool.AddOnlyFirstVertex = VertexD3PDAnalysisKeys.TruthAddOnlyFirstVertex( ) else: #Use a more inclusive truth policy trackGenObjectsFilterTool.SelectTruthTracks = False trackGenObjectsFilterTool.PtMin = VertexD3PDAnalysisKeys.TruthTrackCutPtMin( ) trackGenObjectsFilterTool.EtaMax = VertexD3PDAnalysisKeys.TruthTrackCutEtaMax( ) trackGenObjectsFilterTool.RemoveEmptyEvents = True trackGenObjectsFilterTool.RemoveDummyEvents = True trackGenObjectsFilterTool.AddOnlyFirstVertex = VertexD3PDAnalysisKeys.TruthAddOnlyFirstVertex( ) from TruthD3PDMaker.GenEventD3PDObject import GenEventD3PDObject alg += GenEventD3PDObject( **_args('truthEvt_', kw, level=10, filter=trackGenObjectsFilterTool, pileup_CollectionGetterRegistry=alg.name() + '_CollectionGetterRegistry')) from TruthD3PDMaker.GenVertexD3PDObject import GenVertexD3PDObject alg += GenVertexD3PDObject(**_args( 'truthVtx_', kw, level=1, filter=trackGenObjectsFilterTool)) from TruthD3PDMaker.GenParticleD3PDObject import GenParticleD3PDObject alg += GenParticleD3PDObject(**_args( 'truthPart_', kw, level=10, filter=trackGenObjectsFilterTool)) from TruthD3PDMaker.GenParticleD3PDObject import GenTruthTrackD3PDObject alg += GenTruthTrackD3PDObject(**_args('truthTrack_', kw, level=0)) ## Dump higher level objects # Missing Energy (custom options prefix with VertexD3PDAnalysisKeys.MetCollections+'_') if VertexD3PDAnalysisFlags.useMET(): for MET in VertexD3PDAnalysisKeys.MetCollections(): VtxD3PD_Met_Key = MET VtxD3PD_Met_Prefix = MET.replace('_', '') + '_' VtxD3PD_Met_Level = 0 #Only basic info VtxD3PD_Met_Exclude = ['MET_Regions', 'L1_', 'L2_', 'EF_'] from MissingETD3PDMaker.MissingETD3PDObject import RefFinalMETD3PDObject VtxD3PD_Met_Obj = RefFinalMETD3PDObject( **_args(MET + '_', kw, level=VtxD3PD_Met_Level, sgkey=VtxD3PD_Met_Key, prefix=VtxD3PD_Met_Prefix, exclude=VtxD3PD_Met_Exclude)) alg += VtxD3PD_Met_Obj #Muons (custom options prefix VtxD3PD_Muon_Prefix -- see below [e.g. muid_, staco_, ...]) if VertexD3PDAnalysisFlags.useMuons(): from MuonD3PDMaker.MuonD3PDObject import MuonD3PDObject for Muon in VertexD3PDAnalysisKeys.MuonCollections(): VtxD3PD_Muon_Key = Muon VtxD3PD_Muon_Prefix = Muon + '_' if VtxD3PD_Muon_Key == 'MuidMuonCollection': VtxD3PD_Muon_Prefix = 'muid_' elif VtxD3PD_Muon_Key == 'StacoMuonCollection': VtxD3PD_Muon_Prefix = 'staco_' VtxD3PD_Muon_Level = 0 #Only basic info VtxD3PD_Muon_Exclude = [ 'EFCBInfo', 'EFMGInfo', 'EFMEInfo', 'L2CBInfo', 'L1Info', 'L1_', 'L2_', 'EF_' ] VtxD3PD_Muon_Obj = MuonD3PDObject( **_args(VtxD3PD_Muon_Prefix, kw, level=VtxD3PD_Muon_Level, sgkey=VtxD3PD_Muon_Key, prefix=VtxD3PD_Muon_Prefix, allowMissing=True, exclude=VtxD3PD_Muon_Exclude)) alg += VtxD3PD_Muon_Obj #Electrons (custom options prefix: 'el_') if VertexD3PDAnalysisFlags.useElectrons(): from egammaD3PDMaker.ElectronD3PDObject import ElectronD3PDObject alg += ElectronD3PDObject(**_args('el_', kw, prefix='el_', level=0)) #Photons (custom options prefix: 'ph_') if VertexD3PDAnalysisFlags.usePhotons(): from egammaD3PDMaker.PhotonD3PDObject import PhotonD3PDObject alg += PhotonD3PDObject(**_args('ph_', kw, prefix='ph_', level=0)) #Jets, JVF, b-jets (custom options prefix: 'jet_') if VertexD3PDAnalysisFlags.useJets(): from JetD3PDMaker.JetD3PDObject import JetD3PDObject from JetTagD3PDMaker.JetTagD3PDMakerKeys import JetTagD3PDKeys from JetTagD3PDMaker.AddBTagD3PDInfo import addBTagInfoToJetObject addBTagInfoToJetObject(JetD3PDObject, btagLevelOffset=0) VtxD3PD_Jet_Include = [ 'Kinematics', 'JetVertexFraction', 'JVtx', 'EMFraction', 'TrueFlavorComponents', JetTagD3PDKeys.BTagWeightsBlockName() ] for JET in VertexD3PDAnalysisKeys.JetCollections(): VtxD3PD_Jet_Prefix = JET.replace('_', '') + '_' if len(VertexD3PDAnalysisKeys.JetCollections()) == 1: #only 1 element, simplify prefix VtxD3PD_Jet_Prefix = 'jet_' alg += JetD3PDObject(**_args('jet_', kw, sgkey=JET, prefix=VtxD3PD_Jet_Prefix, level=0, include=VtxD3PD_Jet_Include)) #Taus if VertexD3PDAnalysisFlags.useTaus(): from TauD3PDMaker.TauD3PDObject import TauD3PDObject VtxD3PD_Tau_Include = ['TauPriVtx'] alg += TauD3PDObject(**_args( 'tau_', kw, prefix='tau_', level=0, include=VtxD3PD_Tau_Include)) ## Return algorithm return alg
def physicsD3PD(alg=None, trigalg=None, file='physics.root', tuplename='physics', **kw): # Core algorithm # By default the user of this function should have created an algorithm already. # But for backwards compatibility let the function create its own algorithm if # needed... if not alg: from OutputStreamAthenaPool.MultipleStreamManager import MSMgr alg = MSMgr.NewRootStream(tuplename, file) alg += EventInfoD3PDObject(**_args(10, 'EventInfo', kw)) # Segregate trigger decision flags in a separate tree. if not trigalg: from OutputStreamAthenaPool.MultipleStreamManager import MSMgr trigalg = MSMgr.NewRootStream(tuplename + ':' + tuplename + 'TrigDec', FileName=file, TreeName=tuplename + 'TrigDec') trigalg += EventInfoD3PDObject(0) alg.Stream.trigDecisionTree = trigalg # Add bunch structure metadata. from TriggerD3PDMaker.BunchStructureMetadata \ import addBunchStructureMetadata addBunchStructureMetadata(alg) # Make track jets, but we can only do this if we have vertices. if testSGKey('VxContainer', 'VxPrimaryCandidate'): from D3PDMakerConfig.createTrackJets import createTrackJets createTrackJets(AlgSequence(D3PDMakerFlags.PreD3PDAlgSeqName())) alg += JetD3PDObject(**_args( -1, 'TrackJet', kw, prefix='trackjet_', sgkey='AntiKtZ5TrackJets')) k = 'Electron_EgammaTrackJetSignedIPAndPTRel_target' if not kw.has_key(k): kw[k] = 'trackjet_' alg += LArCollisionTimeD3PDObject(**_args(10, 'LArCollisionTime', kw)) # Electron/Photon blocks alg += ElectronD3PDObject( **_args(10, 'Electron', kw, EgammaJetSignedIPAndPTRel_target='jet_antikt4h1topo_')) alg += PhotonD3PDObject( **_args(10, 'Photon', kw, ConversionVertexTrackIndex_target='trk')) if testSGKey('ElectronContainer', D3PDMakerFlags.GSFElectronSGKey()): alg += GSFElectronD3PDObject( **_args(level, 'GSFElectron', kw, sgkey=D3PDMakerFlags.GSFElectronSGKey(), prefix='el_gsf_')) # Muon blocks alg += MuonD3PDObject(**_args(10, 'MuidMuon', kw, sgkey='MuidMuonCollection', prefix='mu_muid_', allowMissing=True)) alg += MuonD3PDObject(**_args(10, 'StacoMuon', kw, sgkey='StacoMuonCollection', prefix='mu_staco_', allowMissing=True)) alg += MuonD3PDObject(**_args( 10, 'Muons', kw, sgkey='Muons', prefix='mu_', allowMissing=True)) # Tau block alg += TauD3PDObject(**_args(1, 'Tau', kw)) # Jet blocks alg += JetD3PDObject(**_args(9, 'AK4TopoJet', kw, sgkey='AntiKt4TopoEMJets,' + 'AntiKt4TopoJets,' + 'AntiKt4H1TopoJets', prefix='jet_antikt4h1topo_', ConstitIndex_Target='cl_', exclude=['Constituents'], allowMissing=True)) alg += JetD3PDObject(**_args(6, 'AK4TowerJet', kw, sgkey='AntiKt4TowerAODJets,' + 'AntiKt4TowerJets,' + 'AntiKt4H1TowerJets', prefix='jet_antikt4h1tower_', exclude=['Constituents'], allowMissing=True)) alg += JetD3PDObject(**_args(6, 'AK6TowerJet', kw, sgkey='AntiKt6TowerAODJets,' + 'AntiKt6TowerJets,' + 'AntiKt6H1TowerJets', prefix='jet_antikt6h1tower_', exclude=['Constituents'], allowMissing=True)) #alg += JetD3PDObject (**_args ( 9, 'AK4TopoJetLC', kw, # sgkey='AntiKt4LCTopoJets', prefix='jet_antikt4lctopo_')) #alg += JetD3PDObject (**_args ( 9, 'AK6TopoJetLC', kw, # sgkey='AntiKt6LCTopoMyJets', prefix='jet_antikt6lctopo_')) #alg += JetD3PDObject (**_args ( 9, 'AK6TopoJetH1', kw, # sgkey='AntiKt6H1TopoMyJets', prefix='jet_antikt6h1topo_')) # MET blocks alg += MissingETD3PDObject(**_args(10, 'MissingET', kw, allowMissing=True)) alg += MissingETGoodnessD3PDObject(**_args(2, 'METGoodness', kw)) # track and cluster blocks alg += ClusterD3PDObject(**_args(1, 'Cluster', kw)) alg += EMClusterD3PDObject(**_args(2, 'EMCluster', kw)) # Many of these are just being set to the defaults --- that's because # they're being changed in TrigEgamma... alg += TrackParticleD3PDObject( **_args(3, 'TrackParticle', kw, TruthParticleTarget='mc_', storeTruthInfo=True, trackParametersAtGlobalPerigeeLevelOfDetails=3, storeDiagonalCovarianceAsErrors=True)) # MBTS alg += MBTSD3PDObject(**_args(10, 'MBTS', kw)) alg += MBTSTimeD3PDObject(**_args(10, 'MBTSTime', kw)) alg += MBTSTriggerBitsD3PDObject(**_args(10, 'MBTSTriggerBits', kw)) alg += CollisionDecisionD3PDObject(**_args(10, 'CollisionDecision', kw)) # ZDC alg += ZDCTriggerBitsD3PDObject(**_args(10, 'ZDCTriggerBits', kw)) # Primary vertex block - May be missing in single-beam data. alg += PrimaryVertexD3PDObject( **_args(1, 'PrimaryVertex', kw, allowMissing=True, sgkey=D3PDMakerFlags.VertexSGKey(), prefix='vxp_', storeVertexTrackAssociation=True, storeDiagonalCovarianceAsErrors=True)) # Truth if rec.doTruth(): from MuonD3PDMaker.TruthMuonD3PDObject import TruthMuonD3PDObject alg += TruthMuonD3PDObject(**_args(2, 'TruthMuon', kw)) alg += GenEventD3PDObject(**_args(1, 'GenEvent', kw)) alg += TruthParticleD3PDObject(**_args(1, 'TruthParticle', kw)) alg += JetD3PDObject(**_args(3, 'AK4TruthJet', kw, sgkey='AntiKt4TruthJets', prefix='jet_antikt4truth_', allowMissing=True)) #alg += JetD3PDObject (**_args ( 3, 'AK6Ttruth', kw, # sgkey='AntiKt6TruthJets', # prefix='jet_antikt6truth_')) # Trigger if D3PDMakerFlags.DoTrigger(): from TriggerD3PDMaker.TrigDecisionD3PDObject \ import TrigDecisionD3PDObject alg += TrigDecisionD3PDObject(**_args(2, 'TrigDecision', kw)) TrigEgammaD3PDObjects(alg, **_args(1, 'TrigEgamma', kw)) alg += egammaTriggerBitsD3PDObject(**_args(2, 'EgammaTriggerBits', kw)) alg += MuonTriggerBitsD3PDObject(**_args(2, 'MuonTriggerBits', kw)) alg += METD3PDTriggerBitsObject(**_args(2, 'METTriggerBits', kw)) from TriggerD3PDMaker.EnergySumROID3PDObject import EnergySumROID3PDObject from TrigMissingETD3PDMaker.TrigMETD3PDObject import TrigMETD3PDObject alg += EnergySumROID3PDObject(**_args( 2, 'EnergySumROI', kw, prefix="trig_L1_esum_", allowMissing=True)) # The LVL2 information: alg += TrigMETD3PDObject(**_args( 2, 'TrigMETL2', kw, prefix="trig_L2_met_", sgkey="HLT_T2MissingET")) # The EF information: alg += TrigMETD3PDObject(**_args(2, 'TrigMETEF', kw, prefix="trig_EF_met_", sgkey="HLT_TrigEFMissingET")) from TriggerD3PDMaker.BGCodeD3PDObject import BGCodeD3PDObject alg += BGCodeD3PDObject(**_args(2, 'BGCode', kw)) # Event metadata alg.MetadataTools += [LBMetadataConfig()] if D3PDMakerFlags.FilterCollCand(): from CaloD3PDMaker.CollisionFilterAlg import CollisionFilterAlg alg.filterSeq += CollisionFilterAlg(tuplename + '_CollCandFilter') return alg
def JetD3PD(file, level=4, tuplename='jet', seq=topSequence, D3PDSvc='D3PD::RootD3PDSvc'): egammaUserDataConfig(seq) if rec.doTruth(): truthParticleConfig(seq) JetIncludes = ['AssocTrackCont'] alg = D3PDMakerCoreComps.MakerAlg(tuplename, seq, file=file, D3PDSvc=D3PDSvc) #-- General alg += EventInfoD3PDObject(level) alg += ElectronD3PDObject(0) alg += PhotonD3PDObject(0) alg += MuonD3PDObject(0) alg += PrimaryxAODVertexD3PDObject(4, allowMissing=True, sgkey=D3PDMakerFlags.VertexSGKey(), prefix='vxp_') #-- JET alg += JetD3PDObject(level, sgkey='AntiKt4H1TopoJets', include=JetIncludes, prefix='AntiKt4H1Topo_') alg += JetD3PDObject(level, sgkey='AntiKt6H1TopoJets', include=JetIncludes, prefix='AntiKt6H1Topo_') #alg += JetD3PDObject (level, sgkey='Cone4H1TopoJets', include = JetIncludes, prefix='Cone4H1Topo_' ) #-- MET alg += RefFinalMETD3PDObject(level) alg += MuonMETD3PDObject(level) alg += MuonBoyMETD3PDObject(level) alg += FinalMETD3PDObject(level) alg += CryoMETD3PDObject(level) alg += CryoConeMETD3PDObject(level) alg += RefEleMETD3PDObject(level) alg += RefJetMETD3PDObject(level) alg += RefGammaMETD3PDObject(level) alg += RefTauMETD3PDObject(level) alg += CellOutMETD3PDObject(level) alg += BaseMETD3PDObject(level) alg += Base0METD3PDObject(level) alg += CalibMETD3PDObject(level) alg += MuonBoySpectroMETD3PDObject(level) alg += MuonBoyTrackMETD3PDObject(level) alg += TopoMETD3PDObject(level) alg += CorrTopoMETD3PDObject(level) alg += LocHadTopoMETD3PDObject(level) alg += TopoObjMETD3PDObject(level) #-- Trigger if D3PDMakerFlags.DoTrigger(): alg += jetMETTriggerBitsD3PDObject(level) #-- Truth if rec.doTruth(): alg += GenEventD3PDObject(1) #alg += TruthParticleD3PDObject (level) #alg += JetD3PDObject (level, sgkey='Cone4TruthJets' , prefix='Cone4Truth_' ) alg += JetD3PDObject(3, sgkey='AntiKt4TruthJets', prefix='AntiKt4Truth_') #alg += JetD3PDObject (3, sgkey='AntiKt6TruthJets', prefix='AntiKt6Truth_' ) #-- Meta Data alg.MetadataTools += [LBMetadataConfig()] return alg
def egammaD3PD(alg=None, trigalg=None, level=10, file='egamma.root', tuplename='egamma', **kw): preseq = AlgSequence(D3PDMakerFlags.PreD3PDAlgSeqName()) createxAOD(preseq) if not cfgKeyStore.isInInput('xAOD::ElectronContainer', 'AllElectrons'): preseq += MergeElectrons() # Core algorithm # By default the user of this function should have created an algorithm already. # But for backwards compatibility let the function create its own algorithm if # needed... if not alg: from OutputStreamAthenaPool.MultipleStreamManager import MSMgr alg = MSMgr.NewRootStream(tuplename, file) alg += EventInfoD3PDObject(**_args(level, 'EventInfo', kw)) # Segregate trigger decision flags in a separate tree. if not trigalg: from OutputStreamAthenaPool.MultipleStreamManager import MSMgr trigalg = MSMgr.NewRootStream(tuplename + ':' + tuplename + 'TrigDec', FileName=file, TreeName=tuplename + 'TrigDec') trigalg += EventInfoD3PDObject(0) alg.Stream.trigDecisionTree = trigalg # Add bunch structure metadata. from TriggerD3PDMaker.BunchStructureMetadata \ import addBunchStructureMetadata addBunchStructureMetadata(alg) alg += LArCollisionTimeD3PDObject(**_args(level, 'LArCollisionTime', kw)) alg += ElectronD3PDObject(**_args( level, 'Electron', kw, EgammaJetSignedIPAndPTRel_target='jet_')) alg += PhotonD3PDObject(**_args(level, 'Photon', kw)) # # Additional muon variables for Zg skims. # if not MuonD3PDObject.allBlocknames().has_key("MuonScatteringAngleSignificance"): # from AthenaCommon.AppMgr import ToolSvc # muonScatteringSigTool=None # if hasattr(ToolSvc, "MuonScatteringSigTool"): # muonScatteringSigTool=ToolSvc.MuonScatteringSigTool # from JetTagD3PDMaker import MuonScatteringAngleSignificanceFillerTool # MuonD3PDObject.defineBlock (100, "MuonScatteringAngleSignificance", # MuonScatteringAngleSignificanceFillerTool, # ScatteringSigTool=muonScatteringSigTool) alg += MuonD3PDObject(**_args( 10, 'Muons', kw, sgkey='StacoMuonCollection,Muons', prefix='mu_', include=[ "EFCBInfoIndex", "EFMGInfoIndex", "EFMEInfoIndex", "L2CBInfoIndex", "L1InfoIndex", "MuonScatteringAngleSignificance" ], exclude=["EFCBInfo", "EFMGInfo", "EFMEInfo", "L2CBInfo", "L1Info"], allowMissing=True)) alg += JetD3PDObject( **_args(0, 'Jet', kw, include=['JetQual', 'DQMoments'])) alg += MBTSD3PDObject(**_args(level, 'MBTS', kw)) alg += MBTSTimeD3PDObject(**_args(level, 'MBTSTime', kw)) # alg += MBTSTriggerBitsD3PDObject (**_args (level, 'MBTSTriggerBits', kw)) # alg += ZDCTriggerBitsD3PDObject (**_args (level, 'ZDCTriggerBits', kw)) alg += CollisionDecisionD3PDObject(**_args(level, 'CollisionDecision', kw)) alg += MissingETD3PDObject(**_args(level, 'MissingET', kw, sgkey='MET_Core_AntiKt4EMTopo', prefix='MET_RefFinal_')) if D3PDMakerFlags.DoTrigger(): from TriggerD3PDMaker.TrigDecisionD3PDObject \ import TrigDecisionD3PDObject alg += TrigDecisionD3PDObject(**_args(2, 'TrigDecision', kw)) #TrigEgammaD3PDObjects (alg, **_args (1, 'TrigEgamma', kw, # TrigEMCluster_level = 2)) # from TriggerD3PDMaker.EnergySumROID3PDObject import EnergySumROID3PDObject # from TrigMissingETD3PDMaker.TrigMETD3PDObject import TrigMETD3PDObject # alg += EnergySumROID3PDObject(**_args (level, 'EnergySumROI', kw, # prefix = "trig_L1_esum_", # allowMissing = True)) # # The LVL2 information: # alg += TrigMETD3PDObject(**_args( level, 'TrigMETL2', kw, # prefix = "trig_L2_met_", # sgkey = "HLT_T2MissingET" )) # if cfgKeyStore.isInInputFile( "TrigMissingETContainer", "HLT_L2MissingET_FEB" ): # alg += TrigMETD3PDObject(**_args( level, 'TrigMETL2_FEB', kw, # prefix = "trig_L2_feb_met_", # sgkey = "HLT_L2MissingET_FEB" )) # # The EF information: # alg += TrigMETD3PDObject(**_args ( level, 'TrigMETEF', kw, # prefix = "trig_EF_met_", # sgkey = "HLT_TrigEFMissingET" )) # from TriggerD3PDMaker.BGCodeD3PDObject import BGCodeD3PDObject # alg += BGCodeD3PDObject (**_args (2, 'BGCode', kw)) # May be missing in single-beam data. alg += PrimaryxAODVertexD3PDObject(**_args( 1, 'PrimaryVertex', kw, #allowMissing = True, sgkey=D3PDMakerFlags.VertexSGKey(), prefix='vxp_', storeVertexTrackIndexAssociation=False, storeVertexTrackAssociation=True, storeDiagonalCovarianceAsErrors=True)) if rec.doTruth(): from MuonD3PDMaker.TruthMuonD3PDObject import TruthMuonD3PDObject alg += TruthMuonD3PDObject(**_args(level, 'TruthMuon', kw)) alg += TruthEventD3PDObject(**_args(1, 'TruthEvent', kw)) alg += TruthParticleD3PDObject(**_args(level, 'TruthParticle', kw)) # alg.MetadataTools += [LBMetadataConfig()] # if D3PDMakerFlags.FilterCollCand(): # from CaloD3PDMaker.CollisionFilterAlg import CollisionFilterAlg # alg.filterSeq += CollisionFilterAlg (tuplename + '_CollCandFilter') return alg
def MCPphysicsD3PD(file, tuplename='physics', seq=topSequence, D3PDSvc='D3PD::RootD3PDSvc', streamNameRoot=None, **kw): # define track and cluster filters filter1 = makeTrackFilterAlg(TracksName=D3PDMakerFlags.TrackSGKey(), OutputTracksName='GoodTracks', ptCut=0., nSCTPix=4) filter2 = makeTrackFilterAlg(TracksName=D3PDMakerFlags.TrackSGKey(), OutputTracksName='HighPtTracks', ptCut=5000., nSCTPix=4) filter3 = makeClusterFilter(InputName=D3PDMakerFlags.ClusterSGKey(), OutputName='HighPtClusters', ptCut=10000.) # FIXME (Maarten) : I need to give the container name explicitly apparently filter4 = makeClusterFilter(InputName='EMTopoCluster430', OutputName='HighPtEMClusters', ptCut=10000.) preseq = AlgSequence(D3PDMakerFlags.PreD3PDAlgSeqName()) preseq += filter1 preseq += filter2 preseq += filter3 preseq += filter4 # now configure the D3PD alg = MSMgr.NewRootStream(StreamName=streamNameRoot, FileName=file, TreeName=tuplename) alg += EventInfoD3PDObject(**_args(10, 'EventInfo', kw)) alg += LArCollisionTimeD3PDObject(**_args(10, 'LArCollisionTime', kw)) # Eta rings of energy # FIXME brian crashing aod running if not rec.readAOD: from CaloD3PDMaker.RapgapD3PDObject import EtaRingsNonTileD3PDObject from CaloD3PDMaker.RapgapD3PDObject import EtaRingsD3PDObject alg += EtaRingsNonTileD3PDObject(**_args(0, 'EtaRings', kw)) alg += EtaRingsD3PDObject(**_args(0, 'EtaRings', kw)) # Electron/Photon blocks # alg += ElectronD3PDObject (**_args (10, 'Electron', kw, # exclude = ['EMTrackFitDetails','EgammaJetSignedIPAndPTRelKin'])) alg += PhotonD3PDObject(**_args(10, 'Photon', kw)) # Muon blocks alg += MuonD3PDObject(**_args( 10, 'Muons', kw, sgkey='Muons', prefix='mu_', include=[ "EFCBInfoIndex", "EFMGInfoIndex", "EFMEInfoIndex", "L2CBInfoIndex", "L1InfoIndex" ], exclude=["EFCBInfo", "EFMGInfo", "EFMEInfo", "L2CBInfo", "L1Info"], allowMissing=True)) alg += MuonD3PDObject(**_args( 10, 'MuidMuon', kw, sgkey='MuidMuonCollection', prefix='mu_muid_', include=[ "EFCBInfoIndex", "EFMGInfoIndex", "EFMEInfoIndex", "L2CBInfoIndex", "L1InfoIndex" ], exclude=["EFCBInfo", "EFMGInfo", "EFMEInfo", "L2CBInfo", "L1Info"], allowMissing=True)) alg += MuonD3PDObject(**_args( 10, 'StacoMuon', kw, sgkey='StacoMuonCollection', prefix='mu_staco_', include=[ "EFCBInfoIndex", "EFMGInfoIndex", "EFMEInfoIndex", "L2CBInfoIndex", "L1InfoIndex" ], exclude=["EFCBInfo", "EFMGInfo", "EFMEInfo", "L2CBInfo", "L1Info"], allowMissing=True)) alg += MuonD3PDObject(**_args( 0, 'CaloMuon', kw, sgkey='CaloMuonCollection', prefix='mu_calo_')) # Tau block # alg += TauD3PDObject (**_args ( 1, 'Tau', kw)) # Jet blocks alg += JetD3PDObject( **_args(3, 'AK4TopoEMJet', kw, sgkey='AntiKt4TopoEMJets', prefix='jet_akt4topoem_', include=['BTag', 'TrueFlavorComponents', 'BTagComponents'], allowMissing=True)) alg += JetD3PDObject( **_args(3, 'AK6TopoEMJet', kw, sgkey='AntiKt6TopoEMJets', prefix='jet_akt6topoem_', include=['BTag', 'TrueFlavorComponents', 'BTagComponents'], allowMissing=True)) from TopInputsD3PDMaker.HforD3PDObject import HforD3PDObject alg += HforD3PDObject(**_args(0, 'HforInfo', kw)) # MET blocks # a whole mess to remove x,y components separately for all flavours alg += MissingETD3PDObject(**_args( 10, 'MissingET', kw, exclude=[ 'MET_Base', 'MET_Base0', 'MET_Truth_Int', 'MET_RefFinal_Comps', 'MET_Calib_Comps', 'MET_CellOut_Comps', 'MET_CorrTopo_Comps', 'MET_Cryo_Comps', 'MET_CryoCone_Comps', 'MET_Final_Comps', 'MET_LocHadTopo_Comps', 'MET_LocHadTopoObj_Comps', 'MET_Muid_Comps', 'MET_Muid_Spectro_Comps', 'MET_Muid_Track_Comps', 'MET_MuonBoy_Comps', 'MET_MuonBoy_Spectro_Comps', 'MET_MuonBoy_Track_Comps', 'MET_MuonMuid_Comps', 'MET_Muon_Comps', 'MET_Muon_Isol_Muid_Comps', 'MET_Muon_Isol_Staco_Comps', 'MET_Muon_NonIsol_Muid_Comps', 'MET_Muon_NonIsol_Staco_Comps', 'MET_Muon_Total_Muid_Comps', 'MET_Muon_Total_Staco_Comps', 'MET_RefEle_Comps', 'MET_RefEle_em_Comps', 'MET_RefGamma_Comps', 'MET_RefGamma_em_Comps', 'MET_RefJet_Comps', 'MET_RefJet_em_Comps', 'MET_RefMuon_Comps', 'MET_RefMuon_Muid_Comps', 'MET_RefMuon_Staco_Comps', 'MET_RefMuon_Track_Muid_Comps', 'MET_RefMuon_Track_Staco_Comps', 'MET_RefMuon_Track_em_Comps', 'MET_RefMuon_Track_Comps', 'MET_RefMuon_em_Comps', 'MET_RefTau_Comps', 'MET_RefTau_em_Comps', 'MET_SoftJets_Comps', 'MET_SoftJets_em_Comps', 'MET_Topo_Comps', 'MET_TopoObj_Comps', 'MET_Track_Comps', 'MET_Composition' ], allowMissing=True)) # HadronicRecoil blocks # alg += ElectronD3PDObject(0, sgkey = "HR_selectedElectrons", prefix = "hr_el_") # alg += MuonD3PDObject( 0, sgkey = "HR_selectedMuons", prefix = "hr_mu_" ) # alg += MissingETD3PDObject(0, sgkey = "RoughRecoil", prefix = "hr_roughRecoil") # alg += MissingETD3PDObject(0, sgkey = "ueCorrection", prefix = "hr_ueCorrection") # track and cluster blocks # ... all clusters, very low LOD alg += ClusterD3PDObject( **_args(0, 'Clusters1', kw, exclude='SamplingBasics')) # ... higher LOD for pt>10 GeV alg += ClusterD3PDObject( **_args(2, 'Clusters2', kw, sgkey='HighPtClusters', prefix='clpt10_')) alg += ClusterD3PDObject(**_args( 3, 'Clusters3', kw, sgkey='HighPtEMClusters', prefix='emclpt10_')) # ... good tracks only (nSCT>3; no pt cut) alg += TrackParticleD3PDObject(**_args( 3, 'Tracks1', kw, sgkey='GoodTracks', label='trk', prefix='trk_')) # ... high-pt tracks (nSCT>3; pt>5 GeV) from TrackD3PDMaker.TrackD3PDMakerFlags import TrackD3PDFlags as highPtFlags highPtFlags.doTruth = True highPtFlags.storeDiagonalCovarianceAsErrors = True highPtFlags.storeHitTruthMatching = True highPtFlags.storePixelHitsOnTrack = False highPtFlags.storePixelHolesOnTrack = False highPtFlags.storePixelOutliersOnTrack = False highPtFlags.storeSCTHitsOnTrack = False highPtFlags.storeSCTHolesOnTrack = False highPtFlags.storeSCTOutliersOnTrack = False highPtFlags.storeTRTHitsOnTrack = False highPtFlags.storeTRTHolesOnTrack = False highPtFlags.storeTRTOutliersOnTrack = False highPtFlags.storeTrackFitQuality = True highPtFlags.storeTrackMomentum = True highPtFlags.storeTrackSummary = True highPtFlags.trackParametersAtBeamSpotLevelOfDetails = 0 highPtFlags.trackParametersAtGlobalPerigeeLevelOfDetails = 2 highPtFlags.trackParametersAtPrimaryVertexLevelOfDetails = 3 from TrackD3PDMaker.TrackD3PDObject import TrackD3PDObject HighPtTrackParticleD3PDObject = TrackD3PDObject( _label='trkpt5', _prefix='trkpt5_', _sgkey='HighPtTracks', typeName='Rec::TrackParticleContainer', flags=highPtFlags) alg += HighPtTrackParticleD3PDObject(**_args(3, 'Tracks2', kw, sgkey='HighPtTracks', label='trkpt5', prefix='trkpt5_')) # Primary vertex block - May be missing in single-beam data. alg += PrimaryVertexD3PDObject(**_args(1, 'PrimaryVertex', kw, allowMissing=True, sgkey=D3PDMakerFlags.VertexSGKey(), prefix='vxp_')) # MBTS alg += MBTSD3PDObject(**_args(10, 'MBTS', kw)) alg += MBTSTimeD3PDObject(**_args(10, 'MBTSTime', kw)) alg += MBTSTriggerBitsD3PDObject(**_args(10, 'MBTSTriggerBits', kw)) #alg += CollisionDecisionD3PDObject(**_args (10, 'CollisionDecision', kw)) # Truth if rec.doTruth(): from TruthD3PDMaker.TruthParticleD3PDObject import TruthParticleD3PDObject from MuonD3PDMaker.TruthMuonD3PDObject import TruthMuonD3PDObject alg += TruthMuonD3PDObject(**_args(2, 'TruthMuon', kw)) alg += GenEventD3PDObject(**_args(1, 'GenEvent', kw)) alg += TruthParticleD3PDObject(**_args(1, 'TruthParticle', kw)) # TruthJets alg += JetD3PDObject(**_args(1, 'AK4TruthJet', kw, sgkey='AntiKt4TruthJets', prefix='jet_antikt4truth_')) alg += JetD3PDObject(**_args(1, 'AK6TruthJet', kw, sgkey='AntiKt6TruthJets', prefix='jet_antikt6truth_')) alg += JetD3PDObject(**_args(1, 'AK4TruthJetALL', kw, sgkey='AntiKt4TruthJets_ALL', prefix='jet_antikt4truthALL_')) alg += JetD3PDObject(**_args(1, 'AK6TruthJetALL', kw, sgkey='AntiKt6TruthJets_ALL', prefix='jet_antikt6truthALL_')) alg += JetD3PDObject(**_args(1, 'AK4TruthJetWZ', kw, sgkey='AntiKt4TruthJets_WZ', prefix='jet_antikt4truthWZ_')) alg += JetD3PDObject(**_args(1, 'AK6TruthJetWZ', kw, sgkey='AntiKt6TruthJets_WZ', prefix='jet_antikt6truthWZ_')) if not rec.doTruth(): alg += BeamSpotD3PDObject(10) # Trigger if D3PDMakerFlags.DoTrigger(): # Trigger Decision + metadata alg += TrigDecisionD3PDObject(**_args(10, 'TrigDecision', kw)) addTrigConfMetadata(alg) # Bunch group info alg += BGCodeD3PDObject(**_args(2, 'BGCode', kw)) # Egamma and Mu TrigEgammaD3PDObjects(alg, 0) # TrigMuonD3PDObjects( alg, 0) # Esum alg += EnergySumROID3PDObject( **_args(2, 'EnergySumROI', kw, prefix="trig_L1_esum_")) # The LVL2 information: alg += TrigMETD3PDObject(**_args( 2, 'TrigMETL2', kw, prefix="trig_L2_met_", sgkey="HLT_T2MissingET")) # The EF information: alg += TrigMETD3PDObject(**_args(2, 'TrigMETEF', kw, prefix="trig_EF_met_", sgkey="HLT_TrigEFMissingET")) # Event metadata alg.MetadataTools += [LBMetadataConfig()] if D3PDMakerFlags.FilterCollCand(): from CaloD3PDMaker.CollisionFilterAlg import CollisionFilterAlg alg.filterSeq += CollisionFilterAlg(tuplename + '_CollCandFilter') return alg
def WPrimeEND3PD(alg=None, file='smwz.root', tuplename='physics', streamname='d3pdstream', doSoftQCD=False, **kw): # now configure the D3PD if not alg: alg = MSMgr.NewRootStream(StreamName=streamname, FileName=file, TreeName=tuplename) alg += EventInfoD3PDObject(**_args(10, 'EventInfo', kw)) # Electron/Photon blocks elInclude = [ 'Kinematics', 'Charge', 'Author', 'isEM', 'OQ', 'HadLeakage', 'Layer1Shape', 'Layer1ShapeExtra', 'Layer2Shape', 'Layer3Shape', 'Iso', 'IsoPtCorrected', 'ConvFlags', 'TrkMatch', 'Retaphi', 'Pointing', 'Samplings', 'ClusterKin', 'D3PD__egammaRawClusterAssociationTool', 'TrkInfo', 'Truth', 'Trk', 'TrkFitQuality', 'IDHits', 'TrackSummaryPID', 'Vertex', 'trackOldImpactpvunbiased', 'trackImpactpvunbiased', 'IsIso', 'MVAIso', 'PAU', 'PAUVariables', 'EFIndex', 'L1Index', 'trackImpactpv', 'trackPVPerigeeAssoc' ] alg += ElectronD3PDObject( **_args(0, 'Electron', kw, sgkey=kw.get('electronContainer', 'ElectronAODCollection'), include=elInclude)) alg += PhotonD3PDObject(**_args(0, 'Photon', kw, include=['ClusterKin'], exclude=['IsEMCuts', 'IsGoodOQCuts'])) # Jet blocks from JetTagD3PDMaker.JetTagD3PDMakerFlags import JetTagD3PDFlags alg += JetD3PDObject( **_args(1, 'AK4TopoEMJet', kw, sgkey='AntiKt4TopoEMJets', prefix='jet_AntiKt4TopoEM_', include=[], exclude=[ 'JESMoments', 'JVtx', 'OriginCorrection', 'El02Match', 'Mu02Match', 'L1Info', 'L2Info', 'EFInfo' ], allowMissing=True)) alg += JetD3PDObject( **_args(1, 'AK4LCTopoJet', kw, sgkey='AntiKt4LCTopoJets', prefix='jet_AntiKt4LCTopo_', include=[], exclude=[ 'JESMoments', 'JVtx', 'OriginCorrection', 'El02Match', 'Mu02Match', 'L1Info', 'L2Info', 'EFInfo' ], allowMissing=True)) # EventShape variables alg += EventShapeD3PDObject(**_args(0, 'rho', kw)) #MET metKeys = [ 'MET_LocHadTopo', 'MET_RefFinal', 'MET_RefEle', 'MET_RefFinal_em', 'MET_CellOut_Eflow', 'MET_MuonBoy', 'MET_RefMuons', 'MET_RefMuon', 'MET_Truth_NonInt', 'MET_RefJet', 'MET_SoftJets', 'MET_RefGamma', 'MET_RefTau', 'MET_CellOut', 'MET_RefFinal_STVF', 'MET_RefJet_JVF', 'MET_RefJet_JVFCut', 'MET_CellOut_Eflow_STVF', 'MET_CellOut_Eflow_JetArea', 'MET_CellOut_Eflow_JetAreaRhoEta5JVF' ] for key in metKeys: alg += MissingETD3PDObject(**_args( 4, key, kw, prefix=key, sgkey=key, #include=['MET_Phi','MET_Et','MET_SumEt','MET_etx','MET_ety','MissingETComposition'], exclude=[ 'MET_Calo', 'MET_Calo_Phi', 'MET_Calo_Et', 'MET_Calo_SumEt', 'MET_Calo_EMFracSET', 'MET_Calo_Samplings', 'MET_Calo_Regions' ], allowMissing=True)) #EMFrac for MET_LocHadTopo alg += TopoMETD3PDObject( **_args(-1, 'MET_LocHadTopo_SUMET_EMFrac', kw, prefix='MET_LocHadTopo_', name_prefix='MET_LocHadTopo_SUMET_EMFrac_', sgkey='MET_LocHadTopo', include=['MET_Calo_EMFracSET'], exclude=[], allowMissing=True)) alg += MissingETCompositionD3PDObject( **_args(4, "MissingETComposition", kw)) # Primary vertex block - May be missing in single-beam data. alg += PrimaryVertexD3PDObject(**_args(1, 'PrimaryVertex', kw, allowMissing=True, sgkey=D3PDMakerFlags.VertexSGKey(), prefix='vxp_')) # Trigger if D3PDMakerFlags.DoTrigger(): alg += WPrimeENTriggerBitsD3PDObject( **_args(10, 'WPrimeENTriggerBits', kw)) # Trigger Decision + metadata alg += TrigDecisionD3PDObject(**_args(10, 'TrigDecision', kw)) addTrigConfMetadata(alg) # Egamma alg += InitTrigD3PDObject(1) alg += EFElectronD3PDObject(1, name='trig_EF_el_', sgkey='HLT_egamma_Electrons,HLT_egamma', prefix='trig_EF_el_', allowMissing=True) alg += EFPhotonD3PDObject(1, name='trig_EF_ph_', sgkey='HLT_egamma_Photons,HLT_egamma', prefix='trig_EF_ph_', allowMissing=True) # Event metadata alg.MetadataTools += [LBMetadataConfig()] if D3PDMakerFlags.FilterCollCand(): from CaloD3PDMaker.CollisionFilterAlg import CollisionFilterAlg alg.filterSeq += CollisionFilterAlg(tuplename + '_CollCandFilter') return alg
def SMWZD3PD (alg = None, file = 'smwz.root', tuplename = 'physics', streamname = 'd3pdstream', doSoftQCD = False, doThirdMuonChain = True, stdElectronContainer = D3PDMakerFlags.ElectronSGKey(), gsfElectronContainer = D3PDMakerFlags.GSFElectronSGKey(), muonContainer = 'None', # can be 'Muons' for third muon chain stacoMuonContainer = 'StacoMuonCollection', muidMuonContainer = 'MuidMuonCollection', caloMuonContainer = 'CaloMuonCollection', photonContainer = D3PDMakerFlags.PhotonSGKey(), tauContainer = D3PDMakerFlags.TauSGKey(), jetEM4Container = 'AntiKt4TopoEMJets', #Commented by Bertrand jetEM6Container = 'AntiKt6TopoEMJets', jetLC4Container = 'AntiKt4LCTopoJets', jetLC6Container = 'AntiKt6LCTopoJets', #jetEM4Container = 'AntiKt4TopoEMJetsReTagged', #jetEM6Container = 'AntiKt6TopoEMJetsReTagged', #jetLC4Container = 'AntiKt4LCTopoJetsReTagged', #jetLC6Container = 'AntiKt6LCTopoJetsReTagged', jetDetails = 3, # for the moment only level 2 and 3 are defined METDetails = 3, # for the moment only level 2 and 3 are defined **kw): if doThirdMuonChain and muonContainer == 'None': muonContainer = 'Muons' # define associations if not PhotonD3PDObject.allBlocknames().has_key('RecoveryMatch'): from PhotonD3PDMaker.PhotonRecoveryAssociation import PhotonRecoveryAssociation if (stdElectronContainer != 'None'): PhotonRecoveryAssoc = PhotonRecoveryAssociation(PhotonD3PDObject, 'ElectronContainer', stdElectronContainer, prefix = 'el_', blockname = 'RecoveryMatch', target = 'ph_ElectronRecovered_') # define track and cluster filters preseq = AlgSequence (D3PDMakerFlags.PreD3PDAlgSeqName()) if not hasattr( preseq, "GoodTracks" ): filter1 = makeTrackFilterAlg(TracksName = D3PDMakerFlags.TrackSGKey(), OutputTracksName='GoodTracks', ptCut=0.,nSCTPix=4) preseq += filter1 if not hasattr( preseq, "HighPtTracks" ): filter2 = makeTrackFilterAlg(TracksName = D3PDMakerFlags.TrackSGKey(), OutputTracksName='HighPtTracks', ptCut=4000.,nSCTPix=4) preseq += filter2 if not hasattr( preseq, "HighPtClusters" ): filter3 = makeClusterFilter(InputName = D3PDMakerFlags.ClusterSGKey(), OutputName = 'HighPtClusters', ptCut=10000.) preseq += filter3 if not hasattr( preseq, "HighPtEMClusters" ): filter4 = makeClusterFilter(InputName = D3PDMakerFlags.EMTopoClusterSGKey(), OutputName = 'HighPtEMClusters', ptCut=10000.) preseq += filter4 # perform recoil calculation import HadronicRecoil.Configurables as hrc preseq = hrc.add_hadronic_recoil_filters(preseq) # beam background stuff from RecBackgroundAlgs.RecBackgroundAlgsConf import BeamBackgroundFiller if not hasattr( preseq, "BeamBackgroundFiller" ): BeamBackgroundFiller=BeamBackgroundFiller() preseq += BeamBackgroundFiller # now configure the D3PD if not alg: alg = MSMgr.NewRootStream(StreamName = streamname, FileName = file, TreeName = tuplename) alg += EventInfoD3PDObject (**_args (10, 'EventInfo', kw)) alg += LArCollisionTimeD3PDObject (**_args (10, 'LArCollisionTime', kw)) from TriggerD3PDMaker.BunchStructureMetadata import addBunchStructureMetadata addBunchStructureMetadata (alg) from BackgroundD3PDMaker.BeamBackgroundD3PDObject import BeamBackgroundD3PDObject from BackgroundD3PDMaker.BackgroundWordD3PDObject import BackgroundWordD3PDObject alg += BackgroundWordD3PDObject (**_args(0, 'BkgWord', kw)) alg += BeamBackgroundD3PDObject(1) # Electron/Photon blocks if (stdElectronContainer != 'None'): alg += ElectronD3PDObject (**_args (10, 'Electron', kw, sgkey = stdElectronContainer)) if (gsfElectronContainer != 'None') and testSGKey ('ElectronContainer', gsfElectronContainer): alg += GSFElectronD3PDObject (**_args (10, 'GSFElectron', kw, sgkey = gsfElectronContainer, prefix = 'el_gsf_')) if (photonContainer != 'None'): alg += PhotonD3PDObject (**_args (10, 'Photon', kw, sgkey = photonContainer)) # Muon blocks ### Third muon chain variables! if (muonContainer != 'None'): alg += MuonD3PDObject (**_args (10, 'Muon', kw, sgkey=muonContainer, prefix='mu_', include = ["EFCBInfoIndex", "EFMGInfoIndex", "EFMEInfoIndex", "L2CBInfoIndex", "L1InfoIndex"], exclude = ["EFCBInfo", "EFMGInfo", "EFMEInfo", "L2CBInfo", "L1Info"], allowMissing = True )) ### Third muon chain variables! if (muidMuonContainer != 'None'): alg += MuonD3PDObject (**_args (10, 'MuidMuon', kw, sgkey=muidMuonContainer, prefix='mu_muid_', include = ["EFCBInfoIndex", "EFMGInfoIndex", "EFMEInfoIndex", "L2CBInfoIndex", "L1InfoIndex"], exclude = ["EFCBInfo", "EFMGInfo", "EFMEInfo", "L2CBInfo", "L1Info"], allowMissing = True )) if (stacoMuonContainer != 'None'): alg += MuonD3PDObject (**_args (10, 'StacoMuon', kw, sgkey=stacoMuonContainer, prefix='mu_staco_', include = ["EFCBInfoIndex", "EFMGInfoIndex", "EFMEInfoIndex", "L2CBInfoIndex", "L1InfoIndex"], exclude = ["EFCBInfo", "EFMGInfo", "EFMEInfo", "L2CBInfo", "L1Info"], allowMissing = True )) if (caloMuonContainer != 'None'): alg += MuonD3PDObject (**_args (10, 'CaloMuon', kw, sgkey=caloMuonContainer, prefix='mu_calo_', include = ["MuonHitSummary", "Authors", "Likelihood", "Isolation", "CaloEnergyLoss", "Quality"] )) # Tau block if (tauContainer != 'None'): alg += TauD3PDObject (**_args ( 1, 'Tau', kw, sgkey = tauContainer)) # Jet blocks from JetTagD3PDMaker.JetTagD3PDMakerFlags import JetTagD3PDFlags from JetTagD3PDMaker.JetTagD3PDMakerKeys import JetTagD3PDKeys ## add MSV target to the jetd3pd object properties if not kw.has_key ('AK4TopoEMJet_'+JetTagD3PDKeys.MultiSVInfoPlusMSVVtxAssocBlockName()+'_target'): kw['AK4TopoEMJet_'+JetTagD3PDKeys.MultiSVInfoPlusMSVVtxAssocBlockName()+'_target']= JetTagD3PDKeys.MSVVtxInfoInJetGetterLabel() if not kw.has_key ('AK6TopoEMJet_'+JetTagD3PDKeys.MultiSVInfoPlusMSVVtxAssocBlockName()+'_target'): kw['AK6TopoEMJet_'+JetTagD3PDKeys.MultiSVInfoPlusMSVVtxAssocBlockName()+'_target']= JetTagD3PDKeys.MSVVtxInfoInJetGetterLabel() ## add track index for IPInfoPlus if not kw.has_key ('AK4TopoEMJet_'+JetTagD3PDKeys.IPInfoPlusTrackAssocBlockName()+'_target'): kw['AK4TopoEMJet_'+JetTagD3PDKeys.IPInfoPlusTrackAssocBlockName()+'_target']= "trk" if not kw.has_key ('AK6TopoEMJet_'+JetTagD3PDKeys.IPInfoPlusTrackAssocBlockName()+'_target'): kw['AK6TopoEMJet_'+JetTagD3PDKeys.IPInfoPlusTrackAssocBlockName()+'_target']= "trk" ## add track index for SVInfoPlus if not kw.has_key ('AK4TopoEMJet_'+JetTagD3PDKeys.SVInfoPlusTrackAssocBlockName()+'_target'): kw['AK4TopoEMJet_'+JetTagD3PDKeys.SVInfoPlusTrackAssocBlockName()+'_target']= "trk" if not kw.has_key ('AK6TopoEMJet_'+JetTagD3PDKeys.SVInfoPlusTrackAssocBlockName()+'_target'): kw['AK6TopoEMJet_'+JetTagD3PDKeys.SVInfoPlusTrackAssocBlockName()+'_target']= "trk" ## add track index for SV0InfoPlus if not kw.has_key ('AK4TopoEMJet_'+JetTagD3PDKeys.SV0InfoPlusTrackAssocBlockName()+'_target'): kw['AK4TopoEMJet_'+JetTagD3PDKeys.SV0InfoPlusTrackAssocBlockName()+'_target']= "trk" if not kw.has_key ('AK6TopoEMJet_'+JetTagD3PDKeys.SV0InfoPlusTrackAssocBlockName()+'_target'): kw['AK6TopoEMJet_'+JetTagD3PDKeys.SV0InfoPlusTrackAssocBlockName()+'_target']= "trk" ## add MSV target to the jetd3pd object properties if not kw.has_key ('AK4LCTopoJet_'+JetTagD3PDKeys.MultiSVInfoPlusMSVVtxAssocBlockName()+'_target'): kw['AK4LCTopoJet_'+JetTagD3PDKeys.MultiSVInfoPlusMSVVtxAssocBlockName()+'_target']= JetTagD3PDKeys.MSVVtxInfoInJetGetterLabel() if not kw.has_key ('AK6LCTopoJet_'+JetTagD3PDKeys.MultiSVInfoPlusMSVVtxAssocBlockName()+'_target'): kw['AK6LCTopoJet_'+JetTagD3PDKeys.MultiSVInfoPlusMSVVtxAssocBlockName()+'_target']= JetTagD3PDKeys.MSVVtxInfoInJetGetterLabel() ## add track index for IPInfoPlus if not kw.has_key ('AK4LCTopoJet_'+JetTagD3PDKeys.IPInfoPlusTrackAssocBlockName()+'_target'): kw['AK4LCTopoJet_'+JetTagD3PDKeys.IPInfoPlusTrackAssocBlockName()+'_target']= "trk" if not kw.has_key ('AK6LCTopoJet_'+JetTagD3PDKeys.IPInfoPlusTrackAssocBlockName()+'_target'): kw['AK6LCTopoJet_'+JetTagD3PDKeys.IPInfoPlusTrackAssocBlockName()+'_target']= "trk" ## add track index for SVInfoPlus if not kw.has_key ('AK4LCTopoJet_'+JetTagD3PDKeys.SVInfoPlusTrackAssocBlockName()+'_target'): kw['AK4LCTopoJet_'+JetTagD3PDKeys.SVInfoPlusTrackAssocBlockName()+'_target']= "trk" if not kw.has_key ('AK6LCTopoJet_'+JetTagD3PDKeys.SVInfoPlusTrackAssocBlockName()+'_target'): kw['AK6LCTopoJet_'+JetTagD3PDKeys.SVInfoPlusTrackAssocBlockName()+'_target']= "trk" ## add track index for SV0InfoPlus if not kw.has_key ('AK4LCTopoJet_'+JetTagD3PDKeys.SV0InfoPlusTrackAssocBlockName()+'_target'): kw['AK4LCTopoJet_'+JetTagD3PDKeys.SV0InfoPlusTrackAssocBlockName()+'_target']= "trk" if not kw.has_key ('AK6LCTopoJet_'+JetTagD3PDKeys.SV0InfoPlusTrackAssocBlockName()+'_target'): kw['AK6LCTopoJet_'+JetTagD3PDKeys.SV0InfoPlusTrackAssocBlockName()+'_target']= "trk" if jetDetails == 3: jetInclude = JetTagD3PDFlags.StdInfoInclude()+[JetTagD3PDKeys.MultiSVInfoPlusBlockName()] jetInclude += [JetTagD3PDKeys.JetFitterCharmTagInfoBlockName(), JetTagD3PDKeys.JetFitterCharmInfoBaseBlockName()] else: jetInclude = [ JetTagD3PDKeys.BTagWeightsBlockName(), JetTagD3PDKeys.TruthInfoBlockName() ] if (jetEM4Container != 'None'): alg += JetD3PDObject (**_args ( 4, 'AK4TopoEMJet', kw, sgkey=jetEM4Container, prefix='jet_AntiKt4TopoEM_', include = jetInclude+['BeamBackground','ConstituentScale','TracksMoments'], JetVertexFraction_FromUD=False, JetVertexFraction_FillFullJVF=False, allowMissing = True)) if (jetEM6Container != 'None'): alg += JetD3PDObject (**_args ( 4, 'AK6TopoEMJet', kw, sgkey=jetEM6Container, prefix='jet_AntiKt6TopoEM_', include = jetInclude+['BeamBackground','ConstituentScale','TracksMoments'], JetVertexFraction_FromUD=False, JetVertexFraction_FillFullJVF=False, allowMissing = True)) if (jetLC4Container != 'None'): alg += JetD3PDObject (**_args ( 4, 'AK4LCTopoJet', kw, sgkey=jetLC4Container, prefix='jet_AntiKt4LCTopo_', include = jetInclude+['BeamBackground','ConstituentScale','TracksMoments'], JetVertexFraction_FromUD=False, JetVertexFraction_FillFullJVF=False, allowMissing = True)) if (jetLC6Container != 'None'): alg += JetD3PDObject (**_args ( 4, 'AK6LCTopoJet', kw, sgkey=jetLC6Container, prefix='jet_AntiKt6LCTopo_', include = jetInclude+['BeamBackground','ConstituentScale','TracksMoments'], JetVertexFraction_FromUD=False, JetVertexFraction_FillFullJVF=False, allowMissing = True)) ### add the MSV block MSVJetCollections = [] if (jetEM4Container != 'None'): MSVJetCollections += [jetEM4Container] if (jetEM6Container != 'None'): MSVJetCollections += [jetEM6Container] if (jetLC4Container != 'None'): MSVJetCollections += [jetLC4Container] if (jetLC6Container != 'None'): MSVJetCollections += [jetLC6Container] ### link multisv to tracks if not kw.has_key ('msvvtxinfo_JetTag_JetMultiSVVtxAssoc_target'): kw['msvvtxinfo_JetTag_JetMultiSVVtxAssoc_target']= "trk" from JetTagD3PDMaker.JetTagMSVVtxInJetD3PDObject import getJetTagMSVVtxInfoInJetD3PDObject alg += getJetTagMSVVtxInfoInJetD3PDObject(**_args(1,"msvvtxinfo", kw, jetCollections=MSVJetCollections) ) from TopInputsD3PDMaker.HforD3PDObject import HforD3PDObject alg += HforD3PDObject(**_args (0, 'HforInfo', kw)) # MET blocks # a whole mess to remove x,y components separately for all flavours if METDetails >= 3: alg += MissingETD3PDObject (**_args (10, 'MissingET', kw, exclude=['MET_Base', 'MET_Base0', 'MET_Truth_Int', 'MET_RefFinal_Comps','MET_Calib_Comps','MET_CellOut_Comps', 'MET_CorrTopo_Comps','MET_Cryo_Comps','MET_CryoCone_Comps', 'MET_Final_Comps','MET_LocHadTopo_Comps', 'MET_LocHadTopoObj_Comps','MET_Muid_Comps', 'MET_Muid_Spectro_Comps','MET_Muid_Track_Comps', 'MET_MuonBoy_Comps','MET_MuonBoy_Spectro_Comps', 'MET_MuonBoy_Track_Comps','MET_MuonMuid_Comps', 'MET_Muon_Comps','MET_Muon_Isol_Muid_Comps', 'MET_Muon_Isol_Staco_Comps','MET_Muon_NonIsol_Muid_Comps', 'MET_Muon_NonIsol_Staco_Comps','MET_Muon_Total_Muid_Comps', 'MET_Muon_Total_Staco_Comps','MET_RefEle_Comps', 'MET_RefEle_em_Comps','MET_RefGamma_Comps', 'MET_RefGamma_em_Comps','MET_RefJet_Comps', 'MET_RefJet_em_Comps','MET_RefMuon_Comps', 'MET_RefMuon_Muid_Comps','MET_RefMuon_Staco_Comps', 'MET_RefMuon_Track_Muid_Comps','MET_RefMuon_Track_Staco_Comps', 'MET_RefMuon_Track_em_Comps','MET_RefMuon_Track_Comps', 'MET_RefMuon_em_Comps','MET_RefTau_Comps', 'MET_RefTau_em_Comps','MET_SoftJets_Comps', 'MET_SoftJets_em_Comps','MET_Topo_Comps', 'MET_TopoObj_Comps','MET_Track_Comps','MET_Comps', 'MET_Track_Weights','MET_Cluster_Weights'], allowMissing=True)) elif METDetails > 0: alg += MissingETD3PDObject (**_args (10, 'MissingET', kw, exclude=['MET_Base','MET_Base0','MET_Truth', 'MET_CellOut_Comps','MET_CellOut_Regions', 'MET_CellOut_em_Comps','MET_CellOut_em_Regions', 'MET_CellOut_Eflow_Comps','MET_CellOut_Eflow_Regions', 'MET_Calib', 'MET_CorrTopo', 'MET_Cryo', 'MET_CryoCone', 'MET_Final', 'MET_LocHadTopo_Comps', 'MET_LocHadTopoObj', 'MET_Muid', 'MET_Muid_Spectro', 'MET_Muid_Track', 'MET_MuonBoy_Regions', 'MET_MuonBoy_Spectro', 'MET_MuonBoy_Track', 'MET_MuonMuid', 'MET_Muon', 'MET_Muon_Isol_Muid', 'MET_Muon_Isol_Staco', 'MET_Muon_NonIsol_Muid', 'MET_Muon_NonIsol_Staco', 'MET_Muon_Total_Muid', 'MET_Muon_Total_Staco', 'MET_RefEle_Comps','MET_RefEle_Regions', 'MET_RefEle_em_Comps','MET_RefEle_em_Regions', 'MET_RefGamma_Comps','MET_RefGamma_Regions', 'MET_RefGamma_em_Comps','MET_RefGamma_em_Regions', 'MET_RefJet_Comps','MET_RefJet_Regions', 'MET_RefJet_em_Comps','MET_RefJet_em_Regions', 'MET_RefMuon_Comps','MET_RefMuon_Regions', 'MET_RefMuon_Muid_Comps','MET_RefMuon_Muid_Regions', 'MET_RefMuon_Staco_Comps','MET_RefMuon_Staco_Regions', 'MET_RefMuon_Track_Muid_Comps','MET_RefMuon_Track_Muid_Regions', 'MET_RefMuon_Track_Staco_Comps','MET_RefMuon_Track_Staco_Regions', 'MET_RefMuon_Track_em_Comps','MET_RefMuon_Track_em_Regions', 'MET_RefMuon_Track_Comps','MET_RefMuon_Track_Regions', 'MET_RefMuon_em_Comps','MET_RefMuon_em_Regions', 'MET_RefTau_Comps','MET_RefTau_Regions', 'MET_RefTau_em_Comps','MET_RefTau_em_Regions', 'MET_SoftJets_Comps','MET_SoftJets_Regions', 'MET_SoftJets_em_Comps','MET_SoftJets_em_Regions', 'MET_Topo', 'MET_TopoObj_Comps','MET_TopoObj_Regions', 'MET_Track_Comps','MET_Track_Regions', 'MET_Track_Weights','MET_Cluster_Weights', 'MET_Comps' ], allowMissing=True )) if METDetails > 0: add_met (alg) # track and cluster blocks # ... all clusters, very low LOD alg += ClusterD3PDObject (**_args ( 0, 'Clusters1', kw, exclude='SamplingBasics')) # ... higher LOD for pt>10 GeV alg += ClusterD3PDObject (**_args ( 2, 'Clusters2', kw, sgkey = 'HighPtClusters', prefix = 'clpt10_')) alg += ClusterD3PDObject (**_args ( 3, 'Clusters3', kw, sgkey = 'HighPtEMClusters', prefix = 'emclpt10_')) from TrackD3PDMaker.TrackD3PDObject import TrackD3PDObject # ... good tracks only (nSCT>3; no pt cut) # turn on detailed track info if writing SoftQCD version of D3PD if doSoftQCD : from TrackD3PDMaker.TrackD3PDMakerFlags import TrackD3PDFlags as softQcdFlags softQcdFlags.doTruth = True softQcdFlags.storeDetailedTruth = False softQcdFlags.storeDiagonalCovarianceAsErrors = True softQcdFlags.storeHitTruthMatching = True softQcdFlags.storePixelHitsOnTrack = False softQcdFlags.storePixelHolesOnTrack = False softQcdFlags.storePixelOutliersOnTrack = False softQcdFlags.storeSCTHitsOnTrack = False softQcdFlags.storeSCTHolesOnTrack = False softQcdFlags.storeSCTOutliersOnTrack = False softQcdFlags.storeTRTHitsOnTrack = False softQcdFlags.storeTRTHolesOnTrack = False softQcdFlags.storeTRTOutliersOnTrack = False softQcdFlags.storeTrackFitQuality = True softQcdFlags.storeTrackInfo = True softQcdFlags.storeTrackMomentum = True softQcdFlags.storeTrackPredictionAtBLayer = True softQcdFlags.storeTrackSummary = True softQcdFlags.trackParametersAtBeamSpotLevelOfDetails = 0 softQcdFlags.trackParametersAtGlobalPerigeeLevelOfDetails = 2 softQcdFlags.trackParametersAtPrimaryVertexLevelOfDetails = 2 SoftQCDTrackParticleD3PDObject = TrackD3PDObject(_label='trk', _prefix='trk_', _sgkey='GoodTracks', typeName='Rec::TrackParticleContainer', truthMapKey='TrackParticleTruthCollection', SGKeyForTruth=D3PDMakerFlags.TrackSGKey(), flags=softQcdFlags) alg += SoftQCDTrackParticleD3PDObject(**_args ( 3, 'Tracks1', kw, sgkey = 'GoodTracks', label = 'trk', prefix = 'trk_')) else : # ... use standard level of track info for 'GoodTracks' alg += TrackParticleD3PDObject (**_args ( 3, 'Tracks1', kw, sgkey = 'GoodTracks', label = 'trk', prefix = 'trk_')) # ... high-pt tracks (nSCT>3; pt>5 GeV) from TrackD3PDMaker.TrackD3PDMakerFlags import TrackD3PDFlags as highPtFlags highPtFlags.doTruth = True highPtFlags.storeDiagonalCovarianceAsErrors = True highPtFlags.storeHitTruthMatching = True highPtFlags.storePixelHitsOnTrack = False highPtFlags.storePixelHolesOnTrack = False highPtFlags.storePixelOutliersOnTrack = False highPtFlags.storeSCTHitsOnTrack = False highPtFlags.storeSCTHolesOnTrack = False highPtFlags.storeSCTOutliersOnTrack = False highPtFlags.storeTRTHitsOnTrack = False highPtFlags.storeTRTHolesOnTrack = False highPtFlags.storeTRTOutliersOnTrack = False highPtFlags.storeTrackFitQuality = True highPtFlags.storeTrackMomentum = True highPtFlags.storeTrackSummary = True highPtFlags.storeTrackSummary.IDOutliers = True highPtFlags.storeTrackSummary.PixelInfoPlus = True highPtFlags.storeTrackSummary.SCTInfoPlus = True highPtFlags.storeTrackSummary.TRTInfoPlus = True highPtFlags.storeTrackSummary.InfoPlus = True highPtFlags.trackParametersAtBeamSpotLevelOfDetails = 0 highPtFlags.trackParametersAtGlobalPerigeeLevelOfDetails = 2 highPtFlags.trackParametersAtPrimaryVertexLevelOfDetails = 3 HighPtTrackParticleD3PDObject = TrackD3PDObject(_label='trkpt4', _prefix='trkpt4_', _sgkey='HighPtTracks', typeName='Rec::TrackParticleContainer', truthMapKey='TrackParticleTruthCollection', SGKeyForTruth=D3PDMakerFlags.TrackSGKey(), flags=highPtFlags) alg += HighPtTrackParticleD3PDObject(**_args ( 3, 'Tracks2', kw, sgkey = 'HighPtTracks', label = 'trkpt4', prefix = 'trkpt4_')) # Primary vertex block - May be missing in single-beam data. alg += PrimaryVertexD3PDObject (**_args (1, 'PrimaryVertex', kw, allowMissing = True, sgkey = D3PDMakerFlags.VertexSGKey(), prefix = 'vxp_')) # MBTS alg += MBTSD3PDObject (**_args (10, 'MBTS', kw)) alg += MBTSTimeD3PDObject (**_args (10, 'MBTSTime', kw)) alg += MBTSTriggerBitsD3PDObject (**_args (10, 'MBTSTriggerBits', kw)) #alg += CollisionDecisionD3PDObject(**_args (10, 'CollisionDecision', kw)) ### EventShape variables Bertrand alg += EventShapeD3PDObject(**_args(0, 'rho', kw)) # Truth if rec.doTruth(): from TruthD3PDMaker.TruthParticleD3PDObject import TruthParticleD3PDObject alg += TruthParticleD3PDObject(**_args ( 1, 'TruthParticle', kw)) from MuonD3PDMaker.TruthMuonD3PDObject import TruthMuonD3PDObject alg += TruthMuonD3PDObject (**_args ( 2, 'TruthMuon', kw)) from AthenaCommon.AppMgr import ToolSvc from TruthD3PDAnalysis.TruthD3PDAnalysisConf import D3PD__GenObjectsFilterTool # ... remove empty GenEvents smwzGenEvtFilterTool = D3PD__GenObjectsFilterTool( "smwzGenEvtFilterTool" ) ToolSvc += smwzGenEvtFilterTool smwzGenEvtFilterTool.RemoveDummyEvents = True smwzGenEvtFilterTool.RemoveInTimePileUp = True smwzGenEvtFilterTool.Remove2BCPileUp = True smwzGenEvtFilterTool.Remove800nsPileUp = True smwzGenEvtFilterTool.RemoveCavernBkg = True smwzGenEvtFilterTool.RemoveEmptyEvents = True from TruthD3PDMaker.GenEventD3PDObject import GenEventD3PDObject alg += GenEventD3PDObject (**_args ( 0, 'GenEvent', kw, filter = smwzGenEvtFilterTool )) # ... TruthJets if not testSGKey ('JetCollection', 'AntiKt6TruthJets'): make_StandardJetGetter('AntiKt', 0.6, 'Truth') alg += JetD3PDObject (**_args ( 1, 'AK4TruthJet', kw, sgkey='AntiKt4TruthJets',prefix='jet_AntiKt4Truth_', allowMissing = True)) alg += JetD3PDObject (**_args ( 1, 'AK6TruthJet', kw, sgkey='AntiKt6TruthJets', prefix='jet_AntiKt6Truth_', allowMissing = True)) alg += JetD3PDObject (**_args ( 1, 'AK4TruthJetALL', kw, sgkey='AntiKt4TruthJets_ALL', prefix='jet_AntiKt4TruthALL_', allowMissing = True)) alg += JetD3PDObject (**_args ( 1, 'AK6TruthJetALL', kw, sgkey='AntiKt6TruthJets_ALL', prefix='jet_AntiKt6TruthALL_', allowMissing = True)) alg += JetD3PDObject (**_args ( 1, 'AK4TruthJetWZ', kw, sgkey='AntiKt4TruthJets_WZ', prefix='jet_AntiKt4TruthWZ_', allowMissing = True)) alg += JetD3PDObject (**_args ( 1, 'AK6TruthJetWZ', kw, sgkey='AntiKt6TruthJets_WZ', prefix='jet_AntiKt6TruthWZ_', allowMissing = True)) # ... heavy flavor truth information from AthenaCommon.AppMgr import ToolSvc from TruthD3PDAnalysis.TruthD3PDAnalysisConf import D3PD__GenObjectsFilterTool smwzhfGenVtxFilterTool = D3PD__GenObjectsFilterTool( "SMWZHFGenVtxFilterTool" ) ToolSvc += smwzhfGenVtxFilterTool smwzhfGenVtxFilterTool.RemoveInTimePileUp = False smwzhfGenVtxFilterTool.Remove2BCPileUp = True smwzhfGenVtxFilterTool.Remove800nsPileUp = True smwzhfGenVtxFilterTool.RemoveCavernBkg = True smwzhfGenVtxFilterTool.RemoveEmptyEvents = True smwzhfGenVtxFilterTool.RemoveDummyEvents = True smwzhfGenVtxFilterTool.RemoveUnrequestedParticles=True smwzhfGenVtxFilterTool.KeepBCHadrons=True from TruthD3PDMaker.GenVertexD3PDObject import GenVertexD3PDObject alg += GenVertexD3PDObject( **_args(0, "hfgenvertex", kw, prefix='mchfvtx_', filter = smwzhfGenVtxFilterTool ) ) smwzhfGenPartFilterTool = D3PD__GenObjectsFilterTool( "SMWZHFGenPartFilterTool" ) ToolSvc += smwzhfGenPartFilterTool smwzhfGenPartFilterTool.RemoveInTimePileUp = False smwzhfGenPartFilterTool.Remove2BCPileUp = True smwzhfGenPartFilterTool.Remove800nsPileUp = True smwzhfGenPartFilterTool.RemoveCavernBkg = True smwzhfGenPartFilterTool.RemoveEmptyEvents = True smwzhfGenPartFilterTool.RemoveDummyEvents = True smwzhfGenPartFilterTool.RemoveUnrequestedParticles=True smwzhfGenPartFilterTool.KeepBCQuarks=True smwzhfGenPartFilterTool.KeepBCQuarkAncestors=True smwzhfGenPartFilterTool.KeepBCHadrons=True smwzhfGenPartFilterTool.KeepBCHadronDecayChain=True smwzhfGenPartFilterTool.BCHadronsDescendantsPtCut=200 smwzhfGenPartFilterTool.BCHadronsDescendantsBarcodeCut=300000 smwzhfGenPartFilterTool.BCHadronsDescendantsEtaCut=5 from TruthD3PDMaker.GenParticleD3PDObject import GenParticleD3PDObject alg += GenParticleD3PDObject( **_args(10, "hfgenparticle", kw, prefix='mchfpart_', filter = smwzhfGenPartFilterTool, GenParticle_WriteMotherType=False, GenParticle_WriteMotherBarcode=False ) ) # ... leptonic W/Z truth information smwzlepwzGenPartFilterTool = D3PD__GenObjectsFilterTool( "SMWZLepWZGenPartFilterTool" ) ToolSvc += smwzlepwzGenPartFilterTool smwzlepwzGenPartFilterTool.RemoveInTimePileUp = True smwzlepwzGenPartFilterTool.Remove2BCPileUp = True smwzlepwzGenPartFilterTool.Remove800nsPileUp = True smwzlepwzGenPartFilterTool.RemoveCavernBkg = True smwzlepwzGenPartFilterTool.RemoveEmptyEvents = True smwzlepwzGenPartFilterTool.RemoveDummyEvents = True smwzlepwzGenPartFilterTool.RemoveUnrequestedParticles=True smwzlepwzGenPartFilterTool.KeepLeptonicWZBosons=True smwzlepwzGenPartFilterTool.KeepLeptonicWZBosonDecayChains=True smwzlepwzGenPartFilterTool.KeepLeptonicWZBosonsParents=True from TruthD3PDMaker.GenParticleD3PDObject import GenParticleD3PDObject alg += GenParticleD3PDObject( **_args(10, "lepwzgenparticle", kw, prefix='mclepwzpart_', filter = smwzlepwzGenPartFilterTool, label = "LepWZTruthD3PDObject", exclude = ["GenPartProdVertexAssoc","GenPartDecayVertexAssoc"], GenParticle_WriteMotherType=False, GenParticle_WriteMotherBarcode=False, GenPartMotherAssoc_target="LepWZTruthD3PDObject", GenPartChildAssoc_target="LepWZTruthD3PDObject" ) ) if not rec.doTruth(): alg += BeamSpotD3PDObject(10) # Trigger if D3PDMakerFlags.DoTrigger(): alg += SMWZTriggerBitsD3PDObject (**_args (10, 'SMWZTriggerBits', kw)) # Trigger Decision + metadata alg += TrigDecisionD3PDObject (**_args(10, 'TrigDecision', kw)) addTrigConfMetadata(alg) # Bunch group info alg += BGCodeD3PDObject (**_args (2, 'BGCode', kw)) # Egamma and Mu TrigEgammaD3PDObjects (alg, 1) TrigMuonD3PDObjects( alg, 1) # MET TrigMETD3PDObjects (alg, 2) # The BJet information: TrigBJetD3PDObjects(alg,10, False, False, True, True, True) # Event metadata alg.MetadataTools += [LBMetadataConfig()] if D3PDMakerFlags.FilterCollCand(): from CaloD3PDMaker.CollisionFilterAlg import CollisionFilterAlg alg.filterSeq += CollisionFilterAlg (tuplename + '_CollCandFilter') return alg
def ZPrimeEED3PD(alg=None, file='smwz.root', tuplename='physics', streamname='d3pdstream', doSoftQCD=False, **kw): # now configure the D3PD if not alg: alg = MSMgr.NewRootStream(StreamName=streamname, FileName=file, TreeName=tuplename) alg += EventInfoD3PDObject(**_args(10, 'EventInfo', kw)) alg += LArCollisionTimeD3PDObject(**_args(10, 'LArCollisionTime', kw)) # Electron/Photon blocks elInclude = [ 'HadLeakage', 'Layer1Shape', 'Layer1ShapeExtra', 'Layer2Shape', 'Layer3Shape', 'Iso', 'IsoPtCorrected', 'ConvFlags', 'Conversion', 'TrkMatch', 'Retaphi', 'Rings', 'ElecDiscrim', 'Pointing', 'Samplings', 'ClusterKin', 'FwdEVars', 'D3PD__egammaRawClusterAssociationTool', 'RawSamplings', 'RawClusterKin', 'TrkInfo', 'Trk', 'TrkFitQuality', 'IDHits', 'TrackSummaryPID', 'Vertex', 'trackImpactbeam', 'trackImpactSigbeam', 'trackImpactpv', 'trackImpactSigpv', 'trackOldImpactpvunbiased', 'trackImpactpvunbiased', 'UDLayer1Shape', 'UDShowerDepth', 'IsIso', 'MVAIso', 'JetMatch', 'JetKinematics', 'PAU', 'PAUVariables', 'EFIndex', 'L2Index', 'L1Index', ] elExclude = [] alg += ElectronD3PDObject( **_args(0, 'Electron', kw, sgkey=kw.get('electronContainer', 'ElectronAODCollection'), include=elInclude, exclude=elExclude)) phInclude = [ 'HadLeakage', 'Layer1Shape', 'Layer1ShapeExtra', 'Layer2Shape', 'Iso', 'IsoPtCorrected', 'Conversion', 'Retaphi', 'TopoClusterIsolationCones', 'Pointing', 'ClusterKin', 'Samplings', 'UDTopoCones', 'CorrIso', 'ConvIP', 'TopoMatch', 'TopoKinematics', 'TopoEMMatch', 'TopoEMKinematics' ] phExclude = [] alg += PhotonD3PDObject( **_args(0, 'Photon', kw, sgkey=kw.get('photonContainer', 'PhotonAODCollection'), include=phInclude, exclude=phExclude)) # Muon blocks muInclude = ['AcceptMethods'] muExclude = [ 'TrkInfo', 'EFCBInfoIndex', 'EFCBInfo', 'EFMGInfo', 'EFMEInfo', 'L2CBInfoIndex', 'L2CBInfo', 'L1InfoIndex', 'L1Info', 'AllAuthor', 'SelectionFlagging', 'CBTrackDetails', 'MGTrackDetails' ] #Muid if cfgKeyStore.isInInput("Analysis::MuonContainer", "MuidMuonCollection"): alg += MuonD3PDObject(**_args(0, 'MuidMuon', kw, sgkey='MuidMuonCollection', prefix='mu_muid_', include=muInclude, exclude=muExclude, allowMissing=True)) #Staco if cfgKeyStore.isInInput("Analysis::MuonContainer", "StacoMuonCollection"): alg += MuonD3PDObject(**_args(0, 'StacoMuon', kw, sgkey='StacoMuonCollection', prefix='mu_staco_', include=muInclude, exclude=muExclude, allowMissing=True)) #Third chain if cfgKeyStore.isInInput("Analysis::MuonContainer", "Muons"): alg += MuonD3PDObject(**_args(0, 'Muons', kw, sgkey='Muons', prefix='mu_', include=muInclude, exclude=muExclude, allowMissing=True)) # Jet blocks from JetTagD3PDMaker.JetTagD3PDMakerFlags import JetTagD3PDFlags alg += JetD3PDObject(**_args(1, 'AK4TopoEMJet', kw, sgkey='AntiKt4TopoEMJets', prefix='jet_AntiKt4TopoEM_', include=[], exclude=[ 'JESMoments', 'JVtx', 'El02Match', 'Mu02Match', 'L1Info', 'L2Info', 'EFInfo' ], allowMissing=True)) # EventShape variables alg += EventShapeD3PDObject(**_args(0, 'rho', kw)) #MET metKeys = [ 'MET_LocHadTopo', 'MET_RefFinal', 'MET_RefEle', 'MET_RefMuon', 'MET_RefMuon_Staco', 'MET_RefMuon_Muid', 'MET_CorrTopo', 'MET_RefFinal_em', 'MET_Topo', 'MET_Calib', 'MET_CellOut_Eflow_Muons', 'MET_CellOut_Eflow', 'MET_CellOut_Eflow_Muid', 'MET_MuonBoy', 'MET_Muons', 'MET_Muid', 'MET_RefMuons', 'MET_RefFinal_STVF', 'MET_RefJet_JVF', 'MET_RefJet_JVFCut', 'MET_CellOut_Eflow_STVF', 'MET_CellOut_Eflow_JetArea' ] for key in metKeys: alg += MissingETD3PDObject( **_args(-1, key, kw, prefix=key, sgkey=key, include=['MET_Phi', 'MET_Et', 'MET_SumEt'], exclude=[], allowMissing=True)) #EMFrac for MET_LocHadTopo alg += TopoMETD3PDObject( **_args(-1, 'MET_LocHadTopo_SUMET_EMFrac', kw, prefix='MET_LocHadTopo_', name_prefix='MET_LocHadTopo_SUMET_EMFrac_', sgkey='MET_LocHadTopo', include=['MET_Calo_EMFracSET'], exclude=[], allowMissing=True)) # Primary vertex block - May be missing in single-beam data. alg += PrimaryVertexD3PDObject(**_args(1, 'PrimaryVertex', kw, allowMissing=True, sgkey=D3PDMakerFlags.VertexSGKey(), prefix='vxp_')) # Truth if rec.doTruth(): from TruthD3PDMaker.TruthParticleD3PDObject import TruthParticleD3PDObject from MuonD3PDMaker.TruthMuonD3PDObject import TruthMuonD3PDObject alg += TruthMuonD3PDObject(**_args(2, 'TruthMuon', kw)) alg += GenEventD3PDObject(**_args(1, 'GenEvent', kw)) alg += TruthParticleD3PDObject(**_args(1, 'TruthParticle', kw)) # TruthJets alg += JetD3PDObject(**_args(1, 'AK4TruthJet', kw, sgkey='AntiKt4TruthJets', prefix='jet_AntiKt4Truth_', allowMissing=True)) if not rec.doTruth(): alg += BeamSpotD3PDObject(10) # Trigger if D3PDMakerFlags.DoTrigger(): alg += ZPrimeEETriggerBitsD3PDObject( **_args(10, 'ZPrimeEETriggerBits', kw)) # Trigger Decision + metadata alg += TrigDecisionD3PDObject(**_args(10, 'TrigDecision', kw)) addTrigConfMetadata(alg) # Egamma alg += InitTrigD3PDObject(1) alg += EmTauROID3PDObject(1, prefix="trig_L1_emtau_", exclude=['ThrInfo']) alg += TrigElectronD3PDObject( 1, name='trig_L2_el_', prefix='trig_L2_el_', sgkey='HLT_L2ElectronFex,HLT_L2IDCaloFex', allowMissing=True) alg += TrigPhotonD3PDObject(1, name='trig_L2_ph_', prefix='trig_L2_ph_') alg += EFElectronD3PDObject(1, name='trig_EF_el_', sgkey='HLT_egamma_Electrons,HLT_egamma', prefix='trig_EF_el_', allowMissing=True) alg += EFPhotonD3PDObject(1, name='trig_EF_ph_', sgkey='HLT_egamma_Photons,HLT_egamma', prefix='trig_EF_ph_', allowMissing=True) # Event metadata alg.MetadataTools += [LBMetadataConfig()] if D3PDMakerFlags.FilterCollCand(): from CaloD3PDMaker.CollisionFilterAlg import CollisionFilterAlg alg.filterSeq += CollisionFilterAlg(tuplename + '_CollCandFilter') return alg
def ZPrimeMMD3PD(alg=None, file='smwz.root', tuplename='physics', streamname='d3pdstream', doSoftQCD=False, doThirdMuonChain=True, **kw): # define associations if not PhotonD3PDObject.allBlocknames().has_key('RecoveryMatch'): from PhotonD3PDMaker.PhotonRecoveryAssociation import PhotonRecoveryAssociation PhotonRecoveryAssoc = PhotonRecoveryAssociation( PhotonD3PDObject, 'ElectronContainer', D3PDMakerFlags.ElectronSGKey(), prefix='el_', blockname='RecoveryMatch', target='ph_ElectronRecovered_') # define track and cluster filters preseq = AlgSequence(D3PDMakerFlags.PreD3PDAlgSeqName()) if not hasattr(preseq, "GoodTracks"): filter1 = makeTrackFilterAlg(TracksName=D3PDMakerFlags.TrackSGKey(), OutputTracksName='GoodTracks', ptCut=0., nSCTPix=4) preseq += filter1 if not hasattr(preseq, "HighPtTracks"): filter2 = makeTrackFilterAlg(TracksName=D3PDMakerFlags.TrackSGKey(), OutputTracksName='HighPtTracks', ptCut=4000., nSCTPix=4) preseq += filter2 if not hasattr(preseq, "HighPtClusters"): filter3 = makeClusterFilter(InputName=D3PDMakerFlags.ClusterSGKey(), OutputName='HighPtClusters', ptCut=10000.) preseq += filter3 if not hasattr(preseq, "HighPtEMClusters"): filter4 = makeClusterFilter( InputName=D3PDMakerFlags.EMTopoClusterSGKey(), OutputName='HighPtEMClusters', ptCut=10000.) preseq += filter4 # perform recoil calculation import HadronicRecoil.Configurables as hrc preseq = hrc.add_hadronic_recoil_filters(preseq) # now configure the D3PD if not alg: alg = MSMgr.NewRootStream(StreamName=streamname, FileName=file, TreeName=tuplename) alg += EventInfoD3PDObject(**_args(10, 'EventInfo', kw)) alg += LArCollisionTimeD3PDObject(**_args(10, 'LArCollisionTime', kw)) from TriggerD3PDMaker.BunchStructureMetadata import addBunchStructureMetadata addBunchStructureMetadata(alg) # Electron/Photon blocks alg += ElectronD3PDObject(**_args(10, 'Electron', kw)) if testSGKey('ElectronContainer', D3PDMakerFlags.GSFElectronSGKey()): alg += GSFElectronD3PDObject( **_args(10, 'GSFElectron', kw, sgkey=D3PDMakerFlags.GSFElectronSGKey(), prefix='el_gsf_')) alg += PhotonD3PDObject(**_args(10, 'Photon', kw)) # Muon blocks ### add the scattering significance filler - to be removed when added in the MuonD3PDMaker if not MuonD3PDObject.allBlocknames().has_key( "MuonScatteringAngleSignificance"): from AthenaCommon.AppMgr import ToolSvc muonScatteringSigTool = None if hasattr(ToolSvc, "MuonScatteringSigTool"): muonScatteringSigTool = ToolSvc.MuonScatteringSigTool from JetTagD3PDMaker import MuonScatteringAngleSignificanceFillerTool MuonD3PDObject.defineBlock(100, "MuonScatteringAngleSignificance", MuonScatteringAngleSignificanceFillerTool, ScatteringSigTool=muonScatteringSigTool) ### Third muon chain variables! if doThirdMuonChain: if cfgKeyStore.isInInput("Analysis::MuonContainer", "Muons"): alg += MuonD3PDObject(**_args( 10, 'Muon', kw, sgkey='Muons', prefix='mu_', include=[ "EFCBInfoIndex", "EFMGInfoIndex", "EFMEInfoIndex", "L2CBInfoIndex", "L1InfoIndex", "MuonScatteringAngleSignificance" ], exclude=[ "EFCBInfo", "EFMGInfo", "EFMEInfo", "L2CBInfo", "L1Info" ], allowMissing=True)) ### Third muon chain variables! if cfgKeyStore.isInInput("Analysis::MuonContainer", "MuidMuonCollection"): alg += MuonD3PDObject(**_args( 10, 'MuidMuon', kw, sgkey='MuidMuonCollection', prefix='mu_muid_', include=[ "EFCBInfoIndex", "EFMGInfoIndex", "EFMEInfoIndex", "L2CBInfoIndex", "L1InfoIndex", "MuonScatteringAngleSignificance" ], exclude=["EFCBInfo", "EFMGInfo", "EFMEInfo", "L2CBInfo", "L1Info"], allowMissing=True)) if cfgKeyStore.isInInput("Analysis::MuonContainer", "StacoMuonCollection"): alg += MuonD3PDObject(**_args( 10, 'StacoMuon', kw, sgkey='StacoMuonCollection', prefix='mu_staco_', include=[ "EFCBInfoIndex", "EFMGInfoIndex", "EFMEInfoIndex", "L2CBInfoIndex", "L1InfoIndex", "MuonScatteringAngleSignificance" ], exclude=["EFCBInfo", "EFMGInfo", "EFMEInfo", "L2CBInfo", "L1Info"], allowMissing=True)) if cfgKeyStore.isInInput("Analysis::MuonContainer", "CaloMuonCollection"): alg += MuonD3PDObject( **_args(0, 'CaloMuon', kw, sgkey='CaloMuonCollection', prefix='mu_calo_', include=[ "MuonHitSummary", "Authors", "Likelihood", "Isolation", "CaloEnergyLoss", "Quality" ])) # Tau block alg += TauD3PDObject(**_args(1, 'Tau', kw)) # Jet blocks from JetTagD3PDMaker.JetTagD3PDMakerFlags import JetTagD3PDFlags from JetTagD3PDMaker.JetTagD3PDMakerKeys import JetTagD3PDKeys ## add MSV target to the jetd3pd object properties if not kw.has_key('AK4TopoEMJet_' + JetTagD3PDKeys.MultiSVInfoPlusMSVVtxAssocBlockName() + '_target'): kw['AK4TopoEMJet_' + JetTagD3PDKeys.MultiSVInfoPlusMSVVtxAssocBlockName() + '_target'] = JetTagD3PDKeys.MSVVtxInfoInJetGetterLabel() if not kw.has_key('AK6TopoEMJet_' + JetTagD3PDKeys.MultiSVInfoPlusMSVVtxAssocBlockName() + '_target'): kw['AK6TopoEMJet_' + JetTagD3PDKeys.MultiSVInfoPlusMSVVtxAssocBlockName() + '_target'] = JetTagD3PDKeys.MSVVtxInfoInJetGetterLabel() ## add track index for IPInfoPlus if not kw.has_key('AK4TopoEMJet_' + JetTagD3PDKeys.IPInfoPlusTrackAssocBlockName() + '_target'): kw['AK4TopoEMJet_' + JetTagD3PDKeys.IPInfoPlusTrackAssocBlockName() + '_target'] = "trk" if not kw.has_key('AK6TopoEMJet_' + JetTagD3PDKeys.IPInfoPlusTrackAssocBlockName() + '_target'): kw['AK6TopoEMJet_' + JetTagD3PDKeys.IPInfoPlusTrackAssocBlockName() + '_target'] = "trk" ## add track index for SVInfoPlus if not kw.has_key('AK4TopoEMJet_' + JetTagD3PDKeys.SVInfoPlusTrackAssocBlockName() + '_target'): kw['AK4TopoEMJet_' + JetTagD3PDKeys.SVInfoPlusTrackAssocBlockName() + '_target'] = "trk" if not kw.has_key('AK6TopoEMJet_' + JetTagD3PDKeys.SVInfoPlusTrackAssocBlockName() + '_target'): kw['AK6TopoEMJet_' + JetTagD3PDKeys.SVInfoPlusTrackAssocBlockName() + '_target'] = "trk" ## add track index for SV0InfoPlus if not kw.has_key('AK4TopoEMJet_' + JetTagD3PDKeys.SV0InfoPlusTrackAssocBlockName() + '_target'): kw['AK4TopoEMJet_' + JetTagD3PDKeys.SV0InfoPlusTrackAssocBlockName() + '_target'] = "trk" if not kw.has_key('AK6TopoEMJet_' + JetTagD3PDKeys.SV0InfoPlusTrackAssocBlockName() + '_target'): kw['AK6TopoEMJet_' + JetTagD3PDKeys.SV0InfoPlusTrackAssocBlockName() + '_target'] = "trk" alg += JetD3PDObject(**_args(3, 'AK4TopoEMJet', kw, sgkey='AntiKt4TopoEMJets', prefix='jet_AntiKt4TopoEM_', include=JetTagD3PDFlags.StdInfoInclude() + [JetTagD3PDKeys.MultiSVInfoPlusBlockName()], JetVertexFraction_FromUD=True, JetVertexFraction_FillFullJVF=True, allowMissing=True)) alg += JetD3PDObject(**_args(3, 'AK6TopoEMJet', kw, sgkey='AntiKt6TopoEMJets', prefix='jet_AntiKt6TopoEM_', include=JetTagD3PDFlags.StdInfoInclude() + [JetTagD3PDKeys.MultiSVInfoPlusBlockName()], JetVertexFraction_FromUD=True, JetVertexFraction_FillFullJVF=True, allowMissing=True)) alg += JetD3PDObject(**_args(3, 'AK4LCTopoJet', kw, sgkey='AntiKt4LCTopoJets', prefix='jet_AntiKt4LCTopo_', JetVertexFraction_FromUD=True, JetVertexFraction_FillFullJVF=True, allowMissing=True)) alg += JetD3PDObject(**_args(3, 'AK6LCTopoJet', kw, sgkey='AntiKt6LCTopoJets', prefix='jet_AntiKt6LCTopo_', JetVertexFraction_FromUD=True, JetVertexFraction_FillFullJVF=True, allowMissing=True)) ### add the MSV block MSVJetCollections = ['AntiKt4TopoEMJets', 'AntiKt6TopoEMJets'] ### link multisv to tracks if not kw.has_key('msvvtxinfo_JetTag_JetMultiSVVtxAssoc_target'): kw['msvvtxinfo_JetTag_JetMultiSVVtxAssoc_target'] = "trk" from JetTagD3PDMaker.JetTagMSVVtxInJetD3PDObject import getJetTagMSVVtxInfoInJetD3PDObject alg += getJetTagMSVVtxInfoInJetD3PDObject( **_args(1, "msvvtxinfo", kw, jetCollections=MSVJetCollections)) from TopInputsD3PDMaker.HforD3PDObject import HforD3PDObject alg += HforD3PDObject(**_args(0, 'HforInfo', kw)) # EventShape variables alg += EventShapeD3PDObject(**_args(0, 'rho', kw)) # MET blocks # a whole mess to remove x,y components separately for all flavours alg += MissingETD3PDObject(**_args( 10, 'MissingET', kw, exclude=[ 'MET_Base', 'MET_Base0', 'MET_Truth_Int', 'MET_RefFinal_Comps', 'MET_Calib_Comps', 'MET_CellOut_Comps', 'MET_CorrTopo_Comps', 'MET_Cryo_Comps', 'MET_CryoCone_Comps', 'MET_Final_Comps', 'MET_LocHadTopo_Comps', 'MET_LocHadTopoObj_Comps', 'MET_Muid_Comps', 'MET_Muid_Spectro_Comps', 'MET_Muid_Track_Comps', 'MET_MuonBoy_Comps', 'MET_MuonBoy_Spectro_Comps', 'MET_MuonBoy_Track_Comps', 'MET_MuonMuid_Comps', 'MET_Muon_Comps', 'MET_Muon_Isol_Muid_Comps', 'MET_Muon_Isol_Staco_Comps', 'MET_Muon_NonIsol_Muid_Comps', 'MET_Muon_NonIsol_Staco_Comps', 'MET_Muon_Total_Muid_Comps', 'MET_Muon_Total_Staco_Comps', 'MET_RefEle_Comps', 'MET_RefEle_em_Comps', 'MET_RefGamma_Comps', 'MET_RefGamma_em_Comps', 'MET_RefJet_Comps', 'MET_RefJet_em_Comps', 'MET_RefMuon_Comps', 'MET_RefMuon_Muid_Comps', 'MET_RefMuon_Staco_Comps', 'MET_RefMuon_Track_Muid_Comps', 'MET_RefMuon_Track_Staco_Comps', 'MET_RefMuon_Track_em_Comps', 'MET_RefMuon_Track_Comps', 'MET_RefMuon_em_Comps', 'MET_RefTau_Comps', 'MET_RefTau_em_Comps', 'MET_SoftJets_Comps', 'MET_SoftJets_em_Comps', 'MET_Topo_Comps', 'MET_TopoObj_Comps', 'MET_Track_Comps', 'MET_Comps', 'MET_Track_Weights', 'MET_Cluster_Weights' 'MET_RefFinal_STVF', 'MET_RefJet_JVF', 'MET_RefJet_JVFCut', 'MET_CellOut_Eflow_STVF', 'MET_CellOut_Eflow_JetArea' ], allowMissing=True)) # ... DR = 0.15 alg += MissingETD3PDObject(0, sgkey="RoughRecoil_15", prefix="hr_roughRecoil_15", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="ueCorrection_15", prefix="hr_ueCorrection_15", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="RefinedRecoil_15", prefix="hr_corrRecoil_15", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="MET_HR_15", prefix="hr_MET_15", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="RoughRecoil_Eflow_15", prefix="hr_roughRecoil_Eflow_15", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="ueCorrection_Eflow_15", prefix="hr_ueCorrection_Eflow_15", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="RefinedRecoil_Eflow_15", prefix="hr_corrRecoil_Eflow_15", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="MET_HR_Eflow_15", prefix="hr_MET_Eflow_15", exclude=['MET_Regions', 'MET_Comps']) # ... DR = 0.20 alg += MissingETD3PDObject(0, sgkey="RoughRecoil_20", prefix="hr_roughRecoil_20", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="ueCorrection_20", prefix="hr_ueCorrection_20", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="RefinedRecoil_20", prefix="hr_corrRecoil_20", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="MET_HR_20", prefix="hr_MET_20", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="RoughRecoil_track_20", prefix="hr_roughRecoil_track_20", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="ueCorrection_track_20", prefix="hr_ueCorrection_track_20", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="RefinedRecoil_track_20", prefix="hr_corrRecoil_track_20", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="MET_HR_track_20", prefix="hr_MET_track_20", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="RoughRecoil_clusNoTrack_20", prefix="hr_roughRecoil_clusNoTrack_20", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="ueCorrection_clusNoTrack_20", prefix="hr_ueCorrection_clusNoTrack_20", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="RefinedRecoil_clusNoTrack_20", prefix="hr_corrRecoil_clusNoTrack_20", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="MET_HR_clusNoTrack_20", prefix="hr_MET_clusNoTrack_20", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="RoughRecoil_Eflow_20", prefix="hr_roughRecoil_Eflow_20", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="ueCorrection_Eflow_20", prefix="hr_ueCorrection_Eflow_20", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="RefinedRecoil_Eflow_20", prefix="hr_corrRecoil_Eflow_20", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="MET_HR_Eflow_20", prefix="hr_MET_Eflow_20", exclude=['MET_Regions', 'MET_Comps']) # ... DR = 0.25 alg += MissingETD3PDObject(0, sgkey="RoughRecoil_25", prefix="hr_roughRecoil_25", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="ueCorrection_25", prefix="hr_ueCorrection_25", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="RefinedRecoil_25", prefix="hr_corrRecoil_25", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="MET_HR_25", prefix="hr_MET_25", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="RoughRecoil_Eflow_25", prefix="hr_roughRecoil_Eflow_25", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="ueCorrection_Eflow_25", prefix="hr_ueCorrection_Eflow_25", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="RefinedRecoil_Eflow_25", prefix="hr_corrRecoil_Eflow_25", exclude=['MET_Regions', 'MET_Comps']) alg += MissingETD3PDObject(0, sgkey="MET_HR_Eflow_25", prefix="hr_MET_Eflow_25", exclude=['MET_Regions', 'MET_Comps']) # track and cluster blocks # ... all clusters, very low LOD alg += ClusterD3PDObject( **_args(0, 'Clusters1', kw, exclude='SamplingBasics')) # ... higher LOD for pt>10 GeV alg += ClusterD3PDObject( **_args(2, 'Clusters2', kw, sgkey='HighPtClusters', prefix='clpt10_')) alg += ClusterD3PDObject(**_args( 3, 'Clusters3', kw, sgkey='HighPtEMClusters', prefix='emclpt10_')) from TrackD3PDMaker.TrackD3PDObject import TrackD3PDObject # ... good tracks only (nSCT>3; no pt cut) # turn on detailed track info if writing SoftQCD version of D3PD if doSoftQCD: from TrackD3PDMaker.TrackD3PDMakerFlags import TrackD3PDFlags as softQcdFlags softQcdFlags.doTruth = True softQcdFlags.storeDetailedTruth = False softQcdFlags.storeDiagonalCovarianceAsErrors = True softQcdFlags.storeHitTruthMatching = True softQcdFlags.storePixelHitsOnTrack = False softQcdFlags.storePixelHolesOnTrack = False softQcdFlags.storePixelOutliersOnTrack = False softQcdFlags.storeSCTHitsOnTrack = False softQcdFlags.storeSCTHolesOnTrack = False softQcdFlags.storeSCTOutliersOnTrack = False softQcdFlags.storeTRTHitsOnTrack = False softQcdFlags.storeTRTHolesOnTrack = False softQcdFlags.storeTRTOutliersOnTrack = False softQcdFlags.storeTrackFitQuality = True softQcdFlags.storeTrackInfo = True softQcdFlags.storeTrackMomentum = True softQcdFlags.storeTrackPredictionAtBLayer = True softQcdFlags.storeTrackSummary = True softQcdFlags.trackParametersAtBeamSpotLevelOfDetails = 0 softQcdFlags.trackParametersAtGlobalPerigeeLevelOfDetails = 2 softQcdFlags.trackParametersAtPrimaryVertexLevelOfDetails = 2 SoftQCDTrackParticleD3PDObject = TrackD3PDObject( _label='trk', _prefix='trk_', _sgkey='GoodTracks', typeName='Rec::TrackParticleContainer', flags=softQcdFlags) alg += SoftQCDTrackParticleD3PDObject(**_args( 3, 'Tracks1', kw, sgkey='GoodTracks', label='trk', prefix='trk_')) else: # ... use standard level of track info for 'GoodTracks' alg += TrackParticleD3PDObject(**_args( 3, 'Tracks1', kw, sgkey='GoodTracks', label='trk', prefix='trk_')) # ... high-pt tracks (nSCT>3; pt>5 GeV) from TrackD3PDMaker.TrackD3PDMakerFlags import TrackD3PDFlags as highPtFlags highPtFlags.doTruth = True highPtFlags.storeDiagonalCovarianceAsErrors = True highPtFlags.storeHitTruthMatching = True highPtFlags.storePixelHitsOnTrack = False highPtFlags.storePixelHolesOnTrack = False highPtFlags.storePixelOutliersOnTrack = False highPtFlags.storeSCTHitsOnTrack = False highPtFlags.storeSCTHolesOnTrack = False highPtFlags.storeSCTOutliersOnTrack = False highPtFlags.storeTRTHitsOnTrack = False highPtFlags.storeTRTHolesOnTrack = False highPtFlags.storeTRTOutliersOnTrack = False highPtFlags.storeTrackFitQuality = True highPtFlags.storeTrackMomentum = True highPtFlags.storeTrackSummary = True highPtFlags.storeTrackSummary.IDOutliers = True highPtFlags.storeTrackSummary.PixelInfoPlus = True highPtFlags.storeTrackSummary.SCTInfoPlus = True highPtFlags.storeTrackSummary.TRTInfoPlus = True highPtFlags.storeTrackSummary.InfoPlus = True highPtFlags.trackParametersAtBeamSpotLevelOfDetails = 0 highPtFlags.trackParametersAtGlobalPerigeeLevelOfDetails = 2 highPtFlags.trackParametersAtPrimaryVertexLevelOfDetails = 3 HighPtTrackParticleD3PDObject = TrackD3PDObject( _label='trkpt4', _prefix='trkpt4_', _sgkey='HighPtTracks', typeName='Rec::TrackParticleContainer', flags=highPtFlags) alg += HighPtTrackParticleD3PDObject(**_args(3, 'Tracks2', kw, sgkey='HighPtTracks', label='trkpt4', prefix='trkpt4_')) # Primary vertex block - May be missing in single-beam data. alg += PrimaryVertexD3PDObject(**_args(1, 'PrimaryVertex', kw, allowMissing=True, sgkey=D3PDMakerFlags.VertexSGKey(), prefix='vxp_')) # MBTS alg += MBTSD3PDObject(**_args(10, 'MBTS', kw)) alg += MBTSTimeD3PDObject(**_args(10, 'MBTSTime', kw)) alg += MBTSTriggerBitsD3PDObject(**_args(10, 'MBTSTriggerBits', kw)) #alg += CollisionDecisionD3PDObject(**_args (10, 'CollisionDecision', kw)) # Truth if rec.doTruth(): from TruthD3PDMaker.TruthParticleD3PDObject import TruthParticleD3PDObject from MuonD3PDMaker.TruthMuonD3PDObject import TruthMuonD3PDObject alg += TruthMuonD3PDObject(**_args(2, 'TruthMuon', kw)) alg += GenEventD3PDObject(**_args(1, 'GenEvent', kw)) alg += TruthParticleD3PDObject(**_args(1, 'TruthParticle', kw)) # TruthJets alg += JetD3PDObject(**_args(1, 'AK4TruthJet', kw, sgkey='AntiKt4TruthJets', prefix='jet_AntiKt4Truth_', allowMissing=True)) alg += JetD3PDObject(**_args(1, 'AK6TruthJet', kw, sgkey='AntiKt6TruthJets', prefix='jet_AntiKt6Truth_', allowMissing=True)) alg += JetD3PDObject(**_args(1, 'AK4TruthJetALL', kw, sgkey='AntiKt4TruthJets_ALL', prefix='jet_AntiKt4TruthALL_', allowMissing=True)) alg += JetD3PDObject(**_args(1, 'AK6TruthJetALL', kw, sgkey='AntiKt6TruthJets_ALL', prefix='jet_AntiKt6TruthALL_', allowMissing=True)) alg += JetD3PDObject(**_args(1, 'AK4TruthJetWZ', kw, sgkey='AntiKt4TruthJets_WZ', prefix='jet_AntiKt4TruthWZ_', allowMissing=True)) alg += JetD3PDObject(**_args(1, 'AK6TruthJetWZ', kw, sgkey='AntiKt6TruthJets_WZ', prefix='jet_AntiKt6TruthWZ_', allowMissing=True)) ### heavy flavor truth information from AthenaCommon.AppMgr import ToolSvc from TruthD3PDAnalysis.TruthD3PDAnalysisConf import D3PD__GenObjectsFilterTool smwzhfGenVtxFilterTool = D3PD__GenObjectsFilterTool( "SMWZHFGenVtxFilterTool") ToolSvc += smwzhfGenVtxFilterTool smwzhfGenVtxFilterTool.RemoveInTimePileUp = False smwzhfGenVtxFilterTool.Remove2BCPileUp = True smwzhfGenVtxFilterTool.Remove800nsPileUp = True smwzhfGenVtxFilterTool.RemoveCavernBkg = True smwzhfGenVtxFilterTool.RemoveEmptyEvents = True smwzhfGenVtxFilterTool.RemoveDummyEvents = True smwzhfGenVtxFilterTool.RemoveUnrequestedParticles = True smwzhfGenVtxFilterTool.KeepBCHadrons = True from TruthD3PDMaker.GenVertexD3PDObject import GenVertexD3PDObject alg += GenVertexD3PDObject(**_args(0, "hfgenvertex", kw, prefix='mchfvtx_', filter=smwzhfGenVtxFilterTool)) smwzhfGenPartFilterTool = D3PD__GenObjectsFilterTool( "SMWZHFGenPartFilterTool") ToolSvc += smwzhfGenPartFilterTool smwzhfGenPartFilterTool.RemoveInTimePileUp = False smwzhfGenPartFilterTool.Remove2BCPileUp = True smwzhfGenPartFilterTool.Remove800nsPileUp = True smwzhfGenPartFilterTool.RemoveCavernBkg = True smwzhfGenPartFilterTool.RemoveEmptyEvents = True smwzhfGenPartFilterTool.RemoveDummyEvents = True smwzhfGenPartFilterTool.RemoveUnrequestedParticles = True smwzhfGenPartFilterTool.KeepBCQuarks = True smwzhfGenPartFilterTool.KeepBCQuarkAncestors = True smwzhfGenPartFilterTool.KeepBCHadrons = True smwzhfGenPartFilterTool.KeepBCHadronDecayChain = True smwzhfGenPartFilterTool.BCHadronsDescendantsPtCut = 200 smwzhfGenPartFilterTool.BCHadronsDescendantsBarcodeCut = 300000 smwzhfGenPartFilterTool.BCHadronsDescendantsEtaCut = 5 from TruthD3PDMaker.GenParticleD3PDObject import GenParticleD3PDObject alg += GenParticleD3PDObject( **_args(10, "hfgenparticle", kw, prefix='mchfpart_', filter=smwzhfGenPartFilterTool, GenParticle_WriteMotherType=False, GenParticle_WriteMotherBarcode=False)) ### leptonic W/Z truth information smwzlepwzGenPartFilterTool = D3PD__GenObjectsFilterTool( "SMWZLepWZGenPartFilterTool") ToolSvc += smwzlepwzGenPartFilterTool smwzlepwzGenPartFilterTool.RemoveInTimePileUp = True smwzlepwzGenPartFilterTool.Remove2BCPileUp = True smwzlepwzGenPartFilterTool.Remove800nsPileUp = True smwzlepwzGenPartFilterTool.RemoveCavernBkg = True smwzlepwzGenPartFilterTool.RemoveEmptyEvents = True smwzlepwzGenPartFilterTool.RemoveDummyEvents = True smwzlepwzGenPartFilterTool.RemoveUnrequestedParticles = True smwzlepwzGenPartFilterTool.KeepLeptonicWZBosons = True smwzlepwzGenPartFilterTool.KeepLeptonicWZBosonDecayChains = True smwzlepwzGenPartFilterTool.KeepLeptonicWZBosonsParents = True from TruthD3PDMaker.GenParticleD3PDObject import GenParticleD3PDObject alg += GenParticleD3PDObject(**_args( 10, "lepwzgenparticle", kw, prefix='mclepwzpart_', filter=smwzlepwzGenPartFilterTool, label="LepWZTruthD3PDObject", exclude=["GenPartProdVertexAssoc", "GenPartDecayVertexAssoc"], GenParticle_WriteMotherType=False, GenParticle_WriteMotherBarcode=False, GenPartMotherAssoc_target="LepWZTruthD3PDObject", GenPartChildAssoc_target="LepWZTruthD3PDObject")) if not rec.doTruth(): alg += BeamSpotD3PDObject(10) # Trigger if D3PDMakerFlags.DoTrigger(): alg += ZPrimeMMTriggerBitsD3PDObject( **_args(10, 'ZPrimeMMTriggerBits', kw)) # Trigger Decision + metadata alg += TrigDecisionD3PDObject(**_args(10, 'TrigDecision', kw)) addTrigConfMetadata(alg) # Bunch group info alg += BGCodeD3PDObject(**_args(2, 'BGCode', kw)) # Egamma and Mu TrigEgammaD3PDObjects(alg, 1) TrigMuonD3PDObjects(alg, 1) # Esum alg += EnergySumROID3PDObject( **_args(2, 'EnergySumROI', kw, prefix="trig_L1_esum_")) # The LVL2 information: alg += TrigMETD3PDObject(**_args( 2, 'TrigMETL2', kw, prefix="trig_L2_met_", sgkey="HLT_T2MissingET")) # The EF information: alg += TrigMETD3PDObject(**_args(2, 'TrigMETEF', kw, prefix="trig_EF_met_", sgkey="HLT_TrigEFMissingET")) # The BJet information: TrigBJetD3PDObjects(alg, 10, False, False, True, True, True) # Event metadata alg.MetadataTools += [LBMetadataConfig()] if D3PDMakerFlags.FilterCollCand(): from CaloD3PDMaker.CollisionFilterAlg import CollisionFilterAlg alg.filterSeq += CollisionFilterAlg(tuplename + '_CollCandFilter') return alg
import D3PDMakerReader service = D3PDMakerReader.RootReaderD3PDSvc("RootReaderD3PDSvc") service.Version = 2 service.OutputLevel = 1 ServiceMgr += service d3pdalg = D3PDMakerReader.MultiReaderAlg("ReaderAlg", Directory="../test", TuplePath="D3PDReader/Test", D3PDSvc=service) from EventCommonD3PDMaker.EventInfoD3PDObject import EventInfoD3PDObject d3pdalg += EventInfoD3PDObject(10) from TrigMuonD3PDMaker.TrigMuonD3PD import TrigMuonD3PDObjects TrigMuonD3PDObjects(d3pdalg, addNaviInfo=False) from D3PDMakerConfig.D3PDMakerFlags import D3PDMakerFlags D3PDMakerFlags.DoTrigger = False from egammaD3PDMaker.ElectronD3PDObject import ElectronD3PDObject d3pdalg += ElectronD3PDObject(10) from egammaD3PDMaker.PhotonD3PDObject import PhotonD3PDObject d3pdalg += PhotonD3PDObject(10) # Do some of the additional setup: from AthenaCommon.AppMgr import theApp, ServiceMgr theApp.EvtMax = athenaCommonFlags.EvtMax() ServiceMgr.MessageSvc.OutputLevel = INFO
# nrowName = '') # alg += MyCompositeD3PDObject (10) # Test non-existent egamma. alg += ElectronD3PDObject (0, sgkey = 'xxx', prefix = 'el_xxx_', allowMissing = True) from egammaD3PDMaker.PhotonD3PDObject import PhotonD3PDObject alg += PhotonD3PDObject (0, sgkey = 'xxx', prefix = 'ph_xxx_', allowMissing = True) from MuonD3PDMaker.MuonD3PDObject import MuonD3PDObject alg += MuonD3PDObject (0, sgkey = 'xxx', prefix = 'mu_xxx_', allowMissing = True) from JetD3PDMaker.JetD3PDObject import JetD3PDObject alg += JetD3PDObject (0, sgkey = 'xxx', prefix = 'jet_xxx_', allowMissing = True) from egammaD3PDMaker.GSFElectronD3PDObject import GSFElectronD3PDObject
def SMWZLightD3PD (alg = None, file = 'smlight.root', tuplename = 'physics', streamname = 'd3pdstream', stdElectronContainer = 'None', gsfElectronContainer = 'None', stacoMuonContainer = 'None', muidMuonContainer = 'None', photonContainer = 'None', jetContainer = 'None', clusterContainer = 'None', tauContainer = 'None', trackContainer = 'None', **kw): preseq = AlgSequence (D3PDMakerFlags.PreD3PDAlgSeqName()) # perform recoil calculation import HadronicRecoil.Configurables as hrc preseq = hrc.add_hadronic_recoil_filters(preseq) # configure the D3PD if not alg: alg = MSMgr.NewRootStream(StreamName = streamname, FileName = file, TreeName = tuplename) alg += EventInfoD3PDObject (**_args (10, 'EventInfo', kw)) alg += LArCollisionTimeD3PDObject (**_args (10, 'LArCollisionTime', kw)) from TriggerD3PDMaker.BunchStructureMetadata import addBunchStructureMetadata addBunchStructureMetadata (alg) # Electron/Photon blocks if stdElectronContainer != 'None': alg += ElectronD3PDObject (**_args (10, 'Electron', kw, sgkey = stdElectronContainer, prefix = 'el_', exclude = ['EMTrackFit','EMTrackFitDetailsBrem', 'EMTrackFitDetailsRefit', 'EMTrackFitDetailsRefitCov'], allowMissing = True )) if (gsfElectronContainer != 'None') and testSGKey ('ElectronContainer', gsfElectronContainer): alg += GSFElectronD3PDObject (**_args (1, 'GSFElectron', kw, sgkey = gsfElectronContainer, prefix = 'el_gsf_', exclude = ['EMTrackFit','EMTrackFitDetailsBrem', 'EMTrackFitDetailsRefit', 'EMTrackFitDetailsRefitCov'], allowMissing = True )) D3PDMakerFlags.DoPAU = False if photonContainer != 'None': alg += PhotonD3PDObject (**_args (10, 'Photon', kw, sgkey = photonContainer, prefix = 'ph_', exclude = ['OQRecalc'], allowMissing = True )) # Muon blocks # ... add the scattering significance filler - to be removed when added in the MuonD3PDMaker if not MuonD3PDObject.allBlocknames().has_key("MuonScatteringAngleSignificance"): from AthenaCommon.AppMgr import ToolSvc muonScatteringSigTool=None if hasattr(ToolSvc, "MuonScatteringSigTool"): muonScatteringSigTool=ToolSvc.MuonScatteringSigTool from JetTagD3PDMaker import MuonScatteringAngleSignificanceFillerTool MuonD3PDObject.defineBlock (100, "MuonScatteringAngleSignificance", MuonScatteringAngleSignificanceFillerTool, ScatteringSigTool=muonScatteringSigTool) if stacoMuonContainer != 'None': alg += MuonD3PDObject (**_args (10, 'StacoMuon', kw, sgkey=stacoMuonContainer, prefix='mu_staco_', include = ['EFCBInfoIndex', 'EFMGInfoIndex', 'EFMEInfoIndex', 'MuonScatteringAngleSignificance'], exclude = ['EFCBInfo', 'EFMGInfo', 'EFMEInfo', 'L2CBInfo', 'L1Info', 'MuonTimingFillerTool'], allowMissing = True )) if muidMuonContainer != 'None': alg += MuonD3PDObject (**_args (10, 'MuidMuon', kw, sgkey=muidMuonContainer, prefix='mu_muid_', include = ['EFCBInfoIndex', 'EFMGInfoIndex', 'EFMEInfoIndex', 'MuonScatteringAngleSignificance'], exclude = ['EFCBInfo', 'EFMGInfo', 'EFMEInfo', 'L2CBInfo', 'L1Info', 'MuonTimingFillerTool'], allowMissing = True )) # Jet block from JetTagD3PDMaker.JetTagD3PDMakerFlags import JetTagD3PDFlags from JetTagD3PDMaker.JetTagD3PDMakerKeys import JetTagD3PDKeys if jetContainer != 'None': alg += JetD3PDObject (**_args ( 3, 'AK4TopoEMJet', kw, sgkey=jetContainer, allowMissing=True, prefix='jet_AntiKt4TopoEM_', JetVertexFraction_FromUD=True, JetVertexFraction_FillFullJVF=True, include = [ JetTagD3PDKeys.BTagWeightsBlockName(), JetTagD3PDKeys.TruthInfoBlockName() ] )) # Tau block if tauContainer != 'None': alg += TauD3PDObject (**_args ( 0, 'Tau', kw, allowMissing=True, sgkey=tauContainer )) # HF overlap removal (ALPGEN) from TopInputsD3PDMaker.HforD3PDObject import HforD3PDObject alg += HforD3PDObject(**_args (0, 'HforInfo', kw)) # MET blocks # a whole mess to remove x,y components separately for all flavours alg += MissingETD3PDObject (**_args (10, 'MissingET', kw, exclude=['MET_Base','MET_Base0','MET_Truth', 'MET_RefFinal_Comps','MET_RefFinal_Regions', 'MET_LocHadTopo_Comps','MET_LocHadTopo_Regions', 'MET_CellOut_Comps','MET_CellOut_Regions', 'MET_Calib', 'MET_CorrTopo', 'MET_Cryo', 'MET_CryoCone', 'MET_Final', 'MET_LocHadTopoObj', 'MET_Muid', 'MET_Muid_Spectro', 'MET_Muid_Track', 'MET_MuonBoy', 'MET_MuonBoy_Spectro', 'MET_MuonBoy_Track', 'MET_MuonMuid', 'MET_Muon', 'MET_Muon_Isol_Muid', 'MET_Muon_Isol_Staco', 'MET_Muon_NonIsol_Muid', 'MET_Muon_NonIsol_Staco', 'MET_Muon_Total_Muid', 'MET_Muon_Total_Staco', 'MET_RefEle_Comps','MET_RefEle_Regions', 'MET_RefEle_em_Comps','MET_RefEle_em_Regions', 'MET_RefGamma_Comps','MET_RefGamma_Regions', 'MET_RefGamma_em_Comps','MET_RefGamma_em_Regions', 'MET_RefJet_Comps','MET_RefJet_Regions', 'MET_RefJet_em_Comps','MET_RefJet_em_Regions', 'MET_RefMuon_Comps','MET_RefMuon_Regions', 'MET_RefMuon_Muid_Comps','MET_RefMuon_Muid_Regions', 'MET_RefMuon_Staco_Comps','MET_RefMuon_Staco_Regions', 'MET_RefMuon_Track_Muid_Comps','MET_RefMuon_Track_Muid_Regions', 'MET_RefMuon_Track_Staco_Comps','MET_RefMuon_Track_Staco_Regions', 'MET_RefMuon_Track_em_Comps','MET_RefMuon_Track_em_Regions', 'MET_RefMuon_Track_Comps','MET_RefMuon_Track_Regions', 'MET_RefMuon_em_Comps','MET_RefMuon_em_Regions', 'MET_RefTau_Comps','MET_RefTau_Regions', 'MET_RefTau_em_Comps','MET_RefTau_em_Regions', 'MET_SoftJets_Comps','MET_SoftJets_Regions', 'MET_SoftJets_em_Comps','MET_SoftJets_em_Regions', 'MET_Topo', 'MET_TopoObj_Comps','MET_TopoObj_Regions', 'MET_Track_Comps','MET_Track_Regions', 'MET_Comps', 'MET_Track_Weights','MET_Cluster_Weights', 'MET_Regions','MET_Composition'], allowMissing=True )) # HadronicRecoil blocks alg += ElectronD3PDObject(0, sgkey = 'HR_selectedElectrons', prefix = 'hr_el_',allowMissing=True ) alg += MuonD3PDObject( 0, sgkey = 'HR_selectedMuons', prefix = 'hr_mu_', allowMissing=True ) # ... DR = 0.15 alg += MissingETD3PDObject( 0, sgkey = 'RoughRecoil_15', prefix = 'hr_roughRecoil_15', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'ueCorrection_15', prefix = 'hr_ueCorrection_15', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'RefinedRecoil_15', prefix = 'hr_corrRecoil_15', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'MET_HR_15', prefix = 'hr_MET_15', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'RoughRecoil_Eflow_15', prefix = 'hr_roughRecoil_Eflow_15', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'ueCorrection_Eflow_15', prefix = 'hr_ueCorrection_Eflow_15', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'RefinedRecoil_Eflow_15', prefix = 'hr_corrRecoil_Eflow_15', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'MET_HR_Eflow_15', prefix = 'hr_MET_Eflow_15', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = "RoughRecoil_track_15", prefix = "hr_roughRecoil_track_15", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "ueCorrection_track_15", prefix = "hr_ueCorrection_track_15", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RefinedRecoil_track_15", prefix = "hr_corrRecoil_track_15", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "MET_HR_track_15", prefix = "hr_MET_track_15", exclude=['MET_Regions','MET_Comps'] ) # ... DR = 0.20 alg += MissingETD3PDObject( 0, sgkey = 'RoughRecoil_20', prefix = 'hr_roughRecoil_20', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'ueCorrection_20', prefix = 'hr_ueCorrection_20', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'RefinedRecoil_20', prefix = 'hr_corrRecoil_20', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'MET_HR_20', prefix = 'hr_MET_20', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'RoughRecoil_track_20', prefix = 'hr_roughRecoil_track_20', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'ueCorrection_track_20', prefix = 'hr_ueCorrection_track_20', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'RefinedRecoil_track_20', prefix = 'hr_corrRecoil_track_20', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'MET_HR_track_20', prefix = 'hr_MET_track_20', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'RoughRecoil_clusNoTrack_20', prefix = 'hr_roughRecoil_clusNoTrack_20', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'ueCorrection_clusNoTrack_20', prefix = 'hr_ueCorrection_clusNoTrack_20', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'RefinedRecoil_clusNoTrack_20', prefix = 'hr_corrRecoil_clusNoTrack_20', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'MET_HR_clusNoTrack_20', prefix = 'hr_MET_clusNoTrack_20', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'RoughRecoil_Eflow_20', prefix = 'hr_roughRecoil_Eflow_20', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'ueCorrection_Eflow_20', prefix = 'hr_ueCorrection_Eflow_20', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'RefinedRecoil_Eflow_20', prefix = 'hr_corrRecoil_Eflow_20', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'MET_HR_Eflow_20', prefix = 'hr_MET_Eflow_20', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) # ... DR = 0.25 alg += MissingETD3PDObject( 0, sgkey = 'RoughRecoil_25', prefix = 'hr_roughRecoil_25', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'ueCorrection_25', prefix = 'hr_ueCorrection_25', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'RefinedRecoil_25', prefix = 'hr_corrRecoil_25', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'MET_HR_25', prefix = 'hr_MET_25', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'RoughRecoil_Eflow_25', prefix = 'hr_roughRecoil_Eflow_25', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'ueCorrection_Eflow_25', prefix = 'hr_ueCorrection_Eflow_25', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'RefinedRecoil_Eflow_25', prefix = 'hr_corrRecoil_Eflow_25', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = 'MET_HR_Eflow_25', prefix = 'hr_MET_Eflow_25', exclude=['MET_Regions','MET_Comps'], allowMissing=True ) alg += MissingETD3PDObject( 0, sgkey = "RoughRecoil_track_25", prefix = "hr_roughRecoil_track_25", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "ueCorrection_track_25", prefix = "hr_ueCorrection_track_25", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RefinedRecoil_track_25", prefix = "hr_corrRecoil_track_25", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "MET_HR_track_25", prefix = "hr_MET_track_25", exclude=['MET_Regions','MET_Comps'] ) # HR using truth leptons if rec.doTruth(): ## ... DR = 0.15 alg += MissingETD3PDObject( 0, sgkey = "RoughRecoil_TruthLep_15", prefix = "hr_roughRecoil_trLep_15", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "ueCorrection_TruthLep_15", prefix = "hr_ueCorrection_trLep_15", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RefinedRecoil_TruthLep_15", prefix = "hr_corrRecoil_trLep_15", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RefinedRecoil_TruthLep_15", prefix = "hr_MET_trLep_15", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RoughRecoil_TruthLep_Eflow_15", prefix = "hr_roughRecoil_trLep_Eflow_15", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "ueCorrection_TruthLep_Eflow_15", prefix = "hr_ueCorrection_trLep_Eflow_15", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RefinedRecoil_TruthLep_Eflow_15", prefix = "hr_corrRecoil_trLep_Eflow_15", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RefinedRecoil_TruthLep_Eflow_15", prefix = "hr_MET_trLep_Eflow_15", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RoughRecoil_TruthLep_track_15", prefix = "hr_roughRecoil_trLep_track_15", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "ueCorrection_TruthLep_track_15", prefix = "hr_ueCorrection_trLep_track_15", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RefinedRecoil_TruthLep_track_15", prefix = "hr_corrRecoil_trLep_track_15", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RefinedRecoil_TruthLep_track_15", prefix = "hr_MET_trLep_track_15", exclude=['MET_Regions','MET_Comps'] ) ## ... DR = 0.20 alg += MissingETD3PDObject( 0, sgkey = "RoughRecoil_TruthLep_20", prefix = "hr_roughRecoil_trLep_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "ueCorrection_TruthLep_20", prefix = "hr_ueCorrection_trLep_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RefinedRecoil_TruthLep_20", prefix = "hr_corrRecoil_trLep_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RefinedRecoil_TruthLep_20", prefix = "hr_MET_trLep_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RoughRecoil_TruthLep_Eflow_20", prefix = "hr_roughRecoil_trLep_Eflow_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "ueCorrection_TruthLep_Eflow_20", prefix = "hr_ueCorrection_trLep_Eflow_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RefinedRecoil_TruthLep_Eflow_20", prefix = "hr_corrRecoil_trLep_Eflow_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RefinedRecoil_TruthLep_Eflow_20", prefix = "hr_MET_trLep_Eflow_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RoughRecoil_TruthLep_track_20", prefix = "hr_roughRecoil_trLep_track_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "ueCorrection_TruthLep_track_20", prefix = "hr_ueCorrection_trLep_track_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RefinedRecoil_TruthLep_track_20", prefix = "hr_corrRecoil_trLep_track_20", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RefinedRecoil_TruthLep_track_20", prefix = "hr_MET_trLep_track_20", exclude=['MET_Regions','MET_Comps'] ) ## ... DR = 0.25 alg += MissingETD3PDObject( 0, sgkey = "RoughRecoil_TruthLep_25", prefix = "hr_roughRecoil_trLep_25", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "ueCorrection_TruthLep_25", prefix = "hr_ueCorrection_trLep_25", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RefinedRecoil_TruthLep_25", prefix = "hr_corrRecoil_trLep_25", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RefinedRecoil_TruthLep_25", prefix = "hr_MET_trLep_25", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RoughRecoil_TruthLep_Eflow_25", prefix = "hr_roughRecoil_trLep_Eflow_25", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "ueCorrection_TruthLep_Eflow_25", prefix = "hr_ueCorrection_trLep_Eflow_25", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RefinedRecoil_TruthLep_Eflow_25", prefix = "hr_corrRecoil_trLep_Eflow_25", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RefinedRecoil_TruthLep_Eflow_25", prefix = "hr_MET_trLep_Eflow_25", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RoughRecoil_TruthLep_track_25", prefix = "hr_roughRecoil_trLep_track_25", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "ueCorrection_TruthLep_track_25", prefix = "hr_ueCorrection_trLep_track_25", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RefinedRecoil_TruthLep_track_25", prefix = "hr_corrRecoil_trLep_track_25", exclude=['MET_Regions','MET_Comps'] ) alg += MissingETD3PDObject( 0, sgkey = "RefinedRecoil_TruthLep_track_25", prefix = "hr_MET_trLep_track_25", exclude=['MET_Regions','MET_Comps'] ) # Cluster block # ... all clusters, very low LOD if clusterContainer != 'None': alg += ClusterD3PDObject (**_args ( 0, 'Clusters', kw, sgkey = clusterContainer, exclude='SamplingBasics', allowMissing=True )) # Track block # ... good tracks only (nSCT>=6; no pt cut) if trackContainer != 'None': alg += TrackParticleD3PDObject (**_args ( 3, 'Tracks', kw, sgkey = trackContainer, label = 'trk', prefix = 'trk_', allowMissing=True )) # Primary vertex block - May be missing in single-beam data. alg += PrimaryVertexD3PDObject (**_args (1, 'PrimaryVertex', kw, sgkey = D3PDMakerFlags.VertexSGKey(), prefix = 'vxp_', allowMissing=True )) # Truth if rec.doTruth(): from TruthD3PDMaker.TruthParticleD3PDObject import TruthParticleD3PDObject from MuonD3PDMaker.TruthMuonD3PDObject import TruthMuonD3PDObject alg += TruthMuonD3PDObject (**_args ( 2, 'TruthMuon', kw)) from AthenaCommon.AppMgr import ToolSvc from TruthD3PDAnalysis.TruthD3PDAnalysisConf import D3PD__GenObjectsFilterTool # ... remove empty GenEvents smlightGenEvtFilterTool = D3PD__GenObjectsFilterTool( "smlightGenEvtFilterTool" ) ToolSvc += smlightGenEvtFilterTool smlightGenEvtFilterTool.RemoveDummyEvents = True smlightGenEvtFilterTool.RemoveInTimePileUp = True smlightGenEvtFilterTool.Remove2BCPileUp = True smlightGenEvtFilterTool.Remove800nsPileUp = True smlightGenEvtFilterTool.RemoveCavernBkg = True smlightGenEvtFilterTool.RemoveEmptyEvents = True from TruthD3PDMaker.GenEventD3PDObject import GenEventD3PDObject alg += GenEventD3PDObject (**_args ( 0, 'GenEvent', kw, filter = smlightGenEvtFilterTool )) # ... leptonic W/Z truth information smlightLepWZFilterTool = D3PD__GenObjectsFilterTool( "smlightLepWZFilterTool" ) ToolSvc += smlightLepWZFilterTool smlightLepWZFilterTool.RemoveInTimePileUp = True smlightLepWZFilterTool.Remove2BCPileUp = True smlightLepWZFilterTool.Remove800nsPileUp = True smlightLepWZFilterTool.RemoveCavernBkg = True smlightLepWZFilterTool.RemoveEmptyEvents = True smlightLepWZFilterTool.RemoveDummyEvents = True smlightLepWZFilterTool.RemoveUnrequestedParticles=True smlightLepWZFilterTool.KeepLeptonicWZBosons=True smlightLepWZFilterTool.KeepLeptonicWZBosonDecayChains=True smlightLepWZFilterTool.KeepLeptonicWZBosonsParents=True from TruthD3PDMaker.GenParticleD3PDObject import GenParticleD3PDObject alg += GenParticleD3PDObject( **_args(10, "lepwzgenparticle", kw, prefix='mclepwzpart_', filter = smlightLepWZFilterTool, label = "LepWZTruthD3PDObject", exclude = ["GenPartProdVertexAssoc","GenPartDecayVertexAssoc"], GenParticle_WriteMotherType=False, GenParticle_WriteMotherBarcode=False, GenPartMotherAssoc_target="LepWZTruthD3PDObject", GenPartChildAssoc_target="LepWZTruthD3PDObject" ) ) if not rec.doTruth(): alg += BeamSpotD3PDObject(10) # Trigger if D3PDMakerFlags.DoTrigger(): # RedefineTriggerBits(alg, 'EF*') # alg += SMWZLightTriggerBitsD3PDObject (**_args (10, 'SMWZLightTriggerBits', kw)) # metadata addTrigConfMetadata(alg) # Bunch group info alg += BGCodeD3PDObject (**_args (2, 'BGCode', kw)) # Egamma EF information alg += EFElectronD3PDObject(0, name='trig_EF_el_', sgkey='HLT_egamma_Electrons,HLT_egamma', prefix='trig_EF_el_', exclude=['Author','IsEM','IsEMCuts'], include=['Triggers'], allowMissing = True) # alg += EFPhotonD3PDObject(0, name='trig_EF_ph_', # sgkey='HLT_egamma_Photons,HLT_egamma', # prefix='trig_EF_ph_', # exclude=['Author','Conversion0','IsEM','IsEMCuts'], # include=['Triggers'], # allowMissing = True) # Muon EF information alg += TrigMuonEFInfoD3PDObject(0, include=['Decision'], exclude=['TrackDetails','SpectrometerTrackBasics','ExtrapolatedTrackBasics'], allowMissing = True) alg += TrigMuonEFInfoD3PDObject(0, name = "trig_EF_trigmugirl_", sgkey = "HLT_eMuonEFInfo", prefix = "trig_EF_trigmugirl_", exclude=['TrackDetails','SpectrometerTrackBasics','ExtrapolatedTrackBasics'], include=['Decision'], allowMissing = True) # MET EF information # alg += TrigMETD3PDObject(**_args ( 0, 'TrigMETEF', kw, # prefix = "trig_EF_met_", # sgkey = "HLT_TrigEFMissingET" )) # Event metadata alg.MetadataTools += [LBMetadataConfig()] if D3PDMakerFlags.FilterCollCand(): from CaloD3PDMaker.CollisionFilterAlg import CollisionFilterAlg alg.filterSeq += CollisionFilterAlg (tuplename + '_CollCandFilter') return alg
def HSG2physicsD3PD(name, file, tuplename='physics', **kw): from AthenaCommon.AlgSequence import AlgSequence # needed for attila's code from D3PDMakerConfig.D3PDMakerFlags import D3PDMakerFlags # needed for attila's code # define track and cluster filters filter1 = makeTrackFilterAlg(TracksName=D3PDMakerFlags.TrackSGKey(), OutputTracksName='GoodTracks' + name, ptCut=0., nSCTPix=4) filter2 = makeTrackFilterAlg(TracksName=D3PDMakerFlags.TrackSGKey(), OutputTracksName='HighPtTracks' + name, ptCut=5000., nSCTPix=4) preseq = AlgSequence(D3PDMakerFlags.PreD3PDAlgSeqName()) preseq += filter1 preseq += filter2 # now configure the D3PD from OutputStreamAthenaPool.MultipleStreamManager import MSMgr alg = MSMgr.NewRootStream(name, file, TreeName=tuplename) #alg = D3PDMakerCoreComps.MakerAlg(tuplename, seq, # file = file, # D3PDSvc = D3PDSvc, # streamNameRoot = streamNameRoot) alg += EventInfoD3PDObject(**_args(10, 'EventInfo', kw)) alg += LArCollisionTimeD3PDObject(**_args(10, 'LArCollisionTime', kw)) from D3PDMakerCoreComps.D3PDObject import make_SG_D3PDObject import EventCommonD3PDMaker # Electron/Photon block alg += ElectronD3PDObject( **_args(10, 'Electron', kw, exclude=[ 'L1Index', 'L2Index', 'EMTrackFitDetails', 'EgammaJetSignedIPAndPTRelKin' ])) # Photon block alg += PhotonD3PDObject(**_args(10, 'Photon', kw)) # Muon blocks alg += MuonD3PDObject(**_args( 10, 'MuidMuon', kw, sgkey='MuidMuonCollection', prefix='mu_muid_', include=["EFCBInfoIndex", "EFMGInfoIndex", "EFMEInfoIndex"], exclude=["EFCBInfo", "EFMGInfo", "EFMEInfo", "L2CBInfo", "L1Info"], allowMissing=True)) alg += MuonD3PDObject(**_args( 10, 'StacoMuon', kw, sgkey='StacoMuonCollection', prefix='mu_staco_', include=["EFCBInfoIndex", "EFMGInfoIndex", "EFMEInfoIndex"], exclude=["EFCBInfo", "EFMGInfo", "EFMEInfo", "L2CBInfo", "L1Info"], allowMissing=True)) alg += MuonD3PDObject(**_args( 10, 'CaloMuon', kw, sgkey='CaloMuonCollection', prefix='mu_calo_', include=["EFCBInfoIndex", "EFMGInfoIndex", "EFMEInfoIndex"], exclude=["EFCBInfo", "EFMGInfo", "EFMEInfo", "L2CBInfo", "L1Info"], allowMissing=True)) alg += MuonD3PDObject(**_args( 10, 'Muons', kw, sgkey='Muons', prefix='mu_muon_', include=["EFCBInfoIndex", "EFMGInfoIndex", "EFMEInfoIndex"], exclude=["EFCBInfo", "EFMGInfo", "EFMEInfo", "L2CBInfo", "L1Info"], allowMissing=True)) # Quadruplet vertex block from AthenaCommon.AlgSequence import AlgSequence from D3PDMakerConfig.D3PDMakerFlags import D3PDMakerFlags from HSG2VertexCreation.HSG2VertexReconstruction import HSG2VertexReconstruction HSG2VertexReconstruction("HSG2VertexReconstruction", AlgSequence(D3PDMakerFlags.PreD3PDAlgSeqName())) from HiggsD3PDMaker.HSG2VertexReconstruction import addHSG2VertexReconstruction addHSG2VertexReconstruction(alg, electron_target="el_", muid_target="mu_muid_", staco_target="mu_staco_", calo_target="mu_calo_", muon_target="mu_muon_") # Tau block alg += TauD3PDObject(**_args(1, 'Tau', kw)) # Jet blocks alg += JetD3PDObject(**_args( 3, 'AK4TopoEMJet', kw, sgkey='AntiKt4TopoEMJets' + JetTagD3PD_CollectionPostfix, prefix='jet_akt4topoem_', #include = ['BTag','TrueFlavorComponents','BTagComponents'], include=[ JetTagD3PDKeys.BTagWeightsBlockName(), JetTagD3PDKeys.JetFitterCharmTagInfoBlockName(), JetTagD3PDKeys.JetFitterCharmInfoBaseBlockName(), JetTagD3PDKeys.TruthInfoBlockName(), "Constituents", 'TracksMoments', 'Samplings', # For GSC corrections ], allowMissing=True)) # For VBF and ZH(->inv) analyses alg += JetD3PDObject(**_args( 3, 'AK4LCTopoJet', kw, sgkey='AntiKt4LCTopoJets' + JetTagD3PD_CollectionPostfix, prefix='jet_AntiKt4LCTopo_', include=[ JetTagD3PDKeys.BTagWeightsBlockName(), JetTagD3PDKeys.JetFitterCharmTagInfoBlockName(), JetTagD3PDKeys.JetFitterCharmInfoBaseBlockName(), JetTagD3PDKeys.TruthInfoBlockName(), "Constituents", "ConstituentScale", # For ZH(->inv) analysis 'TracksMoments', 'Samplings', # For GSC corrections ], allowMissing=True)) # MET blocks # a whole mess to remove x,y components separately for all flavours alg += MissingETD3PDObject(**_args( 10, 'MissingET', kw, exclude=[ 'MET_Base', 'MET_Base0', 'MET_Truth_Int', 'MET_RefFinal_Comps', 'MET_Calib_Comps', 'MET_CellOut_Comps', 'MET_CorrTopo_Comps', 'MET_Cryo_Comps', 'MET_CryoCone_Comps', 'MET_Final_Comps', 'MET_LocHadTopo_Comps', 'MET_LocHadTopoObj_Comps', 'MET_Muid_Comps', 'MET_Muid_Spectro_Comps', 'MET_Muid_Track_Comps', 'MET_MuonBoy_Comps', 'MET_MuonBoy_Spectro_Comps', 'MET_MuonBoy_Track_Comps', 'MET_MuonMuid_Comps', 'MET_Muon_Comps', 'MET_Muon_Isol_Muid_Comps', 'MET_Muon_Isol_Staco_Comps', 'MET_Muon_NonIsol_Muid_Comps', 'MET_Muon_NonIsol_Staco_Comps', 'MET_Muon_Total_Muid_Comps', 'MET_Muon_Total_Staco_Comps', 'MET_RefEle_Comps', 'MET_RefEle_em_Comps', 'MET_RefGamma_Comps', 'MET_RefGamma_em_Comps', 'MET_RefJet_Comps', 'MET_RefJet_em_Comps', 'MET_RefMuon_Comps', 'MET_RefMuon_Muid_Comps', 'MET_RefMuon_Staco_Comps', 'MET_RefMuon_Track_Muid_Comps', 'MET_RefMuon_Track_Staco_Comps', 'MET_RefMuon_Track_em_Comps', 'MET_RefMuon_Track_Comps', 'MET_RefMuon_em_Comps', 'MET_RefTau_Comps', 'MET_RefTau_em_Comps', 'MET_SoftJets_Comps', 'MET_SoftJets_em_Comps', 'MET_Topo_Comps', 'MET_TopoObj_Comps', 'MET_Track_Comps' ], allowMissing=True)) # Pileup-subtracted MET RefFinal for ZH(->inv) analysis alg += MissingETCompositionD3PDObject(level=4, sgkey='MET_RefComposition_STVF', suffix='STVF_', allowMissing=True, jetSGKey='AntiKt4LCTopoJets', jetPrefix='jet_AntiKt4LCTopo_MET_') # ... good tracks only (nSCT>3; no pt cut) alg += TrackParticleD3PDObject(**_args(3, 'Tracks1', kw, sgkey='GoodTracks' + name, label='trk', prefix='trk_')) # ... high-pt tracks (nSCT>3; pt>5 GeV) from TrackD3PDMaker.TrackD3PDMakerFlags import TrackD3PDFlags as highPtFlags highPtFlags.doTruth = True highPtFlags.storeDiagonalCovarianceAsErrors = True highPtFlags.storeHitTruthMatching = True highPtFlags.storePixelHitsOnTrack = False highPtFlags.storePixelHolesOnTrack = False highPtFlags.storePixelOutliersOnTrack = False highPtFlags.storeSCTHitsOnTrack = False highPtFlags.storeSCTHolesOnTrack = False highPtFlags.storeSCTOutliersOnTrack = False highPtFlags.storeTRTHitsOnTrack = False highPtFlags.storeTRTHolesOnTrack = False highPtFlags.storeTRTOutliersOnTrack = False highPtFlags.storeTrackFitQuality = True highPtFlags.storeTrackMomentum = True highPtFlags.storeTrackSummary = True highPtFlags.trackParametersAtBeamSpotLevelOfDetails = 0 highPtFlags.trackParametersAtGlobalPerigeeLevelOfDetails = 2 highPtFlags.trackParametersAtPrimaryVertexLevelOfDetails = 3 alg += TrackParticleD3PDObject(**_args(3, 'Tracks2', kw, sgkey='HighPtTracks' + name, label='trkpt5', prefix='trkpt5_')) # Primary vertex block - May be missing in single-beam data. alg += PrimaryVertexD3PDObject(**_args(1, 'PrimaryVertex', kw, allowMissing=True, sgkey=D3PDMakerFlags.VertexSGKey(), prefix='vxp_')) # Truth if rec.doTruth(): from TruthD3PDMaker.GenEventD3PDObject import GenEventD3PDObject from TruthD3PDMaker.TruthParticleD3PDObject import TruthParticleD3PDObject from MuonD3PDMaker.TruthMuonD3PDObject import TruthMuonD3PDObject alg += TruthMuonD3PDObject(**_args(2, 'TruthMuon', kw)) alg += GenEventD3PDObject(**_args(1, 'GenEvent', kw)) alg += TruthParticleD3PDObject(**_args(1, 'TruthParticle', kw)) # TruthJets alg += JetD3PDObject(**_args(1, 'AK4TruthJet', kw, sgkey='AntiKt4TruthJets', prefix='jet_antikt4truth_', allowMissing=True)) # add Heavy flavour overlap from TopInputsD3PDMaker.HforD3PDObject import HforD3PDObject alg += HforD3PDObject(**_args(0, 'HforD3PD', kw)) # add mcVx information from TrackD3PDMaker.TruthVertexD3PDObject import TruthVertexD3PDObject alg += TruthVertexD3PDObject(**_args(0, 'TruthVertex', kw)) if not rec.doTruth(): alg += BeamSpotD3PDObject(10) if D3PDMakerFlags.DoTrigger(): # Trigger Decision + metadata alg += TrigDecisionD3PDObject(**_args(10, 'TrigDecision', kw)) addTrigConfMetadata(alg) from TrigMissingETD3PDMaker.TrigMETD3PD import TrigMETD3PDObjects TrigMETD3PDObjects(alg) from TrigEgammaD3PDMaker.TrigEgammaD3PD import TrigEgammaD3PDObjects TrigMuonD3PDObjects(alg, 1) TrigEgammaD3PDObjects(alg, level=10) # Event metadata alg.MetadataTools += [LBMetadataConfig()] from EventCommonD3PDMaker.CutFlowMetadataConfig import CutFlowMetadataConfig alg.MetadataTools += [CutFlowMetadataConfig(alg)] # Bunch train information from TriggerD3PDMaker.BunchStructureMetadata import addBunchStructureMetadata addBunchStructureMetadata(alg) ## Silence the trigger navigation warnings about missing containers: from AthenaCommon.AppMgr import ToolSvc if not hasattr(ToolSvc, "TrigDecisionTool"): from TrigDecisionTool.TrigDecisionToolConf import Trig__TrigDecisionTool ToolSvc += Trig__TrigDecisionTool("TrigDecisionTool") pass ToolSvc.TrigDecisionTool.Navigation.OutputLevel = 5 # EventShape variables # https://twiki.cern.ch/twiki/bin/viewauth/AtlasProtected/D3PDVariablesForPileup#EventShape_variables from QcdD3PDMaker.QcdEventShapeD3PDObject import EventShapeD3PDObject alg += EventShapeD3PDObject(**_args(0, 'rho', kw)) return alg