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Public Member Functions | Protected Member Functions | Private Attributes

RunManager Class Reference

#include <RunManager.h>

List of all members.

Public Member Functions

void abortEvent ()
void abortRun (bool softAbort=false)
const G4Event * currentEvent () const
const G4Run * currentRun () const
const Generatorgenerator () const
void initG4 (const edm::EventSetup &es)
void initializeRun ()
void initializeUserActions ()
void produce (edm::Event &inpevt, const edm::EventSetup &es)
std::vector< boost::shared_ptr
< SimProducer > > 
producers () const
 RunManager (edm::ParameterSet const &p)
std::vector
< SensitiveCaloDetector * > & 
sensCaloDetectors ()
std::vector
< SensitiveTkDetector * > & 
sensTkDetectors ()
G4SimEventsimEvent ()
void terminateRun ()
virtual ~RunManager ()

Protected Member Functions

G4Event * generateEvent (edm::Event &inpevt)
void resetGenParticleId (edm::Event &inpevt)

Private Attributes

bool firstRun
edm::ESWatcher
< IdealGeometryRecord
idealGeomRcdWatcher_
edm::ESWatcher
< IdealMagneticFieldRecord
idealMagRcdWatcher_
AttachSDm_attach
bool m_check
G4Event * m_currentEvent
G4Run * m_currentRun
ExceptionHandlerm_CustomExceptionHandler
int m_EvtMgrVerbosity
sim::FieldBuilderm_fieldBuilder
std::vector< std::string > m_G4Commands
Generatorm_generator
std::string m_InTag
G4RunManagerKernel * m_kernel
bool m_managerInitialized
bool m_nonBeam
bool m_Override
edm::ParameterSet m_p
edm::ParameterSet m_pEventAction
edm::ParameterSet m_pField
edm::ParameterSet m_pGenerator
edm::ParameterSet m_pGeometry
std::auto_ptr< PhysicsListm_physicsList
std::string m_PhysicsTablesDir
edm::ParameterSet m_pPhysics
PrimaryTransformerm_primaryTransformer
std::vector< boost::shared_ptr
< SimProducer > > 
m_producers
edm::ParameterSet m_pRunAction
edm::ParameterSet m_pStackingAction
edm::ParameterSet m_pSteppingAction
edm::ParameterSet m_pTrackingAction
bool m_pUseMagneticField
edm::ParameterSet m_pVertexGenerator
SimActivityRegistry m_registry
bool m_RestorePhysicsTables
bool m_runAborted
bool m_runInitialized
bool m_runTerminated
std::vector
< SensitiveCaloDetector * > 
m_sensCaloDets
std::vector
< SensitiveTkDetector * > 
m_sensTkDets
G4SimEventm_simEvent
bool m_StorePhysicsTables
edm::InputTag m_theLHCTlinkTag
std::auto_ptr< SimTrackManagerm_trackManager
G4UserRunAction * m_userRunAction
std::vector< boost::shared_ptr
< SimWatcher > > 
m_watchers

Detailed Description

Definition at line 53 of file RunManager.h.


Constructor & Destructor Documentation

RunManager::RunManager ( edm::ParameterSet const &  p)

Definition at line 117 of file RunManager.cc.

References SimActivityRegistry::connect(), createWatchers(), edm::ParameterSet::getUntrackedParameter(), m_check, m_CustomExceptionHandler, m_kernel, m_p, m_producers, m_registry, and m_watchers.

  :   m_generator(0), m_nonBeam(p.getParameter<bool>("NonBeamEvent")), 
      m_primaryTransformer(0), 
      m_managerInitialized(false), 
      //m_geometryInitialized(true), m_physicsInitialized(true),
      m_runInitialized(false), m_runTerminated(false), m_runAborted(false),
      firstRun(true),
      m_pUseMagneticField(p.getParameter<bool>("UseMagneticField")),
      m_currentRun(0), m_currentEvent(0), m_simEvent(0), 
      m_PhysicsTablesDir(p.getParameter<std::string>("PhysicsTablesDirectory")),
      m_StorePhysicsTables(p.getParameter<bool>("StorePhysicsTables")),
      m_RestorePhysicsTables(p.getParameter<bool>("RestorePhysicsTables")),
      m_EvtMgrVerbosity(p.getUntrackedParameter<int>("G4EventManagerVerbosity",0)),
      m_Override(p.getParameter<bool>("OverrideUserStackingAction")),
      m_pField(p.getParameter<edm::ParameterSet>("MagneticField")),
      m_pGenerator(p.getParameter<edm::ParameterSet>("Generator")),
      m_pPhysics(p.getParameter<edm::ParameterSet>("Physics")),
      m_pRunAction(p.getParameter<edm::ParameterSet>("RunAction")),      
      m_pEventAction(p.getParameter<edm::ParameterSet>("EventAction")),
      m_pStackingAction(p.getParameter<edm::ParameterSet>("StackingAction")),
      m_pTrackingAction(p.getParameter<edm::ParameterSet>("TrackingAction")),
      m_pSteppingAction(p.getParameter<edm::ParameterSet>("SteppingAction")),
      m_G4Commands(p.getParameter<std::vector<std::string> >("G4Commands")),
      m_p(p), m_fieldBuilder(0),
      m_theLHCTlinkTag(p.getParameter<edm::InputTag>("theLHCTlinkTag"))
{    
    m_kernel = G4RunManagerKernel::GetRunManagerKernel();
    if (m_kernel==0) m_kernel = new G4RunManagerKernel();
    
    m_CustomExceptionHandler = new ExceptionHandler(this) ;
    
    m_check = p.getUntrackedParameter<bool>("CheckOverlap",false);

    //Look for an outside SimActivityRegistry
    // this is used by the visualization code
    edm::Service<SimActivityRegistry> otherRegistry;
    if(otherRegistry){
       m_registry.connect(*otherRegistry);
    }

    createWatchers(m_p, m_registry, m_watchers, m_producers);
}
RunManager::~RunManager ( ) [virtual]

Definition at line 160 of file RunManager.cc.

References m_kernel.

{ 
    if (m_kernel!=0) delete m_kernel; 
}

Member Function Documentation

void RunManager::abortEvent ( )

Definition at line 370 of file RunManager.cc.

References m_currentEvent, m_kernel, TrackingAction::PostUserTrackingAction(), and lumiQTWidget::t.

Referenced by abortRun(), and OscarProducer::produce().

{

    G4Track* t =
    m_kernel->GetEventManager()->GetTrackingManager()->GetTrack();
    t->SetTrackStatus(fStopAndKill) ;
     
    // CMS-specific act
    //
    TrackingAction* uta =
    (TrackingAction*)m_kernel->GetEventManager()->GetUserTrackingAction() ;
    uta->PostUserTrackingAction(t) ;

    m_currentEvent->SetEventAborted();
    
    // do NOT call this method for now
    // because it'll set abortRequested=true (withing G4EventManager)
    // this will make Geant4, in the event *next* after the aborted one
    // NOT to get the primamry, thus there's NOTHING to trace, and it goes
    // to the end of G4Event::DoProcessing(G4Event*), where abortRequested
    // will be reset to true again
    //    
    //m_kernel->GetEventManager()->AbortCurrentEvent();
    //
    // instead, mimic what it does, except (re)setting abortRequested
    //
    m_kernel->GetEventManager()->GetStackManager()->clear() ;
    m_kernel->GetEventManager()->GetTrackingManager()->EventAborted() ;
     
    G4StateManager* stateManager = G4StateManager::GetStateManager();
    stateManager->SetNewState(G4State_GeomClosed);

    return ;

}
void RunManager::abortRun ( bool  softAbort = false)
const G4Event* RunManager::currentEvent ( ) const [inline]

Definition at line 69 of file RunManager.h.

References m_currentEvent.

{ return m_currentEvent; }
const G4Run* RunManager::currentRun ( ) const [inline]

Definition at line 65 of file RunManager.h.

References m_currentRun.

{ return m_currentRun; }
G4Event * RunManager::generateEvent ( edm::Event inpevt) [protected]

Definition at line 326 of file RunManager.cc.

References alignCSCRings::e, edm::EventID::event(), edm::Event::getByLabel(), Generator::HepMC2G4(), edm::EventBase::id(), m_currentEvent, m_generator, m_InTag, m_nonBeam, m_simEvent, Generator::nonBeamEvent2G4(), resetGenParticleId(), and Generator::setGenEvent().

Referenced by produce().

{                       
  
  if (m_currentEvent!=0) delete m_currentEvent;
  m_currentEvent = 0;
  if (m_simEvent!=0) delete m_simEvent;
  m_simEvent = 0;
  G4Event * e = new G4Event(inpevt.id().event());
  
  // std::vector< edm::Handle<edm::HepMCProduct> > AllHepMCEvt;
  edm::Handle<edm::HepMCProduct> HepMCEvt;
  
  // inpevt.getByType(HepMCEvt);       
  // inpevt.getManyByType(AllHepMCEvt);
  inpevt.getByLabel( m_InTag, HepMCEvt ) ;
  
  // actually, it's a double protection - it's not even necessary 
  // because getByLabel will throw if the correct product isn't there         
  if (!HepMCEvt.isValid())
    {
      throw SimG4Exception("Unable to find HepMCProduct(HepMC::GenEvent) in edm::Event  ");
    }
  else
    {
      m_generator->setGenEvent(HepMCEvt->GetEvent());

      // required to reset the GenParticle Id for particles transported along the beam pipe
      // to their original value for SimTrack creation
      resetGenParticleId( inpevt );

      if (!m_nonBeam) 
        {
          m_generator->HepMC2G4(HepMCEvt->GetEvent(),e);
        }
      else 
        {
          m_generator->nonBeamEvent2G4(HepMCEvt->GetEvent(),e);
        }
    }
  
  return e;
  
}
const Generator* RunManager::generator ( ) const [inline]

Definition at line 68 of file RunManager.h.

References m_generator.

{ return m_generator; }
void RunManager::initG4 ( const edm::EventSetup es)

Definition at line 168 of file RunManager.cc.

References SimActivityRegistry::beginOfJobSignal_, sim::FieldBuilder::build(), edm::ESWatcher< T >::check(), asciidump::cmd, SurfaceDeformationFactory::create(), AttachSD::create(), SimActivityRegistry::dddWorldSignal_, dir, Exception, firstRun, g, edm::EventSetup::get(), reco::get(), edm::ParameterSet::getParameter(), idealGeomRcdWatcher_, idealMagRcdWatcher_, recoMuon::in, initializeRun(), initializeUserActions(), m_attach, m_check, m_fieldBuilder, m_G4Commands, m_generator, m_InTag, m_kernel, m_managerInitialized, m_p, m_pField, m_pGenerator, m_physicsList, m_PhysicsTablesDir, m_pPhysics, m_primaryTransformer, m_pUseMagneticField, m_registry, m_RestorePhysicsTables, m_sensCaloDets, m_sensTkDets, m_StorePhysicsTables, m_trackManager, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by OscarProducer::beginRun().

{

  bool geomChanged = idealGeomRcdWatcher_.check(es);
  if (geomChanged && (!firstRun)) {
    throw cms::Exception("BadConfig") 
      << "[SimG4Core RunManager]\n"
      << "The Geometry configuration is changed during the job execution\n"
      << "this is not allowed, the geometry must stay unchanged\n";
  }
  if (m_pUseMagneticField) {
    bool magChanged = idealMagRcdWatcher_.check(es);
    if (magChanged && (!firstRun)) {
      throw cms::Exception("BadConfig") 
        << "[SimG4Core RunManager]\n"
        << "The MagneticField configuration is changed during the job execution\n"
        << "this is not allowed, the MagneticField must stay unchanged\n";
    }
  }

  if (m_managerInitialized) return;
  
  // DDDWorld: get the DDCV from the ES and use it to build the World
  edm::ESTransientHandle<DDCompactView> pDD;
  es.get<IdealGeometryRecord>().get(pDD);
   
  G4LogicalVolumeToDDLogicalPartMap map_;
  SensitiveDetectorCatalog catalog_;
  const DDDWorld * world = new DDDWorld(&(*pDD), map_, catalog_, m_check);
  m_registry.dddWorldSignal_(world);

  if (m_pUseMagneticField)
    {
      // setup the magnetic field
      edm::ESHandle<MagneticField> pMF;
      es.get<IdealMagneticFieldRecord>().get(pMF);
      const GlobalPoint g(0.,0.,0.);

      // m_fieldBuilder = std::auto_ptr<sim::FieldBuilder>(new sim::FieldBuilder(&(*pMF), map_, m_pField));
      m_fieldBuilder = (new sim::FieldBuilder(&(*pMF), m_pField));
      G4TransportationManager * tM = G4TransportationManager::GetTransportationManager();
      m_fieldBuilder->build( tM->GetFieldManager(),tM->GetPropagatorInField() ) ;
      // m_fieldBuilder->configure("MagneticFieldType",tM->GetFieldManager(),tM->GetPropagatorInField());
    }

  // we need the track manager now
  m_trackManager = std::auto_ptr<SimTrackManager>(new SimTrackManager);

  m_attach = new AttachSD;
  {
    std::pair< std::vector<SensitiveTkDetector*>,
      std::vector<SensitiveCaloDetector*> > sensDets = m_attach->create(*world,(*pDD),catalog_,m_p,m_trackManager.get(),m_registry);
      
    m_sensTkDets.swap(sensDets.first);
    m_sensCaloDets.swap(sensDets.second);
  }

    
  edm::LogInfo("SimG4CoreApplication") << " RunManager: Sensitive Detector building finished; found " << m_sensTkDets.size()
                                       << " Tk type Producers, and " << m_sensCaloDets.size() << " Calo type producers ";

  edm::ESHandle<HepPDT::ParticleDataTable> fTable;
  es.get<PDTRecord>().get(fTable);
  const HepPDT::ParticleDataTable *fPDGTable = &(*fTable);

  m_generator = new Generator(m_pGenerator);
  // m_InTag = m_pGenerator.getParameter<edm::InputTag>("HepMCProductLabel") ;
  m_InTag = m_pGenerator.getParameter<std::string>("HepMCProductLabel") ;
  m_primaryTransformer = new PrimaryTransformer();

  std::auto_ptr<PhysicsListMakerBase> physicsMaker( 
                                                   PhysicsListFactory::get()->create
                                                   (m_pPhysics.getParameter<std::string> ("type")));
  if (physicsMaker.get()==0) throw SimG4Exception("Unable to find the Physics list requested");
  m_physicsList = physicsMaker->make(map_,fPDGTable,m_fieldBuilder,m_pPhysics,m_registry);


  PhysicsList* phys = m_physicsList.get(); 
  if (phys==0) throw SimG4Exception("Physics list construction failed!");

  // adding GFlash and Russian Roulette for eletrons and gamma
  // on top of any Physics Lists
  phys->RegisterPhysics(new ParametrisedEMPhysics("EMoptions",m_pPhysics));
  
  m_kernel->SetPhysics(phys);
  m_kernel->InitializePhysics();

  m_physicsList->ResetStoredInAscii();
  std::string tableDir = m_PhysicsTablesDir;
  if (m_RestorePhysicsTables) m_physicsList->SetPhysicsTableRetrieved(tableDir);
 
  if (m_kernel->RunInitialization()) m_managerInitialized = true;
  else throw SimG4Exception("G4RunManagerKernel initialization failed!");
  
  if (m_StorePhysicsTables)
    {
      std::ostringstream dir;
      dir << tableDir << '\0';
      std::string cmd = std::string("/control/shell mkdir -p ")+tableDir;
      if (!std::ifstream(dir.str().c_str(), std::ios::in))
        G4UImanager::GetUIpointer()->ApplyCommand(cmd);
      m_physicsList->StorePhysicsTable(tableDir);
    }
  
  //tell all interesting parties that we are beginning the job
  BeginOfJob aBeginOfJob(&es);
  m_registry.beginOfJobSignal_(&aBeginOfJob);
  
  initializeUserActions();
  
  for (unsigned it=0; it<m_G4Commands.size(); it++) {
    edm::LogInfo("SimG4CoreApplication") << "RunManager:: Requests UI: "
                                         << m_G4Commands[it];
    G4UImanager::GetUIpointer()->ApplyCommand(m_G4Commands[it]);
  }

  // If the Geant4 particle table is needed, decomment the lines below
  //
  //  G4cout << "Output of G4ParticleTable DumpTable:" << G4endl;
  //  G4ParticleTable::GetParticleTable()->DumpTable("ALL");
  
  initializeRun();
  firstRun= false;

}
void RunManager::initializeRun ( )

Definition at line 446 of file RunManager.cc.

References m_currentRun, m_runAborted, m_runInitialized, and m_userRunAction.

Referenced by initG4().

{

    m_runInitialized = false;
    if (m_currentRun==0) m_currentRun = new G4Run();
    // m_currentRun->SetRunID(m_RunNumber);   // run on default runID=0; doesn't matter...
    G4StateManager::GetStateManager()->SetNewState(G4State_GeomClosed);
    if (m_userRunAction!=0) m_userRunAction->BeginOfRunAction(m_currentRun);
    m_runAborted = false;
    m_runInitialized = true;
    
    return ;
    
}
void RunManager::initializeUserActions ( )

Definition at line 406 of file RunManager.cc.

References SimActivityRegistry::beginOfEventSignal_, SimActivityRegistry::beginOfRunSignal_, SimActivityRegistry::beginOfTrackSignal_, sim_act::Signaler< T >::connect(), SimActivityRegistry::endOfEventSignal_, SimActivityRegistry::endOfRunSignal_, SimActivityRegistry::endOfTrackSignal_, SimActivityRegistry::g4StepSignal_, EventAction::m_beginOfEventSignal, RunAction::m_beginOfRunSignal, TrackingAction::m_beginOfTrackSignal, EventAction::m_endOfEventSignal, RunAction::m_endOfRunSignal, TrackingAction::m_endOfTrackSignal, m_EvtMgrVerbosity, SteppingAction::m_g4StepSignal, m_generator, m_kernel, m_Override, m_pEventAction, m_pRunAction, m_pStackingAction, m_pSteppingAction, m_pTrackingAction, m_registry, m_trackManager, and m_userRunAction.

Referenced by initG4().

{

    RunAction* userRunAction = new RunAction(m_pRunAction,this);
    m_userRunAction = userRunAction;
    userRunAction->m_beginOfRunSignal.connect(m_registry.beginOfRunSignal_);
    userRunAction->m_endOfRunSignal.connect(m_registry.endOfRunSignal_);

    G4EventManager * eventManager = m_kernel->GetEventManager();
    eventManager->SetVerboseLevel(m_EvtMgrVerbosity);
    if (m_generator!=0)
    {
        EventAction * userEventAction = new EventAction(m_pEventAction,this,m_trackManager.get());
        //userEventAction->SetRunManager(this) ;
        userEventAction->m_beginOfEventSignal.connect(m_registry.beginOfEventSignal_);
        userEventAction->m_endOfEventSignal.connect(m_registry.endOfEventSignal_);
        eventManager->SetUserAction(userEventAction);
        TrackingAction* userTrackingAction = new TrackingAction(userEventAction,m_pTrackingAction);
        userTrackingAction->m_beginOfTrackSignal.connect(m_registry.beginOfTrackSignal_);
        userTrackingAction->m_endOfTrackSignal.connect(m_registry.endOfTrackSignal_);
        eventManager->SetUserAction(userTrackingAction);
        
        SteppingAction* userSteppingAction = new SteppingAction(userEventAction,m_pSteppingAction); 
        userSteppingAction->m_g4StepSignal.connect(m_registry.g4StepSignal_);
        eventManager->SetUserAction(userSteppingAction);
        if (m_Override)
        {
          edm::LogInfo("SimG4CoreApplication") << " RunManager: user StackingAction overridden " ;
          eventManager->SetUserAction(new StackingAction(m_pStackingAction));
        }
    }
    else 
    {
       edm::LogWarning("SimG4CoreApplication") << " RunManager: WARNING :  No generator; initialized only RunAction!";
    }
    
    return;

}
void RunManager::produce ( edm::Event inpevt,
const edm::EventSetup es 
)

Definition at line 294 of file RunManager.cc.

References abortRun(), G4SimEvent::collisionPoint(), edm::EventID::event(), Generator::eventWeight(), generateEvent(), Generator::genEvent(), Generator::genVertex(), G4SimEvent::hepEvent(), edm::EventBase::id(), m_currentEvent, m_generator, m_kernel, m_simEvent, G4SimEvent::nGenParts(), G4SimEvent::nTracks(), G4SimEvent::nVertices(), edm::second(), and G4SimEvent::weight().

Referenced by OscarProducer::produce().

{
    m_currentEvent = generateEvent(inpevt);
    m_simEvent = new G4SimEvent;
    m_simEvent->hepEvent(m_generator->genEvent());
    m_simEvent->weight(m_generator->eventWeight());
    if (m_generator->genVertex()!=0) 
    m_simEvent->collisionPoint(math::XYZTLorentzVectorD(m_generator->genVertex()->x()/centimeter,
                                                        m_generator->genVertex()->y()/centimeter,
                                                        m_generator->genVertex()->z()/centimeter,
                                                        m_generator->genVertex()->t()/second));
 
    if (m_currentEvent->GetNumberOfPrimaryVertex()==0)
    {
       
       edm::LogError("SimG4CoreApplication") 
            << " RunManager::produce event " << inpevt.id().event()
            << " with no G4PrimaryVertices \n  Aborting Run" ;
       
       abortRun(false);
    }
    else
        m_kernel->GetEventManager()->ProcessOneEvent(m_currentEvent);

    
    edm::LogInfo("SimG4CoreApplication") 
         << " RunManager: saved : Event  " << inpevt.id().event() << " of weight " << m_simEvent->weight()
         << " with " << m_simEvent->nTracks() << " tracks and " << m_simEvent->nVertices()
         << " vertices, generated by " << m_simEvent->nGenParts() << " particles " ;

}
std::vector<boost::shared_ptr<SimProducer> > RunManager::producers ( ) const [inline]

Definition at line 74 of file RunManager.h.

References m_producers.

                                                               {
       return m_producers;
    }
void RunManager::resetGenParticleId ( edm::Event inpevt) [protected]

Definition at line 492 of file RunManager.cc.

References edm::Event::getByLabel(), edm::HandleBase::isValid(), m_theLHCTlinkTag, m_trackManager, and edm::Handle< T >::product().

Referenced by generateEvent().

                                                      {

  edm::Handle<edm::LHCTransportLinkContainer> theLHCTlink;
  inpevt.getByLabel( m_theLHCTlinkTag, theLHCTlink );
  if ( theLHCTlink.isValid() ) {
    m_trackManager->setLHCTransportLink( theLHCTlink.product() );
  }

}
std::vector<SensitiveCaloDetector*>& RunManager::sensCaloDetectors ( ) [inline]

Definition at line 72 of file RunManager.h.

References m_sensCaloDets.

Referenced by OscarProducer::produce().

{ return m_sensCaloDets; }
std::vector<SensitiveTkDetector*>& RunManager::sensTkDetectors ( ) [inline]

Definition at line 71 of file RunManager.h.

References m_sensTkDets.

Referenced by OscarProducer::produce().

{ return m_sensTkDets; }
G4SimEvent* RunManager::simEvent ( ) [inline]

Definition at line 70 of file RunManager.h.

References m_simEvent.

Referenced by EventAction::EndOfEventAction(), and OscarProducer::produce().

{ return m_simEvent; }
void RunManager::terminateRun ( )

Definition at line 461 of file RunManager.cc.

References m_currentRun, m_kernel, m_runInitialized, m_runTerminated, and m_userRunAction.

{

    m_runTerminated = false;
    if (m_userRunAction!=0)
    {
        m_userRunAction->EndOfRunAction(m_currentRun);
        delete m_userRunAction; m_userRunAction = 0;
    }
    if (m_currentRun!=0) { delete m_currentRun; m_currentRun = 0; }
    if (m_kernel!=0) m_kernel->RunTermination();
    m_runInitialized = false;
    m_runTerminated = true;
    
    return;
    
}

Member Data Documentation

bool RunManager::firstRun [private]

Definition at line 101 of file RunManager.h.

Referenced by initG4().

Definition at line 138 of file RunManager.h.

Referenced by initG4().

Definition at line 139 of file RunManager.h.

Referenced by initG4().

Definition at line 127 of file RunManager.h.

Referenced by initG4().

bool RunManager::m_check [private]

Definition at line 112 of file RunManager.h.

Referenced by initG4(), and RunManager().

G4Event* RunManager::m_currentEvent [private]

Definition at line 104 of file RunManager.h.

Referenced by abortEvent(), currentEvent(), generateEvent(), and produce().

G4Run* RunManager::m_currentRun [private]

Definition at line 103 of file RunManager.h.

Referenced by abortRun(), currentRun(), initializeRun(), and terminateRun().

Definition at line 125 of file RunManager.h.

Referenced by RunManager().

Definition at line 110 of file RunManager.h.

Referenced by initializeUserActions().

Definition at line 136 of file RunManager.h.

Referenced by initG4().

std::vector<std::string> RunManager::m_G4Commands [private]

Definition at line 123 of file RunManager.h.

Referenced by initG4().

Definition at line 88 of file RunManager.h.

Referenced by generateEvent(), generator(), initG4(), initializeUserActions(), and produce().

std::string RunManager::m_InTag [private]

Definition at line 90 of file RunManager.h.

Referenced by generateEvent(), and initG4().

G4RunManagerKernel* RunManager::m_kernel [private]

Definition at line 95 of file RunManager.h.

Referenced by initG4().

bool RunManager::m_nonBeam [private]

Definition at line 92 of file RunManager.h.

Referenced by generateEvent().

bool RunManager::m_Override [private]

Definition at line 111 of file RunManager.h.

Referenced by initializeUserActions().

Definition at line 124 of file RunManager.h.

Referenced by initG4(), and RunManager().

Definition at line 119 of file RunManager.h.

Referenced by initializeUserActions().

Definition at line 114 of file RunManager.h.

Referenced by initG4().

Definition at line 115 of file RunManager.h.

Referenced by initG4().

Definition at line 113 of file RunManager.h.

std::auto_ptr<PhysicsList> RunManager::m_physicsList [private]

Definition at line 93 of file RunManager.h.

Referenced by initG4().

std::string RunManager::m_PhysicsTablesDir [private]

Definition at line 107 of file RunManager.h.

Referenced by initG4().

Definition at line 117 of file RunManager.h.

Referenced by initG4().

Definition at line 94 of file RunManager.h.

Referenced by initG4().

std::vector<boost::shared_ptr<SimProducer> > RunManager::m_producers [private]

Definition at line 133 of file RunManager.h.

Referenced by producers(), and RunManager().

Definition at line 118 of file RunManager.h.

Referenced by initializeUserActions().

Definition at line 120 of file RunManager.h.

Referenced by initializeUserActions().

Definition at line 122 of file RunManager.h.

Referenced by initializeUserActions().

Definition at line 121 of file RunManager.h.

Referenced by initializeUserActions().

Definition at line 102 of file RunManager.h.

Referenced by initG4().

Definition at line 116 of file RunManager.h.

Definition at line 131 of file RunManager.h.

Referenced by initG4(), initializeUserActions(), and RunManager().

Definition at line 109 of file RunManager.h.

Referenced by initG4().

bool RunManager::m_runAborted [private]

Definition at line 100 of file RunManager.h.

Referenced by abortRun(), and initializeRun().

Definition at line 98 of file RunManager.h.

Referenced by abortRun(), initializeRun(), and terminateRun().

Definition at line 99 of file RunManager.h.

Referenced by terminateRun().

Definition at line 129 of file RunManager.h.

Referenced by initG4(), and sensCaloDetectors().

Definition at line 128 of file RunManager.h.

Referenced by initG4(), and sensTkDetectors().

Definition at line 105 of file RunManager.h.

Referenced by generateEvent(), produce(), and simEvent().

Definition at line 108 of file RunManager.h.

Referenced by initG4().

Definition at line 141 of file RunManager.h.

Referenced by resetGenParticleId().

std::auto_ptr<SimTrackManager> RunManager::m_trackManager [private]

Definition at line 135 of file RunManager.h.

Referenced by initG4(), initializeUserActions(), and resetGenParticleId().

G4UserRunAction* RunManager::m_userRunAction [private]

Definition at line 106 of file RunManager.h.

Referenced by initializeRun(), initializeUserActions(), and terminateRun().

std::vector<boost::shared_ptr<SimWatcher> > RunManager::m_watchers [private]

Definition at line 132 of file RunManager.h.

Referenced by RunManager().