Dune Core Modules (2.4.1)

cachedcoordfunction.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_GEOGRID_CACHEDCOORDFUNCTION_HH
4#define DUNE_GEOGRID_CACHEDCOORDFUNCTION_HH
5
6#include <cassert>
7#include <memory>
8
10
11#include <dune/grid/common/gridenums.hh>
12
13#include <dune/grid/geometrygrid/capabilities.hh>
14#include <dune/grid/geometrygrid/coordfunctioncaller.hh>
15#include <dune/grid/utility/persistentcontainer.hh>
16
17namespace Dune
18{
19
20 // Internal Forward Declarations
21 // -----------------------------
22
23 template< class HostGrid, class CoordFunction >
24 class CachedCoordFunction;
25
26
27
28 // GeoGrid::CoordCache
29 // -------------------
30
31 namespace GeoGrid
32 {
33
34 template< class HostGrid, class Coordinate >
35 class CoordCache
36 {
37 typedef CoordCache< HostGrid, Coordinate > This;
38
39 static const unsigned int dimension = HostGrid::dimension;
40
41 typedef typename HostGrid::template Codim< dimension >::Entity Vertex;
42
44
45 public:
46 explicit CoordCache ( const HostGrid &hostGrid )
47 : data_( hostGrid, dimension )
48 {}
49
50 template< class Entity >
51 const Coordinate &operator() ( const Entity &entity, unsigned int corner ) const
52 {
53 return data_( entity, corner );
54 }
55
56 const Coordinate &operator() ( const Vertex &vertex, unsigned int corner ) const
57 {
58 assert( corner == 0 );
59 return data_[ vertex ];
60 }
61
62 template< class Entity >
63 Coordinate &operator() ( const Entity &entity, unsigned int corner )
64 {
65 return data_( entity,corner) ;
66 }
67
68 Coordinate &operator() ( const Vertex &vertex, unsigned int corner )
69 {
70 assert( corner == 0 );
71 return data_[ vertex ];
72 }
73
74 void adapt ()
75 {
76 data_.resize();
77 data_.shrinkToFit();
78 }
79
80 private:
81 CoordCache ( const This & );
82 This &operator= ( const This & );
83
84 DataCache data_;
85 };
86
87 } // namespace GeoGrid
88
89
90
91 // CachedCoordFunction
92 // -------------------
93
94 template< class HostGrid, class CoordFunction >
95 class CachedCoordFunction
96 : public DiscreteCoordFunction< typename CoordFunction::ctype, CoordFunction::dimRange, CachedCoordFunction< HostGrid, CoordFunction > >
97 {
98 typedef CachedCoordFunction< HostGrid, CoordFunction > This;
99 typedef DiscreteCoordFunction< typename CoordFunction::ctype, CoordFunction::dimRange, This > Base;
100
101 public:
102 typedef typename Base::ctype ctype;
103
104 typedef typename Base::RangeVector RangeVector;
105
106 private:
107 typedef GeoGrid::CoordCache< HostGrid, RangeVector > Cache;
108
109 public:
110 explicit
111 CachedCoordFunction ( const HostGrid &hostGrid,
112 const CoordFunction &coordFunction = CoordFunction() )
113 : hostGrid_( hostGrid ),
114 coordFunction_( coordFunction ),
115 cache_( hostGrid )
116 {
117 buildCache();
118 }
119
120 void adapt ()
121 {
122 cache_.adapt();
123 buildCache();
124 }
125
126 void buildCache ();
127
128 template< class HostEntity >
129 void insertEntity ( const HostEntity &hostEntity );
130
131 template< class HostEntity >
132 void evaluate ( const HostEntity &hostEntity, unsigned int corner, RangeVector &y ) const
133 {
134 y = cache_( hostEntity, corner );
135#ifndef NDEBUG
136 typedef GeoGrid::CoordFunctionCaller< HostEntity, typename CoordFunction::Interface >
137 CoordFunctionCaller;
138
139 RangeVector z;
140 CoordFunctionCaller coordFunctionCaller( hostEntity, coordFunction_ );
141 coordFunctionCaller.evaluate( corner, z );
142 assert( ((y - z).two_norm() < 1e-6) );
143#endif
144 }
145
146 private:
147 const HostGrid &hostGrid_;
148 const CoordFunction &coordFunction_;
149 Cache cache_;
150 };
151
152
153
154 // Implementation of CachedCoordFunction
155 // -------------------------------------
156
157 template< class HostGrid, class CoordFunction >
158 inline void CachedCoordFunction< HostGrid, CoordFunction >::buildCache ()
159 {
160 typedef typename HostGrid::template Codim< 0 >::Entity Element;
161 typedef typename HostGrid::LevelGridView MacroView;
162 typedef typename HostGrid::HierarchicIterator HierarchicIterator;
163
164 typedef typename MacroView::template Codim< 0 >::template Partition< All_Partition >::Iterator MacroIterator;
165
166 const MacroView macroView = hostGrid_.levelGridView( 0 );
167 const int maxLevel = hostGrid_.maxLevel();
168
169 const MacroIterator mend = macroView.template end< 0, All_Partition >();
170 for( MacroIterator mit = macroView.template begin< 0, All_Partition >(); mit != mend; ++mit )
171 {
172 const Element &macroElement = *mit;
173 insertEntity( macroElement );
174
175 const HierarchicIterator hend = macroElement.hend( maxLevel );
176 for( HierarchicIterator hit = macroElement.hbegin( maxLevel ); hit != hend; ++hit )
177 insertEntity( *hit );
178 }
179 }
180
181
182 template< class HostGrid, class CoordFunction >
183 template< class HostEntity >
184 inline void CachedCoordFunction< HostGrid, CoordFunction >
185 ::insertEntity ( const HostEntity &hostEntity )
186 {
187 typedef GeoGrid::CoordFunctionCaller< HostEntity, typename CoordFunction::Interface >
188 CoordFunctionCaller;
189
190 CoordFunctionCaller coordFunctionCaller( hostEntity, coordFunction_ );
191 const ReferenceElement< ctype, HostEntity::dimension > &refElement
193
194 const unsigned int numCorners = refElement.size( HostEntity::dimension );
195 for( unsigned int i = 0; i < numCorners; ++i )
196 coordFunctionCaller.evaluate( i, cache_( hostEntity, i ) );
197 }
198
199} // namespace Dune
200
201#endif // #ifndef DUNE_GEOGRID_CACHEDCOORDFUNCTION_HH
ct ctype
field type of the coordinate vector
Definition: coordfunction.hh:147
Dune namespace.
Definition: alignment.hh:10
static const ReferenceElement< ctype, dim > & general(const GeometryType &type)
get general reference elements
Definition: referenceelements.hh:484
Traits for type conversions and type information.
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