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The dataset consists of geometry (e.g., points), topology (e.g., cells), and attributes (e.g., scalars, vectors, etc.) vtkGenericDataSet is an abstract class defining this abstraction. Since vtkGenericDataSet provides a general interface to manipulate data, algorithms that process it tend to be slower than those specialized for a particular data type. For this reason, there are concrete, non-abstract subclasses that represent and provide access to data more efficiently. Note that filters to process this dataset type are currently found in the VTK/GenericFiltering/ subdirectory. Unlike the vtkDataSet class, vtkGenericDataSet provides a more flexible interface including support for iterators. vtkGenericDataSet is also designed to interface VTK to external simulation packages without the penalty of copying memory (see VTK/GenericFiltering/README.html) for more information. Thus vtkGenericDataSet plays a central role in the adaptor framework. Please note that this class introduces the concepts of "boundary cells". This refers to the boundaries of a cell (e.g., face of a tetrahedron) which may in turn be represented as a cell. Boundary cells are derivative topological features of cells, and are therefore never explicitly represented in the dataset. Often in visualization algorithms, looping over boundaries (edges or faces) is employed, while the actual dataset cells may not traversed. Thus there are methods to loop over these boundary cells. Finally, as a point of clarification, points are not the same as vertices. Vertices refer to points, and points specify a position is space. Vertices are a type of 0-D cell. Also, the concept of a DOFNode, which is where coefficients for higher-order cells are kept, is a new concept introduced by the adaptor framework (see vtkGenericAdaptorCell for more information). @sa vtkGenericAdaptorCell vtkDataSet vtkCommonDataModelPython.vtkGenericDataSetV.IsTypeOf(string) -> int C++: static vtkTypeBool IsTypeOf(const char *type) Standard VTK type and print macros. V.IsA(string) -> int C++: vtkTypeBool IsA(const char *type) override; Standard VTK type and print macros. V.SafeDownCast(vtkObjectBase) -> vtkGenericDataSet C++: static vtkGenericDataSet *SafeDownCast(vtkObjectBase *o) Standard VTK type and print macros. V.NewInstance() -> vtkGenericDataSet C++: vtkGenericDataSet *NewInstance() Standard VTK type and print macros. V.GetNumberOfPoints() -> int C++: virtual vtkIdType GetNumberOfPoints() Return the number of points composing the dataset. See NewPointIterator() for more details. \post positive_result: result>=0 V.GetNumberOfCells(int) -> int C++: virtual vtkIdType GetNumberOfCells(int dim=-1) Return the number of cells that explicitly define the dataset. See NewCellIterator() for more details. \pre valid_dim_range: (dim>=-1) && (dim<=3) \post positive_result: result>=0 V.GetCellDimension() -> int C++: virtual int GetCellDimension() Return -1 if the dataset is explicitly defined by cells of varying dimensions or if there are no cells. If the dataset is explicitly defined by cells of a unique dimension, return this dimension. \post valid_range: (result>=-1) && (result<=3) V.GetCellTypes(vtkCellTypes) C++: virtual void GetCellTypes(vtkCellTypes *types) Get a list of types of cells in a dataset. The list consists of an array of types (not necessarily in any order), with a single entry per type. For example a dataset 5 triangles, 3 lines, and 100 hexahedra would result a list of three entries, corresponding to the types VTK_TRIANGLE, VTK_LINE, and VTK_HEXAHEDRON. THIS METHOD IS THREAD SAFE IF FIRST CALLED FROM A SINGLE THREAD AND THE DATASET IS NOT MODIFIED \pre types_exist: types!=0 V.NewCellIterator(int) -> vtkGenericCellIterator C++: virtual vtkGenericCellIterator *NewCellIterator(int dim=-1) Return an iterator to traverse cells of dimension `dim' (or all dimensions if -1) that explicitly define the dataset. For instance, it will return only tetrahedra if the mesh is defined by tetrahedra. If the mesh is composed of two parts, one with tetrahedra and another part with triangles, it will return both, but will not return the boundary edges and vertices of these cells. The user is responsible for deleting the iterator. \pre valid_dim_range: (dim>=-1) && (dim<=3) \post result_exists: result!=0 V.NewBoundaryIterator(int, int) -> vtkGenericCellIterator C++: virtual vtkGenericCellIterator *NewBoundaryIterator( int dim=-1, int exteriorOnly=0) Return an iterator to traverse cell boundaries of dimension `dim' (or all dimensions if -1) of the dataset. If `exteriorOnly' is true, only the exterior cell boundaries of the dataset will be returned, otherwise it will return exterior and interior cell boundaries. The user is responsible for deleting the iterator. \pre valid_dim_range: (dim>=-1) && (dim<=2) \post result_exists: result!=0 V.NewPointIterator() -> vtkGenericPointIterator C++: virtual vtkGenericPointIterator *NewPointIterator() Return an iterator to traverse the points composing the dataset; they can be points that define a cell (corner points) or isolated points. The user is responsible for deleting the iterator. \post result_exists: result!=0 V.FindPoint([float, float, float], vtkGenericPointIterator) C++: virtual void FindPoint(double x[3], vtkGenericPointIterator *p) Locate the closest point `p' to position `x' (global coordinates). \pre not_empty: GetNumberOfPoints()>0 \pre p_exists: p!=0 V.GetMTime() -> int C++: vtkMTimeType GetMTime() override; Datasets are composite objects and need to check each part for their modified time. V.ComputeBounds() C++: virtual void ComputeBounds() Compute the geometry bounding box. V.GetBounds() -> (float, ...) C++: virtual double *GetBounds() V.GetBounds([float, float, float, float, float, float]) C++: virtual void GetBounds(double bounds[6]) Return a pointer to the geometry bounding box in the form (xmin,xmax, ymin,ymax, zmin,zmax). The return value is VOLATILE. \post result_exists: result!=0 V.GetCenter() -> (float, ...) C++: virtual double *GetCenter() V.GetCenter([float, float, float]) C++: virtual void GetCenter(double center[3]) Get the center of the bounding box in global coordinates. The return value is VOLATILE. \post result_exists: result!=0 V.GetLength() -> float C++: virtual double GetLength() Return the length of the diagonal of the bounding box. \post positive_result: result>=0 V.GetAttributes() -> vtkGenericAttributeCollection C++: virtual vtkGenericAttributeCollection *GetAttributes() V.GetAttributes(int) -> vtkDataSetAttributes C++: vtkDataSetAttributes *GetAttributes(int type) override; Get the collection of attributes associated with this dataset. V.SetTessellator(vtkGenericCellTessellator) C++: virtual void SetTessellator( vtkGenericCellTessellator *tessellator) Set/Get a cell tessellator if cells must be tessellated during processing. \pre tessellator_exists: tessellator!=0 V.GetTessellator() -> vtkGenericCellTessellator C++: virtual vtkGenericCellTessellator *GetTessellator() Set/Get a cell tessellator if cells must be tessellated during processing. \pre tessellator_exists: tessellator!=0 V.GetActualMemorySize() -> int C++: unsigned long GetActualMemorySize() override; Actual size of the data in kibibytes (1024 bytes); only valid after the pipeline has updated. It is guaranteed to be greater than or equal to the memory required to represent the data. V.GetDataObjectType() -> int C++: int GetDataObjectType() override; Return the type of data object. V.GetEstimatedSize() -> int C++: virtual vtkIdType GetEstimatedSize() Estimated size needed after tessellation (or special operation) V.GetData(vtkInformation) -> vtkGenericDataSet C++: static vtkGenericDataSet *GetData(vtkInformation *info) V.GetData(vtkInformationVector, int) -> vtkGenericDataSet C++: static vtkGenericDataSet *GetData(vtkInformationVector *v, int i=0) Retrieve an instance of this class from an information object. 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