def configure( gaudi = None ) : """ Configuration of the job """ if not gaudi : from GaudiPython.Bindings import AppMgr gaudi = AppMgr() gaudi.JobOptionsType = 'NONE' gaudi.EvtSel = 'NONE' gaudi.HistogramPersistency = 'ROOT' gaudi.config() gaudi.DLLs = [ 'GaudiAlg', 'RootHistCnv', ] alg = HistoEx('HistoEx') gaudi.setAlgorithms( [alg] ) alg.HistoPrint = True hsvc = gaudi.service('HistogramPersistencySvc') hsvc.OutputFile = "histo1.root" # This does not harm and tests bug #50389 getMyalgBack = gaudi.algorithm ( 'HistoEx' ) return SUCCESS
def configure( gaudi = None ) : """ Configuration of the job """ if not gaudi : from GaudiPython.Bindings import AppMgr gaudi = AppMgr() gaudi.JobOptionsType = 'NONE' gaudi.EvtSel = 'NONE' gaudi.HistogramPersistency = 'ROOT' gaudi.ExtSvc += ["NTupleSvc" ] ntSvc = gaudi.service('NTupleSvc') ntSvc.Output = [ "MYLUN DATAFILE='TupleEx.root' OPT='NEW' TYP='ROOT'" ] gaudi.config() gaudi.DLLs = [ 'GaudiAlg', 'RootHistCnv', ] alg = TupleEx( ## configure the property NTupleLUN = 'MYLUN' ) gaudi.setAlgorithms( [alg] ) return SUCCESS
def _color_pre_start_action_(): logger.debug('Add colorization to MessageSvc') from GaudiPython.Bindings import AppMgr _g = AppMgr() if not _g: return _s = _g.service('MessageSvc') if not _s: return _s.useColors = True _s.errorColorCode = ['yellow', 'red'] _s.warningColorCode = ['red'] _s.fatalColorCode = ['blue', 'red'] ##_s.alwaysColorCode = [ 'blue' ] ##_s.infoColorCode = [ 'green' ] del _g, _s
if not opts.do_not_rewind: mainSeq.Enable = False evtSel.rewind() mainSeq.Enable = True # steer the monitor sequence depending on the iteration appMgr.algorithm('AlignMonitorSeq').Enable = (i == 0) appMgr.algorithm('Moni').Enable = (i == 0) if opts.numiter > 1: appMgr.algorithm('AlignPostMonitorSeq').Enable = (i == opts.numiter - 1) # event loop appMgr.run(opts.numevents) # fire incident for update from GaudiPython import gbl from Configurables import Escher incSvc = appMgr.service('IncidentSvc', 'IIncidentSvc') updateConstants = gbl.Incident('Alignment', 'UpdateConstants') if Escher().getProp("Incident") == "GlobalMPedeFit": updateConstants = gbl.Incident('Alignment', 'GlobalMPedeFit') printUniformity = gbl.Incident('Alignment', 'PrintUniformTD') updateTrackSelector = gbl.Incident('Alignment', 'ResetUniformity') incSvc.fireIncident(printUniformity) incSvc.fireIncident(updateTrackSelector) incSvc.fireIncident(updateConstants) #exit the appmgr for finalize appMgr.exit()
outputs={ "DigitLocation": "Raw/HC/Digits", "L0DigitLocation": "Raw/HC/L0Digits" }, inputs={"RawEventLocations": ['/Event/DAQ/RawEvent']}, properties={ "DigitLocation": "Raw/HC/Digits", "L0DigitLocation": "Raw/HC/L0Digits" }, conf=DecoderDB) conf = dec.setup() from GaudiPython.Bindings import AppMgr appMgr = AppMgr() appMgr.HistogramPersistency = "ROOT" hpSvc = appMgr.service('HistogramPersistencySvc') hpSvc.OutputFile = options.OutputDirectory + '/' + options.runNumber + '/' + options.analysisType + '_' + options.runNumber + '.root' ntSvc = appMgr.ntupleSvc() ntSvc.Output = [ "FILE1 DATAFILE='" + options.OutputDirectory + '/' + options.runNumber + '/' + options.analysisType + '_' + options.runNumber + "Tuple.root' TYP='ROOT' OPT='NEW'" ] eventTimeDecoder = appMgr.toolsvc().create("OdinTimeDecoder", interface="IEventTimeDecoder") appMgr.addAlgorithm('LbAppInit') from Configurables import HCRawBankDecoder
DDDBConf().DbRoot = dddbroot else: assert dddbroot.endswith('.db'), 'Unsupported format of DDDB' CondDB().addLayer(dbFile=dddbroot, dbName="DDDB") else: print 'Using default DDDB' from Configurables import MessageSvc MessageSvc().Format = '% F%40W%S%7W%R%T %0W%M' appMgr = AppMgr(outputlevel=4) appMgr.ExtSvc += ['TransportSvc'] det = appMgr.detSvc() transSvc = appMgr.service('TransportSvc', 'ITransportSvc') # define intersections std = GaudiPython.gbl.std Interval = std.pair('double', 'double') Intersection = std.pair(Interval, 'const Material*') Intersections = std.vector(Intersection) intersepts = Intersections() tickMin = 0. tickMax = 1. def getRadiationAndInteractionLength(intersepts): fracAbsLength_rad = 0. fracAbsLength_int = 0.
atexit.register ( gaudi.exit ) gaudi.EvtSel = 'NONE' ## no external event input #gaudi.HistogramPersistency = 'HBOOK' ## define the persistency type for N-tuples gaudi.HistogramPersistency = 'ROOT' ## define the persistency type for N-tuples ## configure & initialize gaudi.config() gaudi.initialize() ## get some random numbers Rndm = cpp.Rndm IRndmGenSvc = cpp.IRndmGenSvc rndmSvc = gaudi.service('RndmGenSvc',IRndmGenSvc) if not rndmSvc : gaudi.createSvc('RndmGenSvc') rndmSvc = gaudi.service('RndmGenSvc',IRndmGenSvc) gauss = Rndm.Numbers ( cpp.SmartIF("IRndmGenSvc")(rndmSvc) , Rndm.Gauss ( 0.0 , 1.0 ) ) ## get the first N-tuple tup1 = TupleUtils.nTuple( "path" , ## the path "It is a title for my n-tuple" , ## the title LUN = 'MYLUN1' ) ## logical unit ## fill it: for i in xrange(0,5000) : tup1.column ( 'i' , i ) ## int tup1.column ( 'g1' , gauss() ) ## double tup1.column ( 'g2' , gauss() ) ## double b = 0 < gauss()
aida2root ) print __doc__ ## get the application manager (create if needed) gaudi = AppMgr() ## no external input gaudi.EvtSel = 'NONE' ## define the histogram persistency gaudi.HistogramPersistency = "ROOT" ## define the name of the output file with histograms: hsvc = gaudi.service('HistogramPersistencySvc') hsvc.OutputFile = "HistoUtilsEx.root" ## configure & initialize gaudi.config() gaudi.initialize() ## get some random numbers Rndm = cpp.Rndm IRndmGenSvc = cpp.IRndmGenSvc rndmSvc = gaudi.service('RndmGenSvc',IRndmGenSvc) if not rndmSvc : gaudi.createSvc('RndmGenSvc') rndmSvc = gaudi.service('RndmGenSvc',IRndmGenSvc) gauss = Rndm.Numbers ( cpp.SmartIF("IRndmGenSvc")(rndmSvc) , Rndm.Gauss ( 0.0 , 1.0 ) )