Base class for fully coupled, nonlinear thermo mechanical elements. More...

Inheritance diagram for oofem::TMElement:

Collaboration diagram for oofem::TMElement:

Public Member Functions
	TMElement (int n, Domain *d)
void	giveCharacteristicMatrix (FloatMatrix &answer, CharType type, TimeStep *tStep) override
void	giveCharacteristicVector (FloatArray &answer, CharType type, ValueModeType mode, TimeStep *tStep) override
void	giveCharacteristicMatrixFromBC (FloatMatrix &answer, CharType type, TimeStep tStep, GeneralBoundaryCondition bc, int boundaryID) override
virtual void	giveCharacteristicVectorFromBC (FloatArray &answer, CharType type, ValueModeType mode, TimeStep tStep, GeneralBoundaryCondition bc, int boundaryID) override
void	computeBoundarySurfaceLoadVector (FloatArray &answer, BoundaryLoad load, int boundary, CharType type, ValueModeType mode, TimeStep tStep, bool global=true) override
void	computeBoundaryEdgeLoadVector (FloatArray &answer, BoundaryLoad load, int boundary, CharType type, ValueModeType mode, TimeStep tStep, bool global=true) override
void	computeLoadVector (FloatArray &answer, BodyLoad load, CharType type, ValueModeType mode, TimeStep tStep) override
int	computeFluxLBToLRotationMatrix (FloatMatrix &answer, int iSurf, const FloatArray &lc, const Variable::VariableQuantity q, char btype) override
Public Member Functions inherited from oofem::MPElement
	MPElement (int n, Domain *aDomain)
void	initialize ()
void	integrateTerm_dw (FloatMatrix &answer, const Term &term, IntegrationRule iRule, TimeStep tstep)
void	integrateTerm_c (FloatArray &answer, const Term &term, IntegrationRule iRule, TimeStep tstep)
void	integrateSurfaceTerm_dw (FloatMatrix &answer, const Term &term, IntegrationRule iRule, int isurf, TimeStep tstep)
void	integrateSurfaceTerm_c (FloatArray &answer, const Term &term, IntegrationRule iRule, int isurf, TimeStep tstep)
void	integrateEdgeTerm_dw (FloatMatrix &answer, const Term &term, IntegrationRule iRule, int iedge, TimeStep tstep)
void	integrateEdgeTerm_c (FloatArray &answer, const Term &term, IntegrationRule iRule, int iedge, TimeStep tstep)
virtual void	getDofManLocalCodeNumbers (IntArray &answer, const Variable::VariableQuantity q, int n) const =0
virtual void	getInternalDofManLocalCodeNumbers (IntArray &answer, const Variable::VariableQuantity q, int n) const =0
virtual void	getLocalCodeNumbers (IntArray &answer, const Variable::VariableQuantity q) const
virtual int	getNumberOfSurfaceDOFs () const =0
virtual int	getNumberOfEdgeDOFs () const =0
virtual void	getSurfaceLocalCodeNumbers (IntArray &answer, const Variable::VariableQuantity q) const =0
virtual void	getEdgeLocalCodeNumbers (IntArray &answer, const Variable::VariableQuantity q) const =0
virtual void	getSurfaceElementCodeNumbers (IntArray &answer, const Variable::VariableQuantity q, int isurf) const
	Returns element code numbers of the unknowns associated with given boundary entity.
virtual void	getEdgeElementCodeNumbers (IntArray &answer, const Variable::VariableQuantity q, int isurf) const
virtual void	getBoundaryUnknownVector (FloatArray &answer, const Variable field, ValueModeType mode, int ibc, char bt, TimeStep tStep)
void	assembleTermContribution (FloatMatrix &answer, FloatMatrix &contrib, const Term &t)
	Assembles the partial element contribution into local element matrix.
void	assembleTermContributionT (FloatMatrix &answer, FloatMatrix &contrib, const Term &t)
void	assembleTermContribution (FloatArray &answer, FloatArray &contrib, const Term &t)
virtual const void	getUnknownVector (FloatArray &answer, const Variable field, ValueModeType mode, TimeStep tstep)
	Returns vector of nodal unknowns for given Variable.
virtual double	computeSurfaceVolumeAround (GaussPoint *igp, int iSurf)
virtual double	computeEdgeVolumeAround (GaussPoint *igp, int iEdge)
virtual double	computeVolumeAround (GaussPoint *igp) override
FEInterpolation *	giveInterpolation () const override
IntArray	giveBoundarySurfaceNodes (int boundary, bool includeHierarchical=false) const override
IntArray	giveBoundaryEdgeNodes (int boundary, bool includeHierarchical=false) const override
Public Member Functions inherited from oofem::Element
	Element (int n, Domain *aDomain)
	Element (const Element &src)=delete
Element &	operator= (const Element &src)=delete
virtual	~Element ()
	Virtual destructor.
void	giveLocationArray (IntArray &locationArray, const UnknownNumberingScheme &s, IntArray *dofIds=NULL) const
void	giveLocationArray (IntArray &locationArray, const IntArray &dofIDMask, const UnknownNumberingScheme &s, IntArray *dofIds=NULL) const
virtual void	giveBoundaryLocationArray (IntArray &locationArray, const IntArray &bNodes, const UnknownNumberingScheme &s, IntArray *dofIds=NULL)
virtual void	giveBoundaryLocationArray (IntArray &locationArray, const IntArray &bNodes, const IntArray &dofIDMask, const UnknownNumberingScheme &s, IntArray *dofIds=NULL)
virtual int	giveNumberOfDofs ()
virtual int	giveNumberOfInternalDofManagers () const
virtual DofManager *	giveInternalDofManager (int i) const
virtual void	setInternalDofManager (int num, std::unique_ptr< DofManager > dm)
virtual double	giveCharacteristicValue (CharType type, TimeStep *tStep)
virtual void	computeTangentFromSurfaceLoad (FloatMatrix &answer, BoundaryLoad load, int boundary, MatResponseMode rmode, TimeStep tStep)
virtual void	computeTangentFromEdgeLoad (FloatMatrix &answer, BoundaryLoad load, int boundary, MatResponseMode rmode, TimeStep tStep)
const IntArray &	giveBodyLoadList () const
const IntArray &	giveBoundaryLoadList () const
void	computeVectorOf (ValueModeType u, TimeStep *tStep, FloatArray &answer)
void	computeVectorOf (const IntArray &dofIDMask, ValueModeType u, TimeStep *tStep, FloatArray &answer, bool padding=false)
void	computeBoundaryVectorOf (const IntArray &bNodes, const IntArray &dofIDMask, ValueModeType u, TimeStep *tStep, FloatArray &answer, bool padding=false)
void	computeVectorOf (PrimaryField &field, const IntArray &dofIDMask, ValueModeType u, TimeStep *tStep, FloatArray &answer, bool padding=false)
void	computeVectorOfPrescribed (ValueModeType u, TimeStep *tStep, FloatArray &answer)
void	computeVectorOfPrescribed (const IntArray &dofIDMask, ValueModeType type, TimeStep *tStep, FloatArray &answer)
virtual int	computeNumberOfDofs ()
virtual int	computeNumberOfGlobalDofs ()
int	computeNumberOfPrimaryMasterDofs ()
virtual bool	computeGtoLRotationMatrix (FloatMatrix &answer)
virtual bool	giveRotationMatrix (FloatMatrix &answer)
virtual bool	computeDofTransformationMatrix (FloatMatrix &answer, const IntArray &nodes, bool includeInternal)
virtual void	giveDofManDofIDMask (int inode, IntArray &answer) const
virtual void	giveInternalDofManDofIDMask (int inode, IntArray &answer) const
virtual void	giveElementDofIDMask (IntArray &answer) const
virtual void	computeField (ValueModeType mode, TimeStep *tStep, const FloatArray &lcoords, FloatArray &answer)
virtual double	computeVolumeAreaOrLength ()
	Computes the volume, area or length of the element depending on its spatial dimension.
double	computeMeanSize ()
virtual double	computeVolume ()
virtual double	computeArea ()
virtual double	computeLength ()
virtual IntArray	giveBoundaryNodes (int boundary) const
virtual std::unique_ptr< IntegrationRule >	giveBoundaryEdgeIntegrationRule (int order, int boundary)
virtual std::unique_ptr< IntegrationRule >	giveBoundarySurfaceIntegrationRule (int order, int boundary)
int	giveDofManagerNumber (int i) const
const IntArray &	giveDofManArray () const
void	addDofManager (DofManager *dMan)
DofManager *	giveDofManager (int i) const
Node *	giveNode (int i) const
virtual ElementSide *	giveSide (int i) const
virtual FEInterpolation *	giveInterpolation (DofIDItem id) const
virtual const FEInterpolation *	getGeometryInterpolation () const
virtual Material *	giveMaterial ()
int	giveMaterialNumber () const
CrossSection *	giveCrossSection ()
int	getActivityTimeFunctionNumber ()
void	setActivityTimeFunctionNumber (int funcIndx)
void	setMaterial (int matIndx)
virtual void	setCrossSection (int csIndx)
virtual int	giveNumberOfDofManagers () const
void	setNumberOfDofManagers (int i)
	Sets number of element dof managers.
virtual int	giveNumberOfNodes () const
void	setDofManagers (const IntArray &dmans)
void	setDofManager (int id, int dm)
void	setBodyLoads (const IntArray &bodyLoads)
void	setIntegrationRules (std ::vector< std ::unique_ptr< IntegrationRule > > irlist)
virtual integrationDomain	giveIntegrationDomain () const
virtual MaterialMode	giveMaterialMode ()
virtual int	giveIntegrationRuleLocalCodeNumbers (IntArray &answer, IntegrationRule &ie)
int	giveRegionNumber ()
virtual void	updateInternalState (TimeStep *tStep)
virtual void	updateYourself (TimeStep *tStep)
virtual void	initializeYourself (TimeStep *timeStepWhenICApply)
int	checkConsistency () override
virtual bool	isActivated (TimeStep *tStep)
virtual bool	isCast (TimeStep *tStep)
virtual void	initForNewStep ()
virtual Element_Geometry_Type	giveGeometryType () const =0
virtual Element_Geometry_Type	giveEdgeGeometryType (int id) const
	Returns the receiver edge geometry type.
virtual Element_Geometry_Type	giveSurfaceGeometryType (int id) const
	Returns the receiver surface geometry type.
virtual int	giveSpatialDimension ()
virtual int	giveNumberOfBoundarySides ()
	Returns number of boundaries (entities of element_dimension-1: points, edges, surfaces).
virtual int	giveNumberOfEdges () const
virtual int	giveNumberOfSurfaces () const
virtual int	giveDefaultIntegrationRule () const
virtual IntegrationRule *	giveDefaultIntegrationRulePtr ()
int	giveNumberOfIntegrationRules ()
virtual IntegrationRule *	giveIntegrationRule (int i)
std::vector< std ::unique_ptr< IntegrationRule > > &	giveIntegrationRulesArray ()
virtual int	testElementExtension (ElementExtension ext)
virtual int	giveIPValue (FloatArray &answer, GaussPoint gp, InternalStateType type, TimeStep tStep)
int	giveGlobalIPValue (FloatArray &answer, GaussPoint gp, InternalStateType type, TimeStep tStep)
virtual double	giveLengthInDir (const FloatArray &normalToCrackPlane)
virtual double	giveCharacteristicLength (const FloatArray &normalToCrackPlane)
double	giveCharacteristicLengthForPlaneElements (const FloatArray &normalToCrackPlane)
double	giveCharacteristicLengthForAxisymmElements (const FloatArray &normalToCrackPlane)
virtual double	giveCharacteristicSize (GaussPoint *gp, FloatArray &normalToCrackPlane, ElementCharSizeMethod method)
virtual double	giveParentElSize () const
virtual void	updateBeforeNonlocalAverage (TimeStep *tStep)
virtual int	computeGlobalCoordinates (FloatArray &answer, const FloatArray &lcoords)
virtual bool	computeLocalCoordinates (FloatArray &answer, const FloatArray &gcoords)
virtual int	giveLocalCoordinateSystem (FloatMatrix &answer)
virtual void	giveLocalCoordinateSystemVector (InternalStateType isttype, FloatArray &answer)
virtual void	computeMidPlaneNormal (FloatArray &answer, const GaussPoint *gp)
virtual int	adaptiveMap (Domain oldd, TimeStep tStep)
virtual int	mapStateVariables (Domain &iOldDom, const TimeStep &iTStep)
virtual int	adaptiveUpdate (TimeStep *tStep)
virtual int	adaptiveFinish (TimeStep *tStep)
void	updateLocalNumbering (EntityRenumberingFunctor &f) override
template<class T>
void	ipEvaluator (T src, void(T ::f)(GaussPoint *gp))
	Integration point evaluator, loops over receiver IP's and calls given function (passed as f parameter) on them. The IP is parameter to function f.
template<class T, class S>
void	ipEvaluator (T src, void(T ::f)(GaussPoint *, S &), S &_val)
	Integration point evaluator, loops over receiver IP's and calls given function (passed as f parameter) on them. The IP is parameter to function f as well as additional array.
virtual void	drawYourself (oofegGraphicContext &gc, TimeStep *tStep)
virtual void	drawAnnotation (oofegGraphicContext &gc, TimeStep *tStep)
virtual void	drawRawGeometry (oofegGraphicContext &gc, TimeStep *tStep)
virtual void	drawDeformedGeometry (oofegGraphicContext &gc, TimeStep *tStep, UnknownType)
virtual void	drawScalar (oofegGraphicContext &gc, TimeStep *tStep)
virtual void	drawSpecial (oofegGraphicContext &gc, TimeStep *tStep)
virtual void	giveLocalIntVarMaxMin (oofegGraphicContext &gc, TimeStep *tStep, double &emin, double &emax)
virtual int	giveInternalStateAtNode (FloatArray &answer, InternalStateType type, InternalStateMode mode, int node, TimeStep *tStep)
virtual int	giveInternalStateAtSide (FloatArray &answer, InternalStateType type, InternalStateMode mode, int side, TimeStep *tStep)
virtual void	showSparseMtrxStructure (CharType mtrx, oofegGraphicContext &gc, TimeStep *tStep)
	Shows sparse structure.
virtual void	showExtendedSparseMtrxStructure (CharType mtrx, oofegGraphicContext &gc, TimeStep *tStep)
	Shows extended sparse structure (for example, due to nonlocal interactions for tangent stiffness).
int	giveLabel () const
int	giveGlobalNumber () const
void	setGlobalNumber (int num)
elementParallelMode	giveParallelMode () const
void	setParallelMode (elementParallelMode _mode)
	Sets parallel mode of element.
virtual elementParallelMode	giveKnotSpanParallelMode (int) const
int	packUnknowns (DataStream &buff, TimeStep *tStep)
int	unpackAndUpdateUnknowns (DataStream &buff, TimeStep *tStep)
int	estimatePackSize (DataStream &buff)
const IntArray *	givePartitionList () const
void	setPartitionList (IntArray &pl)
virtual double	predictRelativeComputationalCost ()
virtual double	giveRelativeSelfComputationalCost ()
virtual double	predictRelativeRedistributionCost ()
IntArray *	giveBodyLoadArray ()
	Returns array containing load numbers of loads acting on element.
IntArray *	giveBoundaryLoadArray ()
	Returns array containing load numbers of boundary loads acting on element.
void	initializeFrom (InputRecord &ir, int priority) override
void	initializeFinish () override
void	postInitialize () override
	Performs post initialization steps.
void	giveInputRecord (DynamicInputRecord &input) override
void	saveContext (DataStream &stream, ContextMode mode) override
void	restoreContext (DataStream &stream, ContextMode mode) override
const char *	giveClassName () const override
void	printOutputAt (FILE file, TimeStep tStep) override
virtual const IntArray	giveLocation ()
virtual void	recalculateCoordinates (int nodeNumber, FloatArray &coords)
void	setSharedEdgeID (int iedge, int globalID)
void	setSharedSurfaceID (int isurf, int globalID)
const IntArray *	giveSharedEdgeIDs () const
const IntArray *	giveSharedSurfaceIDs () const
Public Member Functions inherited from oofem::FEMComponent
	FEMComponent (int n, Domain *d)
virtual	~FEMComponent ()=default
	Virtual destructor.
virtual const char *	giveInputRecordName () const =0
Domain *	giveDomain () const
virtual void	setDomain (Domain *d)
int	giveNumber () const
void	setNumber (int num)
virtual void	initializeFrom (InputRecord &ir)
virtual void	printYourself ()
	Prints receiver state on stdout. Useful for debugging.
virtual Interface *	giveInterface (InterfaceType t)
std::string	errorInfo (const char *func) const
	Returns string for prepending output (used by error reporting macros).

Private Member Functions
virtual int	giveNumberOfUDofs () const =0
virtual int	giveNumberOfTDofs () const =0
virtual const Variable *	getU () const =0
virtual const Variable *	getT () const =0

Additional Inherited Members
Static Public Attributes inherited from oofem::Element
static ParamKey	IPK_Element_mat
static ParamKey	IPK_Element_crosssect
static ParamKey	IPK_Element_nodes
static ParamKey	IPK_Element_bodyload
static ParamKey	IPK_Element_boundaryload
static ParamKey	IPK_Element_lcs
static ParamKey	IPK_Element_partitions
static ParamKey	IPK_Element_remote
static ParamKey	IPK_Element_activityTimeFunction
static ParamKey	IPK_Element_nip
virtual void	computeGaussPoints ()
Protected Attributes inherited from oofem::Element
int	numberOfDofMans
	Number of dofmanagers.
IntArray	dofManArray
	Array containing dofmanager numbers.
int	material
	Number of associated material.
int	crossSection
	Number of associated cross section.
IntArray	bodyLoadArray
IntArray	boundaryLoadArray
std::vector< std ::unique_ptr< IntegrationRule > >	integrationRulesArray
FloatMatrix	elemLocalCS
	Transformation material matrix, used in orthotropic and anisotropic materials, global->local transformation.
int	activityTimeFunction
	Element activity time function. If defined, nonzero value indicates active receiver, zero value inactive element.
int	globalNumber
int	numberOfGaussPoints
elementParallelMode	parallel_mode
	Determines the parallel mode of the element.
IntArray	partitions
IntArray	globalEdgeIDs
IntArray	globalSurfaceIDs
Protected Attributes inherited from oofem::FEMComponent
int	number
	Component number.
Domain *	domain
	Link to domain object, useful for communicating with other FEM components.

Detailed Description

Base class for fully coupled, nonlinear thermo mechanical elements.

Definition at line 66 of file tm.C.

Constructor & Destructor Documentation

◆ TMElement()

oofem::TMElement::TMElement	(	int	n,
		Domain *	d )

inline

Definition at line 75 of file tm.C.

References oofem::MPElement::MPElement().

Referenced by oofem::TMBrick11::TMBrick11().

Member Function Documentation

◆ computeBoundaryEdgeLoadVector()

void oofem::TMElement::computeBoundaryEdgeLoadVector	(	FloatArray &	answer,
		BoundaryLoad *	load,
		int	edge,
		CharType	type,
		ValueModeType	mode,
		TimeStep *	tStep,
		bool	global = true )

inlineoverridevirtual

Computes the contribution of the given load at the given boundary edge. In general, the answer should include only relevant DOFs at the edge. The related is giveBoundaryLocationArray method, which should return corresponding code numbers..

Note: Elements which do not have an contribution should resize the vector to be empty.

Parameters

answer	Requested contribution of load (in Global c.s.).
load	Load to compute contribution from.
edge	Edge number.
type	Type of the contribution.
mode	Determines mode of answer.
tStep	Time step when answer is computed.
global	if true (default) then contribution is in global c.s., when false then contribution is in element local c.s.

Todo: Change the load type to "BoundaryEdgeLoad" maybe?

Reimplemented from oofem::Element.

Definition at line 218 of file tm.C.

References oofem::FloatArray::assemble(), oofem::ConvectionBC, oofem::MPElement::getEdgeLocalCodeNumbers(), oofem::Element::getGeometryInterpolation(), oofem::MPElement::getNumberOfEdgeDOFs(), getT(), getU(), oofem::BoundaryLoad::giveApproxOrder(), oofem::FEInterpolation::giveBoundaryEdgeIntegrationRule(), oofem::Element::giveGeometryType(), oofem::FEInterpolation::giveInterpolationOrder(), oofem::BoundaryLoad::giveType(), oofem::MPElement::integrateEdgeTerm_c(), oofem::Variable::interpolation, OOFEM_ERROR, oofem::FloatArray::resize(), oofem::FloatArray::times(), oofem::TransmissionBC, and oofem::FloatArray::zero().

◆ computeBoundarySurfaceLoadVector()

void oofem::TMElement::computeBoundarySurfaceLoadVector	(	FloatArray &	answer,
		BoundaryLoad *	load,
		int	boundary,
		CharType	type,
		ValueModeType	mode,
		TimeStep *	tStep,
		bool	global = true )

inlineoverridevirtual

Computes the contribution of the given load at the given boundary surface in global coordinate system. In general, the answer should include only relevant DOFs at the edge. The related is giveBoundaryLocationArray method, which should return corresponding code numbers.

Note: Elements which do not have an contribution should resize the vector to be empty.

Parameters

answer	Requested contribution of load.
load	Load to compute contribution from.
boundary	Boundary number.
type	Type of the contribution.
mode	Determines mode of answer.
tStep	Time step when answer is computed.
global	if true (default) then contribution is in global c.s., when false then contribution is in element local c.s.

Reimplemented from oofem::Element.

Definition at line 182 of file tm.C.

References oofem::FloatArray::assemble(), oofem::ConvectionBC, oofem::Element::getGeometryInterpolation(), oofem::MPElement::getNumberOfSurfaceDOFs(), oofem::MPElement::getSurfaceLocalCodeNumbers(), getT(), getU(), oofem::BoundaryLoad::giveApproxOrder(), oofem::FEInterpolation::giveBoundarySurfaceIntegrationRule(), oofem::Element::giveGeometryType(), oofem::FEInterpolation::giveInterpolationOrder(), oofem::BoundaryLoad::giveType(), oofem::MPElement::integrateSurfaceTerm_c(), oofem::Variable::interpolation, OOFEM_ERROR, oofem::FloatArray::resize(), oofem::FloatArray::times(), oofem::TransmissionBC, and oofem::FloatArray::zero().

◆ computeFluxLBToLRotationMatrix()

int oofem::TMElement::computeFluxLBToLRotationMatrix	(	FloatMatrix &	answer,
		int	iSurf,
		const FloatArray &	lc,
		const Variable::VariableQuantity	q,
		char	btype )

inlineoverridevirtual

Returns transformation matrix from local boundary (edge/surface) c.s to element local coordinate system of load/flux vector components. If no transformation is necessary, answer is empty matrix (default);

Parameters

answer	Computed rotation matrix.
iSurf	Surface/edge number.
lc	local coordinates at which to compute transformation
dofIDs	dofID ask identifying relevant DOFs
btype	boundary type ('s'for surface, 'e' for edge)

Returns: Nonzero if transformation matrix is not empty matrix, zero otherwise.

Reimplemented from oofem::MPElement.

Definition at line 274 of file tm.C.

References oofem::FloatArray::at(), oofem::FloatMatrix::at(), oofem::FloatArray::beVectorProductOf(), oofem::FEInterpolation::boundarySurfaceEvalNormal(), oofem::FloatMatrix::clear(), oofem::Element::getGeometryInterpolation(), oofem::FloatArray::normalize(), OOFEM_ERROR, and oofem::FloatMatrix::resize().

◆ computeLoadVector()

void oofem::TMElement::computeLoadVector	(	FloatArray &	answer,
		BodyLoad *	load,
		CharType	type,
		ValueModeType	mode,
		TimeStep *	tStep )

inlineoverridevirtual

Computes the contribution of the given body load (volumetric).

Parameters

answer	Requested contribution of load.
load	Load to compute contribution from.
type	Type of the contribution.
mode	Determines mode of answer.
tStep	Time step when answer is computed.

Reimplemented from oofem::Element.

Definition at line 252 of file tm.C.

References oofem::FloatArray::assemble(), oofem::ForceLoadBVT, oofem::MPElement::getLocalCodeNumbers(), getT(), getU(), oofem::GeneralBoundaryCondition::giveBCValType(), oofem::Element::giveDefaultIntegrationRulePtr(), oofem::Element::giveNumberOfDofs(), oofem::MPElement::integrateTerm_c(), OOFEM_ERROR, oofem::FloatArray::resize(), and oofem::FloatArray::zero().

◆ getT()

virtual const Variable * oofem::TMElement::getT ( ) const

privatepure virtual

Implemented in oofem::TMBrick11.

Referenced by computeBoundaryEdgeLoadVector(), computeBoundarySurfaceLoadVector(), computeLoadVector(), giveCharacteristicMatrix(), giveCharacteristicMatrixFromBC(), giveCharacteristicVector(), and giveCharacteristicVectorFromBC().

◆ getU()

virtual const Variable * oofem::TMElement::getU ( ) const

privatepure virtual

Implemented in oofem::TMBrick11.

Referenced by computeBoundaryEdgeLoadVector(), computeBoundarySurfaceLoadVector(), computeLoadVector(), giveCharacteristicMatrix(), giveCharacteristicMatrixFromBC(), and giveCharacteristicVector().

◆ giveCharacteristicMatrix()

void oofem::TMElement::giveCharacteristicMatrix	(	FloatMatrix &	answer,
		CharType	type,
		TimeStep *	tStep )

inlineoverridevirtual

Computes characteristic matrix of receiver of requested type in given time step.

Parameters

answer	Requested characteristic matrix (stiffness, tangent, ...). If element has no capability to compute requested type of characteristic matrix error function is invoked.
type	Id of characteristic component requested.
tStep	Time step when answer is computed.

Reimplemented from oofem::Element.

Definition at line 81 of file tm.C.

References getT(), getU(), oofem::Element::giveDefaultIntegrationRulePtr(), giveNumberOfTDofs(), giveNumberOfUDofs(), oofem::MPElement::integrateTerm_dw(), OOFEM_ERROR, oofem::FloatMatrix::resize(), and oofem::FloatMatrix::zero().

◆ giveCharacteristicMatrixFromBC()

void oofem::TMElement::giveCharacteristicMatrixFromBC	(	FloatMatrix &	answer,
		CharType	type,
		TimeStep *	tStep,
		GeneralBoundaryCondition *	bc,
		int	boundaryID )

inlineoverridevirtual

◆ giveCharacteristicVector()

void oofem::TMElement::giveCharacteristicVector	(	FloatArray &	answer,
		CharType	type,
		ValueModeType	mode,
		TimeStep *	tStep )

inlineoverridevirtual

Computes characteristic vector of receiver of requested type in given time step. If element has no capability to compute requested type of characteristic vector error function is invoked.

Parameters

answer	Requested characteristic vector.
type	Id of characteristic component requested.
mode	Determines mode of answer.
tStep	Time step when answer is computed.

Reimplemented from oofem::Element.

Definition at line 111 of file tm.C.

References getT(), getU(), oofem::Element::giveDefaultIntegrationRulePtr(), giveNumberOfTDofs(), giveNumberOfUDofs(), oofem::MPElement::integrateTerm_c(), OOFEM_ERROR, oofem::FloatArray::resize(), oofem::FloatArray::subtract(), oofem::FloatArray::times(), and oofem::FloatArray::zero().

◆ giveCharacteristicVectorFromBC()

virtual void oofem::TMElement::giveCharacteristicVectorFromBC	(	FloatArray &	answer,
		CharType	type,
		ValueModeType	mode,
		TimeStep *	tStep,
		GeneralBoundaryCondition *	bc,
		int	boundaryID )