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 /// \file runAndEvent/RE04/include/RE04ParallelWorldParam.hh
 /// \brief Definition of the RE04ParallelWorldParam class
 //
 //
 #ifndef RE04ParallelWorldParam_h
 #define RE04ParallelWorldParam_h 1
 
 #include "G4VPVParameterisation.hh"
 #include "globals.hh"
 
 class G4VPhysicalVolume;
 class G4Material;
 
 // Dummy declarations to get rid of warnings ...
 class G4Box;
 class G4Trd;
 class G4Trap;
 class G4Cons;
 class G4Orb;
 class G4Sphere;
 class G4Ellipsoid;
 class G4Torus;
 class G4Para;
 class G4Hype;
 class G4Tubs;
 class G4Polycone;
 class G4Polyhedra;
 
 //
 /// Parameterisation class for volumes in a parallel world
 ///
 /// - void ComputeTransformation(const G4int copyNo,
 ///                              G4VPhysicalVolume *physVol) const
 ///     returns a transformation with the physical volume of the 2nd argument
 ///     according to copyNo.
 ///       copyNo = 0 : the volume is placed at (-10*cm,-10*cm,0*cm)
 ///              = 1 : the volume is placed at (10*cm,10*cm,0*cm)
 /// - G4Material* ComputeMaterial(const G4int copyNo,
 ///                               G4VPhysicalVolume* currentVol,
 ///                               const G4VTouchable* parentTouch=0);
 ///     returns a material according to copyNo.
 ///       copyNo = 0 : water
 ///              = 1 : lead
 //
 class RE04ParallelWorldParam : public G4VPVParameterisation
 {
   public:
     RE04ParallelWorldParam();
     ~RE04ParallelWorldParam();
 
   public:
     void ComputeTransformation(const G4int copyNo, G4VPhysicalVolume* physVol) const;
     G4Material* ComputeMaterial(const G4int copyNo, G4VPhysicalVolume* currentVol,
                                 const G4VTouchable* parentTouch = 0);
 
   public:
     virtual void ComputeDimensions(G4Box&, const G4int, const G4VPhysicalVolume*) const {}
 
   private:  // Dummy declarations to get rid of warnings ...
     void ComputeDimensions(G4Trd&, const G4int, const G4VPhysicalVolume*) const {}
     void ComputeDimensions(G4Trap&, const G4int, const G4VPhysicalVolume*) const {}
     void ComputeDimensions(G4Cons&, const G4int, const G4VPhysicalVolume*) const {}
     void ComputeDimensions(G4Orb&, const G4int, const G4VPhysicalVolume*) const {}
     void ComputeDimensions(G4Sphere&, const G4int, const G4VPhysicalVolume*) const {}
     void ComputeDimensions(G4Ellipsoid&, const G4int, const G4VPhysicalVolume*) const {}
     void ComputeDimensions(G4Torus&, const G4int, const G4VPhysicalVolume*) const {}
     void ComputeDimensions(G4Para&, const G4int, const G4VPhysicalVolume*) const {}
     void ComputeDimensions(G4Hype&, const G4int, const G4VPhysicalVolume*) const {}
     void ComputeDimensions(G4Tubs&, const G4int, const G4VPhysicalVolume*) const {}
     void ComputeDimensions(G4Polycone&, const G4int, const G4VPhysicalVolume*) const {}
     void ComputeDimensions(G4Polyhedra&, const G4int, const G4VPhysicalVolume*) const {}
 
   private:
     G4Material* fWater;
     G4Material* fPb;
 };
 
 #endif

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