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/*=========================================================================
*
* Copyright Insight Software Consortium
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0.txt
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
*=========================================================================*/
#ifndef itkFEMElement2DC0LinearTriangular_h
#define itkFEMElement2DC0LinearTriangular_h
#include "itkFEMElementStd.h"
#include "ITKFEMExport.h"
namespace itk
{
namespace fem
{
/**
* \class Element2DC0LinearTriangular
* \brief 3-noded, linear, C0 continuous finite element in 2D space.
* \ingroup ITKFEM
*
* The ordering of the nodes is counter clockwise. That is the nodes
* should be defined in the following order:
*
* (0,1)
* 2
* *
* |\
* | \
* | \
* | \
* | \
* | \
* *------*
* 0 1
* (0,0) (0,1)
*
* This is an abstract class. Specific concrete implementations of this
* It must be combined with the physics component of the problem.
* This has already been done in the following classes:
*
* \sa Element2DC0LinearTriangular
* \sa Element2DC0LinearTriangularStrain
* \sa Element2DC0LinearTriangularStress
*/
class ITKFEM_EXPORT Element2DC0LinearTriangular : public ElementStd<3, 2>
{
public:
/** Standard class typedefs. */
typedef Element2DC0LinearTriangular Self;
typedef ElementStd<3, 2> TemplatedParentClass;
typedef TemplatedParentClass Superclass;
typedef SmartPointer<Self> Pointer;
typedef SmartPointer<const Self> ConstPointer;
/** Run-time type information (and related methods). */
itkTypeMacro(Element2DC0LinearTriangular, TemplatedParentClass);
// ////////////////////////////////////////////////////////////////////////
/**
* Methods related to numeric integration
*/
enum { DefaultIntegrationOrder = 1 };
/** Get the Integration point and weight */
virtual void GetIntegrationPointAndWeight(unsigned int i, VectorType & pt, Float & w, unsigned int order) const ITK_OVERRIDE;
/** Get the number of integration points */
virtual unsigned int GetNumberOfIntegrationPoints(unsigned int order) const ITK_OVERRIDE;
// ////////////////////////////////////////////////////////////////////////
/**
* Methods related to the geometry of an element
*/
/** Return the shape functions used to interpolate across the element */
virtual VectorType ShapeFunctions(const VectorType & pt) const ITK_OVERRIDE;
/** Return the shape functions derivatives in the shapeD matrix */
virtual void ShapeFunctionDerivatives(const VectorType & pt, MatrixType & shapeD) const ITK_OVERRIDE;
/** Convert from global to local coordinates */
virtual bool GetLocalFromGlobalCoordinates(const VectorType & globalPt, VectorType & localPt) const ITK_OVERRIDE;
// Since the Jacobian is not quadratic, we need to provide our
// own implementation of calculating the determinant and inverse.
virtual Float JacobianDeterminant(const VectorType & pt, const MatrixType *pJ = ITK_NULLPTR) const ITK_OVERRIDE;
/** Return the inverse of the Jacobian */
virtual void JacobianInverse(const VectorType & pt, MatrixType & invJ, const MatrixType *pJ = ITK_NULLPTR) const ITK_OVERRIDE;
/**
* Constants for integration rules.
*/
static const Float trigGaussRuleInfo[6][7][4];
/**
* Array that holds number of integration point for each order
* of numerical integration.
*/
static const unsigned int Nip[6];
protected:
virtual void PopulateEdgeIds(void) ITK_OVERRIDE;
virtual void PrintSelf(std::ostream& os, Indent indent) const ITK_OVERRIDE;
};
}
} // end namespace itk::fem
#endif // #ifndef itkFEMElement2DC0LinearTriangular_h
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