Exemplo n.º 1
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#-----------------------------------------------------------------------------
# configuration of Split track analysis
#
#-----------------------------------------------------------------------------

if muonCombinedRecFlags.doCombinedMuonFit():
  CombinedTrackCollection = "Combined_Tracks"


  # split COMBINED tracks
  from InDetTrackSplitterTool.InDetTrackSplitterToolConf import InDet__InDetTrackSplitterTool
  CombinedTrackSplitterTool=InDet__InDetTrackSplitterTool(name="CombinedTrackSplitterTool")
#  CombinedTrackSplitterTool.TrackFitter=CombMuonTrackFitter 
  CombinedTrackSplitterTool.TrackFitter= ToolSvc.MuonCombinedTrackFitter
  ToolSvc+=CombinedTrackSplitterTool

  from InDetTrackValidation.InDetTrackValidationConf import InDet__InDetSplittedTracksCreator
  CombinedTrackSplitterAlg=InDet__InDetSplittedTracksCreator(name="CombinedTrackSplitterAlg")
  CombinedTrackSplitterAlg.TrackCollection=CombinedTrackCollection
  CombinedTrackSplitterAlg.OutputTrackCollection=CombinedTrackCollection+"_split"
  CombinedTrackSplitterAlg.TrackSplitterTool=CombinedTrackSplitterTool #CAREFUL!!  
  topSequence +=  CombinedTrackSplitterAlg

  #truth tracks
  if rec.doTruth():
    include ("InDetRecExample/ConfiguredInDetTrackTruth.py")
        
    CombinedTracksTruth = ConfiguredInDetTrackTruth(CombinedTrackCollection+"_split",
                                                    CombinedTrackCollection+"DetailedTruth_split",
                                                    CombinedTrackCollection+"_Truth_split" )
if muonCombinedRecFlags.doStaco():
Exemplo n.º 2
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        InDetKeys.TRTTracks()
    ]

    m_d0Range = [50, 50, 50, 50, 800]
    m_deltaD0 = [0.8, 0.8, 0.8, 0.8, 8]
    m_deltaD02D = [5, 5, 5, 5, 10]
    m_deltaPhi = [0.005, 0.005, 0.005, 0.005, 0.01]
    m_deltaPhi2D = [0.02, 0.02, 0.02, 0.02, 0.05]
    m_deltaQoverPt = [0.05, 0.2, 0.05, 0.04, 0.1]
    m_deltaQoverPt2D = [0.05, 0.2, 0.05, 0.04, 0.1]

    for i in range(5):
        m_trackSplitter.append(
            InDet__InDetTrackSplitterTool(
                name=m_trackSplitterName[i],
                TrackFitter=InDetTrackFitter,
                OutputUpperTracksName=m_upperTracksName[i],
                OutputLowerTracksName=m_lowerTracksName[i]))

        ToolSvc += m_trackSplitter[i]
        if (InDetFlags.doPrintConfigurables()):
            print m_trackSplitter[i]

        m_trackSegmentsUpLow.append(
            IDAlignMonTrackSegments(
                name=m_trackSegmentsUpLowName[i],
                InputTracksName=m_inputTracksUpLow[i],
                UpperTracksName=m_upperTracksName[i],
                LowerTracksName=m_lowerTracksName[i],
                UseCTBSplitTracks=False,
                TrackSplitter=m_trackSplitter[i],  #Need the even ones
Exemplo n.º 3
0
if rec.doMuonCombined() and muonCombinedRecFlags.doMuonClusters() and (
        rec.readAOD() or rec.readESD() or DetFlags.haveRIO.Calo_on()):
    # hack until MuonClusterCollection is properly added to ObjKeyStore
    # Needed by CaloCellAODGetter.addClusterToCaloCellAOD()
    if jobproperties.Beam.beamType(
    ) != 'cosmics' and jobproperties.Beam.beamType() != 'singlebeam':
        from RecExConfig.ObjKeyStore import objKeyStore
        objKeyStore.addStreamAOD("CaloClusterContainer",
                                 "MuonClusterCollection")


if rec.doMuonCombined() and jobproperties.Beam.beamType()=='cosmics' and DetFlags.haveRIO.ID_on() and \
       InDetFlags.Enabled() and not InDetFlags.disableInDetReco():
    from InDetTrackSplitterTool.InDetTrackSplitterToolConf import InDet__InDetTrackSplitterTool
    splittertool = InDet__InDetTrackSplitterTool(
        name='InDetTrackSplitterToolForMuonCombined',
        TrackFitter=ToolSvc.InDetTrackFitter)
    ToolSvc += splittertool

    from InDetTrackValidation.InDetTrackValidationConf import InDet__InDetSplittedTracksCreator
    splitter = InDet__InDetSplittedTracksCreator(
        name='InDetTrackSplitterForMuonCombined',
        TrackSplitterTool=splittertool,
        TrackCollection=InDetKeys.Tracks(),
        OutputTrackCollection=InDetKeys.Tracks() + "_split")

    topSequence += splitter

    from TrkParticleCreator.TrkParticleCreatorConf import Trk__TrackParticleCreatorTool
    InDetParticleCreatorTool_split = Trk__TrackParticleCreatorTool(
        name="InDetParticleCreatorTool_split",
Exemplo n.º 4
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        print InDetAlignMonEfficienciesList[i]


    InDetAlignMonGenericTracksList.append(IDAlignMonGenericTracks (name = m_genTrkName[i],
                                                                   tracksName= m_tracksName[i],
                                                                   trackSelection = InDetAlignMonTrackSelectionTool,
                                                                   VxPrimContainerName = InDetKeys.PrimaryVertices())   )

    #ToolSvc += InDetAlignMonGenericTracksList[i]
    if (InDetFlags.doPrintConfigurables()):
        print InDetAlignMonGenericTracksList[i]


    InDetTrackSplitterToolList.append(InDet__InDetTrackSplitterTool(name = "TrackSplitterTool_"+m_trkSplitterName[i],
                                                                    TrackFitter = InDetTrackFitter,
                                                                    OutputUpperTracksName = m_trkSplitterName[i]+"_Upper",
                                                                    OutputLowerTracksName = m_trkSplitterName[i]+"_Lower",
                                                                    OutputLevel = ERROR) )
                                           
    #ToolSvc += InDetTrackSplitterToolList[i]
    if (InDetFlags.doPrintConfigurables()):
        print InDetTrackSplitterToolList[i]
        
    InDetAlignMonTrackSegmentsList.append(IDAlignMonTrackSegments ( name = m_trkSegName[i],
                                                                    InputTracksName = m_tracksName[i],
                                                                    UpperTracksName = m_trkSplitterName[i]+"_Upper",
                                                                    LowerTracksName = m_trkSplitterName[i]+"_Lower",
                                                                    UseCTBSplitTracks = False,
                                                                    TrackSplitter =  InDetTrackSplitterToolList[i],
                                                                    trackSelectionUp = InDetAlignMonTrackSelectionTool,
                                                                    trackSelectionLow = InDetAlignMonTrackSelectionTool,
Exemplo n.º 5
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        vxContainerWithBeamConstraint=InDetFlags.useBeamConstraint())
    #ToolSvc += InDetAlignMonBeamSpot_noTrig
    InDetAlignMonManager.AthenaMonTools += [InDetAlignMonBeamSpot_noTrig]

###############################################
# trying to implement the track segments for cosmics

if Cosmics:
    from InDetTrackSplitterTool.InDetTrackSplitterToolConf import InDet__InDetTrackSplitterTool
    from InDetTrackValidation.InDetTrackValidationConf import InDet__InDetSplittedTracksCreator
    from InDetAlignmentMonitoring.InDetAlignmentMonitoringConf import IDAlignMonTrackSegments

    #----- tools for track splliting ---- START ----
    splittertoolcomb = InDet__InDetTrackSplitterTool(
        name="VARO_SplitterTool",
        TrackFitter=InDetTrackFitter,  #InDetTrackFitter,
        OutputUpperTracksName="TracksUpperSplit",
        OutputLowerTracksName="TracksLowerSplit",
        OutputLevel=INFO)
    #ToolSvc += splittertoolcomb
    printfunc(splittertoolcomb)

    # tool to convert to xAOD::TrackParticles
    from TrkParticleCreator.TrkParticleCreatorConf import Trk__TrackParticleCreatorTool
    InDetxAODSplitParticleCreatorTool = Trk__TrackParticleCreatorTool(
        name="InDetSplitxAODParticleCreatorTool",
        Extrapolator=InDetExtrapolator,
        TrackSummaryTool=InDetTrackSummaryToolSharedHits,
        KeepParameters=True,
        OutputLevel=DEBUG)
    #ToolSvc += InDetxAODSplitParticleCreatorTool
    #----- tools for track splliting ---- COMPLETED ----
Exemplo n.º 6
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    topSequence += PixelChargeToTConversionSetter 
    if (printIdTrkDxAODConf):
        print PixelChargeToTConversionSetter
        print PixelChargeToTConversionSetter.properties()

#Setup SCT extension efficiency algorithm if running pixel tracklets
#if InDetFlags.doTrackSegmentsPixel():
#    include ("SCTExtension/SCTExtensionAlg.py")

#Setup split-tracks reconstruction in cosmic-mode and produce xAOD::TrackParticles
if makeSplitTracks:
    # Set input/output container names
    # Setup algorithm to create split tracks
    from InDetTrackSplitterTool.InDetTrackSplitterToolConf import InDet__InDetTrackSplitterTool
    splittertoolcomb= InDet__InDetTrackSplitterTool(name="SplitterTool",
                                                    TrackFitter=ToolSvc.InDetTrackFitter,
                                                    OutputUpperTracksName = "TracksUpperSplit",
                                                    OutputLowerTracksName = "TracksLowerSplit") 
    ToolSvc += splittertoolcomb

    from InDetTrackValidation.InDetTrackValidationConf import InDet__InDetSplittedTracksCreator
    splittercomb=InDet__InDetSplittedTracksCreator(name='CombinedTrackSplitter',
    TrackSplitterTool     = splittertoolcomb,
    TrackCollection       = "Tracks",
    OutputTrackCollection = "Tracks_split")
    topSequence+=splittercomb
    if (printIdTrkDxAODConf):
        print splittercomb
        print splittercomb.properties()

    # Create xAOD::TrackParticles out of them
    from TrkParticleCreator.TrkParticleCreatorConf import Trk__TrackParticleCreatorTool
Exemplo n.º 7
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    m_inputTracksUpLow     = ["AlignTracks", "CombinedInDetTracks",InDetKeys.Tracks(),InDetKeys.PixelTracks(),InDetKeys.SCTTracks(),"ResolvedTracks",InDetKeys.TRTTracks()]

    m_d0Range               = [   100,   1000,    100,    100,    100,    100, 800.]
    m_deltaD0               = [   0.5,    0.5,    0.5,    0.8,   0.8,   0.5,     8.]
    m_deltaD02D             = [   1.0,    1.0,    1.0,    1.0,   1.0,   1.0,    10.]
    m_deltaPhi              = [ 0.002,   0.01,   0.002,  0.005, 0.005, 0.002, 0.01]
    m_deltaPhi2D            = [  0.02,   0.05,   0.02,   0.02,  0.02,  0.02,  0.05]
    m_deltaQoverPt          = [  0.02,    0.1,    0.02,   0.2,   0.05,  0.02,  0.1]
    m_deltaQoverPt2D        = [  0.05,    0.1,    0.05,   0.2,   0.05,  0.04,  0.1]

    for i in range(len(m_trackSplitterName)):
        printfunc (" <NewInDetAlignMonitoring> Setting track splitter:", m_trackSplitterName[i])
        m_trackSplitter.append(InDet__InDetTrackSplitterTool(name                 = m_trackSplitterName[i],
                                                             TrackFitter           = InDetTrackFitter,
                                                             OutputUpperTracksName = m_upperTracksName[i],
                                                             OutputLowerTracksName = m_lowerTracksName[i],
                                                             OutputLevel = WARNING))
       
        #ToolSvc += m_trackSplitter[i]
        if (InDetFlags.doPrintConfigurables()):
            printfunc (m_trackSplitter[i])
            printfunc (" <NewInDetAlignMonitoring> step ",i," -> defined track segment monitoring for",m_trackSegmentsUpLowName[i],"using", m_upperTracksName[i],"and",  m_lowerTracksName[i], "   2*i+1=",2*i+1," m_alignMonTrackSelectionTool ? length=",len(m_alignMonTrackSelectionTool))
        m_trackSegmentsUpLow.append(IDAlignMonTrackSegments(name                = m_trackSegmentsUpLowName[i],
                                                            InputTracksName     = m_inputTracksUpLow[i],
                                                            UpperTracksName     = m_upperTracksName[i],
                                                            LowerTracksName     = m_lowerTracksName[i],
                                                            UseCTBSplitTracks   = False,
                                                            TrackSplitter       = m_trackSplitter[i],#Need the even ones
                                                            trackSelectionUp    = m_alignMonTrackSelectionTool[2*i+1],
                                                            trackSelectionLow   = m_alignMonTrackSelectionTool[2*i+1],