#include <dune/fem/quadrature/cornerpointset.hh>
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| CornerPointList (const size_t id) |
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| CornerPointList (const GeometryType &type, const int order, const size_t id) |
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int | order () const |
| obtain order of the integration point list
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GeometryType | geometryType () const |
| obtain GeometryType for this integration point list
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const CoordinateType & | point (size_t i) const |
| obtain coordinates of i-th integration point
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size_t | nop () const |
| obtain the number of integration points
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size_t | id () const |
| obtain the identifier of the integration point list
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virtual std::vector< ElementCoordinateType > | interpolationPoints (const int reqDim) const |
| returns list of element interpolation points for a given face quadrature
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virtual bool | isFaceInterpolationQuadrature (const size_t numShapeFunctions) const |
| return true if quadrature is also a set of interpolation points for a given number of shape functions
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static const int | dimension |
| dimension of quadrature
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◆ CoordinateType
template<class ct , Dune::GeometryType::Id geometryId>
◆ ElementCoordinateType
◆ FieldType
◆ ThisType
◆ anonymous enum
to be revised, look at caching quad
◆ CornerPointList() [1/2]
template<class ct , Dune::GeometryType::Id geometryId>
◆ CornerPointList() [2/2]
template<class ct , Dune::GeometryType::Id geometryId>
◆ addIntegrationPoint()
Adds an integration point to the list.
This method allows derived classes to add integration points to the list. This mehtod should only be used within the constructor of the derived class.
◆ geometryType()
template<class ct , Dune::GeometryType::Id geometryId>
obtain GeometryType for this integration point list
Integration point lists are specified in local coordinates, i.e., coordinates with respect to the reference element. Hence, each integration point list is only valid for one type of geometry, i.e., for one reference element. The type can be retrieved via this method.
- Returns
- GeometryType for this integration point list
Implements Dune::Fem::IntegrationPointListImp< ct, Dune::GeometryType(geometryId).dim() >.
◆ id()
obtain the identifier of the integration point list
The identifier of an integration point list must be globally unique. Even integration point lists for different dimensions must have different identifiers.
- Note
- Quadratures are considered distinct if they differ in one of the following points: geometry type, order, dimension or implementation.
- Returns
- globally unique identifier of the integration point list
◆ interpolationPoints()
returns list of element interpolation points for a given face quadrature
◆ isFaceInterpolationQuadrature()
return true if quadrature is also a set of interpolation points for a given number of shape functions
◆ maxOrder()
template<class ct , Dune::GeometryType::Id geometryId>
◆ nop()
obtain the number of integration points
- Returns
- number of integration points within this list
◆ order()
template<class ct , Dune::GeometryType::Id geometryId>
obtain order of the integration point list
The order of a quadrature is the maximal polynomial degree that is guaranteed to be integrated exactly by the quadrature.
In case of an integration point list, the definition of this value is left to the implementor.
- Returns
- the order of the integration point list
Implements Dune::Fem::IntegrationPointListImp< ct, Dune::GeometryType(geometryId).dim() >.
◆ point()
obtain coordinates of i-th integration point
This method returns a reference to the coordinates of the i-th integration point for 0 <= i < nop(). The integration point is given in local coordinates, i.e., coordinates with respect to the reference element.
- Parameters
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[in] | i | number of the integration point, 0 <= i < nop() |
- Returns
- reference to i-th integration point
◆ setIntegrationPoints()
Overwrites integration point list
◆ dimension
◆ id_
◆ points_
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mutableprotectedinherited |
The documentation for this class was generated from the following file: