template<class MDTraits>
class Dumux::DarcyDarcyBoundaryCouplingManager< MDTraits >
Coupling manager for equal-dimension boundary coupling of darcy models.
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void | init (std::shared_ptr< Problem< domainIdx< 0 >()> > problem0, std::shared_ptr< Problem< domainIdx< 1 >()> > problem1, const SolutionVector &curSol) |
| Methods to be accessed by main. More...
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template<std::size_t i, std::size_t j> |
const CouplingStencil & | couplingStencil (Dune::index_constant< i > domainI, const Element< i > &element, Dune::index_constant< j > domainJ) const |
| Methods to be accessed by the assembly. More...
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template<std::size_t i> |
bool | isCoupled (Dune::index_constant< i > domainI, const SubControlVolumeFace< i > &scvf) const |
| If the boundary entity is on a coupling boundary. More...
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template<std::size_t i> |
Scalar | advectiveFluxCoupling (Dune::index_constant< i > domainI, const Element< i > &element, const FVElementGeometry< i > &fvGeometry, const ElementVolumeVariables< i > &elemVolVars, const SubControlVolumeFace< i > &scvf, int phaseIdx=0) const |
| Evaluate the boundary conditions for a coupled Neumann boundary segment. More...
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template<std::size_t i> |
VolumeVariables< i > | volVars (Dune::index_constant< i > domainI, const Element< i > &element, const SubControlVolume< i > &scv) const |
| Return the volume variables of domain i for a given element and scv. More...
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void | extendJacobianPattern (Dune::index_constant< id > domainI, JacobianPattern &pattern) const |
| extend the jacobian pattern of the diagonal block of domain i by those entries that are not already in the uncoupled pattern More...
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void | bindCouplingContext (Dune::index_constant< i > domainI, const Element< i > &elementI, const Assembler &assembler) |
| prepares all data and variables that are necessary to evaluate the residual of the element of domain i More...
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void | updateCouplingContext (Dune::index_constant< i > domainI, const LocalAssemblerI &localAssemblerI, Dune::index_constant< j > domainJ, std::size_t dofIdxGlobalJ, const PrimaryVariables< j > &priVarsJ, int pvIdxJ) |
| updates all data and variables that are necessary to evaluate the residual of the element of domain i this is called whenever one of the primary variables that the element residual depends on changes in domain j More...
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void | updateCoupledVariables (Dune::index_constant< i > domainI, const LocalAssemblerI &localAssemblerI, UpdatableElementVolVars &elemVolVars, UpdatableFluxVarCache &elemFluxVarsCache) |
| update variables of domain i that depend on variables in domain j after the coupling context has been updated More...
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void | updateSolution (const SolutionVector &curSol) |
| Updates the entire solution vector, e.g. before assembly or after grid adaption Overload might want to overload function if the solution vector is stored outside this class to make sure updates don't happen more than once. More...
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decltype(auto) | evalCouplingResidual (Dune::index_constant< i > domainI, const LocalAssemblerI &localAssemblerI, Dune::index_constant< j > domainJ, std::size_t dofIdxGlobalJ) const |
| evaluates the element residual of a coupled element of domain i which depends on the variables at the degree of freedom with index dofIdxGlobalJ of domain j More...
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void | evalAdditionalDomainDerivatives (Dune::index_constant< i > domainI, const LocalAssemblerI &localAssemblerI, const typename LocalAssemblerI::LocalResidual::ElementResidualVector &origResiduals, JacobianMatrixDiagBlock &A, GridVariables &gridVariables) |
| evaluate additional derivatives of the element residual of a domain with respect to dofs in the same domain that are not in the regular stencil (see CouplingManager::extendJacobianPattern) More...
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decltype(auto) | numericEpsilon (Dune::index_constant< i >, const std::string ¶mGroup) const |
| return the numeric epsilon used for deflecting primary variables of coupled domain i More...
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void | setSubProblems (const std::tuple< std::shared_ptr< SubProblems >... > &problems) |
| set the pointers to the sub problems More...
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void | setSubProblem (std::shared_ptr< SubProblem > problem, Dune::index_constant< i > domainIdx) |
| set a pointer to one of the sub problems More...
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const Problem< i > & | problem (Dune::index_constant< i > domainIdx) const |
| Return a reference to the sub problem. More...
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void | attachSolution (SolutionVectorStorage &curSol) |
| Attach a solution vector stored outside of this class. More...
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SubSolutionVector< i > & | curSol (Dune::index_constant< i > domainIdx) |
| the solution vector of the subproblem More...
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const SubSolutionVector< i > & | curSol (Dune::index_constant< i > domainIdx) const |
| the solution vector of the subproblem More...
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decltype(auto) | curSol () |
| the solution vector of the coupled problem More...
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decltype(auto) | curSol () const |
| the solution vector of the coupled problem More...
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template<class MDTraits >
template<std::size_t i>
Scalar Dumux::DarcyDarcyBoundaryCouplingManager< MDTraits >::advectiveFluxCoupling |
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Dune::index_constant< i > |
domainI, |
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const Element< i > & |
element, |
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const FVElementGeometry< i > & |
fvGeometry, |
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const ElementVolumeVariables< i > & |
elemVolVars, |
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const SubControlVolumeFace< i > & |
scvf, |
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int |
phaseIdx = 0 |
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inline |
Evaluate the boundary conditions for a coupled Neumann boundary segment.
This is the method for the case where the Neumann condition is potentially solution dependent
- Parameters
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domainI | the domain index for which to compute the flux |
element | The finite element |
fvGeometry | The finite-volume geometry |
elemVolVars | All volume variables for the element |
scvf | The sub control volume face |
phaseIdx | the phase for which to compute the flux |
Negative values mean influx. E.g. for the mass balance that would the mass flux in \( [ kg / (m^2 \cdot s)] \).
compute alpha := n^T*K*g
template<class MDTraits >
template<std::size_t i, std::size_t j>
const CouplingStencil & Dumux::DarcyDarcyBoundaryCouplingManager< MDTraits >::couplingStencil |
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Dune::index_constant< i > |
domainI, |
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const Element< i > & |
element, |
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Dune::index_constant< j > |
domainJ |
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inline |
Methods to be accessed by the assembly.
returns an iteratable container of all indices of degrees of freedom of domain j that couple with / influence the element residual of the given element of domain i
- Parameters
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domainI | the domain index of domain i |
element | the coupled element of domain í |
domainJ | the domain index of domain j |