A VTK function that supports both scalar and vector values for each vertex. This expects the data to be organized by a two-dimensional field storing for each element the element-local nodal values. This can be used for the output of fields that are non-conforming due to e.g. constitutive relationships and where no extra degrees of freedom exist to disply the discontinuities. More...

#include <dumux/io/vtkfunction.hh>

Inheritance diagram for Dumux::Vtk::VectorP1NonConformingVTKFunction< GridView, Mapper, F >:

Description

template<typename GridView, typename Mapper, typename F>
struct Dumux::Vtk::VectorP1NonConformingVTKFunction< GridView, Mapper, F >

A VTK function that supports both scalar and vector values for each vertex. This expects the data to be organized by a two-dimensional field storing for each element the element-local nodal values. This can be used for the output of fields that are non-conforming due to e.g. constitutive relationships and where no extra degrees of freedom exist to disply the discontinuities.

Template Parameters

GridView	The Dune grid view type
Mapper	The type used for mapping elements to indices in the field
F	The field type (either vector of scalars or vectors)

Public Types
enum	{ dim = GridView::dimension }

using	ctype = typename GridView::ctype

using	Element = typename GridView::template Codim< 0 >::Entity

Public Member Functions
int	ncomps () const final
	return number of components More...

std::string	name () const final
	get name More...

double	evaluate (int mycomp, const Element &e, const Dune::FieldVector< ctype, dim > &xi) const final
	evaluate More...

Dumux::Vtk::Precision	precision () const final
	get output precision for the field More...

	VectorP1NonConformingVTKFunction (const GridView &gridView, const Mapper &mapper, const F &field, const std::string &name, int nComps, Dumux::Vtk::Precision precision=Dumux::Vtk::Precision::float32)
	Constructor. More...