def getOverlay(self, nbevts):
""" Create an overlay step
"""
pathToFiles = None
from ILCDIRAC.Interfaces.API.NewInterface.Applications import OverlayInput
overlay = OverlayInput()
if self.energy == 350:
if self.detectorModel == "ILD_o1_v05":
pathToFiles = "/ilc/user/s/sailer/testFiles/overlay/ild_350/"
if pathToFiles:
overlay.setPathToFiles(pathToFiles)
else:
self.log.warn(
"better define pathToFiles for this overlay: %s, %s, %s" %
(self.energy, self.machine, self.backgroundType))
overlay.setMachine(self.machine)
overlay.setEnergy(self.energy)
overlay.setDetectorModel(self.detectorModel)
overlay.setBkgEvtType(self.backgroundType)
overlay.setBXOverlay(60)
overlay.setGGToHadInt(0.3)
overlay.setNumberOfSignalEventsPerJob(nbevts)
return overlay
def getJob(jobid, jobpara):
iser=jobid+1
outdst = "toto-ovl-%5.5i.dst.slcio"%iser
outrec = "toto-ovl-%5.5i.rec.slcio"%iser
###In case one wants a loop: comment the folowing.
#for i in range(2):
j = UserJob()
j.setJobGroup("Tutorial")
j.setName("MarlinOverlayParametric%i"%iser)
j.setInputSandbox(jobpara["setting_file"])
## Define the overlay
ov = OverlayInput()
ov.setMachine("ilc_dbd")
ov.setEnergy(energy)
ov.setNumberOfSignalEventsPerJob(int(jobpara["n_events_per_job"]))
ov.setBXOverlay(int(jobpara["BXOverlay"]))
ov.setGGToHadInt(float(jobpara["GGToHadInt500"]))
ov.setBkgEvtType("aa_lowpt")
# ov.setBackgroundType("aa_lowpt")
ov.setDetectorModel("ILD_o1_v05")
res = j.append(ov)
if not res['OK']:
print res['Message']
exit(1)
## Define Marlin job
ma = Marlin()
ma.setDebug()
ma.setVersion("ILCSoft-01-17-09")
ma.setSteeringFile("marlin_ovl_stdreco.xml")
ma.setGearFile("GearOutput.xml")
# ma.setInputFile(simfile)
ma.setInputFile(simlists[jobid])
ma.setOutputDstFile(outdst)
ma.setOutputRecFile(outrec)
res = j.append(ma)
if not res['OK']:
print res['Message']
exit(1)
j.setOutputData([outdst,outrec],"myprod2/test","PNNL-SRM")
j.setOutputSandbox(["*.log","*.xml","*.sh","TaggingEfficiency.root","PfoAnalysis.root"])
j.setCPUTime(10000)
j.dontPromptMe()
return j
def createOverlayApplication( self, energy ):
""" create Overlay Application """
from ILCDIRAC.Interfaces.API.NewInterface.Applications import OverlayInput
overlay = OverlayInput()
overlay.setMachine( 'clic_opt' )
overlay.setEnergy( energy )
overlay.setBackgroundType( self._overlayEventType )
overlay.setDetectorModel( self.detectorModel )
try:
overlayEnergy = energyToInt( self.overlayEvents ) if self.overlayEvents else energy
self.overlayParameterDict().get( overlayEnergy ) ( overlay )
except TypeError:
raise RuntimeError( "No overlay parameters defined for %r GeV and %s " % ( energy, self._overlayEventType ) )
if self.overlayEvents:
overlay.setUseEnergyForFileLookup( False )
return overlay
def getOverlay(self, nbevts):
""" Create an overlay step
"""
pathToFiles = None
from ILCDIRAC.Interfaces.API.NewInterface.Applications import OverlayInput
overlay = OverlayInput()
if self.energy==350:
if self.detectorModel=="ILD_o1_v05":
pathToFiles="/ilc/user/s/sailer/testFiles/overlay/ild_350/"
if pathToFiles:
overlay.setPathToFiles(pathToFiles)
else:
self.log.warn("better define pathToFiles for this overlay: %s, %s, %s" %
(self.energy, self.machine, self.backgroundType) )
overlay.setMachine(self.machine)
overlay.setEnergy(self.energy)
overlay.setDetectorModel(self.detectorModel)
overlay.setBkgEvtType(self.backgroundType)
overlay.setBXOverlay(60)
overlay.setGGToHadInt(0.3)
overlay.setNumberOfSignalEventsPerJob(nbevts)
return overlay
def getJob(dirac, jobid, jobpara):
iser=jobid+100
outdir = "/ilc/user/a/amiyamoto/myprod2/test/"
outdst = "toto-ovl-%5.5i.dst.slcio"%iser
outrec = "toto-ovl-%5.5i.rec.slcio"%iser
dstlfn = outdir+"dst/"+outdst
reclfn = outdir+"rec/"+outrec
outsrm = "CERN-SRM"
###In case one wants a loop: comment the folowing.
#for i in range(2):
j = UserJob()
j.setJobGroup("Tutorial")
j.setName("MarlinOverlayParametric%i"%iser)
j.setInputSandbox(jobpara["setting_file"])
## Define the overlay
ov = OverlayInput()
ov.setMachine("ilc_dbd")
ov.setEnergy(energy)
ov.setNumberOfSignalEventsPerJob(int(jobpara["n_events_per_job"]))
ov.setBXOverlay(int(jobpara["BXOverlay"]))
ov.setGGToHadInt(float(jobpara["GGToHadInt500"]))
ov.setBkgEvtType("aa_lowpt")
# ov.setBackgroundType("aa_lowpt")
ov.setDetectorModel("ILD_o1_v05")
res = j.append(ov)
if not res['OK']:
print res['Message']
exit(1)
## Define Marlin job
ma = Marlin()
ma.setDebug()
ma.setVersion("ILCSoft-01-17-09")
ma.setSteeringFile("marlin_stdreco.xml")
ma.setGearFile("GearOutput.xml")
# ma.setInputFile(simfile)
ma.setInputFile(simlists[jobid])
ma.setOutputDstFile(outdst)
ma.setOutputRecFile(outrec)
res = j.append(ma)
if not res['OK']:
print res['Message']
exit(1)
# Upload files to different directories
upload_script="upload%i.sh"%iser
upload = GenericApplication()
# Create a script to upload files.
shfile = open(upload_script,"w")
shfile.write("#!/bin/bash\n")
shfile.write("/bin/ls -l \n")
shfile.write("dirac-dms-add-file -ddd "+dstlfn+" "+outdst+" "+outsrm+" \n")
shfile.write("dirac-dms-add-file -ddd "+reclfn+" "+outrec+" "+outsrm+" \n")
shfile.close()
os.chmod(upload_script,0755)
upload.setScript(upload_script)
res = j.append(upload)
if not res['OK'] :
print res['Message']
exit(1)
# j.setOutputData([outdst,outrec],"myprod2/test","PNNL-SRM")
j.setInputSandbox([ setting_file, upload_script ] )
j.setOutputSandbox(["*.log","*.xml","*.sh","TaggingEfficiency.root","PfoAnalysis.root"])
j.setCPUTime(10000)
j.dontPromptMe()
res = j.submit(dirac)
if not res["OK"] :
print "Failed submit job, jobid=%s" %jobid
print res
os.remove(upload_script)
return j
##Simulation ILD
ddsim = None
if UseDD4hepGeometry:
ddsim = DDSim()
ddsim.setVersion(DDSimVer) ###SET HERE YOUR MOKKA VERSION, the software will come from the ILDConfig
ddsim.setDetectorModel(detectorModel)
ddsim.setSteeringFile("ddsim_steer.py")
##Split
split = SLCIOSplit()
split.setNumberOfEventsPerFile(nbevtsperfile)
##Define the overlay
overlay = OverlayInput()
overlay.setMachine("ilc_dbd") #Don't touch, this is how the system knows what files to get
overlay.setEnergy(energy) #Don't touch, this is how the system knows what files to get
overlay.setDetectorModel(detectorModel) #Don't touch, this is how the system knows what files to get
if energy==500.: #here you chose the overlay parameters as this determines how many files you need
#it does NOT affect the content of the marlin steering file whatsoever, you need to make sure the values
#there are correct. Only the file names are handled properly so that you don't need to care
overlay.setBXOverlay(BXOverlay)
overlay.setGGToHadInt(GGToHadInt500)
overlay.setBkgEvtType("aa_lowpt2") ## lowpt2: correct number of events (500),
## not increased to 2500 to reduce number
## of downloaded files
elif energy == 1000.:
overlay.setBXOverlay(BXOverlay)
overlay.setGGToHadInt(GGToHadInt1000)
overlay.setBkgEvtType("aa_lowpt")
elif energy == 350.:
##Simulation ILD
mo = Mokka()
mo.setVersion(MokkaVer) ###SET HERE YOUR MOKKA VERSION, the software will come from the ILDConfig
mo.setDetectorModel(detectorModel)
mo.setSteeringFile("bbudsc_3evt.steer")
### Do not include '.tgz'
mo.setDbSlice(dbslice)
##Split
split = SLCIOSplit()
split.setNumberOfEventsPerFile(nbevtsperfile)
##Define the overlay
overlay = OverlayInput()
overlay.setMachine("ilc_dbd") #Don't touch, this is how the system knows what files to get
overlay.setEnergy(energy) #Don't touch, this is how the system knows what files to get
overlay.setDetectorModel(detectorModel) #Don't touch, this is how the system knows what files to get
if energy == 500.: #here you chose the overlay parameters as this determines how many files you need
#it does NOT affect the content of the marlin steering file whatsoever, you need to make sure the values
#there are correct. Only the file names are handled properly so that you don't need to care
overlay.setBXOverlay(BXOverlay)
overlay.setGGToHadInt(GGToHadInt500)
overlay.setBkgEvtType("aa_lowpt2") ## lowpt2: correct number of events (500),
## not increased to 2500 to reduce number
## of downloaded files
elif energy == 1000.:
overlay.setBXOverlay(BXOverlay)
overlay.setGGToHadInt(GGToHadInt1000)
overlay.setBkgEvtType("aa_lowpt")
elif energy == 350.:
##Simulation SID
slic = SLIC()
slic.setVersion('v2r9p8')
slic.setSteeringFile('defaultClicCrossingAngle.mac')
slic.setDetectorModel('clic_sid_cdr')
##Split
split = SLCIOSplit()
split.setNumberOfEventsPerFile(nbevtsperfile)
overlay = OverlayInput()
overlay.setMachine("clic_cdr")
overlay.setEnergy(energy)
overlay.setBkgEvtType("gghad")
if energy==500.:
overlay.setBXOverlay(300)
overlay.setGGToHadInt(0.3)##When running at 500geV
overlay.setDetectorModel("CLIC_ILD_CDR500")
elif energy == 350.:
overlay.setBXOverlay(300)
overlay.setGGToHadInt(0.0464)##When running at 350geV
overlay.setDetectorModel("CLIC_ILD_CDR500")
elif energy == 3000.:
overlay.setBXOverlay(60)
overlay.setGGToHadInt(3.2)##When running at 3TeV
overlay.setDetectorModel("CLIC_ILD_CDR")
elif energy == 1400.:
def subOverlay():
# Decide parameters for a job
outputSE = "KEK-SRM"
isLocal = _clip.isLocal
nbevts = 50 if _clip.numberOfEvents == 0 else _clip.numberOfEvents
nbevts = 0 # To analize all input events
outputFilePrefix = "overlay_example" if _clip.outputFilePrefix == "" else _clip.outputFilePrefix
outputDir = _clip.outputDir
inputFile = _clip.inputFile
if inputFile == "":
gLogger.error("Input file for ddsim does not given.")
exit(-1)
recfile = outputFilePrefix + ".rec.slcio"
dstfile = outputFilePrefix + ".dst.slcio"
detector_model = "ILD_l5_o1_v02"
key = detector_model.split('_')
sim_detectorModel = "_".join([key[0], key[1], key[3]])
# Create DIRAC objects for job submission
dIlc = DiracILC()
job = UserJob()
job.setJobGroup("myoverlayjob")
job.setName("myoverlay")
job.setOutputSandbox(['*.log', '*.sh', '*.py', '*.xml'])
job.setILDConfig("v02-00-02")
# job.setInputSandbox(["a6-parameters.sin", "P2f_qqbar.sin"])
# job.setDestination(["LCG.KEK.jp", "LCG.DESY-HH.de"]) # job submission destination
# job.setBannedSites([]) # a list of sites not to submit job
# job.setCPUTime( cputime_limit_in_seconds_by_dirac_units )
# Create Overlay application
ovldata = [{
"ProcessorName": "BgOverlayWW",
"evttype": "aa_lowpt_WW",
"ProdID": 10237,
"expBG": 0.211,
"subdir": "000"
}, {
"ProcessorName": "BgOverlayWB",
"evttype": "aa_lowpt_WB",
"ProdID": 10241,
"expBG": 0.24605,
"subdir": "000"
}, {
"ProcessorName": "BgOverlayBW",
"evttype": "aa_lowpt_BW",
"ProdID": 10239,
"expBG": 0.243873,
"subdir": "000"
}, {
"ProcessorName": "BgOverlayBB",
"evttype": "aa_lowpt_BB",
"ProdID": 10235,
"expBG": 0.35063,
"subdir": "000"
}, {
"ProcessorName": "PairBgOverlay",
"evttype": "seeablepairs",
"ProdID": 10233,
"expBG": 1.0,
"subdir": "100"
}]
BXOverlay = 1
NbSigEvtsPerJob = 100
numberOfSignalEvents = NbSigEvtsPerJob
basebkgpath = "/ilc/prod/ilc/mc-opt-3/ild/sim/500-TDR_ws"
energy = "500"
for ovl in ovldata:
print "### OverlayInput ... " + ovl["ProcessorName"]
ovlapp = OverlayInput()
ovlpath = "%s/%s/%s/v02-00-01/%8.8d/%s" % \
( basebkgpath, ovl["evttype"], sim_detectorModel, ovl["ProdID"] , ovl["subdir"] )
print " OverlayPath ... " + ovlpath
ovlapp.setMachine("ilc_dbd")
# ovlapp.setEnergy(energy)
# ovlapp.setDetectorModel(sim_detectorModel)
ovlapp.setProcessorName(ovl["ProcessorName"])
ovlapp.setBkgEvtType(ovl["evttype"])
ovlapp.setPathToFiles(ovlpath)
ovlapp.setGGToHadInt(ovl["expBG"])
ovlapp.setBXOverlay(BXOverlay)
ovlapp.setNbSigEvtsPerJob(NbSigEvtsPerJob)
ovlapp.setNumberOfSignalEventsPerJob(numberOfSignalEvents)
res = job.append(ovlapp)
if not res['OK']:
print res['Message']
exit(1)
# Create Marlin application
marlin = Marlin()
marlin.setVersion("ILCSoft-02-00-02_gcc49")
marlin.setDetectorModel(detector_model)
marlin.setSteeringFile("MarlinStdReco.xml")
marlin.setInputFile(inputFile)
marlin.setNumberOfEvents(nbevts)
marlin.setOutputDstFile(dstfile)
marlin.setOutputRecFile(recfile)
extraCLIArguments = " --constant.DetectorModel=%s " % detector_model
extraCLIArguments += " --constant.RunOverlay=true --constant.CMSEnergy=%s " % str(
energy)
extraCLIArguments += " --global.Verbosity=MESSAGE "
marlin.setExtraCLIArguments(extraCLIArguments)
job.append(marlin)
if outputDir != "":
job.setOutputData([dstfile, recfile],
OutputPath=outputDir,
OutputSE=outputSE)
if isLocal:
job.submit(dIlc, mode="local")
else:
job.submit(dIlc)
class OverlayInputTestCase(unittest.TestCase):
""" Base class for the OverlayInput test cases
"""
def setUp(self):
"""set up the objects"""
self.olin = OverlayInput({})
def test_setters(self):
assertEqualsImproved(
(self.olin.machine, self.olin.prodID,
self.olin.useEnergyForFileLookup, self.olin.detectorModel,
self.olin.backgroundEventType), ('clic_cdr', 0, True, '', ''),
self)
self.assertFalse(self.olin._errorDict)
self.olin.setMachine('mytestMachine')
assertDiracSucceeds(self.olin.setProdID(14983), self)
self.olin.setUseEnergyForFileLookup(False)
self.olin.setDetectorModel('mytestDetector')
self.olin.setBackgroundType('myBackgroundParticle.Testme')
assertEqualsImproved(
(self.olin.machine, self.olin.prodID,
self.olin.useEnergyForFileLookup, self.olin.detectorModel,
self.olin.backgroundEventType),
('mytestMachine', 14983, False, 'mytestDetector',
'myBackgroundParticle.Testme'), self)
self.assertFalse(self.olin._errorDict)
def test_setters_checks(self):
self.olin.setMachine({'138rj': True})
self.olin.setProdID([])
self.olin.setUseEnergyForFileLookup('False')
self.olin.setDetectorModel(9024)
self.olin.setBackgroundType(8914)
assertEqualsImproved(len(self.olin._errorDict['_checkArgs']), 5, self)
def test_userjobmodules(self):
with patch.object(self.olin,
'_setApplicationModuleAndParameters',
new=Mock(return_value=S_OK())):
assertDiracSucceeds(self.olin._userjobmodules(Mock()), self)
def test_userjobmodules_fails(self):
with patch.object(self.olin,
'_setApplicationModuleAndParameters',
new=Mock(return_value=S_ERROR('bla'))):
assertDiracFailsWith(self.olin._userjobmodules(Mock()),
'userjobmodules failed', self)
def test_prodjobmodules(self):
with patch.object(self.olin,
'_setApplicationModuleAndParameters',
new=Mock(return_value=S_OK())):
assertDiracSucceeds(self.olin._prodjobmodules(Mock()), self)
def test_prodjobmodules_fails(self):
with patch.object(self.olin,
'_setApplicationModuleAndParameters',
new=Mock(return_value=S_ERROR('bla'))):
assertDiracFailsWith(self.olin._prodjobmodules(Mock()),
'prodjobmodules failed', self)
def test_addparameterstostep_fails(self):
with patch.object(self.olin,
'_addBaseParameters',
new=Mock(return_value=S_ERROR('bla'))):
assertDiracFailsWith(self.olin._addParametersToStep(Mock()),
'failed to set base param', self)
def test_addparameterstostep(self):
with patch.object(self.olin,
'_addBaseParameters',
new=Mock(return_value=S_OK())):
assertDiracSucceeds(self.olin._addParametersToStep(Mock()), self)
def test_checkconsistency(self):
self.olin.pathToOverlayFiles = ''
self.olin.bxToOverlay = True
self.olin.numberOfGGToHadronInteractions = 1345
self.olin.backgroundEventType = 'myTestBGEvt'
self.olin._jobtype = 'notUser'
assertDiracSucceeds(self.olin._checkConsistency(), self)
assertEqualsImproved((self.olin.prodparameters['detectorModel'],
self.olin.prodparameters['BXOverlay'],
self.olin.prodparameters['GGtoHadInt']),
('', True, 1345), self)
def test_checkconsistency_nofilesinpath(self):
self.olin.pathToOverlayFiles = '/my/path/overlay.files'
with patch(
'DIRAC.Resources.Catalog.FileCatalogClient.FileCatalogClient.findFilesByMetadata',
new=Mock(return_value=S_OK([]))) as fcc_mock:
assertDiracFailsWith(self.olin._checkConsistency(),
'no files in that path', self)
fcc_mock.assert_called_once_with({}, '/my/path/overlay.files')
def test_checkconsistency_no_bunchcrossings(self):
self.olin.pathToOverlayFiles = ''
self.olin.bxToOverlay = None
assertDiracFailsWith(self.olin._checkConsistency(),
'number of overlay bunch crossings not defined',
self)
def test_checkconsistency_no_backgroundevts(self):
self.olin.pathToOverlayFiles = ''
self.olin.bxToOverlay = True
self.olin.numberOfGGToHadronInteractions = 0
assertDiracFailsWith(
self.olin._checkConsistency(),
'background events per bunch crossing is not defined', self)
def test_checkconsistency_no_bgevttype(self):
self.olin.pathToOverlayFiles = ''
self.olin.bxToOverlay = True
self.olin.numberOfGGToHadronInteractions = 1345
self.olin.backgroundEventType = ''
assertDiracFailsWith(self.olin._checkConsistency(),
'event type is not defined', self)
def test_checkconsistency_nosignalevtperjob(self):
self.olin.pathToOverlayFiles = ''
self.olin.bxToOverlay = True
self.olin.numberOfGGToHadronInteractions = 1345
self.olin.backgroundEventType = 'gghad'
self.olin._jobtype = 'User'
self.olin.numberOfSignalEventsPerJob = 0
assertDiracFailsWith(self.olin._checkConsistency(),
'signal event per job is not defined', self)
def test_checkfinalconsistency_simple(self):
self.olin.pathToOverlayFiles = 'some/path'
assertDiracSucceeds(self.olin._checkFinalConsistency(), self)
def test_checkfinalconsistency_noenergy(self):
self.olin.energy = 0
assertDiracFailsWith(self.olin._checkFinalConsistency(),
'energy must be specified', self)
def test_checkfinalconsistency_ops_fails(self):
ops_mock = Mock()
ops_mock.getSections.return_value = S_ERROR('some_ops_error')
self.olin._ops = ops_mock
self.olin.energy = 198
assertDiracFailsWith(self.olin._checkFinalConsistency(),
'could not resolve the cs path', self)
def test_checkfinalconsistency_machinemissing(self):
ops_mock = Mock()
ops_mock.getSections.return_value = S_OK(
['allowed_machine_1', 'other_mach'])
self.olin._ops = ops_mock
self.olin.machine = 'myTestMachineVeryRare'
self.olin.energy = 198
assertDiracFailsWith(
self.olin._checkFinalConsistency(),
'machine mytestmachineveryrare does not have overlay data', self)
def test_checkfinalconsistency_energynotfound(self):
self.olin.energy = 824
section_dict = {
'/Overlay': ['myTestMachineVeryRare'],
'/Overlay/myTestMachineVeryRare': ['other_energy_tev', '824tev']
}
ops_mock = Mock()
ops_mock.getSections.side_effect = lambda path: S_OK(section_dict[path]
)
self.olin._ops = ops_mock
self.olin.machine = 'myTestMachineVeryRare'
assertDiracFailsWith(self.olin._checkFinalConsistency(),
'no overlay files corresponding to 824gev', self)
def test_checkfinalconsistency_nodetectormodels(self):
self.olin.energy = 1000.0
section_dict = {
'/Overlay': S_OK(['myTestMachineVeryRare']),
'/Overlay/myTestMachineVeryRare':
S_OK(['other_energy_tev', '1tev']),
'/Overlay/myTestMachineVeryRare/1tev': S_ERROR('bla')
}
ops_mock = Mock()
ops_mock.getSections.side_effect = lambda path: section_dict[path]
self.olin._ops = ops_mock
self.olin.machine = 'myTestMachineVeryRare'
assertDiracFailsWith(self.olin._checkFinalConsistency(),
'could not find the detector models', self)
def test_checkfinalconsistency_detectormodelnotfound(self):
self.olin.energy = 981324
section_dict = {
'/Overlay': ['myTestMachineVeryRare'],
'/Overlay/myTestMachineVeryRare': ['other_energy_tev', '981.3gev'],
'/Overlay/myTestMachineVeryRare/981.3tev':
['some_other_detector_model', 'neither_this']
}
ops_mock = Mock()
ops_mock.getSections.side_effect = lambda path: S_OK(section_dict[path]
)
self.olin._ops = ops_mock
self.olin.machine = 'myTestMachineVeryRare'
assertDiracFailsWith(self.olin._checkFinalConsistency(),
'no overlay files corresponding to 981.3tev',
self)
def test_checkfinalconsistency_nobkg(self):
self.olin.detectorModel = 'testDetMod'
self.olin.energy = 981000
section_dict = {
'/Overlay': ['myTestMachineVeryRare'],
'/Overlay/myTestMachineVeryRare': ['other_energy_tev', '981tev'],
'/Overlay/myTestMachineVeryRare/981tev': ['testDetMod']
}
ops_mock = Mock()
ops_mock.getSections.side_effect = lambda path: S_OK(section_dict[path]
)
self.olin._ops = ops_mock
self.olin.machine = 'myTestMachineVeryRare'
with patch.object(inspect.getmodule(OverlayInput),
'allowedBkg',
new=Mock(return_value=S_ERROR('bkg_test_err'))):
assertDiracFailsWith(self.olin._checkFinalConsistency(),
'bkg_test_err', self)
def test_checkfinalconsistency_negativeprodid(self):
self.olin.detectorModel = 'testDetMod'
self.olin.energy = 981000
section_dict = {
'/Overlay': ['myTestMachineVeryRare'],
'/Overlay/myTestMachineVeryRare': ['other_energy_tev', '981tev'],
'/Overlay/myTestMachineVeryRare/981tev': ['testDetMod']
}
ops_mock = Mock()
ops_mock.getSections.side_effect = lambda path: S_OK(section_dict[path]
)
self.olin._ops = ops_mock
self.olin.machine = 'myTestMachineVeryRare'
with patch.object(inspect.getmodule(OverlayInput),
'allowedBkg',
new=Mock(return_value=S_OK(-147))):
assertDiracFailsWith(self.olin._checkFinalConsistency(),
'no proper production id found', self)
def test_checkfinalconsistency(self):
self.olin.detectorModel = 'testDetMod'
self.olin.energy = 981000
section_dict = {
'/Overlay': ['myTestMachineVeryRare'],
'/Overlay/myTestMachineVeryRare': ['other_energy_tev', '981tev'],
'/Overlay/myTestMachineVeryRare/981tev': ['testDetMod']
}
ops_mock = Mock()
ops_mock.getSections.side_effect = lambda path: S_OK(section_dict[path]
)
self.olin._ops = ops_mock
self.olin.machine = 'myTestMachineVeryRare'
with patch.object(inspect.getmodule(OverlayInput),
'allowedBkg',
new=Mock(return_value=S_OK(13987))):
assertDiracSucceeds(self.olin._checkFinalConsistency(), self)
outdst = "toto-ovl.dst.slcio" #% i
outrec = "toto-ovl.rec.slcio" #% i
d= DiracILC(True,"repo.rep")
###In case one wants a loop: comment the folowing.
#for i in range(2):
j = UserJob()
j.setJobGroup("Tutorial")
j.setName("MarlinOverlayExample")#%i)
j.setInputSandbox([setting_file])
## Define the overlay
ov = OverlayInput()
ov.setMachine("ilc_dbd")
ov.setEnergy(energy)
ov.setNumberOfSignalEventsPerJob(n_events_per_job)
ov.setBXOverlay(BXOverlay)
ov.setGGToHadInt(GGToHadInt500)
ov.setBkgEvtType("aa_lowpt")
# ov.setBackgroundType("aa_lowpt")
ov.setDetectorModel("ILD_o1_v05")
res = j.append(ov)
if not res['OK']:
print res['Message']
exit(1)
## Define Marlin job
ma = Marlin()
ma.setDebug()
class OverlayInputTestCase( unittest.TestCase ):
""" Base class for the OverlayInput test cases
"""
def setUp(self):
"""set up the objects"""
self.olin = OverlayInput( {} )
def test_setters( self ):
assertEqualsImproved( ( self.olin.machine, self.olin.prodID, self.olin.useEnergyForFileLookup,
self.olin.detectorModel, self.olin.backgroundEventType ),
( 'clic_cdr', 0, True, '', '' ), self )
self.assertFalse( self.olin._errorDict )
self.olin.setMachine( 'mytestMachine' )
assertDiracSucceeds( self.olin.setProdID( 14983 ), self )
self.olin.setUseEnergyForFileLookup( False )
self.olin.setDetectorModel( 'mytestDetector' )
self.olin.setBackgroundType( 'myBackgroundParticle.Testme' )
assertEqualsImproved( ( self.olin.machine, self.olin.prodID, self.olin.useEnergyForFileLookup,
self.olin.detectorModel, self.olin.backgroundEventType ),
( 'mytestMachine', 14983, False, 'mytestDetector', 'myBackgroundParticle.Testme' ),
self )
self.assertFalse( self.olin._errorDict )
def test_setters_checks( self ):
self.olin.setMachine( { '138rj' : True } )
self.olin.setProdID( [] )
self.olin.setUseEnergyForFileLookup( 'False' )
self.olin.setDetectorModel( 9024 )
self.olin.setBackgroundType( 8914 )
assertEqualsImproved( len( self.olin._errorDict['_checkArgs'] ), 5, self )
def test_userjobmodules( self ):
with patch.object(self.olin, '_setApplicationModuleAndParameters', new=Mock(return_value=S_OK())):
assertDiracSucceeds( self.olin._userjobmodules( Mock() ), self )
def test_userjobmodules_fails( self ):
with patch.object(self.olin, '_setApplicationModuleAndParameters', new=Mock(return_value=S_ERROR('bla'))):
assertDiracFailsWith( self.olin._userjobmodules( Mock() ), 'userjobmodules failed', self )
def test_prodjobmodules( self ):
with patch.object(self.olin, '_setApplicationModuleAndParameters', new=Mock(return_value=S_OK())):
assertDiracSucceeds( self.olin._prodjobmodules( Mock() ), self )
def test_prodjobmodules_fails( self ):
with patch.object(self.olin, '_setApplicationModuleAndParameters', new=Mock(return_value=S_ERROR('bla'))):
assertDiracFailsWith( self.olin._prodjobmodules( Mock() ), 'prodjobmodules failed', self )
def test_addparameterstostep_fails( self ):
with patch.object(self.olin, '_addBaseParameters', new=Mock(return_value=S_ERROR('bla'))):
assertDiracFailsWith( self.olin._addParametersToStep( Mock() ), 'failed to set base param', self )
def test_addparameterstostep( self ):
with patch.object(self.olin, '_addBaseParameters', new=Mock(return_value=S_OK())):
assertDiracSucceeds( self.olin._addParametersToStep( Mock() ), self )
def test_checkconsistency( self ):
self.olin.pathToOverlayFiles = ''
self.olin.bxToOverlay = True
self.olin.numberOfGGToHadronInteractions = 1345
self.olin.backgroundEventType = 'myTestBGEvt'
self.olin._jobtype = 'notUser'
assertDiracSucceeds( self.olin._checkConsistency(), self )
assertEqualsImproved(
( self.olin.prodparameters['detectorModel'], self.olin.prodparameters['BXOverlay'],
self.olin.prodparameters['GGtoHadInt'] ),
( '', True, 1345 ), self )
def test_checkconsistency_nofilesinpath( self ):
self.olin.pathToOverlayFiles = '/my/path/overlay.files'
with patch('DIRAC.Resources.Catalog.FileCatalogClient.FileCatalogClient.findFilesByMetadata', new=Mock(return_value=S_OK([]))) as fcc_mock:
assertDiracFailsWith( self.olin._checkConsistency(), 'no files in that path', self )
fcc_mock.assert_called_once_with( {}, '/my/path/overlay.files' )
def test_checkconsistency_no_bunchcrossings( self ):
self.olin.pathToOverlayFiles = ''
self.olin.bxToOverlay = None
assertDiracFailsWith( self.olin._checkConsistency(), 'number of overlay bunch crossings not defined', self )
def test_checkconsistency_no_backgroundevts( self ):
self.olin.pathToOverlayFiles = ''
self.olin.bxToOverlay = True
self.olin.numberOfGGToHadronInteractions = 0
assertDiracFailsWith( self.olin._checkConsistency(), 'background events per bunch crossing is not defined',
self )
def test_checkconsistency_no_bgevttype( self ):
self.olin.pathToOverlayFiles = ''
self.olin.bxToOverlay = True
self.olin.numberOfGGToHadronInteractions = 1345
self.olin.backgroundEventType = ''
assertDiracFailsWith( self.olin._checkConsistency(), 'event type is not defined', self )
def test_checkconsistency_nosignalevtperjob( self ):
self.olin.pathToOverlayFiles = ''
self.olin.bxToOverlay = True
self.olin.numberOfGGToHadronInteractions = 1345
self.olin.backgroundEventType = 'gghad'
self.olin._jobtype = 'User'
self.olin.numberOfSignalEventsPerJob = 0
assertDiracFailsWith( self.olin._checkConsistency(), 'signal event per job is not defined',
self )
def test_checkfinalconsistency_simple( self ):
self.olin.pathToOverlayFiles = 'some/path'
assertDiracSucceeds( self.olin._checkFinalConsistency(), self )
def test_checkfinalconsistency_noenergy( self ):
self.olin.energy = 0
assertDiracFailsWith( self.olin._checkFinalConsistency(), 'energy must be specified', self )
def test_checkfinalconsistency_ops_fails( self ):
ops_mock = Mock()
ops_mock.getSections.return_value=S_ERROR('some_ops_error')
self.olin._ops = ops_mock
self.olin.energy = 198
assertDiracFailsWith( self.olin._checkFinalConsistency(), 'could not resolve the cs path', self )
def test_checkfinalconsistency_machinemissing( self ):
ops_mock = Mock()
ops_mock.getSections.return_value=S_OK( [ 'allowed_machine_1', 'other_mach' ] )
self.olin._ops = ops_mock
self.olin.machine = 'myTestMachineVeryRare'
self.olin.energy = 198
assertDiracFailsWith( self.olin._checkFinalConsistency(),
'machine mytestmachineveryrare does not have overlay data', self )
def test_checkfinalconsistency_energynotfound( self ):
self.olin.energy = 824
section_dict = { '/Overlay' : [ 'myTestMachineVeryRare' ],
'/Overlay/myTestMachineVeryRare' : [ 'other_energy_tev', '824tev' ] }
ops_mock = Mock()
ops_mock.getSections.side_effect=lambda path: S_OK( section_dict[path] )
self.olin._ops = ops_mock
self.olin.machine = 'myTestMachineVeryRare'
assertDiracFailsWith( self.olin._checkFinalConsistency(),
'no overlay files corresponding to 824gev', self )
def test_checkfinalconsistency_nodetectormodels( self ):
self.olin.energy = 1000.0
section_dict = { '/Overlay' : S_OK( [ 'myTestMachineVeryRare' ] ),
'/Overlay/myTestMachineVeryRare' : S_OK( [ 'other_energy_tev', '1tev' ] ),
'/Overlay/myTestMachineVeryRare/1tev' : S_ERROR('bla') }
ops_mock = Mock()
ops_mock.getSections.side_effect=lambda path: section_dict[path]
self.olin._ops = ops_mock
self.olin.machine = 'myTestMachineVeryRare'
assertDiracFailsWith( self.olin._checkFinalConsistency(),
'could not find the detector models', self )
def test_checkfinalconsistency_detectormodelnotfound( self ):
self.olin.energy = 981324
section_dict = { '/Overlay' : [ 'myTestMachineVeryRare' ],
'/Overlay/myTestMachineVeryRare' : [ 'other_energy_tev', '981.3gev' ],
'/Overlay/myTestMachineVeryRare/981.3tev' : [ 'some_other_detector_model',
'neither_this' ] }
ops_mock = Mock()
ops_mock.getSections.side_effect=lambda path: S_OK( section_dict[path] )
self.olin._ops = ops_mock
self.olin.machine = 'myTestMachineVeryRare'
assertDiracFailsWith( self.olin._checkFinalConsistency(),
'no overlay files corresponding to 981.3tev', self )
def test_checkfinalconsistency_nobkg( self ):
self.olin.detectorModel = 'testDetMod'
self.olin.energy = 981000
section_dict = { '/Overlay' : [ 'myTestMachineVeryRare' ],
'/Overlay/myTestMachineVeryRare' : [ 'other_energy_tev', '981tev' ],
'/Overlay/myTestMachineVeryRare/981tev' : [ 'testDetMod' ] }
ops_mock = Mock()
ops_mock.getSections.side_effect=lambda path: S_OK( section_dict[path] )
self.olin._ops = ops_mock
self.olin.machine = 'myTestMachineVeryRare'
with patch.object(inspect.getmodule(OverlayInput), 'allowedBkg', new=Mock(return_value=S_ERROR('bkg_test_err'))):
assertDiracFailsWith( self.olin._checkFinalConsistency(), 'bkg_test_err', self )
def test_checkfinalconsistency_negativeprodid( self ):
self.olin.detectorModel = 'testDetMod'
self.olin.energy = 981000
section_dict = { '/Overlay' : [ 'myTestMachineVeryRare' ],
'/Overlay/myTestMachineVeryRare' : [ 'other_energy_tev', '981tev' ],
'/Overlay/myTestMachineVeryRare/981tev' : [ 'testDetMod' ] }
ops_mock = Mock()
ops_mock.getSections.side_effect=lambda path: S_OK( section_dict[path] )
self.olin._ops = ops_mock
self.olin.machine = 'myTestMachineVeryRare'
with patch.object(inspect.getmodule(OverlayInput), 'allowedBkg', new=Mock(return_value=S_OK(-147))):
assertDiracFailsWith( self.olin._checkFinalConsistency(), 'no proper production id found', self )
def test_checkfinalconsistency( self ):
self.olin.detectorModel = 'testDetMod'
self.olin.energy = 981000
section_dict = { '/Overlay' : [ 'myTestMachineVeryRare' ],
'/Overlay/myTestMachineVeryRare' : [ 'other_energy_tev', '981tev' ],
'/Overlay/myTestMachineVeryRare/981tev' : [ 'testDetMod' ] }
ops_mock = Mock()
ops_mock.getSections.side_effect=lambda path: S_OK( section_dict[path] )
self.olin._ops = ops_mock
self.olin.machine = 'myTestMachineVeryRare'
with patch.object(inspect.getmodule(OverlayInput), 'allowedBkg', new=Mock(return_value=S_OK(13987))):
assertDiracSucceeds( self.olin._checkFinalConsistency(), self )
