4#ifndef DUNE_ALBERTA_GRIDFACTORY_HH
5#define DUNE_ALBERTA_GRIDFACTORY_HH
18#include <dune/geometry/referenceelements.hh>
46 template<
int dim,
int dimworld >
57 typedef typename Grid::ctype
ctype;
70 typedef std::shared_ptr< const DuneProjection > DuneProjectionPtr;
76 typedef typename Grid::template Codim< codim >::Entity
Entity;
82 static const int numVertices
83 = Alberta::NumSubEntities< dimension, dimension >::value;
85 typedef Alberta::MacroElement< dimension > MacroElement;
86 typedef Alberta::ElementInfo< dimension > ElementInfo;
87 typedef Alberta::MacroData< dimension > MacroData;
88 typedef Alberta::NumberingMap< dimension, Alberta::Dune2AlbertaNumbering > NumberingMap;
89 typedef Alberta::DuneBoundaryProjection< dimension > Projection;
91 typedef std::array< unsigned int, dimension > FaceId;
92 typedef std::map< FaceId, size_t > BoundaryMap;
94 class ProjectionFactory;
98 static const bool supportsBoundaryIds =
true;
100 static const bool supportPeriodicity = MacroData::supportPeriodicity;
117 macroData_.insertVertex( pos );
126 const std::vector< unsigned int > &vertices )
129 DUNE_THROW( AlbertaError,
"Inserting element of wrong dimension: " << type.
dim() );
131 DUNE_THROW( AlbertaError,
"Alberta supports only simplices." );
133 if( vertices.size() != (
size_t)numVertices )
134 DUNE_THROW( AlbertaError,
"Wrong number of vertices passed: " << vertices.size() <<
"." );
136 int array[ numVertices ];
137 for(
int i = 0; i < numVertices; ++i )
138 array[ i ] = vertices[ numberingMap_.alberta2dune(
dimension, i ) ];
139 macroData_.insertElement( array );
154 if( (
id <= 0) || (
id > 127) )
155 DUNE_THROW( AlbertaError,
"Invalid boundary id: " <<
id <<
"." );
156 macroData_.boundaryId( element, numberingMap_.dune2alberta( 1, face ) ) = id;
171 const std::vector< unsigned int > &vertices,
175 DUNE_THROW( AlbertaError,
"Inserting boundary face of wrong dimension: " << type.
dim() );
177 DUNE_THROW( AlbertaError,
"Alberta supports only simplices." );
180 if( vertices.size() != faceId.size() )
181 DUNE_THROW( AlbertaError,
"Wrong number of face vertices passed: " << vertices.size() <<
"." );
182 for(
size_t i = 0; i < faceId.size(); ++i )
183 faceId[ i ] = vertices[ i ];
184 std::sort( faceId.begin(), faceId.end() );
186 typedef std::pair< typename BoundaryMap::iterator, bool > InsertResult;
187 const InsertResult result = boundaryMap_.insert( std::make_pair( faceId, boundaryProjections_.size() ) );
190 boundaryProjections_.push_back( DuneProjectionPtr( projection ) );
204 if( globalProjection_ )
206 globalProjection_ = DuneProjectionPtr( projection );
217 typedef typename Impl::SimplexTopology<
dimension-1 >::type Topology;
218 insertBoundaryProjection(
GeometryType( Topology() ), vertices, 0 );
228 const std::shared_ptr< BoundarySegment > &boundarySegment )
233 if( !boundarySegment )
235 if( (
int)vertices.size() != refSimplex.size(
dimension-1 ) )
236 DUNE_THROW(
GridError,
"Wrong number of face vertices passed: " << vertices.size() <<
"." );
238 std::vector< WorldVector > coords( refSimplex.size(
dimension-1 ) );
241 Alberta::GlobalVector &x = macroData_.vertex( vertices[ i ] );
242 for(
int j = 0; j < dimensionworld; ++j )
243 coords[ i ][ j ] = x[ j ];
244 if( ((*boundarySegment)( refSimplex.position( i,
dimension-1 ) ) - coords[ i ]).two_norm() > 1e-6 )
250 insertBoundaryProjection(
gt, vertices, prj );
266 void insertFaceTransformation (
const WorldMatrix &matrix,
const WorldVector &shift );
278 macroData_.markLongestEdge();
295 macroData_.finalize();
296 if( macroData_.elementCount() == 0 )
299 macroData_.setOrientation( Alberta::Real( 1 ) );
300 assert( macroData_.checkNeighbors() );
301 macroData_.checkCycles();
302 ProjectionFactory projectionFactory( *
this );
303 return new Grid( macroData_, projectionFactory );
321 bool write (
const std::string &filename )
323 macroData_.finalize();
325 macroData_.setOrientation( Alberta::Real( 1 ) );
326 assert( macroData_.checkNeighbors() );
327 return macroData_.write( filename,
false );
333 return insertionIndex( Grid::getRealImplementation( entity ).elementInfo() );
339 const int elIndex =
insertionIndex( Grid::getRealImplementation( entity ).elementInfo() );
340 const typename MacroData::ElementId &elementId = macroData_.element( elIndex );
341 return elementId[ Grid::getRealImplementation( entity ).subEntity() ];
347 const Grid &grid = Grid::getRealImplementation( intersection ).grid();
348 const ElementInfo &elementInfo = Grid::getRealImplementation( intersection ).elementInfo();
349 const int face = grid.generic2alberta( 1, intersection.indexInInside() );
356 return (
insertionIndex( intersection ) < std::numeric_limits< unsigned int >::max());
360 unsigned int insertionIndex (
const ElementInfo &elementInfo )
const;
361 unsigned int insertionIndex (
const ElementInfo &elementInfo,
const int face )
const;
363 FaceId faceId (
const ElementInfo &elementInfo,
const int face )
const;
365 MacroData macroData_;
366 NumberingMap numberingMap_;
367 DuneProjectionPtr globalProjection_;
368 BoundaryMap boundaryMap_;
369 std::vector< DuneProjectionPtr > boundaryProjections_;
373 template<
int dim,
int dimworld >
374 GridFactory< AlbertaGrid< dim, dimworld > >::~GridFactory ()
376 macroData_.release();
380 template<
int dim,
int dimworld >
382 GridFactory< AlbertaGrid< dim, dimworld > >
386 for(
int i = 0; i < dimworld; ++i )
387 for(
int j = 0; j < dimworld; ++j )
390 const ctype epsilon = (8*dimworld)*std::numeric_limits< ctype >::epsilon();
392 if( std::abs( matrix[ i ] * matrix[ j ] - delta ) > epsilon )
395 "Matrix of face transformation is not orthogonal." );
400 Alberta::GlobalMatrix M;
401 for(
int i = 0; i < dimworld; ++i )
402 for(
int j = 0; j < dimworld; ++j )
403 M[ i ][ j ] = matrix[ i ][ j ];
406 Alberta::GlobalVector t;
407 for(
int i = 0; i < dimworld; ++i )
411 macroData_.insertWallTrafo( M, t );
415 template<
int dim,
int dimworld >
418 ::insertionIndex (
const ElementInfo &elementInfo )
const
420 const MacroElement ¯oElement = elementInfo.macroElement();
421 const unsigned int index = macroElement.index;
424 const typename MacroData::ElementId &elementId = macroData_.element( index );
425 for(
int i = 0; i <= dimension; ++i )
427 const Alberta::GlobalVector &x = macroData_.vertex( elementId[ i ] );
428 const Alberta::GlobalVector &y = macroElement.coordinate( i );
429 for(
int j = 0; j < dimensionworld; ++j )
431 if( x[ j ] != y[ j ] )
432 DUNE_THROW(
GridError,
"Vertex in macro element does not coincide with same vertex in macro data structure." );
441 template<
int dim,
int dimworld >
443 GridFactory< AlbertaGrid< dim, dimworld > >
444 ::insertionIndex (
const ElementInfo &elementInfo,
const int face )
const
446 typedef typename BoundaryMap::const_iterator Iterator;
447 const Iterator it = boundaryMap_.find( faceId( elementInfo, face ) );
448 if( it != boundaryMap_.end() )
451 return std::numeric_limits< unsigned int >::max();
455 template<
int dim,
int dimworld >
456 inline typename GridFactory< AlbertaGrid< dim, dimworld > >::FaceId
457 GridFactory< AlbertaGrid< dim, dimworld > >
458 ::faceId (
const ElementInfo &elementInfo,
const int face )
const
460 const unsigned int index = insertionIndex( elementInfo );
461 const typename MacroData::ElementId &elementId = macroData_.element( index );
464 for(
size_t i = 0; i < faceId.size(); ++i )
466 const int k = Alberta::MapVertices< dimension, 1 >::apply( face, i );
467 faceId[ i ] = elementId[ k ];
469 std::sort( faceId.begin(), faceId.end() );
478 template<
int dim,
int dimworld >
479 class GridFactory< AlbertaGrid< dim, dimworld > >::ProjectionFactory
480 :
public Alberta::ProjectionFactory< Alberta::DuneBoundaryProjection< dim >, ProjectionFactory >
482 typedef ProjectionFactory This;
483 typedef Alberta::ProjectionFactory< Alberta::DuneBoundaryProjection< dim >, ProjectionFactory > Base;
488 typedef typename Base::Projection Projection;
489 typedef typename Base::ElementInfo ElementInfo;
491 typedef typename Projection::Projection DuneProjection;
493 ProjectionFactory(
const GridFactory &gridFactory )
494 : gridFactory_( gridFactory )
497 bool hasProjection (
const ElementInfo &elementInfo,
const int face )
const
499 if( gridFactory().globalProjection_ )
502 const unsigned int index = gridFactory().insertionIndex( elementInfo, face );
503 if( index < std::numeric_limits< unsigned int >::max() )
504 return bool( gridFactory().boundaryProjections_[ index ] );
509 bool hasProjection (
const ElementInfo &elementInfo )
const
511 return bool( gridFactory().globalProjection_ );
514 Projection projection (
const ElementInfo &elementInfo,
const int face )
const
516 const unsigned int index = gridFactory().insertionIndex( elementInfo, face );
517 if( index < std::numeric_limits< unsigned int >::max() )
519 const DuneProjectionPtr &projection = gridFactory().boundaryProjections_[ index ];
521 return Projection( projection );
524 assert( gridFactory().globalProjection_ );
525 return Projection( gridFactory().globalProjection_ );
528 Projection projection (
const ElementInfo &elementInfo )
const
530 assert( gridFactory().globalProjection_ );
531 return Projection( gridFactory().globalProjection_ );
provides the AlbertaGrid class
[ provides Dune::Grid ]
Definition: agrid.hh:140
Definition: boundaryprojection.hh:67
Wrapper class for entities.
Definition: entity.hh:65
A dense n x m matrix.
Definition: fmatrix.hh:68
vector space out of a tensor product of fields.
Definition: fvector.hh:93
Unique label for each type of entities that can occur in DUNE grids.
Definition: type.hh:268
unsigned int dim() const
Return dimension of the type.
Definition: type.hh:565
bool isSimplex() const
Return true if entity is a simplex of any dimension.
Definition: type.hh:550
Base class for exceptions in Dune grid modules.
Definition: exceptions.hh:18
Provide a generic factory class for unstructured grids.
Definition: gridfactory.hh:74
virtual unsigned int insertionIndex(const typename Codim< 0 >::Entity &entity) const
obtain an element's insertion index
Definition: gridfactory.hh:179
static const int dimension
dimension of the grid
Definition: gridfactory.hh:78
virtual bool wasInserted(const typename GridType::LeafIntersection &intersection) const
determine whether an intersection was inserted
Definition: gridfactory.hh:245
specialization of the generic GridFactory for AlbertaGrid
Definition: gridfactory.hh:49
FieldVector< ctype, dimensionworld > WorldVector
type of vector for world coordinates
Definition: gridfactory.hh:65
virtual unsigned int insertionIndex(const typename Codim< 0 >::Entity &entity) const
obtain an element's insertion index
Definition: gridfactory.hh:331
AlbertaGrid< dim, dimworld > Grid
type of grid this factory is for
Definition: gridfactory.hh:54
virtual void insertBoundaryProjection(const GeometryType &type, const std::vector< unsigned int > &vertices, const DuneProjection *projection)
insert a boundary projection into the macro grid
Definition: gridfactory.hh:170
FieldMatrix< ctype, dimensionworld, dimensionworld > WorldMatrix
type of matrix from world coordinates to world coordinates
Definition: gridfactory.hh:67
virtual void insertElement(const GeometryType &type, const std::vector< unsigned int > &vertices)
insert an element into the macro grid
Definition: gridfactory.hh:125
void markLongestEdge()
mark the longest edge as refinemet edge
Definition: gridfactory.hh:276
Grid::ctype ctype
type of (scalar) coordinates
Definition: gridfactory.hh:57
virtual void insertVertex(const WorldVector &pos)
insert a vertex into the macro grid
Definition: gridfactory.hh:115
virtual void insertBoundary(int element, int face, int id)
mark a face as boundary (and assign a boundary id)
Definition: gridfactory.hh:152
GridFactory()
Definition: gridfactory.hh:103
static void destroyGrid(Grid *grid)
destroy a grid previously obtain from this factory
Definition: gridfactory.hh:310
virtual unsigned int insertionIndex(const typename Codim< dimension >::Entity &entity) const
obtain a vertex' insertion index
Definition: gridfactory.hh:337
bool write(const std::string &filename)
write out the macro triangulation in native grid file format
Definition: gridfactory.hh:321
virtual void insertBoundarySegment(const std::vector< unsigned int > &vertices, const std::shared_ptr< BoundarySegment > &boundarySegment)
insert a shaped boundary segment into the macro grid
Definition: gridfactory.hh:227
virtual void insertBoundaryProjection(const DuneProjection *projection)
insert a global (boundary) projection into the macro grid
Definition: gridfactory.hh:202
Grid * createGrid()
finalize grid creation and hand over the grid
Definition: gridfactory.hh:293
virtual void insertBoundarySegment(const std::vector< unsigned int > &vertices)
insert a boundary segment into the macro grid
Definition: gridfactory.hh:215
Provide a generic factory class for unstructured grids.
Definition: gridfactory.hh:263
GridFactory()
Default constructor.
Definition: gridfactory.hh:274
Grid abstract base class.
Definition: grid.hh:373
@ dimensionworld
The dimension of the world the grid lives in.
Definition: grid.hh:393
GridFamily::Traits::LeafIntersection LeafIntersection
A type that is a model of Dune::Intersection, an intersections of two codimension 1 of two codimensio...
Definition: grid.hh:460
@ dimension
The dimension of the grid.
Definition: grid.hh:387
This class provides access to geometric and topological properties of a reference element.
Definition: referenceelements.hh:354
Provide a generic factory class for unstructured grids.
#define DUNE_THROW(E, m)
Definition: exceptions.hh:216
bool gt(const T &first, const T &second, typename EpsilonType< T >::Type epsilon)
test if first greater than second
Definition: float_cmp.cc:132
Dune namespace.
Definition: alignment.hh:11
Base class for classes implementing geometries of boundary segments.
Definition: boundarysegment.hh:30
Static tag representing a codimension.
Definition: dimension.hh:22
Interface class for vertex projection at the boundary.
Definition: boundaryprojection.hh:24
static const ReferenceElement< ctype, dim > & simplex()
get simplex reference elements
Definition: referenceelements.hh:763