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The cell array structure is a raw integer list of the form: (n,id1,id2,...,idn, n,id1,id2,...,idn, ...) where n is the number of points in the cell, and id is a zero-offset index into an associated point list. Advantages of this data structure are its compactness, simplicity, and easy interface to external data. However, it is totally inadequate for random access. This functionality (when necessary) is accomplished by using the vtkCellTypes and vtkCellLinks objects to extend the definition of the data structure. @sa vtkCellTypes vtkCellLinks IsTypeOfV.IsTypeOf(string) -> int C++: static vtkTypeBool IsTypeOf(const char *type) Return 1 if this class type 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. 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) -> vtkCellArray C++: static vtkCellArray *SafeDownCast(vtkObjectBase *o) NewInstanceV.NewInstance() -> vtkCellArray C++: vtkCellArray *NewInstance() AllocateV.Allocate(int, int) -> int C++: int Allocate(vtkIdType sz, vtkIdType ext=1000) Allocate memory and set the size to extend by. InitializeV.Initialize() C++: void Initialize() Free any memory and reset to an empty state. GetNumberOfCellsV.GetNumberOfCells() -> int C++: virtual vtkIdType GetNumberOfCells() Get the number of cells in the array. SetNumberOfCellsV.SetNumberOfCells(int) C++: virtual void SetNumberOfCells(vtkIdType _arg) Set the number of cells in the array. DO NOT do any kind of allocation, advanced use only. EstimateSizeV.EstimateSize(int, int) -> int C++: vtkIdType EstimateSize(vtkIdType numCells, int maxPtsPerCell) Utility routines help manage memory of cell array. EstimateSize() returns a value used to initialize and allocate memory for array based on number of cells and maximum number of points making up cell. If every cell is the same size (in terms of number of points), then the memory estimate is guaranteed exact. (If not exact, use Squeeze() to reclaim any extra memory.) InitTraversalV.InitTraversal() C++: void InitTraversal() A cell traversal methods that is more efficient than vtkDataSet traversal methods. InitTraversal() initializes the traversal of the list of cells. GetNextCellV.GetNextCell(int, [int, ...]) -> int C++: int GetNextCell(vtkIdType &npts, vtkIdType *&pts) V.GetNextCell(vtkIdList) -> int C++: int GetNextCell(vtkIdList *pts) A cell traversal methods that is more efficient than vtkDataSet traversal methods. GetNextCell() gets the next cell in the list. If end of list is encountered, 0 is returned. A value of 1 is returned whenever npts and pts have been updated without error. GetSizeV.GetSize() -> int C++: vtkIdType GetSize() Get the size of the allocated connectivity array. GetNumberOfConnectivityEntriesV.GetNumberOfConnectivityEntries() -> int C++: vtkIdType GetNumberOfConnectivityEntries() Get the total number of entries (i.e., data values) in the connectivity array. This may be much less than the allocated size (i.e., return value from GetSize().) GetCellV.GetCell(int, int, [int, ...]) C++: void GetCell(vtkIdType loc, vtkIdType &npts, vtkIdType *&pts) V.GetCell(int, vtkIdList) C++: void GetCell(vtkIdType loc, vtkIdList *pts) Internal method used to retrieve a cell given an offset into the internal array. InsertNextCellV.InsertNextCell(vtkCell) -> int C++: vtkIdType InsertNextCell(vtkCell *cell) V.InsertNextCell(int, (int, ...)) -> int C++: vtkIdType InsertNextCell(vtkIdType npts, const vtkIdType *pts) V.InsertNextCell(vtkIdList) -> int C++: vtkIdType InsertNextCell(vtkIdList *pts) V.InsertNextCell(int) -> int C++: vtkIdType InsertNextCell(int npts) Insert a cell object. Return the cell id of the cell. InsertCellPointV.InsertCellPoint(int) C++: void InsertCellPoint(vtkIdType id) Used in conjunction with InsertNextCell(int npts) to add another point to the list of cells. UpdateCellCountV.UpdateCellCount(int) C++: void UpdateCellCount(int npts) Used in conjunction with InsertNextCell(int npts) and InsertCellPoint() to update the number of points defining the cell. GetInsertLocationV.GetInsertLocation(int) -> int C++: vtkIdType GetInsertLocation(int npts) Computes the current insertion location within the internal array. Used in conjunction with GetCell(int loc,...). GetTraversalLocationV.GetTraversalLocation() -> int C++: vtkIdType GetTraversalLocation() V.GetTraversalLocation(int) -> int C++: vtkIdType GetTraversalLocation(vtkIdType npts) Get/Set the current traversal location. SetTraversalLocationV.SetTraversalLocation(int) C++: void SetTraversalLocation(vtkIdType loc) ReverseCellV.ReverseCell(int) C++: void ReverseCell(vtkIdType loc) Special method inverts ordering of current cell. Must be called carefully or the cell topology may be corrupted. ReplaceCellV.ReplaceCell(int, int, (int, ...)) C++: void ReplaceCell(vtkIdType loc, int npts, const vtkIdType *pts) Replace the point ids of the cell with a different list of point ids. Calling this method does not mark the vtkCellArray as modified. This is the responsibility of the caller and may be done after multiple calls to ReplaceCell. GetMaxCellSizeV.GetMaxCellSize() -> int C++: int GetMaxCellSize() Returns the size of the largest cell. The size is the number of points defining the cell. GetPointerV.GetPointer() -> (int, ...) C++: vtkIdType *GetPointer() Get pointer to array of cell data. WritePointerV.WritePointer(int, int) -> (int, ...) C++: vtkIdType *WritePointer(const vtkIdType ncells, const vtkIdType size) Get pointer to data array for purpose of direct writes of data. Size is the total storage consumed by the cell array. ncells is the number of cells represented in the array. SetCellsV.SetCells(int, vtkIdTypeArray) C++: void SetCells(vtkIdType ncells, vtkIdTypeArray *cells) Define multiple cells by providing a connectivity list. The list is in the form (npts,p0,p1,...p(npts-1), repeated for each cell). Be careful using this method because it discards the old cells, and anything referring these cells becomes invalid (for example, if BuildCells() has been called see vtkPolyData). The traversal location is reset to the beginning of the list; the insertion location is set to the end of the list. DeepCopyV.DeepCopy(vtkCellArray) C++: void DeepCopy(vtkCellArray *ca) Perform a deep copy (no reference counting) of the given cell array. GetDataV.GetData() -> vtkIdTypeArray C++: vtkIdTypeArray *GetData() Return the underlying data as a data array. ResetV.Reset() C++: void Reset() Reuse list. Reset to initial condition. SqueezeV.Squeeze() C++: void Squeeze() Reclaim any extra memory. GetActualMemorySizeV.GetActualMemorySize() -> int C++: unsigned long GetActualMemorySize() Return the memory in kibibytes (1024 bytes) consumed by this cell array. Used to support streaming and reading/writing data. The value returned is guaranteed to be greater than or equal to the memory required to actually represent the data represented by this object. 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