def run(): kernel = DDG4.Kernel() description = kernel.detectorDescription() install_dir = os.environ['DD4hepExamplesINSTALL'] kernel.loadGeometry( str("file:" + install_dir + "/examples/ClientTests/compact/LheD_tracker.xml")) DDG4.importConstants(description, debug=False) geant4 = DDG4.Geant4(kernel, tracker='Geant4TrackerCombineAction') geant4.printDetectors() # Configure UI geant4.setupCshUI() # geant4.setupCshUI('csh',True,True) # geant4.setupCshUI('csh',True,True,'vis.mac') if len(sys.argv) >= 2 and sys.argv[1] == "batch": kernel.UI = '' # Configure field geant4.setupTrackingField(prt=True) # Configure Event actions prt = DDG4.EventAction(kernel, 'Geant4ParticlePrint/ParticlePrint') prt.OutputLevel = Output.WARNING # Output.WARNING prt.OutputType = 3 # Print both: table and tree kernel.eventAction().adopt(prt) # Configure I/O geant4.setupROOTOutput('RootOutput', 'LHeD_tracker_' + time.strftime('%Y-%m-%d_%H-%M')) gen = geant4.setupGun("Gun", particle='geantino', energy=20 * GeV, position=(0 * mm, 0 * mm, 0 * cm), multiplicity=3) gen.isotrop = False gen.direction = (1, 0, 0) gen.OutputLevel = Output.WARNING # seq,act = geant4.setupTracker('SiVertexBarrel') # Now build the physics list: phys = geant4.setupPhysics('QGSP_BERT') ph = DDG4.PhysicsList(kernel, 'Geant4PhysicsList/Myphysics') ph.addParticleConstructor(str('G4Geantino')) ph.addParticleConstructor(str('G4BosonConstructor')) ph.enableUI() phys.adopt(ph) phys.dump() kernel.configure() kernel.initialize() # DDG4.setPrintLevel(Output.DEBUG) kernel.run() logger.info('End of run. Terminating .......') kernel.terminate()
def setupPhysics(self, model): phys = self.geant4.setupPhysics(model) ph = DDG4.PhysicsList(self.kernel, 'Geant4PhysicsList/Myphysics') # Add bosons to the model (redundant if already implemented by the model) ph.addParticleConstructor('G4BosonConstructor') # Add leptons to the model (redundant if already implemented by the model) ph.addParticleConstructor('G4LeptonConstructor') # Add multiple scattering in the material ph.addParticleProcess('e[+-]', 'G4eMultipleScattering', -1, 1, 1) # Add optical physics (RICH dets etc) ph.addPhysicsConstructor('G4OpticalPhysics') # Interactivity ph.enableUI() phys.adopt(ph) phys.dump() return phys
def run(): kernel = DDG4.Kernel() install_dir = os.environ['DD4hepExamplesINSTALL'] kernel.loadGeometry( str("file:" + install_dir + "/examples/OpticalSurfaces/compact/OpNovice.xml")) DDG4.importConstants(kernel.detectorDescription(), debug=False) geant4 = DDG4.Geant4(kernel, tracker='Geant4TrackerCombineAction') geant4.printDetectors() # Configure UI if len(sys.argv) > 1: geant4.setupCshUI(macro=sys.argv[1]) else: geant4.setupCshUI() # Configure field geant4.setupTrackingField(prt=True) # Configure Event actions prt = DDG4.EventAction(kernel, 'Geant4ParticlePrint/ParticlePrint') prt.OutputLevel = Output.DEBUG prt.OutputType = 3 # Print both: table and tree kernel.eventAction().adopt(prt) generator_output_level = Output.INFO # Configure G4 geometry setup seq, act = geant4.addDetectorConstruction( "Geant4DetectorGeometryConstruction/ConstructGeo") act.DebugMaterials = True act.DebugElements = False act.DebugVolumes = True act.DebugShapes = True act.DebugSurfaces = True # Configure I/O # evt_root = geant4.setupROOTOutput('RootOutput','OpNovice_'+time.strftime('%Y-%m-%d_%H-%M')) # Setup particle gun gun = geant4.setupGun("Gun", particle='gamma', energy=5 * keV, multiplicity=1) gun.OutputLevel = generator_output_level # And handle the simulation particles. """ part = DDG4.GeneratorAction(kernel,"Geant4ParticleHandler/ParticleHandler") kernel.generatorAction().adopt(part) part.SaveProcesses = ['Decay'] part.MinimalKineticEnergy = 100*MeV part.OutputLevel = Output.INFO #generator_output_level part.enableUI() user = DDG4.Action(kernel,"Geant4TCUserParticleHandler/UserParticleHandler") user.TrackingVolume_Zmax = 3.0*m user.TrackingVolume_Rmax = 3.0*m user.enableUI() part.adopt(user) """ geant4.setupTracker('BubbleDevice') # Now build the physics list: phys = geant4.setupPhysics('') ph = DDG4.PhysicsList(kernel, 'Geant4OpticalPhotonPhysics/OpticalGammaPhys') ph.VerboseLevel = 2 ph.addParticleGroup('G4BosonConstructor') ph.addParticleGroup('G4LeptonConstructor') ph.addParticleGroup('G4MesonConstructor') ph.addParticleGroup('G4BaryonConstructor') ph.addParticleGroup('G4IonConstructor') ph.addParticleConstructor('G4OpticalPhoton') ph.addDiscreteParticleProcess('gamma', 'G4GammaConversion') ph.addDiscreteParticleProcess('gamma', 'G4ComptonScattering') ph.addDiscreteParticleProcess('gamma', 'G4PhotoElectricEffect') ph.addParticleProcess(str('e[+-]'), str('G4eMultipleScattering'), -1, 1, 1) ph.addParticleProcess(str('e[+-]'), str('G4eIonisation'), -1, 2, 2) ph.addParticleProcess(str('e[+-]'), str('G4eBremsstrahlung'), -1, 3, 3) ph.addParticleProcess(str('e+'), str('G4eplusAnnihilation'), 0, -1, 4) ph.addParticleProcess(str('mu[+-]'), str('G4MuMultipleScattering'), -1, 1, 1) ph.addParticleProcess(str('mu[+-]'), str('G4MuIonisation'), -1, 2, 2) ph.addParticleProcess(str('mu[+-]'), str('G4MuBremsstrahlung'), -1, 3, 3) ph.addParticleProcess(str('mu[+-]'), str('G4MuPairProduction'), -1, 4, 4) ph.enableUI() phys.adopt(ph) ph = DDG4.PhysicsList(kernel, 'Geant4ScintillationPhysics/ScintillatorPhys') ph.ScintillationYieldFactor = 1.0 ph.ScintillationExcitationRatio = 1.0 ph.TrackSecondariesFirst = False ph.VerboseLevel = 2 ph.enableUI() phys.adopt(ph) ph = DDG4.PhysicsList(kernel, 'Geant4CerenkovPhysics/CerenkovPhys') ph.MaxNumPhotonsPerStep = 10 ph.MaxBetaChangePerStep = 10.0 ph.TrackSecondariesFirst = True ph.VerboseLevel = 2 ph.enableUI() phys.adopt(ph) phys.dump() geant4.execute()
def run(self): """setup the geometry and dd4hep and geant4 and do what was asked to be done""" import ROOT ROOT.PyConfig.IgnoreCommandLineOptions = True import DDG4, dd4hep self.printLevel = getOutputLevel(self.printLevel) kernel = DDG4.Kernel() dd4hep.setPrintLevel(self.printLevel) #kernel.setOutputLevel('Compact',1) kernel.loadGeometry("file:" + self.compactFile) detectorDescription = kernel.detectorDescription() DDG4.importConstants(detectorDescription) #---------------------------------------------------------------------------------- #simple = DDG4.Geant4( kernel, tracker='Geant4TrackerAction',calo='Geant4CalorimeterAction') #simple = DDG4.Geant4( kernel, tracker='Geant4TrackerCombineAction',calo='Geant4ScintillatorCalorimeterAction') simple = DDG4.Geant4(kernel, tracker=self.action.tracker, calo=self.action.calo) simple.printDetectors() if self.runType == "vis": simple.setupUI(typ="csh", vis=True, macro=self.macroFile) elif self.runType == "run": simple.setupUI(typ="csh", vis=False, macro=self.macroFile, ui=False) elif self.runType == "shell": simple.setupUI(typ="csh", vis=False, macro=None, ui=True) elif self.runType == "batch": simple.setupUI(typ="csh", vis=False, macro=None, ui=False) else: print "ERROR: unknown runType" exit(1) #kernel.UI="csh" kernel.NumEvents = self.numberOfEvents #----------------------------------------------------------------------------------- # setup the magnetic field: self.__setMagneticFieldOptions(simple) #---------------------------------------------------------------------------------- # Configure Run actions run1 = DDG4.RunAction(kernel, 'Geant4TestRunAction/RunInit') kernel.registerGlobalAction(run1) kernel.runAction().add(run1) # Configure the random seed, do it before the I/O because we might change the seed! _rndm = self.random.initialize(DDG4, kernel, self.output.random) # Configure I/O if self.outputFile.endswith(".slcio"): lcOut = simple.setupLCIOOutput('LcioOutput', self.outputFile) lcOut.RunHeader = self.meta.addParametersToRunHeader(self) lcOut.EventParametersString, lcOut.EventParametersInt, lcOut.EventParametersFloat = self.meta.parseEventParameters( ) lcOut.RunNumberOffset = self.meta.runNumberOffset if self.meta.runNumberOffset > 0 else 0 lcOut.EventNumberOffset = self.meta.eventNumberOffset if self.meta.eventNumberOffset > 0 else 0 elif self.outputFile.endswith(".root"): simple.setupROOTOutput('RootOutput', self.outputFile) actionList = [] if self.enableGun: gun = DDG4.GeneratorAction(kernel, "Geant4ParticleGun/" + "Gun") self.gun.setOptions(gun) gun.Standalone = False gun.Mask = 1 actionList.append(gun) self.__applyBoostOrSmear(kernel, actionList, 1) print "++++ Adding DD4hep Particle Gun ++++" if self.enableG4Gun: ## GPS Create something self._g4gun = DDG4.GeneratorAction(kernel, "Geant4GeneratorWrapper/Gun") self._g4gun.Uses = 'G4ParticleGun' self._g4gun.Mask = 2 print "++++ Adding Geant4 Particle Gun ++++" actionList.append(self._g4gun) if self.enableG4GPS: ## GPS Create something self._g4gps = DDG4.GeneratorAction(kernel, "Geant4GeneratorWrapper/GPS") self._g4gps.Uses = 'G4GeneralParticleSource' self._g4gps.Mask = 3 print "++++ Adding Geant4 General Particle Source ++++" actionList.append(self._g4gps) for index, inputFile in enumerate(self.inputFiles, start=4): if inputFile.endswith(".slcio"): gen = DDG4.GeneratorAction(kernel, "LCIOInputAction/LCIO%d" % index) gen.Parameters = self.lcio.getParameters() gen.Input = "LCIOFileReader|" + inputFile elif inputFile.endswith(".stdhep"): gen = DDG4.GeneratorAction(kernel, "LCIOInputAction/STDHEP%d" % index) gen.Input = "LCIOStdHepReader|" + inputFile elif inputFile.endswith(".HEPEvt"): gen = DDG4.GeneratorAction( kernel, "Geant4InputAction/HEPEvt%d" % index) gen.Input = "Geant4EventReaderHepEvtShort|" + inputFile elif inputFile.endswith(".hepevt"): gen = DDG4.GeneratorAction( kernel, "Geant4InputAction/hepevt%d" % index) gen.Input = "Geant4EventReaderHepEvtLong|" + inputFile elif inputFile.endswith(".hepmc"): gen = DDG4.GeneratorAction(kernel, "Geant4InputAction/hepmc%d" % index) gen.Input = "Geant4EventReaderHepMC|" + inputFile elif inputFile.endswith(".pairs"): gen = DDG4.GeneratorAction( kernel, "Geant4InputAction/GuineaPig%d" % index) gen.Input = "Geant4EventReaderGuineaPig|" + inputFile gen.Parameters = self.guineapig.getParameters() else: ##this should never happen because we already check at the top, but in case of some LogicError... raise RuntimeError("Unknown input file type: %s" % inputFile) gen.Sync = self.skipNEvents gen.Mask = index actionList.append(gen) self.__applyBoostOrSmear(kernel, actionList, index) if actionList: self._buildInputStage(simple, actionList, output_level=self.output.inputStage, have_mctruth=self._enablePrimaryHandler()) #================================================================================================ # And handle the simulation particles. part = DDG4.GeneratorAction(kernel, "Geant4ParticleHandler/ParticleHandler") kernel.generatorAction().adopt(part) #part.SaveProcesses = ['conv','Decay'] part.SaveProcesses = self.part.saveProcesses part.MinimalKineticEnergy = self.part.minimalKineticEnergy part.KeepAllParticles = self.part.keepAllParticles part.PrintEndTracking = self.part.printEndTracking part.PrintStartTracking = self.part.printStartTracking part.MinDistToParentVertex = self.part.minDistToParentVertex part.OutputLevel = self.output.part part.enableUI() if self.part.enableDetailedHitsAndParticleInfo: self.part.setDumpDetailedParticleInfo(kernel, DDG4) self.part.setupUserParticleHandler(part, kernel, DDG4) #================================================================================= # Setup global filters for use in sensitive detectors try: self.filter.setupFilters(kernel) except RuntimeError as e: print "ERROR", str(e) exit(1) #================================================================================= # get lists of trackers and calorimeters in detectorDescription trk, cal = self.getDetectorLists(detectorDescription) # ---- add the trackers: try: self.__setupSensitiveDetectors(trk, simple.setupTracker, self.filter.tracker) except Exception as e: print "ERROR setting up sensitive detector", str(e) raise # ---- add the calorimeters: try: self.__setupSensitiveDetectors(cal, simple.setupCalorimeter, self.filter.calo) except Exception as e: print "ERROR setting up sensitive detector", str(e) raise #================================================================================= # Now build the physics list: _phys = self.physics.setupPhysics(kernel, name=self.physicsList) ## add the G4StepLimiterPhysics to activate the max step limits in volumes ph = DDG4.PhysicsList(kernel, 'Geant4PhysicsList/Myphysics') ph.addPhysicsConstructor('G4StepLimiterPhysics') _phys.add(ph) dd4hep.setPrintLevel(self.printLevel) kernel.configure() kernel.initialize() ## GPS if self._g4gun is not None: self._g4gun.generator() if self._g4gps is not None: self._g4gps.generator() startUpTime, _sysTime, _cuTime, _csTime, _elapsedTime = os.times() kernel.run() kernel.terminate() totalTimeUser, totalTimeSys, _cuTime, _csTime, _elapsedTime = os.times( ) if self.printLevel <= 3: print "DDSim INFO Total Time: %3.2f s (User), %3.2f s (System)" % ( totalTimeUser, totalTimeSys) if self.numberOfEvents != 0: eventTime = totalTimeUser - startUpTime perEventTime = eventTime / float(self.numberOfEvents) print "DDSim INFO StartUp Time: %3.2f s, Event Processing: %3.2f s (%3.2f s/Event) " \ % (startUpTime, eventTime, perEventTime)
def run(): global geant4 kernel = DDG4.Kernel() description = kernel.detectorDescription() install_dir = os.environ['DD4hepINSTALL'] kernel.loadGeometry(str("file:" + install_dir + "/DDDetectors/compact/SiD_Markus.xml")) DDG4.importConstants(description) DDG4.Core.setPrintLevel(Output.DEBUG) DDG4.Core.setPrintFormat(str("%-32s %6s %s")) kernel.NumberOfThreads = 1 geant4 = DDG4.Geant4(kernel, tracker='Geant4TrackerWeightedAction') geant4.printDetectors() # Configure UI geant4.setupCshUI() # Geant4 user initialization action geant4.addUserInitialization(worker=setupWorker, master=setupMaster) # Configure G4 geometry setup seq, act = geant4.addDetectorConstruction("Geant4DetectorGeometryConstruction/ConstructGeo") # Configure G4 magnetic field tracking self.setupTrackingFieldMT() # noqa: F821 seq, act = geant4.addDetectorConstruction("Geant4PythonDetectorConstruction/DummyDet", geometry=dummy_geom, sensitives=dummy_sd) # Configure G4 sensitive detectors seq, act = geant4.addDetectorConstruction("Geant4PythonDetectorConstruction/SetupSD", sensitives=setupSensitives) # Configure G4 sensitive detectors seq, act = geant4.addDetectorConstruction("Geant4DetectorSensitivesConstruction/ConstructSD", allow_threads=True) # Setup random generator rndm = DDG4.Action(kernel, 'Geant4Random/Random') rndm.Seed = 987654321 rndm.initialize() # Setup global filters fur use in sensntive detectors f1 = DDG4.Filter(kernel, 'GeantinoRejectFilter/GeantinoRejector') kernel.registerGlobalFilter(f1) # seq,act = geant4.setupTracker('SiTrackerBarrel') # seq,act = geant4.setupTracker('SiTrackerEndcap') # seq,act = geant4.setupTracker('SiTrackerForward') # Now the calorimeters # seq,act = geant4.setupCalorimeter('EcalBarrel') # seq,act = geant4.setupCalorimeter('EcalEndcap') # seq,act = geant4.setupCalorimeter('HcalBarrel') # seq,act = geant4.setupCalorimeter('HcalEndcap') # seq,act = geant4.setupCalorimeter('HcalPlug') # seq,act = geant4.setupCalorimeter('MuonBarrel') # seq,act = geant4.setupCalorimeter('MuonEndcap') # seq,act = geant4.setupCalorimeter('LumiCal') # seq,act = geant4.setupCalorimeter('BeamCal') # Now build the physics list: seq = geant4.setupPhysics('QGSP_BERT') phys = DDG4.PhysicsList(geant4.master(), 'Geant4PhysicsList/MyPhysics') part = DDG4.Action(geant4.master(), 'Geant4ExtraParticles/extraparts') part.pdgfile = 'checkout/DDG4/examples/particle.tbl' phys.adoptPhysicsConstructor(part.get()) seq.add(phys) geant4.run() # kernel.configure() # kernel.initialize() # DDG4.setPrintLevel(Output.DEBUG) # kernel.run() # kernel.terminate() return 1
def run(): kernel = DDG4.Kernel() install_dir = os.environ['DD4hepExamplesINSTALL'] kernel.loadGeometry("file:" + install_dir + "/examples/ClientTests/compact/SiliconBlock.xml") DDG4.importConstants(kernel.detectorDescription(), debug=False) geant4 = DDG4.Geant4(kernel, tracker='Geant4TrackerCombineAction') geant4.printDetectors() # Configure UI if len(sys.argv) > 1: geant4.setupCshUI(macro=sys.argv[1]) else: geant4.setupCshUI() # Configure field field = geant4.setupTrackingField(prt=True) # Configure Event actions prt = DDG4.EventAction(kernel, 'Geant4ParticlePrint/ParticlePrint') prt.OutputLevel = Output.DEBUG prt.OutputType = 3 # Print both: table and tree kernel.eventAction().adopt(prt) generator_output_level = Output.INFO # Configure G4 geometry setup seq, act = geant4.addDetectorConstruction( "Geant4DetectorGeometryConstruction/ConstructGeo") act.DebugMaterials = True act.DebugElements = False act.DebugVolumes = True act.DebugShapes = True # Configure I/O evt_root = geant4.setupROOTOutput( 'RootOutput', 'SiliconBlock_' + time.strftime('%Y-%m-%d_%H-%M')) # Setup particle gun gun = geant4.setupGun("Gun", particle='mu-', energy=20 * GeV, multiplicity=1) gun.OutputLevel = generator_output_level # And handle the simulation particles. part = DDG4.GeneratorAction(kernel, "Geant4ParticleHandler/ParticleHandler") kernel.generatorAction().adopt(part) part.SaveProcesses = ['Decay'] part.MinimalKineticEnergy = 100 * MeV part.OutputLevel = Output.INFO #generator_output_level part.enableUI() user = DDG4.Action(kernel, "Geant4TCUserParticleHandler/UserParticleHandler") user.TrackingVolume_Zmax = 3.0 * m user.TrackingVolume_Rmax = 3.0 * m user.enableUI() part.adopt(user) geant4.setupTracker('SiliconBlockUpper') geant4.setupTracker('SiliconBlockDown') # Now build the physics list: phys = geant4.setupPhysics('QGSP_BERT') ph = DDG4.PhysicsList(kernel, 'Geant4PhysicsList/Myphysics') ph.addParticleConstructor('G4Geantino') ph.addParticleConstructor('G4BosonConstructor') ph.enableUI() phys.adopt(ph) phys.dump() geant4.execute()
def run(): kernel = DDG4.Kernel() install_dir = os.environ['DD4hepINSTALL'] example_dir = install_dir+'/examples/DDG4/examples'; kernel.loadGeometry("file:"+install_dir+"/examples/CLICSiD/compact/compact.xml") kernel.loadXML("file:"+example_dir+"/DDG4_field.xml") simple = DDG4.Simple(kernel,tracker='LcioTestTrackerAction') simple.printDetectors() # Configure UI simple.setupCshUI() # Configure Run actions run1 = DDG4.RunAction(kernel,'Geant4TestRunAction/RunInit') run1.Property_int = 12345 run1.Property_double = -5e15*keV run1.Property_string = 'Startrun: Hello_2' print run1.Property_string, run1.Property_double, run1.Property_int run1.enableUI() kernel.registerGlobalAction(run1) kernel.runAction().add(run1) # Configure Event actions evt2 = DDG4.EventAction(kernel,'Geant4TestEventAction/UserEvent_2') evt2.Property_int = 123454321 evt2.Property_double = 5e15*GeV evt2.Property_string = 'Hello_2 from the python setup' evt2.enableUI() kernel.registerGlobalAction(evt2) evt1 = DDG4.EventAction(kernel,'Geant4TestEventAction/UserEvent_1') evt1.Property_int=01234 evt1.Property_double=1e11 evt1.Property_string='Hello_1' evt1.enableUI() kernel.eventAction().add(evt1) kernel.eventAction().add(evt2) """ trk = DDG4.Action(kernel,"Geant4TrackPersistency/MonteCarloTruthHandler") kernel.registerGlobalAction(trk) trk.release() mc = DDG4.Action(kernel,"Geant4MonteCarloRecordManager/MonteCarloRecordManager") kernel.registerGlobalAction(mc) mc.release() """ # Configure I/O evt_lcio = simple.setupLCIOOutput('LcioOutput','CLICSiD_'+time.strftime('%Y-%m-%d_%H-%M')) gen = DDG4.GeneratorAction(kernel,"Geant4TestGeneratorAction/Generate") kernel.generatorAction().add(gen) # Setup particle gun gun = simple.setupGun('Gun','pi-',100*GeV,True) """ rdr = DDG4.GeneratorAction(kernel,"LcioGeneratorAction/Reader") rdr.zSpread = 0.0 rdr.lorentzAngle = 0.0 rdr.OutputLevel = DDG4.OutputLevel.INFO rdr.Input = "LcioEventReader|test.data" rdr.enableUI() kernel.generatorAction().add(rdr) """ # Setup global filters fur use in sensintive detectors f1 = DDG4.Filter(kernel,'GeantinoRejectFilter/GeantinoRejector') kernel.registerGlobalFilter(f1) f2 = DDG4.Filter(kernel,'ParticleRejectFilter/OpticalPhotonRejector') f2.particle = 'opticalphoton' kernel.registerGlobalFilter(f2) f3 = DDG4.Filter(kernel,'ParticleSelectFilter/OpticalPhotonSelector') f3.particle = 'opticalphoton' kernel.registerGlobalFilter(f3) f4 = DDG4.Filter(kernel,'EnergyDepositMinimumCut') f4.Cut = 10*MeV f4.enableUI() kernel.registerGlobalFilter(f4) # First the tracking detectors seq,act = simple.setupTracker('SiVertexBarrel') seq.add(f1) #seq.add(f4) act.add(f1) seq,act = simple.setupTracker('SiVertexEndcap') seq.add(f1) #seq.add(f4) seq,act = simple.setupTracker('SiTrackerBarrel') seq,act = simple.setupTracker('SiTrackerEndcap') seq,act = simple.setupTracker('SiTrackerForward') # Now the calorimeters seq,act = simple.setupCalorimeter('EcalBarrel') seq,act = simple.setupCalorimeter('EcalEndcap') seq,act = simple.setupCalorimeter('HcalBarrel') seq,act = simple.setupCalorimeter('HcalEndcap') seq,act = simple.setupCalorimeter('HcalPlug') seq,act = simple.setupCalorimeter('MuonBarrel') seq,act = simple.setupCalorimeter('MuonEndcap') seq,act = simple.setupCalorimeter('LumiCal') seq,act = simple.setupCalorimeter('BeamCal') # Now build the physics list: phys = simple.setupPhysics('QGSP_BERT') ph = DDG4.PhysicsList(kernel,'Geant4PhysicsList/Myphysics') ph.addParticleConstructor('G4BosonConstructor') ph.addParticleConstructor('G4LeptonConstructor') ph.addParticleProcess('e[+-]','G4eMultipleScattering',-1,1,1) ph.addPhysicsConstructor('G4OpticalPhysics') ph.enableUI() phys.add(ph) phys.dump() kernel.configure() kernel.initialize() #DDG4.setPrintLevel(Output.DEBUG) kernel.run() kernel.terminate()
def run(): kernel = DDG4.Kernel() lcdd = kernel.lcdd() install_dir = os.environ['DD4hepINSTALL'] example_dir = install_dir + '/examples/DDG4/examples' kernel.loadGeometry("file:" + install_dir + "/DDDetectors/compact/SiD_Markus.xml") ##kernel.loadXML("file:"+example_dir+"/DDG4_field.xml") DDG4.importConstants(lcdd, debug=False) geant4 = DDG4.Geant4(kernel, tracker='Geant4TrackerCombineAction') geant4.printDetectors() # Configure UI #geant4.setupCshUI(macro='run.mac',ui=None) geant4.setupCshUI() field = geant4.addConfig( 'Geant4FieldTrackingSetupAction/MagFieldTrackingSetup') field.stepper = "HelixSimpleRunge" field.equation = "Mag_UsualEqRhs" field.eps_min = 5e-05 * mm field.eps_max = 0.001 * mm field.min_chord_step = 0.01 * mm field.delta_chord = 0.25 * mm field.delta_intersection = 1e-05 * mm field.delta_one_step = 0.001 * mm print '+++++> ', field.name, '-> stepper = ', field.stepper print '+++++> ', field.name, '-> equation = ', field.equation print '+++++> ', field.name, '-> eps_min = ', field.eps_min print '+++++> ', field.name, '-> eps_max = ', field.eps_max print '+++++> ', field.name, '-> delta_one_step = ', field.delta_one_step # Configure Run actions run1 = DDG4.RunAction(kernel, 'Geant4TestRunAction/RunInit') run1.enableUI() kernel.registerGlobalAction(run1) kernel.runAction().adopt(run1) # Configure Event actions prt = DDG4.EventAction(kernel, 'Geant4ParticlePrint/ParticlePrint') prt.OutputLevel = Output.WARNING prt.OutputType = 3 # Print both: table and tree kernel.eventAction().adopt(prt) generator_output_level = Output.WARNING # Configure I/O evt_lcio = geant4.setupLCIOOutput( 'LcioOutput', 'CLICSiD_' + time.strftime('%Y-%m-%d_%H-%M')) ##evt_lcio.OutputLevel = generator_output_level #evt_root = geant4.setupROOTOutput('RootOutput','CLICSiD_'+time.strftime('%Y-%m-%d_%H-%M')) prim = DDG4.GeneratorAction(kernel, "Geant4GeneratorActionInit/GenerationInit") #VVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVV """ Generation of primary particles from LCIO input files """ """ # First particle file reader gen = DDG4.GeneratorAction(kernel,"LCIOInputAction/LCIO1"); #gen.Input = "LCIOStdHepReader|/home/frankm/SW/data/e2e2nn_gen_1343_1.stdhep" #gen.Input = "LCIOStdHepReader|/home/frankm/SW/data/qq_gen_128_999.stdhep" #gen.Input = "LCIOStdHepReader|/home/frankm/SW/data/smuonLR_PointK_3TeV_BS_noBkg_run0001.stdhep" #gen.Input = "LCIOStdHepReader|/home/frankm/SW/data/bbbb_3TeV.stdhep" #gen.Input = "LCIOFileReader|/home/frankm/SW/data/mcparticles_pi-_5GeV.slcio" #gen.Input = "LCIOFileReader|/home/frankm/SW/data/mcparticles_mu-_5GeV.slcio" #gen.Input = "LCIOFileReader|/home/frankm/SW/data/bbbb_3TeV.slcio" #gen.Input = "LCIOStdHepReader|/home/frankm/SW/data/FCC-eh.stdhep" #gen.Input = "Geant4EventReaderHepMC|/home/frankm/SW/data/data.hepmc.txt" #gen.Input = "Geant4EventReaderHepMC|/home/frankm/SW/data/sherpa-2.1.1_zjets.hepmc2g" gen.Input = "LCIOFileReader|/afs/cern.ch/user/n/nikiforo/public/Markus/muons.slcio" #gen.Input = "LCIOFileReader|/afs/cern.ch/user/n/nikiforo/public/Markus/geantinos.slcio" gen.MomentumScale = 1.0 gen.Mask = 1 geant4.buildInputStage([gen],output_level=generator_output_level) """ #^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ gen = geant4.setupGun("Gun", particle='mu+', energy=20 * GeV, position=(0 * mm, 0 * mm, 0 * cm), multiplicity=3) gen.isotrop = True gen.direction = (1, 0, 0) gen.OutputLevel = generator_output_level gen.Standalone = False """ # And handle the simulation particles. part = DDG4.GeneratorAction(kernel,"Geant4ParticleHandler/ParticleHandler") kernel.generatorAction().adopt(part) #part.SaveProcesses = ['conv','Decay'] part.SaveProcesses = ['Decay'] part.MinimalKineticEnergy = 100*MeV part.OutputLevel = Output.INFO #generator_output_level part.enableUI() user = DDG4.Action(kernel,"Geant4TCUserParticleHandler/UserParticleHandler") user.TrackingVolume_Zmax = DDG4.EcalEndcap_zmin user.TrackingVolume_Rmax = DDG4.EcalBarrel_rmin user.enableUI() part.adopt(user) """ geant4.buildInputStage([prim, gen], Output.ERROR) """ """ """ rdr = DDG4.GeneratorAction(kernel,"LcioGeneratorAction/Reader") rdr.zSpread = 0.0 rdr.lorentzAngle = 0.0 rdr.OutputLevel = DDG4.OutputLevel.INFO rdr.Input = "LcioEventReader|test.data" rdr.enableUI() kernel.generatorAction().adopt(rdr) """ # First the tracking detectors seq, act = geant4.setupTracker('SiTrackerBarrel') seq, act = geant4.setupTracker('SiTrackerEndcap') seq, act = geant4.setupTracker('SiTrackerForward') """ # Now the calorimeters seq,act = geant4.setupTracker('SiVertexBarrel') seq,act = geant4.setupTracker('SiVertexEndcap') seq,act = geant4.setupCalorimeter('EcalBarrel') seq,act = geant4.setupCalorimeter('EcalEndcap') seq,act = geant4.setupCalorimeter('HcalBarrel') seq,act = geant4.setupCalorimeter('HcalEndcap') seq,act = geant4.setupCalorimeter('HcalPlug') seq,act = geant4.setupCalorimeter('MuonBarrel') seq,act = geant4.setupCalorimeter('MuonEndcap') seq,act = geant4.setupCalorimeter('LumiCal') seq,act = geant4.setupCalorimeter('BeamCal') """ """ scan = DDG4.SteppingAction(kernel,'Geant4MaterialScanner/MaterialScan') kernel.steppingAction().adopt(scan) """ # Now build the physics list: phys = geant4.setupPhysics('QGSP_BERT') ph = DDG4.PhysicsList(kernel, 'Geant4PhysicsList/Myphysics') ph.addParticleConstructor('G4Geantino') ph.addParticleConstructor('G4BosonConstructor') ph.enableUI() phys.adopt(ph) phys.dump() kernel.configure() kernel.initialize() #DDG4.setPrintLevel(Output.DEBUG) kernel.run() print 'End of run. Terminating .......' kernel.terminate()
def run(): kernel = DDG4.Kernel() install_dir = os.environ['DD4hepExamplesINSTALL'] kernel.loadGeometry("file:" + install_dir + "/examples/DDCodex/compact/CODEX-b-alone.xml") DDG4.importConstants(kernel.detectorDescription(), debug=False) geant4 = DDG4.Geant4(kernel, tracker='Geant4TrackerCombineAction') geant4.printDetectors() # Configure UI if len(sys.argv) > 1: geant4.setupCshUI(macro=sys.argv[1]) else: geant4.setupCshUI() # Configure field field = geant4.setupTrackingField(prt=True) # Configure Event actions prt = DDG4.EventAction(kernel, 'Geant4ParticlePrint/ParticlePrint') prt.OutputLevel = Output.WARNING prt.OutputType = 3 # Print both: table and tree kernel.eventAction().adopt(prt) # Configure I/O evt_root = geant4.setupROOTOutput( 'RootOutput', 'CodexB_' + time.strftime('%Y-%m-%d_%H-%M')) # Setup particle gun #gun = geant4.setupGun("Gun",particle='pi+', gun = geant4.setupGun( "Gun", particle='mu-', energy=1000 * GeV, multiplicity=1, isotrop=False, Standalone=True, direction=(1, 0, 0), #direction=(0.866025,0,0.5), position='(0,0,12650)') #position='(0,0,0)') setattr(gun, 'print', True) """ gen = DDG4.GeneratorAction(kernel,"Geant4InputAction/Input") ##gen.Input = "Geant4EventReaderHepMC|"+ "/afs/cern.ch/work/j/jongho/Project_DD4hep/Test/DD4hep/examples/DDG4/data/hepmc_geant4.dat" gen.Input = "Geant4EventReaderHepMC|"+ "/afs/cern.ch/work/j/jongho/Project_DD4hep/Test/DD4hep/DDG4/examples/MinBias_HepMC.txt" gen.MomentumScale = 1.0 gen.Mask = 1 geant4.buildInputStage([gen],output_level=Output.DEBUG) """ seq, action = geant4.setupTracker('CODEXb') #action.OutputLevel = Output.ERROR #seq,action = geant4.setupTracker('Shield') #action.OutputLevel = Output.ERROR # And handle the simulation particles. part = DDG4.GeneratorAction(kernel, "Geant4ParticleHandler/ParticleHandler") kernel.generatorAction().adopt(part) part.OutputLevel = Output.INFO part.enableUI() user = DDG4.Action(kernel, "Geant4TCUserParticleHandler/UserParticleHandler") user.TrackingVolume_Zmax = 999999. * m # Something big. All is a tracker user.TrackingVolume_Rmax = 999999. * m user.enableUI() part.adopt(user) # Now build the physics list: ##phys = kernel.physicsList() phys = geant4.setupPhysics('QGSP_BERT') ph = DDG4.PhysicsList(kernel, 'Geant4PhysicsList/Myphysics') ph.addParticleConstructor('G4LeptonConstructor') ph.addParticleConstructor('G4BaryonConstructor') ph.addParticleConstructor('G4MesonConstructor') ph.addParticleConstructor('G4BosonConstructor') ph.enableUI() phys.adopt(ph) phys.enableUI() phys.dump() # run kernel.configure() kernel.initialize() kernel.run() kernel.terminate()
def run(): import LHeD, DDG4, os, SystemOfUnits from DDG4 import OutputLevel as Output lhed = LHeD.LHeD() geant4 = lhed.geant4 kernel = lhed.kernel lhed.loadGeometry() geant4.printDetectors() kernel.UI = "UI" geant4.setupCshUI() lhed.setupField(quiet=False) DDG4.importConstants(kernel.detectorDescription(), debug=False) dd4hep_dir = os.environ['DD4hep'] kernel.loadXML("file:" + dd4hep_dir + "/examples/LHeD/scripts/DDG4_field.xml") geant4 = DDG4.Geant4(kernel, tracker='Geant4TrackerCombineAction') geant4.printDetectors() # Configure G4 magnetic field tracking field = geant4.addConfig( 'Geant4FieldTrackingSetupAction/MagFieldTrackingSetup') field.stepper = "HelixGeant4Runge" field.equation = "Mag_UsualEqRhs" field.eps_min = 5e-0520 * SystemOfUnits.mm field.eps_max = 0.001 * SystemOfUnits.mm field.min_chord_step = 0.01 * SystemOfUnits.mm field.delta_chord = 0.25 * SystemOfUnits.mm field.delta_intersection = 1e-05 * SystemOfUnits.mm field.delta_one_step = 0.001 * SystemOfUnits.mm print '+++++> ', field.name, '-> stepper = ', field.stepper print '+++++> ', field.name, '-> equation = ', field.equation print '+++++> ', field.name, '-> eps_min = ', field.eps_min print '+++++> ', field.name, '-> eps_max = ', field.eps_max print '+++++> ', field.name, '-> delta_one_step = ', field.delta_one_step """ # Setup random generator rndm = DDG4.Action(kernel,'Geant4Random/Random') rndm.Seed = 987654321 rndm.initialize() rndm.showStatus() rndm.Seed = 987654321 """ # Configure Run actions run1 = DDG4.RunAction(kernel, 'Geant4TestRunAction/RunInit') """ run1.Property_int = 12345 run1.Property_double = -5e15*keV run1.Property_string = 'Startrun: Hello_LHeD' print run1.Property_string, run1.Property_double, run1.Property_int """ run1.enableUI() kernel.registerGlobalAction(run1) kernel.runAction().adopt(run1) # Configure Event actions prt = DDG4.EventAction(kernel, 'Geant4ParticlePrint/ParticlePrint') prt.OutputLevel = Output.INFO prt.OutputType = 3 # Print both: table and tree kernel.eventAction().adopt(prt) # Configure I/O #evt_lcio = geant4.setupLCIOOutput('LcioOutput','Lhe_dip_sol_circ-higgs-bb') #evt_lcio.OutputLevel = Output.ERROR evt_root = geant4.setupROOTOutput('RootOutput', 'Lhe_dip_sol_circ-higgs-bb') evt_root.OutputLevel = Output.INFO gen = DDG4.GeneratorAction(kernel, "Geant4GeneratorActionInit/GenerationInit") kernel.generatorAction().adopt(gen) """ # First particle generator: e- non-isotropic generation using Gun: gun = DDG4.GeneratorAction(kernel,"Geant4ParticleGenerator/Gun"); gun.Particle = 'e-' gun.Energy = 60 * GeV gun.Multiplicity = 1 gun.Position = (0.*mm,0.*mm,0.*mm) gun.Direction = (1.,0.,0.) gun.Mask = 2 gun.enableUI() kernel.generatorAction().adopt(gun) # Install vertex smearing for this primary e- gen = DDG4.GeneratorAction(kernel,"Geant4InteractionVertexSmear/SmearE-"); gen.Mask = 1 gen.Sigma = (0*mm, 0*mm, 0*mm, 0*ns) kernel.generatorAction().adopt(gen) """ #VVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVV """ Generation of isotrope tracks of a given multiplicity with overlay: """ #VVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVV """ # First particle generator: pi+ gen = DDG4.GeneratorAction(kernel,"Geant4IsotropeGenerator/IsotropPi+"); gen.Particle = 'pi+' gen.Energy = 200*GeV gen.Multiplicity = 1 gen.Mask = 1 kernel.generatorAction().adopt(gen) # Install vertex smearing for this interaction gen = DDG4.GeneratorAction(kernel,"Geant4InteractionVertexSmear/SmearPi+"); gen.Mask = 1 gen.Offset = (20*mm, 10*mm, 10*mm, 0*ns) gen.Sigma = (4*mm, 1*mm, 1*mm, 0*ns) kernel.generatorAction().adopt(gen) # Second particle generator: e- gen = DDG4.GeneratorAction(kernel,"Geant4IsotropeGenerator/IsotropE-"); gen.Particle = 'e-' gen.Energy = 60 * GeV gen.Multiplicity = 2 gen.Mask = 2 kernel.generatorAction().adopt(gen) # Install vertex smearing for this interaction gen = DDG4.GeneratorAction(kernel,"Geant4InteractionVertexSmear/SmearE-"); gen.Mask = 2 gen.Offset = (-20*mm, -10*mm, -10*mm, 0*ns) gen.Sigma = (12*mm, 8*mm, 8*mm, 0*ns) kernel.generatorAction().adopt(gen) """ #^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ #VVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVV """ Generation of primary particles from LCIO input files """ #VVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVV # First particle file reader gen = DDG4.GeneratorAction(kernel, "LCIOInputAction/LCIO1") # gen.Input = "LCIOStdHepReader|/afs/.cern.ch/project/lhec/software/aidasoft/DD4hep/DD4hep/files/NC_bb_tag_2_pythia_events.hep" #gen.Input = "LCIOStdHepReader|/opt/DD4hep/files/NC_bb_tag_2_pythia_events.hep" gen.Input = "LCIOStdHepReader|/opt/DD4hep/files/lhec_for_peter/tag_2_pythia_events.hep" # gen.Input = "LCIOStdHepReader|/opt/DD4hep/files/single-top-tag_1_pythia_events.hep" # gen.Input = "Geant4EventReaderHepMC|/opt/DD4hep/files/ePb-q2-0-i.mc2" # gen.Input = "LCIOStdHepReader|/opt/DD4hep/files/single-top-tag_1_pythia_events.hep" # gen.Input = "LCIOStdHepReader|/opt/DD4hep/files/root.hep" gen.OutputLevel = 2 # generator_output_level gen.MomentumScale = 1.0 gen.Mask = 1 gen.enableUI() kernel.generatorAction().adopt(gen) # Install vertex smearing for this interaction gen = DDG4.GeneratorAction(kernel, "Geant4InteractionVertexSmear/Smear1") gen.OutputLevel = 4 #generator_output_level gen.Mask = 1 gen.Offset = (-20 * SystemOfUnits.mm, -10 * SystemOfUnits.mm, -10 * SystemOfUnits.mm, 0 * SystemOfUnits.ns) gen.Sigma = (12 * SystemOfUnits.mm, 8 * SystemOfUnits.mm, 8 * SystemOfUnits.mm, 0 * SystemOfUnits.ns) gen.enableUI() kernel.generatorAction().adopt(gen) #^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ # Merge all existing interaction records gen = DDG4.GeneratorAction(kernel, "Geant4InteractionMerger/InteractionMerger") gen.OutputLevel = 4 #generator_output_level gen.enableUI() kernel.generatorAction().adopt(gen) # Finally generate Geant4 primaries gen = DDG4.GeneratorAction(kernel, "Geant4PrimaryHandler/PrimaryHandler") gen.OutputLevel = 4 #generator_output_level gen.enableUI() kernel.generatorAction().adopt(gen) # And handle the simulation particles. part = DDG4.GeneratorAction(kernel, "Geant4ParticleHandler/ParticleHandler") kernel.generatorAction().adopt(part) #part.SaveProcesses = ['conv','Decay'] part.SaveProcesses = ['Decay'] part.MinimalKineticEnergy = 10 * SystemOfUnits.MeV part.OutputLevel = 5 # generator_output_level part.enableUI() user = DDG4.Action(kernel, "Geant4TCUserParticleHandler/UserParticleHandler") user.TrackingVolume_Zmax = DDG4.EcalEndcap_zmin_fwd user.TrackingVolume_Rmax = DDG4.EcalBarrel_rmin user.enableUI() part.adopt(user) """ rdr = DDG4.GeneratorAction(kernel,"LcioGeneratorAction/Reader") rdr.zSpread = 0.0 rdr.lorentzAngle = 0.0 rdr.OutputLevel = DDG4.OutputLevel.INFO rdr.Input = "LcioEventReader|test.data" rdr.enableUI() kernel.generatorAction().adopt(rdr) """ # Setup global filters fur use in sensntive detectors f1 = DDG4.Filter(kernel, 'GeantinoRejectFilter/GeantinoRejector') kernel.registerGlobalFilter(f1) f2 = DDG4.Filter(kernel, 'ParticleRejectFilter/OpticalPhotonRejector') f2.particle = 'opticalphoton' kernel.registerGlobalFilter(f2) f3 = DDG4.Filter(kernel, 'ParticleSelectFilter/OpticalPhotonSelector') f3.particle = 'opticalphoton' kernel.registerGlobalFilter(f3) f4 = DDG4.Filter(kernel, 'EnergyDepositMinimumCut') f4.Cut = 0.5 * SystemOfUnits.MeV f4.enableUI() kernel.registerGlobalFilter(f4) # First the tracking detectors seq, act = geant4.setupTracker('SiVertexBarrel') seq.adopt(f1) act.adopt(f1) seq, act = geant4.setupTracker('SiTrackerBarrel') seq.adopt(f1) act.adopt(f1) seq, act = geant4.setupTracker('SiTrackerForward') seq.adopt(f1) act.adopt(f1) seq, act = geant4.setupTracker('SiTrackerBackward') seq.adopt(f1) act.adopt(f1) # Now the calorimeters seq, act = geant4.setupCalorimeter('EcalBarrel') seq.adopt(f3) act.adopt(f3) seq.adopt(f4) act.adopt(f4) seq, act = geant4.setupCalorimeter('EcalEndcap_fwd') seq.adopt(f3) act.adopt(f3) seq.adopt(f4) act.adopt(f4) seq, act = geant4.setupCalorimeter('EcalEndcap_bwd') seq.adopt(f3) act.adopt(f3) seq.adopt(f4) act.adopt(f4) seq, act = geant4.setupCalorimeter('HcalBarrel') seq.adopt(f3) act.adopt(f3) seq.adopt(f4) act.adopt(f4) seq, act = geant4.setupCalorimeter('HcalEndcap_fwd') seq.adopt(f3) act.adopt(f3) seq.adopt(f4) act.adopt(f4) seq, act = geant4.setupCalorimeter('HcalEndcap_bwd') seq.adopt(f3) act.adopt(f3) seq.adopt(f4) act.adopt(f4) seq, act = geant4.setupCalorimeter('HcalPlug_fwd') seq.adopt(f3) act.adopt(f3) seq.adopt(f4) act.adopt(f4) seq, act = geant4.setupCalorimeter('HcalPlug_bwd') seq.adopt(f3) act.adopt(f3) seq.adopt(f4) act.adopt(f4) seq, act = geant4.setupCalorimeter('MuonBarrel') seq.adopt(f2) act.adopt(f2) seq, act = geant4.setupCalorimeter('MuonEndcap_fwd1') seq.adopt(f2) act.adopt(f2) seq, act = geant4.setupCalorimeter('MuonEndcap_fwd2') seq.adopt(f2) act.adopt(f2) seq, act = geant4.setupCalorimeter('MuonEndcap_bwd1') seq.adopt(f2) act.adopt(f2) seq, act = geant4.setupCalorimeter('MuonEndcap_bwd2') seq.adopt(f2) act.adopt(f2) """ scan = DDG4.SteppingAction(kernel,'Geant4MaterialScanner/MaterialScan') kernel.steppingAction().adopt(scan) """ # Now build the physics list: phys = geant4.setupPhysics('QGSP_BERT') ph = DDG4.PhysicsList(kernel, 'Geant4PhysicsList/Myphysics') ph.addParticleConstructor('G4Geantino') ph.addParticleConstructor('G4BosonConstructor') ph.addParticleConstructor('G4LeptonConstructor') ph.addParticleProcess('e[+-]', 'G4eMultipleScattering', -1, 1, 1) ph.addPhysicsConstructor('G4OpticalPhysics') ph.enableUI() phys.adopt(ph) phys.dump() kernel.configure() kernel.initialize() #DDG4.setPrintLevel(Output.DEBUG) kernel.run() print 'End of run. Terminating .......' kernel.terminate()
def run(): global geant4 kernel = DDG4.Kernel() lcdd = kernel.lcdd() install_dir = os.environ['DD4hepINSTALL'] kernel.loadGeometry("file:"+install_dir+"/DDDetectors/compact/SiD_Markus.xml") DDG4.importConstants(lcdd) DDG4.Core.setPrintLevel(Output.DEBUG) DDG4.Core.setPrintFormat("%-32s %6s %s") kernel.NumberOfThreads = 1 geant4 = DDG4.Geant4(kernel,tracker='Geant4TrackerWeightedAction') geant4.printDetectors() # Configure UI geant4.setupCshUI() # Geant4 user initialization action geant4.addUserInitialization(worker=setupWorker, master=setupMaster) # Configure G4 geometry setup seq,act = geant4.addDetectorConstruction("Geant4DetectorGeometryConstruction/ConstructGeo") # Configure G4 magnetic field tracking seq,fld = geant4.addDetectorConstruction("Geant4FieldTrackingConstruction/MagFieldTrackingSetup") fld.stepper = "HelixGeant4Runge" fld.equation = "Mag_UsualEqRhs" fld.eps_min = 5e-05 * mm fld.eps_max = 0.001 * mm fld.min_chord_step = 0.01 * mm fld.delta_chord = 0.25 * mm fld.delta_intersection = 1e-05 * mm fld.delta_one_step = 0.001 * mm print '+++++> ',fld.name,'-> stepper = ',fld.stepper print '+++++> ',fld.name,'-> equation = ',fld.equation print '+++++> ',fld.name,'-> eps_min = ',fld.eps_min print '+++++> ',fld.name,'-> eps_max = ',fld.eps_max print '+++++> ',fld.name,'-> delta_one_step = ',fld.delta_one_step seq,act = geant4.addDetectorConstruction("Geant4PythonDetectorConstruction/DummyDet", geometry=dummy_geom, sensitives=dummy_sd) # Configure G4 sensitive detectors seq,act = geant4.addDetectorConstruction("Geant4PythonDetectorConstruction/SetupSD", sensitives=setupSensitives) # Configure G4 sensitive detectors seq,act = geant4.addDetectorConstruction("Geant4DetectorSensitivesConstruction/ConstructSD", allow_threads=True) # Setup random generator rndm = DDG4.Action(kernel,'Geant4Random/Random') rndm.Seed = 987654321 rndm.initialize() # Setup global filters fur use in sensntive detectors f1 = DDG4.Filter(kernel,'GeantinoRejectFilter/GeantinoRejector') kernel.registerGlobalFilter(f1) #seq,act = geant4.setupTracker('SiTrackerBarrel') #seq,act = geant4.setupTracker('SiTrackerEndcap') #seq,act = geant4.setupTracker('SiTrackerForward') # Now the calorimeters #seq,act = geant4.setupCalorimeter('EcalBarrel') #seq,act = geant4.setupCalorimeter('EcalEndcap') #seq,act = geant4.setupCalorimeter('HcalBarrel') #seq,act = geant4.setupCalorimeter('HcalEndcap') #seq,act = geant4.setupCalorimeter('HcalPlug') #seq,act = geant4.setupCalorimeter('MuonBarrel') #seq,act = geant4.setupCalorimeter('MuonEndcap') #seq,act = geant4.setupCalorimeter('LumiCal') #seq,act = geant4.setupCalorimeter('BeamCal') # Now build the physics list: seq = geant4.setupPhysics('QGSP_BERT') phys = DDG4.PhysicsList(geant4.master(),'Geant4PhysicsList/MyPhysics') part = DDG4.Action(geant4.master(),'Geant4ExtraParticles/extraparts') part.pdgfile = 'checkout/DDG4/examples/particle.tbl' phys.adoptPhysicsConstructor(part.get()) seq.add(phys) geant4.run() #kernel.configure() #kernel.initialize() #DDG4.setPrintLevel(Output.DEBUG) #kernel.run() #kernel.terminate() return 1