#include <dune/fem/space/discontinuousgalerkin/legendre.hh>
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| ScalarShapeFunctionSet (Dune::GeometryType type) |
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int | order () const noexcept |
| return order of shape functions
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std::size_t | size () const noexcept |
| return number of shape functions
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void | evaluateEach (const Point &x, Functor functor) const noexcept |
| evalute each shape function
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void | jacobianEach (const Point &x, Functor functor) const noexcept |
| evalute jacobian of each shape function
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void | hessianEach (const Point &x, Functor functor) const noexcept |
| evalute hessian of each shape function
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static constexpr unsigned int | size () |
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◆ BaseType
template<class
FunctionSpace , class GridPart , int polOrder, class Storage , bool hierarchicalOrdering>
◆ DomainType
◆ FunctionSpaceType
◆ HessianRangeType
◆ JacobianRangeType
◆ RangeType
◆ ShapeFunctionType
◆ ScalarShapeFunctionSet()
template<class
FunctionSpace , class GridPart , int polOrder, class Storage , bool hierarchicalOrdering>
◆ evaluateEach()
evalute each shape function
- Parameters
-
[in] | x | coordinate or quadrature point |
[in] | functor | functor call for evaluating each shape function |
The functor has to be a copyable object satisfying the following interface:
struct Functor
{
template< class Value >
void operator() ( const int shapeFunction, const Value &value );
};
◆ hessianEach()
evalute hessian of each shape function
- Parameters
-
[in] | x | coordinate or quadrature point |
[in] | functor | functor call for evaluating the hessian of each shape function |
The functor has to be a copyable object satisfying the following interface:
struct Functor
{
template< class Hessian >
void operator() ( const int shapeFunction, const Hessian &hessian );
};
◆ jacobianEach()
evalute jacobian of each shape function
- Parameters
-
[in] | x | coordinate or quadrature point |
[in] | functor | functor call for evaluating the jacobian of each shape function |
The functor has to be a copyable object satisfying the following interface:
struct Functor
{
template< class Jacobian >
void operator() ( const int shapeFunction, const Jacobian &jacobian );
};
◆ order()
return order of shape functions
◆ size() [1/2]
template<class
FunctionSpace , class GridPart , int polOrder, class Storage , bool hierarchicalOrdering>
◆ size() [2/2]
return number of shape functions
◆ numberShapeFunctions
template<class
FunctionSpace , class GridPart , int polOrder, class Storage , bool hierarchicalOrdering>
Initial value:=
StaticPower<polOrder+1,ScalarShapeFunctionSpaceType::dimDomain>::power
◆ order_
◆ shapeFunctions_
The documentation for this struct was generated from the following file: