Geant4_10
G4UPolyhedra.hh
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30 // --------------------------------------------------------------------
31 // GEANT 4 class header file
32 //
33 //
34 // G4UPolyhedra
35 //
36 // Class description:
37 //
38 // Wrapper class for UPolyhedra to make use of it from USolids module.
39 
40 // History:
41 // 31.10.13 G.Cosmo, CERN/PH
42 // --------------------------------------------------------------------
43 #ifndef G4UPOLYHEDRA_HH
44 #define G4UPOLYHEDRA_HH
45 
46 #include "G4USolid.hh"
47 #include "UPolyhedra.hh"
48 #include "G4PolyhedraSide.hh"
49 #include "G4PolyhedraHistorical.hh"
50 
52 class G4ReduciblePolygon;
53 
54 class G4UPolyhedra : public G4USolid
55 {
56  public: // with description
57 
58  G4UPolyhedra( const G4String& name,
59  G4double phiStart, // initial phi starting angle
60  G4double phiTotal, // total phi angle
61  G4int numSide, // number sides
62  G4int numZPlanes, // number of z planes
63  const G4double zPlane[], // position of z planes
64  const G4double rInner[], // tangent distance to inner surface
65  const G4double rOuter[] ); // tangent distance to outer surface
66 
67  G4UPolyhedra( const G4String& name,
68  G4double phiStart, // initial phi starting angle
69  G4double phiTotal, // total phi angle
70  G4int numSide, // number sides
71  G4int numRZ, // number corners in r,z space
72  const G4double r[], // r coordinate of these corners
73  const G4double z[] ); // z coordinate of these corners
74 
75  ~G4UPolyhedra();
76 
78  const G4int n,
79  const G4VPhysicalVolume* pRep);
80 
81  inline UPolyhedra* GetShape() const;
82 
83  inline G4int GetNumSide() const;
84  inline G4double GetStartPhi() const;
85  inline G4double GetEndPhi() const;
86  inline G4bool IsOpen() const;
87  inline G4bool IsGeneric() const;
88  inline G4int GetNumRZCorner() const;
89  inline G4PolyhedraSideRZ GetCorner( const G4int index ) const;
92 
93  inline G4bool Reset();
94 
95  public: // without description
96 
97  G4UPolyhedra(__void__&);
98  // Fake default constructor for usage restricted to direct object
99  // persistency for clients requiring preallocation of memory for
100  // persistifiable objects.
101 
102  G4UPolyhedra( const G4UPolyhedra &source );
103  G4UPolyhedra &operator=( const G4UPolyhedra &source );
104  // Copy constructor and assignment operator.
106 };
107 
108 // --------------------------------------------------------------------
109 // Inline methods
110 // --------------------------------------------------------------------
111 
113 {
114  return (UPolyhedra*) fShape;
115 }
116 
118 {
119  return GetShape()->GetNumSide();
120 }
122 {
123  return GetShape()->GetStartPhi();
124 }
126 {
127  return GetShape()->GetEndPhi();
128 }
130 {
131  return GetShape()->IsOpen();
132 }
134 {
135  return GetShape()->IsGeneric();
136 }
138 {
139  return GetShape()->GetNumRZCorner();
140 }
142 {
143  UPolyhedraSideRZ pside = GetShape()->GetCorner(index);
144  G4PolyhedraSideRZ psiderz = { pside.r, pside.z };
145 
146  return psiderz;
147 }
149 {
152  pdata->Start_angle = pars->fStartAngle;
153  pdata->Opening_angle = pars->fOpeningAngle;
154  pdata->numSide = pars->fNumSide;
155  for (G4int i=0; i<pars->fNumZPlanes; ++i)
156  {
157  pdata->Z_values[i] = pars->fZValues[i];
158  pdata->Rmin[i] = pars->Rmin[i];
159  pdata->Rmax[i] = pars->Rmax[i];
160  }
161  return pdata;
162 }
164 {
166  pdata->fStartAngle = pars->Start_angle;
167  pdata->fOpeningAngle = pars->Opening_angle;
168  pdata->fNumSide = pars->numSide;
169  pdata->fNumZPlanes = pars->Num_z_planes;
170  for (G4int i=0; i<pdata->fNumZPlanes; ++i)
171  {
172  pdata->fZValues[i] = pars->Z_values[i];
173  pdata->Rmin[i] = pars->Rmin[i];
174  pdata->Rmax[i] = pars->Rmax[i];
175  }
176  ResetPolyhedron();
177 }
179 {
180  return GetShape()->Reset();
181 }
182 
183 #endif
bool IsGeneric() const
UPolyhedraSideRZ GetCorner(const int index) const
G4UPolyhedra & operator=(const G4UPolyhedra &source)
bool Reset()
Definition: UPolyhedra.cc:464
UPolyhedraHistorical * GetOriginalParameters()
Int_t index
Definition: macro.C:9
G4bool Reset()
const char * p
Definition: xmltok.h:285
std::vector< double > fZValues
Definition: UPolyhedra.hh:59
const XML_Char * name
Definition: expat.h:151
int GetNumSide() const
int G4int
Definition: G4Types.hh:78
G4int GetNumRZCorner() const
G4UPolyhedra(const G4String &name, G4double phiStart, G4double phiTotal, G4int numSide, G4int numZPlanes, const G4double zPlane[], const G4double rInner[], const G4double rOuter[])
Definition: G4UPolyhedra.cc:45
Char_t n[5]
bool IsOpen() const
VUSolid * fShape
Definition: G4USolid.hh:176
void ComputeDimensions(G4VPVParameterisation *p, const G4int n, const G4VPhysicalVolume *pRep)
bool G4bool
Definition: G4Types.hh:79
G4double GetEndPhi() const
std::vector< double > Rmin
Definition: UPolyhedra.hh:60
G4double GetStartPhi() const
G4PolyhedraHistorical * GetOriginalParameters() const
G4bool IsGeneric() const
UPolyhedra * GetShape() const
G4PolyhedraSideRZ GetCorner(const G4int index) const
jump r
Definition: plot.C:36
int GetNumRZCorner() const
virtual void ResetPolyhedron() const
Definition: G4USolid.cc:536
G4Polyhedron * CreatePolyhedron() const
double GetStartPhi() const
G4int GetNumSide() const
tuple z
Definition: test.py:28
std::vector< double > Rmax
Definition: UPolyhedra.hh:61
double GetEndPhi() const
double G4double
Definition: G4Types.hh:76
void SetOriginalParameters(G4PolyhedraHistorical *pars)
G4bool IsOpen() const