3.5-git
DUNE for Multi-{Phase, Component, Scale, Physics, ...} flow and transport in porous media
Public Types | Public Member Functions | Static Public Member Functions | Static Public Attributes | Protected Member Functions | List of all members
Dumux::SubDomainStaggeredLocalAssemblerImplicitBase< id, TypeTag, Assembler, Implementation > Class Template Reference

A base class for all implicit multidomain local assemblers (staggered) More...

#include <dumux/multidomain/subdomainstaggeredlocalassembler.hh>

Inheritance diagram for Dumux::SubDomainStaggeredLocalAssemblerImplicitBase< id, TypeTag, Assembler, Implementation >:

Description

template<std::size_t id, class TypeTag, class Assembler, class Implementation>
class Dumux::SubDomainStaggeredLocalAssemblerImplicitBase< id, TypeTag, Assembler, Implementation >

A base class for all implicit multidomain local assemblers (staggered)

Template Parameters
idthe id of the sub domain
TypeTagthe TypeTag
Assemblerthe assembler type
Implementationthe actual assembler implementation

Public Types

using ElementResidualVector = typename LocalResidual::ElementResidualVector
 

Public Member Functions

void bindLocalViews ()
 
template<class JacobianMatrixRow , class SubSol , class GridVariablesTuple >
void assembleJacobianAndResidual (JacobianMatrixRow &jacRow, SubSol &res, GridVariablesTuple &gridVariables)
 Computes the derivatives with respect to the given element and adds them to the global matrix. The element residual is written into the right hand side. More...
 
template<class SubSol >
void assembleResidual (SubSol &res)
 Assemble the residual only. More...
 
CellCenterResidualValue evalLocalResidualForCellCenter () const
 Convenience function to evaluate the complete local residual for the current element. Automatically chooses the the appropriate element volume variables. More...
 
CellCenterResidualValue evalLocalResidualForCellCenter (const ElementVolumeVariables &elemVolVars, const ElementFaceVariables &elemFaceVars) const
 Evaluates the complete local residual for the current cell center. More...
 
CellCenterResidualValue evalLocalFluxAndSourceResidualForCellCenter () const
 Convenience function to evaluate the flux and source terms (i.e, the terms without a time derivative) of the local residual for the current element. Automatically chooses the the appropriate element volume and face variables. More...
 
CellCenterResidualValue evalLocalFluxAndSourceResidualForCellCenter (const ElementVolumeVariables &elemVolVars, const ElementFaceVariables &elemFaceVars) const
 Evaluates the flux and source terms (i.e, the terms without a time derivative) of the local residual for the current element. More...
 
CellCenterResidualValue evalLocalStorageResidualForCellCenter () const
 Convenience function to evaluate storage term (i.e, the term with a time derivative) of the local residual for the current element. Automatically chooses the the appropriate element volume and face variables. More...
 
FaceResidualValue evalLocalResidualForFace (const SubControlVolumeFace &scvf) const
 Convenience function to evaluate the local residual for the current face. Automatically chooses the the appropriate element volume and face variables. More...
 
FaceResidualValue evalLocalResidualForFace (const SubControlVolumeFace &scvf, const ElementVolumeVariables &elemVolVars, const ElementFaceVariables &elemFaceVars) const
 Evaluates the complete local residual for the current face. More...
 
FaceResidualValue evalLocalFluxAndSourceResidualForFace (const SubControlVolumeFace &scvf) const
 Convenience function to evaluate the flux and source terms (i.e, the terms without a time derivative) of the local residual for the current element. Automatically chooses the the appropriate element volume and face variables. More...
 
FaceResidualValue evalLocalFluxAndSourceResidualForFace (const SubControlVolumeFace &scvf, const ElementVolumeVariables &elemVolVars, const ElementFaceVariables &elemFaceVars) const
 Evaluates the flux and source terms (i.e, the terms without a time derivative) of the local residual for the current face. More...
 
FaceResidualValue evalLocalStorageResidualForFace (const SubControlVolumeFace &scvf) const
 Convenience function to evaluate storage term (i.e, the term with a time derivative) of the local residual for the current face. Automatically chooses the the appropriate element volume and face variables. More...
 
const Problem & problem () const
 
ElementFaceVariables & curElemFaceVars ()
 The current element volume variables. More...
 
const ElementFaceVariables & curElemFaceVars () const
 The current element volume variables. More...
 
ElementFaceVariables & prevElemFaceVars ()
 The element volume variables of the provious time step. More...
 
const ElementFaceVariables & prevElemFaceVars () const
 The element volume variables of the provious time step. More...
 
CouplingManager & couplingManager ()
 
ElementResidualVector evalLocalResidual () const
 Convenience function to evaluate the complete local residual for the current element. Automatically chooses the the appropriate element volume variables. More...
 
ElementResidualVector evalLocalResidual (const ElementVolumeVariables &elemVolVars) const
 Evaluates the complete local residual for the current element. More...
 
ElementResidualVector evalLocalFluxAndSourceResidual () const
 Convenience function to evaluate the flux and source terms (i.e, the terms without a time derivative) of the local residual for the current element. Automatically chooses the the appropriate element volume variables. More...
 
ElementResidualVector evalLocalFluxAndSourceResidual (const ElementVolumeVariables &elemVolVars) const
 Evaluates the flux and source terms (i.e, the terms without a time derivative) of the local residual for the current element. More...
 
ElementResidualVector evalLocalStorageResidual () const
 Convenience function to evaluate storage term (i.e, the term with a time derivative) of the local residual for the current element. Automatically chooses the the appropriate element volume variables. More...
 
void enforceInternalDirichletConstraints (const ApplyFunction &applyDirichlet)
 Enforces Dirichlet constraints if enabled in the problem. More...
 
void enforceInternalDirichletConstraints (const ApplyFunction &applyDirichlet)
 
const Assembler & assembler () const
 The assembler. More...
 
const Element & element () const
 The current element. More...
 
bool elementIsGhost () const
 Returns if element is a ghost entity. More...
 
const SolutionVector & curSol () const
 The current solution. More...
 
FVElementGeometry & fvGeometry ()
 The global finite volume geometry. More...
 
const FVElementGeometry & fvGeometry () const
 The finite volume geometry. More...
 
ElementVolumeVariables & curElemVolVars ()
 The current element volume variables. More...
 
const ElementVolumeVariables & curElemVolVars () const
 The current element volume variables. More...
 
ElementVolumeVariables & prevElemVolVars ()
 The element volume variables of the provious time step. More...
 
const ElementVolumeVariables & prevElemVolVars () const
 The element volume variables of the provious time step. More...
 
ElementFluxVariablesCache & elemFluxVarsCache ()
 The element flux variables cache. More...
 
const ElementFluxVariablesCache & elemFluxVarsCache () const
 The element flux variables cache. More...
 
LocalResidual & localResidual ()
 The local residual for the current element. More...
 
const LocalResidual & localResidual () const
 The local residual for the current element. More...
 
ElementBoundaryTypes & elemBcTypes ()
 The element's boundary types. More...
 
const ElementBoundaryTypes & elemBcTypes () const
 The element's boundary types. More...
 

Static Public Member Functions

static constexpr bool isImplicit ()
 Returns true if the assembler considers implicit assembly. More...
 

Static Public Attributes

static constexpr auto cellCenterId = GridGeometry::cellCenterIdx()
 
static constexpr auto faceId = GridGeometry::faceIdx()
 
static constexpr auto numEqCellCenter = CellCenterResidualValue::dimension
 
static constexpr auto faceOffset = numEqCellCenter
 

Protected Member Functions

Implementation & asImp_ ()
 
const Implementation & asImp_ () const
 
VolumeVariables & getVolVarAccess (GridVolumeVariables &gridVolVars, ElementVolumeVariables &elemVolVars, const SubControlVolume &scv)
 
VolumeVariables & getVolVarAccess (GridVolumeVariables &gridVolVars, ElementVolumeVariables &elemVolVars, const SubControlVolume &scv)
 

Member Typedef Documentation

◆ ElementResidualVector

using Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::ElementResidualVector = typename LocalResidual::ElementResidualVector
inherited

Member Function Documentation

◆ asImp_() [1/2]

Implementation & Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::asImp_ ( )
inlineprotectedinherited

◆ asImp_() [2/2]

const Implementation & Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::asImp_ ( ) const
inlineprotectedinherited

◆ assembleJacobianAndResidual()

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
template<class JacobianMatrixRow , class SubSol , class GridVariablesTuple >
void Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::assembleJacobianAndResidual ( JacobianMatrixRow &  jacRow,
SubSol &  res,
GridVariablesTuple &  gridVariables 
)
inlineinherited

Computes the derivatives with respect to the given element and adds them to the global matrix. The element residual is written into the right hand side.

◆ assembler()

const Assembler & Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::assembler ( ) const
inlineinherited

The assembler.

◆ assembleResidual()

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
template<class SubSol >
void Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::assembleResidual ( SubSol &  res)
inlineinherited

Assemble the residual only.

◆ bindLocalViews()

template<std::size_t id, class TypeTag , class Assembler , class Implementation >
void Dumux::SubDomainStaggeredLocalAssemblerImplicitBase< id, TypeTag, Assembler, Implementation >::bindLocalViews ( )
inline

◆ couplingManager()

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
CouplingManager & Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::couplingManager ( )
inlineinherited

◆ curElemFaceVars() [1/2]

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
ElementFaceVariables & Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::curElemFaceVars ( )
inlineinherited

The current element volume variables.

◆ curElemFaceVars() [2/2]

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
const ElementFaceVariables & Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::curElemFaceVars ( ) const
inlineinherited

The current element volume variables.

◆ curElemVolVars() [1/2]

ElementVolumeVariables & Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::curElemVolVars ( )
inlineinherited

The current element volume variables.

◆ curElemVolVars() [2/2]

const ElementVolumeVariables & Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::curElemVolVars ( ) const
inlineinherited

The current element volume variables.

◆ curSol()

const SolutionVector & Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::curSol ( ) const
inlineinherited

The current solution.

◆ elemBcTypes() [1/2]

ElementBoundaryTypes & Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::elemBcTypes ( )
inlineinherited

The element's boundary types.

◆ elemBcTypes() [2/2]

const ElementBoundaryTypes & Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::elemBcTypes ( ) const
inlineinherited

The element's boundary types.

◆ element()

const Element & Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::element ( ) const
inlineinherited

The current element.

◆ elementIsGhost()

bool Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::elementIsGhost ( ) const
inlineinherited

Returns if element is a ghost entity.

◆ elemFluxVarsCache() [1/2]

ElementFluxVariablesCache & Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::elemFluxVarsCache ( )
inlineinherited

The element flux variables cache.

◆ elemFluxVarsCache() [2/2]

const ElementFluxVariablesCache & Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::elemFluxVarsCache ( ) const
inlineinherited

The element flux variables cache.

◆ enforceInternalDirichletConstraints() [1/2]

void Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::enforceInternalDirichletConstraints ( const ApplyFunction &  applyDirichlet)
inlineinherited

Enforces Dirichlet constraints if enabled in the problem.

◆ enforceInternalDirichletConstraints() [2/2]

void Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::enforceInternalDirichletConstraints ( const ApplyFunction &  applyDirichlet)
inlineinherited

◆ evalLocalFluxAndSourceResidual() [1/2]

ElementResidualVector Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::evalLocalFluxAndSourceResidual ( ) const
inlineinherited

Convenience function to evaluate the flux and source terms (i.e, the terms without a time derivative) of the local residual for the current element. Automatically chooses the the appropriate element volume variables.

◆ evalLocalFluxAndSourceResidual() [2/2]

ElementResidualVector Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::evalLocalFluxAndSourceResidual ( const ElementVolumeVariables &  elemVolVars) const
inlineinherited

Evaluates the flux and source terms (i.e, the terms without a time derivative) of the local residual for the current element.

Parameters
elemVolVarsThe element volume variables

◆ evalLocalFluxAndSourceResidualForCellCenter() [1/2]

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
CellCenterResidualValue Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::evalLocalFluxAndSourceResidualForCellCenter ( ) const
inlineinherited

Convenience function to evaluate the flux and source terms (i.e, the terms without a time derivative) of the local residual for the current element. Automatically chooses the the appropriate element volume and face variables.

◆ evalLocalFluxAndSourceResidualForCellCenter() [2/2]

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
CellCenterResidualValue Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::evalLocalFluxAndSourceResidualForCellCenter ( const ElementVolumeVariables &  elemVolVars,
const ElementFaceVariables &  elemFaceVars 
) const
inlineinherited

Evaluates the flux and source terms (i.e, the terms without a time derivative) of the local residual for the current element.

Parameters
elemVolVarsThe element volume variables
elemFaceVarsThe element face variables

◆ evalLocalFluxAndSourceResidualForFace() [1/2]

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
FaceResidualValue Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::evalLocalFluxAndSourceResidualForFace ( const SubControlVolumeFace &  scvf) const
inlineinherited

Convenience function to evaluate the flux and source terms (i.e, the terms without a time derivative) of the local residual for the current element. Automatically chooses the the appropriate element volume and face variables.

Parameters
scvfThe sub control volume face

◆ evalLocalFluxAndSourceResidualForFace() [2/2]

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
FaceResidualValue Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::evalLocalFluxAndSourceResidualForFace ( const SubControlVolumeFace &  scvf,
const ElementVolumeVariables &  elemVolVars,
const ElementFaceVariables &  elemFaceVars 
) const
inlineinherited

Evaluates the flux and source terms (i.e, the terms without a time derivative) of the local residual for the current face.

Parameters
scvfThe sub control volume face
elemVolVarsThe element volume variables
elemFaceVarsThe element face variables

◆ evalLocalResidual() [1/2]

ElementResidualVector Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::evalLocalResidual ( ) const
inlineinherited

Convenience function to evaluate the complete local residual for the current element. Automatically chooses the the appropriate element volume variables.

◆ evalLocalResidual() [2/2]

ElementResidualVector Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::evalLocalResidual ( const ElementVolumeVariables &  elemVolVars) const
inlineinherited

Evaluates the complete local residual for the current element.

Parameters
elemVolVarsThe element volume variables

◆ evalLocalResidualForCellCenter() [1/2]

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
CellCenterResidualValue Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::evalLocalResidualForCellCenter ( ) const
inlineinherited

Convenience function to evaluate the complete local residual for the current element. Automatically chooses the the appropriate element volume variables.

◆ evalLocalResidualForCellCenter() [2/2]

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
CellCenterResidualValue Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::evalLocalResidualForCellCenter ( const ElementVolumeVariables &  elemVolVars,
const ElementFaceVariables &  elemFaceVars 
) const
inlineinherited

Evaluates the complete local residual for the current cell center.

Parameters
elemVolVarsThe element volume variables
elemFaceVarsThe element face variables

◆ evalLocalResidualForFace() [1/2]

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
FaceResidualValue Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::evalLocalResidualForFace ( const SubControlVolumeFace &  scvf) const
inlineinherited

Convenience function to evaluate the local residual for the current face. Automatically chooses the the appropriate element volume and face variables.

Parameters
scvfThe sub control volume face

◆ evalLocalResidualForFace() [2/2]

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
FaceResidualValue Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::evalLocalResidualForFace ( const SubControlVolumeFace &  scvf,
const ElementVolumeVariables &  elemVolVars,
const ElementFaceVariables &  elemFaceVars 
) const
inlineinherited

Evaluates the complete local residual for the current face.

Parameters
scvfThe sub control volume face
elemVolVarsThe element volume variables
elemFaceVarsThe element face variables

◆ evalLocalStorageResidual()

ElementResidualVector Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::evalLocalStorageResidual ( ) const
inlineinherited

Convenience function to evaluate storage term (i.e, the term with a time derivative) of the local residual for the current element. Automatically chooses the the appropriate element volume variables.

◆ evalLocalStorageResidualForCellCenter()

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
CellCenterResidualValue Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::evalLocalStorageResidualForCellCenter ( ) const
inlineinherited

Convenience function to evaluate storage term (i.e, the term with a time derivative) of the local residual for the current element. Automatically chooses the the appropriate element volume and face variables.

◆ evalLocalStorageResidualForFace()

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
FaceResidualValue Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::evalLocalStorageResidualForFace ( const SubControlVolumeFace &  scvf) const
inlineinherited

Convenience function to evaluate storage term (i.e, the term with a time derivative) of the local residual for the current face. Automatically chooses the the appropriate element volume and face variables.

Parameters
scvfThe sub control volume face

◆ fvGeometry() [1/2]

FVElementGeometry & Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::fvGeometry ( )
inlineinherited

The global finite volume geometry.

◆ fvGeometry() [2/2]

const FVElementGeometry & Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::fvGeometry ( ) const
inlineinherited

The finite volume geometry.

◆ getVolVarAccess() [1/2]

VolumeVariables & Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::getVolVarAccess ( GridVolumeVariables &  gridVolVars,
ElementVolumeVariables &  elemVolVars,
const SubControlVolume &  scv 
)
inlineprotectedinherited

◆ getVolVarAccess() [2/2]

VolumeVariables & Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::getVolVarAccess ( GridVolumeVariables &  gridVolVars,
ElementVolumeVariables &  elemVolVars,
const SubControlVolume &  scv 
)
inlineprotectedinherited

◆ isImplicit()

static constexpr bool Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::isImplicit ( )
inlinestaticconstexprinherited

Returns true if the assembler considers implicit assembly.

◆ localResidual() [1/2]

LocalResidual & Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::localResidual ( )
inlineinherited

The local residual for the current element.

◆ localResidual() [2/2]

const LocalResidual & Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::localResidual ( ) const
inlineinherited

The local residual for the current element.

◆ prevElemFaceVars() [1/2]

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
ElementFaceVariables & Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::prevElemFaceVars ( )
inlineinherited

The element volume variables of the provious time step.

◆ prevElemFaceVars() [2/2]

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
const ElementFaceVariables & Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::prevElemFaceVars ( ) const
inlineinherited

The element volume variables of the provious time step.

◆ prevElemVolVars() [1/2]

ElementVolumeVariables & Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::prevElemVolVars ( )
inlineinherited

The element volume variables of the provious time step.

◆ prevElemVolVars() [2/2]

const ElementVolumeVariables & Dumux::FVLocalAssemblerBase< TypeTag, Assembler, Implementation, useImplicitAssembly >::prevElemVolVars ( ) const
inlineinherited

The element volume variables of the provious time step.

◆ problem()

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
const Problem & Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::problem ( ) const
inlineinherited

Member Data Documentation

◆ cellCenterId

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
constexpr auto Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::cellCenterId = GridGeometry::cellCenterIdx()
staticconstexprinherited

◆ faceId

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
constexpr auto Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::faceId = GridGeometry::faceIdx()
staticconstexprinherited

◆ faceOffset

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
constexpr auto Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::faceOffset = numEqCellCenter
staticconstexprinherited

◆ numEqCellCenter

template<std::size_t id, class TypeTag , class Assembler , class Implementation , bool isImplicit = true>
constexpr auto Dumux::SubDomainStaggeredLocalAssemblerBase< id, TypeTag, Assembler, Implementation, isImplicit >::numEqCellCenter = CellCenterResidualValue::dimension
staticconstexprinherited

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