signalStream.ItemList += ["LArTTL1Container#*"]
signalStream.ItemList += ["TileTTL1Container#*"]
signalStream.ItemList += [
"ROIB::RoIBResult#*", "MuCTPI_RDO#*", "CTP_RDO#*",
"DataVector<LVL1::TriggerTower>#*", "DataVector<LVL1::CPMTower>#*",
"DataVector<LVL1::JetElement>#*", "DataVector<LVL1::CPMHits>#*",
"DataVector<LVL1::CPMRoI>#*", "DataVector<LVL1::CMMCPHits>#*",
"DataVector<LVL1::CMMJetHits>#*", "DataVector<LVL1::CMMEtSums>#*",
"DataVector<LVL1::JEMHits>#*", "DataVector<LVL1::JEMRoI>#*",
"DataVector<LVL1::JEMEtSums>#*", "LVL1::CMMRoI#*"
]
#options for writing the MetaData into the output file
MetaDataStore = ServiceMgr.MetaDataStore
from AthenaPoolCnvSvc.WriteAthenaPool import AthenaPoolOutputStream
StreamRDO_MC_FH = AthenaPoolOutputStream("StreamRDO_MC_FH")
from AthenaCommon.AthenaCommonFlags import jobproperties
StreamRDO_MC_FH.OutputFile = "ROOTTREE:" + SignalCollection
StreamRDO_MC_FH.Store = MetaDataStore
StreamRDO_MC_FH.WriteOnExecute = False
StreamRDO_MC_FH.WriteOnFinalize = True
# Write all IOV meta data containers
StreamRDO_MC_FH.ItemList += ["IOVMetaDataContainer#*"]
StreamRDO_MC_FH.ItemList += ["LumiBlockCollection#*"]
from OutputStreamAthenaPool.OutputStreamAthenaPoolConf import AthenaPoolOutputStreamTool
StreamRDO_MC_FHTool = AthenaPoolOutputStreamTool("StreamRDO_MC_FHTool")
StreamRDO_MC_FHTool.OutputCollection = "MetaDataHdr"
StreamRDO_MC_FHTool.PoolContainerPrefix = "MetaData"
StreamRDO_MC_FH.WritingTool = StreamRDO_MC_FHTool
def __init__(self,
name='LArShapeDumper',
digitsKey='FREE',
noiseSignifCut=3,
doStream=False,
doShape=True,
doTrigger=True,
doOFCIter=True,
prescale=1,
triggerNames=triggersToCheck,
caloType='EMHECFCAL',
dumpChannelInfos=False,
addToAlgSeq=True):
super(LArShapeDumper, self).__init__(name)
theDumperTool = DefaultShapeDumperTool(doShape=doShape)
self.LArShapeDumperTool = theDumperTool
if doStream:
from AthenaPoolCnvSvc.WriteAthenaPool import AthenaPoolOutputStream
StreamLArSamples = AthenaPoolOutputStream('StreamLArSamples',
'LArSamples.root', True)
topSequence.StreamLArSamples.ItemList += [
'LArSamplesContainer#Samples'
]
topSequence.StreamLArSamples_FH.ItemList += [
'LArSamplesContainer#Samples'
]
StreamLArSamples.WriteOnExecute = False
StreamLArSamples.WriteOnFinalize = True
else:
from AthenaCommon.AppMgr import ServiceMgr as svcMgr
svcMgr.AthenaSealSvc.DictNames += ["LArCafJobsDict"]
self.CaloType = caloType
self.Prescale = prescale
self.NoiseSignifCut = noiseSignifCut
self.DoTrigger = doTrigger
self.DoStream = doStream
self.DoOFCIter = doOFCIter
self.DumpChannelInfos = dumpChannelInfos
self.DumpDisconnected = dumpChannelInfos
#self.ChannelsKey = 'LArRawChannels_FromDigits'
self.ChannelsKey = 'LArRawChannels'
self.TriggerNames = triggerNames
from AthenaCommon.AppMgr import ToolSvc
from LArRecUtils.LArADC2MeVToolDefault import LArADC2MeVToolDefault
theADC2MeVTool = LArADC2MeVToolDefault()
ToolSvc += theADC2MeVTool
self.ADC2MeVTool = theADC2MeVTool
if doShape:
from IOVDbSvc.CondDB import conddb
conddb.addFolder(
'LAR_OFL',
'/LAR/ElecCalibOfl/AutoCorrs/AutoCorr<tag>LARElecCalibOflAutoCorrsAutoCorr-RUN2-UPD3-00</tag>'
)
# use the shapes without residual corrections by default (makes it easier to compute new residuals)
conddb.addOverride(
'/LAR/ElecCalibOfl/Shape/RTM/5samples1phase',
'LARElecCalibOflShapeRTM5samples1phase-RUN2-UPD1-04')
masker = LArBadChannelMasker('LArBadChannelMasker')
masker.DoMasking = True
masker.ProblemsToMask = [
'deadReadout', 'deadPhys', 'almostDead', 'short', 'highNoiseHG',
'highNoiseMG', 'highNoiseLG'
]
self.BadChannelMasker = masker
self.DigitsKey = digitsKey
if doOFCIter:
from AthenaCommon.AppMgr import ToolSvc
if hasattr(ToolSvc, 'LArRawChannelBuilderToolOFCIter'):
ToolSvc.LArRawChannelBuilderToolOFCIter.StoreTiming = True
if addToAlgSeq:
from AthenaCommon.AlgSequence import AlgSequence
topSequence = AlgSequence()
topSequence += self
print self