class G4Material;
class G4LogicalVolume;
+class G4VPhysicalVolume;
class G4UserLimits;
class TG4GeometryServices
void PrintVolumeLimits(const G4String& volumeName) const;
void PrintStatistics(G4bool open, G4bool close) const;
+ // set methods
+ void SetWorld(G4VPhysicalVolume* world);
+
// get methods
// volumes
Int_t NofG3Volumes() const;
Int_t NofG4LogicalVolumes() const;
Int_t NofG4PhysicalVolumes() const;
G4bool IsSpecialControls() const;
+ G4VPhysicalVolume* GetWorld() const;
TG4Limits* GetLimits(G4UserLimits* limits) const;
const G4String& GetMapSecond(const G4String& name);
static const G4double fgkDensityTolerance;//density tolerance (percentual)
// data members
- TG4IntMap* fMediumMap; //map of volumes names to medias IDs
- TG4NameMap* fNameMap; //map of volumes names to modules names
+ TG4IntMap* fMediumMap; //map of volumes names to medias IDs
+ TG4NameMap* fNameMap; //map of volumes names to modules names
+ G4VPhysicalVolume* fWorld; //top pgysical volume (world)
};
// inline methods
inline TG4GeometryServices* TG4GeometryServices::Instance()
{ return fgInstance; }
+inline void TG4GeometryServices::SetWorld(G4VPhysicalVolume* world)
+{ fWorld = world; }
+
+inline G4VPhysicalVolume* TG4GeometryServices::GetWorld() const
+{ return fWorld; }
+
#endif //TG4_GEOMETRY_SERVICES_H