G4VPhysicalVolume.cc

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// $Id: G4VPhysicalVolume.cc 74466 2013-10-07 15:36:32Z gcosmo $
//
// 
// class G4VPhysicalVolume Implementation
//
// --------------------------------------------------------------------

#include "G4VPhysicalVolume.hh"

#include "G4PhysicalVolumeStore.hh"
#include "G4LogicalVolume.hh"

// This static member is thread local. For each thread, it points to the
// array of G4PVData instances.
//
template <class G4PVData> G4ThreadLocal
G4PVData* G4GeomSplitter<G4PVData>::offset = 0;

// This new field helps to use the class G4PVManager
//
G4PVManager G4VPhysicalVolume::subInstanceManager;

// This method is similar to the constructor. It is used by each worker
// thread to achieve the same effect as that of the master thread exept
// to register the new created instance. This method is invoked explicitly.
// It does not create a new G4VPhysicalVolume instance.
// It only assign the value for the fields encapsulated by the class G4PVData.
//
void G4VPhysicalVolume::
InitialiseWorker( G4VPhysicalVolume* /*pMasterObject*/,
                  G4RotationMatrix *pRot,
                  const G4ThreeVector &tlate)
{
  subInstanceManager.SlaveCopySubInstanceArray();

  this->SetRotation( pRot );      // G4MT_rot   = pRot;
  this->SetTranslation( tlate );  // G4MT_trans = tlate;
  //  G4PhysicalVolumeStore::Register(this);
}

// This method is similar to the destructor. It is used by each worker
// thread to achieve the partial effect as that of the master thread.
// For G4VPhysicalVolume instances, nothing more to do here.
//
void G4VPhysicalVolume::TerminateWorker( G4VPhysicalVolume* /*pMasterObject*/)
{
}

// Returns the private data instance manager.
//
const G4PVManager& G4VPhysicalVolume::GetSubInstanceManager()
{
  return subInstanceManager;
}

// Constructor: init parameters and register in Store
//
G4VPhysicalVolume::G4VPhysicalVolume( G4RotationMatrix *pRot,
                                const G4ThreeVector &tlate,
                                const G4String& pName,
                                      G4LogicalVolume* pLogical,
                                      G4VPhysicalVolume* )
  : flogical(pLogical),
    fname(pName), flmother(0)
{
  instanceID = subInstanceManager.CreateSubInstance();

  this->SetRotation( pRot );       // G4MT_rot = pRot;
  this->SetTranslation( tlate );   // G4MT_trans = tlate;
  G4PhysicalVolumeStore::Register(this);
}

// Fake default constructor - sets only member data and allocates memory
//                            for usage restricted to object persistency.
//
G4VPhysicalVolume::G4VPhysicalVolume( __void__& )
  : flogical(0), fname(""), flmother(0)
{
  // Register to store
  //
  instanceID = subInstanceManager.CreateSubInstance();

  this->SetRotation( 0 );                             // G4MT_rot = 0; 
  this->SetTranslation( G4ThreeVector(0., 0., 0.) );  // G4MT_trans = ...

  G4PhysicalVolumeStore::Register(this);
}

// Destructor -  remove from Store
//
G4VPhysicalVolume::~G4VPhysicalVolume() 
{
  G4PhysicalVolumeStore::DeRegister(this);
}

G4int G4VPhysicalVolume::GetMultiplicity() const
{
  return 1;
}

G4RotationMatrix* G4VPhysicalVolume::GetObjectRotation() const
{
  static G4RotationMatrix aRotM;
  static G4RotationMatrix IdentityRM;

  G4RotationMatrix* retval = &IdentityRM;

  // Insure against frot being a null pointer
  if(this->GetRotation())
  {
     aRotM = GetRotation()->inverse();
     retval= &aRotM;
  }
  return retval;
}

// Only implemented for placed and parameterised volumes.
// Not required for replicas.
//
G4bool G4VPhysicalVolume::CheckOverlaps(G4int, G4double, G4bool, G4int)
{
  return false;
}