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25 // 22 //
>> 23 //
>> 24 // $Id: G4PolyPhiFace.hh,v 1.5 2002/10/28 11:47:50 gcosmo Exp $
>> 25 // GEANT4 tag $Name: geant4-05-02-patch-01 $
>> 26 //
>> 27 //
>> 28 // --------------------------------------------------------------------
>> 29 // GEANT 4 class header file
>> 30 //
>> 31 //
26 // G4PolyPhiFace 32 // G4PolyPhiFace
27 // 33 //
28 // Class description: 34 // Class description:
29 // 35 //
30 // Definition of a face that bounds a polyco 36 // Definition of a face that bounds a polycone or polyhedra when
31 // it has a phi opening: 37 // it has a phi opening:
32 // 38 //
33 // G4PolyPhiFace( const G4ReduciblePolygon* << 39 // G4PolyPhiFace( const G4ReduciblePolygon *rz,
34 // G4double phi, 40 // G4double phi,
35 // G4double deltaPhi, 41 // G4double deltaPhi,
36 // G4double phiOther ) 42 // G4double phiOther )
37 // 43 //
38 // Specifically: a face that lies on a plane 44 // Specifically: a face that lies on a plane that passes through
39 // the z axis. It has boundaries that are st 45 // the z axis. It has boundaries that are straight lines of arbitrary
40 // length and direction, but with corners aw 46 // length and direction, but with corners aways on the same side of
41 // the z axis. 47 // the z axis.
42 48
43 // Author: David C. Williams (davidw@scipp.ucs << 49 // Author:
>> 50 // David C. Williams (davidw@scipp.ucsc.edu)
44 // ------------------------------------------- 51 // --------------------------------------------------------------------
45 #ifndef G4POLYPHIFACE_HH << 52
46 #define G4POLYPHIFACE_HH 1 << 53 #ifndef G4PolyPhiFace_hh
>> 54 #define G4PolyPhiFace_hh
47 55
48 #include "G4VCSGface.hh" 56 #include "G4VCSGface.hh"
49 #include "G4TwoVector.hh" <<
50 57
51 class G4ReduciblePolygon; 58 class G4ReduciblePolygon;
52 59
53 struct G4PolyPhiFaceVertex << 60 typedef struct
54 { 61 {
55 G4double x, y, r, z; // position 62 G4double x, y, r, z; // position
56 G4double rNorm, 63 G4double rNorm,
57 zNorm; // r/z normal 64 zNorm; // r/z normal
58 G4ThreeVector norm3D; // 3D normal 65 G4ThreeVector norm3D; // 3D normal
>> 66 } G4PolyPhiFaceVertex;
59 67
60 // Needed for Triangulation Algorithm << 68 typedef struct
61 // <<
62 G4bool ear; <<
63 G4PolyPhiFaceVertex *next,*prev; <<
64 }; <<
65 <<
66 struct G4PolyPhiFaceEdge <<
67 { 69 {
68 G4PolyPhiFaceEdge() = default; << 70 G4PolyPhiFaceVertex *v0, *v1; // Corners
69 G4PolyPhiFaceVertex *v0{nullptr}, *v1{nullp << 71 G4double tr, tz, // Unit vector along edge
70 G4double tr{.0}, tz{0.}, // Unit vect << 72 length; // Length of edge
71 length{0.}; // Length of <<
72 G4ThreeVector norm3D; // 3D edge n 73 G4ThreeVector norm3D; // 3D edge normal vector
73 }; << 74 } G4PolyPhiFaceEdge;
74 75
75 class G4PolyPhiFace : public G4VCSGface 76 class G4PolyPhiFace : public G4VCSGface
76 { 77 {
77 78
78 public: << 79 public: // with description
79 80
80 G4PolyPhiFace( const G4ReduciblePolygon* r << 81 G4PolyPhiFace( const G4ReduciblePolygon *rz,
81 G4double phi, G4doubl << 82 G4double phi, G4double deltaPhi, G4double phiOther );
82 // Constructor. << 83 // Constructor.
83 // Points r,z should be supplied in cloc << 84 // Points r,z should be supplied in clockwise order in r,z.
84 // For example: << 85 // For example:
85 // [1]---------[2] << 86 // [1]---------[2] ^ R
86 // | | << 87 // | | |
87 // | | << 88 // | | +--> z
88 // [0]---------[3] << 89 // [0]---------[3]
89 << 90
90 ~G4PolyPhiFace() override; << 91 virtual ~G4PolyPhiFace();
91 // Destructor. Removes edges and corners << 92 // Destructor. Removes edges and corners.
92 << 93
93 G4PolyPhiFace( const G4PolyPhiFace &source << 94 G4PolyPhiFace( const G4PolyPhiFace &source );
94 G4PolyPhiFace& operator=( const G4PolyPhiF << 95 G4PolyPhiFace& operator=( const G4PolyPhiFace &source );
95 // Copy constructor and assgnment operat << 96 // Copy constructor and assgnment operator.
96 << 97
97 G4bool Intersect( const G4ThreeVector& p, << 98 G4bool Intersect( const G4ThreeVector &p, const G4ThreeVector &v,
98 G4bool outgoing, G << 99 G4bool outgoing, G4double surfTolerance,
99 G4double& distance << 100 G4double &distance, G4double &distFromSurface,
100 G4ThreeVector& nor << 101 G4ThreeVector &normal, G4bool &allBehind );
101 102
102 G4double Distance( const G4ThreeVector& p, << 103 G4double Distance( const G4ThreeVector &p, G4bool outgoing );
103 104
104 EInside Inside( const G4ThreeVector& p, G4 << 105 EInside Inside( const G4ThreeVector &p, G4double tolerance,
105 G4double* bestDistan << 106 G4double *bestDistance );
106 107
107 G4ThreeVector Normal( const G4ThreeVector& << 108 G4ThreeVector Normal( const G4ThreeVector &p, G4double *bestDistance );
108 G4double* best <<
109 109
110 G4double Extent( const G4ThreeVector axis << 110 G4double Extent( const G4ThreeVector axis );
111 111
112 void CalculateExtent( const EAxis axis, << 112 void CalculateExtent( const EAxis axis,
113 const G4VoxelLimits << 113 const G4VoxelLimits &voxelLimit,
114 const G4AffineTransf << 114 const G4AffineTransform &tranform,
115 G4SolidExtentL << 115 G4SolidExtentList &extentList );
116 << 116
117 inline G4VCSGface* Clone() override; << 117 inline G4VCSGface *Clone();
118 // Allocates on the heap a clone of this << 118 // Allocates on the heap a clone of this face.
119 << 119
120 G4double SurfaceArea() override; << 120 public: // without description
121 G4double SurfaceTriangle( const G4ThreeVec << 121
122 const G4ThreeVec << 122 void Diagnose( G4VSolid *solid );
123 G4ThreeVector GetPointOnFace() override; << 123 // Throw an exception if something is found inconsistent with
124 // Auxiliary methods for determination o << 124 // the solid. For debugging purposes only
125 <<
126 G4PolyPhiFace(__void__&); <<
127 // Fake default constructor for usage re <<
128 // persistency for clients requiring pre <<
129 // persistifiable objects. <<
130 <<
131 void Diagnose( G4VSolid* solid ); <<
132 // Throw an exception if something is fo <<
133 // the solid. For debugging purposes onl <<
134 <<
135 protected: <<
136 125
137 G4bool InsideEdgesExact( G4double r, G4dou <<
138 const G4ThreeVect <<
139 // Decide if the point in r,z is inside <<
140 // **but** do so consistently with other <<
141 <<
142 G4bool InsideEdges( G4double r, G4double z <<
143 G4bool InsideEdges( G4double r, G4double z <<
144 G4PolyPhiFaceVertex** <<
145 G4ThreeVector** head3D <<
146 // Decide if the point in r,z is inside <<
147 <<
148 inline G4double ExactZOrder( G4double z, <<
149 G4double qx, <<
150 const G4ThreeVector <<
151 G4double norm <<
152 const G4PolyPhiFace <<
153 // Decide precisely whether a trajectory <<
154 // or exactly passes through the z posit <<
155 <<
156 void CopyStuff( const G4PolyPhiFace& sourc <<
157 <<
158 // Functions used for Triangulation in Cas <<
159 // The triangulation is used for GetPointO <<
160 <<
161 G4double Area2( const G4TwoVector& a, cons <<
162 // Calculation of 2*Area of Triangle wit <<
163 <<
164 G4bool Left( const G4TwoVector& a, const G <<
165 G4bool LeftOn( const G4TwoVector& a, const <<
166 G4bool Collinear( const G4TwoVector& a, co <<
167 // Boolean functions for sign of Surface <<
168 <<
169 G4bool IntersectProp( const G4TwoVector& a <<
170 const G4TwoVector& c <<
171 // Boolean function for finding proper i <<
172 // line segments (a,b) and (c,d). <<
173 <<
174 G4bool Between( const G4TwoVector& a, cons <<
175 // Boolean function for determining if p <<
176 // where the three points (a,b,c) are on <<
177 <<
178 G4bool Intersect( const G4TwoVector& a, co <<
179 const G4TwoVector& c, co <<
180 // Boolean function for finding proper i <<
181 // of two line segments (a,b) and (c,d). <<
182 <<
183 G4bool Diagonalie( G4PolyPhiFaceVertex* a, <<
184 // Boolean Diagonalie help to determine <<
185 // of segment (a,b) is convex or reflex. <<
186 <<
187 G4bool InCone( G4PolyPhiFaceVertex *a, G4P <<
188 // Boolean function for determining if b <<
189 // where a is the center of the cone. <<
190 <<
191 G4bool Diagonal( G4PolyPhiFaceVertex* a, G <<
192 // Boolean function for determining if D <<
193 // inside Polycone or PolyHedra. <<
194 <<
195 void EarInit(); <<
196 // Initialisation for Triangulisation by <<
197 // For details see "Computational Geomet <<
198 <<
199 void Triangulate(); <<
200 // Triangularisation by ear tips for Pol <<
201 // For details see "Computational Geomet <<
202 // NOTE: a copy of the shape is made and <<
203 // order to have a list of triangl <<
204 // method GetPointOnFace(). <<
205 126
206 protected: 127 protected:
207 128
208 G4int numEdges = 0; // Number of edges << 129 G4PolyPhiFaceEdge *edges; // The edges of the face
209 G4PolyPhiFaceEdge* edges = nullptr; << 130 G4PolyPhiFaceVertex *corners; // And the corners
210 G4PolyPhiFaceVertex* corners = nullptr; << 131 G4int numEdges; // Number of edges
211 G4ThreeVector normal; // Normal uni << 132 G4ThreeVector normal; // Normal unit vector
212 G4ThreeVector radial; // Unit vecto << 133 G4ThreeVector radial; // Unit vector along radial direction
213 G4ThreeVector surface; // Point on s << 134 G4ThreeVector surface; // Point on surface
214 G4ThreeVector surface_point; // Auxiliary << 135 G4double rMin, rMax, // Extent in r
215 // method Get <<
216 G4double rMin, rMax, // Extent in r <<
217 zMin, zMax; // Extent in z 136 zMin, zMax; // Extent in z
218 G4bool allBehind = false; // True if the p << 137 G4bool allBehind; // True if the polycone/polyhedra
219 // is behind the << 138 // is behind the place of this face
220 G4double kCarTolerance; // Surface th << 139
221 G4double fSurfaceArea = 0.0; // Surface Ar << 140 G4bool InsideEdgesExact( G4double r, G4double z, G4double normSign,
222 G4PolyPhiFaceVertex* triangles = nullptr; << 141 const G4ThreeVector &p, const G4ThreeVector &v );
223 // Auxiliary pointer to 'corners' used f << 142 // Decide if the point in r,z is inside the edges of our face,
224 // Copy structure, changing the structur << 143 // **but** do so consistently with other faces.
>> 144
>> 145 G4bool InsideEdges( G4double r, G4double z );
>> 146 G4bool InsideEdges( G4double r, G4double z, G4double *distRZ2,
>> 147 G4PolyPhiFaceVertex **base3Dnorm=0,
>> 148 G4ThreeVector **head3Dnorm=0 );
>> 149 // Decide if the point in r,z is inside the edges of our face.
>> 150
>> 151 inline G4double ExactZOrder( G4double z,
>> 152 G4double qx, G4double qy, G4double qz,
>> 153 const G4ThreeVector &v,
>> 154 G4double normSign,
>> 155 const G4PolyPhiFaceVertex *vert ) const;
>> 156 // Decide precisely whether a trajectory passes to the left, right,
>> 157 // or exactly passes through the z position of a vertex point in face.
>> 158
>> 159 void CopyStuff( const G4PolyPhiFace &source );
225 }; 160 };
226 161
227 #include "G4PolyPhiFace.icc" 162 #include "G4PolyPhiFace.icc"
228 163
229 #endif 164 #endif
230 165