Dune Core Modules (2.9.0)

entity.hh
1// SPDX-FileCopyrightText: Copyright (C) DUNE Project contributors, see file LICENSE.md in module root
2// SPDX-License-Identifier: LicenseRef-GPL-2.0-only-with-DUNE-exception
3// -*- tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*-
4// vi: set et ts=4 sw=2 sts=2:
5#ifndef DUNE_GEOGRID_ENTITY_HH
6#define DUNE_GEOGRID_ENTITY_HH
7
8#include <dune/geometry/referenceelements.hh>
9
11#include <dune/grid/geometrygrid/capabilities.hh>
12#include <dune/grid/geometrygrid/cornerstorage.hh>
13
14namespace Dune
15{
16
17 namespace GeoGrid
18 {
19
20 // Internal Forward Declarations
21 // -----------------------------
22
33 template< int codim, class Grid, bool fake = !(Capabilities::hasHostEntity< Grid, codim >::v) >
35
48 template< int codim, int dim, class Grid >
49 class Entity;
50
51
52
53 // External Forward Declarations
54 // -----------------------------
55
56 template< class Grid >
57 class HierarchicIterator;
58
59 template< class Grid, class HostIntersectionIterator >
60 class IntersectionIterator;
61
62
63
64 // EntityBase (real)
65 // -----------------
66
74 template< int codim, class Grid >
75 class EntityBase< codim, Grid, false >
76 {
77 typedef typename std::remove_const< Grid >::type::Traits Traits;
78
79 public:
84 static const int codimension = codim;
86 static const int dimension = Traits::dimension;
88 static const int mydimension = dimension - codimension;
90 static const int dimensionworld = Traits::dimensionworld;
91
93 static const bool fake = false;
94
101 typedef typename Traits::ctype ctype;
102
104 typedef typename Traits::template Codim< codimension >::Geometry Geometry;
107 private:
108 typedef typename Traits::HostGrid HostGrid;
109 typedef typename Traits::CoordFunction CoordFunction;
110
111 public:
116 typedef typename HostGrid::template Codim< codimension >::Entity HostEntity;
117
119 typedef typename Traits::template Codim< codimension >::EntitySeed EntitySeed;
120
122 typedef typename HostGrid::template Codim< 0 >::Entity HostElement;
125 typedef typename Traits::template Codim< codim >::GeometryImpl GeometryImpl;
126
127 private:
128 typedef typename HostGrid::template Codim< codimension >::Geometry HostGeometry;
129
130 typedef GeoGrid::CoordVector< mydimension, Grid, fake > CoordVector;
131
132 public:
136 EntityBase ()
137 : hostEntity_()
138 , grid_( nullptr )
139 , geo_()
140 {}
141
142 EntityBase ( const Grid &grid, const EntitySeed &seed )
143 : hostEntity_( grid.hostGrid().entity( seed.impl().hostEntitySeed() ) )
144 , grid_( &grid )
145 {}
146
147 EntityBase ( const Grid &grid, const HostElement &hostElement, int i )
148 : hostEntity_( hostElement.template subEntity<codim>(i) )
149 , grid_( &grid )
150 {}
151
152
153 EntityBase ( const GeometryImpl &geo, const HostEntity &hostEntity )
154 : hostEntity_( hostEntity )
155 , grid_( &geo.grid() )
156 , geo_( geo )
157 {}
158
159 EntityBase ( const GeometryImpl &geo, HostEntity&& hostEntity )
160 : hostEntity_( std::move( hostEntity ) )
161 , grid_( &geo.grid() )
162 , geo_( geo )
163 {}
164
165 EntityBase ( const Grid &grid, const HostEntity& hostEntity )
166 : hostEntity_( hostEntity )
167 , grid_( &grid )
168 {}
169
170 EntityBase ( const Grid &grid, HostEntity&& hostEntity )
171 : hostEntity_( std::move( hostEntity ) )
172 , grid_( &grid )
173 {}
174
175
176 EntityBase ( const EntityBase &other )
177 : hostEntity_( other.hostEntity_ )
178 , grid_( other.grid_ )
179 , geo_( other.geo_ )
180 {}
181
182 EntityBase ( EntityBase&& other )
183 : hostEntity_( std::move( other.hostEntity_ ) )
184 , grid_( other.grid_ )
185 , geo_( std::move( other.geo_ ) )
186 {}
187
190 const EntityBase &operator= ( const EntityBase &other )
191 {
192 hostEntity_ = other.hostEntity_;
193 grid_ = other.grid_;
194 geo_ = other.geo_;
195 return *this;
196 }
197
198 const EntityBase &operator= ( EntityBase&& other )
199 {
200 hostEntity_ = std::move( other.hostEntity_ );
201 grid_ = std::move( other.grid_ );
202 geo_ = std::move( other.geo_ );
203 return *this;
204 }
205
207 bool equals ( const EntityBase &other) const
208 {
209 return hostEntity_ == other.hostEntity_;
210 }
211
212 public:
221 {
222 return hostEntity().type();
223 }
224
226 int level () const
227 {
228 return hostEntity().level();
229 }
230
233 {
234 return hostEntity().partitionType();
235 }
236
252 {
253 if( !geo_ )
254 {
255 CoordVector coords( hostEntity(), grid().coordFunction() );
256 geo_ = GeometryImpl( grid(), type(), coords );
257 }
258 return Geometry( geo_ );
259 }
260
261 unsigned int subEntities ( unsigned int cc ) const
262 {
263 return hostEntity().subEntities( cc );
264 }
265
267 EntitySeed seed () const { return typename EntitySeed::Implementation( hostEntity().seed() ); }
274 const Grid &grid () const { assert( grid_ ); return *grid_; }
275
276 const HostEntity &hostEntity () const
277 {
278 return hostEntity_;
279 }
280
286 void initialize ( const HostEntity &hostEntity ) { hostEntity_ = hostEntity; }
287
295 template< class HostIndexSet >
296 typename HostIndexSet::IndexType
297 index ( const HostIndexSet &indexSet ) const
298 {
299 return indexSet.template index< codimension >( hostEntity() );
300 }
301
311 template< class HostIndexSet >
312 typename HostIndexSet::IndexType
313 subIndex ( const HostIndexSet &indexSet, int i, unsigned int cd ) const
314 {
315 return indexSet.subIndex( hostEntity(), i, cd );
316 }
317
325 template< class HostIndexSet >
326 bool isContained ( const HostIndexSet &indexSet ) const
327 {
328 return indexSet.contains( hostEntity() );
329 }
330
338 template< class HostIdSet >
339 typename HostIdSet::IdType id ( const HostIdSet &idSet ) const
340 {
341 return idSet.template id< codimension >( hostEntity() );
342 }
345 private:
346 HostEntity hostEntity_;
347 const Grid *grid_;
348 mutable GeometryImpl geo_;
349 };
350
351
352
353 // EntityBase (fake)
354 // -----------------
355
363 template< int codim, class Grid >
364 class EntityBase< codim, Grid, true >
365 {
366 typedef typename std::remove_const< Grid >::type::Traits Traits;
367
368 public:
373 static const int codimension = codim;
375 static const int dimension = Traits::dimension;
377 static const int mydimension = dimension - codimension;
379 static const int dimensionworld = Traits::dimensionworld;
380
382 static const bool fake = true;
389 typedef typename Traits::ctype ctype;
390
392 typedef typename Traits::template Codim< codimension >::Geometry Geometry;
395 private:
396 typedef typename Traits::HostGrid HostGrid;
397 typedef typename Traits::CoordFunction CoordFunction;
398
399 public:
404 typedef typename HostGrid::template Codim< codimension >::Entity HostEntity;
405
407 typedef typename Traits::template Codim< codimension >::EntitySeed EntitySeed;
408
410 typedef typename HostGrid::template Codim< 0 >::Entity HostElement;
413 typedef typename Traits::template Codim< codimension >::GeometryImpl GeometryImpl;
414
415 private:
416 typedef typename HostGrid::template Codim< 0 >::Geometry HostGeometry;
417
418 typedef GeoGrid::CoordVector< mydimension, Grid, fake > CoordVector;
419
420 public:
424 EntityBase ()
425 : hostElement_()
426 , subEntity_(-1)
427 , grid_(nullptr)
428 , geo_()
429 {}
430
431 EntityBase(const Grid& grid, const HostElement& hostElement, unsigned int subEntity)
432 : hostElement_(hostElement)
433 , subEntity_(subEntity)
434 , grid_(&grid)
435 {}
436
437 EntityBase ( const Grid &grid, const EntitySeed &seed )
438 : hostElement_( grid.hostGrid().entity( seed.impl().hostElementSeed() ) )
439 , subEntity_( seed.impl().subEntity() )
440 , grid_( &grid )
441 {}
442
443 EntityBase ( const EntityBase &other )
444 : hostElement_( other.hostElement_ )
445 , subEntity_( other.subEntity_ )
446 , grid_(other.grid_)
447 , geo_( other.geo_ )
448 {}
449
450 EntityBase ( EntityBase &&other )
451 : hostElement_( std::move( other.hostElement_ ) )
452 , subEntity_( std::move( other.subEntity_ ) )
453 , grid_( std::move( other.grid_ ) )
454 , geo_( std::move( other.geo_ ) )
455 {}
456
457 /*
458 * This method is required by constructors in the `Entity` class
459 * below, however it cannot do anything useful for fake
460 * entities.
461 */
462 EntityBase(const Grid& grid, const HostEntity& hostEntity)
463 {
464 DUNE_THROW(Dune::Exception, "GeometryGrid: Cannot create fake entity of codim " << codimension << " from real host entity.");
465 }
466
469 const EntityBase &operator= ( const EntityBase &other )
470 {
471 hostElement_ = other.hostElement_;
472 subEntity_ = other.subEntity_;
473 grid_ = other.grid_;
474 geo_ = other.geo_;
475 return *this;
476 }
477
478 const EntityBase &operator= ( EntityBase&& other )
479 {
480 hostElement_ = std::move( other.hostElement_ );
481 subEntity_ = std::move( other.subEntity_ );
482 grid_ = std::move( other.grid_ );
483 geo_ = std::move( other.geo_ );
484 return *this;
485 }
486
488 bool equals ( const EntityBase &other) const
489 {
490 const bool thisEnd = (subEntity() < 0);
491 const bool otherEnd = (other.subEntity() < 0);
492 if( thisEnd || otherEnd )
493 return thisEnd && otherEnd;
494
495 const int lvl = level();
496 if( lvl != other.level() )
497 return false;
498
499 const typename Traits::HostGrid::Traits::LevelIndexSet &indexSet
500 = grid().hostGrid().levelIndexSet( lvl );
501
502 const HostElement &thisElement = hostElement();
503 assert( indexSet.contains( thisElement ) );
504 const HostElement &otherElement = other.hostElement();
505 assert( indexSet.contains( otherElement ) );
506
507 const int thisIndex = indexSet.subIndex( thisElement, subEntity(), codimension );
508 const int otherIndex = indexSet.subIndex( otherElement, other.subEntity(), codimension );
509 return (thisIndex == otherIndex);
510 }
511
520 {
521 auto refElement = referenceElement< ctype, dimension >( hostElement().type() );
522 return refElement.type( subEntity_, codimension );
523 }
524
526 int level () const
527 {
528 return hostElement().level();
529 }
530
533 {
534 auto refElement = referenceElement< ctype, dimension >( hostElement().type() );
535
536 PartitionType type = vertexPartitionType( refElement, 0 );
537 if( (type != BorderEntity) && (type != FrontEntity) )
538 return type;
539
540 const int numVertices = refElement.size( subEntity_, codimension, dimension );
541 for( int i = 1; i < numVertices; ++i )
542 {
543 PartitionType vtxType = vertexPartitionType( refElement, i );
544 if( (vtxType != BorderEntity) && (vtxType != FrontEntity) )
545 return vtxType;
546 if( type != vtxType )
547 return OverlapEntity;
548 }
549 assert( (type == BorderEntity) || (type == FrontEntity) );
550 return type;
551 }
552
568 {
569 if( !geo_ )
570 {
571 CoordVector coords( hostElement(), subEntity_, grid().coordFunction() );
572 geo_ = GeometryImpl( grid(), type(), coords );
573 }
574 return Geometry( geo_ );
575 }
576
577 unsigned int subEntities ( unsigned int cc ) const
578 {
579 auto refElement = referenceElement< ctype, dimension >( hostElement().type() );
580 return refElement.size( subEntity_, codimension, cc );
581 }
582
584 EntitySeed seed () const { return typename EntitySeed::Implementation( hostElement().seed(), subEntity_ ); }
590 const Grid &grid () const { assert( grid_ ); return *grid_; }
591
592 const HostEntity &hostEntity () const
593 {
594 DUNE_THROW( NotImplemented, "HostGrid has no entities of codimension " << codimension << "." );
595 }
596
597 const HostElement &hostElement () const
598 {
599 return hostElement_;
600 }
601
602 int subEntity () const { return subEntity_; }
603
611 void initialize ( const HostElement &hostElement ) { hostElement_ = hostElement; }
612
620 template< class HostIndexSet >
621 typename HostIndexSet::IndexType index ( const HostIndexSet &indexSet ) const
622 {
623 return indexSet.subIndex( hostElement(), subEntity_, codimension );
624 }
625
635 template< class HostIndexSet >
636 typename HostIndexSet::IndexType
637 subIndex ( const HostIndexSet &indexSet, int i, unsigned int cd ) const
638 {
639 auto refElement = referenceElement< ctype, dimension >( hostElement().type() );
640 const int j = refElement.subEntity( subEntity_, codimension, i, codimension+cd );
641 return indexSet.subIndex( hostElement(), j, codimension+cd );
642 }
643
651 template< class HostIndexSet >
652 bool isContained ( const HostIndexSet &indexSet ) const
653 {
654 return indexSet.contains( hostElement() );
655 }
656
664 template< class HostIdSet >
665 typename HostIdSet::IdType id ( const HostIdSet &idSet ) const
666 {
667 return idSet.subId( hostElement(), subEntity_, codimension );
668 }
671 private:
673 vertexPartitionType ( Dune::Transitional::ReferenceElement< ctype, Dim<dimension> > refElement, int i ) const
674 {
675 const int j = refElement.subEntity( subEntity_, codimension, i, dimension );
676 return hostElement().template subEntity< dimension >( j ).partitionType();
677 }
678
679 private:
680 HostElement hostElement_;
681 unsigned int subEntity_;
682 const Grid *grid_;
683 mutable GeometryImpl geo_;
684 };
685
686
687
688 // Entity
689 // ------
690
691 template< int codim, int dim, class Grid >
692 class Entity
693 : public EntityBase< codim, Grid >
694 {
696
697 public:
698 typedef typename Base::HostEntity HostEntity;
699 typedef typename Base::HostElement HostElement;
700 typedef typename Base::GeometryImpl GeometryImpl;
701 typedef typename Base::EntitySeed EntitySeed;
702
703 Entity () : Base() {}
704
705 Entity ( const Grid &grid, const EntitySeed &seed ) : Base( grid, seed ) {}
706
707 Entity ( const Grid &grid, const HostEntity &hostEntity ) : Base( grid, hostEntity ) {}
708 Entity ( const Grid &grid, HostEntity&& hostEntity ) : Base( grid, std::move( hostEntity ) ) {}
709
710 Entity ( const Grid &grid, const HostElement &hostEntity, int i ) : Base( grid, hostEntity, i ) {}
711
712 };
713
714
715
716 // Entity for codimension 0
717 // ------------------------
718
719 template< int dim, class Grid >
720 class Entity< 0, dim, Grid >
721 : public EntityBase< 0, Grid >
722 {
723 typedef EntityBase< 0, Grid > Base;
724
725 typedef typename std::remove_const< Grid >::type::Traits Traits;
726
727 typedef typename Traits::HostGrid HostGrid;
728
729 public:
734 static const int codimension = Base::codimension;
736 static const int dimension = Base::dimension;
738 static const int mydimension = Base::mydimension;
740 static const int dimensionworld = Base::dimensionworld;
741
743 static const bool fake = Base::fake;
750 typedef typename Traits::template Codim< codimension >::LocalGeometry LocalGeometry;
751
753
755 typedef typename Traits::HierarchicIterator HierarchicIterator;
757 typedef typename Traits::LeafIntersectionIterator LeafIntersectionIterator;
759 typedef typename Traits::LevelIntersectionIterator LevelIntersectionIterator;
760
763 typedef typename Base::HostEntity HostEntity;
764 typedef typename Base::HostElement HostElement;
765 typedef typename Base::GeometryImpl GeometryImpl;
766 typedef typename Base::EntitySeed EntitySeed;
767
768 using Base::grid;
769 using Base::hostEntity;
770
771 Entity () : Base() {}
772
773 Entity ( const Grid &g, const HostEntity &hostE ) : Base( g, hostE ) {}
774 Entity ( const Grid &g, HostEntity&& hostE ) : Base( g, std::move( hostE ) ) {}
775 Entity ( const GeometryImpl &geo, const HostEntity& hostE ) : Base( geo, hostE ) {}
776 Entity ( const GeometryImpl &geo, HostEntity &&hostE ) : Base( geo, std::move( hostE ) ) {}
777
778 Entity ( const Grid &g, const EntitySeed &seed ) : Base( g, seed ) {}
779
780 Entity ( const Grid &g, const HostEntity &hostE, int i ) : Base( g, hostE )
781 {
782 assert( i == 0 );
783 }
784
785 template< int codim >
786 typename Grid::template Codim< codim >::Entity
787 subEntity ( int i ) const
788 {
789 typedef typename Traits::template Codim< codim >::EntityImpl EntityImpl;
790 return EntityImpl( grid(), hostEntity(), i );
791 }
792
793 LevelIntersectionIterator ilevelbegin () const
794 {
795 typedef GeoGrid::IntersectionIterator< Grid, typename HostGrid::LevelIntersectionIterator > LevelIntersectionIteratorImpl;
796 return LevelIntersectionIteratorImpl( *this, hostEntity().ilevelbegin() );
797 }
798
799 LevelIntersectionIterator ilevelend () const
800 {
801 typedef GeoGrid::IntersectionIterator< Grid, typename HostGrid::LevelIntersectionIterator > LevelIntersectionIteratorImpl;
802 return LevelIntersectionIteratorImpl( *this, hostEntity().ilevelend() );
803 }
804
805 LeafIntersectionIterator ileafbegin () const
806 {
807 typedef GeoGrid::IntersectionIterator< Grid, typename HostGrid::LeafIntersectionIterator > LeafIntersectionIteratorImpl;
808 return LeafIntersectionIteratorImpl( *this, hostEntity().ileafbegin() );
809 }
810
811 LeafIntersectionIterator ileafend () const
812 {
813 typedef GeoGrid::IntersectionIterator< Grid, typename HostGrid::LeafIntersectionIterator > LeafIntersectionIteratorImpl;
814 return LeafIntersectionIteratorImpl( *this, hostEntity().ileafend() );
815 }
816
817 bool hasBoundaryIntersections () const
818 {
819 return hostEntity().hasBoundaryIntersections();
820 }
821
822 bool isLeaf () const
823 {
824 return hostEntity().isLeaf();
825 }
826
827 EntityFacade father () const
828 {
829 return Entity( grid(), hostEntity().father() );
830 }
831
832 bool hasFather () const
833 {
834 return hostEntity().hasFather();
835 }
836
837 LocalGeometry geometryInFather () const
838 {
839 return hostEntity().geometryInFather();
840 }
841
842 HierarchicIterator hbegin ( int maxLevel ) const
843 {
844 typedef GeoGrid::HierarchicIterator< Grid > HierarchicIteratorImpl;
845 return HierarchicIteratorImpl( grid(), hostEntity().hbegin( maxLevel ) );
846 }
847
848 HierarchicIterator hend ( int maxLevel ) const
849 {
850 typedef GeoGrid::HierarchicIterator< Grid > HierarchicIteratorImpl;
851 return HierarchicIteratorImpl( grid(), hostEntity().hend( maxLevel ) );
852 }
853
854 bool isRegular () const
855 {
856 return hostEntity().isRegular();
857 }
858
859 bool isNew () const
860 {
861 return hostEntity().isNew();
862 }
863
864 bool mightVanish () const
865 {
866 return hostEntity().mightVanish();
867 }
868 };
869
870 } // namespace GeoGrid
871
872} // namespace Dune
873
874#endif // #ifndef DUNE_GEOGRID_ENTITY_HH
Store a reference to an entity with a minimal memory footprint.
Definition: entityseed.hh:26
EntitySeedImp Implementation
type of underlying implementation
Definition: entityseed.hh:37
Wrapper class for entities.
Definition: entity.hh:66
Base class for Dune-Exceptions.
Definition: exceptions.hh:96
GeometryType type() const
obtain the name of the corresponding reference element
Definition: entity.hh:220
bool equals(const EntityBase &other) const
compare two entities
Definition: entity.hh:207
Traits::ctype ctype
coordinate type of the grid
Definition: entity.hh:101
Geometry geometry() const
Definition: entity.hh:251
void initialize(const HostEntity &hostEntity)
initiliaze an entity
Definition: entity.hh:286
EntitySeed seed() const
return EntitySeed of host grid entity
Definition: entity.hh:267
HostIdSet::IdType id(const HostIdSet &idSet) const
obtain the entity's id from a host IdSet
Definition: entity.hh:339
Traits::template Codim< codimension >::Geometry Geometry
type of corresponding geometry
Definition: entity.hh:104
HostGrid::template Codim< codimension >::Entity HostEntity
type of corresponding host entity
Definition: entity.hh:116
Traits::template Codim< codimension >::EntitySeed EntitySeed
type of corresponding entity seed
Definition: entity.hh:119
HostIndexSet::IndexType index(const HostIndexSet &indexSet) const
obtain the entity's index from a host IndexSet
Definition: entity.hh:297
HostGrid::template Codim< 0 >::Entity HostElement
type of host elements, i.e., of host entities of codimension 0
Definition: entity.hh:122
PartitionType partitionType() const
obtain the partition type of this entity
Definition: entity.hh:232
int level() const
obtain the level of this entity
Definition: entity.hh:226
HostIndexSet::IndexType subIndex(const HostIndexSet &indexSet, int i, unsigned int cd) const
obtain the index of a subentity from a host IndexSet
Definition: entity.hh:313
bool isContained(const HostIndexSet &indexSet) const
check whether the entity is contained in a host index set
Definition: entity.hh:326
int level() const
obtain the level of this entity
Definition: entity.hh:526
HostGrid::template Codim< 0 >::Entity HostElement
type of host elements, i.e., of host entities of codimension 0
Definition: entity.hh:410
PartitionType partitionType() const
obtain the partition type of this entity
Definition: entity.hh:532
bool equals(const EntityBase &other) const
compare two entities
Definition: entity.hh:488
HostIndexSet::IndexType index(const HostIndexSet &indexSet) const
obtain the entity's index from a host IndexSet
Definition: entity.hh:621
Traits::template Codim< codimension >::EntitySeed EntitySeed
type of corresponding entity seed
Definition: entity.hh:407
Traits::template Codim< codimension >::Geometry Geometry
type of corresponding geometry
Definition: entity.hh:392
HostIdSet::IdType id(const HostIdSet &idSet) const
obtain the entity's id from a host IdSet
Definition: entity.hh:665
EntitySeed seed() const
return EntitySeed of host grid entity
Definition: entity.hh:584
HostIndexSet::IndexType subIndex(const HostIndexSet &indexSet, int i, unsigned int cd) const
obtain the index of a subentity from a host IndexSet
Definition: entity.hh:637
void initialize(const HostElement &hostElement)
initiliaze an entity
Definition: entity.hh:611
Geometry geometry() const
Definition: entity.hh:567
Traits::ctype ctype
coordinate type of the grid
Definition: entity.hh:389
bool isContained(const HostIndexSet &indexSet) const
check whether the entity is contained in a host index set
Definition: entity.hh:652
GeometryType type() const
obtain the name of the corresponding reference element
Definition: entity.hh:519
HostGrid::template Codim< codimension >::Entity HostEntity
type of corresponding host entity
Definition: entity.hh:404
actual implementation of the entity
Definition: entity.hh:34
DUNE-conform implementation of the entity.
Definition: entity.hh:694
Unique label for each type of entities that can occur in DUNE grids.
Definition: type.hh:125
Grid abstract base class.
Definition: grid.hh:375
Default exception for dummy implementations.
Definition: exceptions.hh:263
Different resources needed by all grid implementations.
#define DUNE_THROW(E, m)
Definition: exceptions.hh:218
PartitionType
Attributes used in the generic overlap model.
Definition: gridenums.hh:30
@ FrontEntity
on boundary between overlap and ghost
Definition: gridenums.hh:34
@ BorderEntity
on boundary between interior and overlap
Definition: gridenums.hh:32
@ OverlapEntity
all entities lying in the overlap zone
Definition: gridenums.hh:33
unspecified-type ReferenceElement
Returns the type of reference element for the argument types T...
Definition: referenceelements.hh:417
Dune namespace.
Definition: alignedallocator.hh:13
STL namespace.
Static tag representing a codimension.
Definition: dimension.hh:24
Static tag representing a dimension.
Definition: dimension.hh:16
Creative Commons License   |  Legal Statements / Impressum  |  Hosted by TU Dresden  |  generated with Hugo v0.111.3 (Dec 21, 23:30, 2024)