Utility class for quadratic hexahedron cells with 20 nodes. More...
#include <MeshVizXLM/extractors/MxHexahedron20CellExtract.h>
Static Public Member Functions | |
static MbVec3d | getIsoParametricCoord (const MiGeometryI &meshGeometry, const MiVolumeCell *hexahedronCell, const MbVec3d &point) |
Computes the iso parametric coordinates of the given point in the given cell with the given geometry. | |
static MbVec3d | getIsoParametricCoord (size_t nodeIndex) |
Returns the iso parametric coordinate of one of the 20 nodes of a quadratic hexahedron. | |
static void | getWeight (const MiGeometryI &meshGeometry, const MiVolumeCell *hexahedronCell, const MbVec3d &point, std::vector< double > &weights) |
Gets the weights in the given cell of the given point. | |
static void | getWeight (const MbVec3d &ipcoord, std::vector< double > &weights) |
Gets the weights of a point defined by its iso parametric coordinates. | |
static void | getDerivs (const MbVec3d &ipcoord, std::vector< double > &derivs) |
Gets the value of the derivatives of the shape functions (aka weights) at the point given by its iso parametric coordinates. | |
static bool | isPointInsideCell (const MiGeometryI &meshGeometry, const MiVolumeCell *hexahedronCell, const MbVec3d &point, std::vector< double > &weights) |
Checks if a point is inside or outside a quadratic hexahedron cell of 20 nodes. | |
static size_t | getNodesIndexOfFacet (size_t facet, std::vector< size_t > &facetNodes) |
Gets the array of "linear" node indices belonging to a given facet. | |
static size_t | getSubTriangleNodesIndex (size_t face, std::vector< size_t > &triangleNodeIds) |
Gets a triangulation of the given facet of a quadratic hexahedron of 20 nodes. | |
static size_t | getSubTetrahedronNodesIndex (std::vector< size_t > &tetrahedronNodeIds) |
Gets a decomposition in sub-tetrahedra of a quadratic hexahedron of 20 nodes. | |
Utility class for quadratic hexahedron cells with 20 nodes.
Utility class that provides a static implementation of MiVolumeCell's methods for a quadratic hexahedron of 20 nodes. This class is provided to make it easier to create a class that implements the MiVolumeCell interface for a quadratic hexahedron of 20 nodes.
The following image shows the node numbering and the face numbering used by this class. The weight (see getWeight()), parametric coordinates (see getIsoParametricCoord()), and the decomposition into sub tetrahedrons (see getSubTetrahedronNodesIndex()) are defined according to this node numbering. The face decomposition (see getSubTriangleNodesIndex()) is defined according to this node and face numbering.
Definition at line 62 of file MxHexahedron20CellExtract.h.
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Gets the value of the derivatives of the shape functions (aka weights) at the point given by its iso parametric coordinates.
[in] | ipcoord | The iso parametric coordinates of the input point. The reference space for the iso parametric coordinates is assumed to be [0-1]. Thus any point inside the cell has iso parametric coordinates in the interval [0-1]. |
[out] | derivs | This method computes the 60 derivs values [0-59]. It assumes the derivs vector array has been already allocated. Its size must be set to 60 (at least) before calling this method, using for instance derivs.resize(60) |
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Computes the iso parametric coordinates of the given point in the given cell with the given geometry.
As computing the iso parametric coordinates of a point needs the coordinates of the cell's nodes, the given hexahedronCell is assumed to contain 20 nodes.
meshGeometry.getCoord(hexahedronCell->getNodeIndex(i))for each i in the range [0-19].
[in] | meshGeometry | The geometry of the mesh. |
[in] | hexahedronCell | The input cell. |
[in] | point | The input point given in the same space coordinate as meshGeometry. |
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Returns the iso parametric coordinate of one of the 20 nodes of a quadratic hexahedron.
This static method helps to implement the method MiCell::getIsoParametricCoord().
[in] | nodeIndex | Must be defined in the range [0-19] |
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inlinestatic |
Gets the array of "linear" node indices belonging to a given facet.
[in] | facet | The index of the facet (where 0 <= facet < 6). |
[out] | facetNodes | The array of "linear" local node indices of the facet. ( 0 <= facetNodes[i] < 20 for each i ). |
Definition at line 171 of file MxHexahedron20CellExtract.h.
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inlinestatic |
Gets a decomposition in sub-tetrahedra of a quadratic hexahedron of 20 nodes.
This static method helps to implement the method MiVolumeCell::getSubTetrahedronNodesIndex() for a quadratic hexahedron of 20 nodes.
[out] | tetrahedronNodeIds | Sub tetrahedra node ids (where: 0 <= tetrahedronNodeIds[i] < 20 for each i). this method assign the 88 node ids tetrahedronNodeIds[0-87] |
Definition at line 199 of file MxHexahedron20CellExtract.h.
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inlinestatic |
Gets a triangulation of the given facet of a quadratic hexahedron of 20 nodes.
This static method helps to implement the method MiVolumeCell::getSubTriangleNodesIndex() for a quadratic hexahedron of 20 nodes.
[in] | face | Number of the face. (where: 0 <= face < 6 ). |
[out] | triangleNodeIds | Sub triangle node ids (where: 0 <= triangleNodeIds[i] < 20 for each i). |
Definition at line 185 of file MxHexahedron20CellExtract.h.
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Gets the weights of a point defined by its iso parametric coordinates.
This static method helps to implement the method MiCell::getWeight(ipcoord,weights) for a quadratic hexahedron of 20 nodes.
[in] | ipcoord | The iso parametric coordinates of the input point. The reference space for the iso parametric coordinates is assumed to be [0-1]. Thus any point inside the cell has iso parametric coordinates in the interval [0-1]. |
[out] | weights | This method computes the 20 weight values [0-19]. It assumes the weights vector array has been already allocated. Its size must be set to 20 (at least) before calling this method, using for instance weights.resize(20) |
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inlinestatic |
Gets the weights in the given cell of the given point.
This static method helps to implement the method MiCell::getWeight(meshGeometry,point,weights) for a quadratic hexahedron of 20 nodes. As computing the weights of a point needs the coordinates of the cell's nodes, the given hexahedronCell is assumed to contain 20 nodes.
meshGeometry.getCoord(hexahedronCell->getNodeIndex(i))for each i in the range [0-19].
[in] | meshGeometry | The geometry of the mesh. |
[in] | hexahedronCell | The input cell. |
[in] | point | The input point given in the same space coordinate as meshGeometry. |
[out] | weights | This method computes the 20 weight values [0-19]. It assumes the weights vector array has been already allocated. Its size must be set to 20 (at least) before calling this method, using for instance weights.resize(20) |
Definition at line 107 of file MxHexahedron20CellExtract.h.
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inlinestatic |
Checks if a point is inside or outside a quadratic hexahedron cell of 20 nodes.
This static method helps to implement the method MiCell::isPointInsideCell(meshGeometry,point,weights) for a quadratic hexahedron of 20 nodes.
[in] | meshGeometry | The geometry of the mesh. |
[in] | hexahedronCell | The input cell. |
[in] | point | The input point given in the same space coordinate as meshGeometry. |
[out] | weights | This method computes the 20 weights values [0-19] if the point is inside the cell. It assumes the weights vector array has been already allocated. Its size must be set to 20 (at least) before calling this method, using for instance the weights.resize(20) |
Definition at line 153 of file MxHexahedron20CellExtract.h.