A linear system assembler (residual and Jacobian) for finite volume schemes (box, tpfa, mpfa, ...) More...

#include <dumux/assembly/fvassembler.hh>

Description

template<class TypeTag, DiffMethod diffMethod, bool isImplicit = true>
class Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >

A linear system assembler (residual and Jacobian) for finite volume schemes (box, tpfa, mpfa, ...)

Template Parameters

TypeTag	The TypeTag
diffMethod	The differentiation method to residual compute derivatives
isImplicit	Specifies whether the time discretization is implicit or not not (i.e. explicit)

Public Types
using	Scalar = GetPropType< TypeTag, Properties::Scalar >

using	JacobianMatrix = GetPropType< TypeTag, Properties::JacobianMatrix >

using	GridGeometry = GridGeo

using	Problem = GetPropType< TypeTag, Properties::Problem >

using	GridVariables = GetPropType< TypeTag, Properties::GridVariables >

using	ResidualType = SolutionVector

Public Member Functions
	FVAssembler (std::shared_ptr< const Problem > problem, std::shared_ptr< const GridGeometry > gridGeometry, std::shared_ptr< GridVariables > gridVariables)
	The constructor for stationary problems. More...

	FVAssembler (std::shared_ptr< const Problem > problem, std::shared_ptr< const GridGeometry > gridGeometry, std::shared_ptr< GridVariables > gridVariables, std::shared_ptr< const TimeLoop > timeLoop, const SolutionVector &prevSol)
	The constructor for instationary problems. More...

template<class PartialReassembler = DefaultPartialReassembler>
void	assembleJacobianAndResidual (const SolutionVector &curSol, const PartialReassembler *partialReassembler=nullptr)
	Assembles the global Jacobian of the residual and the residual for the current solution. More...

void	assembleJacobian (const SolutionVector &curSol)
	Assembles only the global Jacobian of the residual. More...

void	assembleResidual (const SolutionVector &curSol)
	compute the residuals using the internal residual More...

void	assembleResidual (ResidualType &r, const SolutionVector &curSol) const
	assemble a residual r More...

Scalar	residualNorm (const SolutionVector &curSol) const
	compute the residual and return it's vector norm More...

void	setLinearSystem (std::shared_ptr< JacobianMatrix > A, std::shared_ptr< SolutionVector > r)
	Tells the assembler which jacobian and residual to use. This also resizes the containers to the required sizes and sets the sparsity pattern of the jacobian matrix. More...

void	setLinearSystem ()
	The version without arguments uses the default constructor to create the jacobian and residual objects in this assembler if you don't need them outside this class. More...

void	updateAfterGridAdaption ()
	Resizes jacobian and residual and recomputes colors. More...

std::size_t	numDofs () const
	Returns the number of degrees of freedom. More...

const Problem &	problem () const
	The problem. More...

const GridGeometry &	gridGeometry () const
	The global finite volume geometry. More...

const GridView &	gridView () const
	The gridview. More...

GridVariables &	gridVariables ()
	The global grid variables. More...

const GridVariables &	gridVariables () const
	The global grid variables. More...

JacobianMatrix &	jacobian ()
	The jacobian matrix. More...

SolutionVector &	residual ()
	The residual vector (rhs) More...

const SolutionVector &	prevSol () const
	The solution of the previous time step. More...

void	setTimeLoop (std::shared_ptr< const TimeLoop > timeLoop)
	Set time loop for instationary problems. More...

void	setPreviousSolution (const SolutionVector &u)
	Sets the solution from which to start the time integration. Has to be called prior to assembly for time-dependent problems. More...

bool	isStationaryProblem () const
	Whether we are assembling a stationary or instationary problem. More...

LocalResidual	localResidual () const
	Create a local residual object (used by the local assembler) More...

void	updateGridVariables (const SolutionVector &cursol)
	Update the grid variables. More...

void	resetTimeStep (const SolutionVector &cursol)
	Reset the gridVariables. More...

Member Typedef Documentation

◆ GridGeometry

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

using Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::GridGeometry = GridGeo

◆ GridVariables

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

using Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::GridVariables = GetPropType<TypeTag, Properties::GridVariables>

◆ JacobianMatrix

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

using Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::JacobianMatrix = GetPropType<TypeTag, Properties::JacobianMatrix>

◆ Problem

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

using Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::Problem = GetPropType<TypeTag, Properties::Problem>

◆ ResidualType

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

using Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::ResidualType = SolutionVector

◆ Scalar

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

using Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::Scalar = GetPropType<TypeTag, Properties::Scalar>

Constructor & Destructor Documentation

◆ FVAssembler() [1/2]

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::FVAssembler	(	std::shared_ptr< const Problem >	problem,
		std::shared_ptr< const GridGeometry >	gridGeometry,
		std::shared_ptr< GridVariables >	gridVariables
	)

inline

The constructor for stationary problems.

Note: the grid variables might be temporarily changed during assembly (if caching is enabled) it is however guaranteed that the state after assembly will be the same as before

◆ FVAssembler() [2/2]

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::FVAssembler	(	std::shared_ptr< const Problem >	problem,
		std::shared_ptr< const GridGeometry >	gridGeometry,
		std::shared_ptr< GridVariables >	gridVariables,
		std::shared_ptr< const TimeLoop >	timeLoop,
		const SolutionVector &	prevSol
	)

inline

The constructor for instationary problems.

Note: the grid variables might be temporarily changed during assembly (if caching is enabled) it is however guaranteed that the state after assembly will be the same as before

Member Function Documentation

◆ assembleJacobian()

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

void Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::assembleJacobian ( const SolutionVector & curSol )

inline

Assembles only the global Jacobian of the residual.

◆ assembleJacobianAndResidual()

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

template<class PartialReassembler = DefaultPartialReassembler>

void Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::assembleJacobianAndResidual	(	const SolutionVector &	curSol,
		const PartialReassembler *	partialReassembler = `nullptr`
	)

inline

Assembles the global Jacobian of the residual and the residual for the current solution.

◆ assembleResidual() [1/2]

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

void Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::assembleResidual ( const SolutionVector & curSol )

inline

compute the residuals using the internal residual

◆ assembleResidual() [2/2]

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

void Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::assembleResidual	(	ResidualType &	r,
		const SolutionVector &	curSol
	)		const

inline

assemble a residual r

◆ gridGeometry()

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

const GridGeometry & Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::gridGeometry ( ) const

inline

The global finite volume geometry.

◆ gridVariables() [1/2]

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

GridVariables & Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::gridVariables ( )

inline

The global grid variables.

◆ gridVariables() [2/2]

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

const GridVariables & Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::gridVariables ( ) const

inline

The global grid variables.

◆ gridView()

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

const GridView & Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::gridView ( ) const

inline

The gridview.

◆ isStationaryProblem()

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

bool Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::isStationaryProblem ( ) const

inline

Whether we are assembling a stationary or instationary problem.

◆ jacobian()

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

JacobianMatrix & Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::jacobian ( )

inline

The jacobian matrix.

◆ localResidual()

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

LocalResidual Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::localResidual ( ) const

inline

Create a local residual object (used by the local assembler)

◆ numDofs()

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

std::size_t Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::numDofs ( ) const

inline

Returns the number of degrees of freedom.

◆ prevSol()

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

const SolutionVector & Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::prevSol ( ) const

inline

The solution of the previous time step.

◆ problem()

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

const Problem & Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::problem ( ) const

inline

The problem.

◆ resetTimeStep()

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

void Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::resetTimeStep ( const SolutionVector & cursol )

inline

Reset the gridVariables.

◆ residual()

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

SolutionVector & Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::residual ( )

inline

The residual vector (rhs)

◆ residualNorm()

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

Scalar Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::residualNorm ( const SolutionVector & curSol ) const

inline

compute the residual and return it's vector norm

◆ setLinearSystem() [1/2]

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

void Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::setLinearSystem ( )

inline

The version without arguments uses the default constructor to create the jacobian and residual objects in this assembler if you don't need them outside this class.

◆ setLinearSystem() [2/2]

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

void Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::setLinearSystem	(	std::shared_ptr< JacobianMatrix >	A,
		std::shared_ptr< SolutionVector >	r
	)

inline

Tells the assembler which jacobian and residual to use. This also resizes the containers to the required sizes and sets the sparsity pattern of the jacobian matrix.

◆ setPreviousSolution()

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

void Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::setPreviousSolution ( const SolutionVector & u )

inline

Sets the solution from which to start the time integration. Has to be called prior to assembly for time-dependent problems.

◆ setTimeLoop()

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

void Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::setTimeLoop ( std::shared_ptr< const TimeLoop > timeLoop )

inline

Set time loop for instationary problems.

Note: calling this turns this into a stationary assembler

◆ updateAfterGridAdaption()

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

void Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::updateAfterGridAdaption ( )

inline

Resizes jacobian and residual and recomputes colors.

◆ updateGridVariables()

template<class TypeTag , DiffMethod diffMethod, bool isImplicit = true>

void Dumux::FVAssembler< TypeTag, diffMethod, isImplicit >::updateGridVariables ( const SolutionVector & cursol )

inline

Update the grid variables.

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

assembly/fvassembler.hh

Description

Public Types

Public Member Functions

Member Typedef Documentation

◆ GridGeometry

◆ GridVariables

◆ JacobianMatrix

◆ Problem

◆ ResidualType

◆ Scalar

Constructor & Destructor Documentation

◆ FVAssembler() [1/2]

◆ FVAssembler() [2/2]

Member Function Documentation

◆ assembleJacobian()

◆ assembleJacobianAndResidual()

◆ assembleResidual() [1/2]

◆ assembleResidual() [2/2]

◆ gridGeometry()

◆ gridVariables() [1/2]

◆ gridVariables() [2/2]

◆ gridView()

◆ isStationaryProblem()

◆ jacobian()

◆ localResidual()

◆ numDofs()

◆ prevSol()

◆ problem()

◆ resetTimeStep()

◆ residual()

◆ residualNorm()

◆ setLinearSystem() [1/2]

◆ setLinearSystem() [2/2]

◆ setPreviousSolution()

◆ setTimeLoop()

◆ updateAfterGridAdaption()

◆ updateGridVariables()