Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation > Class Template Reference

AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition. More...

#include <ALM_frictional_mortar_contact_axisym_condition.h>

Inheritance diagram for Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >:

Collaboration diagram for Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >:

Public Member Functions
Life Cycle
	AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition ()
	Default constructor. More...
	AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition (IndexType NewId, GeometryPointerType pGeometry)
	AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition (IndexType NewId, GeometryPointerType pGeometry, PropertiesPointerType pProperties)
	AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition (IndexType NewId, GeometryPointerType pGeometry, PropertiesPointerType pProperties, GeometryType::Pointer pMasterGeometry)
	AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition (AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition const &rOther)
	Copy constructor. More...
	~AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition () override
	Destructor. More...
Operations
Condition::Pointer	Create (IndexType NewId, NodesArrayType const &rThisNodes, PropertiesPointerType pProperties) const override
	Creates a new element pointer from an arry of nodes. More...
Condition::Pointer	Create (IndexType NewId, GeometryPointerType pGeom, PropertiesPointerType pProperties) const override
	Creates a new element pointer from an existing geometry. More...
Condition::Pointer	Create (IndexType NewId, GeometryPointerType pGeom, PropertiesPointerType pProperties, GeometryPointerType pMasterGeom) const override
	Creates a new element pointer from an existing geometry. More...
bool	IsAxisymmetric () const override
	This functions returns if the computation is axisymmetric or not. More...
double	GetAxisymmetricCoefficient (const GeneralVariables &rVariables) const override
double	CalculateRadius (const GeneralVariables &rVariables) const
Input and output
std::string	Info () const override
	Turn back information as a string. More...
void	PrintInfo (std::ostream &rOStream) const override
	Print information about this object. More...
void	PrintData (std::ostream &rOStream) const override
	Print object's data. More...
Public Member Functions inherited from Kratos::AugmentedLagrangianMethodFrictionalMortarContactCondition< 2, TNumNodes, TNormalVariation >
void	StaticCalculateLocalRHS (PairedCondition *pCondition, const MortarBaseConditionMatrices &rPreviousMortarOperators, const array_1d< double, 2 > &mu, Vector &rLocalRHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
void	StaticCalculateLocalRHS (PairedCondition *pCondition, const MortarBaseConditionMatrices &rPreviousMortarOperators, const array_1d< double, 3 > &mu, Vector &rLocalRHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
void	StaticCalculateLocalRHS (PairedCondition *pCondition, const MortarBaseConditionMatrices &rPreviousMortarOperators, const array_1d< double, 4 > &mu, Vector &rLocalRHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
void	StaticCalculateLocalRHS (PairedCondition *pCondition, const MortarBaseConditionMatrices &rPreviousMortarOperators, const array_1d< double, 3 > &mu, Vector &rLocalRHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
void	StaticCalculateLocalRHS (PairedCondition *pCondition, const MortarBaseConditionMatrices &rPreviousMortarOperators, const array_1d< double, 4 > &mu, Vector &rLocalRHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
void	StaticCalculateLocalRHS (PairedCondition *pCondition, const MortarBaseConditionMatrices &rPreviousMortarOperators, const array_1d< double, 2 > &mu, Vector &rLocalRHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
void	StaticCalculateLocalRHS (PairedCondition *pCondition, const MortarBaseConditionMatrices &rPreviousMortarOperators, const array_1d< double, 3 > &mu, Vector &rLocalRHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
void	StaticCalculateLocalRHS (PairedCondition *pCondition, const MortarBaseConditionMatrices &rPreviousMortarOperators, const array_1d< double, 4 > &mu, Vector &rLocalRHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
void	StaticCalculateLocalRHS (PairedCondition *pCondition, const MortarBaseConditionMatrices &rPreviousMortarOperators, const array_1d< double, 3 > &mu, Vector &rLocalRHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
void	StaticCalculateLocalRHS (PairedCondition *pCondition, const MortarBaseConditionMatrices &rPreviousMortarOperators, const array_1d< double, 4 > &mu, Vector &rLocalRHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
	AugmentedLagrangianMethodFrictionalMortarContactCondition ()
	Default constructor. More...
	AugmentedLagrangianMethodFrictionalMortarContactCondition (IndexType NewId, GeometryPointerType pGeometry)
	AugmentedLagrangianMethodFrictionalMortarContactCondition (IndexType NewId, GeometryPointerType pGeometry, PropertiesPointerType pProperties)
	AugmentedLagrangianMethodFrictionalMortarContactCondition (IndexType NewId, GeometryPointerType pGeometry, PropertiesPointerType pProperties, GeometryType::Pointer pMasterGeometry)
	AugmentedLagrangianMethodFrictionalMortarContactCondition (AugmentedLagrangianMethodFrictionalMortarContactCondition const &rOther)
	Copy constructor. More...
	~AugmentedLagrangianMethodFrictionalMortarContactCondition () override
	Destructor. More...
std::string	Info () const override
	Turn back information as a string. More...
void	PrintInfo (std::ostream &rOStream) const override
	Print information about this object. More...
void	PrintData (std::ostream &rOStream) const override
	Print object's data. More...
	KRATOS_CLASS_INTRUSIVE_POINTER_DEFINITION (AugmentedLagrangianMethodFrictionalMortarContactCondition)
	Counted pointer of AugmentedLagrangianMethodFrictionalMortarContactCondition. More...
void	Initialize (const ProcessInfo &rCurrentProcessInfo) override
	Called at the beginning of each solution step. More...
void	InitializeSolutionStep (const ProcessInfo &rCurrentProcessInfo) override
	Called at the begining of each solution step. More...
void	FinalizeSolutionStep (const ProcessInfo &rCurrentProcessInfo) override
	Called at the ending of each solution step. More...
Condition::Pointer	Create (IndexType NewId, NodesArrayType const &rThisNodes, PropertiesPointerType pProperties) const override
	Creates a new element pointer from an arry of nodes. More...
Condition::Pointer	Create (IndexType NewId, GeometryPointerType pGeom, PropertiesPointerType pProperties) const override
	Creates a new element pointer from an existing geometry. More...
Condition::Pointer	Create (IndexType NewId, GeometryPointerType pGeom, PropertiesPointerType pProperties, GeometryPointerType pMasterGeom) const override
	Creates a new element pointer from an existing geometry. More...
void	AddExplicitContribution (const ProcessInfo &rCurrentProcessInfo) override
	This is called during the assembling process in order to calculate the condition contribution in explicit calculation. NodalData is modified Inside the function, so the The "AddEXplicit" FUNCTIONS THE ONLY FUNCTIONS IN WHICH A CONDITION IS ALLOWED TO WRITE ON ITS NODES. the caller is expected to ensure thread safety hence SET/UNSETLOCK MUST BE PERFORMED IN THE STRATEGY BEFORE CALLING THIS FUNCTION. More...
void	EquationIdVector (EquationIdVectorType &rResult, const ProcessInfo &rCurrentProcessInfo) const override
	Sets on rResult the ID's of the element degrees of freedom. More...
void	GetDofList (DofsVectorType &rConditionalDofList, const ProcessInfo &rCurrentProcessInfo) const override
	Sets on ConditionalDofList the degrees of freedom of the considered element geometry. More...
int	Check (const ProcessInfo &rCurrentProcessInfo) const override
	This function provides the place to perform checks on the completeness of the input. More...
Public Member Functions inherited from Kratos::MortarContactCondition< TDim, TNumNodes, FrictionalCase::FRICTIONAL, TNormalVariation, TNumNodes >
	MortarContactCondition ()
	Default constructor. More...
	MortarContactCondition (IndexType NewId, GeometryType::Pointer pGeometry)
	MortarContactCondition (IndexType NewId, GeometryType::Pointer pGeometry, PropertiesType::Pointer pProperties)
	MortarContactCondition (IndexType NewId, GeometryType::Pointer pGeometry, PropertiesType::Pointer pProperties, GeometryType::Pointer pMasterGeometry)
	MortarContactCondition (MortarContactCondition const &rOther)
	Copy constructor. More...
	~MortarContactCondition () override
	Destructor. More...
void	Initialize (const ProcessInfo &rCurrentProcessInfo) override
	Called at the beginning of each solution step. More...
void	InitializeSolutionStep (const ProcessInfo &rCurrentProcessInfo) override
	Called at the beginning of each solution step. More...
void	InitializeNonLinearIteration (const ProcessInfo &rCurrentProcessInfo) override
	Called at the beginning of each iteration. More...
void	FinalizeSolutionStep (const ProcessInfo &rCurrentProcessInfo) override
	Called at the ending of each solution step. More...
void	FinalizeNonLinearIteration (const ProcessInfo &rCurrentProcessInfo) override
	Called at the end of each iteration. More...
void	CalculateMassMatrix (MatrixType &rMassMatrix, const ProcessInfo &rCurrentProcessInfo) override
	This method computes the mass matrix. More...
void	CalculateDampingMatrix (MatrixType &rDampingMatrix, const ProcessInfo &rCurrentProcessInfo) override
	Initialize Damping Matrix. More...
Condition::Pointer	Create (IndexType NewId, NodesArrayType const &rThisNodes, PropertiesType::Pointer pProperties) const override
	Creates a new element pointer from an arry of nodes. More...
Condition::Pointer	Create (IndexType NewId, GeometryType::Pointer pGeom, PropertiesType::Pointer pProperties) const override
	Creates a new element pointer from an existing geometry. More...
Condition::Pointer	Create (IndexType NewId, GeometryType::Pointer pGeom, PropertiesType::Pointer pProperties, GeometryType::Pointer pMasterGeom) const override
	Creates a new element pointer from an existing geometry. More...
void	AddExplicitContribution (const ProcessInfo &rCurrentProcessInfo) override
	This is called during the assembling process in order to calculate the condition contribution in explicit calculation. More...
void	AddExplicitContribution (const VectorType &rRHSVector, const Variable< VectorType > &rRHSVariable, const Variable< double > &rDestinationVariable, const ProcessInfo &rCurrentProcessInfo) override
	This function is designed to make the element to assemble an rRHS vector identified by a variable rRHSVariable by assembling it to the nodes on the variable rDestinationVariable (double version) More...
void	AddExplicitContribution (const VectorType &rRHSVector, const Variable< VectorType > &rRHSVariable, const Variable< array_1d< double, 3 > > &rDestinationVariable, const ProcessInfo &rCurrentProcessInfo) override
	This function is designed to make the element to assemble an rRHS vector identified by a variable rRHSVariable by assembling it to the nodes on the variable (array_1d<double, 3>) version rDestinationVariable. More...
void	EquationIdVector (EquationIdVectorType &rResult, const ProcessInfo &rCurrentProcessInfo) const override
	Sets on rResult the ID's of the element degrees of freedom. More...
void	GetDofList (DofsVectorType &rConditionalDofList, const ProcessInfo &rCurrentProcessInfo) const override
	Sets on ConditionalDofList the degrees of freedom of the considered element geometry. More...
void	CalculateOnIntegrationPoints (const Variable< double > &rVariable, std::vector< double > &rOutput, const ProcessInfo &rCurrentProcessInfo) override
	Calculate a double Variable. More...
void	CalculateOnIntegrationPoints (const Variable< array_1d< double, 3 > > &rVariable, std::vector< array_1d< double, 3 > > &rOutput, const ProcessInfo &rCurrentProcessInfo) override
	Calculate a array_1d Variable. More...
void	CalculateOnIntegrationPoints (const Variable< Vector > &rVariable, std::vector< Vector > &rOutput, const ProcessInfo &rCurrentProcessInfo) override
	Calculate a Vector Variable. More...
int	Check (const ProcessInfo &rCurrentProcessInfo) const override
	This function provides the place to perform checks on the completeness of the input. More...
std::string	Info () const override
	Turn back information as a string. More...
void	PrintInfo (std::ostream &rOStream) const override
	Print information about this object. More...
void	PrintData (std::ostream &rOStream) const override
	Print object's data. More...
	KRATOS_CLASS_INTRUSIVE_POINTER_DEFINITION (MortarContactCondition)
	Counted pointer of MortarContactCondition. More...
Public Member Functions inherited from Kratos::PairedCondition
	PairedCondition ()
	Default constructor. More...
	PairedCondition (IndexType NewId, GeometryType::Pointer pGeometry)
	PairedCondition (IndexType NewId, GeometryType::Pointer pGeometry, PropertiesType::Pointer pProperties)
	PairedCondition (IndexType NewId, GeometryType::Pointer pGeometry, PropertiesType::Pointer pProperties, GeometryType::Pointer pPairedGeometry)
	PairedCondition (PairedCondition const &rOther)
	Copy constructor. More...
	~PairedCondition () override
	Destructor. More...
GeometryType::Pointer	pGetParentGeometry ()
	This method returns the parent geometry. More...
GeometryType::Pointer const	pGetParentGeometry () const
	This method returns the parent geometry (constant version) More...
GeometryType::Pointer	pGetPairedGeometry ()
	This method returns the paired geometry. More...
GeometryType::Pointer const	pGetPairedGeometry () const
	This method returns the paired geometry (constant version) More...
GeometryType &	GetParentGeometry ()
	This method returns the parent geometry. More...
GeometryType const &	GetParentGeometry () const
	This method returns the parent geometry (constant version) More...
GeometryType &	GetPairedGeometry ()
	This method returns the paired geometry. More...
GeometryType const &	GetPairedGeometry () const
	This method returns the paired geometry (constant version) More...
void	SetPairedNormal (const array_1d< double, 3 > &rPairedNormal)
	This method sets the paired normal. More...
array_1d< double, 3 > const &	GetPairedNormal () const
	This method returns the paired normal. More...
	KRATOS_CLASS_INTRUSIVE_POINTER_DEFINITION (PairedCondition)
	Counted pointer of PairedCondition. More...
Public Member Functions inherited from Kratos::Condition
	Condition (IndexType NewId=0)
	Condition (IndexType NewId, const NodesArrayType &ThisNodes)
	Condition (IndexType NewId, GeometryType::Pointer pGeometry)
	Condition (IndexType NewId, GeometryType::Pointer pGeometry, PropertiesType::Pointer pProperties)
	Condition (Condition const &rOther)
	Copy constructor. More...
	~Condition () override
	Destructor. More...
Condition &	operator= (Condition const &rOther)
	Assignment operator. More...
virtual Pointer	Clone (IndexType NewId, NodesArrayType const &ThisNodes) const
	It creates a new condition pointer and clones the previous condition data. More...
virtual void	GetValuesVector (Vector &values, int Step=0) const
virtual void	GetFirstDerivativesVector (Vector &values, int Step=0) const
virtual void	GetSecondDerivativesVector (Vector &values, int Step=0) const
virtual void	ResetConstitutiveLaw ()
virtual void	CalculateFirstDerivativesContributions (MatrixType &rLeftHandSideMatrix, VectorType &rRightHandSideVector, const ProcessInfo &rCurrentProcessInfo)
virtual void	CalculateFirstDerivativesLHS (MatrixType &rLeftHandSideMatrix, const ProcessInfo &rCurrentProcessInfo)
virtual void	CalculateFirstDerivativesRHS (VectorType &rRightHandSideVector, const ProcessInfo &rCurrentProcessInfo)
virtual void	CalculateSecondDerivativesContributions (MatrixType &rLeftHandSideMatrix, VectorType &rRightHandSideVector, const ProcessInfo &rCurrentProcessInfo)
virtual void	CalculateSecondDerivativesLHS (MatrixType &rLeftHandSideMatrix, const ProcessInfo &rCurrentProcessInfo)
virtual void	CalculateSecondDerivativesRHS (VectorType &rRightHandSideVector, const ProcessInfo &rCurrentProcessInfo)
virtual void	AddExplicitContribution (const MatrixType &rLHSMatrix, const Variable< MatrixType > &rLHSVariable, const Variable< Matrix > &rDestinationVariable, const ProcessInfo &rCurrentProcessInfo)
	This function is designed to make the condition to assemble an rRHS vector identified by a variable rRHSVariable by assembling it to the nodes on the variable rDestinationVariable. (This is the matrix version) More...
virtual void	Calculate (const Variable< double > &rVariable, double &Output, const ProcessInfo &rCurrentProcessInfo)
virtual void	Calculate (const Variable< array_1d< double, 3 > > &rVariable, array_1d< double, 3 > &Output, const ProcessInfo &rCurrentProcessInfo)
virtual void	Calculate (const Variable< Vector > &rVariable, Vector &Output, const ProcessInfo &rCurrentProcessInfo)
virtual void	Calculate (const Variable< Matrix > &rVariable, Matrix &Output, const ProcessInfo &rCurrentProcessInfo)
virtual void	CalculateOnIntegrationPoints (const Variable< bool > &rVariable, std::vector< bool > &rOutput, const ProcessInfo &rCurrentProcessInfo)
virtual void	CalculateOnIntegrationPoints (const Variable< int > &rVariable, std::vector< int > &rOutput, const ProcessInfo &rCurrentProcessInfo)
virtual void	CalculateOnIntegrationPoints (const Variable< array_1d< double, 3 >> &rVariable, std::vector< array_1d< double, 3 >> &rOutput, const ProcessInfo &rCurrentProcessInfo)
virtual void	CalculateOnIntegrationPoints (const Variable< array_1d< double, 4 >> &rVariable, std::vector< array_1d< double, 4 >> &rOutput, const ProcessInfo &rCurrentProcessInfo)
virtual void	CalculateOnIntegrationPoints (const Variable< array_1d< double, 6 >> &rVariable, std::vector< array_1d< double, 6 >> &rOutput, const ProcessInfo &rCurrentProcessInfo)
virtual void	CalculateOnIntegrationPoints (const Variable< array_1d< double, 9 >> &rVariable, std::vector< array_1d< double, 9 >> &rOutput, const ProcessInfo &rCurrentProcessInfo)
virtual void	CalculateOnIntegrationPoints (const Variable< Matrix > &rVariable, std::vector< Matrix > &rOutput, const ProcessInfo &rCurrentProcessInfo)
virtual void	SetValuesOnIntegrationPoints (const Variable< bool > &rVariable, const std::vector< bool > &rValues, const ProcessInfo &rCurrentProcessInfo)
virtual void	SetValuesOnIntegrationPoints (const Variable< int > &rVariable, const std::vector< int > &rValues, const ProcessInfo &rCurrentProcessInfo)
virtual void	SetValuesOnIntegrationPoints (const Variable< double > &rVariable, const std::vector< double > &rValues, const ProcessInfo &rCurrentProcessInfo)
virtual void	SetValuesOnIntegrationPoints (const Variable< array_1d< double, 3 >> &rVariable, const std::vector< array_1d< double, 3 >> &rValues, const ProcessInfo &rCurrentProcessInfo)
virtual void	SetValuesOnIntegrationPoints (const Variable< array_1d< double, 4 >> &rVariable, const std::vector< array_1d< double, 4 >> &rValues, const ProcessInfo &rCurrentProcessInfo)
virtual void	SetValuesOnIntegrationPoints (const Variable< array_1d< double, 6 >> &rVariable, const std::vector< array_1d< double, 6 >> &rValues, const ProcessInfo &rCurrentProcessInfo)
virtual void	SetValuesOnIntegrationPoints (const Variable< array_1d< double, 9 >> &rVariable, const std::vector< array_1d< double, 9 >> &rValues, const ProcessInfo &rCurrentProcessInfo)
virtual void	SetValuesOnIntegrationPoints (const Variable< Vector > &rVariable, const std::vector< Vector > &rValues, const ProcessInfo &rCurrentProcessInfo)
virtual void	SetValuesOnIntegrationPoints (const Variable< Matrix > &rVariable, const std::vector< Matrix > &rValues, const ProcessInfo &rCurrentProcessInfo)
virtual void	MassMatrix (MatrixType &rMassMatrix, const ProcessInfo &rCurrentProcessInfo)
virtual void	AddMassMatrix (MatrixType &rLeftHandSideMatrix, double coeff, const ProcessInfo &rCurrentProcessInfo)
virtual void	DampMatrix (MatrixType &rDampMatrix, const ProcessInfo &rCurrentProcessInfo)
virtual void	AddInertiaForces (VectorType &rRightHandSideVector, double coeff, const ProcessInfo &rCurrentProcessInfo)
virtual void	CalculateLocalVelocityContribution (MatrixType &rDampingMatrix, VectorType &rRightHandSideVector, const ProcessInfo &rCurrentProcessInfo)
virtual void	CalculateSensitivityMatrix (const Variable< double > &rDesignVariable, Matrix &rOutput, const ProcessInfo &rCurrentProcessInfo)
virtual void	CalculateSensitivityMatrix (const Variable< array_1d< double, 3 > > &rDesignVariable, Matrix &rOutput, const ProcessInfo &rCurrentProcessInfo)
PropertiesType::Pointer	pGetProperties ()
	returns the pointer to the property of the condition. Does not throw an error, to allow copying of conditions which don't have any property assigned. More...
const PropertiesType::Pointer	pGetProperties () const
PropertiesType &	GetProperties ()
PropertiesType const &	GetProperties () const
void	SetProperties (PropertiesType::Pointer pProperties)
bool	HasProperties () const
	Check that the Condition has a correctly initialized pointer to a Properties instance. More...
virtual const Parameters	GetSpecifications () const
	This method provides the specifications/requirements of the element. More...
	KRATOS_CLASS_INTRUSIVE_POINTER_DEFINITION (Condition)
	Pointer definition of Condition. More...
Public Member Functions inherited from Kratos::GeometricalObject
	GeometricalObject (IndexType NewId=0)
	Default constructor. More...
	GeometricalObject (IndexType NewId, GeometryType::Pointer pGeometry)
	Default constructor. More...
	~GeometricalObject () override
	Destructor. More...
	GeometricalObject (GeometricalObject const &rOther)
	Copy constructor. More...
GeometricalObject &	operator= (GeometricalObject const &rOther)
	Assignment operator. More...
virtual void	SetGeometry (GeometryType::Pointer pGeometry)
	Sets the pointer to the geometry. More...
GeometryType::Pointer	pGetGeometry ()
	Returns the pointer to the geometry. More...
const GeometryType::Pointer	pGetGeometry () const
	Returns the pointer to the geometry (const version) More...
GeometryType &	GetGeometry ()
	Returns the reference of the geometry. More...
GeometryType const &	GetGeometry () const
	Returns the reference of the geometry (const version) More...
Flags &	GetFlags ()
	Returns the flags of the object. More...
Flags const &	GetFlags () const
	Returns the flags of the object (const version) More...
void	SetFlags (Flags const &rThisFlags)
	Sets the flags of the object. More...
DataValueContainer &	Data ()
DataValueContainer &	GetData ()
DataValueContainer const &	GetData () const
void	SetData (DataValueContainer const &rThisData)
template<class TDataType >
bool	Has (const Variable< TDataType > &rThisVariable) const
template<class TVariableType >
void	SetValue (const TVariableType &rThisVariable, typename TVariableType::Type const &rValue)
template<class TVariableType >
TVariableType::Type &	GetValue (const TVariableType &rThisVariable)
template<class TVariableType >
TVariableType::Type const &	GetValue (const TVariableType &rThisVariable) const
unsigned int	use_count () const noexcept
	KRATOS_CLASS_INTRUSIVE_POINTER_DEFINITION (GeometricalObject)
	Pointer definition of GeometricalObject. More...
bool	IsActive () const
	Checks if the GeometricalObject is active. More...
Public Member Functions inherited from Kratos::IndexedObject
	IndexedObject (IndexType NewId=0)
	Default constructor. More...
virtual	~IndexedObject ()
	Destructor. More...
	IndexedObject (IndexedObject const &rOther)
	Copy constructor. More...
IndexedObject &	operator= (IndexedObject const &rOther)
	Assignment operator. More...
template<class TObjectType >
IndexType	operator() (TObjectType const &rThisObject) const
IndexType	Id () const
IndexType	GetId () const
virtual void	SetId (IndexType NewId)
IndexType &	DepricatedIdAccess ()
	TODO: remove this function when removing data_file_io object. More...
	KRATOS_CLASS_POINTER_DEFINITION (IndexedObject)
	Pointer definition of IndexedObject. More...
Public Member Functions inherited from Kratos::Flags
Flags &	operator= (Flags const &rOther)
	Assignment operator. More...
	operator bool () const
Flags	operator~ () const
bool	operator! () const
void	AssignFlags (Flags const &rOther)
void	Set (const Flags ThisFlag)
void	Set (const Flags ThisFlag, bool Value)
void	Reset (const Flags ThisFlag)
void	Flip (const Flags ThisFlag)
void	SetPosition (IndexType Position, bool Value=true)
bool	GetPosition (IndexType Position) const
void	FlipPosition (IndexType Position)
void	ClearPosition (IndexType Position)
void	Clear ()
Flags	AsFalse () const
bool	Is (Flags const &rOther) const
bool	IsDefined (Flags const &rOther) const
bool	IsNot (Flags const &rOther) const
bool	IsNotDefined (Flags const &rOther) const
	KRATOS_CLASS_POINTER_DEFINITION (Flags)
	Pointer definition of Flags. More...
const Flags &	operator|= (const Flags &Other)
const Flags &	operator&= (const Flags &Other)
	Flags ()
	Default constructor. More...
	Flags (Flags const &rOther)
	Copy constructor. More...
virtual	~Flags ()
	Destructor. More...

Type Definitions
using	MortarBaseType = MortarContactCondition< 2, TNumNodes, FrictionalCase::FRICTIONAL, TNormalVariation >
	The base type for the mortar contact condition. More...
using	BaseType = AugmentedLagrangianMethodFrictionalMortarContactCondition< 2, TNumNodes, TNormalVariation >
	The base type for the augmented Lagrangian method with frictional mortar contact condition. More...
using	MortarConditionMatrices = typename MortarBaseType::MortarConditionMatrices
	Type for the matrices used in the mortar contact condition. More...
using	GeneralVariables = typename MortarBaseType::GeneralVariables
	Type for the general variables used in the mortar contact condition. More...
using	AeData = typename MortarBaseType::AeData
	Type for the augmented Lagrangian data used in the mortar contact condition. More...
using	ConditionBaseType = Condition
	The base type for the condition. More...
using	VectorType = typename ConditionBaseType::VectorType
	The vector type used in the condition. More...
using	MatrixType = typename ConditionBaseType::MatrixType
	The matrix type used in the condition. More...
using	IndexType = typename ConditionBaseType::IndexType
	The index type used in the condition. More...
using	GeometryPointerType = typename ConditionBaseType::GeometryType::Pointer
	Pointer type for the geometry of the condition. More...
using	NodesArrayType = typename ConditionBaseType::NodesArrayType
	The array type for the nodes of the condition. More...
using	PropertiesPointerType = typename ConditionBaseType::PropertiesType::Pointer
	Pointer type for the properties of the condition. More...
using	EquationIdVectorType = typename ConditionBaseType::EquationIdVectorType
	Type for the vector of equation IDs of the condition. More...
using	DofsVectorType = typename ConditionBaseType::DofsVectorType
	Type for the vector of DOFs of the condition. More...
using	ConditionArrayListType = std::vector< array_1d< PointType, 2 > >
	Type for the array of conditions with points. More...
using	DecompositionType = Line2D2< Point >
	The decomposition type for the condition. More...
using	DerivativeDataType = DerivativeDataFrictional< 2, TNumNodes >
	Type for the derivative data used in frictional mortar contact condition. More...
static constexpr IndexType	MatrixSize = 2 * (TNumNodes + TNumNodes) + TNumNodes
	Matrix size definition. More...
	KRATOS_CLASS_INTRUSIVE_POINTER_DEFINITION (AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition)
	Counted pointer of AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition. More...

Un accessible methods
class	Serializer

Additional Inherited Members
Public Types inherited from Kratos::AugmentedLagrangianMethodFrictionalMortarContactCondition< 2, TNumNodes, TNormalVariation >
using	BaseType = MortarContactCondition< TDim, TNumNodes, FrictionalCase::FRICTIONAL, TNormalVariation, TNumNodes >
	Base type for the mortar contact condition. More...
using	ConditionBaseType = Condition
	Base type for the condition. More...
using	PairedConditionBaseType = PairedCondition
	Base type for the paired condition. More...
using	MortarConditionMatrices = typename BaseType::MortarConditionMatrices
	Type for the matrices used in the mortar contact condition. More...
using	GeneralVariables = typename BaseType::GeneralVariables
	Type for the general variables used in the mortar contact condition. More...
using	IntegrationUtility = typename BaseType::IntegrationUtility
	Type for the integration utility used in the mortar contact condition. More...
using	DerivativesUtilitiesType = typename BaseType::DerivativesUtilitiesType
	Type for the derivatives utilities used in the mortar contact condition. More...
using	BelongType = typename BaseType::BelongType
	Type for the belong type used in the mortar contact condition. More...
using	ConditionArrayListType = typename BaseType::ConditionArrayListType
	Type for the array list of conditions used in the mortar contact condition. More...
using	MortarBaseConditionMatrices = MortarOperator< TNumNodes, TNumNodes >
	Type for the matrices used in the mortar base condition. More...
using	VectorType = typename ConditionBaseType::VectorType
	Type for the vector type used in the condition. More...
using	MatrixType = typename ConditionBaseType::MatrixType
	Type for the matrix type used in the condition. More...
using	IndexType = typename ConditionBaseType::IndexType
	Type for the index type used in the condition. More...
using	GeometryPointerType = typename ConditionBaseType::GeometryType::Pointer
	Pointer type for the geometry of the condition. More...
using	NodesArrayType = typename ConditionBaseType::NodesArrayType
	Type for the array of nodes used in the condition. More...
using	PropertiesType = typename ConditionBaseType::PropertiesType
	Type for the properties of the condition. More...
using	PropertiesPointerType = typename PropertiesType::Pointer
	Pointer type for the properties of the condition. More...
using	EquationIdVectorType = typename ConditionBaseType::EquationIdVectorType
	Type for the vector of equation IDs of the condition. More...
using	DofsVectorType = typename ConditionBaseType::DofsVectorType
	Type for the vector of DOFs of the condition. More...
using	LineType = Line2D2< Point >
	Type for the line in 2D. More...
using	TriangleType = Triangle3D3< Point >
	Type for the triangle in 3D. More...
using	DecompositionType = typename std::conditional< TDim==2, LineType, TriangleType >::type
	Type for the decomposition based on the dimension. More...
using	DerivativeDataType = DerivativeDataFrictional< TDim, TNumNodes, TNumNodes >
	Type for the derivative data used in the frictional mortar contact condition. More...
Public Types inherited from Kratos::MortarContactCondition< TDim, TNumNodes, FrictionalCase::FRICTIONAL, TNormalVariation, TNumNodes >
using	BaseType = PairedCondition
	Base class definitions. More...
using	VectorType = typename BaseType::VectorType
	Vector type definition. More...
using	MatrixType = typename BaseType::MatrixType
	Matrix type definition. More...
using	IndexType = typename BaseType::IndexType
	Index type definition. More...
using	GeometryPointerType = typename BaseType::GeometryType::Pointer
	Geometry pointer definition. More...
using	NodesArrayType = typename BaseType::NodesArrayType
	Nodes array type definition. More...
using	PropertiesPointerType = typename BaseType::PropertiesType::Pointer
	Properties pointer definition. More...
using	PointType = Point
	Point definition. More...
using	GeometryType = Geometry< Node >
	Geometry type definition. More...
using	IntegrationPointsType = typename GeometryType::IntegrationPointsArrayType
using	BelongType = typename std::conditional< TNumNodes==2, PointBelongsLine2D2N, typename std::conditional< TNumNodes==3, typename std::conditional< TNumNodesMaster==3, PointBelongsTriangle3D3N, PointBelongsTriangle3D3NQuadrilateral3D4N >::type, typename std::conditional< TNumNodesMaster==3, PointBelongsQuadrilateral3D4NTriangle3D3N, PointBelongsQuadrilateral3D4N >::type >::type >::type
	The type of points belongs to be considered. More...
using	PointBelongType = PointBelong< TNumNodes, TNumNodesMaster >
	The definition of the point with belonging. More...
using	GeometryPointBelongType = Geometry< PointBelongType >
	Type definition for the geometry with point belonging. More...
using	ConditionArrayType = array_1d< PointBelongType, TDim >
	Type definition for an array of points with belonging. More...
using	ConditionArrayListType = typename std::vector< ConditionArrayType >
	Type definition for a list of arrays of points with belonging. More...
using	LineType = Line2D2< PointType >
	Type definition for a line in 2D. More...
using	TriangleType = Triangle3D3< PointType >
	Type definition for a triangle in 3D. More...
using	DecompositionType = typename std::conditional< TDim==2, LineType, TriangleType >::type
	The decomposition type. More...
using	DerivativeDataType = typename std::conditional< TFrictional==FrictionalCase::FRICTIONAL||TFrictional==FrictionalCase::FRICTIONAL_PENALTY, DerivativeDataFrictional< TDim, TNumNodes, TNumNodesMaster >, DerivativeData< TDim, TNumNodes, TNumNodesMaster > >::type
	The derivative data type. More...
using	GeneralVariables = MortarKinematicVariablesWithDerivatives< TDim, TNumNodes, TNumNodesMaster >
	Type definition for general variables with derivatives. More...
using	AeData = DualLagrangeMultiplierOperatorsWithDerivatives< TDim, TNumNodes, IsFrictional, TNumNodesMaster >
	Type definition for AE data with derivatives. More...
using	MortarConditionMatrices = MortarOperatorWithDerivatives< TDim, TNumNodes, IsFrictional, TNumNodesMaster >
	Type definition for mortar condition matrices with derivatives. More...
using	IntegrationUtility = ExactMortarIntegrationUtility< TDim, TNumNodes, true, TNumNodesMaster >
	Type definition for integration utility with derivatives. More...
using	DerivativesUtilitiesType = DerivativesUtilities< TDim, TNumNodes, IsFrictional, TNormalVariation, TNumNodesMaster >
	Type definition for derivatives utilities with derivatives. More...
Public Types inherited from Kratos::PairedCondition
using	BaseType = Condition
	Basetype definition. More...
using	PointType = Point
	Point type definition. More...
using	GeometryType = Geometry< Node >
	Geometry type definition. More...
using	CouplingGeometryType = CouplingGeometry< Node >
	Coupling geometry type definition. More...
using	VectorType = BaseType::VectorType
	Vector type definition. More...
using	MatrixType = BaseType::MatrixType
	Matrix type definition. More...
using	IndexType = BaseType::IndexType
	Index type definition. More...
using	GeometryPointerType = BaseType::GeometryType::Pointer
	Geometry pointer type definition. More...
using	NodesArrayType = BaseType::NodesArrayType
	Nodes array type definition. More...
using	PropertiesPointerType = BaseType::PropertiesType::Pointer
	Properties pointer type definition. More...
Public Types inherited from Kratos::Condition
typedef Condition	ConditionType
	definition of condition type More...
typedef GeometricalObject	BaseType
	base type: an GeometricalObject that automatically has a unique number More...
typedef Node	NodeType
	definition of node type (default is: Node) More...
typedef Properties	PropertiesType
typedef Geometry< NodeType >	GeometryType
	definition of the geometry type with given NodeType More...
typedef Geometry< NodeType >::PointsArrayType	NodesArrayType
	definition of nodes container type, redefined from GeometryType More...
typedef Vector	VectorType
typedef Matrix	MatrixType
typedef std::size_t	IndexType
typedef std::size_t	SizeType
typedef Dof< double >	DofType
typedef std::vector< std::size_t >	EquationIdVectorType
typedef std::vector< DofType::Pointer >	DofsVectorType
typedef PointerVectorSet< DofType >	DofsArrayType
typedef GeometryData::IntegrationMethod	IntegrationMethod
	Type definition for integration methods. More...
typedef GeometryData	GeometryDataType
Public Types inherited from Kratos::GeometricalObject
typedef Node	NodeType
	Definition of the node type. More...
typedef Geometry< NodeType >	GeometryType
	The geometry type definition. More...
typedef std::size_t	IndexType
	Defines the index type. More...
typedef std::size_t	result_type
	Defines the result type. More...
Public Types inherited from Kratos::IndexedObject
typedef std::size_t	IndexType
	The definition of the index type. More...
typedef std::size_t	result_type
	The definition of the result_type. More...
Public Types inherited from Kratos::Flags
enum	FlagsList {   Flag0 = BlockType(1) , Flag1 = BlockType(1) << 1 , Flag2 = BlockType(1) << 2 , Flag3 = BlockType(1) << 3 ,   Flag4 = BlockType(1) << 4 , Flag5 = BlockType(1) << 5 , Flag6 = BlockType(1) << 6 , Flag7 = BlockType(1) << 7 ,   Flag8 = BlockType(1) << 8 , Flag9 = BlockType(1) << 9 , Flag10 = BlockType(1) << 10 , Flag11 = BlockType(1) << 11 ,   Flag12 = BlockType(1) << 12 , Flag13 = BlockType(1) << 13 , Flag14 = BlockType(1) << 14 , Flag15 = BlockType(1) << 15 ,   Flag16 = BlockType(1) << 16 , Flag17 = BlockType(1) << 17 , Flag18 = BlockType(1) << 18 , Flag19 = BlockType(1) << 19 ,   Flag20 = BlockType(1) << 20 , Flag21 = BlockType(1) << 21 , Flag22 = BlockType(1) << 22 , Flag23 = BlockType(1) << 23 ,   Flag24 = BlockType(1) << 24 , Flag25 = BlockType(1) << 25 , Flag26 = BlockType(1) << 26 , Flag27 = BlockType(1) << 27 ,   Flag28 = BlockType(1) << 28 , Flag29 = BlockType(1) << 29 , Flag30 = BlockType(1) << 30 }
typedef int64_t	BlockType
typedef int64_t	FlagType
typedef std::size_t	IndexType
Static Public Member Functions inherited from Kratos::AugmentedLagrangianMethodFrictionalMortarContactCondition< 2, TNumNodes, TNormalVariation >
static void	StaticCalculateLocalRHS (PairedCondition *pCondition, const MortarBaseConditionMatrices &rPreviousMortarOperators, const array_1d< double, TNumNodes > &mu, Vector &rLocalRHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
	Calculates the local contibution of the RHS. More...
Static Public Member Functions inherited from Kratos::GeometricalObject
static bool	HasSameType (const GeometricalObject &rLHS, const GeometricalObject &rRHS)
	Checks if two GeometricalObject have the same type. More...
static bool	HasSameType (const GeometricalObject *rLHS, const GeometricalObject *rRHS)
	Checks if two GeometricalObject have the same type (pointer version) More...
static bool	HasSameGeometryType (const GeometricalObject &rLHS, const GeometricalObject &rRHS)
	Checks if two GeometricalObject have the same geometry type. More...
static bool	HasSameGeometryType (const GeometricalObject *rLHS, const GeometricalObject *rRHS)
	Checks if two GeometricalObject have the same geometry type (pointer version) More...
static bool	IsSame (const GeometricalObject &rLHS, const GeometricalObject &rRHS)
	Checks if two GeometricalObject are the same. More...
static bool	IsSame (const GeometricalObject *rLHS, const GeometricalObject *rRHS)
	Checks if two GeometricalObject are the same (pointer version) More...
Static Public Member Functions inherited from Kratos::Flags
static const Flags	AllDefined ()
static const Flags	AllTrue ()
static Flags	Create (IndexType ThisPosition, bool Value=true)
Static Public Attributes inherited from Kratos::AugmentedLagrangianMethodFrictionalMortarContactCondition< 2, TNumNodes, TNormalVariation >
static constexpr IndexType	MatrixSize
	The matrix size definition. More...
static constexpr IndexType	StepSlip
	If consider step slip. More...
Static Public Attributes inherited from Kratos::MortarContactCondition< TDim, TNumNodes, FrictionalCase::FRICTIONAL, TNormalVariation, TNumNodes >
static constexpr IndexType	MatrixSize
	The matrix size definition. More...
static constexpr bool	IsFrictional
	The definition of the frictional flag. More...
static constexpr double	CheckThresholdCoefficient
Protected Member Functions inherited from Kratos::AugmentedLagrangianMethodFrictionalMortarContactCondition< 2, TNumNodes, TNormalVariation >
void	CalculateLocalLHS (Matrix &rLocalLHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
void	CalculateLocalLHS (Matrix &rLocalLHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
void	CalculateLocalLHS (Matrix &rLocalLHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
void	CalculateLocalLHS (Matrix &rLocalLHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
void	CalculateLocalLHS (Matrix &rLocalLHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
void	CalculateLocalLHS (Matrix &rLocalLHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
void	CalculateLocalLHS (Matrix &rLocalLHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
void	CalculateLocalLHS (Matrix &rLocalLHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
void	CalculateLocalLHS (Matrix &rLocalLHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
void	CalculateLocalLHS (Matrix &rLocalLHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
void	CalculateLocalLHS (Matrix &rLocalLHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo) override
	Calculates the local contibution of the LHS. More...
void	CalculateLocalRHS (Vector &rLocalRHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo) override
	Calculates the local contibution of the RHS. More...
IndexType	GetActiveInactiveValue (const GeometryType &CurrentGeometry) const override
	Returns a value depending of the active/inactive set. More...
array_1d< double, TNumNodes >	GetFrictionCoefficient ()
	This method returns a vector containing the friction coefficients. More...
Protected Member Functions inherited from Kratos::MortarContactCondition< TDim, TNumNodes, FrictionalCase::FRICTIONAL, TNormalVariation, TNumNodes >
void	CalculateLocalSystem (MatrixType &rLeftHandSideMatrix, VectorType &rRightHandSideVector, const ProcessInfo &rCurrentProcessInfo) override
	This is called during the assembling process in order to calculate all condition contributions to the global system matrix and the right hand side. More...
void	CalculateRightHandSide (VectorType &rRightHandSideVector, const ProcessInfo &rCurrentProcessInfo) override
	This is called during the assembling process in order to calculate the condition right hand side vector only. More...
void	CalculateLeftHandSide (MatrixType &rLeftHandSideMatrix, const ProcessInfo &rCurrentProcessInfo) override
	This is called during the assembling process in order to calculate the condition left hand side matrix only. More...
void	CalculateConditionSystem (MatrixType &rLeftHandSideMatrix, VectorType &rRightHandSideVector, const ProcessInfo &CurrentProcessInfo, const bool ComputeLHS=true, const bool ComputeRHS=true)
	Calculates the condition contribution. More...
virtual void	CalculateLocalLHS (Matrix &rLocalLHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
	Calculates the local contibution of the LHS. More...
virtual void	CalculateLocalRHS (Vector &rLocalRHS, const MortarConditionMatrices &rMortarConditionMatrices, const DerivativeDataType &rDerivativeData, const IndexType rActiveInactive, const ProcessInfo &rCurrentProcessInfo)
	Calculates the local contibution of the RHS. More...
bool	CheckIsolatedElement (const double DeltaTime, const bool HalfJump=true)
	It checks if the element is isolated or not. More...
IntegrationMethod	GetIntegrationMethod () const override
	It returns theintegration method considered. More...
virtual void	ResizeLHS (MatrixType &rLeftHandSideMatrix)
	This method just resizes the LHS matrix. More...
virtual void	ResizeRHS (VectorType &rRightHandSideVector)
virtual void	ZeroLHS (MatrixType &rLeftHandSideMatrix)
virtual void	ZeroRHS (VectorType &rRightHandSideVector)
Protected Attributes inherited from Kratos::AugmentedLagrangianMethodFrictionalMortarContactCondition< 2, TNumNodes, TNormalVariation >
bool	mPreviousMortarOperatorsInitialized
MortarBaseConditionMatrices	mPreviousMortarOperators
	In order to know iw we need to initialize the previous operators. More...

Detailed Description

template<std::size_t TNumNodes, bool TNormalVariation>
class Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >

AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition.

Todo:

Complete this

Author

Vicente Mataix Ferrandiz

Member Typedef Documentation

AeData

template<std::size_t TNumNodes, bool TNormalVariation>

using Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::AeData = typename MortarBaseType::AeData

Type for the augmented Lagrangian data used in the mortar contact condition.

BaseType

template<std::size_t TNumNodes, bool TNormalVariation>

using Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::BaseType = AugmentedLagrangianMethodFrictionalMortarContactCondition<2, TNumNodes, TNormalVariation>

The base type for the augmented Lagrangian method with frictional mortar contact condition.

ConditionArrayListType

template<std::size_t TNumNodes, bool TNormalVariation>

using Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::ConditionArrayListType = std::vector<array_1d<PointType, 2> >

Type for the array of conditions with points.

ConditionBaseType

template<std::size_t TNumNodes, bool TNormalVariation>

using Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::ConditionBaseType = Condition

The base type for the condition.

DecompositionType

template<std::size_t TNumNodes, bool TNormalVariation>

using Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::DecompositionType = Line2D2<Point>

The decomposition type for the condition.

DerivativeDataType

template<std::size_t TNumNodes, bool TNormalVariation>

using Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::DerivativeDataType = DerivativeDataFrictional<2, TNumNodes>

Type for the derivative data used in frictional mortar contact condition.

DofsVectorType

template<std::size_t TNumNodes, bool TNormalVariation>

using Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::DofsVectorType = typename ConditionBaseType::DofsVectorType

Type for the vector of DOFs of the condition.

EquationIdVectorType

template<std::size_t TNumNodes, bool TNormalVariation>

using Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::EquationIdVectorType = typename ConditionBaseType::EquationIdVectorType

Type for the vector of equation IDs of the condition.

GeneralVariables

template<std::size_t TNumNodes, bool TNormalVariation>

using Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::GeneralVariables = typename MortarBaseType::GeneralVariables

Type for the general variables used in the mortar contact condition.

GeometryPointerType

template<std::size_t TNumNodes, bool TNormalVariation>

using Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::GeometryPointerType = typename ConditionBaseType::GeometryType::Pointer

Pointer type for the geometry of the condition.

IndexType

template<std::size_t TNumNodes, bool TNormalVariation>

using Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::IndexType = typename ConditionBaseType::IndexType

The index type used in the condition.

MatrixType

template<std::size_t TNumNodes, bool TNormalVariation>

using Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::MatrixType = typename ConditionBaseType::MatrixType

The matrix type used in the condition.

MortarBaseType

template<std::size_t TNumNodes, bool TNormalVariation>

using Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::MortarBaseType = MortarContactCondition<2, TNumNodes, FrictionalCase::FRICTIONAL, TNormalVariation>

The base type for the mortar contact condition.

MortarConditionMatrices

template<std::size_t TNumNodes, bool TNormalVariation>

using Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::MortarConditionMatrices = typename MortarBaseType::MortarConditionMatrices

Type for the matrices used in the mortar contact condition.

NodesArrayType

template<std::size_t TNumNodes, bool TNormalVariation>

using Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::NodesArrayType = typename ConditionBaseType::NodesArrayType

The array type for the nodes of the condition.

PropertiesPointerType

template<std::size_t TNumNodes, bool TNormalVariation>

using Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::PropertiesPointerType = typename ConditionBaseType::PropertiesType::Pointer

Pointer type for the properties of the condition.

VectorType

template<std::size_t TNumNodes, bool TNormalVariation>

using Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::VectorType = typename ConditionBaseType::VectorType

The vector type used in the condition.

Constructor & Destructor Documentation

AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition() [1/5]

template<std::size_t TNumNodes, bool TNormalVariation>

Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition ( )

inline

Default constructor.

AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition() [2/5]

template<std::size_t TNumNodes, bool TNormalVariation>

Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition ( IndexType  NewId, GeometryPointerType  pGeometry  )

inline

AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition() [3/5]

template<std::size_t TNumNodes, bool TNormalVariation>

Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition ( IndexType  NewId, GeometryPointerType  pGeometry, PropertiesPointerType  pProperties  )

inline

AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition() [4/5]

template<std::size_t TNumNodes, bool TNormalVariation>

Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition ( IndexType  NewId, GeometryPointerType  pGeometry, PropertiesPointerType  pProperties, GeometryType::Pointer  pMasterGeometry  )

inline

AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition() [5/5]

template<std::size_t TNumNodes, bool TNormalVariation>

Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition ( AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation > const &  rOther )

inline

Copy constructor.

~AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition()

template<std::size_t TNumNodes, bool TNormalVariation>

Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::~AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition ( )

overridedefault

Destructor.

Member Function Documentation

CalculateRadius()

template<std::size_t TNumNodes, bool TNormalVariation>

double Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::CalculateRadius

(

const GeneralVariables &

rVariables

)

const

Calculates the radius of axisymmetry

Parameters

rVariables

Internal values

Returns

Radius The radius of axisymmetry

Create() [1/3]

template<std::size_t TNumNodes, bool TNormalVariation>

Condition::Pointer Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::Create ( IndexType  NewId, GeometryPointerType  pGeom, PropertiesPointerType  pProperties  ) const

override

Creates a new element pointer from an existing geometry.

Parameters

NewId	The ID of the new element
pGeom	The geometry taken to create the condition
pProperties	The properties assigned to the new element

Returns

a Pointer to the new element

Create() [2/3]

template<std::size_t TNumNodes, bool TNormalVariation>

Condition::Pointer Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::Create ( IndexType  NewId, GeometryPointerType  pGeom, PropertiesPointerType  pProperties, GeometryPointerType  pMasterGeom  ) const

override

Creates a new element pointer from an existing geometry.

Parameters

NewId	the ID of the new element
pGeom	the geometry taken to create the condition
pProperties	the properties assigned to the new element
pMasterGeom	the paired geometry

Returns

a Pointer to the new element

Create() [3/3]

template<std::size_t TNumNodes, bool TNormalVariation>

Condition::Pointer Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::Create ( IndexType  NewId, NodesArrayType const &  rThisNodes, PropertiesPointerType  pProperties  ) const

override

Creates a new element pointer from an arry of nodes.

Parameters

NewId	The ID of the new element
rThisNodes	The nodes of the new element
pProperties	The properties assigned to the new element

Returns

a Pointer to the new element

GetAxisymmetricCoefficient()

template<std::size_t TNumNodes, bool TNormalVariation>

double Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::GetAxisymmetricCoefficient ( const GeneralVariables &  rVariables ) const

overridevirtual

This functions computes the integration weight to consider

Parameters

rVariables

The kinematic variables

Reimplemented from Kratos::MortarContactCondition< TDim, TNumNodes, FrictionalCase::FRICTIONAL, TNormalVariation, TNumNodes >.

Info()

template<std::size_t TNumNodes, bool TNormalVariation>

std::string Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::Info ( ) const

inlineoverridevirtual

Turn back information as a string.

Reimplemented from Kratos::Condition.

IsAxisymmetric()

template<std::size_t TNumNodes, bool TNormalVariation>

bool Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::IsAxisymmetric

overridevirtual

This functions returns if the computation is axisymmetric or not.

Returns

If axisymmetric or not

Reimplemented from Kratos::MortarContactCondition< TDim, TNumNodes, FrictionalCase::FRICTIONAL, TNormalVariation, TNumNodes >.

KRATOS_CLASS_INTRUSIVE_POINTER_DEFINITION()

template<std::size_t TNumNodes, bool TNormalVariation>

Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::KRATOS_CLASS_INTRUSIVE_POINTER_DEFINITION

(

AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >

)

Counted pointer of AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition.

PrintData()

template<std::size_t TNumNodes, bool TNormalVariation>

void Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::PrintData ( std::ostream &  rOStream ) const

inlineoverridevirtual

Print object's data.

Reimplemented from Kratos::Condition.

PrintInfo()

template<std::size_t TNumNodes, bool TNormalVariation>

void Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::PrintInfo ( std::ostream &  rOStream ) const

inlineoverridevirtual

Print information about this object.

Reimplemented from Kratos::Condition.

Friends And Related Function Documentation

Serializer

template<std::size_t TNumNodes, bool TNormalVariation>

friend class Serializer

friend

Member Data Documentation

MatrixSize

template<std::size_t TNumNodes, bool TNormalVariation>

constexpr IndexType Kratos::AugmentedLagrangianMethodFrictionalMortarContactAxisymCondition< TNumNodes, TNormalVariation >::MatrixSize = 2 * (TNumNodes + TNumNodes) + TNumNodes

staticconstexpr

Matrix size definition.

---

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

• /home/runner/work/Documentation/Documentation/master/applications/ContactStructuralMechanicsApplication/custom_conditions/ALM_frictional_mortar_contact_axisym_condition.h
• /home/runner/work/Documentation/Documentation/master/applications/ContactStructuralMechanicsApplication/custom_conditions/ALM_frictional_mortar_contact_axisym_condition.cpp