Dune Core Modules (2.9.0)
dgfwriter.hh
Go to the documentation of this file.
1// SPDX-FileCopyrightText: Copyright (C) DUNE Project contributors, see file LICENSE.md in module root
86 void write ( std::ostream &gridout, const std::vector< Index > &newElemOrder, BoundaryData &&boundaryData, const std::stringstream &addParams = std::stringstream() ) const;
97 void write ( std::ostream &gridout, BoundaryData &&boundaryData, const std::stringstream &addParams = std::stringstream() ) const;
107 void write ( std::ostream &gridout, const std::vector< Index > &newElemOrder, const std::stringstream &addParams = std::stringstream() ) const
109 write( gridout, newElemOrder, [] ( const Intersection &i ) -> int { return boundaryId( i ); }, addParams );
119 void write ( std::ostream &gridout, const std::stringstream &addParams = std::stringstream() ) const
132 -> std::void_t< decltype( this->write( std::declval< std::ostream & >(), std::declval< Args >()... ) ) >
151 void writeElement ( std::ostream &gridout, const std::vector< Index > &dgfIndices, const Element &element, const GeometryType &elementType ) const;
154 void writeSimplices ( std::ostream &gridout, const std::vector< Index > &dgfIndices, const std::vector< ElementSeed > &elementSeeds ) const;
157 void writeCubes ( std::ostream &gridout, const std::vector< Index > &dgfIndices, const std::vector< ElementSeed > &elementSeeds ) const;
160 void writeElements ( std::ostream &gridout, const std::vector< Index > &dgfIndices, const Args &... args ) const;
165 -> std::enable_if_t< std::is_convertible< std::decay_t< decltype( i.impl().boundaryId() ) >, int >::value, int >
177 static int boundaryId ( const Intersection &i ) { return boundaryId( i, PriorityTag< 42 >() ); }
181 static int boundaryId ( const Intersection &i, const std::string & ) { return boundaryId( i ); }
182 static int boundaryId ( const Intersection &i, const std::pair< int, std::string > &data ) { return boundrayId( i, data.first ); }
185 static void appendBoundaryData ( std::ostream &gridout, std::pair< int, std::string > &data ) { appendBoundaryData( gridout, data.second ); }
186 static void appendBoundaryData ( std::ostream &gridout, const std::string &s ) { gridout << " : " << s << std::endl; }
190 void writeBoundaries ( std::ostream &gridout, const std::vector< Index > &dgfIndices, BoundaryData &&boundaryData ) const;
194 writeBoundaries( gridout, dgfIndices, [] ( const Intersection &i ) -> int { return boundaryId( i ); } );
232 gridout << "%" << " Elements = " << indexSet.size( 0 ) << " | Vertices = " << indexSet.size( dimGrid ) << std::endl;
277 inline void DGFWriter< GV >::writeElement ( std::ostream &gridout, const std::vector< Index > &dgfIndices, const Element &element, const GeometryType &elementType ) const
292 inline void DGFWriter< GV >::writeSimplices ( std::ostream &gridout, const std::vector< Index > &dgfIndices ) const
307 inline void DGFWriter< GV >::writeSimplices ( std::ostream &gridout, const std::vector< Index > &dgfIndices, const std::vector< ElementSeed > &elementSeeds ) const
314 writeElement( gridout, dgfIndices, gridView_.grid().entity( seed ), GeometryTypes::simplex( dimGrid ) );
322 inline void DGFWriter< GV >::writeCubes ( std::ostream &gridout, const std::vector< Index > &dgfIndices ) const
337 inline void DGFWriter< GV >::writeCubes ( std::ostream &gridout, const std::vector< Index > &dgfIndices, const std::vector< ElementSeed > &elementSeeds ) const
346 writeElement( gridout, dgfIndices, gridView_.grid().entity( seed ), GeometryTypes::cube( dimGrid ) );
355 inline void DGFWriter< GV >::writeElements ( std::ostream &gridout, const std::vector< Index > &dgfIndices, const Args &... args ) const
369 inline void DGFWriter< GV >::writeBoundaries ( std::ostream &gridout, const std::vector< Index > &dgfIndices, BoundaryData &&boundaryData ) const
383 const auto &refElement = ReferenceElements< typename Grid::ctype, dimGrid >::general( element.type() );
409 inline void DGFWriter< GV >::write ( std::ostream &gridout, const std::vector< Index > &newElemOrder, BoundaryData &&boundaryData, const std::stringstream &addParams ) const
422 inline void DGFWriter< GV >::write ( std::ostream &gridout, BoundaryData &&boundaryData, const std::stringstream &addParams ) const
void write(std::ostream &gridout, const std::stringstream &addParams=std::stringstream()) const
write the GridView into a std::ostream
Definition: dgfwriter.hh:119
auto write(const std::string &fileName, Args &&... args) const -> std::void_t< decltype(this->write(std::declval< std::ostream & >(), std::declval< Args >()...)) >
write the GridView to a file
Definition: dgfwriter.hh:131
void write(std::ostream &gridout, const std::vector< Index > &newElemOrder, const std::stringstream &addParams=std::stringstream()) const
write the GridView into a std::ostream
Definition: dgfwriter.hh:107
void write(std::ostream &gridout, const std::vector< Index > &newElemOrder, BoundaryData &&boundaryData, const std::stringstream &addParams=std::stringstream()) const
write the GridView into a std::ostream
Definition: dgfwriter.hh:409
GridView::Grid Grid
type of underlying hierarchical grid
Definition: dgfwriter.hh:53
Unique label for each type of entities that can occur in DUNE grids.
Definition: type.hh:125
IndexTypeImp IndexType
The type used for the indices.
Definition: indexidset.hh:92
Different resources needed by all grid implementations.
typename Impl::voider< Types... >::type void_t
Is void for all valid input types. The workhorse for C++11 SFINAE-techniques.
Definition: typetraits.hh:40
static constexpr int dimension
The dimension of the grid.
Definition: gridview.hh:148
Traits::Intersection Intersection
type of the intersection
Definition: gridview.hh:89
constexpr GeometryType cube(unsigned int dim)
Returns a GeometryType representing a hypercube of dimension dim.
Definition: type.hh:472
constexpr GeometryType simplex(unsigned int dim)
Returns a GeometryType representing a simplex of dimension dim.
Definition: type.hh:463
auto max(ADLTag< 0 >, const V &v1, const V &v2)
implements binary Simd::max()
Definition: defaults.hh:81
Utilities for reduction like operations on ranges.
static const ReferenceElement & general(const GeometryType &type)
get general reference elements
Definition: referenceelements.hh:198
A unique label for each type of element that can occur in a grid.
Utilities for type computations, constraining overloads, ...
|
Legal Statements / Impressum |
Hosted by TU Dresden |
generated with Hugo v0.111.3
(Dec 21, 23:30, 2024)