linearFEM::Laplace1d Class Referenceabstract
Discrete equivalent of the Laplacian in 1D for linear FEM. More...
#include <bilinearForm1D.hh>
Public Member Functions | |
| virtual Laplace1d * | clone () const |
| Virtual constructor. More... | |
| virtual BilinearForm * | clone () const=0 |
| Virtual constructor. More... | |
| virtual void | operator() (const concepts::Element< Real > &elmX, const concepts::Element< Real > &elmY, concepts::ElementMatrix< Real > &em) const |
| virtual void | operator() (const Element< typename Realtype< Real >::type > &elmX, const Element< typename Realtype< Real >::type > &elmY, ElementMatrix< Real > &em) const=0 |
Evaluates the bilinear form for all shape functions on elmX and elmY and stores the result in the matrix em. More... | |
| virtual void | operator() (const Element< typename Realtype< Real >::type > &elmX, const Element< typename Realtype< Real >::type > &elmY, ElementMatrix< Real > &em, const ElementPair< typename Realtype< Real >::type > &ep) const |
Evaluates the bilinear form for all shape functions on elmX and elmY and stores the result in the matrix em. More... | |
Protected Member Functions | |
| virtual std::ostream & | info (std::ostream &os) const |
| Returns information in an output stream. More... | |
Detailed Description
Discrete equivalent of the Laplacian in 1D for linear FEM.
his bilinear form computes the stiffness matrix resulting from the discretization of the Laplacian (with integration by parts):
![\[ \int_K \nabla \phi_i \cdot \nabla \phi_j \, dx \]](form_671.png)
for the element shape functions 
.
- Examples
- linearDG1d.cc, linearFEM1d-simple.cc, and linearFEM1d.cc.
Definition at line 32 of file bilinearForm1D.hh.
Member Function Documentation
◆ clone() [1/2]
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inlinevirtual |
Virtual constructor.
Returns a pointer to a copy of itself. The caller is responsible to destroy this copy.
Implements concepts::Cloneable.
Definition at line 37 of file bilinearForm1D.hh.
◆ clone() [2/2]
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pure virtualinherited |
Virtual constructor.
Returns a pointer to a copy of itself. The caller is responsible to destroy this copy.
◆ info()
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protectedvirtualinherited |
Returns information in an output stream.
Reimplemented from concepts::OutputOperator.
Reimplemented in hp3D::RotRot, hp3D::Hook, hp3D::DivDiv< Weight >, hp3D::Identity< F >, hp3D::Laplace< F >, hp3D::BilinearFormTwoPartDeriv< F >, hp2Dedge::EdgeIdentity, hp2Dedge::Rotuv, hp2Dedge::RotRot< F >, hp2Dedge::IdentityMatrix< F >, hp2Dedge::Identity< F >, hp2Dedge::GraduvMatrix< F >, hp2Dedge::Graduv< F >, hp2D::RotRot, hp2D::DivDiv< Weight >, hp2D::BilinearFormTwoPartDeriv< F >, hp2D::BilinearFormOnePartDeriv< F >, hp2D::LaplaceMatrix< F >, and hp2D::Laplace< F >.
◆ operator()() [1/3]
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virtual |
◆ operator()() [2/3]
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pure virtualinherited |
Evaluates the bilinear form for all shape functions on elmX and elmY and stores the result in the matrix em.
- Postcondition
- The returned matrix
emhas the correct size.
- Parameters
-
elmX Left element (test functions) elmY Right element (trial functions) em Return element matrix
◆ operator()() [3/3]
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inlinevirtualinherited |
Evaluates the bilinear form for all shape functions on elmX and elmY and stores the result in the matrix em.
If this method is not reimplemented in a derived class, the default behaviour is to call the application operator without ep.
- Postcondition
- The returned matrix
emhas the correct size.
- Parameters
-
elmX Left element elmY Right element em Return element matrix ep Element pair holding more information on the pair elmXandelmY
Definition at line 57 of file bilinearForm.hh.
The documentation for this class was generated from the following file:
- linearFEM/bilinearForm1D.hh