Dumux::DarcyDarcyBoundaryCouplingManager< MDTraits > Class Template Reference

Coupling manager for equal-dimension boundary coupling of darcy models. More...

#include <dumux/multidomain/boundary/darcydarcy/couplingmanager.hh>

Inheritance diagram for Dumux::DarcyDarcyBoundaryCouplingManager< MDTraits >:

Description

template<class MDTraits>
class Dumux::DarcyDarcyBoundaryCouplingManager< MDTraits >

Coupling manager for equal-dimension boundary coupling of darcy models.

Public Types
using	MultiDomainTraits = MDTraits
	export traits More...
using	CouplingStencils = std::unordered_map< std::size_t, CouplingStencil >
	export stencil types More...
using	CouplingStencilType = std::vector< std::size_t >
	default type used for coupling element stencils More...

Public Member Functions
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...
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...
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...
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...
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...
member functions concerning the coupling stencils
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...

member functions concerning variable caching for element residual evaluations
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...
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...
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...
void	updateSolution (const SolutionVector &curSol)
	Updates the entire solution vector, e.g. before assembly or after grid adaption. More...
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...
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...
decltype(auto)	numericEpsilon (Dune::index_constant< i >, const std::string &paramGroup) const
	return the numeric epsilon used for deflecting primary variables of coupled domain i More...
void	setSubProblems (const std::tuple< std::shared_ptr< SubProblems >... > &problems)
	set the pointers to the sub problems More...
void	setSubProblem (std::shared_ptr< SubProblem > problem, Dune::index_constant< i > domainIdx)
	set a pointer to one of the sub problems More...
const Problem< i > &	problem (Dune::index_constant< i > domainIdx) const
	Return a reference to the sub problem. More...
SolutionVector &	curSol ()
	the solution vector of the coupled problem More...
const SolutionVector &	curSol () const
	the solution vector of the coupled problem More...

Member Typedef Documentation

CouplingStencils

template<class MDTraits >

using Dumux::DarcyDarcyBoundaryCouplingManager< MDTraits >::CouplingStencils = std::unordered_map<std::size_t, CouplingStencil>

export stencil types

CouplingStencilType

using Dumux::CouplingManager< MDTraits >::CouplingStencilType = std::vector<std::size_t>

inherited

default type used for coupling element stencils

MultiDomainTraits

template<class MDTraits >

using Dumux::DarcyDarcyBoundaryCouplingManager< MDTraits >::MultiDomainTraits = MDTraits

export traits

Member Function Documentation

advectiveFluxCoupling()

template<class MDTraits >

template<std::size_t i>

Scalar Dumux::DarcyDarcyBoundaryCouplingManager< MDTraits >::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

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

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

bindCouplingContext()

void Dumux::CouplingManager< MDTraits >::bindCouplingContext ( Dune::index_constant< i >  domainI, const Element< i > &  elementI, const Assembler &  assembler  )

inlineinherited

prepares all data and variables that are necessary to evaluate the residual of the element of domain i

Parameters

domainI	the domain index of domain i
elementI	the element whose residual we are assemling next
assembler	the multidomain assembler for access to all data necessary for the assembly of all domains

Note

this concerns all data that is used in the evaluation of the element residual and depends on one of the degrees of freedom returned by CouplingManager::couplingStencil

every coupled element residual depends at least on the solution of another domain, that why we always store a copy of the solution vector in the coupling manager, hence, in case the element residual only depends on primary variables of the other domain this function does nothing

overload this function in case the element residual depends on more than the primary variables of domain j

couplingStencil()

template<class MDTraits >

template<std::size_t i, std::size_t j>

const CouplingStencil & Dumux::DarcyDarcyBoundaryCouplingManager< MDTraits >::couplingStencil ( Dune::index_constant< i >  domainI, const Element< i > &  element, Dune::index_constant< j >  domainJ  ) const

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

domainI	the domain index of domain i
element	the coupled element of domain í
domainJ	the domain index of domain j

curSol() [1/2]

SolutionVector & Dumux::CouplingManager< MDTraits >::curSol ( )

inlineprotectedinherited

the solution vector of the coupled problem

Note

in case of numeric differentiation the solution vector always carries the deflected solution

curSol() [2/2]

const SolutionVector & Dumux::CouplingManager< MDTraits >::curSol ( ) const

inlineprotectedinherited

the solution vector of the coupled problem

Note

in case of numeric differentiation the solution vector always carries the deflected solution

evalAdditionalDomainDerivatives()

void Dumux::CouplingManager< MDTraits >::evalAdditionalDomainDerivatives ( Dune::index_constant< i >  domainI, const LocalAssemblerI &  localAssemblerI, const typename LocalAssemblerI::LocalResidual::ElementResidualVector &  origResiduals, JacobianMatrixDiagBlock &  A, GridVariables &  gridVariables  )

inlineinherited

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)

Note

Such additional dependencies can arise from the coupling, e.g. if a coupling source term depends on a non-local average of a quantity of the same domain

evalCouplingResidual()

decltype(auto) Dumux::CouplingManager< MDTraits >::evalCouplingResidual ( Dune::index_constant< i >  domainI, const LocalAssemblerI &  localAssemblerI, Dune::index_constant< j >  domainJ, std::size_t  dofIdxGlobalJ  ) const

inlineinherited

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

Parameters

domainI	the domain index of domain i
localAssemblerI	the local assembler assembling the element residual of an element of domain i
domainJ	the domain index of domain j
dofIdxGlobalJ	the index of the degree of freedom of domain j which has an influence on the element residual of domain i

Note

the element whose residual is to be evaluated can be retrieved from the local assembler as localAssemblerI.element() as well as all up-to-date variables and caches.

the default implementation evaluates the complete element residual if only parts (i.e. only certain scvs, or only certain terms of the residual) of the residual are coupled to dof with index dofIdxGlobalJ the function can be overloaded in the coupling manager

Returns

the element residual

extendJacobianPattern()

void Dumux::CouplingManager< MDTraits >::extendJacobianPattern ( Dune::index_constant< id >  domainI, JacobianPattern &  pattern  ) const

inlineinherited

extend the jacobian pattern of the diagonal block of domain i by those entries that are not already in the uncoupled pattern

Note

per default we do not add such additional dependencies

Such additional dependencies can arise from the coupling, e.g. if a coupling source term depends on a non-local average of a quantity of the same domain

Warning List:

if you overload this also implement evalAdditionalDomainDerivatives

init()

template<class MDTraits >

void Dumux::DarcyDarcyBoundaryCouplingManager< MDTraits >::init ( std::shared_ptr< Problem< domainIdx< 0 >()> >  problem0, std::shared_ptr< Problem< domainIdx< 1 >()> >  problem1, const SolutionVector &  curSol  )

inline

Methods to be accessed by main.

isCoupled()

template<class MDTraits >

template<std::size_t i>

bool Dumux::DarcyDarcyBoundaryCouplingManager< MDTraits >::isCoupled ( Dune::index_constant< i >  domainI, const SubControlVolumeFace< i > &  scvf  ) const

inline

If the boundary entity is on a coupling boundary.

Parameters

domainI	the domain index for which to compute the flux
scvf	the sub control volume face

numericEpsilon()

decltype(auto) Dumux::CouplingManager< MDTraits >::numericEpsilon ( Dune::index_constant< i >  , const std::string &  paramGroup  ) const

inlineinherited

return the numeric epsilon used for deflecting primary variables of coupled domain i

problem()

const Problem< i > & Dumux::CouplingManager< MDTraits >::problem ( Dune::index_constant< i >  domainIdx ) const

inlineinherited

Return a reference to the sub problem.

Parameters

domainIdx

The domain index

setSubProblem()

void Dumux::CouplingManager< MDTraits >::setSubProblem ( std::shared_ptr< SubProblem >  problem, Dune::index_constant< i >  domainIdx  )

inlineinherited

set a pointer to one of the sub problems

Parameters

problem	a pointer to the sub problem
domainIdx	the domain index of the sub problem

setSubProblems()

void Dumux::CouplingManager< MDTraits >::setSubProblems ( const std::tuple< std::shared_ptr< SubProblems >... > &  problems )

inlineinherited

set the pointers to the sub problems

Parameters

problems

A tuple of shared pointers to the sub problems

updateCoupledVariables()

void Dumux::CouplingManager< MDTraits >::updateCoupledVariables ( Dune::index_constant< i >  domainI, const LocalAssemblerI &  localAssemblerI, UpdatableElementVolVars &  elemVolVars, UpdatableFluxVarCache &  elemFluxVarsCache  )

inlineinherited

update variables of domain i that depend on variables in domain j after the coupling context has been updated

Parameters

domainI	the index of domain i
localAssemblerI	the local assembler assembling the element residual of an element of domain i
elemVolVars	the element volume variables (all volume variables in the element local stencil) to be updated
elemFluxVarsCache	the element flux variable cache (all flux variables in the element local stencil) to be updated

Note

Such variables do not necessarily exist and then this function does nothing (default)

some examples from geomechanics: the porosity of (physical) domain i (porous medium flow) depends on the displacement vector of physical domain j (mechnanics) from domaindecomposition: the transmissibilities for fluxes of domain i to domain j depend on the permeability in domain j (which might depend in turn on the primary variables of domain i)

updateCouplingContext()

void Dumux::CouplingManager< MDTraits >::updateCouplingContext ( Dune::index_constant< i >  domainI, const LocalAssemblerI &  localAssemblerI, Dune::index_constant< j >  domainJ, std::size_t  dofIdxGlobalJ, const PrimaryVariables< j > &  priVarsJ, int  pvIdxJ  )

inlineinherited

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

Parameters

domainI	the domain index of domain i
localAssemblerI	the local assembler assembling the element residual of an element of domain i
domainJ	the domain index of domain j
dofIdxGlobalJ	the index of the degree of freedom of domain j whose solution changed
priVarsJ	the new solution at the degree of freedom of domain j with index dofIdxGlobalJ
pvIdxJ	the index of the primary variable of domain j which has been updated

Note

this concerns all data that is used in the evaluation of the element residual and depends on the primary variables at the degree of freedom location with index dofIdxGlobalJ

the element whose residual is to be evaluated can be retrieved from the local assembler as localAssemblerI.element()

per default, we udpate the solution vector, if the element residual of domain i depends on more than the primary variables of domain j update the other dependent data here by overloading this function

updateSolution()

void Dumux::CouplingManager< MDTraits >::updateSolution ( const SolutionVector &  curSol )

inlineinherited

Updates the entire solution vector, e.g. before assembly or after grid adaption.

volVars()

template<class MDTraits >

template<std::size_t i>

VolumeVariables< i > Dumux::DarcyDarcyBoundaryCouplingManager< MDTraits >::volVars ( Dune::index_constant< i >  domainI, const Element< i > &  element, const SubControlVolume< i > &  scv  ) const

inline

Return the volume variables of domain i for a given element and scv.

---

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

• multidomain/boundary/darcydarcy/couplingmanager.hh