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Returns 0 otherwise. This method works in combination with vtkTypeMacro found in vtkSetGet.h. V.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. V.SafeDownCast(vtkObjectBase) -> vtkTetra C++: static vtkTetra *SafeDownCast(vtkObjectBase *o) V.NewInstance() -> vtkTetra C++: vtkTetra *NewInstance() V.GetEdgePoints(int, [int, ...]) C++: void GetEdgePoints(int edgeId, int *&pts) override; See vtkCell3D API for description of these methods. V.GetFacePoints(int, [int, ...]) C++: void GetFacePoints(int faceId, int *&pts) override; See vtkCell3D API for description of these methods. V.GetCellType() -> int C++: int GetCellType() override; See the vtkCell API for descriptions of these methods. V.GetNumberOfEdges() -> int C++: int GetNumberOfEdges() override; See the vtkCell API for descriptions of these methods. V.GetNumberOfFaces() -> int C++: int GetNumberOfFaces() override; See the vtkCell API for descriptions of these methods. V.GetEdge(int) -> vtkCell C++: vtkCell *GetEdge(int edgeId) override; See the vtkCell API for descriptions of these methods. V.GetFace(int) -> vtkCell C++: vtkCell *GetFace(int faceId) override; See the vtkCell API for descriptions of these methods. V.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; See the vtkCell API for descriptions of these methods. V.Clip(float, vtkDataArray, vtkIncrementalPointLocator, vtkCellArray, vtkPointData, vtkPointData, vtkCellData, int, vtkCellData, int) C++: void Clip(double value, vtkDataArray *cellScalars, vtkIncrementalPointLocator *locator, vtkCellArray *connectivity, vtkPointData *inPd, vtkPointData *outPd, vtkCellData *inCd, vtkIdType cellId, vtkCellData *outCd, int insideOut) override; See the vtkCell API for descriptions of these methods. V.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; See the vtkCell API for descriptions of these methods. V.EvaluateLocation(int, [float, float, float], [float, float, float], [float, ...]) C++: void EvaluateLocation(int &subId, double pcoords[3], double x[3], double *weights) override; See the vtkCell API for descriptions of these methods. V.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; See the vtkCell API for descriptions of these methods. V.Triangulate(int, vtkIdList, vtkPoints) -> int C++: int Triangulate(int index, vtkIdList *ptIds, vtkPoints *pts) override; See the vtkCell API for descriptions of these methods. V.Derivatives(int, [float, float, float], [float, ...], int, [float, ...]) C++: void Derivatives(int subId, double pcoords[3], double *values, int dim, double *derivs) override; See the vtkCell API for descriptions of these methods. V.GetParametricCoords() -> (float, ...) C++: double *GetParametricCoords() override; See the vtkCell API for descriptions of these methods. V.CellBoundary(int, [float, float, float], vtkIdList) -> int C++: int CellBoundary(int subId, double pcoords[3], vtkIdList *pts) override; Returns the set of points that are on the boundary of the tetrahedron that are closest parametrically to the point specified. This may include faces, edges, or vertices. V.GetParametricCenter([float, float, float]) -> int C++: int GetParametricCenter(double pcoords[3]) override; Return the center of the tetrahedron in parametric coordinates. V.GetParametricDistance([float, float, float]) -> float C++: double GetParametricDistance(double pcoords[3]) override; Return the distance of the parametric coordinate provided to the cell. If inside the cell, a distance of zero is returned. V.TetraCenter([float, float, float], [float, float, float], [float, float, float], [float, float, float], [float, float, float]) C++: static void TetraCenter(double p1[3], double p2[3], double p3[3], double p4[3], double center[3]) Compute the center of the tetrahedron, V.Circumsphere([float, float, float], [float, float, float], [float, float, float], [float, float, float], [float, float, float]) -> float C++: static double Circumsphere(double p1[3], double p2[3], double p3[3], double p4[3], double center[3]) Compute the circumcenter (center[3]) and radius squared (method return value) of a tetrahedron defined by the four points x1, x2, x3, and x4. V.Insphere([float, float, float], [float, float, float], [float, float, float], [float, float, float], [float, float, float]) -> float C++: static double Insphere(double p1[3], double p2[3], double p3[3], double p4[3], double center[3]) Compute the center (center[3]) and radius (method return value) of a sphere that just fits inside the faces of a tetrahedron defined by the four points x1, x2, x3, and x4. V.BarycentricCoords([float, float, float], [float, float, float], [float, float, float], [float, float, float], [float, float, float], [float, float, float, float]) -> int C++: static int BarycentricCoords(double x[3], double x1[3], double x2[3], double x3[3], double x4[3], double bcoords[4]) Given a 3D point x[3], determine the barycentric coordinates of the point. Barycentric coordinates are a natural coordinate system for simplices that express a position as a linear combination of the vertices. For a tetrahedron, there are four barycentric coordinates (because there are four vertices), and the sum of the coordinates must equal 1. If a point x is inside a simplex, then all four coordinates will be strictly positive. If three coordinates are zero (so the fourth =1), then the point x is on a vertex. If two coordinates are zero, the point x is on an edge (and so on). In this method, you must specify the vertex coordinates x1->x4. Returns 0 if tetrahedron is degenerate. V.ComputeVolume([float, float, float], [float, float, float], [float, float, float], [float, float, float]) -> float C++: static double ComputeVolume(double p1[3], double p2[3], double p3[3], double p4[3]) Compute the volume of a tetrahedron defined by the four points p1, p2, p3, and p4. V.InterpolationFunctions([float, float, float], [float, float, float, float]) C++: static void InterpolationFunctions(double pcoords[3], double weights[4]) @deprecated Replaced by vtkTetra::InterpolateFunctions as of VTK 5.2 V.InterpolationDerivs([float, float, float], [float, float, float, float, float, float, float, float, float, float, float, float]) C++: static void InterpolationDerivs(double pcoords[3], double derivs[12]) @deprecated Replaced by vtkTetra::InterpolateDerivs as of VTK 5.2 V.InterpolateFunctions([float, float, float], [float, float, float, float]) C++: void InterpolateFunctions(double pcoords[3], double weights[4]) override; Compute the interpolation functions/derivatives (aka shape functions/derivatives) V.InterpolateDerivs([float, float, float], [float, float, float, float, float, float, float, float, float, float, float, float]) C++: void InterpolateDerivs(double pcoords[3], double derivs[12]) override; Compute the interpolation functions/derivatives (aka shape functions/derivatives) V.GetEdgeArray(int) -> (int, int) C++: static int *GetEdgeArray(int edgeId) Return the ids of the vertices defining edge/face (`edgeId`/`faceId'). Ids are related to the cell, not to the dataset. V.GetFaceArray(int) -> (int, int, int) C++: static int *GetFaceArray(int faceId) Return the ids of the vertices defining edge/face (`edgeId`/`faceId'). Ids are related to the cell, not to the dataset. 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