def __init__(self,
name="TauRecConfigured",
msglevel=3,
ignoreExistingDataObject=True):
self.name = name
self.msglevel = msglevel
from tauRec.tauRecConf import TauProcessorAlg
from tauRec.tauRecFlags import tauFlags
from CaloRec.CaloRecConf import CaloCellContainerFinalizerTool
# add calo cell finalizer tool
TauCellContainerFinalizer = CaloCellContainerFinalizerTool(
name='tauRec_tauPi0CellContainerFinalizer')
from AthenaCommon.AppMgr import ToolSvc
self._TauProcessorAlgHandle = TauProcessorAlg(
name=self.name + 'Alg',
Key_jetInputContainer=tauFlags.tauRecSeedJetCollection(),
Key_tauOutputContainer="tmp_TauJets",
Key_tauTrackOutputContainer="TauTracks",
Key_tauShotClusOutputContainer="TauShotClusters",
Key_tauShotPFOOutputContainer="TauShotParticleFlowObjects",
Key_tauPi0CellOutputContainer="TauCommonPi0Cells",
MaxEta=tauFlags.tauRecSeedMaxEta(),
MinPt=tauFlags.tauRecSeedMinPt(),
CellMakerTool=TauCellContainerFinalizer)
Configured.__init__(self,
ignoreExistingDataObject=ignoreExistingDataObject)
def getBonnPi0ClusterFinder():
_name = sPrefix + 'BonnPi0ClusterFinder'
if _name in cached_instances:
return cached_instances[_name]
from CaloRec.CaloRecConf import CaloCellContainerFinalizerTool
TauCellContainerFinalizer = CaloCellContainerFinalizerTool(name=sPrefix+'tauPi0CellContainerFinalizer')
from AthenaCommon.AppMgr import ToolSvc
ToolSvc += TauCellContainerFinalizer
from tauRecTools.tauRecToolsConf import TauPi0BonnCreateROI
TauPi0BonnCreateROI = TauPi0BonnCreateROI(name = _name,
CaloWeightTool = getCellWeightTool(),
CellMakerTool = TauCellContainerFinalizer,
#LonParFile = "longitudinal_para.dat",
#LatParFile = "lateral_para.dat",
LatParFile = "lateral_para.root",
#OriginCorrectionTool = getTauCellCorrection(),
ChargedPFOContainerName = 'TauPi0BonnChargedPFOContainer',
)
cached_instances[_name] = TauPi0BonnCreateROI
return TauPi0BonnCreateROI
def configure(self):
from CaloRec.CaloRecConf import CaloConstCellMaker
theCaloCellMaker = CaloConstCellMaker(
"CaloCellMakerFromCluster",
CaloCellsOutputName=self.outputKey(),
OwnPolicy=1)
self._CaloCellMakerHandle = theCaloCellMaker
from CaloRec.CaloRecConf import CaloCellContainerFinalizerTool
theCaloCellContainerFinalizerTool = CaloCellContainerFinalizerTool()
from AthenaCommon.AppMgr import ToolSvc
ToolSvc += theCaloCellContainerFinalizerTool
theCaloCellMaker.CaloCellMakerTools += [
theCaloCellContainerFinalizerTool
]
from CaloRec.CaloRecConf import CaloCellContainerCheckerTool
theCaloCellContainerCheckerTool = CaloCellContainerCheckerTool()
ToolSvc += theCaloCellContainerCheckerTool
theCaloCellMaker.CaloCellMakerTools += [
theCaloCellContainerCheckerTool
]
from AthenaCommon.AlgSequence import AlgSequence
topSequence = AlgSequence()
topSequence += theCaloCellMaker
from RecExConfig.ObjKeyStore import objKeyStore
objKeyStore.addStreamAOD(self.outputType(), self.outputKey())
#Schedule algorithm to update cluster->cell links
from CaloRec.CaloRecConf import CaloClusterCellLinksUpdater
theClusterUpdater = CaloClusterCellLinksUpdater(
NewCaloCellName=self._output["CaloCellContainer"])
self._ClusterUpdateHandle = theClusterUpdater
topSequence += theClusterUpdater
return True
def configure(self):
from CaloRec.CaloRecConf import CaloCellMaker
cellMaker = CaloCellMaker("HICaloCellCopier",
CaloCellsOutputName="SubtractedCells",
OwnPolicy=0)
from CaloRec.CaloRecConf import CaloCellFastCopyTool
cellCopyTool = CaloCellFastCopyTool("HICellCopyTool")
cellCopyTool.InputName = "AllCalo"
cellCopyTool.IncludeSamplings = [
"PreSamplerB", "EMB1", "EMB2", "EMB3", "PreSamplerE", "EME1",
"EME2", "EME3", "HEC0", "HEC1", "HEC2", "HEC3", "TileBar0",
"TileBar1", "TileBar2", "TileGap1", "TileGap2", "TileGap3",
"TileExt0", "TileExt1", "TileExt2", "FCal1", "FCal2", "FCal3"
]
from AthenaCommon.AppMgr import ToolSvc
ToolSvc += cellCopyTool
from HIJetRec.HIJetRecConf import HISubtractedCellMakerTool
cellSubtrTool = HISubtractedCellMakerTool()
from HIJetRec.HIJetRecFlags import HIJetFlags
cellSubtrTool.EventShapeKey = HIJetFlags.IteratedEventShapeKey()
from HIJetRec.HIJetRecTools import jtm
cellSubtrTool.Modulator = jtm.modulator
ToolSvc += cellSubtrTool
from CaloRec.CaloRecConf import CaloCellContainerFinalizerTool
cellFinalizerTool = CaloCellContainerFinalizerTool(
"HICaloCellFinalizerTool")
ToolSvc += cellFinalizerTool
cellMaker.CaloCellMakerToolNames = [
cellCopyTool, cellSubtrTool, cellFinalizerTool
]
from AthenaCommon.AlgSequence import AlgSequence
topSequence = AlgSequence()
topSequence += cellMaker
return True
def configure(self):
from AthenaCommon.Logging import logging
mlog = logging.getLogger('CaloCellGetter::configure:')
mlog.info('entering')
doStandardCellReconstruction = True
from CaloRec.CaloCellFlags import jobproperties
if not jobproperties.CaloCellFlags.doFastCaloSim.statusOn:
doFastCaloSim = False
mlog.info("doFastCaloSim not set, so not using it")
else:
doFastCaloSim = jobproperties.CaloCellFlags.doFastCaloSim()
if doFastCaloSim:
mlog.info("doFastCaloSim requested")
doStandardCellReconstruction = False
if jobproperties.CaloCellFlags.doFastCaloSimAddCells():
doStandardCellReconstruction = True
mlog.info(
"doFastCaloSimAddCells requested: FastCaloSim is added to fullsim calorimeter"
)
else:
mlog.info(
"doFastCaloSimAddCells not requested: Stand alone FastCaloSim is running"
)
else:
mlog.info("doFastCaloSim explicitly not requested")
# now configure the algorithm, part of this could be done in a separate class
# cannot have same name
try:
from CaloRec.CaloRecConf import CaloCellMaker
except:
mlog.error("could not import CaloRec.CaloCellMaker")
print traceback.format_exc()
return False
theCaloCellMaker = CaloCellMaker("FastCaloCellMaker")
self._CaloCellMakerHandle = theCaloCellMaker
from AthenaCommon.AppMgr import ToolSvc
if doFastCaloSim:
mlog.info('configuring FastCaloSim here')
try:
from FastCaloSim.FastCaloSimConf import EmptyCellBuilderTool
theEmptyCellBuilderTool = EmptyCellBuilderTool()
ToolSvc += theEmptyCellBuilderTool
theCaloCellMaker.CaloCellMakerToolNames += [
theEmptyCellBuilderTool
]
print theEmptyCellBuilderTool
mlog.info("configure EmptyCellBuilderTool worked")
except:
mlog.error("could not get handle to EmptyCellBuilderTool Quit")
print traceback.format_exc()
return False
try:
#if True :
from FastCaloSim.FastCaloSimFactory import FastCaloSimFactory
theFastShowerCellBuilderTool = FastCaloSimFactory()
ToolSvc += theFastShowerCellBuilderTool
theCaloCellMaker.CaloCellMakerToolNames += [
theFastShowerCellBuilderTool
]
mlog.info("configure FastShowerCellBuilderTool worked")
except:
mlog.error(
"could not get handle to FastShowerCellBuilderTool Quit")
print traceback.format_exc()
return False
#
# CaloCellContainerFinalizerTool : closng conainer and seting up iterators
#
from CaloRec.CaloRecConf import CaloCellContainerFinalizerTool
theCaloCellContainerFinalizerTool = CaloCellContainerFinalizerTool()
ToolSvc += theCaloCellContainerFinalizerTool
theCaloCellMaker.CaloCellMakerToolNames += [
theCaloCellContainerFinalizerTool
]
# make lots of checks (should not be necessary eventually)
# to print the check add:
from CaloRec.CaloRecConf import CaloCellContainerCheckerTool
theCaloCellContainerCheckerTool = CaloCellContainerCheckerTool()
# FIXME
# theCaloCellContainerCheckerTool.OutputLevel=DEBUG
ToolSvc += theCaloCellContainerCheckerTool
theCaloCellMaker.CaloCellMakerToolNames += [
theCaloCellContainerCheckerTool
]
#
# sets output key
theCaloCellMaker.CaloCellsOutputName = self.outputKey()
# # register output in objKeyStore
# from RecExConfig.ObjKeyStore import objKeyStore
#
# objKeyStore.addStreamESD(self.outputType(),self.outputKey())
# now add algorithm to topSequence
# should go just before FastHitConv in topSequence
mlog.info(" now adding CaloCellMaker to topSequence")
from AthenaCommon.AlgSequence import AlgSequence
topSequence = AlgSequence()
list = topSequence.getSequence()
print list
print "FastHitConv position = " + str(
list.index('FastHitConv/theFastHitConv'))
topSequence.insert(list.index('FastHitConv/theFastHitConv'),
theCaloCellMaker)
return True
nf = jobproperties.TileRecFlags.noiseFilter()
n3 = nf - nf%100
n2 = nf - n3 - nf%10
if n2 == 10:
from TileRecUtils.TileRecUtilsConf import TileRawChannelNoiseFilter
theTileRawChannelNoiseFilter = TileRawChannelNoiseFilter()
theTileCellBuilder.NoiseFilterTools = [theTileRawChannelNoiseFilter]
if n3 == 100:
from TileRecUtils.TileRecUtilsConf import TileCellNoiseFilter
theTileCellNoiseFilter = TileCellNoiseFilter()
theCaloCellMaker.CaloCellMakerToolNames += [theTileCellNoiseFilter]
from CaloRec.CaloRecConf import CaloCellContainerFinalizerTool
theCaloCellContainerFinalizerTool = CaloCellContainerFinalizerTool()
theCaloCellMaker.CaloCellMakerToolNames += [theCaloCellContainerFinalizerTool]
if ('doCaloNeighborsCorr' in dir()) and doCaloNeighborsCorr:
from CaloCellCorrection.CaloCellCorrectionConf import CaloCellNeighborsAverageCorr
theCaloCellNeighborsAverageCorr = CaloCellNeighborsAverageCorr("CaloCellNeighborsAverageCorr")
theCaloCellNeighborsAverageCorr.testMode=False
theCaloCellMaker.CaloCellMakerToolNames += [theCaloCellNeighborsAverageCorr]
else:
doCaloNeighborsCorr=False
from CaloRec.CaloRecConf import CaloCellContainerCheckerTool
theCaloCellContainerCheckerTool = CaloCellContainerCheckerTool()
theCaloCellMaker.CaloCellMakerToolNames += [theCaloCellContainerCheckerTool]
def getCaloCellContainerFinalizerTool(
name="ISF_CaloCellContainerFinalizerTool", **kwargs):
from CaloRec.CaloRecConf import CaloCellContainerFinalizerTool
return CaloCellContainerFinalizerTool(name, **kwargs)
if n2 == 10:
from TileRecUtils.TileRecUtilsConf import TileRawChannelNoiseFilter
theTileRawChannelNoiseFilter = TileRawChannelNoiseFilter()
ToolSvc += theTileRawChannelNoiseFilter
ToolSvc.TileCellBuilder.NoiseFilterTools = [theTileRawChannelNoiseFilter]
if n3 == 100:
from TileRecUtils.TileRecUtilsConf import TileCellNoiseFilter
theTileCellNoiseFilter = TileCellNoiseFilter()
ToolSvc += theTileCellNoiseFilter
theCaloCellMakerLG.CaloCellMakerToolNames += [ ToolSvc.TileCellNoiseFilterLG.getFullName() ]
theCaloCellMakerHG.CaloCellMakerToolNames += [ ToolSvc.TileCellNoiseFilterHG.getFullName() ]
if not hasattr( ToolSvc, "CaloCellContainerFinalizerToolLG" ):
from CaloRec.CaloRecConf import CaloCellContainerFinalizerTool
theCaloCellContainerFinalizerToolLG=CaloCellContainerFinalizerTool("theCaloCellContainerFinalizerToolLG")
ToolSvc += theCaloCellContainerFinalizerToolLG
theCaloCellMakerLG.CaloCellMakerToolNames += [theCaloCellContainerFinalizerToolLG ]
else:
theCaloCellMakerLG.CaloCellMakerToolNames += ["CaloCellContainerFinalizerToolLG"]
if not hasattr( ToolSvc, "CaloCellContainerFinalizerToolHG" ):
from CaloRec.CaloRecConf import CaloCellContainerFinalizerTool
theCaloCellContainerFinalizerToolHG=CaloCellContainerFinalizerTool("theCaloCellContainerFinalizerToolHG")
ToolSvc += theCaloCellContainerFinalizerToolHG
theCaloCellMakerHG.CaloCellMakerToolNames += [theCaloCellContainerFinalizerToolHG ]
else:
theCaloCellMakerHG.CaloCellMakerToolNames += ["CaloCellContainerFinalizerToolHG"]
def configure(self):
from AthenaCommon.Logging import logging
mlog = logging.getLogger('Configured::__init__:%s:' %
self.__class__.__name__.replace(".", '_'))
mlog.info('InputClusterKeys %s ', self.inputClusterKeys())
mlog.info('InputCellKey %s ', self.inputCellKey())
mlog.info('OutputCellKey %s ', self.outputCellKey())
from AthenaCommon.AppMgr import ToolSvc
#Schedule the calo cell maker.
from CaloRec.CaloRecConf import CaloConstCellMaker
#======================
self.theCaloCellMaker = CaloConstCellMaker(
name="CaloCellMakerFromCluster_" + self.outputCellKey(),
CaloCellsOutputName=self.outputCellKey(),
OwnPolicy=1)
self._CaloCellMakerHandle = self.theCaloCellMaker
#Add the needed tool instances, only if they do not exist already
#====================== CaloCellContainerFromClusterTool
if not hasattr(
ToolSvc,
'CaloCellContainerFromClusterTool_' + self.outputCellKey()):
self.theCaloCellContainerFromClusterTool = self.GetTool(
'CaloCellContainerFromClusterTool_' + self.outputCellKey())
if self.theCaloCellContainerFromClusterTool is None:
from CaloRec.CaloRecConf import CaloCellContainerFromClusterTool
self.theCaloCellContainerFromClusterTool = CaloCellContainerFromClusterTool(
'CaloCellContainerFromClusterTool_' + self.outputCellKey())
ToolSvc += self.theCaloCellContainerFromClusterTool
self.AddTool(self.theCaloCellContainerFromClusterTool, order=1)
self.theCaloCellContainerFromClusterTool.CaloCellName = self.inputCellKey(
)
self.theCaloCellContainerFromClusterTool.AddSamplingCells = True
self.theCaloCellContainerFromClusterTool.SamplingCellsName = [
"TileGap1", "TileGap2", "TileGap3", "TileBar0", "TileExt0",
"HEC0"
]
mlog.info('CaloCellContainerFromClusterTool has been added')
else:
self.theCaloCellContainerFromClusterTool = getattr(
ToolSvc,
'CaloCellContainerFromClusterTool_' + self.outputCellKey())
#====================== CaloCellFastCopyTool
if not hasattr(ToolSvc,
'CaloCellFastCopyTool_' + self.outputCellKey()):
self.theCaloCellFastCopyTool = self.GetTool(
'CaloCellFastCopyTool_' + self.outputCellKey())
if self.theCaloCellFastCopyTool is None:
from CaloRec.CaloRecConf import CaloCellFastCopyTool
self.theCaloCellFastCopyTool = CaloCellFastCopyTool(
'CaloCellFastCopyTool_' + self.outputCellKey())
self.theCaloCellFastCopyTool.InputName = self.inputCellKey()
self.theCaloCellFastCopyTool.AvoidDuplicates = True
self.theCaloCellFastCopyTool.IsFindCellFast = True
self.theCaloCellFastCopyTool.IncludeSamplings += ["TileGap3"]
mlog.info('The sampling %s has been scheduled to be copied ',
"TileGap3")
ToolSvc += self.theCaloCellFastCopyTool
self.AddTool(self.theCaloCellFastCopyTool, order=7)
mlog.info('CaloCellFastCopyTool has been added')
else:
self.theCaloCellFastCopyTool = getattr(
ToolSvc, 'CaloCellFastCopyTool_' + self.outputCellKey())
#======================CaloCellContainerFinalizerTool
if not hasattr(
ToolSvc,
'CaloCellContainerFinalizerTool_' + self.outputCellKey()):
self.theCaloCellContainerFinalizerTool = self.GetTool(
'CaloCellContainerFinalizerTool_' + self.outputCellKey())
if self.theCaloCellContainerFinalizerTool is None:
from CaloRec.CaloRecConf import CaloCellContainerFinalizerTool
self.theCaloCellContainerFinalizerTool = CaloCellContainerFinalizerTool(
'CaloCellContainerFinalizerTool_' + self.outputCellKey())
ToolSvc += self.theCaloCellContainerFinalizerTool
self.AddTool(self.theCaloCellContainerFinalizerTool, order=9)
mlog.info('CaloCellContainerFinalizerTool has been added')
else:
self.theCaloCellContainerFinalizerTool = getattr(
ToolSvc,
'CaloCellContainerFinalizerTool_' + self.outputCellKey())
#====================== CaloCellContainerCheckerTool
if not hasattr(ToolSvc,
'CaloCellContainerCheckerTool_' + self.outputCellKey()):
self.theCaloCellContainerCheckerTool = self.GetTool(
'CaloCellContainerCheckerTool_' + self.outputCellKey())
if self.theCaloCellContainerCheckerTool is None:
from CaloRec.CaloRecConf import CaloCellContainerCheckerTool
self.theCaloCellContainerCheckerTool = CaloCellContainerCheckerTool(
'CaloCellContainerCheckerTool_' + self.outputCellKey())
ToolSvc += self.theCaloCellContainerCheckerTool
self.AddTool(self.theCaloCellContainerCheckerTool, order=10)
mlog.info('CaloCellContainerCheckerTool has been added')
else:
self.theCaloCellContainerCheckerTool = getattr(
ToolSvc,
'CaloCellContainerCheckerTool_' + self.outputCellKey())
#======================
#Algorithm to update cluster->cell links
from CaloRec.CaloRecConf import CaloClusterCellLinksUpdater
self.theClusterUpdater = CaloClusterCellLinksUpdater(
name="CaloClusterCellLinksUpdater_" + self.outputCellKey(),
NewCaloCellName=self.outputCellKey())
self._ClusterUpdateHandle = self.theClusterUpdater
for inputname in self.inputClusterKeys():
self.theCaloCellContainerFromClusterTool.CaloClusterNames += [
inputname
]
self.AddClusterToUpdate(inputname)
mlog.info("Add Clusters Collection %s to the %s CellCollection ",
inputname, self.outputCellKey())
#======================
#Avoid scheduling the same algorithm instances twice
if not hasattr(self._sequence,
"CaloCellMakerFromCluster_" + self.outputCellKey()):
mlog.info("Make Cell Collection %s ", self.outputCellKey())
self._sequence += self.theCaloCellMaker
else:
mlog.info(
"CaloCellMakerFromCluster_%s exists already not adding it again",
self.outputCellKey())
if not hasattr(self._sequence,
"CaloClusterCellLinksUpdater_" + self.outputCellKey()):
mlog.info("Update _links for %s to point at %s",
str(self.inputClusterKeys()), self.outputCellKey())
self._sequence += self.theClusterUpdater
else:
mlog.info(
"CaloClusterCellLinksUpdater_%s exists already not adding it again",
self.outputCellKey())
mlog.info('CaloCellMakerHandle list of Tools:')
mlog.info(self._CaloCellMakerHandle.CaloCellMakerTools)
return True
def configure(self):
from AthenaCommon.Logging import logging
mlog = logging.getLogger('CaloCellGetter::configure:')
mlog.info('entering')
doStandardCellReconstruction = True
from CaloRec.CaloCellFlags import jobproperties
if not jobproperties.CaloCellFlags.doFastCaloSim.statusOn:
doFastCaloSim = False
mlog.info("doFastCaloSim not set, so not using it")
else:
doFastCaloSim = jobproperties.CaloCellFlags.doFastCaloSim()
if doFastCaloSim:
mlog.info("doFastCaloSim requested")
doStandardCellReconstruction = False
if jobproperties.CaloCellFlags.doFastCaloSimAddCells():
doStandardCellReconstruction = True
mlog.info(
"doFastCaloSimAddCells requested: FastCaloSim is added to fullsim calorimeter"
)
else:
mlog.info(
"doFastCaloSimAddCells not requested: Stand alone FastCaloSim is running"
)
else:
mlog.info("doFastCaloSim explicitly not requested")
# get handle to upstream object
# handle tile
if doStandardCellReconstruction:
# handle LAr
import traceback
try:
from LArROD.LArRODFlags import larRODFlags
from AthenaCommon.GlobalFlags import globalflags
if larRODFlags.readDigits() and globalflags.DataSource(
) == 'data':
from AthenaCommon.KeyStore import CfgItemList
CfgItemList("KeyStore_inputFile").removeItem(
"LArRawChannelContainer#LArRawChannels")
if (not larRODFlags.readDigits()
) and globalflags.InputFormat() == 'bytestream':
from AthenaCommon.AppMgr import ServiceMgr as svcMgr
try:
if not "LArRawChannelContainer/LArRawChannels" in svcMgr.ByteStreamAddressProviderSvc.TypeNames:
svcMgr.ByteStreamAddressProviderSvc.TypeNames += [
"LArRawChannelContainer/LArRawChannels"
]
except:
mlog.warning(
"Cannot remove LArRawChannelContainer/LArRawChannels from bytestream list"
)
from LArROD.LArRawChannelGetter import LArRawChannelGetter
theLArRawChannelGetter = LArRawChannelGetter()
except:
mlog.error("could not get handle to LArRawChannel Quit")
print traceback.format_exc()
return False
if not theLArRawChannelGetter.usable():
if not self.ignoreConfigError():
mlog.error("LArRawChannelGetter unusable. Quit.")
return False
else:
mlog.error(
"LArRawChannelGetter unusable. Continue nevertheless")
# writing of thinned digits
if jobproperties.CaloCellFlags.doLArThinnedDigits.statusOn and jobproperties.CaloCellFlags.doLArThinnedDigits(
):
from AthenaCommon.GlobalFlags import globalflags
if globalflags.DataSource() == 'data':
try:
from LArROD.LArDigits import DefaultLArDigitThinner
LArDigitThinner = DefaultLArDigitThinner(
'LArDigitThinner'
) # automatically added to topSequence
LArDigitThinner.InputContainerName = "FREE"
LArDigitThinner.OutputContainerName = "LArDigitContainer_Thinned"
except Exception:
treatException("Problem with LArDigitThinner ")
# now configure the algorithm, part of this could be done in a separate class
# cannot have same name
try:
from CaloRec.CaloRecConf import CaloCellMaker
except:
mlog.error("could not import CaloRec.CaloCellMaker")
print traceback.format_exc()
return False
theCaloCellMaker = CaloCellMaker()
self._CaloCellMakerHandle = theCaloCellMaker
from AthenaCommon.AppMgr import ToolSvc
if doStandardCellReconstruction:
# configure CaloCellMaker here
# check LArCellMakerTool_jobOptions.py for full configurability
# FIXME
from RecExConfig.RecFlags import rec
if rec.doLArg():
try:
from LArCellRec.LArCellRecConf import LArCellBuilderFromLArRawChannelTool
theLArCellBuilder = LArCellBuilderFromLArRawChannelTool()
except:
mlog.error(
"could not get handle to LArCellBuilderFromLArRawChannel Quit"
)
print traceback.format_exc()
return False
if jobproperties.CaloCellFlags.doLArCreateMissingCells():
# bad channel tools
try:
from LArBadChannelTool.LArBadChannelToolConf import LArBadChanTool
theLArBadChannelTool = LArBadChanTool()
except:
mlog.error("could not access bad channel tool Quit")
print traceback.format_exc()
return False
ToolSvc += theLArBadChannelTool
theLArCellBuilder.addDeadOTX = True
theLArCellBuilder.badChannelTool = theLArBadChannelTool
# add the tool to list of tool ( should use ToolHandle eventually)
ToolSvc += theLArCellBuilder
theCaloCellMaker.CaloCellMakerToolNames += [theLArCellBuilder]
if rec.doTile():
from AthenaCommon.GlobalFlags import globalflags
if globalflags.DataSource(
) == 'data' and globalflags.InputFormat() == 'bytestream':
from AthenaCommon.AppMgr import ServiceMgr as svcMgr
try:
svcMgr.ByteStreamCnvSvc.ROD2ROBmap = ["-1"]
if not "TileDigitsContainer/TileDigitsCnt" in svcMgr.ByteStreamAddressProviderSvc.TypeNames:
svcMgr.ByteStreamAddressProviderSvc.TypeNames += [
"TileBeamElemContainer/TileBeamElemCnt",
"TileDigitsContainer/TileDigitsCnt",
"TileL2Container/TileL2Cnt",
"TileLaserObject/TileLaserObj",
"TileMuonReceiverContainer/TileMuRcvCnt"
]
except:
mlog.warning(
"Cannot add TileDigitsContainer/TileDigitsCnt et al. to bytestream list"
)
# set options for TileRawChannelMaker
from TileRecUtils.TileRecFlags import jobproperties
jobproperties.TileRecFlags.TileRunType = 1
# physics run type
# reading of digits can be disabled before calling CaloCellGetter
# if this is not done, but digits are not available in BS file
# reading of digits is automatically disabled at start of run
if jobproperties.TileRecFlags.readDigits() \
and not (jobproperties.TileRecFlags.doTileFlat \
or jobproperties.TileRecFlags.doTileFit \
or jobproperties.TileRecFlags.doTileFitCool \
or jobproperties.TileRecFlags.doTileOpt \
or jobproperties.TileRecFlags.doTileOF1 \
or jobproperties.TileRecFlags.doTileOpt2 \
or jobproperties.TileRecFlags.doTileOptATLAS \
or jobproperties.TileRecFlags.doTileMF):
from AthenaCommon.BeamFlags import jobproperties
# run Opt filter with iterations by default, both for cosmics and collisions before 2011
# run Opt filter without iterations for collisions in 2011 and later
if not 'doTileOpt2' in dir():
from RecExConfig.AutoConfiguration import GetRunNumber
rn = GetRunNumber()
if rn > 0 and rn < 171194:
doTileOpt2 = True
elif jobproperties.Beam.beamType() == 'collisions':
doTileOpt2 = False
# use OF without iterations for collisions
else:
doTileOpt2 = True
# always run OF with iterations for cosmics
# jobproperties.TileRecFlags.calibrateEnergy=True; # use pCb for RawChannels
# please, note that time correction and best phase are used only for collisions
if doTileOpt2:
jobproperties.TileRecFlags.doTileOpt2 = True
# run optimal filter with iterations
jobproperties.TileRecFlags.doTileOptATLAS = False
# disable optimal filter without iterations
jobproperties.TileRecFlags.correctAmplitude = False
# don't do parabolic correction
if jobproperties.Beam.beamType() == 'collisions':
jobproperties.TileRecFlags.correctTime = True
# apply time correction in physics runs
jobproperties.TileRecFlags.BestPhaseFromCOOL = False
# best phase is not needed for iterations
else:
jobproperties.TileRecFlags.doTileOpt2 = False
# disable optimal filter with iterations
jobproperties.TileRecFlags.doTileOptATLAS = True
# run optimal filter without iterations
jobproperties.TileRecFlags.correctAmplitude = True
# apply parabolic correction
if jobproperties.Beam.beamType() == 'collisions':
jobproperties.TileRecFlags.correctTime = False
# don't need time correction if best phase is used
jobproperties.TileRecFlags.BestPhaseFromCOOL = True
# use best phase stored in DB
try:
from TileRecUtils.TileRawChannelGetter import TileRawChannelGetter
theTileRawChannelGetter = TileRawChannelGetter()
except:
mlog.error("could not load TileRawChannelGetter Quit")
print traceback.format_exc()
return False
try:
from TileRecAlgs.TileRecAlgsConf import TileDigitsFilter
from AthenaCommon.AlgSequence import AlgSequence
topSequence = AlgSequence()
topSequence += TileDigitsFilter()
except:
mlog.error("Could not configure TileDigitsFilter")
try:
from TileRecUtils.TileRecUtilsConf import TileCellBuilder
theTileCellBuilder = TileCellBuilder()
from TileRecUtils.TileRecFlags import jobproperties
theTileCellBuilder.TileRawChannelContainer = jobproperties.TileRecFlags.TileRawChannelContainer(
)
if not hasattr(ToolSvc, "TileBeamInfoProvider"):
from TileRecUtils.TileRecUtilsConf import TileBeamInfoProvider
ToolSvc += TileBeamInfoProvider()
if globalflags.DataSource(
) == 'data' and globalflags.InputFormat() == 'bytestream':
if jobproperties.TileRecFlags.readDigits():
# everything is already corrected at RawChannel level
theTileCellBuilder.correctTime = False
theTileCellBuilder.correctAmplitude = False
else:
ToolSvc.TileBeamInfoProvider.TileRawChannelContainer = "TileRawChannelCnt"
# by default parameters are tuned for opt.filter without iterations
theTileCellBuilder.correctTime = jobproperties.TileRecFlags.correctTime(
)
theTileCellBuilder.correctAmplitude = jobproperties.TileRecFlags.correctAmplitude(
)
theTileCellBuilder.AmpMinForAmpCorrection = jobproperties.TileRecFlags.AmpMinForAmpCorrection(
)
if jobproperties.TileRecFlags.TimeMaxForAmpCorrection(
) <= jobproperties.TileRecFlags.TimeMinForAmpCorrection(
):
from AthenaCommon.BeamFlags import jobproperties
mlog.info(
"adjusting min/max time of parabolic correction for %s"
% jobproperties.Beam.bunchSpacing)
halfBS = jobproperties.Beam.bunchSpacing.get_Value(
) / 2.
jobproperties.TileRecFlags.TimeMinForAmpCorrection = -halfBS
jobproperties.TileRecFlags.TimeMaxForAmpCorrection = halfBS
if jobproperties.TileRecFlags.TimeMaxForAmpCorrection(
) > jobproperties.TileRecFlags.TimeMinForAmpCorrection(
):
theTileCellBuilder.TimeMinForAmpCorrection = jobproperties.TileRecFlags.TimeMinForAmpCorrection(
)
theTileCellBuilder.TimeMaxForAmpCorrection = jobproperties.TileRecFlags.TimeMaxForAmpCorrection(
)
ToolSvc += theTileCellBuilder
theCaloCellMaker.CaloCellMakerToolNames += [
theTileCellBuilder
]
except:
mlog.error("could not get handle to TileCellBuilder Quit")
print traceback.format_exc()
return False
if doFastCaloSim:
mlog.info('configuring FastCaloSim here')
try:
from FastCaloSim.FastCaloSimConf import EmptyCellBuilderTool
theEmptyCellBuilderTool = EmptyCellBuilderTool()
ToolSvc += theEmptyCellBuilderTool
theCaloCellMaker.CaloCellMakerToolNames += [
theEmptyCellBuilderTool
]
print theEmptyCellBuilderTool
mlog.info("configure EmptyCellBuilderTool worked")
except:
mlog.error("could not get handle to EmptyCellBuilderTool Quit")
print traceback.format_exc()
return False
try:
from FastCaloSim.FastCaloSimFactory import FastCaloSimFactory
theFastShowerCellBuilderTool = FastCaloSimFactory()
ToolSvc += theFastShowerCellBuilderTool
theCaloCellMaker.CaloCellMakerToolNames += [
theFastShowerCellBuilderTool
]
mlog.info("configure FastShowerCellBuilderTool worked")
except:
mlog.error(
"could not get handle to FastShowerCellBuilderTool Quit")
print traceback.format_exc()
return False
doFastCaloSimNoise = jobproperties.CaloCellFlags.doFastCaloSimNoise(
)
if doFastCaloSimNoise:
try:
from FastCaloSim.FastCaloSimConf import AddNoiseCellBuilderTool
theAddNoiseCellBuilderTool = AddNoiseCellBuilderTool()
from CaloTools.CaloNoiseToolDefault import CaloNoiseToolDefault
theCaloNoiseTool = CaloNoiseToolDefault()
from AthenaCommon.AppMgr import ToolSvc
ToolSvc += theCaloNoiseTool
theAddNoiseCellBuilderTool.CaloNoiseTool = theCaloNoiseTool.getFullName(
)
print theAddNoiseCellBuilderTool
ToolSvc += theAddNoiseCellBuilderTool
theCaloCellMaker.CaloCellMakerToolNames += [
theAddNoiseCellBuilderTool
]
mlog.info("configure AddNoiseCellBuilderTool worked")
except:
mlog.error(
"could not get handle to AddNoiseCellBuilderTool Quit")
print traceback.format_exc()
return False
#
# CaloCellContainerFinalizerTool : closing container and setting up iterators
#
from CaloRec.CaloRecConf import CaloCellContainerFinalizerTool
theCaloCellContainerFinalizerTool = CaloCellContainerFinalizerTool()
ToolSvc += theCaloCellContainerFinalizerTool
theCaloCellMaker.CaloCellMakerToolNames += [
theCaloCellContainerFinalizerTool
]
#
# Mergeing of calo cellcontainer with sparse raw channel container with improved energies
#
doLArMerge = False
if globalflags.DataSource(
) == 'data' and jobproperties.CaloCellFlags.doLArRawChannelMerge.statusOn and jobproperties.CaloCellFlags.doLArRawChannelMerge(
):
from LArROD.LArRODFlags import larRODFlags
if larRODFlags.readDigits() and larRODFlags.keepDSPRaw():
doLArMerge = True
if doLArMerge:
try:
from LArCellRec.LArCellRecConf import LArCellMerger
theLArCellMerger = LArCellMerger()
except:
mlog.error("could not get handle to LArCellMerge Quit")
print traceback.format_exc()
return False
theLArCellMerger.RawChannelsName = larRODFlags.RawChannelFromDigitsContainerName(
)
ToolSvc += theLArCellMerger
theCaloCellMaker.CaloCellMakerToolNames += [theLArCellMerger]
#
# masking of noisy and sporadic noisy cells in LAr
#
doNoiseMask = False
if jobproperties.CaloCellFlags.doLArNoiseMasking.statusOn and jobproperties.CaloCellFlags.doLArNoiseMasking(
):
doNoiseMask = True
doSporadicMask = False
if jobproperties.CaloCellFlags.doLArSporadicMasking.statusOn and jobproperties.CaloCellFlags.doLArSporadicMasking(
):
doSporadicMask = True
if doNoiseMask or doSporadicMask:
try:
from LArCellRec.LArCellRecConf import LArCellNoiseMaskingTool
theLArCellNoiseMaskingTool = LArCellNoiseMaskingTool()
except:
mlog.error(
"could not get handle to LArCellNoiseMaskingTool Quit")
print traceback.format_exc()
return False
# bad channel tools
try:
from LArBadChannelTool.LArBadChannelToolConf import LArBadChanTool
theLArBadChannelTool = LArBadChanTool()
except:
mlog.error("could not access bad channel tool Quit")
print traceback.format_exc()
return False
ToolSvc += theLArBadChannelTool
if doSporadicMask:
try:
from LArBadChannelTool.LArBadChannelToolConf import LArBadChannelMasker
theLArSporadicNoiseMasker = LArBadChannelMasker(
"LArSporadicNoiseMasker")
except:
mlog.error("could not access bad channel tool Quit")
print traceback.format_exc()
return False
theLArSporadicNoiseMasker.TheLArBadChanTool = theLArBadChannelTool
theLArSporadicNoiseMasker.DoMasking = True
theLArSporadicNoiseMasker.ProblemsToMask = [
"sporadicBurstNoise"
]
ToolSvc += theLArSporadicNoiseMasker
theLArCellNoiseMaskingTool.MaskingSporadicTool = theLArSporadicNoiseMasker
if doNoiseMask:
try:
from LArBadChannelTool.LArBadChannelToolConf import LArBadChannelMasker
theLArNoiseMasker = LArBadChannelMasker("LArNoiseMasker")
except:
mlog.error("could not access bad channel tool Quit")
print traceback.format_exc()
return False
theLArNoiseMasker.TheLArBadChanTool = theLArBadChannelTool
theLArNoiseMasker.DoMasking = True
theLArNoiseMasker.ProblemsToMask = [
"highNoiseHG", "highNoiseMG", "highNoiseLG", "deadReadout",
"deadPhys"
]
ToolSvc += theLArNoiseMasker
theLArCellNoiseMaskingTool.MaskingTool = theLArNoiseMasker
theLArCellNoiseMaskingTool.maskNoise = doNoiseMask
theLArCellNoiseMaskingTool.maskSporadic = doSporadicMask
# quality cut for sporadic noise masking
theLArCellNoiseMaskingTool.qualityCut = 4000
ToolSvc += theLArCellNoiseMaskingTool
theCaloCellMaker.CaloCellMakerToolNames += [
theLArCellNoiseMaskingTool
]
#
# masking of Feb problems
#
doBadFebMasking = False
if jobproperties.CaloCellFlags.doLArBadFebMasking.statusOn and jobproperties.CaloCellFlags.doLArBadFebMasking(
):
from AthenaCommon.GlobalFlags import globalflags
if globalflags.DataSource() == 'data':
doBadFebMasking = True
if doBadFebMasking:
try:
from LArCellRec.LArCellRecConf import LArBadFebMaskingTool
theLArBadFebMaskingTool = LArBadFebMaskingTool()
if (
rec.doExpressProcessing()
or athenaCommonFlags.isOnline()
): # In online or express processing, EventInfo::LArError is triggered if >=4 FEB with data corrupted
theLArBadFebMaskingTool.minFebInError = 4
except:
mlog.error("could not get handle to LArBadFebMaskingTool Quit")
print traceback.format_exc()
return False
ToolSvc += theLArBadFebMaskingTool
# bad channel tools
try:
from LArBadChannelTool.LArBadChannelToolConf import LArBadChanTool
theLArBadChannelTool = LArBadChanTool()
except:
mlog.error("could not access bad channel tool Quit")
print traceback.format_exc()
return False
ToolSvc += theLArBadChannelTool
theLArBadFebMaskingTool.badChannelTool = theLArBadChannelTool
theCaloCellMaker.CaloCellMakerToolNames += [
theLArBadFebMaskingTool
]
#
# emulate gain pathologies on MC
#
doGainPathology = False
if jobproperties.CaloCellFlags.doLArCellGainPathology.statusOn and jobproperties.CaloCellFlags.doLArCellGainPathology(
):
from AthenaCommon.GlobalFlags import globalflags
if globalflags.DataSource() == 'geant4':
doGainPathology = True
if doGainPathology:
try:
from LArCellRec.LArCellRecConf import LArCellGainPathology
theLArCellGainPathology = LArCellGainPathology()
except:
mlog.error("could not get handle to LArCellGainPatholog< Quit")
print traceback.format_exc()
return False
ToolSvc += theLArCellGainPathology
theCaloCellMaker.CaloCellMakerToolNames += [
theLArCellGainPathology
]
# lar miscalibration if MC only (should be done after finalisation)
if not jobproperties.CaloCellFlags.doLArCellEmMisCalib.statusOn:
# the flag has not been set, so decide a reasonable default
# this is the old global flags should use the new one as
# soon as monitoring does
from AthenaCommon.GlobalFlags import globalflags
if globalflags.DataSource() == 'data':
doLArCellEmMisCalib = False
mlog.info(
"jobproperties.CaloCellFlags.doLArMisCalib not set and real data: do not apply LArCellEmMisCalibTool"
)
else:
doLArCellEmMisCalib = True
mlog.info(
"jobproperties.CaloCellFlags.doLArMisCalib not set and Monte Carlo: apply LArCellEmMisCalibTool"
)
else:
doLArCellEmMisCalib = jobproperties.CaloCellFlags.doLArCellEmMisCalib(
)
if doLArCellEmMisCalib:
mlog.info("LArCellEmMisCalibTool requested")
else:
mlog.info("LArCellEmMisCalibTool explicitly not requested")
if doLArCellEmMisCalib:
try:
from LArCellRec.LArCellRecConf import LArCellEmMiscalib
theLArCellEmMiscalib = LArCellEmMiscalib("LArCellEmMiscalib")
except:
mlog.error("could not get handle to LArCellEmMisCalib Quit")
print traceback.format_exc()
return False
# examples on how to change miscalibration. Default values are 0.005 and 0.007
# theLArCellEmMiscalib.SigmaPerRegion = 0.005;
# theLArCellEmMiscalib.SigmaPerCell = 0.005;
ToolSvc += theLArCellEmMiscalib
try:
from CaloRec.CaloRecConf import CaloCellContainerCorrectorTool
from CaloIdentifier import SUBCALO
theMisCalibTool = CaloCellContainerCorrectorTool(
"MisCalibTool",
CaloNums=[SUBCALO.LAREM],
CellCorrectionToolNames=[theLArCellEmMiscalib])
except:
mlog.error("could not get handle to MisCalibTool Quit")
print traceback.format_exc()
return False
ToolSvc += theMisCalibTool
theCaloCellMaker.CaloCellMakerToolNames += [theMisCalibTool]
#
# Pedestal shift correction
#
doPedestalCorr = False
if jobproperties.CaloCellFlags.doPedestalCorr.statusOn:
from AthenaCommon.GlobalFlags import globalflags
if jobproperties.CaloCellFlags.doPedestalCorr() and (
globalflags.DataSource() == 'data'
or jobproperties.CaloCellFlags.doPileupOffsetBCIDCorr):
doPedestalCorr = True
mlog.info("Apply cell level pedestal shift correction")
import os
if doPedestalCorr:
try:
from CaloCellCorrection.CaloCellPedestalCorrDefault import CaloCellPedestalCorrDefault
theCaloCellPedestalCorr = CaloCellPedestalCorrDefault()
ToolSvc += theCaloCellPedestalCorr
theCaloCellMaker.CaloCellMakerToolNames += [
theCaloCellPedestalCorr
]
except:
mlog.error("could not get handle to CaloCellPedestalCorr")
print traceback.format_exc()
#
# HV correction for offline reprocessing, reading HV from Cool-DCS database
#
doHVCorr = False
from AthenaCommon.DetFlags import DetFlags
if DetFlags.dcs.LAr_on():
if jobproperties.CaloCellFlags.doLArHVCorr.statusOn:
from AthenaCommon.GlobalFlags import globalflags
if jobproperties.CaloCellFlags.doLArHVCorr(
) and globalflags.DataSource() == 'data':
doHVCorr = True
mlog.info(
"Redoing HV correction at cell level from COOL/DCS database"
)
if doHVCorr:
from LArCellRec.LArCellHVCorrDefault import LArCellHVCorrDefault
theLArCellHVCorr = LArCellHVCorrDefault()
try:
from CaloRec.CaloRecConf import CaloCellContainerCorrectorTool
from CaloIdentifier import SUBCALO
theHVCorrTool = CaloCellContainerCorrectorTool(
"HVCorrTool",
CaloNums=[SUBCALO.LAREM, SUBCALO.LARHEC, SUBCALO.LARFCAL],
CellCorrectionToolNames=[theLArCellHVCorr])
except:
mlog.error("could not get handle to HVCorrTool Quit")
print traceback.format_exc()
return False
ToolSvc += theHVCorrTool
theCaloCellMaker.CaloCellMakerToolNames += [theHVCorrTool]
#
# correction to undo online calibration and apply new LAr electronics calibration for ADC->MeV conversion
#
doLArRecalibration = False
if jobproperties.CaloCellFlags.doLArRecalibration.statusOn:
from AthenaCommon.GlobalFlags import globalflags
from LArConditionsCommon.LArCondFlags import larCondFlags
if jobproperties.CaloCellFlags.doLArRecalibration(
) and globalflags.DataSource() == 'data' and (
not larCondFlags.SingleVersion()):
doLArRecalibration = True
mlog.info("Redoing LAr electronics calibration for ADC->MeV")
if doLArRecalibration:
# get tool for cell recalibration
try:
from LArCellRec.LArCellRecConf import LArCellRecalibration
theLArCellRecalibration = LArCellRecalibration(
"LArCellRecalibration")
except:
mlog.error("could not get handle to LArCellRecalibration Quit")
print traceback.format_exc()
return False
ToolSvc += theLArCellRecalibration
# get new ADC2MeVTool
try:
from LArRecUtils.LArADC2MeVToolDefault import LArADC2MeVToolDefault
theLArADC2MeVToolDefault = LArADC2MeVToolDefault()
except:
mlog.error(
"Could not get handle to LArADC2MeVToolDefault Quit")
print traceback.format_exc()
return False
ToolSvc += theLArADC2MeVToolDefault
# get old ADC2MeVTool
try:
from LArRecUtils.LArADC2MeVToolOnline import LArADC2MeVToolOnline
theLArADC2MeVToolOnline = LArADC2MeVToolOnline()
except:
mlog.error("Could not get handle to LArADC2MeVToolOnline Quit")
print traceback.format_exc()
return False
ToolSvc += theLArADC2MeVToolOnline
theLArCellRecalibration.adc2MeVTool = theLArADC2MeVToolDefault
theLArCellRecalibration.adc2MeVToolOnline = theLArADC2MeVToolOnline
try:
from CaloRec.CaloRecConf import CaloCellContainerCorrectorTool
from CaloIdentifier import SUBCALO
theLArRecalibrationTool = CaloCellContainerCorrectorTool(
"LArRecalibrationTool",
CaloNums=[SUBCALO.LAREM, SUBCALO.LARHEC, SUBCALO.LARFCAL],
CellCorrectionToolNames=[theLArCellRecalibration])
except:
mlog.error("could not get handle to HVCorrTool Quit")
print traceback.format_exc()
return False
ToolSvc += theLArRecalibrationTool
theCaloCellMaker.CaloCellMakerToolNames += [
theLArRecalibrationTool
]
#
# Correction for MinBias energy shift for MC pileup reco
#
doMinBiasAverage = False
if jobproperties.CaloCellFlags.doMinBiasAverage.statusOn:
from AthenaCommon.GlobalFlags import globalflags
from AthenaCommon.BeamFlags import jobproperties
if jobproperties.CaloCellFlags.doMinBiasAverage(
) and globalflags.DataSource() == 'geant4' and (
not jobproperties.Beam.zeroLuminosity()):
doMinBiasAverage = True
if doMinBiasAverage:
try:
from CaloTools.CaloMBAverageToolDefault import CaloMBAverageToolDefault
theCaloMBAverageTool = CaloMBAverageToolDefault()
except:
mlog.error("could not get handle to CaloMBAverageTool Quit")
print traceback.format_exc()
return False
ToolSvc += theCaloMBAverageTool
try:
from CaloCellCorrection.CaloCellCorrectionConf import CaloCellMBAverageCorr
theCaloCellMBAverageCorr = CaloCellMBAverageCorr(
"CaloCellMBAverageCorr")
theCaloCellMBAverageCorr.CaloMBAverageTool = theCaloMBAverageTool
except:
mlog.error(
"could not get handle to CaloCellMBAverageCorr Quit")
print traceback.format_exc()
return False
ToolSvc += theCaloCellMBAverageCorr
try:
from CaloRec.CaloRecConf import CaloCellContainerCorrectorTool
from CaloIdentifier import SUBCALO
theMBAverageTool = CaloCellContainerCorrectorTool(
"MBAverageTool",
CaloNums=[SUBCALO.NSUBCALO],
CellCorrectionToolNames=[theCaloCellMBAverageCorr])
except:
mlog.error(
"could not get handle to CaloCellContainerCorrectorTool/MBAverageTool Quit"
)
print traceback.format_exc()
return False
ToolSvc += theMBAverageTool
theCaloCellMaker.CaloCellMakerToolNames += [theMBAverageTool]
#
# Correction for dead cells, where we average the energy density of neighbor cells
#
doNeighborsAverage = False
if jobproperties.CaloCellFlags.doDeadCellCorr.statusOn:
if jobproperties.CaloCellFlags.doDeadCellCorr():
doNeighborsAverage = True
if doNeighborsAverage:
try:
from CaloCellCorrection.CaloCellCorrectionConf import CaloCellNeighborsAverageCorr
theCaloCellNeighborsAverageCorr = CaloCellNeighborsAverageCorr(
"CaloCellNeighborsAverageCorr")
theCaloCellNeighborsAverageCorr.testMode = False
except:
mlog.error(
"could not get handle to CaloCellNeighborsAverageCorr Quit"
)
print traceback.format_exc()
return False
ToolSvc += theCaloCellNeighborsAverageCorr
theCaloCellMaker.CaloCellMakerToolNames += [
theCaloCellNeighborsAverageCorr
]
#
# correction for missing Febs based on L1 readout
doLArDeadOTXCorr = False
if jobproperties.CaloCellFlags.doLArDeadOTXCorr.statusOn and jobproperties.CaloCellFlags.doLArCreateMissingCells.statusOn:
if jobproperties.CaloCellFlags.doLArDeadOTXCorr(
) and jobproperties.CaloCellFlags.doLArCreateMissingCells(
) and doStandardCellReconstruction:
if rec.doTrigger():
doLArDeadOTXCorr = True
else:
mlog.warning(
"Trigger is switched off. Can't run deadOTX correction."
)
if doLArDeadOTXCorr:
try:
from LArCellRec.LArCellDeadOTXCorrToolDefault import LArCellDeadOTXCorrToolDefault
theLArCellDeadOTXCorr = LArCellDeadOTXCorrToolDefault()
except:
mlog.error("could not get handle to LArCellDeadOTXCorr Quit")
print traceback.format_exc()
ToolSvc += theLArCellDeadOTXCorr
theCaloCellMaker.CaloCellMakerToolNames += [theLArCellDeadOTXCorr]
doCaloEnergyRescaler = False
if jobproperties.CaloCellFlags.doCaloCellEnergyCorr(
) and globalflags.DataSource(
) == 'data' and not athenaCommonFlags.isOnline():
try:
from CaloCellCorrection.CaloCellCorrectionConf import CaloCellEnergyRescaler
theCCERescalerTool = CaloCellEnergyRescaler()
theCCERescalerTool.Folder = "/LAR/CellCorrOfl/EnergyCorr"
ToolSvc += theCCERescalerTool
from IOVDbSvc.CondDB import conddb
# conddb.addFolder("","/LAR/CellCorrOfl/EnergyCorr<tag>EnergyScale-00</tag><db>sqlite://;schema=escale.db;dbname=COMP200</db>")
conddb.addFolder("LAR_OFL", "/LAR/CellCorrOfl/EnergyCorr")
ToolSvc += theCCERescalerTool
theCaloCellMaker.CaloCellMakerToolNames += [theCCERescalerTool]
except:
mlog.error(
"could not get handle to CaloCellEnergyRescaler Quit")
print traceback.format_exc()
return False
pass
if jobproperties.CaloCellFlags.doCaloCellTimeCorr(
) and globalflags.DataSource(
) == 'data' and not athenaCommonFlags.isOnline():
try:
from CaloRec.CaloRecConf import CaloCellContainerCorrectorTool
from CaloCellCorrection.CaloCellCorrectionConf import CaloCellTimeCorrTool
theLArTimeCorr = CaloCellTimeCorrTool()
theLArTimeCorr.Folder = "/LAR/TimeCorrectionOfl/CellTimeOffset"
ToolSvc += theLArTimeCorr
from IOVDbSvc.CondDB import conddb
# conddb.addFolder("","/LAR/TimeCorrectionOfl/CellTimeOffset<tag>LARTimeCorrectionOflCellTimeOffset-empty</tag><db>sqlite://;schema=timecorr.db;dbname=COMP200</db>")
conddb.addFolder("LAR_OFL",
"/LAR/TimeCorrectionOfl/CellTimeOffset")
theCaloTimeCorrTool = CaloCellContainerCorrectorTool(
"LArTimeCorrTool",
CellCorrectionToolNames=[theLArTimeCorr])
ToolSvc += theCaloTimeCorrTool
theCaloCellMaker.CaloCellMakerToolNames += [
theCaloTimeCorrTool
]
except:
mlog.error("could not get handle to CaloCellTimeCorrTool Quit")
print traceback.format_exc()
return False
pass
# make lots of checks (should not be necessary eventually)
# to print the check add:
from CaloRec.CaloRecConf import CaloCellContainerCheckerTool
theCaloCellContainerCheckerTool = CaloCellContainerCheckerTool()
# FIXME
# theCaloCellContainerCheckerTool.OutputLevel=DEBUG
ToolSvc += theCaloCellContainerCheckerTool
theCaloCellMaker.CaloCellMakerToolNames += [
theCaloCellContainerCheckerTool
]
#
# sets output key
theCaloCellMaker.CaloCellsOutputName = self.outputKey()
# register output in objKeyStore
from RecExConfig.ObjKeyStore import objKeyStore
objKeyStore.addStreamESD(self.outputType(), self.outputKey())
# now add algorithm to topSequence
# this should always come at the end
mlog.info(" now adding CaloCellMaker to topSequence")
from AthenaCommon.AlgSequence import AlgSequence
topSequence = AlgSequence()
topSequence += theCaloCellMaker
return True
def configure(self):
from AthenaCommon.Logging import logging
mlog = logging.getLogger('CaloCellGetter_DigiHSTruth::configure:')
mlog.info('entering')
doStandardCellReconstruction = True
from CaloRec.CaloCellFlags import jobproperties
# get handle to upstream object
# handle tile
if doStandardCellReconstruction:
from LArROD.LArRODFlags import larRODFlags
# now configure the algorithm, part of this could be done in a separate class
# cannot have same name
try:
from CaloRec.CaloRecConf import CaloCellMaker
except Exception:
mlog.error("could not import CaloRec.CaloCellMaker")
print(traceback.format_exc())
return False
theCaloCellMaker = CaloCellMaker("CaloCellMaker_DigiHSTruth")
self._CaloCellMakerHandle = theCaloCellMaker
from AthenaCommon.AppMgr import ToolSvc
if doStandardCellReconstruction:
# configure CaloCellMaker here
# check LArCellMakerTool_jobOptions.py for full configurability
# FIXME
if rec.doLArg():
from LArCabling.LArCablingAccess import LArOnOffIdMapping
LArOnOffIdMapping()
try:
from LArCellRec.LArCellRecConf import LArCellBuilderFromLArRawChannelTool
theLArCellBuilder = LArCellBuilderFromLArRawChannelTool(
"LArCellBuilder_DigiHSTruth")
theLArCellBuilder.RawChannelsName = "LArRawChannels_DigiHSTruth"
except Exception:
mlog.error(
"could not get handle to LArCellBuilderFromLArRawChannel Quit"
)
print(traceback.format_exc())
return False
if jobproperties.CaloCellFlags.doLArCreateMissingCells():
theLArCellBuilder.addDeadOTX = True
# add the tool to list of tool ( should use ToolHandle eventually)
theCaloCellMaker += theLArCellBuilder
theCaloCellMaker.CaloCellMakerToolNames += [theLArCellBuilder]
if rec.doTile():
try:
from TileRecUtils.TileRecUtilsConf import TileCellBuilder
theTileCellBuilder = TileCellBuilder(
"TileCellBuilder_DigiHSTruth")
theTileCellBuilder.TileRawChannelContainer = "TileRawChannelCnt_DigiHSTruth"
theTileCellBuilder.E4prContainer = "E4prContainer2_DigiHSTruth"
theTileCellBuilder.MBTSContainer = "MBTSContainer2_DigiHSTruth"
theTileCellBuilder.TileDSPRawChannelContainer = "TileRawChannelCnt_DigiHSTruth"
theCaloCellMaker += theTileCellBuilder
theCaloCellMaker.CaloCellMakerToolNames += [
theTileCellBuilder
]
except Exception:
mlog.error("could not get handle to TileCellBuilder Quit")
print(traceback.format_exc())
return False
#
# CaloCellContainerFinalizerTool : closing container and setting up iterators
#
from CaloRec.CaloRecConf import CaloCellContainerFinalizerTool
theCaloCellContainerFinalizerTool = CaloCellContainerFinalizerTool(
"CaloCellContainerFinalizerTool_DigiHSTruth")
theCaloCellMaker += theCaloCellContainerFinalizerTool
theCaloCellMaker.CaloCellMakerToolNames += [
theCaloCellContainerFinalizerTool
]
#
# Mergeing of calo cellcontainer with sparse raw channel container with improved energies
#
doLArMerge = False
if doLArMerge:
try:
from LArCellRec.LArCellRecConf import LArCellMerger
theLArCellMerger = LArCellMerger()
except Exception:
mlog.error("could not get handle to LArCellMerge Quit")
print(traceback.format_exc())
return False
theLArCellMerger.RawChannelsName = larRODFlags.RawChannelFromDigitsContainerName(
)
theCaloCellMaker += theLArCellMerger
theCaloCellMaker.CaloCellMakerToolNames += [theLArCellMerger]
#
# masking of noisy and sporadic noisy cells in LAr
#
doNoiseMask = False
if jobproperties.CaloCellFlags.doLArNoiseMasking.statusOn and jobproperties.CaloCellFlags.doLArNoiseMasking(
):
doNoiseMask = True
doSporadicMask = False
if jobproperties.CaloCellFlags.doLArSporadicMasking.statusOn and jobproperties.CaloCellFlags.doLArSporadicMasking(
):
doSporadicMask = True
if doNoiseMask or doSporadicMask:
try:
from LArCellRec.LArCellRecConf import LArCellNoiseMaskingTool
theLArCellNoiseMaskingTool = LArCellNoiseMaskingTool()
except Exception:
mlog.error(
"could not get handle to LArCellNoiseMaskingTool Quit")
print(traceback.format_exc())
return False
if doSporadicMask:
try:
from LArBadChannelTool.LArBadChannelToolConf import LArBadChannelMasker
theLArSporadicNoiseMasker = LArBadChannelMasker(
"LArSporadicNoiseMasker")
except Exception:
mlog.error("could not access bad channel tool Quit")
print(traceback.format_exc())
return False
theLArSporadicNoiseMasker.DoMasking = True
theLArSporadicNoiseMasker.ProblemsToMask = [
"sporadicBurstNoise"
]
ToolSvc += theLArSporadicNoiseMasker
theLArCellNoiseMaskingTool.MaskingSporadicTool = theLArSporadicNoiseMasker
if doNoiseMask:
try:
from LArBadChannelTool.LArBadChannelToolConf import LArBadChannelMasker
theLArNoiseMasker = LArBadChannelMasker("LArNoiseMasker")
except Exception:
mlog.error("could not access bad channel tool Quit")
print(traceback.format_exc())
return False
theLArNoiseMasker.DoMasking = True
theLArNoiseMasker.ProblemsToMask = [
"highNoiseHG", "highNoiseMG", "highNoiseLG", "deadReadout",
"deadPhys"
]
ToolSvc += theLArNoiseMasker
theLArCellNoiseMaskingTool.MaskingTool = theLArNoiseMasker
theLArCellNoiseMaskingTool.maskNoise = doNoiseMask
theLArCellNoiseMaskingTool.maskSporadic = doSporadicMask
# quality cut for sporadic noise masking
theLArCellNoiseMaskingTool.qualityCut = 4000
theCaloCellMaker += theLArCellNoiseMaskingTool
theCaloCellMaker.CaloCellMakerToolNames += [
theLArCellNoiseMaskingTool
]
#
# masking of Feb problems
#
doBadFebMasking = False
if doBadFebMasking:
try:
from LArCellRec.LArCellRecConf import LArBadFebMaskingTool
theLArBadFebMaskingTool = LArBadFebMaskingTool()
if (
rec.doExpressProcessing()
or athenaCommonFlags.isOnline()
): # In online or express processing, EventInfo::LArError is triggered if >=4 FEB with data corrupted
theLArBadFebMaskingTool.minFebInError = 4
except Exception:
mlog.error("could not get handle to LArBadFebMaskingTool Quit")
print(traceback.format_exc())
return False
theCaloCellMaker += theLArBadFebMaskingTool
theCaloCellMaker.CaloCellMakerToolNames += [
theLArBadFebMaskingTool
]
#
# emulate gain pathologies on MC
#
doGainPathology = False
if jobproperties.CaloCellFlags.doLArCellGainPathology.statusOn and jobproperties.CaloCellFlags.doLArCellGainPathology(
):
if globalflags.DataSource() == 'geant4':
doGainPathology = True
if doGainPathology:
try:
from LArCellRec.LArCellRecConf import LArCellGainPathology
theLArCellGainPathology = LArCellGainPathology()
except Exception:
mlog.error("could not get handle to LArCellGainPatholog< Quit")
print(traceback.format_exc())
return False
theCaloCellMaker += theLArCellGainPathology
theCaloCellMaker.CaloCellMakerToolNames += [
theLArCellGainPathology
]
# lar miscalibration if MC only (should be done after finalisation)
if not jobproperties.CaloCellFlags.doLArCellEmMisCalib.statusOn:
# the flag has not been set, so decide a reasonable default
# this is the old global flags should use the new one as
# soon as monitoring does
doLArCellEmMisCalib = True
mlog.info(
"jobproperties.CaloCellFlags.doLArMisCalib not set and Monte Carlo: apply LArCellEmMisCalibTool"
)
else:
doLArCellEmMisCalib = jobproperties.CaloCellFlags.doLArCellEmMisCalib(
)
if doLArCellEmMisCalib:
mlog.info("LArCellEmMisCalibTool requested")
else:
mlog.info("LArCellEmMisCalibTool explicitly not requested")
if doLArCellEmMisCalib:
try:
from LArCellRec.LArCellRecConf import LArCellEmMiscalib
theLArCellEmMiscalib = LArCellEmMiscalib("LArCellEmMiscalib")
except Exception:
mlog.error("could not get handle to LArCellEmMisCalib Quit")
print(traceback.format_exc())
return False
# examples on how to change miscalibration. Default values are 0.005 and 0.007
# theLArCellEmMiscalib.SigmaPerRegion = 0.005
# theLArCellEmMiscalib.SigmaPerCell = 0.005
ToolSvc += theLArCellEmMiscalib
try:
from CaloRec.CaloRecConf import CaloCellContainerCorrectorTool
from CaloIdentifier import SUBCALO
theMisCalibTool = CaloCellContainerCorrectorTool(
"MisCalibTool",
CaloNums=[SUBCALO.LAREM],
CellCorrectionToolNames=[theLArCellEmMiscalib])
except Exception:
mlog.error("could not get handle to MisCalibTool Quit")
print(traceback.format_exc())
return False
theCaloCellMaker += theMisCalibTool
theCaloCellMaker.CaloCellMakerToolNames += [theMisCalibTool]
#
# Pedestal shift correction
#
doPedestalCorr = False
if jobproperties.CaloCellFlags.doPedestalCorr.statusOn:
if jobproperties.CaloCellFlags.doPedestalCorr() and (
jobproperties.CaloCellFlags.doPileupOffsetBCIDCorr):
doPedestalCorr = True
mlog.info("Apply cell level pedestal shift correction")
if doPedestalCorr:
try:
from CaloCellCorrection.CaloCellPedestalCorrDefault import CaloCellPedestalCorrDefault
theCaloCellPedestalCorr = CaloCellPedestalCorrDefault()
theCaloCellMaker += theCaloCellPedestalCorr
theCaloCellMaker.CaloCellMakerToolNames += [
theCaloCellPedestalCorr
]
except Exception:
mlog.error("could not get handle to CaloCellPedestalCorr")
print(traceback.format_exc())
#
# Correction for MinBias energy shift for MC pileup reco
#
doMinBiasAverage = False
if jobproperties.CaloCellFlags.doMinBiasAverage.statusOn:
from AthenaCommon.BeamFlags import jobproperties
if jobproperties.CaloCellFlags.doMinBiasAverage(
) and globalflags.DataSource() == 'geant4' and (
not jobproperties.Beam.zeroLuminosity()):
doMinBiasAverage = True
if doMinBiasAverage:
try:
from CaloTools.CaloMBAverageToolDefault import CaloMBAverageToolDefault
theCaloMBAverageTool = CaloMBAverageToolDefault()
except Exception:
mlog.error("could not get handle to CaloMBAverageTool Quit")
print(traceback.format_exc())
return False
ToolSvc += theCaloMBAverageTool
try:
from CaloCellCorrection.CaloCellCorrectionConf import CaloCellMBAverageCorr
theCaloCellMBAverageCorr = CaloCellMBAverageCorr(
"CaloCellMBAverageCorr")
theCaloCellMBAverageCorr.CaloMBAverageTool = theCaloMBAverageTool
except Exception:
mlog.error(
"could not get handle to CaloCellMBAverageCorr Quit")
print(traceback.format_exc())
return False
ToolSvc += theCaloCellMBAverageCorr
try:
from CaloRec.CaloRecConf import CaloCellContainerCorrectorTool
from CaloIdentifier import SUBCALO
theMBAverageTool = CaloCellContainerCorrectorTool(
"MBAverageTool",
CaloNums=[SUBCALO.NSUBCALO],
CellCorrectionToolNames=[theCaloCellMBAverageCorr])
except Exception:
mlog.error(
"could not get handle to CaloCellContainerCorrectorTool/MBAverageTool Quit"
)
print(traceback.format_exc())
return False
theCaloCellMaker += theMBAverageTool
theCaloCellMaker.CaloCellMakerToolNames += [theMBAverageTool]
#
# Correction for dead cells, where we average the energy density of neighbor cells
#
doNeighborsAverage = False
if jobproperties.CaloCellFlags.doDeadCellCorr.statusOn:
if jobproperties.CaloCellFlags.doDeadCellCorr():
doNeighborsAverage = True
if doNeighborsAverage:
try:
from CaloCellCorrection.CaloCellCorrectionConf import CaloCellNeighborsAverageCorr
theCaloCellNeighborsAverageCorr = CaloCellNeighborsAverageCorr(
"CaloCellNeighborsAverageCorr")
theCaloCellNeighborsAverageCorr.testMode = False
except Exception:
mlog.error(
"could not get handle to CaloCellNeighborsAverageCorr Quit"
)
print(traceback.format_exc())
return False
theCaloCellMaker += theCaloCellNeighborsAverageCorr
theCaloCellMaker.CaloCellMakerToolNames += [
theCaloCellNeighborsAverageCorr
]
#
# correction for missing Febs based on L1 readout
doLArDeadOTXCorr = False
if jobproperties.CaloCellFlags.doLArDeadOTXCorr.statusOn and jobproperties.CaloCellFlags.doLArCreateMissingCells.statusOn:
if jobproperties.CaloCellFlags.doLArDeadOTXCorr(
) and jobproperties.CaloCellFlags.doLArCreateMissingCells(
) and doStandardCellReconstruction:
if rec.doTrigger():
doLArDeadOTXCorr = True
else:
mlog.warning(
"Trigger is switched off. Can't run deadOTX correction."
)
if doLArDeadOTXCorr:
try:
from LArCellRec.LArCellDeadOTXCorrToolDefault import LArCellDeadOTXCorrToolDefault
theLArCellDeadOTXCorr = LArCellDeadOTXCorrToolDefault()
except Exception:
mlog.error("could not get handle to LArCellDeadOTXCorr Quit")
print(traceback.format_exc())
theCaloCellMaker += theLArCellDeadOTXCorr
theCaloCellMaker.CaloCellMakerToolNames += [theLArCellDeadOTXCorr]
# make lots of checks (should not be necessary eventually)
# to print the check add:
from CaloRec.CaloRecConf import CaloCellContainerCheckerTool
theCaloCellContainerCheckerTool = CaloCellContainerCheckerTool()
# FIXME
# theCaloCellContainerCheckerTool.OutputLevel=DEBUG
theCaloCellMaker += theCaloCellContainerCheckerTool
theCaloCellMaker.CaloCellMakerToolNames += [
theCaloCellContainerCheckerTool
]
# sets output key
theCaloCellMaker.CaloCellsOutputName = self.outputKey()
# register output in objKeyStore
from RecExConfig.ObjKeyStore import objKeyStore
objKeyStore.addStreamESD(self.outputType(), self.outputKey())
# Also note that we produce it as a transient output.
objKeyStore.addTransient(self.outputType(), self.outputKey())
from TileRecUtils.TileDQstatusAlgDefault import TileDQstatusAlgDefault
TileDQstatusAlgDefault()
# now add algorithm to topSequence
# this should always come at the end
mlog.info(" now adding CaloCellMaker to topSequence")
from AthenaCommon.AlgSequence import AlgSequence
topSequence = AlgSequence()
topSequence += theCaloCellMaker
return True
