Open Inventor Release 2024.2.1
 
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MxPyramidCellExtract Class Reference

MeshViz Utility class for pyramid cells. More...

#include <MeshVizXLM/extractors/MxPyramidCellExtract.h>

Static Public Member Functions

static void getIsosurfTopology (unsigned char caseId, std::vector< std::pair< size_t, size_t > > &edgeList)
 Returns the isosurface topology of the associated caseId.
 
static MbVec3d getIsoParametricCoord (const MiGeometryI &meshGeometry, const MiVolumeCell *pyramidCell, const MbVec3d &point)
 Computes the iso parametric coordinates of the given point in the given cell with the given geometry.
 
static void getWeight (const MiGeometryI &meshGeometry, const MiVolumeCell *pyramidCell, 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 *pyramidCell, const MbVec3d &point, std::vector< double > &weights)
 Checks if a point is inside or outside a pyramid cell.
 
static double getVolume (const MiGeometryI &meshGeometry, const MiVolumeCell *pyramidCell)
 Gets the volume of the cell.
 
static MbVec3d getFacetNormal (size_t facetId, const MiGeometryI &meshGeometry, const MiVolumeCell *pyramidCell)
 Gets the normal of the given facet in a tetrahedron cell.
 
static double getLongestEdgeLength (const MiGeometryI &meshGeometry, const MiVolumeCell *cell)
 Gets the longest edge of a pyramid cell.
 
static double getShortestEdgeLength (const MiGeometryI &meshGeometry, const MiVolumeCell *cell)
 Gets the shortest edge of a pyramid cell.
 

Detailed Description

MeshViz Utility class for pyramid cells.

Utility class that provides a static implementation of the MiVolumeCell's methods in a pyramid cell. This class is provided to make easier the creation of a class in the application that implements the MiVolumeCell
interface for a pyramid cell.

The following image shows the nodes numbering and the faces numbering used by this class. The isosurface topology (see getIsosurfTopology()), weights (see getWeight()), and parametric coordinates (see getIsoParametricCoord()) are defined according to this node numbering.

Nodes and faces numbering

Definition at line 59 of file MxPyramidCellExtract.h.

Member Function Documentation

◆ getDerivs()

static void MxPyramidCellExtract::getDerivs ( const MbVec3d ipcoord,
std::vector< double > &  derivs 
)
static

Gets the value of the derivatives of the shape functions (aka weights) at the point given by its iso parametric coordinates.

Parameters
[in]ipcoordThe 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]derivsThis method computes the 24 values derivs[0-23].
It assumes the derivs vector array has been already allocated. Its size must be set to 24 (at least) before calling this method, using for instance the derivs::resize(24)

◆ getFacetNormal()

static MbVec3d MxPyramidCellExtract::getFacetNormal ( size_t  facetId,
const MiGeometryI meshGeometry,
const MiVolumeCell pyramidCell 
)
static

Gets the normal of the given facet in a tetrahedron cell.

◆ getIsoParametricCoord()

static MbVec3d MxPyramidCellExtract::getIsoParametricCoord ( const MiGeometryI meshGeometry,
const MiVolumeCell pyramidCell,
const MbVec3d point 
)
static

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 pyramidCell is assumed to contain 5 nodes.

Note
Each node coordinate of the given cell is retrieved in the following way:
 meshGeometry.getCoord(pyramidCell->getNodeIndex(i)) 
for each i in the range [0-4].
Parameters
[in]meshGeometryThe geometry of the mesh.
[in]pyramidCellThe input cell.
[in]pointThe input point given in the same space coordinate as meshGeometry.

◆ getIsosurfTopology()

static void MxPyramidCellExtract::getIsosurfTopology ( unsigned char  caseId,
std::vector< std::pair< size_t, size_t > > &  edgeList 
)
static

Returns the isosurface topology of the associated caseId.

This method can be used in the getIsosurfTopology(...) implementation of a pyramid cell interface to return the information to the isosurface extraction module.

◆ getLongestEdgeLength()

static double MxPyramidCellExtract::getLongestEdgeLength ( const MiGeometryI meshGeometry,
const MiVolumeCell cell 
)
static

Gets the longest edge of a pyramid cell.

◆ getShortestEdgeLength()

static double MxPyramidCellExtract::getShortestEdgeLength ( const MiGeometryI meshGeometry,
const MiVolumeCell cell 
)
static

Gets the shortest edge of a pyramid cell.

◆ getVolume()

static double MxPyramidCellExtract::getVolume ( const MiGeometryI meshGeometry,
const MiVolumeCell pyramidCell 
)
static

Gets the volume of the cell.

◆ getWeight() [1/2]

static void MxPyramidCellExtract::getWeight ( const MbVec3d ipcoord,
std::vector< double > &  weights 
)
inlinestatic

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 pyramid cell.

Parameters
[in]ipcoordThe 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]weightsThis method computes the 5 values weights[0-4].
It assumes the weights vector array has been already allocated. Its size must be set to 5 (at least) before calling this method, using for instance the weights::resize(5)

Definition at line 121 of file MxPyramidCellExtract.h.

◆ getWeight() [2/2]

static void MxPyramidCellExtract::getWeight ( const MiGeometryI meshGeometry,
const MiVolumeCell pyramidCell,
const MbVec3d point,
std::vector< double > &  weights 
)
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 pyramid cell. As computing the weights of a point needs the coordinates of the cell's nodes, the given pyramidCell is assumed to contain 5 nodes.

Note
Each node coordinate of the given cell is retrieved in the following way:
 meshGeometry.getCoord(pyramidCell->getNodeIndex(i)) 
for each i in the range [0-4].
Parameters
[in]meshGeometryThe geometry of the mesh.
[in]pyramidCellThe input cell.
[in]pointThe input point given in the same space coordinate as meshGeometry.
[out]weightsThis method computes the 5 values weights[0-4]. It assumes the weights vector array has been already allocated. Its size must be set to 5 (at least) before calling this method, using for instance the weights.resize(5)

Definition at line 104 of file MxPyramidCellExtract.h.

◆ isPointInsideCell()

static bool MxPyramidCellExtract::isPointInsideCell ( const MiGeometryI meshGeometry,
const MiVolumeCell pyramidCell,
const MbVec3d point,
std::vector< double > &  weights 
)
inlinestatic

Checks if a point is inside or outside a pyramid cell.

This static method helps to implement the method MiCell::isPointInsideCell(meshGeometry,point,weights) for a pyramid cell.

Parameters
[in]meshGeometryThe geometry of the mesh.
[in]pyramidCellThe input cell.
[in]pointThe input point given in the same space coordinate as meshGeometry.
[out]weightsThis method computes the 5 values weights[0-4] if the point is inside the cell. It assumes the weights vector array has been already allocated. Its size must be set to 5 (at least) before calling this method, using for instance the weights::resize(5)
Returns
true if the point is inside the cell.

Definition at line 162 of file MxPyramidCellExtract.h.


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