G4UserWorkerInitialization.hh

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// G4UserWorkerInitialization
//
// Class description:
//
// This class is used for multi-threading.
// The object of this class can be set to G4MTRunManager, but not to
// G4RunManager. G4UserWorkerInitialization class has five virtual methods
// as the user hooks which are invoked at several occasions in the life
// cycle of each thread.
//
// - virtual void WorkerInitialize() const
//     This method is called after the tread is created but before the
//     G4WorkerRunManager is instantiated.
// - virtual void WorkerStart() const
//     This method is called once at the beginning of simulation job when
//     kernel classes and user action classes have already instantiated but
//     geometry and physics have not been yet initialised. This situation is
//     identical to the 'PreInit' state in the sequential mode.
// - virtual void WorkerRunStart() const
//     This method is called before an event loop. Geometry and physics have
//     already been set up for the thread. All threads are synchronised and
//     ready to start the local event loop. This situation is identical to
//     'Idle' state in the sequential mode.
// - virtual void WorkerRunEnd() const
//     This method is called for each thread when the local event loop is
//     done, but before the synchronisation over threads.
// - virtual void WorkerStop() const
//     This method is called once at the end of the simulation job.
//
// Note: this object should be instantiated only once and set to
//       G4MTRunManager, while the five methods above are invoked for each
//       worker thread. Thus, to store thread-local objects, use the
//       G4ThreadLocal keyword.
 
// Author: A.Dotti (SLAC), 25 February 2013
// --------------------------------------------------------------------
#ifndef G4UserWorkerInitialization_hh
#define G4UserWorkerInitialization_hh 1
 
class G4UserWorkerInitialization
{
  public:
    G4UserWorkerInitialization() = default;
    virtual ~G4UserWorkerInitialization() = default;
 
    // This method is called after the tread is created but before the
    // G4WorkerRunManager is instantiated.
    virtual void WorkerInitialize() const {}
 
    // This method is called once at the beginning of simulation job
    // when kernel classes and user action classes have already instantiated
    // but geometry and physics have not been yet initialised. This situation
    // is identical to 'PreInit' state in the sequential mode.
    virtual void WorkerStart() const {}
 
    // This method is called before an event loop. Geometry and physics have
    // already been set up for the thread. All threads are synchronised and
    // ready to start the local event loop. This situation is identical to
    // 'Idle' state in the sequential mode.
    virtual void WorkerRunStart() const {}
 
    // This method is called for each thread, when the local event loop has
    // finished but before the synchronisation over threads.
    virtual void WorkerRunEnd() const {}
 
    // This method is called once at the end of simulation job.
    // Implement here a clean up action.
    virtual void WorkerStop() const {}
};
class G4UserWorkerInitialization {…};
 
#endif