DUNE-FEM (unstable)

Dune::MultiLinearGeometry< ct, mydim, cdim, Traits > Class Template Reference

generic geometry implementation based on corner coordinates More...

#include <dune/geometry/multilineargeometry.hh>

Public Types

typedef ct ctype
 coordinate type
 
typedef FieldVector< ctype, mydimensionLocalCoordinate
 type of local coordinates
 
typedef FieldVector< ctype, coorddimensionGlobalCoordinate
 type of global coordinates
 
typedef ctype Volume
 type of volume
 
typedef FieldMatrix< ctype, mydimension, coorddimensionJacobianTransposed
 type of jacobian transposed
 
typedef FieldMatrix< ctype, coorddimension, mydimensionJacobian
 Type for the Jacobian matrix.
 
typedef FieldMatrix< ctype, mydimension, coorddimensionJacobianInverse
 Type for the inverse Jacobian matrix.
 
typedef ReferenceElements::ReferenceElement ReferenceElement
 type of reference element
 

Public Member Functions

template<class Corners >
 MultiLinearGeometry (const ReferenceElement &refElement, const Corners &corners)
 constructor More...
 
template<class Corners >
 MultiLinearGeometry (Dune::GeometryType gt, const Corners &corners)
 constructor More...
 
bool affine () const
 is this mapping affine?
 
Dune::GeometryType type () const
 obtain the name of the reference element
 
int corners () const
 obtain number of corners of the corresponding reference element
 
GlobalCoordinate corner (int i) const
 obtain coordinates of the i-th corner
 
GlobalCoordinate center () const
 obtain the centroid of the mapping's image
 
GlobalCoordinate global (const LocalCoordinate &local) const
 evaluate the mapping More...
 
 LocalCoordinate (const GlobalCoordinate &globalCoord) const
 evaluate the inverse mapping More...
 
Volume integrationElement (const LocalCoordinate &local) const
 obtain the integration element More...
 
Volume volume () const
 obtain the volume of the mapping's image More...
 
JacobianTransposed jacobianTransposed (const LocalCoordinate &local) const
 obtain the transposed of the Jacobian More...
 
JacobianInverseTransposed jacobianInverseTransposed (const LocalCoordinate &local) const
 obtain the transposed of the Jacobian's inverse More...
 
Jacobian jacobian (const LocalCoordinate &local) const
 Obtain the Jacobian. More...
 
JacobianInverse jacobianInverse (const LocalCoordinate &local) const
 Obtain the Jacobian's inverse. More...
 

Static Public Attributes

static const int mydimension = mydim
 geometry dimension
 
static const int coorddimension = cdim
 coordinate dimension
 

Detailed Description

template<class ct, int mydim, int cdim, class Traits = MultiLinearGeometryTraits< ct >>
class Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >

generic geometry implementation based on corner coordinates

Based on the recursive definition of the reference elements, the MultiLinearGeometry provides a generic implementation of a geometry given the corner coordinates.

The geometric mapping is multilinear in the classical sense only in the case of cubes; for simplices it is linear. The name is still justified, because the mapping satisfies the important property of begin linear along edges.

Template Parameters
ctcoordinate type
mydimgeometry dimension
cdimcoordinate dimension
Traitstraits allowing to tweak some implementation details (optional)

The requirements on the traits are documented along with their default, MultiLinearGeometryTraits.

Constructor & Destructor Documentation

◆ MultiLinearGeometry() [1/2]

template<class ct , int mydim, int cdim, class Traits = MultiLinearGeometryTraits< ct >>
template<class Corners >
Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::MultiLinearGeometry ( const ReferenceElement refElement,
const Corners &  corners 
)
inline

constructor

Parameters
[in]refElementreference element for the geometry
[in]cornerscorners to store internally
Note
The type of corners is actually a template argument. It is only required that the internal corner storage can be constructed from this object.

◆ MultiLinearGeometry() [2/2]

template<class ct , int mydim, int cdim, class Traits = MultiLinearGeometryTraits< ct >>
template<class Corners >
Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::MultiLinearGeometry ( Dune::GeometryType  gt,
const Corners &  corners 
)
inline

constructor

Parameters
[in]gtgeometry type
[in]cornerscorners to store internally
Note
The type of corners is actually a template argument. It is only required that the internal corner storage can be constructed from this object.

Member Function Documentation

◆ global()

template<class ct , int mydim, int cdim, class Traits = MultiLinearGeometryTraits< ct >>
GlobalCoordinate Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::global ( const LocalCoordinate local) const
inline

evaluate the mapping

Parameters
[in]locallocal coordinate to map
Returns
corresponding global coordinate

References Dune::get().

Referenced by Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::center(), Dune::P1VTKFunction< GV, V >::evaluate(), and Dune::CachedMultiLinearGeometry< ct, mydim, cdim, Traits >::global().

◆ integrationElement()

template<class ct , int mydim, int cdim, class Traits = MultiLinearGeometryTraits< ct >>
Volume Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::integrationElement ( const LocalCoordinate local) const
inline

obtain the integration element

If the Jacobian of the mapping is denoted by $J(x)$, the integration integration element \(\mu(x)\) is given by

\[ \mu(x) = \sqrt{|\det (J^T(x) J(x))|}.\]

Parameters
[in]locallocal coordinate to evaluate the integration element in
Returns
the integration element \(\mu(x)\).
Note
For affine mappings, it is more efficient to call jacobianInverseTransposed before integrationElement, if both are required.

References Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::jacobianTransposed().

Referenced by Dune::CachedMultiLinearGeometry< ct, mydim, cdim, Traits >::integrationElement(), and Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::volume().

◆ jacobian()

template<class ct , int mydim, int cdim, class Traits = MultiLinearGeometryTraits< ct >>
Jacobian Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::jacobian ( const LocalCoordinate local) const
inline

Obtain the Jacobian.

Parameters
[in]locallocal coordinate to evaluate Jacobian in
Returns
a copy of the transposed of the Jacobian

References Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::jacobianTransposed(), and Dune::FieldMatrix< K, ROWS, COLS >::transposed().

◆ jacobianInverse()

template<class ct , int mydim, int cdim, class Traits = MultiLinearGeometryTraits< ct >>
JacobianInverse Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::jacobianInverse ( const LocalCoordinate local) const
inline

Obtain the Jacobian's inverse.

The Jacobian's inverse is defined as a pseudo-inverse. If we denote the Jacobian by \(J(x)\), the following condition holds:

\[J^{-1}(x) J(x) = I.\]

References Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::jacobianInverseTransposed().

◆ jacobianInverseTransposed()

template<class ct , int mydim, int cdim, class Traits >
MultiLinearGeometry< ct, mydim, cdim, Traits >::JacobianInverseTransposed Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::jacobianInverseTransposed ( const LocalCoordinate local) const
inline

obtain the transposed of the Jacobian's inverse

The Jacobian's inverse is defined as a pseudo-inverse. If we denote the Jacobian by \(J(x)\), the following condition holds:

\[J^{-1}(x) J(x) = I.\]

Referenced by Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::jacobianInverse(), and Dune::CachedMultiLinearGeometry< ct, mydim, cdim, Traits >::jacobianInverseTransposed().

◆ jacobianTransposed()

template<class ct , int mydim, int cdim, class Traits = MultiLinearGeometryTraits< ct >>
JacobianTransposed Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::jacobianTransposed ( const LocalCoordinate local) const
inline

obtain the transposed of the Jacobian

Parameters
[in]locallocal coordinate to evaluate Jacobian in
Returns
a reference to the transposed of the Jacobian
Note
The returned reference is reused on the next call to JacobianTransposed, destroying the previous value.

References Dune::get().

Referenced by Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::integrationElement(), Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::jacobian(), Dune::CachedMultiLinearGeometry< ct, mydim, cdim, Traits >::jacobianTransposed(), and Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::LocalCoordinate().

◆ LocalCoordinate()

template<class ct , int mydim, int cdim, class Traits = MultiLinearGeometryTraits< ct >>
Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::LocalCoordinate ( const GlobalCoordinate globalCoord) const
inline

evaluate the inverse mapping

Parameters
[in]globalCoordglobal coordinate to map
Returns
corresponding local coordinate
Note
For given global coordinate y the returned local coordinate x that minimizes the following function over the local coordinate space spanned by the reference element.
(global( x ) - y).two_norm()
GlobalCoordinate global(const LocalCoordinate &local) const
evaluate the mapping
Definition: multilineargeometry.hh:290

References Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::affine(), Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::jacobianTransposed(), Dune::Hybrid::max, and Dune::DenseVector< V >::two_norm2().

◆ volume()

template<class ct , int mydim, int cdim, class Traits = MultiLinearGeometryTraits< ct >>
Volume Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::volume ( ) const
inline

obtain the volume of the mapping's image

Note
The current implementation just returns
integrationElement( refElement().position( 0, 0 ) ) * refElement().volume()
Volume integrationElement(const LocalCoordinate &local) const
obtain the integration element
Definition: multilineargeometry.hh:350
which is wrong for n-linear surface maps and other nonlinear maps.

References Dune::MultiLinearGeometry< ct, mydim, cdim, Traits >::integrationElement().

Referenced by Dune::CachedMultiLinearGeometry< ct, mydim, cdim, Traits >::volume().


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