DUNE PDELab (2.8)

dofvector.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_ALBERTA_DOFVECTOR_HH
4#define DUNE_ALBERTA_DOFVECTOR_HH
5
6#include <cstdlib>
7#include <limits>
8
9#include <dune/grid/albertagrid/misc.hh>
12
13#if HAVE_ALBERTA
14
15namespace Dune
16{
17
18 namespace Alberta
19 {
20
21 // External Forward Declarations
22 // -----------------------------
23
24 template< int dim >
25 class MeshPointer;
26
27
28
29 // DofVectorProvider
30 // -----------------
31
32 template< class Dof >
33 struct DofVectorProvider;
34
35 template<>
36 struct DofVectorProvider< int >
37 {
38 typedef ALBERTA DOF_INT_VEC DofVector;
39
40 static DofVector *get ( const DofSpace *dofSpace, const std::string &name )
41 {
42 return ALBERTA get_dof_int_vec( name.c_str(), dofSpace );
43 }
44
45 static void free ( DofVector *dofVector )
46 {
47 ALBERTA free_dof_int_vec( dofVector );
48 }
49
50 static DofVector *read ( const std::string &filename, Mesh *mesh, DofSpace *dofSpace )
51 {
52 return ALBERTA read_dof_int_vec_xdr( filename.c_str(), mesh, dofSpace );
53 }
54
55 static bool write ( const DofVector *dofVector, const std::string &filename )
56 {
57 int success = ALBERTA write_dof_int_vec_xdr( dofVector, filename.c_str() );
58 return (success == 0);
59 }
60 };
61
62 template<>
63 struct DofVectorProvider< signed char >
64 {
65 typedef ALBERTA DOF_SCHAR_VEC DofVector;
66
67 static DofVector *get ( const DofSpace *dofSpace, const std::string &name )
68 {
69 return ALBERTA get_dof_schar_vec( name.c_str(), dofSpace );
70 }
71
72 static void free ( DofVector *dofVector )
73 {
74 ALBERTA free_dof_schar_vec( dofVector );
75 }
76
77 static DofVector *read ( const std::string &filename, Mesh *mesh, DofSpace *dofSpace )
78 {
79 return ALBERTA read_dof_schar_vec_xdr( filename.c_str(), mesh, dofSpace );
80 }
81
82 static bool write ( const DofVector *dofVector, const std::string &filename )
83 {
84 int success = ALBERTA write_dof_schar_vec_xdr( dofVector, filename.c_str() );
85 return (success == 0);
86 }
87 };
88
89 template<>
90 struct DofVectorProvider< unsigned char >
91 {
92 typedef ALBERTA DOF_UCHAR_VEC DofVector;
93
94 static DofVector *get ( const DofSpace *dofSpace, const std::string &name )
95 {
96 return ALBERTA get_dof_uchar_vec( name.c_str(), dofSpace );
97 }
98
99 static void free ( DofVector *dofVector )
100 {
101 ALBERTA free_dof_uchar_vec( dofVector );
102 }
103
104 static DofVector *read ( const std::string &filename, Mesh *mesh, DofSpace *dofSpace )
105 {
106 return ALBERTA read_dof_uchar_vec_xdr( filename.c_str(), mesh, dofSpace );
107 }
108
109 static bool write ( const DofVector *dofVector, const std::string &filename )
110 {
111 int success = ALBERTA write_dof_uchar_vec_xdr( dofVector, filename.c_str() );
112 return (success == 0);
113 }
114 };
115
116 template<>
117 struct DofVectorProvider< Real >
118 {
119 typedef ALBERTA DOF_REAL_VEC DofVector;
120
121 static DofVector *get ( const DofSpace *dofSpace, const std::string &name )
122 {
123 return ALBERTA get_dof_real_vec( name.c_str(), dofSpace );
124 }
125
126 static void free ( DofVector *dofVector )
127 {
128 ALBERTA free_dof_real_vec( dofVector );
129 }
130
131 static DofVector *read ( const std::string &filename, Mesh *mesh, DofSpace *dofSpace )
132 {
133 return ALBERTA read_dof_real_vec_xdr( filename.c_str(), mesh, dofSpace );
134 }
135
136 static bool write ( const DofVector *dofVector, const std::string &filename )
137 {
138 int success = ALBERTA write_dof_real_vec_xdr( dofVector, filename.c_str() );
139 return (success == 0);
140 }
141 };
142
143 template<>
144 struct DofVectorProvider< GlobalVector >
145 {
146 typedef ALBERTA DOF_REAL_D_VEC DofVector;
147
148 static DofVector *get ( const DofSpace *dofSpace, const std::string &name )
149 {
150 return ALBERTA get_dof_real_d_vec( name.c_str(), dofSpace );
151 }
152
153 static void free ( DofVector *dofVector )
154 {
155 ALBERTA free_dof_real_d_vec( dofVector );
156 }
157
158 static DofVector *read ( const std::string &filename, Mesh *mesh, DofSpace *dofSpace )
159 {
160 return ALBERTA read_dof_real_d_vec_xdr( filename.c_str(), mesh, dofSpace );
161 }
162
163 static bool write ( const DofVector *dofVector, const std::string &filename )
164 {
165 int success = ALBERTA write_dof_real_d_vec_xdr( dofVector, filename.c_str() );
166 return (success == 0);
167 }
168 };
169
170
171
172 // DofVectorPointer
173 // ----------------
174
175 template< class Dof >
176 class DofVectorPointer
177 {
178 typedef DofVectorPointer< Dof > This;
179
180 typedef Alberta::DofVectorProvider< Dof > DofVectorProvider;
181
182 public:
183 typedef typename DofVectorProvider::DofVector DofVector;
184
185 static const bool supportsAdaptationData = true;
186
187 private:
188 DofVector *dofVector_;
189
190 public:
191 DofVectorPointer ()
192 : dofVector_( NULL )
193 {}
194
195 explicit DofVectorPointer ( const DofSpace *dofSpace,
196 const std::string &name = "" )
197 : dofVector_ ( DofVectorProvider::get( dofSpace, name ) )
198 {}
199
200 explicit DofVectorPointer ( DofVector *dofVector )
201 : dofVector_( dofVector )
202 {}
203
204 explicit operator bool () const
205 {
206 return (bool)dofVector_;
207 }
208
209 operator DofVector * () const
210 {
211 return dofVector_;
212 }
213
214 operator Dof * () const
215 {
216 Dof *ptr = NULL;
217 GET_DOF_VEC( ptr, dofVector_ );
218 return ptr;
219 }
220
221 const DofSpace *dofSpace () const
222 {
223 return dofVector_->fe_space;
224 }
225
226 std::string name () const
227 {
228 if( dofVector_ )
229 return dofVector_->name;
230 else
231 return std::string();
232 }
233
234 void create ( const DofSpace *dofSpace, const std::string &name = "" )
235 {
236 release();
237 dofVector_ = DofVectorProvider::get( dofSpace, name );
238 }
239
240 template< int dim >
241 void read ( const std::string &filename, const MeshPointer< dim > &meshPointer )
242 {
243 release();
244 dofVector_ = DofVectorProvider::read( filename, meshPointer, NULL );
245 }
246
247 bool write ( const std::string &filename ) const
248 {
249 return DofVectorProvider::write( dofVector_, filename );
250 }
251
252 void release ()
253 {
254 if( dofVector_ )
255 {
256 DofVectorProvider::free( dofVector_ );
257 dofVector_ = NULL;
258 }
259 }
260
261 template< class Functor >
262 void forEach ( Functor &functor ) const
263 {
264 Dof *array = (Dof *)(*this);
265 FOR_ALL_DOFS( dofSpace()->admin, functor( array[ dof ] ) );
266 }
267
268 void initialize ( const Dof &value )
269 {
270 Dof *array = (Dof *)(*this);
271 FOR_ALL_DOFS( dofSpace()->admin, array[ dof ] = value );
272 }
273
274 template< class AdaptationData >
275 AdaptationData *getAdaptationData () const
276 {
277 assert( dofVector_ );
278 assert( dofVector_->user_data );
279 return static_cast< AdaptationData * >( dofVector_->user_data );
280 }
281
282 template< class AdaptationData >
283 void setAdaptationData ( AdaptationData *adaptationData )
284 {
285 assert( dofVector_ );
286 dofVector_->user_data = adaptationData;
287 }
288
289 template< class Interpolation >
290 void setupInterpolation ()
291 {
292 assert( dofVector_ );
293 dofVector_->refine_interpol = &refineInterpolate< Interpolation >;
294 }
295
296 template< class Restriction >
297 void setupRestriction ()
298 {
299 assert( dofVector_ );
300 dofVector_->coarse_restrict = &coarsenRestrict< Restriction >;
301 }
302
303 private:
304 template< class Interpolation >
305 static void refineInterpolate ( DofVector *dofVector, RC_LIST_EL *list, int n )
306 {
307 const This dofVectorPointer( dofVector );
308 typename Interpolation::Patch patch( list, n );
309 Interpolation::interpolateVector( dofVectorPointer, patch );
310 }
311
312 template< class Restriction >
313 static void coarsenRestrict ( DofVector *dofVector, RC_LIST_EL *list, int n )
314 {
315 const This dofVectorPointer( dofVector );
316 typename Restriction::Patch patch( list, n );
317 Restriction::restrictVector( dofVectorPointer, patch );
318 }
319 };
320
321
322
323 // Auxiliary Functions
324 // --------------------
325
326 inline void abs ( const DofVectorPointer< int > &dofVector )
327 {
328 assert( !dofVector == false );
329 int *array = (int *)dofVector;
330 FOR_ALL_DOFS( dofVector.dofSpace()->admin,
331 array[ dof ] = std::abs( array[ dof ] ) );
332 }
333
334
335 inline int max ( const DofVectorPointer< int > &dofVector )
336 {
337 assert( !dofVector == false );
338 int *array = (int *)dofVector;
339 int result = std::numeric_limits< int >::min();
340 FOR_ALL_DOFS( dofVector.dofSpace()->admin,
341 result = std::max( result, array[ dof ] ) );
342 return result;
343 }
344
345
346 inline int min ( const DofVectorPointer< int > &dofVector )
347 {
348 assert( !dofVector == false );
349 int *array = (int *)dofVector;
350 int result = std::numeric_limits< int >::max();
351 FOR_ALL_DOFS( dofVector.dofSpace()->admin,
352 result = std::min( result, array[ dof ] ) );
353 return result;
354 }
355
356 } // namespace Alberta
357
358} // namespace Dune
359
360#endif // #if HAVE_ALBERTA
361
362#endif // #ifndef DUNE_ALBERTA_DOFVECTOR_HH
provides a wrapper for ALBERTA's refinement patches and the corners for geometryInFather
provides a wrapper for ALBERTA's el_info structure
constexpr void forEach(Range &&range, F &&f)
Range based for loop.
Definition: hybridutilities.hh:266
auto min(ADLTag< 0 >, const V &v1, const V &v2)
implements binary Simd::min()
Definition: defaults.hh:87
auto max(ADLTag< 0 >, const V &v1, const V &v2)
implements binary Simd::max()
Definition: defaults.hh:79
Dune namespace.
Definition: alignedallocator.hh:11
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