dune-fem 2.8.0
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Public Types | List of all members
Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range > Struct Template Reference

#include <dune/fem/space/finitevolume/basisfunctionset.hh>

Public Types

typedef Entity EntityType
 entity type
 
typedef FunctionSpace< typename Entity::Geometry::ctype, typename Range::value_type, Entity::Geometry::coorddimension, Range::dimension > FunctionSpaceType
 function space type
 
typedef FunctionSpaceType::DomainType DomainType
 range type
 
typedef FunctionSpaceType::RangeType RangeType
 range type
 
typedef FunctionSpaceType::JacobianRangeType JacobianRangeType
 jacobian range type
 
typedef FunctionSpaceType::HessianRangeType HessianRangeType
 hessian range type
 
typedef std::decay_t< decltype(Dune::ReferenceElements< typename EntityType::Geometry::ctype, EntityType::Geometry::coorddimension >::general(std::declval< const Dune::GeometryType & >())) > ReferenceElementType
 type of reference element
 

Public Member Functions

Construction
 FiniteVolumeBasisFunctionSet ()
 
 FiniteVolumeBasisFunctionSet (const EntityType &entity)
 

Public member methods

template<class Quadrature , class Vector , class DofVector >
void axpy (const Quadrature &quadrature, const Vector &values, DofVector &dofs) const
 evaluate all basis function and multiply with given values and add to dofs
 
template<class Quadrature , class VectorA , class VectorB , class DofVector >
void axpy (const Quadrature &quadrature, const VectorA &valuesA, const VectorB &valuesB, DofVector &dofs) const
 evaluate all basis function and multiply with given values and add to dofs
 
template<class Point , class DofVector >
void axpy (const Point &x, const RangeType &valueFactor, DofVector &dofs) const
 evaluate all basis function and multiply with given values and add to dofs
 
template<class Point , class DofVector >
void axpy (const Point &x, const JacobianRangeType &jacobianFactor, DofVector &dofs) const
 evaluate all basis function and multiply with given values and add to dofs
 
template<class Point , class DofVector >
void axpy (const Point &x, const RangeType &valueFactor, const JacobianRangeType &jacobianFactor, DofVector &dofs) const
 evaluate all basis function and multiply with given values and add to dofs
 
template<class Quadrature , class DofVector , class RangeArray >
void evaluateAll (const Quadrature &quadrature, const DofVector &dofs, RangeArray &ranges) const
 evaluate all basis functions and store the result in the ranges array
 
template<class Point , class DofVector >
void evaluateAll (const Point &x, const DofVector &dofs, RangeType &value) const
 evaluate all basis functions and store the result in the ranges array
 
template<class Point , class RangeArray >
void evaluateAll (const Point &x, RangeArray &values) const
 evaluate all basis functions and store the result in the ranges array
 
template<class QuadratureType , class DofVector , class JacobianArray >
void jacobianAll (const QuadratureType &quadrature, const DofVector &dofs, JacobianArray &jacobians) const
 evaluate the jacobian of all basis functions and store the result in the jacobians array
 
template<class Point , class DofVector >
void jacobianAll (const Point &x, const DofVector &dofs, JacobianRangeType &jacobian) const
 evaluate the jacobian of all basis functions and store the result in the jacobians array
 
template<class Point , class JacobianRangeArray >
void jacobianAll (const Point &x, JacobianRangeArray &jacobians) const
 evaluate the jacobian of all basis functions and store the result in the jacobians array
 
template<class QuadratureType , class DofVector , class HessianArray >
void hessianAll (const QuadratureType &quadrature, const DofVector &dofs, HessianArray &hessians) const
 
template<class Point , class DofVector >
void hessianAll (const Point &x, const DofVector &dofs, HessianRangeType &hessian) const
 
template<class Point , class HessianRangeArray >
void hessianAll (const Point &x, HessianRangeArray &hessians) const
 
const EntityTypeentity () const
 return entity
 
auto referenceElement () const -> decltype(Dune::ReferenceElements< typename EntityType::Geometry::ctype, EntityType::Geometry::coorddimension >::general(std::declval< const Dune::GeometryType & >()))
 
Dune::GeometryType type () const
 
bool valid () const
 return true if entity pointer is set
 
static constexpr int order ()
 return order of basis function set
 
static constexpr std::size_t size ()
 return size of basis function set
 

Member Typedef Documentation

◆ DomainType

template<class Entity , class Range >
typedef FunctionSpaceType::DomainType Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::DomainType

range type

◆ EntityType

template<class Entity , class Range >
typedef Entity Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::EntityType

entity type

◆ FunctionSpaceType

template<class Entity , class Range >
typedef FunctionSpace< typename Entity::Geometry::ctype, typename Range::value_type, Entity::Geometry::coorddimension, Range::dimension > Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::FunctionSpaceType

function space type

◆ HessianRangeType

template<class Entity , class Range >
typedef FunctionSpaceType::HessianRangeType Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::HessianRangeType

hessian range type

◆ JacobianRangeType

template<class Entity , class Range >
typedef FunctionSpaceType::JacobianRangeType Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::JacobianRangeType

jacobian range type

◆ RangeType

template<class Entity , class Range >
typedef FunctionSpaceType::RangeType Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::RangeType

range type

◆ ReferenceElementType

template<class Entity , class Range >
typedef std::decay_t< decltype( Dune::ReferenceElements< typename EntityType::Geometry::ctype, EntityType::Geometry::coorddimension >::general( std::declval< const Dune::GeometryType & >() ) ) > Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::ReferenceElementType

type of reference element

Constructor & Destructor Documentation

◆ FiniteVolumeBasisFunctionSet() [1/2]

template<class Entity , class Range >
Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::FiniteVolumeBasisFunctionSet ( )
inline

◆ FiniteVolumeBasisFunctionSet() [2/2]

template<class Entity , class Range >
Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::FiniteVolumeBasisFunctionSet ( const EntityType entity)
inlineexplicit

Member Function Documentation

◆ axpy() [1/5]

template<class Entity , class Range >
template<class Point , class DofVector >
void Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::axpy ( const Point &  x,
const JacobianRangeType jacobianFactor,
DofVector &  dofs 
) const
inline

evaluate all basis function and multiply with given values and add to dofs

◆ axpy() [2/5]

template<class Entity , class Range >
template<class Point , class DofVector >
void Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::axpy ( const Point &  x,
const RangeType valueFactor,
const JacobianRangeType jacobianFactor,
DofVector &  dofs 
) const
inline

evaluate all basis function and multiply with given values and add to dofs

◆ axpy() [3/5]

template<class Entity , class Range >
template<class Point , class DofVector >
void Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::axpy ( const Point &  x,
const RangeType valueFactor,
DofVector &  dofs 
) const
inline

evaluate all basis function and multiply with given values and add to dofs

◆ axpy() [4/5]

template<class Entity , class Range >
template<class Quadrature , class Vector , class DofVector >
void Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::axpy ( const Quadrature quadrature,
const Vector &  values,
DofVector &  dofs 
) const
inline

evaluate all basis function and multiply with given values and add to dofs

◆ axpy() [5/5]

template<class Entity , class Range >
template<class Quadrature , class VectorA , class VectorB , class DofVector >
void Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::axpy ( const Quadrature quadrature,
const VectorA &  valuesA,
const VectorB &  valuesB,
DofVector &  dofs 
) const
inline

evaluate all basis function and multiply with given values and add to dofs

◆ entity()

template<class Entity , class Range >
const EntityType & Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::entity ( ) const
inline

return entity

◆ evaluateAll() [1/3]

template<class Entity , class Range >
template<class Point , class DofVector >
void Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::evaluateAll ( const Point &  x,
const DofVector &  dofs,
RangeType value 
) const
inline

evaluate all basis functions and store the result in the ranges array

◆ evaluateAll() [2/3]

template<class Entity , class Range >
template<class Point , class RangeArray >
void Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::evaluateAll ( const Point &  x,
RangeArray &  values 
) const
inline

evaluate all basis functions and store the result in the ranges array

◆ evaluateAll() [3/3]

template<class Entity , class Range >
template<class Quadrature , class DofVector , class RangeArray >
void Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::evaluateAll ( const Quadrature quadrature,
const DofVector &  dofs,
RangeArray &  ranges 
) const
inline

evaluate all basis functions and store the result in the ranges array

◆ hessianAll() [1/3]

template<class Entity , class Range >
template<class Point , class DofVector >
void Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::hessianAll ( const Point &  x,
const DofVector &  dofs,
HessianRangeType hessian 
) const
inline

Todo:
please doc me

◆ hessianAll() [2/3]

template<class Entity , class Range >
template<class Point , class HessianRangeArray >
void Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::hessianAll ( const Point &  x,
HessianRangeArray &  hessians 
) const
inline

Todo:
please doc me

◆ hessianAll() [3/3]

template<class Entity , class Range >
template<class QuadratureType , class DofVector , class HessianArray >
void Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::hessianAll ( const QuadratureType &  quadrature,
const DofVector &  dofs,
HessianArray &  hessians 
) const
inline

Todo:
please doc me

◆ jacobianAll() [1/3]

template<class Entity , class Range >
template<class Point , class DofVector >
void Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::jacobianAll ( const Point &  x,
const DofVector &  dofs,
JacobianRangeType jacobian 
) const
inline

evaluate the jacobian of all basis functions and store the result in the jacobians array

◆ jacobianAll() [2/3]

template<class Entity , class Range >
template<class Point , class JacobianRangeArray >
void Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::jacobianAll ( const Point &  x,
JacobianRangeArray &  jacobians 
) const
inline

evaluate the jacobian of all basis functions and store the result in the jacobians array

◆ jacobianAll() [3/3]

template<class Entity , class Range >
template<class QuadratureType , class DofVector , class JacobianArray >
void Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::jacobianAll ( const QuadratureType &  quadrature,
const DofVector &  dofs,
JacobianArray &  jacobians 
) const
inline

evaluate the jacobian of all basis functions and store the result in the jacobians array

◆ order()

template<class Entity , class Range >
static constexpr int Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::order ( )
inlinestaticconstexpr

return order of basis function set

◆ referenceElement()

template<class Entity , class Range >
auto Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::referenceElement ( ) const -> decltype( Dune::ReferenceElements< typename EntityType::Geometry::ctype, EntityType::Geometry::coorddimension >::general( std::declval< const Dune::GeometryType & >() ) )
inline

◆ size()

template<class Entity , class Range >
static constexpr std::size_t Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::size ( )
inlinestaticconstexpr

return size of basis function set

◆ type()

template<class Entity , class Range >
Dune::GeometryType Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::type ( ) const
inline

◆ valid()

template<class Entity , class Range >
bool Dune::Fem::FiniteVolumeBasisFunctionSet< Entity, Range >::valid ( ) const
inline

return true if entity pointer is set


The documentation for this struct was generated from the following file: