Kratos::ResidualBasedSemiEulerianConvectionDiffusionStrategy< TSparseSpace, TDenseSpace, TLinearSolver > Class Template Reference

This strategy is used to solve convection-diffusion problem. More...

#include <residualbased_semi_eulerian_convdiff_strategy.h>

Inheritance diagram for Kratos::ResidualBasedSemiEulerianConvectionDiffusionStrategy< TSparseSpace, TDenseSpace, TLinearSolver >:

Collaboration diagram for Kratos::ResidualBasedSemiEulerianConvectionDiffusionStrategy< TSparseSpace, TDenseSpace, TLinearSolver >:

Public Member Functions
Life Cycle
	ResidualBasedSemiEulerianConvectionDiffusionStrategy (ModelPart &model_part, typename TLinearSolver::Pointer pNewLinearSolver, bool ReformDofAtEachIteration=false, int dimension=3)
virtual	~ResidualBasedSemiEulerianConvectionDiffusionStrategy ()
double	Solve () override
void	SetEchoLevel (int Level) override
	This sets the level of echo for the solving strategy. More...
void	Clear () override
	Clears the internal storage. More...
int	Check () override
	Function to perform expensive checks. More...
Public Member Functions inherited from Kratos::ImplicitSolvingStrategy< TSparseSpace, TDenseSpace, TLinearSolver >
	ImplicitSolvingStrategy ()
	Default constructor. More...
	ImplicitSolvingStrategy (ModelPart &rModelPart, Parameters ThisParameters)
	Default constructor. (with parameters) More...
	ImplicitSolvingStrategy (ModelPart &rModelPart, bool MoveMeshFlag=false)
	Default constructor. More...
virtual	~ImplicitSolvingStrategy ()
BaseType::Pointer	Create (ModelPart &rModelPart, Parameters ThisParameters) const override
	Create method. More...
void	SetRebuildLevel (int Level) override
	This sets the build level. More...
int	GetRebuildLevel () const override
	This returns the build level. More...
void	SetStiffnessMatrixIsBuilt (const bool StiffnessMatrixIsBuilt)
	This method sets the flag mStiffnessMatrixIsBuilt. More...
bool	GetStiffnessMatrixIsBuilt () const
	This method gets the flag mStiffnessMatrixIsBuilt. More...
std::string	Info () const override
	Turn back information as a string. More...
	KRATOS_CLASS_POINTER_DEFINITION (ImplicitSolvingStrategy)
Parameters	GetDefaultParameters () const override
	This method provides the defaults parameters to avoid conflicts between the different constructors. More...
Public Member Functions inherited from Kratos::SolvingStrategy< TSparseSpace, TDenseSpace >
	SolvingStrategy ()
	Default constructor. More...
	SolvingStrategy (ModelPart &rModelPart, Parameters ThisParameters)
	Default constructor. (with parameters) More...
	SolvingStrategy (ModelPart &rModelPart, bool MoveMeshFlag=false)
	Default constructor. More...
virtual	~SolvingStrategy ()
virtual void	PrintInfo (std::ostream &rOStream) const
	Print information about this object. More...
virtual void	PrintData (std::ostream &rOStream) const
	Print object's data. More...
	KRATOS_CLASS_POINTER_DEFINITION (SolvingStrategy)
virtual void	Predict ()
	Operation to predict the solution ... if it is not called a trivial predictor is used in which the values of the solution step of interest are assumed equal to the old values. More...
virtual void	Initialize ()
	Initialization of member variables and prior operations. More...
virtual bool	IsConverged ()
	This should be considered as a "post solution" convergence check which is useful for coupled analysis. More...
virtual void	CalculateOutputData ()
	This operations should be called before printing the results when non trivial results (e.g. stresses) need to be calculated given the solution of the step. More...
virtual void	InitializeSolutionStep ()
	Performs all the required operations that should be done (for each step) before solving the solution step. More...
virtual void	FinalizeSolutionStep ()
	Performs all the required operations that should be done (for each step) after solving the solution step. More...
virtual bool	SolveSolutionStep ()
	Solves the current step. This function returns true if a solution has been found, false otherwise. More...
int	GetEchoLevel ()
	This returns the level of echo for the solving strategy. More...
void	SetMoveMeshFlag (bool Flag)
	This function sets the flag that says if the mesh is moved. More...
bool	MoveMeshFlag ()
	This function returns the flag that says if the mesh is moved. More...
bool	GetMoveMeshFlag ()
	This function returns the flag that says if the mesh is moved. More...
virtual void	MoveMesh ()
	This function is designed to move the mesh. More...
ModelPart &	GetModelPart ()
	Operations to get the pointer to the model. More...
const ModelPart &	GetModelPart () const
	Operations to get the pointer to the model. More...
virtual double	GetResidualNorm ()
	Operations to get the residual norm. More...
virtual TSystemMatrixType &	GetSystemMatrix ()
	This method returns the LHS matrix. More...
virtual TSystemVectorType &	GetSystemVector ()
	This method returns the RHS vector. More...
virtual TSystemVectorType &	GetSolutionVector ()
	This method returns the solution vector. More...

Type Definitions
typedef ImplicitSolvingStrategy< TSparseSpace, TDenseSpace, TLinearSolver >	BaseType
typedef BaseType::TDataType	TDataType
typedef BaseType::DofsArrayType	DofsArrayType
typedef BaseType::TSystemMatrixType	TSystemMatrixType
typedef BaseType::TSystemVectorType	TSystemVectorType
typedef BaseType::LocalSystemVectorType	LocalSystemVectorType
typedef BaseType::LocalSystemMatrixType	LocalSystemMatrixType
	KRATOS_CLASS_POINTER_DEFINITION (ResidualBasedSemiEulerianConvectionDiffusionStrategy)

Additional Inherited Members
Public Types inherited from Kratos::ImplicitSolvingStrategy< TSparseSpace, TDenseSpace, TLinearSolver >
typedef SolvingStrategy< TSparseSpace, TDenseSpace >	BaseType
typedef BaseType::TDataType	TDataType
typedef BaseType::TSystemMatrixType	TSystemMatrixType
typedef BaseType::TSystemVectorType	TSystemVectorType
typedef BaseType::TSystemMatrixPointerType	TSystemMatrixPointerType
typedef BaseType::TSystemVectorPointerType	TSystemVectorPointerType
typedef BaseType::LocalSystemMatrixType	LocalSystemMatrixType
typedef BaseType::LocalSystemVectorType	LocalSystemVectorType
typedef Scheme< TSparseSpace, TDenseSpace >	TSchemeType
typedef BuilderAndSolver< TSparseSpace, TDenseSpace, TLinearSolver >	TBuilderAndSolverType
typedef ImplicitSolvingStrategy< TSparseSpace, TDenseSpace, TLinearSolver >	ClassType
typedef BaseType::TDofType	TDofType
typedef BaseType::DofsArrayType	DofsArrayType
typedef BaseType::NodesArrayType	NodesArrayType
typedef BaseType::ElementsArrayType	ElementsArrayType
typedef BaseType::ConditionsArrayType	ConditionsArrayType
Public Types inherited from Kratos::SolvingStrategy< TSparseSpace, TDenseSpace >
typedef TSparseSpace::DataType	TDataType
typedef TSparseSpace::MatrixType	TSystemMatrixType
typedef TSparseSpace::VectorType	TSystemVectorType
typedef TSparseSpace::MatrixPointerType	TSystemMatrixPointerType
typedef TSparseSpace::VectorPointerType	TSystemVectorPointerType
typedef TDenseSpace::MatrixType	LocalSystemMatrixType
typedef TDenseSpace::VectorType	LocalSystemVectorType
typedef SolvingStrategy< TSparseSpace, TDenseSpace >	ClassType
typedef ModelPart::DofType	TDofType
typedef ModelPart::DofsArrayType	DofsArrayType
typedef ModelPart::NodesContainerType	NodesArrayType
typedef ModelPart::ElementsContainerType	ElementsArrayType
typedef ModelPart::ConditionsContainerType	ConditionsArrayType
Static Public Member Functions inherited from Kratos::ImplicitSolvingStrategy< TSparseSpace, TDenseSpace, TLinearSolver >
static std::string	Name ()
	Returns the name of the class as used in the settings (snake_case format) More...
Static Public Member Functions inherited from Kratos::SolvingStrategy< TSparseSpace, TDenseSpace >
static std::string	Name ()
	Returns the name of the class as used in the settings (snake_case format) More...
Protected Member Functions inherited from Kratos::ImplicitSolvingStrategy< TSparseSpace, TDenseSpace, TLinearSolver >
void	AssignSettings (const Parameters ThisParameters) override
	This method assigns settings to member variables. More...
Protected Member Functions inherited from Kratos::SolvingStrategy< TSparseSpace, TDenseSpace >
virtual Parameters	ValidateAndAssignParameters (Parameters ThisParameters, const Parameters DefaultParameters) const
	This method validate and assign default parameters. More...
Protected Attributes inherited from Kratos::ImplicitSolvingStrategy< TSparseSpace, TDenseSpace, TLinearSolver >
int	mRebuildLevel
bool	mStiffnessMatrixIsBuilt
	The current rebuild level. More...
Protected Attributes inherited from Kratos::SolvingStrategy< TSparseSpace, TDenseSpace >
int	mEchoLevel

Detailed Description

template<class TSparseSpace, class TDenseSpace, class TLinearSolver>
class Kratos::ResidualBasedSemiEulerianConvectionDiffusionStrategy< TSparseSpace, TDenseSpace, TLinearSolver >

This strategy is used to solve convection-diffusion problem.

Detail class definition.

Exactly the same as the ResidualBasedEulerianConvectionDiffusionStrategy, except for the fact that the assembled elements are only transient diffusion elements. This strategy must be combined with an auxiliary tool to convect the particles, which can be particles ( like PFEM-2 ) or BFECC. For updates, simply work on the Eulerian strategy and copypaste to this strategy, only changing the name and the type of element.

Member Typedef Documentation

BaseType

template<class TSparseSpace , class TDenseSpace , class TLinearSolver >

typedef ImplicitSolvingStrategy<TSparseSpace,TDenseSpace,TLinearSolver> Kratos::ResidualBasedSemiEulerianConvectionDiffusionStrategy< TSparseSpace, TDenseSpace, TLinearSolver >::BaseType

DofsArrayType

template<class TSparseSpace , class TDenseSpace , class TLinearSolver >

typedef BaseType::DofsArrayType Kratos::ResidualBasedSemiEulerianConvectionDiffusionStrategy< TSparseSpace, TDenseSpace, TLinearSolver >::DofsArrayType

LocalSystemMatrixType

template<class TSparseSpace , class TDenseSpace , class TLinearSolver >

typedef BaseType::LocalSystemMatrixType Kratos::ResidualBasedSemiEulerianConvectionDiffusionStrategy< TSparseSpace, TDenseSpace, TLinearSolver >::LocalSystemMatrixType

LocalSystemVectorType

template<class TSparseSpace , class TDenseSpace , class TLinearSolver >

typedef BaseType::LocalSystemVectorType Kratos::ResidualBasedSemiEulerianConvectionDiffusionStrategy< TSparseSpace, TDenseSpace, TLinearSolver >::LocalSystemVectorType

TDataType

template<class TSparseSpace , class TDenseSpace , class TLinearSolver >

typedef BaseType::TDataType Kratos::ResidualBasedSemiEulerianConvectionDiffusionStrategy< TSparseSpace, TDenseSpace, TLinearSolver >::TDataType

TSystemMatrixType

template<class TSparseSpace , class TDenseSpace , class TLinearSolver >

typedef BaseType::TSystemMatrixType Kratos::ResidualBasedSemiEulerianConvectionDiffusionStrategy< TSparseSpace, TDenseSpace, TLinearSolver >::TSystemMatrixType

TSystemVectorType

template<class TSparseSpace , class TDenseSpace , class TLinearSolver >

typedef BaseType::TSystemVectorType Kratos::ResidualBasedSemiEulerianConvectionDiffusionStrategy< TSparseSpace, TDenseSpace, TLinearSolver >::TSystemVectorType

Constructor & Destructor Documentation

ResidualBasedSemiEulerianConvectionDiffusionStrategy()

template<class TSparseSpace , class TDenseSpace , class TLinearSolver >

Kratos::ResidualBasedSemiEulerianConvectionDiffusionStrategy< TSparseSpace, TDenseSpace, TLinearSolver >::ResidualBasedSemiEulerianConvectionDiffusionStrategy ( ModelPart &  model_part, typename TLinearSolver::Pointer  pNewLinearSolver, bool  ReformDofAtEachIteration = false, int  dimension = 3  )

inline

Parameters

model_part	Reference to the ModelPart that contains the problem.
pNewLinearSolver	pointer to the solver for the temperature system. @paramReformDofAtEachIteration=true.
time_order=2.
prediction_order	== 2.

~ResidualBasedSemiEulerianConvectionDiffusionStrategy()

template<class TSparseSpace , class TDenseSpace , class TLinearSolver >

virtual Kratos::ResidualBasedSemiEulerianConvectionDiffusionStrategy< TSparseSpace, TDenseSpace, TLinearSolver >::~ResidualBasedSemiEulerianConvectionDiffusionStrategy ( )

inlinevirtual

Destructor.

Member Function Documentation

Check()

template<class TSparseSpace , class TDenseSpace , class TLinearSolver >

int Kratos::ResidualBasedSemiEulerianConvectionDiffusionStrategy< TSparseSpace, TDenseSpace, TLinearSolver >::Check ( )

inlineoverridevirtual

Function to perform expensive checks.

It is designed to be called ONCE to verify that the input is correct.

Reimplemented from Kratos::SolvingStrategy< TSparseSpace, TDenseSpace >.

Clear()

template<class TSparseSpace , class TDenseSpace , class TLinearSolver >

void Kratos::ResidualBasedSemiEulerianConvectionDiffusionStrategy< TSparseSpace, TDenseSpace, TLinearSolver >::Clear ( )

inlineoverridevirtual

Clears the internal storage.

Reimplemented from Kratos::SolvingStrategy< TSparseSpace, TDenseSpace >.

KRATOS_CLASS_POINTER_DEFINITION()

template<class TSparseSpace , class TDenseSpace , class TLinearSolver >

Kratos::ResidualBasedSemiEulerianConvectionDiffusionStrategy< TSparseSpace, TDenseSpace, TLinearSolver >::KRATOS_CLASS_POINTER_DEFINITION

(

ResidualBasedSemiEulerianConvectionDiffusionStrategy< TSparseSpace, TDenseSpace, TLinearSolver >

)

Counted pointer of ClassName

SetEchoLevel()

template<class TSparseSpace , class TDenseSpace , class TLinearSolver >

void Kratos::ResidualBasedSemiEulerianConvectionDiffusionStrategy< TSparseSpace, TDenseSpace, TLinearSolver >::SetEchoLevel ( int  Level )

inlineoverridevirtual

This sets the level of echo for the solving strategy.

Parameters

Level

of echo for the solving strategy

{ 0 -> Mute... no echo at all 1 -> Printing time and basic information 2 -> Printing linear solver data 3 -> Print of debug information: Echo of stiffness matrix, Dx, b... }

Reimplemented from Kratos::SolvingStrategy< TSparseSpace, TDenseSpace >.

Solve()

template<class TSparseSpace , class TDenseSpace , class TLinearSolver >

double Kratos::ResidualBasedSemiEulerianConvectionDiffusionStrategy< TSparseSpace, TDenseSpace, TLinearSolver >::Solve ( )

inlineoverridevirtual

Destructor.

Reimplemented from Kratos::SolvingStrategy< TSparseSpace, TDenseSpace >.

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

• /home/runner/work/Documentation/Documentation/master/applications/ConvectionDiffusionApplication/custom_strategies/strategies/residualbased_semi_eulerian_convdiff_strategy.h