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RE04ParallelWorldParam.hh
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25//
26/// \file runAndEvent/RE04/include/RE04ParallelWorldParam.hh
27/// \brief Definition of the RE04ParallelWorldParam class
28//
29//
30#ifndef RE04ParallelWorldParam_h
31#define RE04ParallelWorldParam_h 1
32
33#include "globals.hh"
34#include "G4VPVParameterisation.hh"
35
37class G4Material;
38
39// Dummy declarations to get rid of warnings ...
40class G4Box;
41class G4Trd;
42class G4Trap;
43class G4Cons;
44class G4Orb;
45class G4Sphere;
46class G4Ellipsoid;
47class G4Torus;
48class G4Para;
49class G4Hype;
50class G4Tubs;
51class G4Polycone;
52class G4Polyhedra;
53
54//
55/// Parameterisation class for volumes in a parallel world
56///
57/// - void ComputeTransformation(const G4int copyNo,
58/// G4VPhysicalVolume *physVol) const
59/// returns a transformation with the physical volume of the 2nd argument
60/// according to copyNo.
61/// copyNo = 0 : the volume is placed at (-10*cm,-10*cm,0*cm)
62/// = 1 : the volume is placed at (10*cm,10*cm,0*cm)
63/// - G4Material* ComputeMaterial(const G4int copyNo,
64/// G4VPhysicalVolume* currentVol,
65/// const G4VTouchable* parentTouch=0);
66/// returns a material according to copyNo.
67/// copyNo = 0 : water
68/// = 1 : lead
69//
71{
72 public:
73
76
77 public:
78
79 void ComputeTransformation(const G4int copyNo,
80 G4VPhysicalVolume *physVol) const;
81 G4Material* ComputeMaterial(const G4int copyNo,
82 G4VPhysicalVolume* currentVol,
83 const G4VTouchable* parentTouch=0);
84
85 public:
86 virtual void ComputeDimensions (G4Box&,const G4int,const G4VPhysicalVolume*)
87 const {}
88
89 private: // Dummy declarations to get rid of warnings ...
90
91 void ComputeDimensions (G4Trd&,const G4int,
92 const G4VPhysicalVolume*) const {}
93 void ComputeDimensions (G4Trap&,const G4int,
94 const G4VPhysicalVolume*) const {}
95 void ComputeDimensions (G4Cons&,const G4int,
96 const G4VPhysicalVolume*) const {}
97 void ComputeDimensions (G4Orb&,const G4int,
98 const G4VPhysicalVolume*) const {}
99 void ComputeDimensions (G4Sphere&,const G4int,
100 const G4VPhysicalVolume*) const {}
101 void ComputeDimensions (G4Ellipsoid&,const G4int,
102 const G4VPhysicalVolume*) const {}
103 void ComputeDimensions (G4Torus&,const G4int,
104 const G4VPhysicalVolume*) const {}
105 void ComputeDimensions (G4Para&,const G4int,
106 const G4VPhysicalVolume*) const {}
107 void ComputeDimensions (G4Hype&,const G4int,
108 const G4VPhysicalVolume*) const {}
109 void ComputeDimensions (G4Tubs&,const G4int,
110 const G4VPhysicalVolume*) const {}
111 void ComputeDimensions (G4Polycone&,const G4int,
112 const G4VPhysicalVolume*) const {}
113 void ComputeDimensions (G4Polyhedra&,const G4int,
114 const G4VPhysicalVolume*) const {}
115
116 private:
119};
120
121#endif
122
Parameterisation class for volumes in a parallel world.
void ComputeDimensions(G4Sphere &, const G4int, const G4VPhysicalVolume *) const
void ComputeDimensions(G4Trap &, const G4int, const G4VPhysicalVolume *) const
void ComputeDimensions(G4Polycone &, const G4int, const G4VPhysicalVolume *) const
G4Material * ComputeMaterial(const G4int copyNo, G4VPhysicalVolume *currentVol, const G4VTouchable *parentTouch=0)
void ComputeTransformation(const G4int copyNo, G4VPhysicalVolume *physVol) const
void ComputeDimensions(G4Polyhedra &, const G4int, const G4VPhysicalVolume *) const
void ComputeDimensions(G4Para &, const G4int, const G4VPhysicalVolume *) const
void ComputeDimensions(G4Orb &, const G4int, const G4VPhysicalVolume *) const
void ComputeDimensions(G4Cons &, const G4int, const G4VPhysicalVolume *) const
void ComputeDimensions(G4Ellipsoid &, const G4int, const G4VPhysicalVolume *) const
void ComputeDimensions(G4Tubs &, const G4int, const G4VPhysicalVolume *) const
void ComputeDimensions(G4Hype &, const G4int, const G4VPhysicalVolume *) const
void ComputeDimensions(G4Trd &, const G4int, const G4VPhysicalVolume *) const
virtual void ComputeDimensions(G4Box &, const G4int, const G4VPhysicalVolume *) const
void ComputeDimensions(G4Torus &, const G4int, const G4VPhysicalVolume *) const

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