/*========================================================================= * * Copyright NumFOCUS * * 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 * * https://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 itkFEMElement2DC0QuadraticTriangular_h #define itkFEMElement2DC0QuadraticTriangular_h #include "itkFEMElementStd.h" #include "ITKFEMExport.h" namespace itk { namespace fem { /** * \class Element2DC0QuadraticTriangular * \ingroup ITKFEM * \brief 6-noded, quadratic, C0 continuous finite element in 2D space * that defines a triangle. * * The ordering of the nodes is counter clockwise. That is the nodes * should be defined in the following order: * * (0,1) * 2 * * * |\ * | \ * | \ *(0,0.5) 5 * * 4 (0.5, 0.5) * | \ * | \ * *-----*-----* * 0 3 1 * (0,0) (0,0.5) (0,1) * * This class defines the geometry of the FE problem. * It must be combined with the physics component of the problem. * This has already been done in the following classes: * * \sa Element2DC0QuadraticTriangularStrain * \sa Element2DC0QuadraticTriangularStress */ class ITKFEM_EXPORT Element2DC0QuadraticTriangular : public ElementStd<6, 2> { public: /** Standard class type aliases. */ using Self = Element2DC0QuadraticTriangular; using TemplatedParentClass = ElementStd<6, 2>; using Superclass = TemplatedParentClass; using Pointer = SmartPointer; using ConstPointer = SmartPointer; /** \see LightObject::GetNameOfClass() */ itkOverrideGetNameOfClassMacro(Element2DC0QuadraticTriangular); // //////////////////////////////////////////////////////////////////////// /** * Methods related to numeric integration */ enum { DefaultIntegrationOrder = 2 }; /** Get the Integration point and weight */ void GetIntegrationPointAndWeight(unsigned int i, VectorType & pt, Float & w, unsigned int order) const override; /** Get the number of integration points */ unsigned int GetNumberOfIntegrationPoints(unsigned int order) const override; // //////////////////////////////////////////////////////////////////////// /** * Methods related to the geometry of an element */ /** Return the shape functions used to interpolate across the element */ VectorType ShapeFunctions(const VectorType & pt) const override; /** Return the shape functions derivatives in the shapeD matrix */ void ShapeFunctionDerivatives(const VectorType & pt, MatrixType & shapeD) const override; /** Convert from global to local coordinates */ bool GetLocalFromGlobalCoordinates(const VectorType & GlobalPt, VectorType & LocalPt) const override; // Since the Jacobian is not quadratic, we need to provide our // own implementation of calculating the determinant and inverse. Float JacobianDeterminant(const VectorType & pt, const MatrixType * pJ = nullptr) const override; /** Compute the inverse of the Jacobian matrix */ void JacobianInverse(const VectorType & pt, MatrixType & invJ, const MatrixType * pJ = nullptr) const override; protected: void PrintSelf(std::ostream & os, Indent indent) const override; void PopulateEdgeIds() override; }; } // end namespace fem } // end namespace itk #endif // itkFEMElement2DC0QuadraticTriangular_h