def __init__(self, NewTrackingCuts = None, SiTrackCollection = None, ExtendedTrackCollection = None, ExtendedTracksMap = None, TrackCollectionKeys=[], TrackCollectionTruthKeys=[] , doPhase = True):
from InDetRecExample.InDetJobProperties import InDetFlags
from AthenaCommon.DetFlags import DetFlags
from InDetRecExample.InDetKeys import InDetKeys
import InDetRecExample.TrackingCommon as TrackingCommon
#
# get ToolSvc and topSequence
#
from AthenaCommon.AppMgr import ToolSvc
from AthenaCommon.AlgSequence import AlgSequence
topSequence = AlgSequence()
#
# ---------- TRT_TrackExtension
#
if InDetFlags.doTRTExtension() and InDetFlags.doTRTExtensionNew():
#
# Track extension to TRT algorithm
#
# set output extension map name
OutputExtendedTracks = ExtendedTracksMap
if doPhase:
from TRT_TrackExtensionTool_xk.TRT_TrackExtensionTool_xkConf import InDet__TRT_TrackExtensionToolCosmics
InDetTRTExtensionToolPhase = TrackingCommon.getInDetTRT_ExtensionToolPhase()
from TRT_TrackExtensionAlg.TRT_TrackExtensionAlgConf import InDet__TRT_TrackExtensionAlg
InDetTRTExtensionPhase = InDet__TRT_TrackExtensionAlg (name = 'InDetTRT_ExtensionPhase'+NewTrackingCuts.extension(),
InputTracksLocation = SiTrackCollection,
ExtendedTracksLocation = OutputExtendedTracks,
TrackExtensionTool = InDetTRTExtensionToolPhase)
topSequence += InDetTRTExtensionPhase
if (InDetFlags.doPrintConfigurables()):
printfunc (InDetTRTExtensionPhase)
else:
cuts_args = {}
if NewTrackingCuts is not None :
cuts_args={'TrackingCuts': NewTrackingCuts}
from TRT_TrackExtensionAlg.TRT_TrackExtensionAlgConf import InDet__TRT_TrackExtensionAlg
InDetTRTExtension = InDet__TRT_TrackExtensionAlg(name = 'InDetTRT_Extension'+NewTrackingCuts.extension(),
InputTracksLocation = SiTrackCollection,
ExtendedTracksLocation = OutputExtendedTracks,
TrackExtensionTool = TrackingCommon.getInDetTRT_ExtensionTool(**cuts_args))
#InDetTRTExtension.OutputLevel = VERBOSE
topSequence += InDetTRTExtension
if (InDetFlags.doPrintConfigurables()):
printfunc (InDetTRTExtension)
#
# ------------ Track Extension Processor
#
if InDetFlags.doExtensionProcessor() and InDetFlags.doTRTExtensionNew():
if InDetFlags.trtExtensionType() == 'DAF' :
#
# --- DAF Fitter setup
#
from TrkCompetingRIOsOnTrackTool.TrkCompetingRIOsOnTrackToolConf import Trk__CompetingRIOsOnTrackTool
InDetCompetingRotCreator = Trk__CompetingRIOsOnTrackTool( name = 'InDetCompetingRotCreator'+NewTrackingCuts.extension(),
ToolForCompPixelClusters = None, # default
ToolForCompSCT_Clusters = None, # default
ToolForCompTRT_DriftCircles = InDetCompetingTRT_DC_Tool )
ToolSvc += InDetCompetingRotCreator
if (InDetFlags.doPrintConfigurables()):
printfunc (InDetCompetingRotCreator)
#
from TrkDeterministicAnnealingFilter.TrkDeterministicAnnealingFilterConf import Trk__DeterministicAnnealingFilter
InDetExtensionFitter = Trk__DeterministicAnnealingFilter( name = 'InDetDAF'+NewTrackingCuts.extension(),
ToolForExtrapolation = InDetExtrapolator,
ToolForCompetingROTsCreation = InDetCompetingRotCreator,
ToolForUpdating = InDetUpdator,
AnnealingScheme = [200., 81., 9., 4., 1., 1., 1.],
DropOutlierCutValue = 1.E-7,
OutlierCutValue = 0.01 )
ToolSvc += InDetExtensionFitter
if (InDetFlags.doPrintConfigurables()):
printfunc (InDetExtensionFitter)
else:
from AthenaCommon import CfgGetter
InDetExtensionFitter = CfgGetter.getPublicTool('InDetTrackFitter' if NewTrackingCuts.mode() != "LowPt" else 'InDetTrackFitterLowPt')
#
# --- load scoring for extension
#
if InDetFlags.doCosmics():
InDetExtenScoringTool = TrackingCommon.getInDetCosmicExtenScoringTool(NewTrackingCuts)
else:
InDetExtenScoringTool = TrackingCommon.getInDetExtenScoringTool(NewTrackingCuts)
#
# --- output track collection
#
self.__ForwardTrackCollection = ExtendedTrackCollection
#
# --- get configured track extension processor
#
if doPhase:
from InDetExtensionProcessor.InDetExtensionProcessorConf import InDet__InDetExtensionProcessor
InDetExtensionProcessorPhase = InDet__InDetExtensionProcessor ( name = "InDetExtensionProcessorPhase"+NewTrackingCuts.extension(),
TrackName = SiTrackCollection,
Cosmics = True,
ExtensionMap = OutputExtendedTracks,
NewTrackName = self.__ForwardTrackCollection,
TrackFitter = InDetExtensionFitter,
TrackSummaryTool = TrackingCommon.getInDetTrackSummaryTool(),
ScoringTool = InDetExtenScoringTool,
suppressHoleSearch = False, # does not work properly
tryBremFit = InDetFlags.doBremRecovery(),
caloSeededBrem = InDetFlags.doCaloSeededBrem(),
pTminBrem = NewTrackingCuts.minPTBrem(),
RefitPrds = not (InDetFlags.refitROT() or (InDetFlags.trtExtensionType() == 'DAF')))
#InDetExtensionProcessor.OutputLevel = VERBOSE
if InDetFlags.materialInteractions():
InDetExtensionProcessorPhase.matEffects = InDetFlags.materialInteractionsType()
else:
InDetExtensionProcessorPhase.matEffects = 0
topSequence += InDetExtensionProcessorPhase
if (InDetFlags.doPrintConfigurables()):
printfunc (InDetExtensionProcessorPhase)
else:
from InDetExtensionProcessor.InDetExtensionProcessorConf import InDet__InDetExtensionProcessor
InDetExtensionProcessor = InDet__InDetExtensionProcessor ( name = "InDetExtensionProcessor"+NewTrackingCuts.extension(),
TrackName = SiTrackCollection,
Cosmics = InDetFlags.doCosmics(),
ExtensionMap = OutputExtendedTracks,
NewTrackName = self.__ForwardTrackCollection,
TrackFitter = InDetExtensionFitter,
TrackSummaryTool = TrackingCommon.getInDetTrackSummaryTool(),
ScoringTool = InDetExtenScoringTool,
suppressHoleSearch = False, # does not work properly
tryBremFit = InDetFlags.doBremRecovery(),
caloSeededBrem = InDetFlags.doCaloSeededBrem(),
pTminBrem = NewTrackingCuts.minPTBrem(),
RefitPrds = not (InDetFlags.refitROT() or (InDetFlags.trtExtensionType() == 'DAF')))
#InDetExtensionProcessor.OutputLevel = VERBOSE
if InDetFlags.materialInteractions():
InDetExtensionProcessor.matEffects = InDetFlags.materialInteractionsType()
else:
InDetExtensionProcessor.matEffects = 0
topSequence += InDetExtensionProcessor
if (InDetFlags.doPrintConfigurables()):
printfunc (InDetExtensionProcessor)
# --- Delete Resolved Si tracks and extension map
from InDetRecExample.ConfiguredInDetSGDeletion import InDetSGDeletionAlg
InDetSGDeletionAlg(container = "TrackExtensionMap#", key = OutputExtendedTracks)
if not InDetFlags.doMonitoringAlignment():
InDetSGDeletionAlg(key = SiTrackCollection)
#
# ------------ Track truth.
#
if not InDetFlags.doSGDeletion():
if InDetFlags.doTruth():
#
# set up the truth info for this container
#
include ("InDetRecExample/ConfiguredInDetTrackTruth.py")
InDetTracksTruth = ConfiguredInDetTrackTruth(self.__ForwardTrackCollection,
self.__ForwardTrackCollection+"DetailedTruth",
self.__ForwardTrackCollection+"TruthCollection")
#
# add final output for statistics
#
TrackCollectionKeys += [ InDetTracksTruth.Tracks() ]
TrackCollectionTruthKeys += [ InDetTracksTruth.TracksTruth() ]
else:
TrackCollectionKeys += [ self.__ForwardTrackCollection ]
#
else:
self.__ForwardTrackCollection = SiTrackCollection
from InDetGlobalMonitoring.InDetGlobalMonitoringConf import InDetGlobalTrackMonTool
InDetGlobalTrackMonTool=InDetGlobalTrackMonTool( name = "InDetGlobalTrackMonTool",
histoPathBase = "/GLOBAL",
DoIBL = InDetFlags.doIBL(),
trackMax = 75,
TrackToVertexIPEstimator = TrackingCommon.getTrackToVertexIPEstimator() )
TrackCollection = InDetKeys.UnslimmedTracks()
from InDetTrackSelectionTool.InDetTrackSelectionToolConf import InDet__InDetTrackSelectionTool
InDetTrackSelectionToolGlobalMon_Baseline = InDet__InDetTrackSelectionTool(name = "InDetTrackSelectionToolGlobalMon_Baseline",
UseTrkTrackTools = True,
CutLevel = "TightPrimary",
maxNPixelHoles = 1,
minPt = 5000,
TrackSummaryTool = TrackingCommon.getInDetTrackSummaryTool(),
Extrapolator = TrackingCommon.getInDetExtrapolator())
InDetTrackSelectionToolGlobalMon_TightPrimary = InDet__InDetTrackSelectionTool(name = "InDetTrackSelectionToolGlobalMon_TightPrimary",
UseTrkTrackTools = True,
CutLevel = "TightPrimary",
minPt = 5000,
TrackSummaryTool = TrackingCommon.getInDetTrackSummaryTool(),
Extrapolator = TrackingCommon.getInDetExtrapolator())
#ToolSvc += InDetTrackSelectionToolGlobalMon_Baseline
#ToolSvc += InDetTrackSelectionToolGlobalMon_TightPrimary
InDetGlobalTrackMonTool.Baseline_SelTool = InDetTrackSelectionToolGlobalMon_Baseline
InDetGlobalTrackMonTool.Tight_SelTool = InDetTrackSelectionToolGlobalMon_TightPrimary
def __init__(self,
InputCollections=None,
ResolvedTrackCollectionKey=None,
SiSPSeededTrackCollectionKey=None,
NewTrackingCuts=None,
TrackCollectionKeys=[],
TrackCollectionTruthKeys=[]):
from InDetRecExample.InDetJobProperties import InDetFlags
from InDetRecExample.InDetKeys import InDetKeys
import InDetRecExample.TrackingCommon as TrackingCommon
#
# --- get ToolSvc and topSequence
#
from AthenaCommon.AppMgr import ToolSvc
from AthenaCommon.AlgSequence import AlgSequence
topSequence = AlgSequence()
#
# --- decide if use the association tool
#
if (len(InputCollections) > 0) and (
NewTrackingCuts.mode() == "LowPt" or NewTrackingCuts.mode()
== "VeryLowPt" or NewTrackingCuts.mode() == "LargeD0"
or NewTrackingCuts.mode() == "R3LargeD0"
or NewTrackingCuts.mode() == "LowPtLargeD0"
or NewTrackingCuts.mode() == "BeamGas"
or NewTrackingCuts.mode() == "ForwardTracks"
or NewTrackingCuts.mode() == "ForwardSLHCTracks"
or NewTrackingCuts.mode() == "Disappearing"
or NewTrackingCuts.mode() == "VeryForwardSLHCTracks"
or NewTrackingCuts.mode() == "SLHCConversionFinding"):
usePrdAssociationTool = True
else:
usePrdAssociationTool = False
#
# --- get list of already associated hits (always do this, even if no other tracking ran before)
#
asso_tool = None
if usePrdAssociationTool:
prefix = 'InDet'
suffix = NewTrackingCuts.extension()
InDetPRD_Association = TrackingCommon.getInDetTrackPRD_Association(
namePrefix=prefix,
nameSuffix=suffix,
TracksName=list(InputCollections))
# asso_tool = TrackingCommon.getConstPRD_AssociationTool(namePrefix = prefix, nameSuffix = suffix)
topSequence += InDetPRD_Association
if (InDetFlags.doPrintConfigurables()):
printfunc(InDetPRD_Association)
# ------------------------------------------------------------
#
# ----------- SiSPSeededTrackFinder
#
# ------------------------------------------------------------
if InDetFlags.doSiSPSeededTrackFinder():
#
# --- Space points seeds maker, use different ones for cosmics and collisions
#
if NewTrackingCuts.mode() == "DBM":
from SiSpacePointsSeedTool_xk.SiSpacePointsSeedTool_xkConf import InDet__SiSpacePointsSeedMaker_ATLxk as SiSpacePointsSeedMaker
elif InDetFlags.doCosmics():
from SiSpacePointsSeedTool_xk.SiSpacePointsSeedTool_xkConf import InDet__SiSpacePointsSeedMaker_Cosmic as SiSpacePointsSeedMaker
elif InDetFlags.doHeavyIon():
from SiSpacePointsSeedTool_xk.SiSpacePointsSeedTool_xkConf import InDet__SiSpacePointsSeedMaker_HeavyIon as SiSpacePointsSeedMaker
elif NewTrackingCuts.mode() == "LowPt" or NewTrackingCuts.mode(
) == "VeryLowPt" or (NewTrackingCuts.mode() == "Pixel"
and InDetFlags.doMinBias()):
from SiSpacePointsSeedTool_xk.SiSpacePointsSeedTool_xkConf import InDet__SiSpacePointsSeedMaker_LowMomentum as SiSpacePointsSeedMaker
elif NewTrackingCuts.mode() == "BeamGas":
from SiSpacePointsSeedTool_xk.SiSpacePointsSeedTool_xkConf import InDet__SiSpacePointsSeedMaker_BeamGas as SiSpacePointsSeedMaker
elif NewTrackingCuts.mode() == "SLHC" or NewTrackingCuts.mode(
) == "ForwardSLHCTracks" or NewTrackingCuts.mode(
) == "VeryForwardSLHCTracks":
from SiSpacePointsSeedTool_xk.SiSpacePointsSeedTool_xkConf import InDet__SiSpacePointsSeedMaker_ITK as SiSpacePointsSeedMaker
else:
from SiSpacePointsSeedTool_xk.SiSpacePointsSeedTool_xkConf import InDet__SiSpacePointsSeedMaker_ATLxk as SiSpacePointsSeedMaker
InDetSiSpacePointsSeedMaker = SiSpacePointsSeedMaker(
name="InDetSpSeedsMaker" + NewTrackingCuts.extension(),
pTmin=NewTrackingCuts.minPT(),
maxdImpact=NewTrackingCuts.maxPrimaryImpact(),
maxZ=NewTrackingCuts.maxZImpact(),
minZ=-NewTrackingCuts.maxZImpact(),
usePixel=NewTrackingCuts.usePixel(),
SpacePointsPixelName=InDetKeys.PixelSpacePoints(),
# useSCT = NewTrackingCuts.useSCT(),
useSCT=(NewTrackingCuts.useSCT()
and NewTrackingCuts.useSCTSeeding()),
SpacePointsSCTName=InDetKeys.SCT_SpacePoints(),
# useOverlapSpCollection = NewTrackingCuts.useSCT(),
useOverlapSpCollection=(NewTrackingCuts.useSCT()
and NewTrackingCuts.useSCTSeeding()),
SpacePointsOverlapName=InDetKeys.OverlapSpacePoints(),
radMax=NewTrackingCuts.radMax(),
RapidityCut=NewTrackingCuts.maxEta())
if NewTrackingCuts.mode() == "Offline" or InDetFlags.doHeavyIon(
) or NewTrackingCuts.mode() == "ForwardTracks":
InDetSiSpacePointsSeedMaker.maxdImpactPPS = NewTrackingCuts.maxdImpactPPSSeeds(
)
InDetSiSpacePointsSeedMaker.maxdImpactSSS = NewTrackingCuts.maxdImpactSSSSeeds(
)
if not InDetFlags.doHeavyIon():
InDetSiSpacePointsSeedMaker.maxSeedsForSpacePointStrips = NewTrackingCuts.MaxSeedsPerSP_Strips(
)
InDetSiSpacePointsSeedMaker.maxSeedsForSpacePointPixels = NewTrackingCuts.MaxSeedsPerSP_Pixels(
)
InDetSiSpacePointsSeedMaker.alwaysKeepConfirmedStripSeeds = NewTrackingCuts.KeepAllConfirmedStripSeeds(
)
InDetSiSpacePointsSeedMaker.alwaysKeepConfirmedPixelSeeds = NewTrackingCuts.KeepAllConfirmedPixelSeeds(
)
if NewTrackingCuts.mode() == "R3LargeD0":
InDetSiSpacePointsSeedMaker.optimisePhiBinning = False
InDetSiSpacePointsSeedMaker.usePixel = False
InDetSiSpacePointsSeedMaker.etaMax = NewTrackingCuts.maxEta()
InDetSiSpacePointsSeedMaker.maxSeedsForSpacePointStrips = NewTrackingCuts.MaxSeedsPerSP_Strips(
)
InDetSiSpacePointsSeedMaker.alwaysKeepConfirmedStripSeeds = NewTrackingCuts.KeepAllConfirmedStripSeeds(
)
InDetSiSpacePointsSeedMaker.maxdRadius = 150
InDetSiSpacePointsSeedMaker.seedScoreBonusConfirmationSeed = -2000 #let's be generous
if usePrdAssociationTool:
# not all classes have that property !!!
InDetSiSpacePointsSeedMaker.PRDtoTrackMap = prefix+'PRDtoTrackMap'+suffix \
if usePrdAssociationTool else ''
if not InDetFlags.doCosmics():
InDetSiSpacePointsSeedMaker.maxRadius1 = 0.75 * NewTrackingCuts.radMax(
)
InDetSiSpacePointsSeedMaker.maxRadius2 = NewTrackingCuts.radMax(
)
InDetSiSpacePointsSeedMaker.maxRadius3 = NewTrackingCuts.radMax(
)
if NewTrackingCuts.mode() == "LowPt" or NewTrackingCuts.mode(
) == "VeryLowPt" or (NewTrackingCuts.mode() == "Pixel"
and InDetFlags.doMinBias()):
try:
InDetSiSpacePointsSeedMaker.pTmax = NewTrackingCuts.maxPT()
except:
pass
InDetSiSpacePointsSeedMaker.mindRadius = 4.0
if NewTrackingCuts.mode() == "SLHC" or NewTrackingCuts.mode(
) == "SLHCConversionFinding":
InDetSiSpacePointsSeedMaker.minRadius1 = 0
InDetSiSpacePointsSeedMaker.minRadius2 = 0
InDetSiSpacePointsSeedMaker.minRadius3 = 0
InDetSiSpacePointsSeedMaker.maxRadius1 = 1000. * Units.mm
InDetSiSpacePointsSeedMaker.maxRadius2 = 1000. * Units.mm
InDetSiSpacePointsSeedMaker.maxRadius3 = 1000. * Units.mm
if NewTrackingCuts.mode(
) == "ForwardTracks" or NewTrackingCuts.mode(
) == "ForwardSLHCTracks" or NewTrackingCuts.mode(
) == "VeryForwardSLHCTracks":
InDetSiSpacePointsSeedMaker.checkEta = True
InDetSiSpacePointsSeedMaker.etaMin = NewTrackingCuts.minEta()
InDetSiSpacePointsSeedMaker.etaMax = NewTrackingCuts.maxEta()
InDetSiSpacePointsSeedMaker.RapidityCut = NewTrackingCuts.maxEta(
)
if NewTrackingCuts.mode() == "DBM":
InDetSiSpacePointsSeedMaker.etaMin = NewTrackingCuts.minEta()
InDetSiSpacePointsSeedMaker.etaMax = NewTrackingCuts.maxEta()
InDetSiSpacePointsSeedMaker.useDBM = True
#InDetSiSpacePointsSeedMaker.OutputLevel = VERBOSE
ToolSvc += InDetSiSpacePointsSeedMaker
if (InDetFlags.doPrintConfigurables()):
printfunc(InDetSiSpacePointsSeedMaker)
#
# --- Z-coordinates primary vertices finder (only for collisions)
#
if InDetFlags.useZvertexTool() and NewTrackingCuts.mode() != "DBM":
from SiZvertexTool_xk.SiZvertexTool_xkConf import InDet__SiZvertexMaker_xk
InDetZvertexMaker = InDet__SiZvertexMaker_xk(
name='InDetZvertexMaker' + NewTrackingCuts.extension(),
Zmax=NewTrackingCuts.maxZImpact(),
Zmin=-NewTrackingCuts.maxZImpact(),
minRatio=0.17) # not default
InDetZvertexMaker.SeedMakerTool = InDetSiSpacePointsSeedMaker
if InDetFlags.doHeavyIon():
InDetZvertexMaker.HistSize = 2000
###InDetZvertexMaker.minContent = 200
InDetZvertexMaker.minContent = 30
ToolSvc += InDetZvertexMaker
if (InDetFlags.doPrintConfigurables()):
printfunc(InDetZvertexMaker)
else:
InDetZvertexMaker = None
#
# --- SCT and Pixel detector elements road builder
#
from SiDetElementsRoadTool_xk.SiDetElementsRoadTool_xkConf import InDet__SiDetElementsRoadMaker_xk
InDetSiDetElementsRoadMaker = InDet__SiDetElementsRoadMaker_xk(
name='InDetSiRoadMaker' + NewTrackingCuts.extension(),
PropagatorTool=InDetPatternPropagator,
usePixel=NewTrackingCuts.usePixel(),
PixManagerLocation=InDetKeys.PixelManager(),
useSCT=NewTrackingCuts.useSCT(),
SCTManagerLocation=InDetKeys.SCT_Manager(),
RoadWidth=NewTrackingCuts.RoadWidth())
if (InDetFlags.doPrintConfigurables()):
printfunc(InDetSiDetElementsRoadMaker)
# Condition algorithm for InDet__SiDetElementsRoadMaker_xk
if DetFlags.haveRIO.pixel_on():
# Condition algorithm for SiCombinatorialTrackFinder_xk
from AthenaCommon.AlgSequence import AthSequencer
condSeq = AthSequencer("AthCondSeq")
if not hasattr(condSeq,
"InDetSiDetElementBoundaryLinksPixelCondAlg"):
from SiCombinatorialTrackFinderTool_xk.SiCombinatorialTrackFinderTool_xkConf import InDet__SiDetElementBoundaryLinksCondAlg_xk
condSeq += InDet__SiDetElementBoundaryLinksCondAlg_xk(
name="InDetSiDetElementBoundaryLinksPixelCondAlg",
ReadKey="PixelDetectorElementCollection",
WriteKey="PixelDetElementBoundaryLinks_xk",
UsePixelDetectorManager=True)
if NewTrackingCuts.useSCT():
from AthenaCommon.AlgSequence import AthSequencer
condSeq = AthSequencer("AthCondSeq")
if not hasattr(condSeq, "InDet__SiDetElementsRoadCondAlg_xk"):
from SiDetElementsRoadTool_xk.SiDetElementsRoadTool_xkConf import InDet__SiDetElementsRoadCondAlg_xk
condSeq += InDet__SiDetElementsRoadCondAlg_xk(
name="InDet__SiDetElementsRoadCondAlg_xk")
if not hasattr(condSeq,
"InDetSiDetElementBoundaryLinksSCTCondAlg"):
from SiCombinatorialTrackFinderTool_xk.SiCombinatorialTrackFinderTool_xkConf import InDet__SiDetElementBoundaryLinksCondAlg_xk
condSeq += InDet__SiDetElementBoundaryLinksCondAlg_xk(
name="InDetSiDetElementBoundaryLinksSCTCondAlg",
ReadKey="SCT_DetectorElementCollection",
WriteKey="SCT_DetElementBoundaryLinks_xk")
#
# --- Local track finding using sdCaloSeededSSSpace point seed
#
# @TODO ensure that PRD association map is used if usePrdAssociationTool is set
is_dbm = InDetFlags.doDBMstandalone() or NewTrackingCuts.extension(
) == 'DBM'
rot_creator_digital = TrackingCommon.getInDetRotCreatorDigital(
) if not is_dbm else TrackingCommon.getInDetRotCreatorDBM()
from SiCombinatorialTrackFinderTool_xk.SiCombinatorialTrackFinderTool_xkConf import InDet__SiCombinatorialTrackFinder_xk
track_finder = InDet__SiCombinatorialTrackFinder_xk(
name='InDetSiComTrackFinder' + NewTrackingCuts.extension(),
PropagatorTool=InDetPatternPropagator,
UpdatorTool=InDetPatternUpdator,
RIOonTrackTool=rot_creator_digital,
usePixel=DetFlags.haveRIO.pixel_on(),
useSCT=DetFlags.haveRIO.SCT_on() if not is_dbm else False,
PixelClusterContainer=InDetKeys.PixelClusters(),
SCT_ClusterContainer=InDetKeys.SCT_Clusters())
if is_dbm:
track_finder.MagneticFieldMode = "NoField"
track_finder.TrackQualityCut = 9.3
if (DetFlags.haveRIO.SCT_on()):
track_finder.SctSummaryTool = InDetSCT_ConditionsSummaryTool
else:
track_finder.SctSummaryTool = None
ToolSvc += track_finder
useBremMode = NewTrackingCuts.mode(
) == "Offline" or NewTrackingCuts.mode(
) == "SLHC" or NewTrackingCuts.mode() == "DBM"
from SiTrackMakerTool_xk.SiTrackMakerTool_xkConf import InDet__SiTrackMaker_xk as SiTrackMaker
InDetSiTrackMaker = SiTrackMaker(
name='InDetSiTrackMaker' + NewTrackingCuts.extension(),
useSCT=NewTrackingCuts.useSCT(),
usePixel=NewTrackingCuts.usePixel(),
RoadTool=InDetSiDetElementsRoadMaker,
CombinatorialTrackFinder=track_finder,
pTmin=NewTrackingCuts.minPT(),
pTminBrem=NewTrackingCuts.minPTBrem(),
pTminSSS=InDetFlags.pT_SSScut(),
nClustersMin=NewTrackingCuts.minClusters(),
nHolesMax=NewTrackingCuts.nHolesMax(),
nHolesGapMax=NewTrackingCuts.nHolesGapMax(),
SeedsFilterLevel=NewTrackingCuts.seedFilterLevel(),
Xi2max=NewTrackingCuts.Xi2max(),
Xi2maxNoAdd=NewTrackingCuts.Xi2maxNoAdd(),
nWeightedClustersMin=NewTrackingCuts.nWeightedClustersMin(),
CosmicTrack=InDetFlags.doCosmics(),
Xi2maxMultiTracks=NewTrackingCuts.Xi2max(), # was 3.
useSSSseedsFilter=InDetFlags.doSSSfilter(),
doMultiTracksProd=True,
useBremModel=InDetFlags.doBremRecovery() and
useBremMode, # only for NewTracking the brem is debugged !!!
doCaloSeededBrem=InDetFlags.doCaloSeededBrem(),
doHadCaloSeedSSS=InDetFlags.doHadCaloSeededSSS(),
phiWidth=NewTrackingCuts.phiWidthBrem(),
etaWidth=NewTrackingCuts.etaWidthBrem(),
InputClusterContainerName=InDetKeys.CaloClusterROIContainer(
), # "InDetCaloClusterROIs"
InputHadClusterContainerName=InDetKeys.
HadCaloClusterROIContainer(), # "InDetCaloClusterROIs"
UseAssociationTool=usePrdAssociationTool)
if NewTrackingCuts.mode() == "SLHC" or NewTrackingCuts.mode(
) == "ForwardSLHCTracks" or NewTrackingCuts.mode(
) == "VeryForwardSLHCTracks":
InDetSiTrackMaker.ITKGeometry = True
if NewTrackingCuts.mode() == "DBM":
InDetSiTrackMaker.MagneticFieldMode = "NoField"
InDetSiTrackMaker.useBremModel = False
InDetSiTrackMaker.doMultiTracksProd = False
InDetSiTrackMaker.TrackPatternRecoInfo = 'SiSPSeededFinder'
InDetSiTrackMaker.pTminSSS = -1
InDetSiTrackMaker.CosmicTrack = False
InDetSiTrackMaker.useSSSseedsFilter = False
InDetSiTrackMaker.doCaloSeededBrem = False
InDetSiTrackMaker.doHadCaloSeedSSS = False
elif InDetFlags.doCosmics():
InDetSiTrackMaker.TrackPatternRecoInfo = 'SiSpacePointsSeedMaker_Cosmic'
elif InDetFlags.doHeavyIon():
InDetSiTrackMaker.TrackPatternRecoInfo = 'SiSpacePointsSeedMaker_HeavyIon'
elif NewTrackingCuts.mode() == "LowPt":
InDetSiTrackMaker.TrackPatternRecoInfo = 'SiSpacePointsSeedMaker_LowMomentum'
elif NewTrackingCuts.mode() == "VeryLowPt" or (
NewTrackingCuts.mode() == "Pixel"
and InDetFlags.doMinBias()):
InDetSiTrackMaker.TrackPatternRecoInfo = 'SiSpacePointsSeedMaker_VeryLowMomentum'
elif NewTrackingCuts.mode() == "BeamGas":
InDetSiTrackMaker.TrackPatternRecoInfo = 'SiSpacePointsSeedMaker_BeamGas'
elif NewTrackingCuts.mode() == "ForwardTracks":
InDetSiTrackMaker.TrackPatternRecoInfo = 'SiSpacePointsSeedMaker_ForwardTracks'
elif NewTrackingCuts.mode() == "ForwardSLHCTracks":
InDetSiTrackMaker.TrackPatternRecoInfo = 'SiSpacePointsSeedMaker_ForwardSLHCTracks'
elif NewTrackingCuts.mode() == "VeryForwardSLHCTracks":
InDetSiTrackMaker.TrackPatternRecoInfo = 'SiSpacePointsSeedMaker_VeryForwardSLHCTracks'
elif NewTrackingCuts.mode() == "SLHCConversionFinding":
InDetSiTrackMaker.TrackPatternRecoInfo = 'SiSpacePointsSeedMaker_SLHCConversionTracks'
elif NewTrackingCuts.mode() == "LargeD0" or NewTrackingCuts.mode(
) == "R3LargeD0" or NewTrackingCuts.mode() == "LowPtLargeD0":
InDetSiTrackMaker.TrackPatternRecoInfo = 'SiSpacePointsSeedMaker_LargeD0'
else:
InDetSiTrackMaker.TrackPatternRecoInfo = 'SiSPSeededFinder'
if InDetFlags.doStoreTrackSeeds():
from SeedToTrackConversionTool.SeedToTrackConversionToolConf import InDet__SeedToTrackConversionTool
InDet_SeedToTrackConversion = InDet__SeedToTrackConversionTool(
name="InDet_SeedToTrackConversion",
OutputName=InDetKeys.SiSPSeedSegments() +
NewTrackingCuts.extension())
InDetSiTrackMaker.SeedToTrackConversion = InDet_SeedToTrackConversion
InDetSiTrackMaker.SeedSegmentsWrite = True
#InDetSiTrackMaker.OutputLevel = VERBOSE
ToolSvc += InDetSiTrackMaker
if (InDetFlags.doPrintConfigurables()):
printfunc(InDetSiTrackMaker)
#
# set output track collection name
#
self.__SiTrackCollection = SiSPSeededTrackCollectionKey
#
# --- Setup Track finder using space points seeds
#
from SiSPSeededTrackFinder.SiSPSeededTrackFinderConf import InDet__SiSPSeededTrackFinder
if NewTrackingCuts.mode(
) == "ForwardSLHCTracks" or NewTrackingCuts.mode(
) == "ForwardTracks":
InDetSiSPSeededTrackFinder = InDet__SiSPSeededTrackFinder(name = 'InDetSiSpTrackFinder'+NewTrackingCuts.extension(),
TrackTool = InDetSiTrackMaker,
PRDtoTrackMap = prefix+'PRDtoTrackMap'+suffix \
if usePrdAssociationTool else '',
TrackSummaryTool = TrackingCommon.getInDetTrackSummaryToolNoHoleSearch(),
TracksLocation = self.__SiTrackCollection,
SeedsTool = InDetSiSpacePointsSeedMaker,
useZvertexTool = InDetFlags.useZvertexTool(),
ZvertexTool = InDetZvertexMaker,
useNewStrategy = False,
useMBTSTimeDiff = InDetFlags.useMBTSTimeDiff(),
useZBoundFinding = False)
if InDetFlags.doHeavyIon():
InDetSiSPSeededTrackFinder.FreeClustersCut = 2 #Heavy Ion optimization from Igor
else:
InDetSiSPSeededTrackFinder = InDet__SiSPSeededTrackFinder(name = 'InDetSiSpTrackFinder'+NewTrackingCuts.extension(),
TrackTool = InDetSiTrackMaker,
PRDtoTrackMap = prefix+'PRDtoTrackMap'+suffix \
if usePrdAssociationTool else '',
TrackSummaryTool = TrackingCommon.getInDetTrackSummaryToolNoHoleSearch(),
TracksLocation = self.__SiTrackCollection,
SeedsTool = InDetSiSpacePointsSeedMaker,
useZvertexTool = InDetFlags.useZvertexTool() and NewTrackingCuts.mode() != "DBM",
ZvertexTool = InDetZvertexMaker,
useNewStrategy = InDetFlags.useNewSiSPSeededTF() and NewTrackingCuts.mode() != "DBM",
useMBTSTimeDiff = InDetFlags.useMBTSTimeDiff(),
useZBoundFinding = NewTrackingCuts.doZBoundary() and NewTrackingCuts.mode() != "DBM")
if InDetFlags.doHeavyIon():
InDetSiSPSeededTrackFinder.FreeClustersCut = 2 #Heavy Ion optimization from Igor
#InDetSiSPSeededTrackFinder.OutputLevel =VERBOSE
topSequence += InDetSiSPSeededTrackFinder
if (InDetFlags.doPrintConfigurables()):
printfunc(InDetSiSPSeededTrackFinder)
if not InDetFlags.doSGDeletion():
if InDetFlags.doTruth():
#
# set up the truth info for this container
#
include("InDetRecExample/ConfiguredInDetTrackTruth.py")
InDetTracksTruth = ConfiguredInDetTrackTruth(
self.__SiTrackCollection,
self.__SiTrackCollection + "DetailedTruth",
self.__SiTrackCollection + "TruthCollection")
#
# add final output for statistics
#
TrackCollectionKeys += [InDetTracksTruth.Tracks()]
TrackCollectionTruthKeys += [
InDetTracksTruth.TracksTruth()
]
else:
TrackCollectionKeys += [self.__SiTrackCollection]
# ------------------------------------------------------------
#
# ---------- Ambiguity solving
#
# ------------------------------------------------------------
if InDetFlags.doAmbiSolving():
#
# --- load InnerDetector TrackSelectionTool
#
prob1 = InDetFlags.pixelClusterSplitProb1()
prob2 = InDetFlags.pixelClusterSplitProb2()
nhitsToAllowSplitting = 9
from AtlasGeoModel.CommonGMJobProperties import CommonGeometryFlags
if CommonGeometryFlags.Run() == 1:
prob1 = InDetFlags.pixelClusterSplitProb1_run1()
prob2 = InDetFlags.pixelClusterSplitProb2_run1()
nhitsToAllowSplitting = 8
if InDetFlags.doTIDE_Ambi() and not (
NewTrackingCuts.mode() == "ForwardSLHCTracks"
or NewTrackingCuts.mode() == "ForwardTracks"
or NewTrackingCuts.mode() == "DBM"):
from InDetAmbiTrackSelectionTool.InDetAmbiTrackSelectionToolConf import InDet__InDetDenseEnvAmbiTrackSelectionTool as AmbiTrackSelectionTool
else:
from InDetAmbiTrackSelectionTool.InDetAmbiTrackSelectionToolConf import InDet__InDetAmbiTrackSelectionTool as AmbiTrackSelectionTool
InDetAmbiTrackSelectionTool = AmbiTrackSelectionTool(
name='InDetAmbiTrackSelectionTool' +
NewTrackingCuts.extension(),
DriftCircleCutTool=InDetTRTDriftCircleCut,
AssociationTool=TrackingCommon.
getInDetPRDtoTrackMapToolGangedPixels(),
minHits=NewTrackingCuts.minClusters(),
minNotShared=NewTrackingCuts.minSiNotShared(),
maxShared=NewTrackingCuts.maxShared(),
minTRTHits=0, # used for Si only tracking !!!
sharedProbCut=0.10,
UseParameterization=False,
Cosmics=InDetFlags.doCosmics(),
doPixelSplitting=InDetFlags.doPixelClusterSplitting()
and NewTrackingCuts.mode != "DBM")
if InDetFlags.doTIDE_Ambi() and not (
NewTrackingCuts.mode() == "ForwardSLHCTracks"
or NewTrackingCuts.mode() == "ForwardTracks"
or NewTrackingCuts.mode() == "DBM"):
InDetAmbiTrackSelectionTool.sharedProbCut = prob1
InDetAmbiTrackSelectionTool.sharedProbCut2 = prob2
InDetAmbiTrackSelectionTool.minSiHitsToAllowSplitting = nhitsToAllowSplitting
InDetAmbiTrackSelectionTool.minUniqueSCTHits = 4
InDetAmbiTrackSelectionTool.minTrackChi2ForSharedHits = 3
InDetAmbiTrackSelectionTool.InputHadClusterContainerName = InDetKeys.HadCaloClusterROIContainer(
) + "Bjet"
InDetAmbiTrackSelectionTool.doHadCaloSeed = InDetFlags.doCaloSeededAmbi(
) #Do special cuts in region of interest
InDetAmbiTrackSelectionTool.minPtSplit = InDetFlags.pixelClusterSplitMinPt(
) #Only allow split clusters on track withe pt greater than this MeV
InDetAmbiTrackSelectionTool.maxSharedModulesInROI = 3 #Maximum number of shared modules for tracks in ROI
InDetAmbiTrackSelectionTool.minNotSharedInROI = 2 #Minimum number of unique modules for tracks in ROI
InDetAmbiTrackSelectionTool.minSiHitsToAllowSplittingInROI = 7 #Minimum number of Si hits to allow splittings for tracks in ROI
InDetAmbiTrackSelectionTool.phiWidth = 0.1 #Split cluster ROI size
InDetAmbiTrackSelectionTool.etaWidth = 0.1 #Split cluster ROI size
InDetAmbiTrackSelectionTool.InputEmClusterContainerName = InDetKeys.CaloClusterROIContainer(
)
InDetAmbiTrackSelectionTool.doEmCaloSeed = False #Only split in cluster in region of interest
InDetAmbiTrackSelectionTool.minPtConv = 10000 #Only allow split clusters on track withe pt greater than this MeV
InDetAmbiTrackSelectionTool.phiWidthEM = 0.05 #Split cluster ROI size
InDetAmbiTrackSelectionTool.etaWidthEM = 0.05 #Split cluster ROI size
if NewTrackingCuts.mode() == "DBM":
InDetAmbiTrackSelectionTool.Cosmics = False
InDetAmbiTrackSelectionTool.UseParameterization = False
InDetAmbiTrackSelectionTool.doPixelSplitting = False
InDetAmbiTrackSelectionTool.maxShared = 1000
InDetAmbiTrackSelectionTool.maxTracksPerSharedPRD = 2
InDetAmbiTrackSelectionTool.minHits = 0
InDetAmbiTrackSelectionTool.minNotShared = 0
InDetAmbiTrackSelectionTool.minScoreShareTracks = 0.0
InDetAmbiTrackSelectionTool.minTRTHits = 0
InDetAmbiTrackSelectionTool.sharedProbCut = 0.1
# if NewTrackingCuts.mode() == "ForwardTracks":
# InDetAmbiTrackSelectionTool.OutputLevel = VERBOSE
ToolSvc += InDetAmbiTrackSelectionTool
if (InDetFlags.doPrintConfigurables()):
printfunc(InDetAmbiTrackSelectionTool)
#
# --- set up different Scoring Tool for collisions and cosmics
#
if InDetFlags.doCosmics() and NewTrackingCuts.mode() != "DBM":
InDetAmbiScoringTool = TrackingCommon.getInDetCosmicsScoringTool(
NewTrackingCuts)
elif (NewTrackingCuts.mode() == "R3LargeD0"
and InDetFlags.nnCutLargeD0Threshold > 0):
# Set up NN config
InDetAmbiScoringTool = TrackingCommon.getInDetNNScoringTool(
NewTrackingCuts)
else:
InDetAmbiScoringTool = TrackingCommon.getInDetAmbiScoringTool(
NewTrackingCuts)
#
# --- load Ambiguity Processor
#
useBremMode = NewTrackingCuts.mode(
) == "Offline" or NewTrackingCuts.mode() == "SLHC"
if InDetFlags.doTIDE_Ambi() and not (
NewTrackingCuts.mode() == "ForwardSLHCTracks"
or NewTrackingCuts.mode() == "ForwardTracks"
or NewTrackingCuts.mode() == "DBM"):
# DenseEnvironmentsAmbiguityProcessorTool
from TrkAmbiguityProcessor.TrkAmbiguityProcessorConf import Trk__DenseEnvironmentsAmbiguityProcessorTool as ProcessorTool
use_low_pt_fitter = True if NewTrackingCuts.mode(
) == "LowPt" or NewTrackingCuts.mode() == "VeryLowPt" or (
NewTrackingCuts.mode() == "Pixel"
and InDetFlags.doMinBias()) else False
from AthenaCommon import CfgGetter
from InDetRecExample.TrackingCommon import setDefaults
if len(NewTrackingCuts.extension()) > 0:
fitter_args = setDefaults(
{},
SplitClusterMapExtension=NewTrackingCuts.extension())
fitter_list=[ CfgGetter.getPublicToolClone('InDetTrackFitter'+NewTrackingCuts.extension(), 'InDetTrackFitter',**fitter_args) if not use_low_pt_fitter \
else CfgGetter.getPublicToolClone('InDetTrackFitterLowPt'+NewTrackingCuts.extension(), 'InDetTrackFitterLowPt',**fitter_args)]
else:
fitter_list=[ CfgGetter.getPublicTool('InDetTrackFitter') if not use_low_pt_fitter \
else CfgGetter.getPublicTool('InDetTrackFitterLowPt')]
if InDetFlags.doRefitInvalidCov():
from AthenaCommon import CfgGetter
if len(NewTrackingCuts.extension()) > 0:
fitter_args = setDefaults(
{},
SplitClusterMapExtension=NewTrackingCuts.extension(
))
fitter_list.append(
CfgGetter.getPublicToolClone(
'KalmanFitter' + NewTrackingCuts.extension(),
'KalmanFitter', **fitter_args))
fitter_list.append(
CfgGetter.getPublicToolClone(
'ReferenceKalmanFitter' +
NewTrackingCuts.extension(),
'ReferenceKalmanFitter', **fitter_args))
else:
fitter_list.append(
CfgGetter.getPublicTool('KalmanFitter'))
fitter_list.append(
CfgGetter.getPublicTool('ReferenceKalmanFitter'))
InDetAmbiguityProcessor = ProcessorTool(
name='InDetAmbiguityProcessor' +
NewTrackingCuts.extension(),
Fitter=fitter_list,
AssociationTool=TrackingCommon.
getInDetPRDtoTrackMapToolGangedPixels(),
AssociationMapName='PRDToTrackMap' +
NewTrackingCuts.extension(),
TrackSummaryTool=TrackingCommon.getInDetTrackSummaryTool(),
ScoringTool=InDetAmbiScoringTool,
SelectionTool=InDetAmbiTrackSelectionTool,
SuppressHoleSearch=False,
tryBremFit=InDetFlags.doBremRecovery() and useBremMode
and NewTrackingCuts.mode() != "DBM",
caloSeededBrem=InDetFlags.doCaloSeededBrem()
and NewTrackingCuts.mode() != "DBM",
pTminBrem=NewTrackingCuts.minPTBrem(),
RefitPrds=True,
doHadCaloSeed=InDetFlags.doCaloSeededRefit(),
InputHadClusterContainerName=InDetKeys.
HadCaloClusterROIContainer() + "Bjet")
# DenseEnvironmentsAmbiguityScoreProcessorTool
from TrkAmbiguityProcessor.TrkAmbiguityProcessorConf import Trk__DenseEnvironmentsAmbiguityScoreProcessorTool as ScoreProcessorTool
InDetAmbiguityScoreProcessor = ScoreProcessorTool(
name='InDetAmbiguityScoreProcessor' +
NewTrackingCuts.extension(),
ScoringTool=InDetAmbiScoringTool,
SplitProbTool=NnPixelClusterSplitProbTool
if InDetFlags.doPixelClusterSplitting()
and 'NnPixelClusterSplitProbTool' in globals() else None,
AssociationTool=TrackingCommon.
getInDetPRDtoTrackMapToolGangedPixels(),
AssociationToolNotGanged=TrackingCommon.
getPRDtoTrackMapTool(),
AssociationMapName='PRDToTrackMap' +
NewTrackingCuts.extension(),
SelectionTool=InDetAmbiTrackSelectionTool)
# hasScoreProcessorTool = True
else:
from AthenaCommon import CfgGetter
from TrkAmbiguityProcessor.TrkAmbiguityProcessorConf import Trk__SimpleAmbiguityProcessorTool as ProcessorTool
InDetAmbiguityProcessor = ProcessorTool(
name='InDetAmbiguityProcessor' +
NewTrackingCuts.extension(),
Fitter=CfgGetter.getPublicTool('InDetTrackFitter'),
AssociationTool=TrackingCommon.
getInDetPRDtoTrackMapToolGangedPixels(),
TrackSummaryTool=TrackingCommon.getInDetTrackSummaryTool(),
ScoringTool=InDetAmbiScoringTool,
SelectionTool=InDetAmbiTrackSelectionTool,
SuppressHoleSearch=False,
tryBremFit=InDetFlags.doBremRecovery() and useBremMode
and NewTrackingCuts.mode() != "DBM",
caloSeededBrem=InDetFlags.doCaloSeededBrem()
and NewTrackingCuts.mode() != "DBM",
pTminBrem=NewTrackingCuts.minPTBrem(),
RefitPrds=True)
InDetAmbiguityScoreProcessor = None
if InDetFlags.doTIDE_Ambi() and not (
NewTrackingCuts.mode() == "ForwardSLHCTracks"
or NewTrackingCuts.mode() == "ForwardTracks"
or NewTrackingCuts.mode()
== "DBM") and 'NnPixelClusterSplitProbTool' in globals():
if InDetAmbiguityScoreProcessor is not None:
InDetAmbiguityScoreProcessor.sharedProbCut = prob1
InDetAmbiguityScoreProcessor.sharedProbCut2 = prob2
if NewTrackingCuts.extension() == "":
InDetAmbiguityScoreProcessor.SplitClusterMap_old = ""
elif NewTrackingCuts.extension() == "Disappearing":
InDetAmbiguityScoreProcessor.SplitClusterMap_old = InDetKeys.SplitClusterAmbiguityMap(
)
InDetAmbiguityScoreProcessor.SplitClusterMap_new = InDetKeys.SplitClusterAmbiguityMap(
) + NewTrackingCuts.extension()
if InDetFlags.doTIDE_RescalePixelCovariances():
InDetAmbiguityProcessor.applydRcorrection = True
if NewTrackingCuts.mode() == "Pixel" or NewTrackingCuts.mode(
) == "DBM":
InDetAmbiguityProcessor.SuppressHoleSearch = True
if NewTrackingCuts.mode() == "LowPt" or NewTrackingCuts.mode(
) == "VeryLowPt" or (NewTrackingCuts.mode() == "Pixel"
and InDetFlags.doMinBias()):
if InDetAmbiguityProcessor.getName().find('Dense'):
pass
else:
from AthenaCommon import CfgGetter
InDetAmbiguityProcessor.Fitter = CfgGetter.getPublicTool(
'InDetTrackFitterLowPt')
if InDetFlags.materialInteractions():
InDetAmbiguityProcessor.MatEffects = InDetFlags.materialInteractionsType(
)
else:
InDetAmbiguityProcessor.MatEffects = 0
# if NewTrackingCuts.mode() == "ForwardTracks":
# InDetAmbiguityProcessor.OutputLevel = VERBOSE
ToolSvc += InDetAmbiguityProcessor
if (InDetFlags.doPrintConfigurables()):
printfunc(InDetAmbiguityProcessor)
# add InDetAmbiguityScoreProcessor
if InDetAmbiguityScoreProcessor is not None:
ToolSvc += InDetAmbiguityScoreProcessor
#
# --- set input and output collection
#
InputTrackCollection = self.__SiTrackCollection
self.__SiTrackCollection = ResolvedTrackCollectionKey
#
# --- configure Ambiguity (score) solver
#
from TrkAmbiguitySolver.TrkAmbiguitySolverConf import Trk__TrkAmbiguityScore
# from RecExConfig.hideInput import hideInput
# hideInput ('TrackCollection', self.__SiTrackCollection)
InDetAmbiguityScore = Trk__TrkAmbiguityScore(
name='InDetAmbiguityScore' + NewTrackingCuts.extension(),
TrackInput=[InputTrackCollection],
TrackOutput='ScoredMap' + 'InDetAmbiguityScore' +
NewTrackingCuts.extension(),
AmbiguityScoreProcessor=InDetAmbiguityScoreProcessor
) ## TODO: check the case when it is None object
topSequence += InDetAmbiguityScore
if (InDetFlags.doPrintConfigurables()):
printfunc(InDetAmbiguityScore)
#
# --- configure Ambiguity solver
#
from TrkAmbiguitySolver.TrkAmbiguitySolverConf import Trk__TrkAmbiguitySolver
from RecExConfig.hideInput import hideInput
hideInput('TrackCollection', self.__SiTrackCollection)
InDetAmbiguitySolver = Trk__TrkAmbiguitySolver(
name='InDetAmbiguitySolver' + NewTrackingCuts.extension(),
TrackInput='ScoredMap' + 'InDetAmbiguityScore' +
NewTrackingCuts.extension(),
TrackOutput=self.__SiTrackCollection,
AmbiguityProcessor=InDetAmbiguityProcessor)
topSequence += InDetAmbiguitySolver
if (InDetFlags.doPrintConfigurables()):
printfunc(InDetAmbiguitySolver)
#
# --- Delete Silicon Sp-Seeded tracks
#
from InDetRecExample.ConfiguredInDetSGDeletion import InDetSGDeletionAlg
InDetSGDeletionAlg(key=SiSPSeededTrackCollectionKey)
if ((NewTrackingCuts.mode() in ["Pixel", "SCT"])
or not InDetFlags.doSGDeletion()):
if InDetFlags.doTruth():
#
# set up the truth info for this container
#
include("InDetRecExample/ConfiguredInDetTrackTruth.py")
InDetTracksTruth = ConfiguredInDetTrackTruth(
self.__SiTrackCollection,
self.__SiTrackCollection + "DetailedTruth",
self.__SiTrackCollection + "TruthCollection")
#
# add final output for statistics
#
TrackCollectionKeys += [InDetTracksTruth.Tracks()]
TrackCollectionTruthKeys += [
InDetTracksTruth.TracksTruth()
]
else:
TrackCollectionKeys += [self.__SiTrackCollection]
def __init__(self,
InputCollections=None,
NewTrackingCuts=None,
TrackCollectionKeys=[],
TrackCollectionTruthKeys=[]):
from InDetRecExample.InDetJobProperties import InDetFlags
from InDetRecExample.InDetKeys import InDetKeys
import InDetRecExample.TrackingCommon as TrackingCommon
#
# get ToolSvc and topSequence
#
from AthenaCommon.AppMgr import ToolSvc
from AthenaCommon.AppMgr import ServiceMgr
from AthenaCommon.AlgSequence import AlgSequence
topSequence = AlgSequence()
#
# --- decide if use the association tool
#
asso_tool = None
if len(InputCollections) > 0:
usePrdAssociationTool = True
prefix = 'InDetSegment'
suffix = ''
asso_tool = TrackingCommon.getConstPRD_AssociationTool(
namePrefix=prefix, nameSuffix=suffix)
else:
prefix = ''
suffix = ''
usePrdAssociationTool = False
# --- the PRD association tool is filled by the Segment making
# no need to run again
# ------------------------------------------------------------
#
# ---------- TRT Seeded Tracking
#
# ------------------------------------------------------------
if InDetFlags.doTRTSeededTrackFinder():
#
# --- decide which TRT seed space point finder to use
#
if InDetFlags.loadTRTSeededSPFinder():
#
# --- defaul space point finder
#
from TRT_SeededSpacePointFinderTool.TRT_SeededSpacePointFinderToolConf import InDet__TRT_SeededSpacePointFinder_ATL
InDetTRT_SeededSpacePointFinder = \
InDet__TRT_SeededSpacePointFinder_ATL(name = 'InDetTRT_SeededSpFinder' ,
SpacePointsSCTName = InDetKeys.SCT_SpacePoints(),
SpacePointsOverlapName = InDetKeys.OverlapSpacePoints(),
PRDtoTrackMap = prefix+'PRDtoTrackMap'+suffix \
if usePrdAssociationTool else "",
NeighborSearch = True,
LoadFull = False,
DoCosmics = InDetFlags.doCosmics(),
pTmin = NewTrackingCuts.minSecondaryPt())
# InDetTRT_SeededSpacePointFinder.OutputLevel = VERBOSE
elif InDetFlags.loadSimpleTRTSeededSPFinder():
#
# --- alternative version using the region selector
#
from RegionSelector.RegSelSvcDefault import RegSelSvcDefault
InDetRegSelSvc = RegSelSvcDefault()
InDetRegSelSvc.enablePixel = DetFlags.pixel_on()
InDetRegSelSvc.enableSCT = DetFlags.SCT_on()
ServiceMgr += InDetRegSelSvc
if (InDetFlags.doPrintConfigurables()):
printfunc(InDetRegSelSvc)
from TRT_SeededSpacePointFinderTool.TRT_SeededSpacePointFinderToolConf import InDet__SimpleTRT_SeededSpacePointFinder_ATL
InDetTRT_SeededSpacePointFinder = InDet__SimpleTRT_SeededSpacePointFinder_ATL(
name='InDetTRT_SeededSpFinder',
SpacePointsSCTName=InDetKeys.SCT_SpacePoints(),
SpacePointsOverlapName=InDetKeys.OverlapSpacePoints(),
PerigeeCut=1000.,
DirectionPhiCut=.3,
DirectionEtaCut=1.,
MaxHoles=2,
AssociationTool=asso_tool,
RestrictROI=True)
# InDetTRT_SeededSpacePointFinder.OutputLevel = VERBOSE
if not usePrdAssociationTool:
InDetTRT_SeededSpacePointFinder.AssociationTool = None
# add either into the Tool Service
ToolSvc += InDetTRT_SeededSpacePointFinder
if (InDetFlags.doPrintConfigurables()):
printfunc(InDetTRT_SeededSpacePointFinder)
#
# Silicon det elements road maker tool
#
from SiDetElementsRoadTool_xk.SiDetElementsRoadTool_xkConf import InDet__SiDetElementsRoadMaker_xk
InDetTRT_SeededSiRoadMaker = InDet__SiDetElementsRoadMaker_xk(
name='InDetTRT_SeededSiRoad',
PropagatorTool=InDetPatternPropagator,
usePixel=NewTrackingCuts.usePixel(),
PixManagerLocation=InDetKeys.PixelManager(),
useSCT=NewTrackingCuts.useSCT(),
SCTManagerLocation=InDetKeys.SCT_Manager(),
RoadWidth=35.,
MaxStep=20.) # NOT DEFAULT ?
# InDetTRT_SeededSiRoadMaker.OutputLevel = VERBOSE
if InDetFlags.doCosmics():
InDetTRT_SeededSiRoadMaker.RoadWidth = 50
# Condition algorithm for InDet__SiDetElementsRoadMaker_xk
if NewTrackingCuts.useSCT():
from AthenaCommon.AlgSequence import AthSequencer
condSeq = AthSequencer("AthCondSeq")
if not hasattr(condSeq, "InDet__SiDetElementsRoadCondAlg_xk"):
from SiDetElementsRoadTool_xk.SiDetElementsRoadTool_xkConf import InDet__SiDetElementsRoadCondAlg_xk
condSeq += InDet__SiDetElementsRoadCondAlg_xk(
name="InDet__SiDetElementsRoadCondAlg_xk")
ToolSvc += InDetTRT_SeededSiRoadMaker
if (InDetFlags.doPrintConfigurables()):
printfunc(InDetTRT_SeededSiRoadMaker)
#
# --- TRT seeded back tracking tool
#
from TRT_SeededTrackFinderTool.TRT_SeededTrackFinderToolConf import InDet__TRT_SeededTrackFinder_ATL
InDetTRT_SeededTrackTool = InDet__TRT_SeededTrackFinder_ATL(
name='InDetTRT_SeededTrackMaker',
PropagatorTool=InDetPatternPropagator,
UpdatorTool=InDetPatternUpdator,
RoadTool=InDetTRT_SeededSiRoadMaker,
SeedTool=InDetTRT_SeededSpacePointFinder,
CombinatorialTrackFinder=InDetSiComTrackFinder,
pTmin=NewTrackingCuts.minSecondaryPt(),
nHolesMax=NewTrackingCuts.SecondarynHolesMax(),
# ME bugfix: nHolesGapMax = 2*NewTrackingCuts.SecondarynHolesGapMax(),
nHolesGapMax=NewTrackingCuts.SecondarynHolesGapMax(),
Xi2max=NewTrackingCuts.SecondaryXi2max(),
Xi2maxNoAdd=NewTrackingCuts.SecondaryXi2maxNoAdd(),
SearchInCaloROI=False,
InputClusterContainerName=InDetKeys.CaloClusterROIContainer(),
ConsistentSeeds=True,
# BremCorrection = True,
BremCorrection=False)
if InDetFlags.doCosmics():
InDetTRT_SeededTrackTool.nWClustersMin = 0
ToolSvc += InDetTRT_SeededTrackTool
if (InDetFlags.doPrintConfigurables()):
printfunc(InDetTRT_SeededTrackTool)
#
# --- Output key for the finder
#
self.__TRTSeededTracks = InDetKeys.TRTSeededTracks()
#
# TRT seeded back tracking algorithm
from AthenaCommon import CfgGetter
from TRT_SeededTrackFinder.TRT_SeededTrackFinderConf import InDet__TRT_SeededTrackFinder
import InDetRecExample.TrackingCommon as TrackingCommon
InDetTRT_SeededTrackFinder = InDet__TRT_SeededTrackFinder(name = 'InDetTRT_SeededTrackFinder',
RefitterTool = CfgGetter.getPublicTool('InDetTrackFitter'),
TrackTool = InDetTRT_SeededTrackTool,
PRDtoTrackMap = prefix+'PRDtoTrackMap'+suffix \
if usePrdAssociationTool else "",
TrackSummaryTool = TrackingCommon.getInDetTrackSummaryToolNoHoleSearch(),
TrackExtensionTool = InDetTRTExtensionTool,
MinTRTonSegment = NewTrackingCuts.minSecondaryTRTonTrk(),
MinTRTonly = NewTrackingCuts.minTRTonly(),
TrtExtension = True,
SiExtensionCuts = NewTrackingCuts.SiExtensionCuts(),
minPt = NewTrackingCuts.minSecondaryPt(),
maxRPhiImp = NewTrackingCuts.maxSecondaryImpact(),
maxZImp = NewTrackingCuts.maxZImpact(),
maxEta = NewTrackingCuts.maxEta(),
Extrapolator = TrackingCommon.getInDetExtrapolator(),
RejectShortExtension = NewTrackingCuts.rejectShortExtensions(),
FinalRefit = False,
FinalStatistics = False,
OutputSegments = False,
InputSegmentsLocation = InDetKeys.TRT_Segments(),
OutputTracksLocation = self.__TRTSeededTracks,
CaloClusterEt = NewTrackingCuts.minRoIClusterEt())
if (NewTrackingCuts.RoISeededBackTracking()):
from RegionSelector.RegSelToolConfig import makeRegSelTool_SCT
InDetTRT_SeededTrackFinder.RegSelTool = makeRegSelTool_SCT()
InDetTRT_SeededTrackFinder.CaloSeededRoI = True
# InDetTRT_SeededTrackFinder.OutputLevel = VERBOSE
topSequence += InDetTRT_SeededTrackFinder
if (InDetFlags.doPrintConfigurables()):
printfunc(InDetTRT_SeededTrackFinder)
#
# ------------ Track truth.
#
if not InDetFlags.doSGDeletion():
if InDetFlags.doTruth():
#
# set up the truth info for this container
#
include("InDetRecExample/ConfiguredInDetTrackTruth.py")
InDetTracksTruth = ConfiguredInDetTrackTruth(
self.__TRTSeededTracks,
self.__TRTSeededTracks + "DetailedTruth",
self.__TRTSeededTracks + "TruthCollection")
#
# add final output for statistics
#
TrackCollectionKeys += [InDetTracksTruth.Tracks()]
TrackCollectionTruthKeys += [
InDetTracksTruth.TracksTruth()
]
else:
TrackCollectionKeys += [self.__TRTSeededTracks]
# --- output track collection
self.__BackTrackingTracks = self.__TRTSeededTracks
# ------------------------------------------------------------
#
# --- Resolve back tracking tracks ?
#
# ------------------------------------------------------------
if InDetFlags.doResolveBackTracks():
#
# --- set up special Scoring Tool for TRT seeded tracks
#
if InDetFlags.doCosmics():
InDetTRT_SeededScoringTool = TrackingCommon.getInDetCosmicScoringTool_TRT(
NewTrackingCuts)
InDetTRT_SeededSummaryTool = TrackingCommon.getInDetTrackSummaryToolSharedHits(
)
else:
InDetTRT_SeededScoringTool = TrackingCommon.getInDetTRT_SeededScoringTool(
NewTrackingCuts)
InDetTRT_SeededSummaryTool = TrackingCommon.getInDetTrackSummaryTool(
)
#
# --- Load selection tool
#
from InDetAmbiTrackSelectionTool.InDetAmbiTrackSelectionToolConf import InDet__InDetAmbiTrackSelectionTool
InDetTRT_SeededAmbiTrackSelectionTool = InDet__InDetAmbiTrackSelectionTool(
name='InDetTRT_SeededAmbiTrackSelectionTool',
DriftCircleCutTool=InDetTRTDriftCircleCut,
AssociationTool=TrackingCommon.
getInDetPRDtoTrackMapToolGangedPixels(),
minScoreShareTracks=-1., # off !
minHits=NewTrackingCuts.minSecondaryClusters(),
minNotShared=NewTrackingCuts.minSecondarySiNotShared(),
maxShared=NewTrackingCuts.maxSecondaryShared(),
minTRTHits=NewTrackingCuts.minSecondaryTRTonTrk(),
UseParameterization=NewTrackingCuts.useParameterizedTRTCuts(),
Cosmics=InDetFlags.doCosmics(),
doPixelSplitting=InDetFlags.doPixelClusterSplitting())
# InDetTRT_SeededAmbiTrackSelectionTool.OutputLevel = DEBUG
ToolSvc += InDetTRT_SeededAmbiTrackSelectionTool
if (InDetFlags.doPrintConfigurables()):
printfunc(InDetTRT_SeededAmbiTrackSelectionTool)
#
# --- load Ambiguity Processor
#
from TrkAmbiguityProcessor.TrkAmbiguityProcessorConf import Trk__SimpleAmbiguityProcessorTool
InDetTRT_SeededAmbiguityProcessor = Trk__SimpleAmbiguityProcessorTool(
name='InDetTRT_SeededAmbiguityProcessor',
Fitter=CfgGetter.getPublicTool('InDetTrackFitter'),
AssociationTool=TrackingCommon.
getInDetPRDtoTrackMapToolGangedPixels(),
TrackSummaryTool=InDetTRT_SeededSummaryTool,
SelectionTool=InDetTRT_SeededAmbiTrackSelectionTool,
RefitPrds=not InDetFlags.refitROT(),
SuppressTrackFit=False,
SuppressHoleSearch=False,
ScoringTool=InDetTRT_SeededScoringTool)
# InDetTRT_SeededAmbiguityProcessor.OutputLevel = DEBUG
if InDetFlags.materialInteractions():
InDetTRT_SeededAmbiguityProcessor.MatEffects = InDetFlags.materialInteractionsType(
)
else:
InDetTRT_SeededAmbiguityProcessor.MatEffects = 0
#
ToolSvc += InDetTRT_SeededAmbiguityProcessor
if (InDetFlags.doPrintConfigurables()):
printfunc(InDetTRT_SeededAmbiguityProcessor)
#
# --- load the algorithm
#
from TrkAmbiguitySolver.TrkAmbiguitySolverConf import Trk__TrkAmbiguityScore
InDetAmbiguityScore = Trk__TrkAmbiguityScore(
name='InDetTRT_SeededAmbiguityScore',
TrackInput=[self.__TRTSeededTracks],
TrackOutput='ScoredMap' + 'InDetTRT_SeededAmbiguityScore')
topSequence += InDetAmbiguityScore
self.__ResolvedTRTSeededTracks = InDetKeys.ResolvedTRTSeededTracks(
)
#
from TrkAmbiguitySolver.TrkAmbiguitySolverConf import Trk__TrkAmbiguitySolver
InDetTRT_SeededAmbiguitySolver = Trk__TrkAmbiguitySolver(
name='InDetTRT_SeededAmbiguitySolver',
TrackInput='ScoredMap' + 'InDetTRT_SeededAmbiguityScore',
TrackOutput=self.__ResolvedTRTSeededTracks,
AmbiguityProcessor=InDetTRT_SeededAmbiguityProcessor)
topSequence += InDetTRT_SeededAmbiguitySolver
if (InDetFlags.doPrintConfigurables()):
printfunc(InDetTRT_SeededAmbiguitySolver)
# --- Delete (non-resloved) TRT seeded tracks
from InDetRecExample.ConfiguredInDetSGDeletion import InDetSGDeletionAlg
InDetSGDeletionAlg(key=InDetKeys.TRTSeededTracks())
#
# ------------ Track truth.
#
if not InDetFlags.doSGDeletion():
if InDetFlags.doTruth():
#
# set up the truth info for this container
#
include("InDetRecExample/ConfiguredInDetTrackTruth.py")
InDetTracksTruth = ConfiguredInDetTrackTruth(
self.__ResolvedTRTSeededTracks,
self.__ResolvedTRTSeededTracks + "DetailedTruth",
self.__ResolvedTRTSeededTracks + "TruthCollection")
#
# add final output for statistics
#
TrackCollectionKeys += [InDetTracksTruth.Tracks()]
TrackCollectionTruthKeys += [
InDetTracksTruth.TracksTruth()
]
else:
TrackCollectionKeys += [self.__ResolvedTRTSeededTracks]
# --- output track collection
self.__BackTrackingTracks = self.__ResolvedTRTSeededTracks
def __init__(self,
extension="",
InputCollections=None,
NewTrackingCuts=None,
BarrelSegments=None,
TrackCollectionKeys=[],
TrackCollectionTruthKeys=[],
PRDtoTrackMap=''):
from InDetRecExample.InDetJobProperties import InDetFlags
from InDetRecExample.InDetKeys import InDetKeys
from AthenaCommon.DetFlags import DetFlags
import InDetRecExample.TrackingCommon as TrackingCommon
#
# get ToolSvc and topSequence
#
from AthenaCommon.AppMgr import ToolSvc
from AthenaCommon.AlgSequence import AlgSequence
topSequence = AlgSequence()
# --- Always use PRD association tool (even if only 1 collection) to remove TRT
# segments with significant overlaping hits
usePrdAssociationTool = True
#usePrdAssociationTool = True if len(InputCollections) > 0 else False
#
# --- get list of already associated hits (always do this, even if no other tracking ran before)
#
prd_to_track_map = PRDtoTrackMap
if usePrdAssociationTool and extension != "_TRT":
prefix = 'InDetTRTonly_'
InDetTRTonly_PRD_Association = TrackingCommon.getInDetTrackPRD_Association(
namePrefix=prefix,
nameSuffix=extension,
TracksName=list(InputCollections))
prd_to_track_map = prefix + 'PRDtoTrackMap' + extension
topSequence += InDetTRTonly_PRD_Association
if (InDetFlags.doPrintConfigurables()):
printfunc(InDetTRTonly_PRD_Association)
#
# Cut values and output key for the TRT segments standalone TRT track finder
#
if extension == "_TRT":
# TRT track segments
pTmin = NewTrackingCuts.minPT()
self.__TRTStandaloneTracks = InDetKeys.TRTTracks()
else:
# TRT standalone
# pTmin = NewTrackingCuts.minSecondaryPt()
pTmin = NewTrackingCuts.minTRTonlyPt(
) # new cut parameter to make it flexible...
self.__TRTStandaloneTracks = InDetKeys.TRTTracks_NewT()
#
# --- set up special Scoring Tool for standalone TRT tracks
#
from InDetTrackScoringTools.InDetTrackScoringToolsConf import InDet__InDetTrtTrackScoringTool
InDetTRT_StandaloneScoringTool = InDet__InDetTrtTrackScoringTool(
name='InDetTRT_StandaloneScoringTool' + extension,
SummaryTool=TrackingCommon.getInDetTrackSummaryTool(),
DriftCircleCutTool=InDetTRTDriftCircleCut,
useAmbigFcn=True,
useSigmaChi2=False,
PtMin=pTmin,
minTRTonTrk=NewTrackingCuts.minTRTonly(),
maxEta=2.1,
UseParameterization=NewTrackingCuts.useTRTonlyParamCuts(),
OldTransitionLogic=NewTrackingCuts.useTRTonlyOldLogic(),
minTRTPrecisionFraction=NewTrackingCuts.minSecondaryTRTPrecFrac())
# InDetTRT_StandaloneScoringTool.OutputLevel = VERBOSE
ToolSvc += InDetTRT_StandaloneScoringTool
if (InDetFlags.doPrintConfigurables()):
printfunc(InDetTRT_StandaloneScoringTool)
#
# set up TRT_SegmentToTrackTool
#
from AthenaCommon import CfgGetter
from TRT_SegmentToTrackTool.TRT_SegmentToTrackToolConf import InDet__TRT_SegmentToTrackTool
asso_tool = TrackingCommon.getInDetPRDtoTrackMapToolGangedPixels(
) if usePrdAssociationTool else None
InDetTRT_SegmentToTrackTool = InDet__TRT_SegmentToTrackTool(
name='InDetTRT_SegmentToTrackTool' + extension,
RefitterTool=CfgGetter.getPublicTool('InDetTrackFitterTRT'),
AssociationTool=asso_tool,
TrackSummaryTool=TrackingCommon.getInDetTrackSummaryTool(),
ScoringTool=InDetTRT_StandaloneScoringTool,
Extrapolator=TrackingCommon.getInDetExtrapolator(),
FinalRefit=True,
MaxSharedHitsFraction=NewTrackingCuts.maxTRTonlyShared(),
SuppressHoleSearch=True)
ToolSvc += InDetTRT_SegmentToTrackTool
if (InDetFlags.doPrintConfigurables()):
printfunc(InDetTRT_SegmentToTrackTool)
if not InDetFlags.doCosmics():
#
# --- TRT standalone tracks algorithm
#
from TRT_StandaloneTrackFinder.TRT_StandaloneTrackFinderConf import InDet__TRT_StandaloneTrackFinder
InDetTRT_StandaloneTrackFinder = InDet__TRT_StandaloneTrackFinder(
name='InDetTRT_StandaloneTrackFinder' + extension,
MinNumDriftCircles=NewTrackingCuts.minTRTonly(),
MinPt=NewTrackingCuts.minTRTonlyPt(),
InputSegmentsLocation=BarrelSegments,
MaterialEffects=0,
PRDtoTrackMap=prd_to_track_map,
OldTransitionLogic=NewTrackingCuts.useTRTonlyOldLogic(),
OutputTracksLocation=self.__TRTStandaloneTracks,
TRT_SegToTrackTool=InDetTRT_SegmentToTrackTool)
#InDetTRT_StandaloneTrackFinder.OutputLevel = VERBOSE
topSequence += InDetTRT_StandaloneTrackFinder
if InDetFlags.doPrintConfigurables():
printfunc(InDetTRT_StandaloneTrackFinder)
# --- Delete TRT segments for the subdetector pattern only (back-tracking has already run by this point)
from InDetRecExample.ConfiguredInDetSGDeletion import InDetSGDeletionAlg
InDetSGDeletionAlg(container="Trk::SegmentCollection#",
key=BarrelSegments)
else:
#
# --- cosmics segment to track conversion for Barrel
#
from AthenaCommon import CfgGetter
from TRT_SegmentsToTrack.TRT_SegmentsToTrackConf import InDet__TRT_SegmentsToTrack
InDetTrkSegmenttoTrk = InDet__TRT_SegmentsToTrack(
name="InDetTRT_SegmentsToTrack_Barrel" + extension,
InputSegmentsCollection=BarrelSegments,
OutputTrackCollection=self.__TRTStandaloneTracks,
TrackFitter=CfgGetter.getPublicTool('InDetTrackFitter'),
SummaryTool=TrackingCommon.getInDetTrackSummaryToolTRTTracks(),
AssociationTool=TrackingCommon.
getInDetPRDtoTrackMapToolGangedPixels()
if prd_to_track_map != '' else None,
InputAssociationMapName=prd_to_track_map,
MinNHit=NewTrackingCuts.minTRTonly(),
OutlierRemoval=True,
MaterialEffects=False)
#InDetTrkSegmenttoTrk.OutputLevel = VERBOSE
topSequence += InDetTrkSegmenttoTrk
if InDetFlags.doPrintConfigurables():
printfunc(InDetTrkSegmenttoTrk)
#
#
# ------------ Track truth.
#
if (extension == "_TRT" or not InDetFlags.doSGDeletion()):
if InDetFlags.doTruth():
#
# set up the truth info for this container
#
include("InDetRecExample/ConfiguredInDetTrackTruth.py")
InDetTracksTruth = ConfiguredInDetTrackTruth(
self.__TRTStandaloneTracks,
self.__TRTStandaloneTracks + "DetailedTruth",
self.__TRTStandaloneTracks + "TruthCollection")
#
# add final output for statistics
#
TrackCollectionKeys += [InDetTracksTruth.Tracks()]
TrackCollectionTruthKeys += [InDetTracksTruth.TracksTruth()]
else:
TrackCollectionKeys += [self.__TRTStandaloneTracks]
def vertexFinderTool_builder( signature ) :
from AthenaCommon.AppMgr import ToolSvc
# use the getters from TrackingCommon ...
import InDetRecExample.TrackingCommon as TrackingCommon
# the track summary tool, and extrapolator will be needed by multiple
# tools so create them once and pass them into the builders ...
trackSummaryTool = TrackingCommon.getInDetTrackSummaryTool()
extrapolator = TrackingCommon.getInDetExtrapolator()
# get the selection cuts use to select the actual tracks in the tool ...
from InDetTrigRecExample.TrigInDetConfiguredVtxCuts import ConfiguredTrigVtxCuts
vtxcuts = ConfiguredTrigVtxCuts()
vtxcuts.printInfo()
# now create the five sub tools needed ...
linearTrackFactory = linearTrackFactory_builder( signature, extrapolator )
vertexFitterTool = vertexFitterTool_builder( signature, linearTrackFactory, extrapolator )
impactEstimator = impactEstimator_builder( signature, extrapolator )
trackSelectorTool = trackSelectorTool_builder( signature, trackSummaryTool, extrapolator, vtxcuts )
trackDensitySeedFinder = trackDensitySeedFinder_builder( signature )
# now create the actual vertex finder tool ...
# this is the main part of the actual working part of the code -
# the vertoces are found by this class, in this instance it includes
# a beam line constraint - it we want this to allow this constrain
# to be disabled we can add a flag and some additional logic
from InDetPriVxFinderTool.InDetPriVxFinderToolConf import InDet__InDetIterativePriVxFinderTool
vertexFinderTool = InDet__InDetIterativePriVxFinderTool( name = "InDetTrigPriVxFinderTool" + signature,
VertexFitterTool = vertexFitterTool,
TrackSelector = trackSelectorTool,
SeedFinder = trackDensitySeedFinder,
ImpactPoint3dEstimator = impactEstimator,
LinearizedTrackFactory = linearTrackFactory,
useBeamConstraint = True,
significanceCutSeeding = 12,
maximumChi2cutForSeeding = 49,
maxVertices = 200,
createSplitVertices = False,
doMaxTracksCut = vtxcuts.doMaxTracksCut(),
MaxTracks = vtxcuts.MaxTracks() )
# InDetAdaptiveMultiPriVxFinderTool job options for later
# verxtexFinderTool = InDet__InDetAdaptiveMultiPriVxFinderTool( name = "InDetTrigPriVxFinderTool" + signature,
# VertexFitterTool = vertexFitterTool,
# ...
# VertexFitterTool = vertexFitterTool,
# TrackSelector = trackSelectorTool,
# SeedFinder = trackDensitySeedFinder,
# IPEstimator = Trk::ITrackToVertexIPEstimator : impactEstimator is different type than for IterativeFinder
# BeamSpotKey = InDet::BeamSpotData : what is this ??
# TracksMaxZinterval =
# maxVertexChi2 =
# finalCutMaxVertexChi2 =
# cutVertexDependence =
# MinWeight =
# realMultiVertex =
# useFastCompatibility =
# useBeamConstraint =
# addSingleTrackVertices =
# tracksMaxSignificance =
# m_useSeedConstraint =
# selectiontype =
# //==0 for sum p_t^2
# //==1 for NN
# //==2 for min bias compatibility estimation (in the future)
# maxIterations =
# do3dSplitting =
# zBfieldApprox =
# maximumVertexContamination =
ToolSvc += vertexFinderTool
return vertexFinderTool
def __init__(self, name="EMBremCollectionBuilder", **kw):
mlog = logging.getLogger(name + '::__init__')
mlog.info("entering")
super(egammaBremCollectionBuilder, self).__init__(name, **kw)
import egammaRec.EMCommonRefitter
# Extrapolator to be used for GSF (private)
GSFBuildInDetExtrapolator = egammaExtrapolator()
# GsfReffiter (private not in ToolSvc)
from egammaTrackTools.egammaTrackToolsConf import egammaTrkRefitterTool
GSFRefitterTool = egammaTrkRefitterTool(
name='GSFRefitterTool',
FitterTool=egammaRec.EMCommonRefitter.getGSFTrackFitter(),
useBeamSpot=False,
Extrapolator=GSFBuildInDetExtrapolator,
ReintegrateOutliers=True)
#
# BLayer and Pixel Related Tools (private = True)
#
GSFBuildTestBLayerTool = None
GSFBuildPixelToTPIDTool = None
if DetFlags.haveRIO.pixel_on():
GSFPixelConditionsSummaryTool = (
TrackingCommon.getInDetPixelConditionsSummaryTool())
if InDetFlags.usePixelDCS():
GSFPixelConditionsSummaryTool.IsActiveStates = [
'READY', 'ON', 'UNKNOWN', 'TRANSITION', 'UNDEFINED'
]
GSFPixelConditionsSummaryTool.IsActiveStatus = [
'OK', 'WARNING', 'ERROR', 'FATAL'
]
GSFBuildTestBLayerTool = TrackingCommon.getInDetRecTestBLayerTool(
name="GSFBuildTestBLayerTool",
PixelSummaryTool=GSFPixelConditionsSummaryTool,
Extrapolator=GSFBuildInDetExtrapolator,
private=True)
GSFBuildPixelToTPIDTool = TrackingCommon.getInDetPixelToTPIDTool(
name="GSFBuildPixelToTPIDTool", private=True)
#
# TRT_ElectronPidTool (private =True)
#
GSFBuildTRT_ElectronPidTool = None
if DetFlags.haveRIO.TRT_on(
) and not InDetFlags.doSLHC() and not InDetFlags.doHighPileup():
GSFBuildTRT_ElectronPidTool = (
TrackingCommon.getInDetTRT_ElectronPidTool(
name="GSFBuildTRT_ElectronPidTool", private=True))
#
# InDet Track Summary Helper, no Association and no hole
# as we do not redo them (private = true)
#
GSFBuildTrackSummaryHelperTool = TrackingCommon.getInDetSummaryHelper(
name="GSFBuildTrackSummaryHelperTool",
AssoTool=None,
HoleSearch=None,
PixelToTPIDTool=GSFBuildPixelToTPIDTool,
TestBLayerTool=GSFBuildTestBLayerTool,
DoSharedHits=False,
private=True)
#
# TrkTrackSummaryTool: no shared hits no hole search
# still public due to TrackParticleCreatorTool
#
GSFBuildInDetTrackSummaryTool = (
TrackingCommon.getInDetTrackSummaryTool(
name="GSFBuildInDetTrackSummaryTool",
InDetSummaryHelperTool=GSFBuildTrackSummaryHelperTool,
doSharedHits=False,
doHolesInDet=False,
TRT_ElectronPidTool=GSFBuildTRT_ElectronPidTool,
PixelToTPIDTool=GSFBuildPixelToTPIDTool))
#
# Track Particle Creator tool (private not in ToolSvc)
# But needs a public extrapolator and
# InDetTrackSummaryTool still...
#
from TrkParticleCreator.TrkParticleCreatorConf import (
Trk__TrackParticleCreatorTool)
GSFBuildInDetParticleCreatorTool = Trk__TrackParticleCreatorTool(
name="GSFBuildInDetParticleCreatorTool",
KeepParameters=True,
Extrapolator=AtlasPublicExtrapolator(),
TrackSummaryTool=GSFBuildInDetTrackSummaryTool,
UseTrackSummaryTool=False)
#
# Track slimming (private not in ToolSvc)
#
from TrkTrackSlimmingTool.TrkTrackSlimmingToolConf import (
Trk__TrackSlimmingTool as ConfigurableTrackSlimmingTool)
GSFBuildInDetTrkSlimmingTool = ConfigurableTrackSlimmingTool(
name="GSFBuildInDetTrackSlimmingTool",
KeepParameters=False,
KeepOutliers=True)
#
# Default Configuration
#
self.TrackRefitTool = GSFRefitterTool
self.TrackParticleCreatorTool = GSFBuildInDetParticleCreatorTool
self.TrackSlimmingTool = GSFBuildInDetTrkSlimmingTool
self.TrackSummaryTool = GSFBuildInDetTrackSummaryTool