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Returns 0 otherwise. This method works in combination with vtkTypeMacro found in vtkSetGet.h. IsAV.IsA(string) -> int C++: vtkTypeBool IsA(const char *type) override; Return 1 if this class is the same type of (or a subclass of) the named class. Returns 0 otherwise. This method works in combination with vtkTypeMacro found in vtkSetGet.h. SafeDownCastV.SafeDownCast(vtkObjectBase) -> vtkQuadraticPolygon C++: static vtkQuadraticPolygon *SafeDownCast(vtkObjectBase *o) NewInstanceV.NewInstance() -> vtkQuadraticPolygon C++: vtkQuadraticPolygon *NewInstance() GetCellTypeV.GetCellType() -> int C++: int GetCellType() override; Implement the vtkCell API. See the vtkCell API for descriptions of these methods. GetCellDimensionV.GetCellDimension() -> int C++: int GetCellDimension() override; Return the topological dimensional of the cell (0,1,2, or 3). GetNumberOfEdgesV.GetNumberOfEdges() -> int C++: int GetNumberOfEdges() override; Return the number of edges in the cell. GetNumberOfFacesV.GetNumberOfFaces() -> int C++: int GetNumberOfFaces() override; Return the number of faces in the cell. GetEdgeV.GetEdge(int) -> vtkCell C++: vtkCell *GetEdge(int) override; Return the edge cell from the edgeId of the cell. GetFaceV.GetFace(int) -> vtkCell C++: vtkCell *GetFace(int) override; Return the face cell from the faceId of the cell. IsPrimaryCellV.IsPrimaryCell() -> int C++: int IsPrimaryCell() override; Return whether this cell type has a fixed topology or whether the topology varies depending on the data (e.g., vtkConvexPointSet). This compares to composite cells that are typically composed of primary cells (e.g., a triangle strip composite cell is made up of triangle primary cells). CellBoundaryV.CellBoundary(int, [float, float, float], vtkIdList) -> int C++: int CellBoundary(int subId, double pcoords[3], vtkIdList *pts) override; These methods are based on the vtkPolygon ones : the vtkQuadraticPolygon (with n edges and 2*n points) is transform into a vtkPolygon (with 2*n edges and 2*n points) and the vtkPolygon methods are called. ContourV.Contour(float, vtkDataArray, vtkIncrementalPointLocator, vtkCellArray, vtkCellArray, vtkCellArray, vtkPointData, vtkPointData, vtkCellData, int, vtkCellData) C++: void Contour(double value, vtkDataArray *cellScalars, vtkIncrementalPointLocator *locator, vtkCellArray *verts, vtkCellArray *lines, vtkCellArray *polys, vtkPointData *inPd, vtkPointData *outPd, vtkCellData *inCd, vtkIdType cellId, vtkCellData *outCd) override; These methods are based on the vtkPolygon ones : the vtkQuadraticPolygon (with n edges and 2*n points) is transform into a vtkPolygon (with 2*n edges and 2*n points) and the vtkPolygon methods are called. ClipV.Clip(float, vtkDataArray, vtkIncrementalPointLocator, vtkCellArray, vtkPointData, vtkPointData, vtkCellData, int, vtkCellData, int) C++: void Clip(double value, vtkDataArray *cellScalars, vtkIncrementalPointLocator *locator, vtkCellArray *polys, vtkPointData *inPd, vtkPointData *outPd, vtkCellData *inCd, vtkIdType cellId, vtkCellData *outCd, int insideOut) override; These methods are based on the vtkPolygon ones : the vtkQuadraticPolygon (with n edges and 2*n points) is transform into a vtkPolygon (with 2*n edges and 2*n points) and the vtkPolygon methods are called. EvaluatePositionV.EvaluatePosition([float, float, float], [float, ...], int, [float, float, float], float, [float, ...]) -> int C++: int EvaluatePosition(double x[3], double *closestPoint, int &subId, double pcoords[3], double &dist2, double *weights) override; These methods are based on the vtkPolygon ones : the vtkQuadraticPolygon (with n edges and 2*n points) is transform into a vtkPolygon (with 2*n edges and 2*n points) and the vtkPolygon methods are called. EvaluateLocationV.EvaluateLocation(int, [float, float, float], [float, float, float], [float, ...]) C++: void EvaluateLocation(int &subId, double pcoords[3], double x[3], double *weights) override; These methods are based on the vtkPolygon ones : the vtkQuadraticPolygon (with n edges and 2*n points) is transform into a vtkPolygon (with 2*n edges and 2*n points) and the vtkPolygon methods are called. IntersectWithLineV.IntersectWithLine([float, float, float], [float, float, float], float, float, [float, float, float], [float, float, float], int) -> int C++: int IntersectWithLine(double p1[3], double p2[3], double tol, double &t, double x[3], double pcoords[3], int &subId) override; These methods are based on the vtkPolygon ones : the vtkQuadraticPolygon (with n edges and 2*n points) is transform into a vtkPolygon (with 2*n edges and 2*n points) and the vtkPolygon methods are called. InterpolateFunctionsV.InterpolateFunctions([float, float, float], [float, ...]) C++: void InterpolateFunctions(double x[3], double *weights) override; These methods are based on the vtkPolygon ones : the vtkQuadraticPolygon (with n edges and 2*n points) is transform into a vtkPolygon (with 2*n edges and 2*n points) and the vtkPolygon methods are called. ComputeCentroidV.ComputeCentroid(vtkIdTypeArray, vtkPoints, [float, float, float]) C++: static void ComputeCentroid(vtkIdTypeArray *ids, vtkPoints *pts, double centroid[3]) These methods are based on the vtkPolygon ones : the vtkQuadraticPolygon (with n edges and 2*n points) is transform into a vtkPolygon (with 2*n edges and 2*n points) and the vtkPolygon methods are called. ParameterizePolygonV.ParameterizePolygon([float, float, float], [float, float, float], float, [float, float, float], float, [float, float, float]) -> int C++: int ParameterizePolygon(double p0[3], double p10[3], double &l10, double p20[3], double &l20, double n[3]) These methods are based on the vtkPolygon ones : the vtkQuadraticPolygon (with n edges and 2*n points) is transform into a vtkPolygon (with 2*n edges and 2*n points) and the vtkPolygon methods are called. PointInPolygonV.PointInPolygon([float, float, float], int, [float, ...], [float, float, float, float, float, float], [float, float, float]) -> int C++: static int PointInPolygon(double x[3], int numPts, double *pts, double bounds[6], double n[3]) These methods are based on the vtkPolygon ones : the vtkQuadraticPolygon (with n edges and 2*n points) is transform into a vtkPolygon (with 2*n edges and 2*n points) and the vtkPolygon methods are called. TriangulateV.Triangulate(vtkIdList) -> int C++: int Triangulate(vtkIdList *outTris) V.Triangulate(int, vtkIdList, vtkPoints) -> int C++: int Triangulate(int index, vtkIdList *ptIds, vtkPoints *pts) override; These methods are based on the vtkPolygon ones : the vtkQuadraticPolygon (with n edges and 2*n points) is transform into a vtkPolygon (with 2*n edges and 2*n points) and the vtkPolygon methods are called. NonDegenerateTriangulateV.NonDegenerateTriangulate(vtkIdList) -> int C++: int NonDegenerateTriangulate(vtkIdList *outTris) These methods are based on the vtkPolygon ones : the vtkQuadraticPolygon (with n edges and 2*n points) is transform into a vtkPolygon (with 2*n edges and 2*n points) and the vtkPolygon methods are called. DistanceToPolygonV.DistanceToPolygon([float, float, float], int, [float, ...], [float, float, float, float, float, float], [float, float, float]) -> float C++: static double DistanceToPolygon(double x[3], int numPts, double *pts, double bounds[6], double closest[3]) These methods are based on the vtkPolygon ones : the vtkQuadraticPolygon (with n edges and 2*n points) is transform into a vtkPolygon (with 2*n edges and 2*n points) and the vtkPolygon methods are called. IntersectPolygonWithPolygonV.IntersectPolygonWithPolygon(int, [float, ...], [float, float, float, float, float, float], int, [float, ...], [float, float, float], float, [float, float, float]) -> int C++: static int IntersectPolygonWithPolygon(int npts, double *pts, double bounds[6], int npts2, double *pts2, double bounds2[3], double tol, double x[3]) These methods are based on the vtkPolygon ones : the vtkQuadraticPolygon (with n edges and 2*n points) is transform into a vtkPolygon (with 2*n edges and 2*n points) and the vtkPolygon methods are called. IntersectConvex2DCellsV.IntersectConvex2DCells(vtkCell, vtkCell, float, [float, float, float], [float, float, float]) -> int C++: static int IntersectConvex2DCells(vtkCell *cell1, vtkCell *cell2, double tol, double p0[3], double p1[3]) These methods are based on the vtkPolygon ones : the vtkQuadraticPolygon (with n edges and 2*n points) is transform into a vtkPolygon (with 2*n edges and 2*n points) and the vtkPolygon methods are called. DerivativesV.Derivatives(int, [float, float, float], [float, ...], int, [float, ...]) C++: void Derivatives(int subId, double pcoords[3], double *values, int dim, double *derivs) override; Compute derivatives given cell subId and parametric coordinates. The values array is a series of data value(s) at the cell points. There is a one-to-one correspondence between cell point and data value(s). Dim is the number of data values per cell point. Derivs are derivatives in the x-y-z coordinate directions for each data value. Thus, if computing derivatives for a scalar function in a hexahedron, dim=1, 8 values are supplied, and 3 deriv values are returned (i.e., derivatives in x-y-z directions). On the other hand, if computing derivatives of velocity (vx,vy,vz) dim=3, 24 values are supplied ((vx,vy,vz)1, (vx,vy,vz)2, ....()8), and 9 deriv values are returned ((d(vx)/dx),(d(vx)/dy),(d(vx)/dz), (d(vy)/dx),(d(vy)/dy), (d(vy)/dz), (d(vz)/dx),(d(vz)/dy),(d(vz)/dz)). GetUseMVCInterpolationV.GetUseMVCInterpolation() -> bool C++: virtual bool GetUseMVCInterpolation() Set/Get the flag indicating whether to use Mean Value Coordinate for the interpolation. If true, InterpolateFunctions() uses the Mean Value Coordinate to compute weights. Otherwise, the conventional 1/r^2 method is used. The UseMVCInterpolation parameter is set to true by default. SetUseMVCInterpolationV.SetUseMVCInterpolation(bool) C++: virtual void SetUseMVCInterpolation(bool _arg) Set/Get the flag indicating whether to use Mean Value Coordinate for the interpolation. If true, InterpolateFunctions() uses the Mean Value Coordinate to compute weights. Otherwise, the conventional 1/r^2 method is used. 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