mfem::TMOP_Metric_skew2D Class Reference

2D non-barrier Skew metric. More...

#include <tmop.hpp>

Inheritance diagram for mfem::TMOP_Metric_skew2D:

Collaboration diagram for mfem::TMOP_Metric_skew2D:

Public Member Functions
virtual real_t	EvalW (const DenseMatrix &Jpt) const
	Evaluate the strain energy density function, W = W(Jpt), by using the 2D or 3D matrix invariants, see linalg/invariants.hpp.
virtual void	EvalP (const DenseMatrix &Jpt, DenseMatrix &P) const
	Evaluate the 1st Piola-Kirchhoff stress tensor, P = P(Jpt).
virtual void	AssembleH (const DenseMatrix &Jpt, const DenseMatrix &DS, const real_t weight, DenseMatrix &A) const
	Evaluate the derivative of the 1st Piola-Kirchhoff stress tensor and assemble its contribution to the local gradient matrix 'A'.
Public Member Functions inherited from mfem::TMOP_QualityMetric
	TMOP_QualityMetric ()
virtual	~TMOP_QualityMetric ()
virtual void	SetTargetJacobian (const DenseMatrix &Jtr_)
	Specify the reference-element -> target-element Jacobian matrix for the point of interest.
virtual real_t	EvalWMatrixForm (const DenseMatrix &Jpt) const
	Evaluates the metric in matrix form (opposed to invariant form). Used for validating the invariant evaluations.
virtual int	Id () const
	Return the metric ID.
Public Member Functions inherited from mfem::HyperelasticModel
	HyperelasticModel ()
virtual	~HyperelasticModel ()
void	SetTransformation (ElementTransformation &Ttr_)

Additional Inherited Members
Protected Member Functions inherited from mfem::TMOP_QualityMetric
void	SetTransformation (ElementTransformation &)
	The method HyperelasticModel::SetTransformation() is hidden for TMOP_QualityMetrics, because it is not used.
Protected Attributes inherited from mfem::TMOP_QualityMetric
const DenseMatrix *	Jtr
Protected Attributes inherited from mfem::HyperelasticModel
ElementTransformation *	Ttr

Detailed Description

2D non-barrier Skew metric.

Definition at line 239 of file tmop.hpp.

Member Function Documentation

AssembleH()

virtual void mfem::TMOP_Metric_skew2D::AssembleH ( const DenseMatrix & Jpt, const DenseMatrix & DS, const real_t weight, DenseMatrix & A ) const

inlinevirtual

Evaluate the derivative of the 1st Piola-Kirchhoff stress tensor and assemble its contribution to the local gradient matrix 'A'.

Parameters

[in]	Jpt	Represents the target->physical transformation Jacobian matrix.
[in]	DS	Gradient of the basis matrix (dof x dim).
[in]	weight	Quadrature weight coefficient for the point.
[in,out]	A	Local gradient matrix where the contribution from this point will be added.

Computes weight * d(dW_dxi)_d(xj) at the current point, for all i and j, where x1 ... xn are the FE dofs. This function is usually defined using the matrix invariants and their derivatives.

Implements mfem::TMOP_QualityMetric.

Definition at line 248 of file tmop.hpp.

EvalP()

virtual void mfem::TMOP_Metric_skew2D::EvalP ( const DenseMatrix & Jpt, DenseMatrix & P ) const

inlinevirtual

Evaluate the 1st Piola-Kirchhoff stress tensor, P = P(Jpt).

Parameters

[in]	Jpt	Represents the target->physical transformation Jacobian matrix.
[out]	P	The evaluated 1st Piola-Kirchhoff stress tensor.

Implements mfem::TMOP_QualityMetric.

Definition at line 245 of file tmop.hpp.

EvalW()

real_t mfem::TMOP_Metric_skew2D::EvalW ( const DenseMatrix & Jpt ) const

virtual

Evaluate the strain energy density function, W = W(Jpt), by using the 2D or 3D matrix invariants, see linalg/invariants.hpp.

Parameters

[in]

Jpt

Represents the target->physical transformation Jacobian matrix.

Implements mfem::TMOP_QualityMetric.

Definition at line 222 of file tmop.cpp.

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

• fem/tmop.hpp
• fem/tmop.cpp