dune-localfunctions  2.2.0
Class List
Here are the classes, structs, unions and interfaces with brief descriptions:
Dune::MonomialEvaluator< B >::BaseIterator< Deriv >
Dune::BasisInterfaceInterface for global-valued shape functions
Dune::BasisInterfaceSwitch< Basis, Dummy >Switch for uniform treatment of local and global basis classes
Dune::BasisMatrix< const Dune::VirtualMonomialBasis< dim, F >, Interpolation, Field >
Dune::BasisMatrix< const MonomialBasis< Topology, F >, Interpolation, Field >
Dune::BasisMatrix< const PolynomialBasis< Eval, CM, D, R >, Interpolation, Field >
Dune::BasisMatrix< const PolynomialBasisWithMatrix< Eval, CM >, Interpolation, Field >
Dune::BasisMatrixBase< PreBasis, Interpolation, Field >
Dune::BDM12DLocalBasis< D, R >First order Brezzi-Douglas-Marini shape functions on the reference triangle
Dune::BDM12DLocalCoefficientsLayout map for Brezzi-Douglas-Marini-1 elements on triangles
Dune::BDM12DLocalFiniteElement< D, R >First order Brezzi-Douglas-Marini shape functions on triangles
Dune::BDM12DLocalInterpolation< LB >First order Brezzi-Douglas-Marini shape functions on the reference triangle
Dune::BDM1Q2DLocalBasis< D, R >First order Brezzi-Douglas-Marini shape functions on the reference quadrilateral
Dune::BDM1Q2DLocalCoefficientsLayout map for Brezzi-Douglas-Marini-1 elements on quadrilaterals
Dune::BDM1Q2DLocalFiniteElement< D, R >First order Brezzi-Douglas-Marini shape functions on quadrilaterals
Dune::BDM1Q2DLocalInterpolation< LB >First order Brezzi-Douglas-Marini shape functions on the reference quadrilateral
Dune::C0LocalBasisTraits< DF, n, D, RF, m, R >Type traits for LocalBasisInterface
Dune::C1LocalBasisTraits< DF, n, D, RF, m, R, J >Type traits for C1LocalBasisInterface
Dune::CkLocalBasisTraits< DF, n, D, RF, m, R, J, dorder >
Dune::CoefficientsInterfaceInterface for global-valued coefficients
Dune::ComputeField< Field, sum >
Dune::PolynomialBasis< Eval, CM, D, R >::Convert< dummy, DVector >
Dune::PolynomialBasis< Eval, CM, D, R >::Convert< dummy, DomainVector >
Dune::DefaultBasisFactory< PreBFactory, InterpolFactory, dim, dimR, SF, CF, PreBasisKeyExtractor >
Dune::DefaultBasisFactoryTraits< PreBFactory, InterpolFactory, dim, dimR, SF, CF, PreBasisKeyExtractor >
Dune::DerivativeAssign< Vec1, Vec2 >
Dune::DerivativeAssign< Derivatives< F1, dimD, 1, deriv, derivative >, Derivatives< F2, dimD, 1, deriv, derivative > >
Dune::DerivativeAssign< Derivatives< F1, dimD, 1, deriv, derivative >, Derivatives< F2, dimD, 1, deriv, value > >
Dune::DerivativeAssign< Derivatives< F1, dimD, 1, deriv, derivative >, FieldVector< F2, 1 > >
Dune::DerivativeAssign< Derivatives< F1, dimD, 1, deriv, derivative >, FieldVector< F2, dimR > >
Dune::DerivativeAssign< Derivatives< F1, dimD, 1, deriv, layout >, Derivatives< F2, dimD, dimR, deriv, derivative > >
Dune::DerivativeAssign< Derivatives< F1, dimD, 1, deriv, layout >, Derivatives< F2, dimD, dimR, deriv, value > >
Dune::DerivativeAssign< Derivatives< F1, dimD, 1, deriv, layout >, F2 >
Dune::DerivativeAssign< Derivatives< F1, dimD, 1, deriv, value >, Derivatives< F2, dimD, 1, deriv, derivative > >
Dune::DerivativeAssign< Derivatives< F1, dimD, 1, deriv, value >, Derivatives< F2, dimD, 1, deriv, value > >
Dune::DerivativeAssign< Derivatives< F1, dimD, 1, deriv, value >, FieldVector< F2, 1 > >
Dune::DerivativeAssign< Derivatives< F1, dimD, 1, deriv, value >, FieldVector< F2, dimR > >
Dune::DerivativeAssign< Derivatives< F1, dimD, dimR, deriv, derivative >, Derivatives< F2, dimD, dimR, deriv, value > >
Dune::DerivativeAssign< Derivatives< F1, dimD, dimR, deriv, derivative >, FieldVector< F2, dimR > >
Dune::DerivativeAssign< Derivatives< F1, dimD, dimR, deriv, layout >, Derivatives< F2, dimD, dimR, deriv, layout > >
Dune::DerivativeAssign< Derivatives< F1, dimD, dimR, deriv, value >, Derivatives< F2, dimD, dimR, deriv, derivative > >
Dune::DerivativeAssign< Derivatives< F1, dimD, dimR, deriv, value >, FieldVector< F2, dimR > >
Dune::Derivatives< F, dimD, dimR, 0, value >
Dune::Derivatives< F, dimD, dimR, deriv, derivative >
Dune::Derivatives< F, dimD, dimR, deriv, value >
Dune::DGLocalCoefficientsA class providing local coefficients for dg spaces
Dune::DGLocalCoefficientsFactory< BasisFactory >
Dune::DGLocalCoefficientsFactoryTraits< BasisFactory >
Dune::DGLocalFiniteElement< FE >Takes the basis and interpolation factory from a given LocalFiniteElement (derived from GenericLocalFiniteElement) and replaces the coefficients with dg local keys, i.e., attaches all degrees of freedom to the codimension zero entity
Dune::DimSpecificPQkLocalFiniteElementFactory< D, R, d, k >Factory that only creates dimension specific local finite elements
Dune::DimSpecificPQkLocalFiniteElementFactory< D, R, 2, k >Factory that only creates dimension specific local finite elements
Dune::DimSpecificPQkLocalFiniteElementFactory< D, R, 3, k >Factory that only creates dimension specific local finite elements
Dune::EdgeS0_5Basis< Geometry, RF >Basis for order 0.5 (lowest order) edge elements on simplices
Dune::EdgeS0_5Coefficients< dim >Coefficients for lowest order edge elements on simplices
Dune::EdgeS0_5Common< dim, DF >Common base class for edge elements
Dune::EdgeS0_5FiniteElement< Geometry, RF >FiniteElement for lowest order edge elements on simplices
Dune::EdgeS0_5FiniteElementFactory< Geometry, RF >Factory for EdgeS0_5FiniteElement objects
Dune::EdgeS0_5Interpolation< Geometry, Traits_ >Interpolation for lowest order edge elements on simplices
Dune::EmptyPointSet< F, dim >
Dune::EquidistantPointSet< F, dim >
Dune::EquidistantPointSetImpl< GenericGeometry::Point, F >
Dune::EquidistantPointSetImpl< GenericGeometry::Prism< BaseTopology >, F >
Dune::EquidistantPointSetImpl< GenericGeometry::Pyramid< BaseTopology >, F >
Dune::MonomImp::EvalAccess< Traits >Access output vector of evaluateFunction() and evaluate()
Dune::MonomImp::Evaluate< Traits, c >
Dune::MonomImp::Evaluate< Traits, 1 >Specializes the end of the recursion
Dune::OrthonormalBasisFactory< dim, SF, CF >::EvaluationBasisFactory< dd, FF >
Dune::RTPreBasisFactory< dim, Field >::EvaluationBasisFactory< dd, FF >
Dune::DefaultBasisFactory< PreBFactory, InterpolFactory, dim, dimR, SF, CF, PreBasisKeyExtractor >::EvaluationBasisFactory< dd, FF >
Dune::MonomialBasisFactory< dim, F >::EvaluationBasisFactory< dd, FF >
Dune::MonomialBasisProvider< dim, SF >::EvaluationBasisFactory< dd, FF >
Dune::FieldCast< F2, V >
Dune::FieldCast< F2, Dune::FieldMatrix< F1, dim1, dim2 > >
Dune::FieldCast< F2, Dune::FieldVector< F1, dim > >
Dune::FiniteElementFactoryInterface< Geometry, VertexOrder >Factory interface for global-valued finite elements
Dune::FiniteElementInterfaceInterface for global-valued finite elements
Dune::FiniteElementInterfaceSwitch< FiniteElement, Dummy >Switch for uniform treatment of finite element with either the local or the global interface
Dune::FixedOrderLocalBasisTraits< T, order >Construct LocalBasisTraits with fixed diff order
Dune::GenericLocalFiniteElement< BasisF, CoeffF, InterpolF >A LocalFiniteElement implementation bassed on three TopologyFactories providing the LocalBasis, LocalCoefficients, and LocalInterpolations. Note the key type for all three factories must coincide
Dune::RTL2InterpolationBuilder< dim, Field >::Creator< Topology >::GetCodim< face >
Dune::InterpolationHelper< F, dimension >::Helper< Basis, Matrix, false >
Dune::InterpolationHelper< F, dimension >::Helper< Func, Vector, true >
Dune::HierarchicalP2LocalFiniteElement< D, R, dim >
Dune::HierarchicalP2WithElementBubbleLocalFiniteElement< D, R, dim >
Dune::HierarchicalPrismP2LocalBasis< D, R >
Dune::HierarchicalPrismP2LocalFiniteElement< D, R >
Dune::HierarchicalPrismP2LocalInterpolation< LB >
Dune::HierarchicalSimplexP2LocalBasis< D, R, dim >
Dune::HierarchicalSimplexP2LocalBasis< D, R, 1 >Hierarchical P2 basis in 1d
Dune::HierarchicalSimplexP2LocalBasis< D, R, 2 >Hierarchical P2 basis in 2d
Dune::HierarchicalSimplexP2LocalBasis< D, R, 3 >Hierarchical P2 basis in 3d
Dune::HierarchicalSimplexP2LocalInterpolation< LB >
Dune::HierarchicalSimplexP2WithElementBubbleLocalBasis< D, R, dim >
Dune::HierarchicalSimplexP2WithElementBubbleLocalBasis< D, R, 1 >Hierarchical P2 basis in 1d
Dune::HierarchicalSimplexP2WithElementBubbleLocalBasis< D, R, 2 >Hierarchical P2 basis in 1d
Dune::HierarchicalSimplexP2WithElementBubbleLocalBasis< D, R, 3 >Hierarchical P2 basis in 1d
Dune::HierarchicalSimplexP2WithElementBubbleLocalCoefficients< dim >The local finite element needed for the Zou-Kornhuber estimator for Signorini problems
Dune::HierarchicalSimplexP2WithElementBubbleLocalInterpolation< LB >
Dune::Identity
Dune::EquidistantPointSet< F, dim >::Topology< T >::Init< pdim >
Dune::LobattoPointSet< F, dim >::Setup< Topology >::Init< SubTopology >
Dune::LobattoPointSet< F, dim >::Setup< Topology >::InitCodim< pdim >
Dune::LobattoPointSet< F, dim >::Setup< Topology >::InitCodim< pdim >::InitSub< i >
ONBCompute::Integral< Dune::GenericGeometry::Point >
ONBCompute::Integral< Dune::GenericGeometry::Prism< Base > >
ONBCompute::Integral< Dune::GenericGeometry::Pyramid< Base > >
Dune::InterpolationHelper< F, dimension >
Dune::InterpolationInterfaceInterface for global-valued interpolation
Dune::MonomialEvaluator< B >::Iterator< deriv >
Dune::StandardEvaluator< B >::Iterator< deriv >
Dune::MonomImp::JacobianAccess< Traits >Access output vector of evaluateJacobian()
Dune::L2LocalFiniteElement< FE >Takes the basis factory from a given LocalFiniteElement (derived from GenericLocalFiniteElement) and replaces the coefficients with dg local keys, i.e., attaches all degrees of freedom to the codimension zero entity and uses a l2 interpolation
Dune::LagrangeBasisFactory< LP, dim, SF, CF >
Dune::LagrangeCoefficientsFactory< LP, dim, F >
Dune::LagrangeCoefficientsFactoryTraits< LP, dim, F >
Dune::LagrangeInterpolationFactory< LP, dim, F >
Dune::LagrangeInterpolationFactoryTraits< LP, dim, F >
Dune::LagrangeLocalFiniteElement< LP, dimDomain, D, R, SF, CF >Lagrange local finite elements for a given set of interpolation points
Dune::LagrangePoint< F, dim >
Dune::LFEMatrix< F, aligned >
Dune::LFETensor< F, dimD, deriv >
Dune::LFETensor< F, 0, 0 >
Dune::LFETensor< F, 0, deriv >
Dune::LFETensor< F, dimD, 0 >
Dune::LFETensorAxpy< Vec1, Vec2, deriv >
Dune::LFETensorAxpy< Derivatives< F1, dimD, 1, d, derivative >, Vec2, deriv >
Dune::LFETensorAxpy< Derivatives< F1, dimD, 1, d, value >, Vec2, deriv >
Dune::LFETensorAxpy< Derivatives< F1, dimD, dimR, d, derivative >, Vec2, deriv >
Dune::LFETensorAxpy< Derivatives< F1, dimD, dimR, d, value >, Vec2, deriv >
Dune::LobattoInnerPoints< Field, GenericGeometry::Point >
Dune::LobattoInnerPoints< Field, GenericGeometry::Prism< Base > >
Dune::LobattoInnerPoints< Field, GenericGeometry::Pyramid< Base > >
Dune::LobattoPoints< Field >
Dune::LobattoPointSet< F, dim >
Dune::LocalBasisTraits< DF, n, D, RF, m, R, J, dorder >Type traits for LocalBasisVirtualInterface
Dune::LocalBasisVirtualImp< T, Imp >Class for wrapping a basis using the virtual interface
Dune::LocalBasisVirtualImp< LocalBasisTraits< DF, n, D, RF, m, R, J, 0 >, Imp >Class for wrapping a basis using the virtual interface
Dune::LocalBasisVirtualInterface< T >Virtual base class for a local basis
Dune::LocalBasisVirtualInterfaceBase< LocalBasisTraits< DF, n, D, RF, m, R, J, 0 > >Virtual base class for a local basis
Dune::LocalCoefficientsContainer
Dune::LocalCoefficientsVirtualImp< Imp >Class for wrapping local coefficients using the virtual interface
Dune::LocalCoefficientsVirtualInterfaceVirtual base class for local coefficients
Dune::LocalFiniteElementCloneFactory< Imp >
Dune::LocalFiniteElementCloneFactoryHelper< Imp, IsInterface >
Dune::LocalFiniteElementCloneFactoryHelper< Imp, true >
Dune::LocalFiniteElementFunctionBase< FE >Return a proper base class for functions to use with LocalInterpolation
Dune::LocalFiniteElementTraits< LB, LC, LI >Traits helper struct
Dune::LocalFiniteElementVirtualImp< Imp >Class for wrapping a finite element using the virtual interface
Dune::LocalFiniteElementVirtualInterface< T >Virtual base class for local finite elements with functions
Dune::LocalFiniteElementVirtualInterface< LocalBasisTraits< DF, n, D, RF, m, R, J, 0 > >Virtual base class for local finite elements with functions
Dune::LocalInterpolationVirtualImp< DomainType, RangeType, Imp >Class for wrapping a local interpolation using the virtual interface
Dune::LocalInterpolationVirtualInterface< DomainType, RangeType >Virtual base class for a local interpolation
Dune::LocalInterpolationVirtualInterfaceBase< DomainType, RangeType >Virtual base class for a local interpolation
Dune::LocalKeyDescribe position of one degree of freedom
Dune::LocalL2Interpolation< B, Q, false >
Dune::LocalL2Interpolation< B, Q, true >
Dune::LocalL2InterpolationBase< B, Q >
Dune::LocalL2InterpolationFactory< BasisFactory, onb >
Dune::LocalL2InterpolationFactoryTraits< BasisFactory, onb >
Dune::LocalLagrangeInterpolation< LP, dim, F >
Dune::LocalToGlobalBasisAdaptorTraits< LocalBasisTraits, dimDomainGlobal_ >Traits class for local-to-global basis adaptors
Dune::LocalToGlobalInterpolationAdaptor< LocalInterpolation, Traits_ >Convert a local interpolation into a global interpolation
Dune::LowerOrderLocalBasisTraits< T >Construct LocalBasisTraits with one diff order lower
Dune::GenericLocalFiniteElement< BasisF, CoeffF, InterpolF >::FiniteElement::Maker< Topology >
Dune::MimeticLocalBasis< D, R, dim >
Dune::MimeticLocalCoefficients!
Dune::MimeticLocalFiniteElement< D, R, dim >
Dune::MimeticLocalInterpolation< LB >
Dune::MonomFiniteElementFactory< Geometry, RF, p >Factory for global-valued MonomFiniteElement objects
Dune::MonomialBasis< Topology, F >
Dune::MonomialBasisFactory< dim, F >
Dune::MonomialBasisFactoryTraits< dim, F >
Dune::MonomialBasisHelper< mydim, dim, F >
MonomialBasisImpl
Dune::MonomialBasisImpl< GenericGeometry::Point, F >
Dune::MonomialBasisImpl< GenericGeometry::Prism< BaseTopology >, F >
Dune::MonomialBasisImpl< GenericGeometry::Pyramid< BaseTopology >, F >
Dune::MonomialBasisProvider< dim, SF >
Dune::MonomialBasisSize< GenericGeometry::Point >
Dune::MonomialBasisSize< GenericGeometry::Prism< BaseTopology > >
Dune::MonomialBasisSize< GenericGeometry::Pyramid< BaseTopology > >
Dune::MonomialEvaluator< B >
Dune::MonomLocalBasis< D, R, d, p, diffOrder >Constant shape function
Dune::MonomLocalCoefficients< static_size >Layout map for Monom elements
Dune::MonomLocalFiniteElement< D, R, d, p, diffOrder >
Dune::MonomLocalInterpolation< LB, size >
Dune::Mult< Field, Field2 >
Dune::Mult< Field, FieldVector< Field2, dimRange > >
Dune::MultiIndex< dim, Field >
ONBCompute::ONBMatrix< Topology, scalar_t >
Dune::OrthonormalBasisFactory< dim, SF, CF >
Dune::OrthonormalBasisFactoryTraits< dim, SF, CF >
Dune::OrthonormalLocalFiniteElement< dimDomain, D, R, SF, CF >A class providing orthonormal basis functions
Dune::P0LocalBasis< D, R, d >Constant shape function
Dune::P0LocalCoefficientsLayout map for P0 elements
Dune::P0LocalFiniteElement< D, R, d >
Dune::P0LocalInterpolation< LB >
Dune::P1LocalBasis< D, R, dim >Linear Lagrange shape functions on the simplex
Dune::P1LocalCoefficients< dim >Local coefficients for simplex P1 elements
Dune::P1LocalFiniteElement< D, R, dim >The local p1 finite element on simplices
Dune::P1LocalInterpolation< dim, LB >
Dune::P23DLocalBasis< D, R >Quadratic Lagrange shape functions on the tetrahedron
Dune::P23DLocalCoefficientsLayout map for P23D elements
Dune::P23DLocalFiniteElement< D, R >
Dune::P23DLocalInterpolation< LB >
Dune::P2LocalFiniteElement< D, R, 2 >
Dune::P2LocalFiniteElement< D, R, 3 >
Dune::Pk1DFiniteElement< Geometry, RF, k >Langrange finite element of arbitrary order on triangles
Dune::Pk1DFiniteElementFactory< Geometry, RF, k >Factory for Pk1DFiniteElement objects
Dune::Pk1DLocalBasis< D, R, k >Lagrange shape functions of arbitrary order on the 1D reference triangle
Dune::Pk1DLocalCoefficients< k >Layout map for Pk elements
Dune::Pk1DLocalFiniteElement< D, R, k >
Dune::Pk1DLocalInterpolation< LB >
Dune::Pk2DFiniteElement< Geometry, RF, k >Langrange finite element of arbitrary order on triangles
Dune::Pk2DFiniteElementFactory< Geometry, RF, k >Factory for Pk2DFiniteElement objects
Dune::Pk2DLocalBasis< D, R, k >Lagrange shape functions of arbitrary order on the reference triangle
Dune::Pk2DLocalCoefficients< k >Layout map for P0 elements
Dune::Pk2DLocalFiniteElement< D, R, k >
Dune::Pk2DLocalInterpolation< LB >
Dune::Pk3DLocalBasis< D, R, k >Lagrange shape functions of arbitrary order on the reference tetrahedron
Dune::Pk3DLocalBasis< D, R, 0 >
Dune::Pk3DLocalCoefficients< k >Please doc me!
Dune::Pk3DLocalFiniteElement< D, R, k >
Dune::Pk3DLocalInterpolation< LB >
Dune::PkLocalFiniteElement< D, R, d, k >General Lagrange finite element with arbitrary dimension and polynomial order
Dune::PkLocalFiniteElement< D, R, 1, k >General Lagrange finite element -- specialization for a 2d reference element
Dune::PkLocalFiniteElement< D, R, 2, k >General Lagrange finite element -- specialization for a 2d reference element
Dune::PkLocalFiniteElement< D, R, 3, k >General Lagrange finite element -- specialization for a 3d reference element
Dune::PolynomialBasis< Eval, CM, D, R >
Dune::PolynomialBasisWithMatrix< Eval, CM, D, R >
Dune::PowerBasis< Backend, dimR >Meta-basis turning a scalar basis into vector-valued basis
Dune::PowerCoefficientsMeta-coefficients turning a scalar coefficients into vector-valued coefficients
Dune::PowerFiniteElement< Backend, dimR >Meta-finite element turning a scalar finite element into vector-valued one
Dune::PowerFiniteElementFactory< BackendFiniteElement, dimR >Factory for meta-finite elements turning scalar finite elements into vector-valued ones
Dune::PowerInterpolation< Backend, BasisTraits >Meta-interpolation turning a scalar interpolation into vector-valued interpolation
Dune::PQ22DLocalFiniteElement< D, R >
Dune::PQkLocalFiniteElementCache< D, R, dim, k >A cache that stores all available Pk/Qk like local finite elements for the given dimension and order
Dune::PQkLocalFiniteElementFactory< D, R, dim, k >Factory to create any kind of Pk/Qk like element wrapped for the virtual interface
Dune::Precision< double >
Dune::Precision< float >
Dune::Precision< long double >
Dune::PrismP1LocalBasis< D, R >Linear Lagrange shape functions on the prism
Dune::PrismP1LocalCoefficientsLayout map for PrismP1 elements
Dune::PrismP1LocalFiniteElement< D, R >First-order Lagrangian finite element on a prism
Dune::PrismP1LocalInterpolation< LB >
Dune::PrismP2LocalBasis< D, R >Quadratic Lagrange shape functions on the prism
Dune::PrismP2LocalCoefficientsLayout map for PrismP2 elements
Dune::PrismP2LocalFiniteElement< D, R >
Dune::PrismP2LocalInterpolation< LB >
Dune::PyramidP1LocalBasis< D, R >Linear Lagrange shape functions on the pyramid
Dune::PyramidP1LocalCoefficientsLayout map for PyramidP1 elements
Dune::PyramidP1LocalFiniteElement< D, R >First-order Lagrangian finite element on a prism
Dune::PyramidP1LocalInterpolation< LB >
Dune::PyramidP2LocalBasis< D, R >Quadratic Lagrange shape functions on the pyramid
Dune::PyramidP2LocalCoefficientsLayout map for PyramidP2 elements
Dune::PyramidP2LocalFiniteElement< D, R >
Dune::PyramidP2LocalInterpolation< LB >
Dune::Q1FiniteElementFactory< Geometry, RF >Factory for global-valued Q1 elements
Dune::Q1LocalBasis< D, R, dim >Lagrange shape functions of order 1 on the reference cube
Dune::Q1LocalCoefficients< dim >Layout map for Q1 elements
Dune::Q1LocalFiniteElement< D, R, dim >The local Q1 finite element on cubes
Dune::Q1LocalInterpolation< dim, LB >
Dune::Q22DFiniteElementFactory< Geometry, RF >Factory for global-valued Q22D elements
Dune::Q22DLocalBasis< D, R >Lagrange shape functions of order 2 on the reference quadrilateral
Dune::Q22DLocalCoefficientsLayout map for Q2 elements
Dune::Q22DLocalFiniteElement< D, R >
Dune::Q22DLocalInterpolation< LB >
Dune::Q2FiniteElementFactory< Geometry, RF >Factory for global-valued Q23D elements
Dune::Q2LocalBasis< D, R, dim >Lagrange shape functions of order 2 on the reference cube
Dune::Q2LocalCoefficients< dim >Layout map for Q2 elements
Dune::Q2LocalFiniteElement< D, R, dim >2nd-order Lagrangian finite elements on hybercubes
Dune::Q2LocalInterpolation< LB >
Dune::RannacherTurek2DLocalBasis< D, R >
Dune::RannacherTurek2DLocalCoefficients
Dune::RannacherTurek2DLocalFiniteElement< D, R >
Dune::RannacherTurek2DLocalInterpolation< LB >
Dune::RaviartThomasBasisFactory< dim, SF, CF >
Dune::RaviartThomasCoefficientsFactory< dim >
Dune::RaviartThomasCoefficientsFactoryTraits< dim >
Dune::RaviartThomasL2Interpolation< dimension, F >
Dune::RaviartThomasL2InterpolationFactory< dim, Field >
Dune::RaviartThomasL2InterpolationFactoryTraits< dim, F >
Dune::RaviartThomasLocalFiniteElement< dimDomain, D, R, SF, CF >Raviart-Thomas basis functions
Dune::RefinedP0LocalBasis< D, R, dim >Uniformly refined constant shape functions on a unit simplex in R^dim
Dune::RefinedP0LocalCoefficients< k >Layout map for RefinedP0 elements
Dune::RefinedP0LocalFiniteElement< D, R, dim >Local finite element that is piecewise P0 on a once uniformly refined reference geometry
Dune::RefinedP0LocalFiniteElement< D, R, 2 >Local finite element that is piecewise P0 on a once uniformly refined reference geometry
Dune::RefinedP0LocalFiniteElement< D, R, 3 >Local finite element that is piecewise P0 on a once uniformly refined reference geometry
Dune::RefinedP0LocalInterpolation< LB >
Dune::RefinedP0LocalInterpolation< RefinedP0LocalBasis< D, R, 2 > >
Dune::RefinedP0LocalInterpolation< RefinedP0LocalBasis< D, R, 3 > >
Dune::RefinedP1LocalBasis< D, R, dim >
Dune::RefinedP1LocalBasis< D, R, 1 >Uniformly refined linear Lagrange shape functions in 1D
Dune::RefinedP1LocalBasis< D, R, 2 >Uniformly refined linear Lagrange shape functions on the triangle
Dune::RefinedP1LocalBasis< D, R, 3 >Uniformly refined linear Lagrange shape functions on the 3D-simplex (tetrahedron)
Dune::RefinedP1LocalFiniteElement< D, R, dim >
Dune::RefinedP1LocalFiniteElement< D, R, 2 >
Dune::RefinedP1LocalFiniteElement< D, R, 3 >
Dune::RefinedSimplexLocalBasis< D, dim >
Dune::RefinedSimplexLocalBasis< D, 1 >Base class for LocalBasis classes based on uniform refinement in 1D; provides numbering and local coordinates of subelements
Dune::RefinedSimplexLocalBasis< D, 2 >Base class for LocalBasis classes based on uniform refinement in 2D; provides numbering and local coordinates of subelements
Dune::RefinedSimplexLocalBasis< D, 3 >Base class for LocalBasis classes based on uniform refinement in 3D; provides numbering and local coordinates of subelements
Dune::RT02DLocalBasis< D, R >Lowest order Raviart-Thomas shape functions on the reference triangle
Dune::RT02DLocalCoefficientsLayout map for RT0 elements
Dune::RT02DLocalFiniteElement< D, R >
Dune::RT02DLocalInterpolation< LB >
Dune::RT0Q2DLocalBasis< D, R >Lowest order Raviart-Thomas shape functions on the reference quadrilateral
Dune::RT0Q2DLocalCoefficientsLayout map for RT0 elements on quadrilaterals
Dune::RT0Q2DLocalFiniteElement< D, R >
Dune::RT0Q2DLocalInterpolation< LB >Lowest order Raviart-Thomas shape functions on the reference quadrilateral
Dune::RT0Q3DLocalBasis< D, R >Lowest order Raviart-Thomas shape functions on the reference hexahedron
Dune::RT0Q3DLocalCoefficientsLayout map for RT0 elements on quadrilaterals
Dune::RT0Q3DLocalFiniteElement< D, R >
Dune::RT0Q3DLocalInterpolation< LB >Lowest order Raviart-Thomas shape functions on the reference hexahedron
Dune::RT0QLocalFiniteElement< D, R, 2 >Specialization on 2d quadrilaterals for lowest order Raviart-Thomas shape functions
Dune::RT0QLocalFiniteElement< D, R, 3 >Specialization on 3d quadrilaterals for lowest order Raviart-Thomas shape functions
Dune::RT12DLocalBasis< D, R >First order Raviart-Thomas shape functions on the reference triangle
Dune::RT12DLocalCoefficientsLayout map for Raviart-Thomas-1 elements on the reference triangle
Dune::RT12DLocalFiniteElement< D, R >First order Raviart-Thomas shape functions on triangles
Dune::RT12DLocalInterpolation< LB >First order Raviart-Thomas shape functions on the reference quadrilateral
Dune::RT1Q2DLocalBasis< D, R >First order Raviart-Thomas shape functions on the reference quadrilateral
Dune::RT1Q2DLocalCoefficientsLayout map for Raviart-Thomas-1 elements on quadrilaterals
Dune::RT1Q2DLocalFiniteElement< D, R >First order Raviart-Thomas shape functions on quadrilaterals
Dune::RT1Q2DLocalInterpolation< LB >First order Raviart-Thomas shape functions on the reference quadrilateral
Dune::RT1Q3DLocalBasis< D, R >First order Raviart-Thomas shape functions on the reference hexahedron
Dune::RT1Q3DLocalCoefficientsLayout map for Raviart-Thomas-1 elements on quadrilaterals
Dune::RT1Q3DLocalFiniteElement< D, R >First order Raviart-Thomas shape functions on cubes
Dune::RT1Q3DLocalInterpolation< LB >First order Raviart-Thomas shape functions on the reference hexahedron
Dune::RT2Q2DLocalBasis< D, R >Second order Raviart-Thomas shape functions on the reference quadrilateral
Dune::RT2Q2DLocalCoefficientsLayout map for Raviart-Thomas-2 elements on quadrilaterals
Dune::RT2Q2DLocalFiniteElement< D, R >Second order Raviart-Thomas shape functions on cubes
Dune::RT2Q2DLocalInterpolation< LB >Second order Raviart-Thomas shape functions on the reference triangle
Dune::RTL2InterpolationBuilder< dim, Field >
Dune::RTPreBasisFactory< dim, Field >
Dune::RTPreBasisFactoryTraits< dim, Field >
Dune::RTVecMatrix< Topology, Field >
Dune::ScalarLocalToGlobalBasisAdaptor< LocalBasis, Geometry >Convert a simple scalar local basis into a global basis
Dune::ScalarLocalToGlobalFiniteElementAdaptor< LocalFiniteElement, Geometry >Convert a simple scalar local finite element into a global finite element
Dune::ScalarLocalToGlobalFiniteElementAdaptorFactory< LocalFiniteElement, Geometry >Factory for ScalarLocalToGlobalFiniteElementAdaptor objects
Dune::MonomImp::Size< d, k >
Dune::MonomImp::Size< 0, 0 >
Dune::MonomImp::Size< 0, k >
Dune::MonomImp::Size< d, 0 >
Dune::SparseCoeffMatrix< F, bSize >
Dune::StandardBiMonomialBasis< dim, F >
Dune::StandardEvaluator< B >
Dune::StandardMonomialBasis< dim, F >
Dune::EquidistantPointSet< F, dim >::Topology< T >
TopologyFactory
Dune::PowerBasis< Backend, dimR >::TraitsTypes of domain and range
Dune::ScalarLocalToGlobalFiniteElementAdaptor< LocalFiniteElement, Geometry >::Traits
Dune::Pk2DFiniteElement< Geometry, RF, k >::Traits
Dune::PowerFiniteElement< Backend, dimR >::TraitsTypes of component objects
Dune::EdgeS0_5FiniteElement< Geometry, RF >::Traits
Dune::Pk1DFiniteElement< Geometry, RF, k >::Traits
Dune::FiniteElementInterface::TraitsTypes of component objects
Dune::EdgeS0_5Basis< Geometry, RF >::TraitsExport type traits for function signature
Dune::BasisInterface::TraitsTypes of domain and range
Dune::Unity< Field >A class representing the unit of a given Field
Dune::Unity< MultiIndex< dim, F > >
Dune::VirtualMonomialBasis< dim, F >
Dune::VirtualMonomialBasisImpl< Topology, F >
Dune::Zero< Field >A class representing the zero of a given Field
Dune::Zero< MultiIndex< dim, F > >