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RE02NestedPhantomParameterisation.hh
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30 // $Id: RE02NestedPhantomParameterisation.hh 73475 2013-08-28 15:23:19Z gcosmo $
31 //
32 #ifndef RE02NESTEDPARAMETERISATION_HH
33 #define RE02NESTEDPARAMETERISATION_HH
34 
35 #include "G4Types.hh"
37 #include "G4ThreeVector.hh"
38 #include <vector>
39 
40 class G4VPhysicalVolume;
41 class G4VTouchable;
42 class G4VSolid;
43 class G4Material;
44 
45 // CSG Entities which may be parameterised/replicated
46 //
47 class G4Box;
48 class G4Tubs;
49 class G4Trd;
50 class G4Trap;
51 class G4Cons;
52 class G4Sphere;
53 class G4Orb;
54 class G4Ellipsoid;
55 class G4Torus;
56 class G4Para;
57 class G4Polycone;
58 class G4Polyhedra;
59 class G4Hype;
60 
61 //
91 //
93 {
94  public: // with description
95 
97  G4int nz,
98  std::vector<G4Material*>& mat);
100 
101  // Methods required in derived classes
102  // -----------------------------------
104  const G4int repNo,
105  const G4VTouchable *parentTouch=0
106  );
107  // Required method, as it is the reason for this class.
108  // Must cope with parentTouch=0 for navigator's SetupHierarchy
109 
110  G4int GetNumberOfMaterials() const;
111  G4Material* GetMaterial(G4int idx) const;
112  // Needed to define materials for instances of Nested Parameterisation
113  // Current convention: each call should return the materials
114  // of all instances with the same mother/ancestor volume.
115 
116  void ComputeTransformation(const G4int no,
117  G4VPhysicalVolume *currentPV) const;
118 
119  // Methods optional in derived classes
120  // -----------------------------------
121 
122  // Additional standard Parameterisation methods,
123  // which can be optionally defined, in case solid is used.
124 
125  void ComputeDimensions(G4Box &,
126  const G4int,
127  const G4VPhysicalVolume *) const;
128 
129 private: // Dummy declarations to get rid of warnings ...
130 
132  const {}
134  const {}
136  const {}
138  const {}
140  const {}
142  const {}
144  const {}
146  const {}
148  const {}
150  const {}
152  const {}
154  const {}
155 // G4Material* ComputeMaterial(const G4int repNo,
156 // G4VPhysicalVolume* currentVol,
157 // const G4VTouchable* parentTouch)
158 // { return ComputeMaterial( currentVol, repNo, parentTouch ); }
160 
161 private:
162 
165  //
166  std::vector<G4double> fpZ;
167  std::vector<G4Material*> fMat;
168 };
169 
170 #endif
void ComputeDimensions(G4Torus &, const G4int, const G4VPhysicalVolume *) const
void ComputeTransformation(const G4int no, G4VPhysicalVolume *currentPV) const
void ComputeDimensions(G4Trap &, const G4int, const G4VPhysicalVolume *) const
Definition: G4Tubs.hh:85
void ComputeDimensions(G4Trd &, const G4int, const G4VPhysicalVolume *) const
void ComputeDimensions(G4Ellipsoid &, const G4int, const G4VPhysicalVolume *) const
double G4double
Definition: G4Types.hh:76
void ComputeDimensions(G4Orb &, const G4int, const G4VPhysicalVolume *) const
Definition: G4Cons.hh:83
void ComputeDimensions(G4Sphere &, const G4int, const G4VPhysicalVolume *) const
Definition: G4Box.hh:64
void ComputeDimensions(G4Para &, const G4int, const G4VPhysicalVolume *) const
void ComputeDimensions(G4Box &, const G4int, const G4VPhysicalVolume *) const
Definition: G4Orb.hh:62
Float_t mat
void ComputeDimensions(G4Polycone &, const G4int, const G4VPhysicalVolume *) const
virtual G4Material * ComputeMaterial(G4VPhysicalVolume *currentVol, const G4int repNo, const G4VTouchable *parentTouch=0)=0
int G4int
Definition: G4Types.hh:78
Definition: G4Trd.hh:72
G4Material * ComputeMaterial(G4VPhysicalVolume *currentVol, const G4int repNo, const G4VTouchable *parentTouch=0)
void ComputeDimensions(G4Hype &, const G4int, const G4VPhysicalVolume *) const
void ComputeDimensions(G4Cons &, const G4int, const G4VPhysicalVolume *) const
RE02NestedPhantomParameterisation(const G4ThreeVector &voxelSize, G4int nz, std::vector< G4Material * > &mat)
Definition: G4Para.hh:86
void ComputeDimensions(G4Polyhedra &, const G4int, const G4VPhysicalVolume *) const
void ComputeDimensions(G4Tubs &, const G4int, const G4VPhysicalVolume *) const
Definition: G4Hype.hh:76