Class documentation of Concepts

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hp1D::Laplace< F > Class Template Referenceabstract

#include <bilinearForm.hh>

Inheritance diagram for hp1D::Laplace< F >:
concepts::BilinearForm< F, G > hp1D::BilinearFormHelper< i, j, F > concepts::Cloneable concepts::OutputOperator

Public Member Functions

 Laplace (const concepts::ElementFormulaContainer< F > frm=concepts::ElementFormulaContainer< F >())
 
void operator() (const concepts::Element< Real > &elmX, const concepts::Element< Real > &elmY, concepts::ElementMatrix< F > &em) const
 
virtual Laplace< F > * clone () const
 
virtual void operator() (const Element< G > &elmX, const Element< G > &elmY, ElementMatrix< F > &em) const =0
 
virtual void operator() (const Element< G > &elmX, const Element< G > &elmY, ElementMatrix< F > &em, const ElementPair< G > &ep) const
 

Protected Member Functions

virtual std::ostream & info (std::ostream &os) const
 Returns information in an output stream.
 

Detailed Description

template<class F = Real>
class hp1D::Laplace< F >

A function class to calculate element matrices for the Laplacian.

Author
Kersten Schmidt, 2009

Definition at line 37 of file bilinearForm.hh.

Constructor & Destructor Documentation

◆ Laplace()

template<class F = Real>
hp1D::Laplace< F >::Laplace ( const concepts::ElementFormulaContainer< F >  frm = concepts::ElementFormulaContainer<F>())
inline

Constructor. The formula frm is evaluated in each quadrature point.

Definition at line 43 of file bilinearForm.hh.

Member Function Documentation

◆ clone()

template<class F = Real>
virtual Laplace< F > * hp1D::Laplace< F >::clone ( ) const
inlinevirtual

Virtual constructor. Returns a pointer to a copy of itself. The caller is responsible to destroy this copy.

Implements concepts::BilinearForm< F, G >.

Definition at line 52 of file bilinearForm.hh.

◆ info()

template<class F = Real>
virtual std::ostream & hp1D::Laplace< F >::info ( std::ostream &  os) const
protectedvirtual

Returns information in an output stream.

Reimplemented from concepts::BilinearForm< F, G >.

◆ operator()() [1/2]

template<class F , class G = typename Realtype<F>::type>
virtual void concepts::BilinearForm< F, G >::operator() ( const Element< G > &  elmX,
const Element< G > &  elmY,
ElementMatrix< F > &  em 
) const
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 em has the correct size.
Parameters
elmXLeft element (test functions)
elmYRight element (trial functions)
emReturn element matrix

Implemented in vectorial::BilinearForm< F, G >, concepts::BilinearFormLiCo< F, G >, concepts::BilinearFormContainer< F, G >, concepts::BilinearF_Sum< F, H, J, G >, and concepts::BilinearF_W< F, H, J, G >.

◆ operator()() [2/2]

template<class F , class G = typename Realtype<F>::type>
virtual void concepts::BilinearForm< F, G >::operator() ( const Element< G > &  elmX,
const Element< G > &  elmY,
ElementMatrix< F > &  em,
const ElementPair< G > &  ep 
) const
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 em has the correct size.
Parameters
elmXLeft element
elmYRight element
emReturn element matrix
epElement pair holding more information on the pair elmX and elmY

Reimplemented in vectorial::BilinearForm< F, G >.

Definition at line 57 of file bilinearForm.hh.


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