AbstractFE
Structure
AbstractFE_
is an abstract class for finite elements.
A finite element is defined by
- Reference element
- Polynomials space
- Degree of freedoms
Interfaceβ
TYPE, ABSTRACT :: AbstractFE_
PRIVATE
CLASS(AbstractRefElement_), POINTER :: refelem => NULL()
!! reference element
INTEGER(I4B) :: nsd = 0
!! spatial dimension of fintie element
INTEGER(I4B) :: order = 0
!! Isotropic order of polynomial space
LOGICAL(LGT) :: isIsotropicOrder = .FALSE.
!! True if the order is same in all the direction
INTEGER(I4B) :: anisoOrder(3)
!! Order in x, y, and z direction
LOGICAL(LGT) :: isAnisotropicOrder = .FALSE.
!! True if the order is different in different directions
INTEGER(I4B) :: edgeOrder(MAX_NO_EDGE) = 0
!! Order on each edge of the element
INTEGER(I4B) :: tEdgeOrder = 0
!! The actual size of edgeOrder
LOGICAL(LGT) :: isEdgeOrder = .FALSE.
!! True if we set the edge order
INTEGER(I4B) :: faceOrder(MAX_NO_FACE)
!! Order of approximation on each face of the element
INTEGER(I4B) :: tFaceOrder = 0
!! The actual size of faceOrder
LOGICAL(LGT) :: isFaceOrder = .FALSE.
!! True if we set the face order
INTEGER(I4B) :: cellOrder(3)
!! Order of approximation inside the element
INTEGER(I4B) :: tCellOrder = 0
!! The actual size of cellOrder
LOGICAL(LGT) :: isCellOrder = .FALSE.
!! True if we set the cell order
INTEGER(I4B) :: feType = 0
!! Type of finite element
!! Scalar, Vector, Matrix
INTEGER(I4B) :: elemType = 0
!! Topology type of reference elemtn
!! Line, Triangle, Quadrangle, Tetrahedron, Hexahedron,
!! Prism, Pyramid
INTEGER(I4B) :: ipType = 0
!! Type of lattice point (i.e., interpolation point type)
INTEGER(I4B) :: dofType(4) = 0
!! Currently it is not used
!! dofType(1): Type of dof for shape function defined on vertex
!! dofType(2): Type of dof for shape functions on edge
!! dofType(3): Type of dof for shape functions on face
!! dofType(4): Type of dof for shape functions in cell
!! These shape functions can take following values:
!! - FE_DOF_POINT_EVAL
INTEGER(I4B) :: transformType = 0
!! Currently it is not used
!! Type of Tranformation usef for polynomial space
!! - FE_TRANSFORM_IDENTITY
TYPE(String) :: baseContinuity0
!! String name of base continuity
TYPE(String) :: baseInterpol0
!! String name of base interpolation
!! LagrangePolynomial
!! SerendipityPolynomial
!! HermitPolynomial
!! OrthogonalPolynomial
!! HierarchyPolynomial
INTEGER(I4B) :: basisType(3)
!! Integer code for basis type in x, y, and z direction
!! Monomial
!! Jacobi
!! Legendre
!! Chebyshev
!! Lobatto
!! Ultraspherical
TYPE(String) :: refElemDomain
!! String name for reference element domain.
!! It can take following values:
!! - UNIT
!! - BIUNIT
CLASS(BaseContinuity_), ALLOCATABLE :: baseContinuity
!! continuity or conformity of basis defined on reference
!! element, following values are allowed
!! H1, HCurl, HDiv, DG
CLASS(BaseInterpolation_), ALLOCATABLE :: baseInterpol
!! Type of basis functions used for interpolation on reference
!! element, Following values are allowed
!! LagrangeInterpolation
!! HermitInterpolation
!! SerendipityInterpolation
!! HierarchyInterpolation
!! OrthogonalInterpolation
END TYPE AbstractFE_
Methodsβ
ποΈ Structure
AbstractFE_ is an abstract class for finite elements.
ποΈ Initiate
This method initiate an instance of AbstractFE_.
ποΈ SetAbstractFEParam
Set the parameters necessary for initiating an AbstractFE_ or any of its children.