Class for the element volume variables vector for the staggered model. Specialization in case the volume variables are stored globally.
#include <dumux/discretization/staggered/freeflow/elementvolumevariables.hh>
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| using | GridVolumeVariables = GVV |
| | export type of the grid volume variables
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| using | VolumeVariables = typename GridVolumeVariables::VolumeVariables |
| | export type of the volume variables
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| | StaggeredElementVolumeVariables (const GridVolumeVariables &gridVolVars) |
| | Constructor.
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| template<class SubControlVolume, typename std::enable_if_t<!std::is_integral< SubControlVolume >::value, int > = 0> |
| const VolumeVariables & | operator[] (const SubControlVolume &scv) const |
| | operator for the access with an scv
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| const VolumeVariables & | operator[] (const std::size_t scvIdx) const |
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| template<class FVElementGeometry, class SolutionVector> |
| StaggeredElementVolumeVariables | bind (const typename FVElementGeometry::GridGeometry::GridView::template Codim< 0 >::Entity &element, const FVElementGeometry &fvGeometry, const SolutionVector &sol) && |
| | bind the local view (r-value overload) This overload is called when an instance of this class is a temporary in the usage context This allows a usage like this: const auto view = localView(...).bind(element);
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| template<class FVElementGeometry, class SolutionVector> |
| void | bind (const typename FVElementGeometry::GridGeometry::GridView::template Codim< 0 >::Entity &element, const FVElementGeometry &fvGeometry, const SolutionVector &sol) & |
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| template<class FVElementGeometry, class SolutionVector> |
| StaggeredElementVolumeVariables | bindElement (const typename FVElementGeometry::GridGeometry::GridView::template Codim< 0 >::Entity &element, const FVElementGeometry &fvGeometry, const SolutionVector &sol) && |
| | bind the local view (r-value overload) This overload is called when an instance of this class is a temporary in the usage context This allows a usage like this: const auto view = localView(...).bind(element);
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| template<class FVElementGeometry, class SolutionVector> |
| void | bindElement (const typename FVElementGeometry::GridGeometry::GridView::template Codim< 0 >::Entity &element, const FVElementGeometry &fvGeometry, const SolutionVector &sol) & |
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| const GridVolumeVariables & | gridVolVars () const |
| | The global volume variables object we are a restriction of.
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◆ GridVolumeVariables
◆ VolumeVariables
◆ StaggeredElementVolumeVariables()
◆ bind() [1/2]
template<class GVV>
template<class FVElementGeometry, class SolutionVector>
| void Dumux::StaggeredElementVolumeVariables< GVV, true >::bind |
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const typename FVElementGeometry::GridGeometry::GridView::template Codim< 0 >::Entity & | element, |
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const FVElementGeometry & | fvGeometry, |
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const SolutionVector & | sol ) & |
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inline |
◆ bind() [2/2]
template<class GVV>
template<class FVElementGeometry, class SolutionVector>
◆ bindElement() [1/2]
template<class GVV>
template<class FVElementGeometry, class SolutionVector>
| void Dumux::StaggeredElementVolumeVariables< GVV, true >::bindElement |
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const typename FVElementGeometry::GridGeometry::GridView::template Codim< 0 >::Entity & | element, |
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const FVElementGeometry & | fvGeometry, |
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const SolutionVector & | sol ) & |
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inline |
◆ bindElement() [2/2]
template<class GVV>
template<class FVElementGeometry, class SolutionVector>
◆ gridVolVars()
◆ operator[]() [1/2]
operator for the access with an index needed for Staggered methods for the access to the boundary volume variables
◆ operator[]() [2/2]
template<class GVV>
template<class SubControlVolume, typename std::enable_if_t<!std::is_integral< SubControlVolume >::value, int > = 0>
The documentation for this class was generated from the following file: