13#ifndef DUMUX_MULTIDOMAIN_BOUNDARY_FREEFLOW_PORENETWORK_COUPLINGMANAGER_HH
14#define DUMUX_MULTIDOMAIN_BOUNDARY_FREEFLOW_PORENETWORK_COUPLINGMANAGER_HH
19#include <dune/common/indices.hh>
46 auto map = std::array<std::array<std::size_t, 3>, 3>{};
63template<std::
size_t i>
74template<std::
size_t i, std::
size_t j>
77 static_assert(i <= 2 && j <= 2);
78 static_assert(i != j);
81 return std::pair<Dune::index_constant<0>, Dune::index_constant<1>>{};
83 return std::pair<Dune::index_constant<1>, Dune::index_constant<0>>{};
93 template<std::
size_t i, std::
size_t j>
94 static constexpr auto globalToLocal(Dune::index_constant<i> domainI, Dune::index_constant<j> domainJ)
99 template<std::
size_t i>
106template<
class MDTraits>
109 template<std::
size_t id>
138template<
class MDTraits>
142 FreeFlowPoreNetworkDetail::CouplingMaps,
143 typename FreeFlowPoreNetworkDetail::CouplingManagers<MDTraits>::FreeFlowCouplingManager,
144 typename FreeFlowPoreNetworkDetail::CouplingManagers<MDTraits>::FreeFlowMomentumPoreNetworkCouplingManager,
145 typename FreeFlowPoreNetworkDetail::CouplingManagers<MDTraits>::FreeFlowMassPoreNetworkCouplingManager
158 using Scalar =
typename MDTraits::Scalar;
161 template<std::
size_t id>
162 using SubDomainTypeTag =
typename MDTraits::template SubDomain<id>::TypeTag;
166 template<std::
size_t id>
using FVElementGeometry =
typename GridGeometry<id>::LocalView;
167 template<std::
size_t id>
using SubControlVolumeFace =
typename FVElementGeometry<id>::SubControlVolumeFace;
168 template<std::
size_t id>
using SubControlVolume =
typename FVElementGeometry<id>::SubControlVolume;
170 template<std::
size_t id>
using NumEqVector =
typename Problem<id>::Traits::NumEqVector;
172 template<std::
size_t id>
using GridView =
typename GridGeometry<id>::GridView;
173 template<std::
size_t id>
using Element =
typename GridView<id>::template Codim<0>::Entity;
174 using SolutionVector =
typename MDTraits::SolutionVector;
176 template<std::
size_t id>
177 using SubSolutionVector
178 = std::decay_t<decltype(std::declval<SolutionVector>()[Dune::index_constant<id>()])>;
185 template<std::
size_t i, std::
size_t j>
193 using ParentType::ParentType;
195 template<
class Gr
idVarsTuple>
196 void init(std::shared_ptr<Problem<freeFlowMomentumIndex>> freeFlowMomentumProblem,
197 std::shared_ptr<Problem<freeFlowMassIndex>> freeFlowMassProblem,
198 std::shared_ptr<Problem<poreNetworkIndex>> poreNetworkProblem,
199 GridVarsTuple&& gridVarsTuple,
200 const SolutionVector&
curSol)
203 this->init_(freeFlowMomentumProblem, freeFlowMassProblem, poreNetworkProblem, std::forward<GridVarsTuple>(gridVarsTuple),
curSol);
208 freeFlowMomentumProblem, freeFlowMassProblem,
209 std::make_tuple(std::get<freeFlowMomentumIndex>(gridVarsTuple), std::get<freeFlowMassIndex>(gridVarsTuple)),
210 FFSol{ std::get<freeFlowMomentumIndex>(this->
curSol()), std::get<freeFlowMassIndex>(this->
curSol()) }
214 template<
class Gr
idVarsTuple>
215 void init(std::shared_ptr<Problem<freeFlowMomentumIndex>> freeFlowMomentumProblem,
216 std::shared_ptr<Problem<freeFlowMassIndex>> freeFlowMassProblem,
217 std::shared_ptr<Problem<poreNetworkIndex>> poreNetworkProblem,
218 GridVarsTuple&& gridVarsTuple,
219 const SolutionVector&
curSol,
220 const SolutionVector& prevSol)
223 this->init_(freeFlowMomentumProblem, freeFlowMassProblem, poreNetworkProblem, std::forward<GridVarsTuple>(gridVarsTuple),
curSol);
226 using FFPrevSol = std::tuple<const SubSolutionVector<freeFlowMomentumIndex>*,
const SubSolutionVector<freeFlowMassIndex>*>;
228 freeFlowMomentumProblem, freeFlowMassProblem,
229 std::make_tuple(std::get<freeFlowMomentumIndex>(gridVarsTuple), std::get<freeFlowMassIndex>(gridVarsTuple)),
230 FFSol{ std::get<freeFlowMomentumIndex>(this->
curSol()), std::get<freeFlowMassIndex>(this->
curSol()) },
239 Dune::index_constant<freeFlowMassIndex> domainJ,
240 const FVElementGeometry<poreNetworkIndex>& fvGeometry,
241 const typename FVElementGeometry<poreNetworkIndex>::SubControlVolume& scv,
242 const ElementVolumeVariables<poreNetworkIndex>& elemVolVars)
const
244 const auto& couplingContext = this->
subApply(domainI, domainJ, [&](
const auto& cm,
auto&& ii,
auto&& jj) ->
const auto& {
245 return cm.couplingContext(ii, fvGeometry, scv);
248 const auto& freeFlowMassGridGeometry = this->
subApply(domainI, domainJ, [&](
const auto& cm,
auto&& ii,
auto&& jj) ->
const auto& {
249 return cm.problem(jj).gridGeometry();
252 for (
auto& c : couplingContext)
254 const auto& freeFlowElement = freeFlowMassGridGeometry.element(c.scv.elementIndex());
258 return CouplingConditions::massCouplingCondition(domainI, domainJ, fvGeometry, scv, elemVolVars, couplingContext);
265 Dune::index_constant<poreNetworkIndex> domainJ,
266 const FVElementGeometry<freeFlowMassIndex>& fvGeometry,
267 const typename FVElementGeometry<freeFlowMassIndex>::SubControlVolumeFace& scvf,
268 const ElementVolumeVariables<freeFlowMassIndex>& elemVolVars)
const
270 const auto& couplingContext = this->
subApply(domainI, domainJ, [&](
const auto& cm,
auto&& ii,
auto&& jj) ->
const auto& {
271 return cm.couplingContext(ii, fvGeometry, scvf);
275 return CouplingConditions::massCouplingCondition(domainI, domainJ, fvGeometry, scvf, elemVolVars, couplingContext);
282 Dune::index_constant<freeFlowMassIndex> domainJ,
283 const FVElementGeometry<poreNetworkIndex>& fvGeometry,
284 const typename FVElementGeometry<poreNetworkIndex>::SubControlVolume& scv,
285 const ElementVolumeVariables<poreNetworkIndex>& elemVolVars)
const
287 const auto& couplingContext = this->
subApply(domainI, domainJ, [&](
const auto& cm,
auto&& ii,
auto&& jj) ->
const auto& {
288 return cm.couplingContext(ii, fvGeometry, scv);
291 const auto& freeFlowMassGridGeometry = this->
subApply(domainI, domainJ, [&](
const auto& cm,
auto&& ii,
auto&& jj) ->
const auto& {
292 return cm.problem(jj).gridGeometry();
295 for (
auto& c : couplingContext)
297 const auto& freeFlowElement = freeFlowMassGridGeometry.element(c.scv.elementIndex());
301 return CouplingConditions::energyCouplingCondition(domainI, domainJ, fvGeometry, scv, elemVolVars, couplingContext);
308 Dune::index_constant<poreNetworkIndex> domainJ,
309 const FVElementGeometry<freeFlowMassIndex>& fvGeometry,
310 const typename FVElementGeometry<freeFlowMassIndex>::SubControlVolumeFace& scvf,
311 const ElementVolumeVariables<freeFlowMassIndex>& elemVolVars)
const
313 const auto& couplingContext = this->
subApply(domainI, domainJ, [&](
const auto& cm,
auto&& ii,
auto&& jj) ->
const auto& {
314 return cm.couplingContext(ii, fvGeometry, scvf);
318 return CouplingConditions::energyCouplingCondition(domainI, domainJ, fvGeometry, scvf, elemVolVars, couplingContext);
325 Dune::index_constant<poreNetworkIndex> domainJ,
326 const FVElementGeometry<freeFlowMomentumIndex>& fvGeometry,
327 const typename FVElementGeometry<freeFlowMomentumIndex>::SubControlVolumeFace& scvf,
328 const ElementVolumeVariables<freeFlowMomentumIndex>& elemVolVars)
const
330 if (scvf.isLateral())
331 return NumEqVector<freeFlowMomentumIndex>(0.0);
337 return CouplingConditions::momentumCouplingCondition(fvGeometry, scvf, elemVolVars, context);
341 const typename FVElementGeometry<freeFlowMomentumIndex>::SubControlVolumeFace& scvf)
const
347 const auto& pnmScv = [&]
349 for (
const auto& scv : scvs(context.fvGeometry))
350 if (scv.dofIndex() == context.poreNetworkDofIdx)
353 DUNE_THROW(Dune::InvalidStateException,
"No scv found");
356 return context.elemVolVars[pnmScv].poreInscribedRadius();
360 const typename FVElementGeometry<freeFlowMomentumIndex>::SubControlVolumeFace& scvf)
const
366 return CouplingConditions::interfaceThroatVelocity(fvGeometry, scvf, context);
375 Scalar
pressure(
const Element<freeFlowMomentumIndex>& element,
376 const FVElementGeometry<freeFlowMomentumIndex>& fvGeometry,
377 const SubControlVolumeFace<freeFlowMomentumIndex>& scvf)
const
380 element, fvGeometry, scvf
390 Scalar
cellPressure(
const Element<freeFlowMomentumIndex>& element,
391 const SubControlVolumeFace<freeFlowMomentumIndex>& scvf)
const
401 Scalar
density(
const Element<freeFlowMomentumIndex>& element,
402 const FVElementGeometry<freeFlowMomentumIndex>& fvGeometry,
403 const SubControlVolumeFace<freeFlowMomentumIndex>& scvf,
404 const bool considerPreviousTimeStep =
false)
const
407 element, fvGeometry, scvf, considerPreviousTimeStep
412 const FVElementGeometry<freeFlowMomentumIndex>& fvGeometry,
413 const SubControlVolumeFace<freeFlowMomentumIndex>& scvf,
414 const bool considerPreviousTimeStep =
false)
const
417 element, fvGeometry, scvf, considerPreviousTimeStep
424 Scalar
density(
const Element<freeFlowMomentumIndex>& element,
425 const SubControlVolume<freeFlowMomentumIndex>& scv,
426 const bool considerPreviousTimeStep =
false)
const
429 element, scv, considerPreviousTimeStep
437 const FVElementGeometry<freeFlowMomentumIndex>& fvGeometry,
438 const SubControlVolumeFace<freeFlowMomentumIndex>& scvf)
const
441 element, fvGeometry, scvf
448 auto faceVelocity(
const Element<freeFlowMassIndex>& element,
449 const SubControlVolumeFace<freeFlowMassIndex>& scvf)
const
456 template<std::
size_t i>
457 const Problem<i>&
problem(Dune::index_constant<i> domainI)
const
459 return this->
subApply(domainI, [&](
const auto& cm,
auto&& ii) ->
const auto& {
460 return cm.problem(ii);
464 template<std::
size_t i, std::
size_t j>
465 bool isCoupled(Dune::index_constant<i> domainI,
466 Dune::index_constant<j> domainJ,
467 const SubControlVolumeFace<i>& scvf)
const
469 return this->
subApply(domainI, domainJ, [&](
const auto& cm,
auto&& ii,
auto&& jj){
470 return cm.isCoupled(ii, scvf);
480 template<std::
size_t i, std::
size_t j>
481 bool isCoupled(Dune::index_constant<i> domainI,
482 Dune::index_constant<j> domainJ,
483 const SubControlVolume<i>& scv)
const
485 return this->
subApply(domainI, domainJ, [&](
const auto& cm,
auto&& ii,
auto&& jj){
486 return cm.isCoupled(ii, scv);
500 template<std::
size_t j>
501 const auto&
couplingStencil(Dune::index_constant<freeFlowMomentumIndex> domainI,
502 const Element<freeFlowMomentumIndex>& elementI,
503 const SubControlVolume<freeFlowMomentumIndex>& scvI,
504 Dune::index_constant<j> domainJ)
const
507 return this->
subApply(domainI, domainJ, [&](
const auto& cm,
auto&& ii,
auto&& jj) ->
const auto& {
508 return cm.couplingStencil(ii, elementI, scvI, jj);
516 template<
class Gr
idVarsTuple>
517 void init_(std::shared_ptr<Problem<freeFlowMomentumIndex>> freeFlowMomentumProblem,
518 std::shared_ptr<Problem<freeFlowMassIndex>> freeFlowMassProblem,
519 std::shared_ptr<Problem<poreNetworkIndex>> poreNetworkProblem,
520 GridVarsTuple&& gridVarsTuple,
521 const SolutionVector&
curSol)
525 auto couplingMapper = std::make_shared<CouplingMapper>();
526 couplingMapper->update(freeFlowMomentumProblem->gridGeometry(),
527 freeFlowMassProblem->gridGeometry(),
528 poreNetworkProblem->gridGeometry()
532 using FFMassPNMSol =
typename SubCouplingManager<freeFlowMassIndex, poreNetworkIndex>::SolutionVectorStorage;
534 freeFlowMassProblem, poreNetworkProblem, couplingMapper,
535 FFMassPNMSol{ std::get<freeFlowMassIndex>(this->
curSol()), std::get<poreNetworkIndex>(this->
curSol()) }
538 using FFMomPNMSol =
typename SubCouplingManager<freeFlowMomentumIndex, poreNetworkIndex>::SolutionVectorStorage;
540 freeFlowMomentumProblem, poreNetworkProblem,
541 std::make_tuple(std::get<freeFlowMomentumIndex>(gridVarsTuple), std::get<poreNetworkIndex>(gridVarsTuple)),
542 couplingMapper, FFMomPNMSol{ std::get<freeFlowMomentumIndex>(this->
curSol()), std::get<poreNetworkIndex>(this->
curSol()) }
Coupling mapper for staggered free-flow and pore-network models.
Coupling manager for free-flow mass and pore-network models.
Definition multidomain/boundary/freeflowporenetwork/ffmassporenetwork/couplingmanager.hh:35
Coupling manager for free-flow momentum and pore-network models.
Definition multidomain/boundary/freeflowporenetwork/ffmomentumporenetwork/couplingmanager.hh:35
Coupling manager for coupling freeflow and pore-network models.
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:147
auto insideAndOutsideDensity(const Element< freeFlowMomentumIndex > &element, const FVElementGeometry< freeFlowMomentumIndex > &fvGeometry, const SubControlVolumeFace< freeFlowMomentumIndex > &scvf, const bool considerPreviousTimeStep=false) const
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:410
bool isCoupled(Dune::index_constant< i > domainI, Dune::index_constant< j > domainJ, const SubControlVolumeFace< i > &scvf) const
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:464
auto energyCouplingCondition(Dune::index_constant< poreNetworkIndex > domainI, Dune::index_constant< freeFlowMassIndex > domainJ, const FVElementGeometry< poreNetworkIndex > &fvGeometry, const typename FVElementGeometry< poreNetworkIndex >::SubControlVolume &scv, const ElementVolumeVariables< poreNetworkIndex > &elemVolVars) const
Returns the energy flux across the coupling boundary.
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:280
void init(std::shared_ptr< Problem< freeFlowMomentumIndex > > freeFlowMomentumProblem, std::shared_ptr< Problem< freeFlowMassIndex > > freeFlowMassProblem, std::shared_ptr< Problem< poreNetworkIndex > > poreNetworkProblem, GridVarsTuple &&gridVarsTuple, const SolutionVector &curSol)
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:195
static constexpr auto freeFlowMomentumIndex
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:187
Scalar density(const Element< freeFlowMomentumIndex > &element, const FVElementGeometry< freeFlowMomentumIndex > &fvGeometry, const SubControlVolumeFace< freeFlowMomentumIndex > &scvf, const bool considerPreviousTimeStep=false) const
Returns the density at a given sub control volume face.
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:400
Scalar effectiveViscosity(const Element< freeFlowMomentumIndex > &element, const FVElementGeometry< freeFlowMomentumIndex > &fvGeometry, const SubControlVolumeFace< freeFlowMomentumIndex > &scvf) const
Returns the pressure at a given sub control volume face.
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:435
auto massCouplingCondition(Dune::index_constant< poreNetworkIndex > domainI, Dune::index_constant< freeFlowMassIndex > domainJ, const FVElementGeometry< poreNetworkIndex > &fvGeometry, const typename FVElementGeometry< poreNetworkIndex >::SubControlVolume &scv, const ElementVolumeVariables< poreNetworkIndex > &elemVolVars) const
Returns the mass flux across the coupling boundary.
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:237
const auto & couplingStencil(Dune::index_constant< freeFlowMomentumIndex > domainI, const Element< freeFlowMomentumIndex > &elementI, const SubControlVolume< freeFlowMomentumIndex > &scvI, Dune::index_constant< j > domainJ) const
returns an iterable container of all indices of degrees of freedom of domain j that couple with / inf...
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:500
static constexpr auto freeFlowMassIndex
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:188
typename ParentType::template SubCouplingManager< i, j > SubCouplingManager
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:185
Scalar pressure(const Element< freeFlowMomentumIndex > &element, const FVElementGeometry< freeFlowMomentumIndex > &fvGeometry, const SubControlVolumeFace< freeFlowMomentumIndex > &scvf) const
Returns the pressure at a given sub control volume face.
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:374
const Problem< i > & problem(Dune::index_constant< i > domainI) const
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:456
Scalar cellPressure(const Element< freeFlowMomentumIndex > &element, const SubControlVolumeFace< freeFlowMomentumIndex > &scvf) const
Returns the pressure at the center of a sub control volume corresponding to a given sub control volum...
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:389
NumEqVector< freeFlowMomentumIndex > momentumCouplingCondition(Dune::index_constant< freeFlowMomentumIndex > domainI, Dune::index_constant< poreNetworkIndex > domainJ, const FVElementGeometry< freeFlowMomentumIndex > &fvGeometry, const typename FVElementGeometry< freeFlowMomentumIndex >::SubControlVolumeFace &scvf, const ElementVolumeVariables< freeFlowMomentumIndex > &elemVolVars) const
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:323
Scalar coupledPoreInscribedRadius(const FVElementGeometry< freeFlowMomentumIndex > &fvGeometry, const typename FVElementGeometry< freeFlowMomentumIndex >::SubControlVolumeFace &scvf) const
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:339
auto faceVelocity(const Element< freeFlowMassIndex > &element, const SubControlVolumeFace< freeFlowMassIndex > &scvf) const
Returns the velocity at a given sub control volume face.
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:447
auto interfaceThroatVelocity(const FVElementGeometry< freeFlowMomentumIndex > &fvGeometry, const typename FVElementGeometry< freeFlowMomentumIndex >::SubControlVolumeFace &scvf) const
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:358
static constexpr auto poreNetworkIndex
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:189
const auto & couplingStencil(Dune::index_constant< i > domainI, const Entity &entity, Dune::index_constant< j > domainJ) const
Return the coupling element stencil for a given bulk domain element.
Definition multibinarycouplingmanager.hh:203
MultiBinaryCouplingManager()
Definition multibinarycouplingmanager.hh:103
decltype(auto) subApply(Dune::index_constant< i > domainI, Dune::index_constant< j > domainJ, Apply &&apply)
Definition multibinarycouplingmanager.hh:137
auto & subCouplingManager(Dune::index_constant< i > domainI, Dune::index_constant< j > domainJ)
Definition multibinarycouplingmanager.hh:119
SolutionVectors & curSol()
Definition multibinarycouplingmanager.hh:370
void updateSolution(const typename MDTraits::SolutionVector &curSol)
Definition multibinarycouplingmanager.hh:178
Coupling mapper for staggered free-flow and pore-network models.
Definition boundary/freeflowporenetwork/couplingmapper.hh:42
Defines all properties used in Dumux.
Coupling conditions for the coupling of a pore-network model with a (Navier-)Stokes model (staggerd g...
FreeFlowPoreNetworkCouplingConditionsImplementation< MDTraits, CouplingManager, GetPropType< typename MDTraits::template SubDomain< 1 >::TypeTag, Properties::ModelTraits >::enableEnergyBalance(),(GetPropType< typename MDTraits::template SubDomain< 1 >::TypeTag, Properties::ModelTraits >::numFluidComponents() > 1) > FreeFlowPoreNetworkCouplingConditions
Coupling conditions for the coupling of a pore-network model with a (Navier-)Stokes model (staggerd g...
Definition freeflowporenetwork/couplingconditions.hh:40
typename Detail::FreeFlowCouplingManagerSelector< Traits >::type FreeFlowCouplingManager
The interface of the coupling manager for free flow systems.
Definition multidomain/freeflow/couplingmanager.hh:47
typename GetProp< TypeTag, Property >::type GetPropType
get the type alias defined in the property
Definition propertysystem.hh:296
Coupling manager that combines an arbitrary number of binary coupling manager (coupling two domains e...
Coupling manager for free-flow mass and pore-network models.
Coupling manager for free-flow momentum and pore-network models.
Freeflow coupling managers (Navier-Stokes mass-momentum coupling)
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:31
constexpr auto coupledDomains(Dune::index_constant< i > domainI)
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:64
constexpr auto globalToLocalDomainIndices(Dune::index_constant< i >, Dune::index_constant< j >)
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:75
static constexpr auto freeFlowMassIndex
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:35
static constexpr auto freeFlowMomentumIndex
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:34
static constexpr auto freeFlowMomentumToPoreNetworkIndex
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:40
static constexpr auto noCouplingIdx
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:42
static constexpr auto poreNetworkIndex
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:36
static constexpr auto freeFlowMassToFreeFlowMomentumIndex
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:39
constexpr auto makeCouplingManagerMap()
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:44
static constexpr auto freeFlowMassToPoreNetworkIndex
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:41
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:108
Dumux::FreeFlowCouplingManager< FreeFlowTraits > FreeFlowCouplingManager
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:124
MultiDomainTraits< SubDomainTypeTag< freeFlowMomentumIndex >, SubDomainTypeTag< poreNetworkIndex > > FreeFlowMomentumPoreNetworkTraits
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:116
Dumux::FreeFlowMomentumPoreNetworkCouplingManager< FreeFlowMomentumPoreNetworkTraits > FreeFlowMomentumPoreNetworkCouplingManager
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:125
Dumux::FreeFlowMassPoreNetworkCouplingManager< FreeFlowMassPoreNetworkTraits > FreeFlowMassPoreNetworkCouplingManager
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:126
MultiDomainTraits< SubDomainTypeTag< freeFlowMomentumIndex >, SubDomainTypeTag< freeFlowMassIndex > > FreeFlowTraits
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:112
typename MDTraits::template SubDomain< id >::TypeTag SubDomainTypeTag
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:110
MultiDomainTraits< SubDomainTypeTag< freeFlowMassIndex >, SubDomainTypeTag< poreNetworkIndex > > FreeFlowMassPoreNetworkTraits
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:120
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:87
static constexpr auto globalToLocal(Dune::index_constant< i > domainI, Dune::index_constant< j > domainJ)
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:94
static constexpr auto managerMap()
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:88
static constexpr auto coupledDomains(Dune::index_constant< i > domainI)
Definition multidomain/boundary/freeflowporenetwork/couplingmanager.hh:100
Definition multidomain/traits.hh:134