DUNE PDELab (2.8)

boundaryprojection.hh
1// -*- tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*-
2// vi: set et ts=4 sw=2 sts=2:
3#ifndef DUNE_GRID_COMMON_BOUNDARYPROJECTION_HH
4#define DUNE_GRID_COMMON_BOUNDARYPROJECTION_HH
5
6//- system includes
7#include <cmath>
8#include <memory>
9
10//- Dune includes
12
13#include <dune/geometry/multilineargeometry.hh>
14
17#include <dune/grid/io/file/gmshreader.hh>
18
19namespace Dune
20{
23 template <int dimworld>
24 struct DuneBoundaryProjection;
25
28 template <int dimworld>
30 : public BoundarySegmentBackupRestore< DuneBoundaryProjection< dimworld > >
31 {
33 typedef BoundarySegmentBackupRestore< DuneBoundaryProjection< dimworld > > BaseType;
34 typedef typename BaseType :: ObjectStreamType ObjectStreamType;
35
36 using BaseType :: restore;
37 using BaseType :: registerFactory;
38
43
45 virtual CoordinateType operator() (const CoordinateType& global) const = 0;
46
50 virtual void backup( [[maybe_unused]] ObjectStreamType& buffer ) const
51 {
52 DUNE_THROW(NotImplemented,"DuneBoundaryProjection::backup not overloaded!");
53 }
54
55 template <class BufferImp>
56 void toBuffer( BufferImp& buffer ) const
57 {
58 MessageBufferIF< BufferImp > buf( buffer );
59 toBuffer( buf );
60 }
61
62 template <class BufferImp>
63 void toBuffer( MessageBufferIF< BufferImp > & buffer ) const
64 {
65 ObjectStreamType str;
66 // call virtual interface backup
67 backup( str );
68 std::string data = str.str();
69 const size_t size = data.size();
70 buffer.write( size );
71 for( size_t i=0; i<size; ++i )
72 buffer.write( data[ i ] );
73 }
74
75 template <class BufferImp>
76 static std::unique_ptr< ThisType > restoreFromBuffer( BufferImp & buffer )
77 {
78 MessageBufferIF< BufferImp > buf( buffer );
79 return restoreFromBuffer( buf );
80 }
81
82 template <class BufferImp>
83 static std::unique_ptr< ThisType > restoreFromBuffer( MessageBufferIF< BufferImp > & buffer )
84 {
85 std::string data;
86 size_t size = 0;
87 buffer.read( size );
88 data.resize( size );
89 for( size_t i=0; i<size; ++i )
90 buffer.read( data[ i ] );
91
92 ObjectStreamType str;
93 str.write( data.c_str(), size );
94 return BaseType::restore( str );
95 }
96 };
97
98 template < int dimworld >
99 class BoundaryProjectionWrapper
100 : public DuneBoundaryProjection< dimworld >
101 {
102 protected:
103 typedef DuneBoundaryProjection< dimworld > BaseType;
104 const BaseType& proj_;
105 public:
107 typedef typename BaseType :: CoordinateType CoordinateType;
108
109 // constructor taking other projection
110 BoundaryProjectionWrapper( const BaseType& proje )
111 : proj_( proje )
112 {}
113
115 ~BoundaryProjectionWrapper () {}
116
118 CoordinateType operator() (const CoordinateType& global) const
119 {
120 return proj_( global );
121 }
122 };
123
124 // BoundarySegmentWrapper
125 // ----------------------
126
128 template< int dim, int dimworld >
130 : public DuneBoundaryProjection< dimworld >
131 {
134
135 typedef typename Base :: ObjectStreamType ObjectStreamType;
136
137 typedef MultiLinearGeometry<typename Base::CoordinateType::value_type,dim-1,dimworld> FaceMapping;
138
139 public:
140 typedef typename Base::CoordinateType CoordinateType;
142
152 const std::vector< CoordinateType > &vertices,
153 const std::shared_ptr< BoundarySegment > &boundarySegment )
154 : faceMapping_( FaceMapping( type, vertices ) ),
155 boundarySegment_( boundarySegment )
156 {}
157
158 BoundarySegmentWrapper( ObjectStreamType& buffer )
159 : faceMapping_( readFaceMapping( buffer ) ),
160 boundarySegment_( BoundarySegment::restore( buffer ).release() )
161 {
162 }
163
165 {
166 return boundarySegment() ( faceMapping_.local( global ) );
167 }
168
169 const BoundarySegment &boundarySegment () const
170 {
171 return *boundarySegment_;
172 }
173
174 void backup( ObjectStreamType& buffer ) const
175 {
176 // write identifier key first
177 buffer.write( (const char *) &key(), sizeof(int));
178 // now all data
179 GeometryType type = faceMapping_.type();
180 buffer.write( (const char *) &type, sizeof(GeometryType) );
181
182 int corners = faceMapping_.corners() ;
183 buffer.write( (const char *) &corners, sizeof(int) );
184
185 CoordinateType corner( 0 );
186 for( int i=0; i<corners; ++i )
187 {
188 corner = faceMapping_.corner( i );
189 buffer.write( (const char *) &corner[ 0 ], sizeof(double)*CoordinateType::dimension );
190 }
191
192 boundarySegment_->backup( buffer );
193 }
194
195 static void registerFactory()
196 {
197 if( key() < 0 )
198 {
199 key() = Base::template registerFactory< ThisType >();
200 }
201 }
202
203 protected:
204 static int& key()
205 {
206 static int k = -1;
207 return k;
208 }
209
210 FaceMapping readFaceMapping( ObjectStreamType& buffer )
211 {
212 GeometryType type;
213 buffer.read( (char *) &type, sizeof(GeometryType) );
214 int corners = 0;
215 buffer.read( (char *) &corners, sizeof(int) );
216 std::vector< CoordinateType > vertices( corners, CoordinateType(0) );
217 for( int i=0; i<corners; ++i )
218 {
219 buffer.read( (char *) &vertices[ i ][ 0 ], sizeof(double)*CoordinateType::dimension );
220 }
221 return FaceMapping( type, vertices );
222 }
223
224 private:
225 FaceMapping faceMapping_;
226 const std::shared_ptr< BoundarySegment > boundarySegment_;
227 };
228
229
230
232 //
233 // Example of boundary projection projection to a circle
234 //
236 template <int dimworld>
237 struct CircleBoundaryProjection : public DuneBoundaryProjection< dimworld >
238 {
240 typedef FieldVector< double, dimworld> CoordinateType;
241
243 CircleBoundaryProjection(const double radius = std::sqrt( (double)dimworld ))
244 : radius_( radius ) {}
245
247 virtual ~CircleBoundaryProjection() {}
248
250 virtual CoordinateType operator() (const CoordinateType& global) const
251 {
252 CoordinateType prj( global );
253 // get adjustment factor
254 const double factor = radius_ / global.two_norm();
255 // adjust
256 prj *= factor;
257 return prj;
258 }
259
260 protected:
262 const double radius_;
263 };
264
265} // end namespace
266
267#endif // #ifndef DUNE_GRID_COMMON_BOUNDARYPROJECTION_HH
Base class for grid boundary segments of arbitrary geometry.
Definition: boundaryprojection.hh:131
CoordinateType operator()(const CoordinateType &global) const
projection operator projection a global coordinate
Definition: boundaryprojection.hh:164
void backup(ObjectStreamType &buffer) const
write DuneBoundaryProjection's data to stream buffer
Definition: boundaryprojection.hh:174
BoundarySegmentWrapper(const GeometryType &type, const std::vector< CoordinateType > &vertices, const std::shared_ptr< BoundarySegment > &boundarySegment)
Definition: boundaryprojection.hh:151
@ dimension
The size of this vector.
Definition: fvector.hh:102
Unique label for each type of entities that can occur in DUNE grids.
Definition: type.hh:123
Communication message buffer interface. This class describes the interface for reading and writing da...
Definition: datahandleif.hh:31
generic geometry implementation based on corner coordinates
Definition: multilineargeometry.hh:179
Dune::GeometryType type() const
obtain the name of the reference element
Definition: multilineargeometry.hh:261
GlobalCoordinate corner(int i) const
obtain coordinates of the i-th corner
Definition: multilineargeometry.hh:267
int corners() const
obtain number of corners of the corresponding reference element
Definition: multilineargeometry.hh:264
Default exception for dummy implementations.
Definition: exceptions.hh:261
Describes the parallel communication interface class for MessageBuffers and DataHandles.
GeometryType
Type representing VTK's entity geometry types.
Definition: common.hh:130
Implements a vector constructed from a given type representing a field and a compile-time given size.
#define DUNE_THROW(E, m)
Definition: exceptions.hh:216
Dune namespace.
Definition: alignedallocator.hh:11
Base class for classes implementing geometries of boundary segments.
Definition: boundarysegment.hh:92
Interface class for vertex projection at the boundary.
Definition: boundaryprojection.hh:31
virtual void backup(ObjectStreamType &buffer) const
write DuneBoundaryProjection's data to stream buffer
Definition: boundaryprojection.hh:50
virtual CoordinateType operator()(const CoordinateType &global) const =0
projection operator projection a global coordinate
virtual ~DuneBoundaryProjection()
destructor
Definition: boundaryprojection.hh:42
FieldVector< double, dimworld > CoordinateType
type of coordinate vector
Definition: boundaryprojection.hh:40
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