Project CMSSW displayed by LXR CMSSW_15_1_X_2025-07-15-2300/​Validation/​Geometry/​test/​runMaterialBudgetVolumeRun4DD4hep_cfg.py	Source navigation Diff markup Identifier search General search
	Version: CMSSW_15_1_X_2025-07-15-2300 CMSSW_15_1_X_2025-07-14-2300 CMSSW_15_1_X_2025-07-13-2300 CMSSW_15_1_X_2025-07-11-2300 CMSSW_15_1_X_2025-07-10-2300 CMSSW_15_0_4 CMSSW_15_0_3_patch1 CMSSW_14_0_21_patch1 Revert   Change

File indexing completed on 2025-05-09 22:40:28

 ###############################################################################
 # Way to use this:
 #   cmsRun runMaterialBudgetVolumeRun4DD4hep_cfg.py geometry=D110
 #
 #   Options for geometry D98, D99, D103, D104, D105, D106, D107, D108, D109,
 #                        D110, D111, D112, D113, D114, D115, D116, D117, D118,
 #                        D119, D120
 #
 ###############################################################################
 import FWCore.ParameterSet.Config as cms
 import os, sys, importlib, re
 import FWCore.ParameterSet.VarParsing as VarParsing
 
 ####################################################################
 ### SETUP OPTIONS
 options = VarParsing.VarParsing('standard')
 options.register('geometry',
                  "D110",
                   VarParsing.VarParsing.multiplicity.singleton,
                   VarParsing.VarParsing.varType.string,
                   "geometry of operations: D98, D99, D103, D104, D105, D106, D107, D108, D109, D110, D111, D112, D113, D114, D115, D116, D117, D118, D119, D120")
 ### get and parse the command line arguments
 options.parseArguments()
 
 print(options)
 
 ####################################################################
 # Use the options
 
 fileName = "matbdg" + options.geometry + "DD4hep" + ".root"
 geomName = "Run4" + options.geometry
 geomFile = "Configuration.Geometry.GeometryExtended" + geomName + "Reco_cff"
 import Configuration.Geometry.defaultPhase2ConditionsEra_cff as _settings
 GLOBAL_TAG, ERA = _settings.get_era_and_conditions(geomName)
 print("Geometry Name:  ", geomName)
 print("Geom file Name: ", geomFile)
 print("Global Tag Name: ", GLOBAL_TAG)
 print("Era Name:        ", ERA)
 print("Root file Name:  ", fileName)
 from Configuration.ProcessModifiers.dd4hep_cff import dd4hep
 
 process = cms.Process('MaterialBudgetVolume',ERA,dd4hep)
 
 process.load(geomFile)
 process.load("SimGeneral.HepPDTESSource.pythiapdt_cfi")
 process.load("Configuration.StandardSequences.MagneticField_cff")
 process.load("SimG4Core.Application.g4SimHits_cfi")
 process.load("Validation.Geometry.materialBudgetVolume_cfi")
 
 process.load("IOMC.RandomEngine.IOMC_cff")
 process.RandomNumberGeneratorService.g4SimHits.initialSeed = 9876
 
 process.load('FWCore.MessageService.MessageLogger_cfi')
 process.MessageLogger.cerr.FwkReport.reportEvery = cms.untracked.int32(1000)
 if hasattr(process,'MessageLogger'):
     process.MessageLogger.MaterialBudget=dict()
 
 process.source = cms.Source("PoolSource",
     noEventSort = cms.untracked.bool(True),
     duplicateCheckMode = cms.untracked.string("noDuplicateCheck"),
     fileNames = cms.untracked.vstring('file:single_neutrino_random.root')
 )
 
 process.maxEvents = cms.untracked.PSet(
     input = cms.untracked.int32(-1)
 )
 
 process.TFileService = cms.Service("TFileService",
     fileName = cms.string(fileName)
 )
 
 process.g4SimHits.UseMagneticField = False
 process.g4SimHits.Physics.type = 'SimG4Core/Physics/DummyPhysics'
 process.g4SimHits.StackingAction.TrackNeutrino = True
 process.g4SimHits.Physics.DummyEMPhysics = True
 process.g4SimHits.Physics.CutsPerRegion = False
 
 process.load("Validation.Geometry.materialBudgetVolumeAnalysis_cfi")
 process.p1 = cms.Path(process.g4SimHits+process.materialBudgetVolumeAnalysis)

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