Ejemplo n.º 1
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 def __set_init_time__(self, utcDatetime):
     """
     Configure the initialization time,
     depends on the value of self.IntitialTime
     Default: using the lower between the proposed time and the current time
     'Now' : use the higher between the current time and the proposed time
     dateime : use this datetime
     """
     #default situation
     if self.getProp("InitialTime").lower()=="safe" or not len(self.getProp("InitialTime")):
         #default situation
         utcDatetime = min(datetime.utcnow(), utcDatetime)
     elif self.getProp("InitialTime").lower()=="now":
         #Moore!
         utcDatetime = max(datetime.utcnow(), utcDatetime)
     else:
         raise TypeError("DDDBConf.InitialTime, I don't have a good way to convert "+self.getProp("InitialTime")+" to a datetime, please use 'Now' or 'Safe'")
     from Configurables import EventClockSvc
     ecs = EventClockSvc()
     # do not overwrite already set values
     if not ecs.isPropertySet("InitialTime"):
         dt = utcDatetime - datetime(1970, 1, 1, 0)
         ns = (dt.days * 24 * 60 * 60 + dt.seconds) * 1000000000
         ecs.InitialTime = ns
     else:
         t = datetime(1970, 1, 1, 0) + timedelta(seconds=ecs.InitialTime/1000000000)
         log.warning("EventClockSvc().InitialTime already set to %s UTC (requested %s UTC)",
                     t.isoformat(), utcDatetime.isoformat())
Ejemplo n.º 2
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def patchEscher(true_online_version, alignment_module, n=-1):
    import GaudiConf.DstConf
    import Escher.Configuration
    from Configurables import MagneticFieldSvc
    from Configurables import TAlignment
    from TAlignment.VertexSelections import configuredPVSelection
    Online = importOnline()

    from Configurables import EventClockSvc
    initialTime = long(time.time() * 1e9)
    clkSvc = EventClockSvc()
    clkSvc.InitialTime = initialTime

    from Gaudi.Configuration import appendPostConfigAction
    appendPostConfigAction(fakeEventTime(initialTime))

    TAlignment().RunList = Online.DeferredRuns if hasattr(
        Online, "DeferredRuns") else []
    sys.stdout.flush()
    sys.stderr.flush()
    escher = EscherCommon(true_online_version, alignment_module)
    hostname = HostName()
    escher.InputType = "MDF"
    escher.PrintFreq = 10000
    #   escher.EvtMax=300
    #   asddir = Online.ASDDir + "/" if hasattr(Online, "ASDDir") else "/group/online/alignment/EscherOut/"
    asddir = Online.ASDDir + "/" if hasattr(
        Online, "ASDDir") else "/calib/align/EscherOut/"
    if n == -1:
        suffix = "_Escher.out"
    else:
        suffix = ("_%02d_Escher.out" % n)
    TAlignment().OutputDataFile = asddir + hostname + suffix
    TAlignment().UpdateInFinalize = False
    return escher
Ejemplo n.º 3
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    def __call__(self):
        from Configurables import EventClockSvc, FakeEventTime
        clkSvc = EventClockSvc()
        clkSvc.EventTimeDecoder = "FakeEventTime"
        clkSvc.addTool(FakeEventTime, "FakeEventTime")
        clkSvc.FakeEventTime.StartTime = self.__initialTime + 1

        from Configurables import GaudiSequencer, createODIN
        initSeq = GaudiSequencer("InitEscherSeq")
        initSeq.Members.insert(0, createODIN())
Ejemplo n.º 4
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def configureEventTime():
    """
    Configure EventClockSvc to get event time from RecHeader first
    and then from ODIN in case of failure.
    Returns EventClockSvs()
    Author: Marco Clemencic.
    """
    #turn off setting that's done in DecodeRawEvent first
    DecodeRawEvent().EvtClockBank = ""
    ecs = EventClockSvc()
    ecs.addTool(TimeDecoderList, "EventTimeDecoder")
    tdl = ecs.EventTimeDecoder
    tdl.addTool(RecEventTime)
    tdl.addTool(OdinTimeDecoder)
    tdl.Decoders = [tdl.RecEventTime, tdl.OdinTimeDecoder]
    return ecs
Ejemplo n.º 5
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    def _configureInput(self):
        """
        Tune initialisation 
        """

        # Input data type
        inputType = self.getProp("InputType").upper()

        # Get the event time (for CondDb) from ODIN
        from Configurables import EventClockSvc
        EventClockSvc().EventTimeDecoder = "OdinTimeDecoder"

        # if property set explcicitly - use it!
        if self.isPropertySet('EnableUnpack'):
            unPack = self.getProp('EnableUnpack')
            DstConf(EnableUnpack=unPack)
            PhysConf(EnableUnpack=unPack)
        elif inputType != "MDF":
            defaultUnpacking = ["Reconstruction", "Stripping"]
            DstConf(EnableUnpack=defaultUnpacking)
            PhysConf(EnableUnpack=defaultUnpacking)
        if inputType != "MDST":
            if self.getProp("Simulation"):
                DstConf().setProp("SimType", "Full")
        return inputType
Ejemplo n.º 6
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def doIt():
    """
    specific post-config action for (x)GEN-files 
    """
    extension = "xgen"
    ext = extension.upper()

    from Configurables import DataOnDemandSvc
    dod  = DataOnDemandSvc ()
    from copy import deepcopy 
    algs = deepcopy ( dod.AlgMap ) 
    bad  = set() 
    for key in algs :
        if     0 <= key.find ( 'Rec'     )                  : bad.add ( key )
        elif   0 <= key.find ( 'Raw'     )                  : bad.add ( key )
        elif   0 <= key.find ( 'DAQ'     )                  : bad.add ( key )
        elif   0 <= key.find ( 'Trigger' )                  : bad.add ( key )
        elif   0 <= key.find ( 'Phys'    )                  : bad.add ( key )
        elif   0 <= key.find ( 'Prev/'   )                  : bad.add ( key )
        elif   0 <= key.find ( 'Next/'   )                  : bad.add ( key )
        elif   0 <= key.find ( '/MC/'    ) and 'GEN' == ext : bad.add ( key )
    for b in bad :
        del algs[b]

    dod.AlgMap = algs

    from Configurables import EventClockSvc, CondDB 
    EventClockSvc ( EventTimeDecoder = "FakeEventTime" )
    CondDB  ( IgnoreHeartBeat = True )
Ejemplo n.º 7
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    def configureInput(self, inputType):
        """
        Tune initialisation according to input type
        """

        # By default, Brunel only needs to open one input file at a time
        # Only set to zero if not previously set to something else.
        if not IODataManager().isPropertySet("AgeLimit") : IODataManager().AgeLimit = 0

        if self._isReprocessing(inputType):
            # Kill knowledge of any previous Brunel processing
            from Configurables import ( TESCheck, EventNodeKiller )
            InitReprocSeq = GaudiSequencer( "InitReprocSeq" )
            if ( self.getProp("WithMC") and inputType in ["XDST","DST"] ):
                # Load linkers, to kill them (avoid appending to them later)
                InitReprocSeq.Members.append( "TESCheck" )
                TESCheck().Inputs = ["Link/Rec/Track/Best"]
            killer = EventNodeKiller()
            killer.Nodes += [ "Raw", "Link/Rec" ]
            if self.getProp("SkipTracking"):
                killer.Nodes += [ "pRec/Rich", "pRec/Muon", "pRec/Calo", "pRec/Track/Muon", "pRec/ProtoP" ]
            else:
                killer.Nodes += [ "pRec", "Rec" ]
            InitReprocSeq.Members.append( killer )
            ### see configureOutput to see how the remainder of the juggler is configured
            
        # Get the event time (for CondDb) from ODIN
        from Configurables import EventClockSvc
        EventClockSvc().EventTimeDecoder = "OdinTimeDecoder";
Ejemplo n.º 8
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    def _gen_postconfig_():
        """
        specific post-config action for (x)GEN-files 
        """
        logger.info('Start post-config action for (x)gen-files')
        from Configurables import DataOnDemandSvc
        dod = DataOnDemandSvc()
        from copy import deepcopy
        algs = deepcopy(dod.AlgMap)
        bad = set()
        for key in algs:
            if 0 <= key.find('Rec'): bad.add(key)
            elif 0 <= key.find('Raw'): bad.add(key)
            elif 0 <= key.find('DAQ'): bad.add(key)
            elif 0 <= key.find('Trigger'): bad.add(key)
            elif 0 <= key.find('Phys'): bad.add(key)
            elif 0 <= key.find('Prev/'): bad.add(key)
            elif 0 <= key.find('Next/'): bad.add(key)
            elif 0 <= key.find('/MC/') and 'GEN' == ext: bad.add(key)

        for b in bad:
            logger.debug('Remove key from DataOnDemand actions %s' % key)
            del algs[b]

        logger.info('Remove %d keys from DataOnDemand actions ' % len(bad))
        dod.AlgMap = algs

        from Configurables import EventClockSvc, CondDB
        EventClockSvc(EventTimeDecoder="FakeEventTime")
        logger.info('Use fake event time decoder for (x)gen-files')
        CondDB(IgnoreHeartBeat=True)
        logger.info('Ignore Heart-beat for (x)gen-files')
Ejemplo n.º 9
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def configure():
    from Gaudi.Configuration import (ApplicationMgr, MessageSvc, ERROR)
    from Configurables import DDDBConf, CondDB, CondDBAccessSvc, EventClockSvc, FakeEventTime
    dddbConf = DDDBConf()
    cdb = CondDB()

    cdb.PartitionConnectionString[
        "DQFLAGS"] = "sqlite_file:../data/DQFLAGS.db/DQFLAGS"
    cdb.Tags["DQFLAGS"] = ""

    ecs = EventClockSvc(InitialTime=toTimeStamp(datetime(2012, 1, 1, 12)))
    ecs.addTool(FakeEventTime, "EventTimeDecoder")
    ecs.EventTimeDecoder.StartTime = ecs.InitialTime
    ecs.EventTimeDecoder.TimeStep = toTimeStamp(timedelta(days=1))

    ApplicationMgr(TopAlg=["LoadDDDB"], EvtSel="NONE")
    MessageSvc(OutputLevel=ERROR)
Ejemplo n.º 10
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def patchBrunel(true_online_version):
    """
        Instantiate the options to run Brunel with raw data

        @author M.Frank
  """
    import Brunel.Configuration
    import OnlineEnv

    brunel = Brunel.Configuration.Brunel()
    brunel.OnlineMode = True
    try:
        brunel.DDDBtag = OnlineEnv.DDDBTag
    except:
        print "DDDBTag not found, use default"

    try:
        brunel.CondDBtag = OnlineEnv.CondDBTag
    except:
        print "CondDBTag not found, use default"

    conddb = CondDB()
    conddb.IgnoreHeartBeat = True
    #
    # Adjust to pickup the proper online conditions
    #
    import Online as RunChange_All
    conddb.setProp('RunChangeHandlerConditions', RunChange_All.ConditionMap)
    conddb.setProp('EnableRunChangeHandler', True)
    #
    # Brunel output configuration
    #
    brunel.WriteFSR = False  # This crashes Jaap's stuff
    brunel.DataType = "2013"
    brunel.OutputType = ''

    EventLoopMgr().OutputLevel = MSG_DEBUG  #ERROR
    EventLoopMgr().Warnings = False

    from Configurables import EventClockSvc
    EventClockSvc().InitialTime = 1322701200000000000

    brunel.UseDBSnapshot = True  # try it
    #  brunel.PartitionName = "FEST"
    # Hack by Chris
    print "# Warning using CKThetaQuartzRefractCorrections = [ 0,-0.0001,0 ]"
    from Configurables import RichRecSysConf
    rConf = RichRecSysConf("RichOfflineRec")
    rConf.richTools().photonReco().CKThetaQuartzRefractCorrections = [
        0, -0.001, 0
    ]
    brunel.OutputLevel = MSG_WARNING
    brunel.PrintFreq = -1
    HistogramPersistencySvc().OutputFile = ""
    HistogramPersistencySvc().OutputLevel = MSG_ERROR

    #print brunel
    return brunel
Ejemplo n.º 11
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 def defineDB(self):
     # Delegate handling of properties to DDDBConf
     self.setOtherProps(DDDBConf(), ["Simulation", "DataType"])
     # Set CondDB tags if given, otherwise use default defined in DDDBConf
     from Configurables import CondDB
     if hasattr(self, "DDDBtag"):
         CondDB().Tags["DDDB"] = self.getProp("DDDBtag")
     if hasattr(self, "CondDBtag"):
         CondDB().Tags["LHCBCOND"] = self.getProp("CondDBtag")
         CondDB().Tags["SIMCOND"] = self.getProp("CondDBtag")
     if hasattr(self, "DQFLAGStag"):
         CondDB().Tags["DQFLAGS"] = self.getProp("DQFLAGStag")
     # Set up a time decoder for real data (Simulation uses FakeEventTime)
     if not self.getProp("Simulation"):
         from Configurables import EventClockSvc
         ecs = EventClockSvc()
         # do not overwrite already set values
         if not ecs.isPropertySet("EventTimeDecoder"):
             ecs.EventTimeDecoder = "OdinTimeDecoder"
Ejemplo n.º 12
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def configMonitor():
    import os
    from Gaudi.Configuration import EventPersistencySvc, HistogramPersistencySvc
    from Configurables import (LHCbApp,
                               LHCb__RawDataCnvSvc,
                               GaudiSequencer,
                               UpdateAndReset,
                               createODIN,
                               ApplicationMgr )

    app = LHCbApp()
    app.DataType = '2015'
    app.EvtMax = -1

    EventPersistencySvc().CnvServices.append( LHCb__RawDataCnvSvc('RawDataCnvSvc') )
    HistogramPersistencySvc().OutputFile = ''
    HistogramPersistencySvc().Warnings = False

    UpdateAndReset().saveHistograms = 1
    #UpdateAndReset().saverCycle     = 3600

    from Configurables import EventClockSvc
    EventClockSvc().EventTimeDecoder = 'OdinTimeDecoder'

    appMgr = ApplicationMgr()

    # Decoder
    from Configurables import HCRawBankDecoder
    decoder = HCRawBankDecoder()
    decoder.Monitoring = True

    # Monitor
    from Configurables import HCDigitMonitor
    monitor = HCDigitMonitor()
    monitor.CrateB = 0
    monitor.CrateF = 1
    monitor.ChannelsB0 = [47, 46, 45, 44]
    monitor.ChannelsB1 = [23, 22, 21, 20]
    monitor.ChannelsB2 = [11, 10,  9,  8]
    monitor.ChannelsF1 = [23, 22, 21, 46]
    monitor.ChannelsF2 = [11, 10,  9,  8]

    # Top level sequence
    topSeq = GaudiSequencer("TopSequence")
    topSeq.Members = [createODIN(), decoder, monitor]

    appMgr.TopAlg = [topSeq]
    return app, monitor
Ejemplo n.º 13
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def SetEvtClock(bank, db=None):
    """
    Add specific decoder to EvtClockSvc, replace disparate code
    """
    if db is None:
        from DAQSys.Decoders import DecoderDB
        db = DecoderDB
    from DAQSys.DecoderClass import decodersForBank
    odinconfs = decodersForBank(db, bank)
    if len(odinconfs):
        #force to take the same public tool
        publicTool = odinconfs[0].PublicTools[0]
        from Configurables import EventClockSvc
        #force it to use the same public tool as the rest of the ODIN decoding
        EventClockSvc(EventTimeDecoder=publicTool.replace("ToolSvc.", "") +
                      ":PUBLIC")
Ejemplo n.º 14
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    def _setup_rch(self):
        # Setup DB snapshot and RCH
        from Configurables import EventClockSvc
        EventClockSvc().EventTimeDecoder = 'OdinTimeDecoder'

        tag = {
            "DDDB": self._config['DDDBtag'],
            "LHCBCOND": self._config['CondDBtag'],
            "ONLINE": 'fake'
        }

        baseloc = '/group/online/hlt/conditions'
        from Configurables import CondDB
        conddb = CondDB()
        # hack to allow us to chance connectionstrings...
        conddb.Online = True
        # Set alternative connection strings and tags
        # (see Det/DetCond's configurable... )
        dbPartitions = ["DDDB", "LHCBCOND", "ONLINE"]
        for part in dbPartitions:
            if tag[part] is 'default':
                raise KeyError('must specify an explicit %s tag' % part)
            conddb.PartitionConnectionString[
                part] = "sqlite_file:%(dir)s/%(part)s_%(tag)s.db/%(part)s" % {
                    "dir": baseloc,
                    "part": part,
                    "tag": tag[part]
                }
            conddb.Tags[part] = tag[part]

        # Set the location of the Online conditions
        from Configurables import MagneticFieldSvc
        MagneticFieldSvc().UseSetCurrent = True

        online_xml = '%s/LHCb/2015/%%d/online.xml' % baseloc
        from Configurables import RunChangeHandlerSvc
        rch = RunChangeHandlerSvc()
        rch.Conditions = {
            "Conditions/Online/LHCb/Magnet/Set": online_xml,
            "Conditions/Online/Velo/MotionSystem": online_xml,
            "Conditions/Online/LHCb/Lumi/LumiSettings": online_xml,
            "Conditions/Online/LHCb/RunParameters": online_xml,
            "Conditions/Online/Rich1/R1HltGasParameters": online_xml,
            "Conditions/Online/Rich2/R2HltGasParameters": online_xml
        }
        ApplicationMgr().ExtSvc.append(rch)
Ejemplo n.º 15
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LHCbApp().XMLSummary = 'summary.xml'
#-- set explicit CondDB tag
LHCbApp().CondDBtag = 'cond-20141002'

#--- determine application to run
from Configurables import LumiAlgsConf, DumpFSR
from LumiAlgs.LumiIntegratorConf import LumiIntegratorConf

#-- cannot test this in REC due to dependence on PropertyConfigSvc (TCK)
## LumiIntegratorConf().UseOnline = False
LumiIntegratorConf().UseOnline = True

# clock service for CondDB
from Configurables import EventClockSvc
EventClockSvc().EventTimeDecoder = "OdinTimeDecoder"

# standard sequence from configurable
LumiAlgsConf().LumiSequencer = GaudiSequencer("LumiSeq", ShortCircuit=False)
LumiAlgsConf().InputType = 'DST'
LumiAlgsConf().OutputLevel = INFO

# standard sequence from configurable
LumiIntegratorConf().LumiSequencer = GaudiSequencer("LumiIntSeq",
                                                    ShortCircuit=False)

#-- main
ApplicationMgr(
    TopAlg=[
        GaudiSequencer("LumiSeq"),
        GaudiSequencer("LumiIntSeq"),
Ejemplo n.º 16
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list_conditions = sum(ConditionMap.values(),[])

# Configure Brunel
from Configurables import LHCbApp
app = LHCbApp()
app.DataType = '2015'
app.Simulation = False
app.EvtMax = 1

import HLT2Params
app.DDDBtag = HLT2Params.DDDBTag
app.CondDBtag = HLT2Params.CondDBTag


from Configurables import EventClockSvc, FakeEventTime, EventDataSvc
ecs = EventClockSvc()
ecs.InitialTime = arguments.start[0]
ecs.addTool(FakeEventTime, "EventTimeDecoder")
ecs.EventTimeDecoder.TimeStep = 10
ecs.EventTimeDecoder.StartTime = arguments.start[0]

from Configurables import DumpConditions
DumpConditions().RunStartTime = arguments.start[0]
DumpConditions().RunNumber = arguments.run[0]
DumpConditions().OutFile= arguments.output[0]
DumpConditions().Conditions = list_conditions

from Configurables import CondDB
cdb = CondDB()
if arguments.online:
    import CondMap
Ejemplo n.º 17
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dets = []
for i in range(len(ks)):
  k = ks[i]
  excl=False;
  for j in range(len(excludeFiles)):
    if k.find(excludeFiles[j]) >= 0:
      excl = True
      break
  if excl :
    continue
  detxml = k[k.rfind('/')+1:]
  det = detxml[:detxml.rfind('.xml')]
  det = det.lower()
  dets.append(det)
print "Moving to Offline DB the following detector Data ",dets
ecs = EventClockSvc()
ecs.InitialTime = RunOption.RunStartTime*1000000000
ecs.addTool(FakeEventTime,"EventTimeDecoder")
ecs.EventTimeDecoder.StartTime = ecs.InitialTime
ecs.EventTimeDecoder.TimeStep = 10

#xmlCnvSvc = XmlCnvSvc(AllowGenericConversion = True)
DDDBConf()
#detDataSvc = DetectorDataSvc()
#DetectorPersistencySvc( CnvServices = [ xmlCnvSvc ] )
cdb = CondDB()
cdb.RunChangeHandlerConditions=CondMap.ConditionMap
cdb.EnableRunChangeHandler = True
cdb.EnableRunStampCheck=False
cdb.UseDBSnapshot = True
cdb.Tags = { "DDDB" : RunOption.DDDBTag,
Ejemplo n.º 18
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Time2 = time.mktime(time.strptime(Date2, "%Y-%m-%d %H:%M:%S"))
TimeStep = Time2 - StartTime

EndTime = time.mktime(time.localtime())

print "Start Time", int(StartTime) * 1000000000
print "End Time", int(EndTime) * 1000000000
print "Time steps", int(TimeStep) * 1000000000

nSteps = (EndTime - StartTime) / TimeStep
print "This time range requires", int(nSteps), "steps"

# have to convert time from s to ns since the epoch
ApplicationMgr().EvtMax = int(nSteps)
ApplicationMgr().OutputLevel = DEBUG
EventClockSvc().EventTimeDecoder = 'FakeEventTime'
EventClockSvc().InitialTime = int(StartTime) * 1000000000
from Configurables import FakeEventTime
EventClockSvc().addTool(FakeEventTime)
# required to add step otherwise 2nd event has the same time in the EventClockSvc as the initial time
EventClockSvc().FakeEventTime.StartTime = int(StartTime) * 1000000000 + int(
    TimeStep) * 1000000000
EventClockSvc().FakeEventTime.TimeStep = int(TimeStep) * 1000000000
EventClockSvc().OutputLevel = 2

from Configurables import STPerformanceMonitor, ST__STActiveFraction
ttFraction = ST__STActiveFraction("TTActiveFraction")
ttFraction.DetType = "TT"
ttFraction.StartTime = int(StartTime) * 1000000000
ttFraction.TimeStep = int(TimeStep) * 1000000000
ttFraction.Steps = int(nSteps)
from Configurables import LHCbApp
#LHCbApp().DDDBtag   = "head-20120413"
#LHCbApp().CondDBtag = "cond-20120730"

#LHCbApp().Simulation = simulation

#if simulation :
#    LHCbApp().DDDBtag   = "dddb-20120831"
#    LHCbApp().CondDBtag = "sim-20121025-vc-md100"
#else :
LHCbApp().DDDBtag = "default"
LHCbApp().CondDBtag = "default"

import time
from Configurables import EventClockSvc
EventClockSvc().InitialTime = int((time.time() - 3600) * 1e9)

#databases from Wouter (the monolayer alignment will be in the
#default database)
# path_monolayer = "/afs/cern.ch/user/w/wouter/public/AlignDB/"
# ddbs = []
# ddbs.append(path_monolayer + "OTMonoGeometry.db/DDDB")
# ddbs.append(path_monolayer + "OTMonoCatalog.db/LHCBCOND")
# ddbs.append(path_monolayer + "OTMonoAlign20141225.db/LHCBCOND")

# ddbs.append(path_monolayer + "OTGeometryT0.db/DDDB")
# ddbs.append(path_monolayer + "OTCondT0.db/LHCBCOND")

# counter = 1
# for db in ddbs:
#      from Configurables import ( CondDB, CondDBAccessSvc )
#   gaudirun.py Brunel-Cosmics.py 2008-Cosmic-Data.py
#
from Gaudi.Configuration import *
from Configurables import Escher, LHCbApp, TrackSys, EventClockSvc

#-- File catalogs. First one is read-write
FileCatalog().Catalogs = ["xmlcatalog_file:MyCatalog.xml"]

#-- Use latest database tags for real data
LHCbApp().DDDBtag = "default"
LHCbApp().CondDBtag = "default"
LHCbApp().DDDBtag = "HEAD"
LHCbApp().CondDBtag = "HEAD"

#-- Set a reasonable time for the first event
EventClockSvc().InitialTime = 1260350949785664000

from Configurables import (CondDB, CondDBAccessSvc)
otCalib = CondDBAccessSvc('OTCalib')
#otCalib.ConnectionString = 'sqlite_file:/afs/cern.ch/user/w/wouter/public/AlignDB/ConditionsOTCalibration.db/LHCBCOND'
#otCalib.ConnectionString = 'sqlite_file:/afs/cern.ch/user/w/wouter/public/AlignDB/CalibrationOTQuarterT0s_071209.db/LHCBCOND'
otCalib.ConnectionString = 'sqlite_file:/afs/cern.ch/user/a/akozlins/public/OT/LHCBCOND/Collision09_OT_ModuleT0s_220110_sigma4ns.db/LHCBCOND'
CondDB().addLayer(otCalib)

# Latest cosmic run, with CALO, OT and (!!) RICH2 (35569 events)
Escher().DatasetName = 'collisions'
Escher().InputType = 'MDF'

#EventSelector().Input.append("DATA='castor:/castor/cern.ch/grid/lhcb/data/2009/RAW/FULL/LHCb/BEAM1/62558/062558_0000000001.raw'  SVC='LHCb::MDFSelector'")
#import os
#runnr = os.environ['COSMICSRUNNR']
Ejemplo n.º 21
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def extractAlignmentParameters(
        elementsWithTESAndCondDBNodes,
        since,
        until,
        valueExtractor=lambda detElm: getGlobalPositionFromGeometryInfo(
            detElm.geometry()),
        DDDBtag="default",
        CondDBtag="default",
        alignDBs=[]):
    """
    The method talking to the detector svc

    Extract from all DetectorElements down from each element in elementsWithTESAndCondDBNodes
    ( format { elm : ( detTES, [ condDBNode ] ) } ), alignment parameters using valueExtractor,
    for all iovs between since and until (datetimes), using the CondDBNodes.
    The default database is configured with database tags DDDBtag and CondDBtag,
    and all alignDBs [ (tag, connectString) ] are added as layers to the CondDB.

    Returns a dict { element : [ ( (iovBegin, iovEnd), alignmentTree ) ] }
    """
    # Static configuration of the application manager
    from Configurables import LHCbApp, ApplicationMgr
    from LHCbKernel.Configuration import FATAL, ERROR, WARNING, INFO, DEBUG, VERBOSE

    ApplicationMgr().AppName = "AlignmentCollector"
    ApplicationMgr().OutputLevel = ERROR

    LHCbApp().DDDBtag = DDDBtag
    LHCbApp().CondDBtag = CondDBtag

    # >>> This part stolen from Det/DetCond/tests/scripts/getIOVs.py
    ApplicationMgr().TopAlg = ["LoadDDDB"]

    from Configurables import EventClockSvc, FakeEventTime

    ecs = EventClockSvc(
        InitialTime=toTimeStamp(datetime(2010, 1, 1, 12, tzinfo=pytz.utc)))
    ecs.addTool(FakeEventTime, "EventTimeDecoder")
    ecs.EventTimeDecoder.StartTime = ecs.InitialTime
    ecs.EventTimeDecoder.TimeStep = toTimeStamp(timedelta(days=1))
    # <<< + "lhcbcond" below

    layers = ["LHCBCOND"]

    if len(alignDBs) > 0:
        from Configurables import CondDB, CondDBAccessSvc
        for i, (connectString, tag) in enumerate(alignDBs):
            layerName = "AlignCond%i" % i
            alignCond = CondDBAccessSvc(layerName)
            alignCond.ConnectionString = connectString
            alignCond.DefaultTAG = tag
            CondDB().addLayer(alignCond)
            layers.append(layerName)

    # run a gaudi application
    from GaudiPython import AppMgr, gbl
    gaudi = AppMgr()
    gaudi.createSvc("UpdateManagerSvc")
    updateManagerSvc = gaudi.service("UpdateManagerSvc",
                                     interface="IUpdateManagerSvc")
    gaudi.initialize()

    conddbReaders = list(
        gaudi.service(name, gbl.ICondDBReader) for name in reversed(layers))

    detDataSvc = updateManagerSvc.detDataSvc()

    alignmentTrees = dict(
        (detName, []) for detName in elementsWithTESAndCondDBNodes.iterkeys())

    for detName, (detPath,
                  condNodes) in elementsWithTESAndCondDBNodes.iteritems():
        ### get the IOVs for all elements, and combine them
        timeLine = [("gap", (since, until))]
        for layerReader in conddbReaders:
            timeLineUpdated = list(timeLine)
            alreadyInserted = 0
            for i, (typ, (gapBegin, gapEnd)) in enumerate(timeLine):
                if typ == "gap":
                    iovs = combinedIOVs([
                        list((max(toDateTime(iov.since.ns()), gapBegin),
                              min(toDateTime(iov.until.ns()), gapEnd))
                             for iov in layerReader.getIOVs(
                                 node,
                                 gbl.ICondDBReader.IOV(
                                     gbl.Gaudi.Time(toTimeStamp(gapBegin)),
                                     gbl.Gaudi.Time(toTimeStamp(gapEnd))), 0))
                        for node in TrackingAlignmentCondDBNodes[detName]
                    ])
                    if len(iovs) != 0:
                        updatedTimeSlice = list(
                            ("iov", (begin, end)) for begin, end in iovs)
                        if updatedTimeSlice[0][1][0] > gapBegin:
                            updatedTimeSlice.insert(
                                0,
                                ("gap", (gapBegin, updatedTimeSlice[0][1][0])))
                        if updatedTimeSlice[-1][1][1] < gapEnd:
                            updatedTimeSlice.append(
                                ("gap", (updatedTimeSlice[-1][1][1], gapEnd)))
                        timeLineUpdated[i + alreadyInserted:i +
                                        alreadyInserted + 1] = updatedTimeSlice
                        alreadyInserted += len(updatedTimeSlice) - 1
            logging.debug("timeline after adding %s : %s" %
                          (layerReader, timeLine))
            timeLine = timeLineUpdated
        iovs = list(timespan for typ, timespan in timeLine if typ == "iov")

        ### For every IOV, extract the parameters
        for begin, end in iovs:
            detDataSvc.setEventTime(
                gbl.Gaudi.Time(toTimeStamp(begin + (end - begin) / 2)))
            updateManagerSvc.newEvent()
            motionSystem = None if detName != "Velo" else gaudi.detSvc(
            ).getObject("/dd/Conditions/Online/Velo/MotionSystem")
            logging.info("Extracting parameters for %s between %s and %s" %
                         (detName, begin, end))
            detTree = getAlignableTreeFromDetectorElement(
                gaudi.detSvc().getObject(detPath),
                nodeValue=valueExtractor,
                parentName=detPath,
                motionSystem=motionSystem)
            detTree.name = detName

            alignmentTrees[detName].append(((begin, end), detTree))

    gaudi.finalize()

    gaudi.exit()

    return alignmentTrees
Ejemplo n.º 22
0
def setup():
    initialTime = long(time.time() * 1e9)

    OTGaudiSeq = GaudiSequencer("OTt0OnlineClbrSeq")
    OTt0OnlineClbrAlg = OTt0OnlineClbr("OTt0OnlineClbrAlg")
    #OTt0OnlineClbrAlg.InputFiles  = [ "/hist/Savesets/2013/LHCb/Brunel/01/20/Brunel-135576-20130120T161302-EOR.root"]

    # OT T0 calibration algorithm
    OTt0OnlineClbrAlg.InputTasks = ["Brunel"]
    OTt0OnlineClbrAlg.Partition = partition
    OTt0OnlineClbrAlg.ReadInitialT0FromDB = False
    OTt0OnlineClbrAlg.SaveFits = False
    OTt0OnlineClbrAlg.RunOnline = True
    OTt0OnlineClbrAlg.CheckDataT0 = True
    OTt0OnlineClbrAlg.PublishedName = "OT/Calib"
    OTt0OnlineClbrAlg.XMLFilePath = "/group/online/alignment/OT/Calib"
    OTt0OnlineClbrAlg.OutputLevel = MSG_INFO
    OTt0OnlineClbrAlg.UseClockPhase = (partition != "FEST")
    OTt0OnlineClbrAlg.InitialTime = initialTime
    OTt0OnlineClbrAlg.Threshold = 0.1
    OTt0OnlineClbrAlg.MaxDifference = 2
    # Keep analysis task going.
    OTt0OnlineClbrAlg.StopAlgSequence = False

    OTGaudiSeq.Members += [OTt0OnlineClbrAlg]
    OTGaudiSeq.IgnoreFilterPassed = True

    ## Configure saving of histograms
    from Configurables import UpdateAndReset
    ur = UpdateAndReset()
    ur.saveHistograms = 1
    ApplicationMgr().TopAlg.insert(0, ur)

    from Configurables import MonitorSvc
    MonitorSvc().disableDimPropServer = 1
    MonitorSvc().disableDimCmdServer = 1

    #import OnlineEnv
    MonitorSvc().ExpandCounterServices = 0
    MonitorSvc().ExpandNameInfix = "<part>_x_<program>/"
    #MonitorSvc().PartitionName         = OnlineEnv.PartitionName;
    MonitorSvc().PartitionName = partition
    MonitorSvc().ProgramName = "OTOnlineCalib_0"

    #setup the histograms and the monitoring service
    #ApplicationMgr().ExtSvc.append( 'MonitorSvc' )
    from Configurables import RootHistCnv__PersSvc
    RootHistCnv__PersSvc().OutputEnabled = False

    ApplicationMgr().TopAlg += [OTGaudiSeq]
    ApplicationMgr().EvtSel = "NONE"
    ApplicationMgr().ExtSvc += [
        "LHCb::PublishSvc", "MonitorSvc", "IncidentSvc"
    ]
    ApplicationMgr().Runable = "LHCb::OnlineRunable/Runable"

    from Configurables import CondDB
    conddb = CondDB()
    conddb.Tags["ONLINE"] = 'fake'
    conddb.IgnoreHeartBeat = True
    conddb.UseDBSnapshot = True
    conddb.DBSnapshotDirectory = "/group/online/hlt/conditions"

    from Configurables import EventClockSvc, FakeEventTime, EventDataSvc
    ecs = EventClockSvc()
    ecs.InitialTime = initialTime
    ecs.addTool(FakeEventTime, "EventTimeDecoder")
    ecs.EventTimeDecoder.StartTime = initialTime
    ecs.EventTimeDecoder.TimeStep = 10
    EventDataSvc().ForceLeaves = True

    # Configure DB tags and per-run conditions to be used to be the same as what
    # the HLT1 reconstruction farm uses. This is done by directly importing the
    # python file to ensure the script can also start when LHCb is running
    # passthrough.
    conddb.EnableRunChangeHandler = True
    conddb.RunChangeHandlerConditions = {
        'LHCb/2015/%d/ot.xml': ["Conditions/Calibration/OT/CalibrationGlobal"]
    }

    from Configurables import LHCbApp
    import ConditionsMap
    LHCbApp().CondDBtag = ConditionsMap.CondDBTag
    LHCbApp().DDDBtag = ConditionsMap.DDDBTag

    # LHCbApp().CondDBtag = 'cond-20150409-2'
    # LHCbApp().DDDBtag   = 'dddb-20150119-3'
    LHCbApp().DataType = '2015'
Ejemplo n.º 23
0
Escher().Simulation = False
Escher().SpecialData += ["earlyData"]
Escher().InputType = "MDF"
#Escher().InputType = "DST"

#-- Use latest 2009 database tags for real data
#LHCbApp().DDDBtag   = "head-20090330"
#LHCbApp().CondDBtag = "head-20090402"

LHCbApp().DDDBtag = "default"
LHCbApp().CondDBtag = "default"
LHCbApp().DDDBtag = "HEAD"
LHCbApp().CondDBtag = "HEAD"

from Configurables import EventClockSvc
EventClockSvc().InitialTime = 1270079584012864000
from Configurables import (CondDB, CondDBAccessSvc)
cdb = CondDB()
#cdb.PartitionConnectionString["ONLINE"] = "sqlite_file:/afs/cern.ch/user/w/wouter/public/AlignDB/ONLINE-201004.db/ONLINE"
#cdb.Tags["ONLINE"] = ""

# maybe it works if we read it as a layer?
myOnline = CondDBAccessSvc('MyOnline')
myOnline.ConnectionString = 'sqlite_file:/afs/cern.ch/user/w/wouter/public/AlignDB/ONLINE-201004.db/ONLINE'
CondDB().addLayer(myOnline)

otCalib = CondDBAccessSvc('OTCalib')
#otCalib.ConnectionString = 'sqlite_file:/afs/cern.ch/user/a/akozlins/public/OT/LHCBCOND/ModuleT0s_2.7ns_3.35ns_180310.db/LHCBCOND'
otCalib.ConnectionString = 'sqlite_file:/afs/cern.ch/user/a/akozlins/public/OT/LHCBCOND/ModuleT0s_69648_140410.db/LHCBCOND'
CondDB().addLayer(otCalib)
Ejemplo n.º 24
0
LHCbApp().DDDBtag = "default"
LHCbApp().CondDBtag = "default"
LHCbApp().DDDBtag = "HEAD"
LHCbApp().CondDBtag = "HEAD"

from Configurables import (CondDB, CondDBAccessSvc)
otCalib = CondDBAccessSvc('OTCalib')
otCalib.ConnectionString = 'sqlite_file:/afs/cern.ch/user/a/akozlins/public/OT/LHCBCOND/Collision09_OT_ModuleT0s_220110_sigma4ns.db/LHCBCOND'
CondDB().addLayer(otCalib)

# Latest cosmic run, with CALO, OT and (!!) RICH2 (35569 events)
Escher().DatasetName = 'collisions'
Escher().InputType = 'DST'

from Configurables import EventClockSvc
EventClockSvc().InitialTime = 1260495107691392000

prefix = 'PFN:castor:/castor/cern.ch/user/t/truf/data_2009/'
data = [
    '00005727_00000001_00000011_2_nolumi.dst',
    '00005727_00000012_00000026_2_nolumi.dst',
    '00005727_00000027_00000039_2_nolumi.dst',
    '00005727_00000040_00000052_2_nolumi.dst',
    '00005727_00000053_00000057_2_nolumi.dst',
    '00005730_00000001_00000002_2_nolumi.dst',
    '00005731_00000001_00000056_2_nolumi.dst'
]

# copy the files to /pool if it exists
import os
if os.path.isdir('/pool/spool/'):
Ejemplo n.º 25
0
from Gaudi.Configuration import *
import os

#Use Oliver's XML DDDB describing the FT detector
#DDDBConf().DbRoot = "/afs/cern.ch/user/o/ogruenbe/public/FT_upgrade/myDDDB-LHCb-Feb2012/lhcb.xml"
#-- the above is a running target, therefore use the following snaphot:
DDDBConf().DbRoot = "/afs/cern.ch/user/p/phopchev/public/FT/DDDBSlice_FT_v3/lhcb.xml"

CondDB().Tags['DDDB'] = 'HEAD'


lhcbApp = LHCbApp()
lhcbApp.Simulation = True

'''
lhcbApp.DataType = '2011'
lhcbApp.DDDBtag = "head-20110914"
lhcbApp.CondDBtag = "sim-20111020-vc-md100"
#dataDir = os.environ['PANORAMIXDATA']
#EventSelector().Input = ["DATAFILE='PFN:"+dataDir+"/2011_Bs2DsmuX.dst' TYP='POOL_ROOTTREE'"]
'''

lhcbApp.DataType = "2011"
lhcbApp.DDDBtag = "MC11-20111102"
lhcbApp.CondDBtag = "sim-20111111-vc-md100"
EventSelector().Input = ["DATAFILE='/castor/cern.ch/user/o/ogruenbe/Bs_mumu_v3.sim' TYP='POOL_ROOTTREE'"]

### Set fake event time to avoid useless ERROR messages from the EventClockSvc (no DAQ/RawEvent as it is MC)
from Configurables import EventClockSvc
EventClockSvc().EventTimeDecoder = 'FakeEventTime'
#LHCbApp().CondDBtag = "HEAD"
LHCbApp().DDDBtag = 'head-20110823'
LHCbApp().CondDBtag = 'head-20110901'

from Configurables import (CondDB, CondDBAccessSvc)
cdb = CondDB()
#cdb.PartitionConnectionString["ONLINE"] = "sqlite_file:/afs/cern.ch/user/w/wouter/public/AlignDB/ONLINE-201103.db/ONLINE"
#cdb.Tags["ONLINE"] = "fake"

# maybe it works if we read it as a layer?
myOnline = CondDBAccessSvc('MyOnline')
myOnline.ConnectionString = 'sqlite_file:/afs/cern.ch/user/w/wouter/public/AlignDB/ONLINE-2011.db/ONLINE'
CondDB().addLayer(myOnline)
#importOptions("$APPCONFIGOPTS/DisableLFC.py")
cdb.UseOracle = False
cdb.DisableLFC = True

import os
runnr = os.environ['RUNNR']

filenames = ['/pool/spool/wouter/dimuons_%s.dst' % runnr]
for f in filenames:
    fullname = "DATAFILE='" + f + "' TYP='POOL_ROOTTREE' OPT='READ'"
    EventSelector().Input.append(fullname)

print "EvenSelector.Input:", EventSelector().Input

from Configurables import EventClockSvc
#EventClockSvc().InitialTime = 1314000149027776000
EventClockSvc().InitialTime = int(os.environ['INITIALTIME'])
Ejemplo n.º 27
0
from DAQSys.Decoders import DecoderDB

for i, v in DecoderDB.iteritems():
    v.Properties["OutputLevel"] = VERBOSE
    if "Hlt" in i and "ReportsDecoder" in i:
        v.Active = False
        #v.Inputs={"InputRawEventLocation":"DAQ/RawEvent"}
    for b in ["UT", "FT", "FTCluster", "VP", "VL"]:
        if b in v.Banks:
            v.Active = False

DecoderDB["MuonRec"].Active = False
DecoderDB["createODIN"].Active = False
#DecoderDB["OdinTimeDecoder/ToolSvc.OdinTimeDecoder"].Active=True
from Configurables import EventClockSvc, OdinTimeDecoder, ODINDecodeTool
ecs = EventClockSvc()
ecs.addTool(OdinTimeDecoder, 'EventTimeDecoder')
ecs.EventTimeDecoder.addTool(ODINDecodeTool)
ecs.EventTimeDecoder.ODINDecodeTool.RawEventLocations = ['Crazy/RawEvent']

DecodeRawEvent().OverrideInputs = 999
from Configurables import GaudiSequencer
#DecodeRawEvent().Sequencer=GaudiSequencer("SPAM")

for i, v in DecoderDB.iteritems():
    if v.Active:
        GaudiSequencer("SPAM").Members.append(v.setup())

from Configurables import StoreExplorerAlg

StoreExplorerAlg().Load = True
Ejemplo n.º 28
0
def rawDataToNtuple(options):
    #	print options
    required_options = [
        "runNumber", "start", "end", "outputdir", "nEvtsPerStep", "totsteps"
    ]

    for check_opts in required_options:
        if not options.has_key(check_opts):
            print "Please specify minimal options!"
            print "Option \'" + check_opts + "\' is missing!"
            sys.exit()

    start = options["start"]
    end = options["end"]
    runNumber = options["runNumber"]
    outputdir = options["outputdir"]
    totsteps = options["totsteps"]
    nEvtsPerStep = options["nEvtsPerStep"]

    from Configurables import DDDBConf, CondDB, CondDBAccessSvc, NTupleSvc, EventClockSvc, Brunel, LHCbApp
    #	if options.has_key("IgnoreHeartBeat"):
    #		CondDB().IgnoreHeartBeat = options["IgnoreHeartBeat"]

    if options.has_key("addCondDBLayer"):
        altag = "HEAD"
        if options.has_key("addCondDBLayer_tag"):
            altag = options["addCondDBLayer_tag"]
        CondDB().addLayer(
            CondDBAccessSvc("myCond",
                            ConnectionString="sqlite_file:" +
                            options["addCondDBLayer"] + "/LHCBCOND",
                            DefaultTAG=altag))

    # Need this line so as to not get db errors- should be fixed properly at some point
    CondDB().IgnoreHeartBeat = True
    CondDB().EnableRunStampCheck = False

    #	customDBs = glob.glob('/group/rich/ActiveDBSlices/*.db')
    #	for db in customDBs:
    #		CondDB().addLayer( CondDBAccessSvc(os.path.basename(db), ConnectionString="sqlite_file:"+db+"/LHCBCOND", DefaultTAG="HEAD") )

    #	importOptions('$STDOPTS/DecodeRawEvent.py')
    #importOptions("$STDOPTS/RootHist.opts")
    #importOptions("$STDOPTS/RawDataIO.opts")
    #DEBUG by DisplayingHitMaps=False
    from Configurables import MDMRich1Algorithm
    mdmAlg = MDMRich1Algorithm("Rich1MDCS")
    mdmAlg.NumberOfEventsPerStep = nEvtsPerStep
    mdmAlg.StoreHistos = False
    mdmAlg.DEBUG = False

    if options.has_key("StoreHistos"):
        mdmAlg.StoreHistos = options["StoreHistos"]

    if options.has_key("DEBUG"):
        mdmAlg.DEBUG = options["DEBUG"]

    print "start step: " + str(start)
    print "stop step: " + str(end)
    print "processing " + str(nEvtsPerStep * (end - start)) + " events"

    tuplestring = "NTuple_Run%i_Steps%04d-%04d.root" % (runNumber, start, end)

    if options.has_key("TupleName"):
        tuplestring = options["TupleName"]

    histoname = "Histos_Run%i_Steps%04d-%04d.root" % (runNumber, start, end)

    if options.has_key("HistoName"):
        histoname = options["HistoName"]

    if outputdir != "":
        tuplestring = "%s/%s" % (outputdir, tuplestring)
        histoname = "%s/%s" % (outputdir, histoname)

    tuplename = "RICHTUPLE1 DATAFILE=\'%s\' TYP=\'ROOT\' OPT=\'NEW\'" % (
        tuplestring)

    # Currently put in manually. Edit here to use correct db and conddb tags
    LHCbApp().DDDBtag = "dddb-20150724"
    LHCbApp().CondDBtag = "cond-20160123"

    if options.has_key("DDDBtag"):
        LHCbApp().DDDBtag = options["DDDBtag"]
    if options.has_key("CondDBtag"):
        LHCbApp().CondDBtag = options["CondDBtag"]

    #customDBs = glob.glob('/group/rich/ActiveDBSlices/*.db')
    #for db in customDBs:
    #	CondDB().addLayer( CondDBAccessSvc(os.path.basename(db), ConnectionString="sqlite_file:"+db+"/LHCBCOND", DefaultTAG="HEAD") )

    ApplicationMgr().TopAlg += [mdmAlg]
    ApplicationMgr().ExtSvc += ['DataOnDemandSvc']
    ApplicationMgr().EvtMax = end * nEvtsPerStep

    # Timing information for application
    from Configurables import AuditorSvc, SequencerTimerTool
    ApplicationMgr().ExtSvc += ['AuditorSvc']
    ApplicationMgr().AuditAlgorithms = True
    AuditorSvc().Auditors += ['TimingAuditor']
    SequencerTimerTool().OutputLevel = 4

    LHCbApp().TimeStamp = True

    HistogramPersistencySvc().OutputFile = histoname
    NTupleSvc().Output = [tuplename]
    EventSelector().PrintFreq = 10
    EventSelector().PrintFreq = nEvtsPerStep
    EventSelector().FirstEvent = start * nEvtsPerStep
    print "First event: " + str(start * nEvtsPerStep)
    print "Last event: " + str(end * nEvtsPerStep)

    #get data, will look in local cluster first, then on castor
    isLocal = True
    if options.has_key("isLocal"):
        isLocal = options["isLocal"]
    DATA_and_Year = (getData(runNumber, start, end, totsteps, isLocal))

    DATA = DATA_and_Year["DATA"]
    if not len(DATA) > 0:
        print "Data not found in local, switching to CASTOR"
        DATA_and_Year = getData(runNumber, start, end, totsteps, not isLocal)
        DATA = DATA_and_Year["DATA"]
    if not len(DATA) > 0:
        print "DATA not found anywhere!"
        sys.exit()
    LHCbApp.DataType = str(DATA_and_Year["year"])

    EventSelector().Input = DATA
    EventClockSvc().EventTimeDecoder = "OdinTimeDecoder"

    appMgr = GaudiPython.AppMgr()
    appMgr.HistogramPersistency = "ROOT"
    #appMgr.OutputLevel=DEBUG
    evtSvc = appMgr.evtSvc()

    esel = appMgr.evtsel()
    esel.PrintFreq = nEvtsPerStep
    appMgr.initialize()

    appMgr.run(nEvtsPerStep * (end - start))
    appMgr.stop()
    appMgr.finalize()
Ejemplo n.º 29
0
def setupOnline():
    """
        Setup the online environment: Buffer managers, event serialisation, etc.

        @author M.Frank
  """
    from Configurables import LHCb__FILEEvtSelector as es
    from Configurables import LHCb__AlignDrv as Adrv
    from Configurables import EventClockSvc
    Online = importOnline()

    app = Gaudi.ApplicationMgr()
    app.AppName = ''
    app.HistogramPersistency = 'ROOT'
    app.SvcOptMapping.append('LHCb::FILEEvtSelector/EventSelector')
    app.SvcOptMapping.append('LHCb::FmcMessageSvc/MessageSvc')
    #app.EvtMax = 10000
    Online.rawPersistencySvc()
    evtloop = Configs.EventLoopMgr('LHCb::OnlineRunable/EmptyEventLoop')
    evtloop.Warnings = False
    evtloop.EvtSel = "NONE"
    app.EventLoop = evtloop
    app.HistogramPersistency = "NONE"
    #   runable = Configs.Runable
    #  runable.MEPManager        = ""
    app.AuditAlgorithms = False

    Configs.MonitorSvc().OutputLevel = MSG_ERROR
    Configs.MonitorSvc().UniqueServiceNames = 1
    Configs.RootHistCnv__PersSvc("RootHistSvc").OutputLevel = MSG_ERROR
    app.OutputLevel = MSG_INFO

    def __propAtt(att, fr, to, d=None):
        if hasattr(fr, att):
            setattr(to, att, getattr(fr, att))
        elif d:
            setattr(to, att, d)

    from Configurables import AlignOnlineIterator as Aiter
    ad = Adrv("AlignDrv")
    ad.PartitionName = Online.PartitionName
    ad.FitterClass = "AlignOnlineIterator"
    ad.FitterName = "AlIterator"
    __propAtt('RefFileName', Online, ad)

    ## The Alignment driver is the runable
    app.Runable = ad.getType() + "/" + ad.getName()

    ad.addTool(Aiter, ad.FitterName)
    ai = ad.AlIterator
    ai.PartitionName = Online.PartitionName
    ai.ASDFilePattern = "_Escher.out"
    ai.OutputLevel = 3
    ai.MaxIteration = MAX_NITER
    ai.ServiceInfix = ""
    ai.ReferenceRunNr = Online.DeferredRuns[0] if hasattr(
        Online, "DeferredRuns") else -1
    runType = os.environ.get('RUN_TYPE', 'Unknown')
    runType = runType.split('|')[-1].strip() if '|' in runType else runType
    if runType == 'Tracker':
        sds = ['TT', 'IT', 'OT']
        ai.RunType = runType
    elif runType in ('Velo', 'Muon'):
        sds = [runType]
        ai.RunType = runType
    else:
        print 'WARNING: RUN_TYPE is not one of Velo, Tracker or Muon. Will assume all subdetectors'
        sds = ['Velo', 'TT', 'IT', 'OT', 'Muon']
    ai.SubDetectors = sds

    #   for attr, default in [('ASDDir', "/group/online/alignment/EscherOut/"),
    #                         ('OnlineXmlDir', "/group/online/alignment"),
    #                         ('AlignXmlDir', "/group/online/AligWork")]:
    for attr, default in [('ASDDir', "/calib/align/EscherOut/"),
                          ('OnlineXmlDir', "/group/online/alignment"),
                          ('AlignXmlDir', "/group/online/AligWork")]:
        __propAtt(attr, Online, ai, default)

    initialTime = long(time.time() * 1e9)
    clkSvc = EventClockSvc()
    clkSvc.InitialTime = initialTime

    from Configurables import FakeEventTime
    clkSvc.EventTimeDecoder = "FakeEventTime"
    clkSvc.addTool(FakeEventTime, "FakeEventTime")
    clkSvc.FakeEventTime.StartTime = initialTime
Ejemplo n.º 30
0
# values in ns (so multiply values from above link by 1e9)
from Configurables import EventClockSvc
#EventClockSvc( InitialTime = 1274313600000000000 ) # 20th April 2010
#EventClockSvc( InitialTime = 1287968400000000000 ) # 25th Octo 2010 (1am)
#EventClockSvc( InitialTime = 1306879200000000000 ) # 1st June 2011
#EventClockSvc( InitialTime = 1317460149000000000 ) # 1st Octo 2011
#EventClockSvc( InitialTime = 1319155200000000000 ) # 21st Octo 2011
#EventClockSvc( InitialTime = 1341100800000000000 ) # 1st July 2012
#EventClockSvc( InitialTime = 1350259200000000000 ) # 15th Octo 2012
#EventClockSvc( InitialTime = 1351123200000000000 ) # 25th Octo 2012
#EventClockSvc( InitialTime = 1351645200000000000 ) # 31st Octo 2012
#EventClockSvc( InitialTime = 1352764800000000000 ) # 13th Nov 2012
#EventClockSvc( InitialTime = 1354233600000000000 ) # 30th Nov 2012
#EventClockSvc( InitialTime = 1355533200000000000 ) # 15th Dec 2012
#EventClockSvc( InitialTime = 1359072000000000000 ) # 25th Jan 2013
EventClockSvc(InitialTime=1433635200000000000)  # 7th June 2015

# Timestamps in messages
LHCbApp().TimeStamp = True

# No output files
Brunel().OutputType = "None"

# Only tracking and RICH reco
# Run1
#Brunel().RecoSequence = ["Decoding","VELO","TT","IT","OT","Tr","Vertex","RICH"]
# Run2
Brunel().RecoSequence = [
    "Decoding", "VELO", "TT", "IT", "OT", "TrHLT1", "Vertex", "TrHLT2", "RICH"
]