/usr/include/vtk-7.1/vtkUnstructuredGrid.h is in libvtk7-dev 7.1.1+dfsg1-2.
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Program: Visualization Toolkit
Module: vtkUnstructuredGrid.h
Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
All rights reserved.
See Copyright.txt or http://www.kitware.com/Copyright.htm for details.
This software is distributed WITHOUT ANY WARRANTY; without even
the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
PURPOSE. See the above copyright notice for more information.
=========================================================================*/
/**
* @class vtkUnstructuredGrid
* @brief dataset represents arbitrary combinations of
* all possible cell types
*
* vtkUnstructuredGrid is a data object that is a concrete implementation of
* vtkDataSet. vtkUnstructuredGrid represents any combinations of any cell
* types. This includes 0D (e.g., points), 1D (e.g., lines, polylines), 2D
* (e.g., triangles, polygons), and 3D (e.g., hexahedron, tetrahedron,
* polyhedron, etc.).
*/
#ifndef vtkUnstructuredGrid_h
#define vtkUnstructuredGrid_h
#include "vtkCommonDataModelModule.h" // For export macro
#include "vtkUnstructuredGridBase.h"
class vtkCellArray;
class vtkCellLinks;
class vtkConvexPointSet;
class vtkEmptyCell;
class vtkHexahedron;
class vtkIdList;
class vtkIdTypeArray;
class vtkLine;
class vtkPixel;
class vtkPolyLine;
class vtkPolyVertex;
class vtkPolygon;
class vtkPyramid;
class vtkPentagonalPrism;
class vtkHexagonalPrism;
class vtkQuad;
class vtkQuadraticEdge;
class vtkQuadraticHexahedron;
class vtkQuadraticWedge;
class vtkQuadraticPolygon;
class vtkQuadraticPyramid;
class vtkQuadraticQuad;
class vtkQuadraticTetra;
class vtkQuadraticTriangle;
class vtkTetra;
class vtkTriangle;
class vtkTriangleStrip;
class vtkUnsignedCharArray;
class vtkVertex;
class vtkVoxel;
class vtkWedge;
class vtkTriQuadraticHexahedron;
class vtkQuadraticLinearWedge;
class vtkQuadraticLinearQuad;
class vtkBiQuadraticQuad;
class vtkBiQuadraticQuadraticWedge;
class vtkBiQuadraticQuadraticHexahedron;
class vtkBiQuadraticTriangle;
class vtkCubicLine;
class vtkPolyhedron;
class vtkIdTypeArray;
class VTKCOMMONDATAMODEL_EXPORT vtkUnstructuredGrid :
public vtkUnstructuredGridBase
{
public:
static vtkUnstructuredGrid *New();
vtkTypeMacro(vtkUnstructuredGrid, vtkUnstructuredGridBase)
void PrintSelf(ostream& os, vtkIndent indent) VTK_OVERRIDE;
/**
* Standard vtkDataSet API methods. See vtkDataSet for more information.
*/
int GetDataObjectType() VTK_OVERRIDE {return VTK_UNSTRUCTURED_GRID;};
/**
* Method allocates initial storage for the cell connectivity. Use this
* method before the method InsertNextCell(). The array capacity is
* doubled when the inserting a cell exceeds the current capacity.
* extSize is no longer used.
*/
void Allocate(vtkIdType numCells=1000, int extSize=1000) VTK_OVERRIDE;
/**
* Insert/create cell in object by type and list of point ids defining
* cell topology. Most cells require just a type which implicitly defines
* a set of points and their ordering. For non-polyhedron cell type, npts
* is the number of unique points in the cell. pts are the list of global
* point Ids. For polyhedron cell, a special input format is required.
* npts is the number of faces in the cell. ptIds is the list of face stream:
* (numFace0Pts, id1, id2, id3, numFace1Pts,id1, id2, id3, ...)
* Make sure you have called Allocate() before calling this method
*/
vtkIdType InsertNextCell(int type, vtkIdType npts, vtkIdType *ptIds) VTK_OVERRIDE;
/**
* Insert/create cell in object by a list of point ids defining
* cell topology. Most cells require just a type which implicitly defines
* a set of points and their ordering. For non-polyhedron cell type, ptIds
* is the list of global Ids of unique cell points. For polyhedron cell,
* a special ptIds input format is required:
* (numCellFaces, numFace0Pts, id1, id2, id3, numFace1Pts,id1, id2, id3, ...)
* Make sure you have called Allocate() before calling this method
*/
vtkIdType InsertNextCell(int type, vtkIdList *ptIds) VTK_OVERRIDE;
// Desciption:
// Insert/create a polyhedron cell. npts is the number of unique points in
// the cell. pts is the list of the unique cell point Ids. nfaces is the
// number of faces in the cell. faces is the face-stream
// [numFace0Pts, id1, id2, id3, numFace1Pts,id1, id2, id3, ...].
// All point Ids are global.
// Make sure you have called Allocate() before calling this method
vtkIdType InsertNextCell(int type, vtkIdType npts, vtkIdType *ptIds,
vtkIdType nfaces, vtkIdType *faces) VTK_OVERRIDE;
//@{
/**
* Standard vtkDataSet methods; see vtkDataSet.h for documentation.
*/
void Reset();
void CopyStructure(vtkDataSet *ds) VTK_OVERRIDE;
vtkIdType GetNumberOfCells() VTK_OVERRIDE;
vtkCell *GetCell(vtkIdType cellId) VTK_OVERRIDE;
void GetCell(vtkIdType cellId, vtkGenericCell *cell) VTK_OVERRIDE;
void GetCellBounds(vtkIdType cellId, double bounds[6]) VTK_OVERRIDE;
void GetCellPoints(vtkIdType cellId, vtkIdList *ptIds) VTK_OVERRIDE;
void GetPointCells(vtkIdType ptId, vtkIdList *cellIds) VTK_OVERRIDE;
vtkCellIterator* NewCellIterator() VTK_OVERRIDE;
//@}
int GetCellType(vtkIdType cellId) VTK_OVERRIDE;
vtkUnsignedCharArray* GetCellTypesArray() { return this->Types; }
vtkIdTypeArray* GetCellLocationsArray() { return this->Locations; }
void Squeeze() VTK_OVERRIDE;
void Initialize() VTK_OVERRIDE;
int GetMaxCellSize() VTK_OVERRIDE;
void BuildLinks();
vtkCellLinks *GetCellLinks() {return this->Links;};
virtual void GetCellPoints(vtkIdType cellId, vtkIdType& npts,
vtkIdType* &pts);
/**
* Get the face stream of a polyhedron cell in the following format:
* (numCellFaces, numFace0Pts, id1, id2, id3, numFace1Pts,id1, id2, id3, ...).
* If the requested cell is not a polyhedron, then the standard GetCellPoints
* is called to return a list of unique point ids (id1, id2, id3, ...).
*/
void GetFaceStream(vtkIdType cellId, vtkIdList *ptIds);
/**
* Get the number of faces and the face stream of a polyhedral cell.
* The output \a ptIds has the following format:
* (numFace0Pts, id1, id2, id3, numFace1Pts,id1, id2, id3, ...).
* If the requested cell is not a polyhedron, then the standard GetCellPoints
* is called to return the number of points and a list of unique point ids
* (id1, id2, id3, ...).
*/
void GetFaceStream(vtkIdType cellId, vtkIdType& nfaces, vtkIdType* &ptIds);
//@{
/**
* Special methods specific to vtkUnstructuredGrid for defining the cells
* composing the dataset. Most cells require just arrays of cellTypes,
* cellLocations and cellConnectivities which implicitly define the set of
* points in each cell and their ordering. In those cases the
* cellConnectivities are of the format
* (numFace0Pts, id1, id2, id3, numFace1Pts, id1, id2, id3...). However, some
* cells like vtkPolyhedron require points plus a list of faces. To handle
* vtkPolyhedron, SetCells() support a special input cellConnectivities format
* (numCellFaces, numFace0Pts, id1, id2, id3, numFace1Pts,id1, id2, id3, ...)
* The functions use vtkPolyhedron::DecomposeAPolyhedronCell() to convert
* polyhedron cells into standard format.
*/
void SetCells(int type, vtkCellArray *cells);
void SetCells(int *types, vtkCellArray *cells);
void SetCells(vtkUnsignedCharArray *cellTypes, vtkIdTypeArray *cellLocations,
vtkCellArray *cells);
void SetCells(vtkUnsignedCharArray *cellTypes, vtkIdTypeArray *cellLocations,
vtkCellArray *cells, vtkIdTypeArray *faceLocations,
vtkIdTypeArray *faces);
//@}
vtkCellArray *GetCells() {return this->Connectivity;};
void ReplaceCell(vtkIdType cellId, int npts, vtkIdType *pts) VTK_OVERRIDE;
vtkIdType InsertNextLinkedCell(int type, int npts, vtkIdType *pts);
void RemoveReferenceToCell(vtkIdType ptId, vtkIdType cellId);
void AddReferenceToCell(vtkIdType ptId, vtkIdType cellId);
void ResizeCellList(vtkIdType ptId, int size);
/**
* Topological inquiry to get all cells using list of points exclusive of
* cell specified (e.g., cellId).
* THIS METHOD IS THREAD SAFE IF FIRST CALLED FROM A SINGLE THREAD AND
* THE DATASET IS NOT MODIFIED
*/
void GetCellNeighbors(vtkIdType cellId, vtkIdList *ptIds,
vtkIdList *cellIds) VTK_OVERRIDE;
//@{
/**
* Set / Get the piece and the number of pieces. Similar to extent in 3D.
*/
virtual int GetPiece();
virtual int GetNumberOfPieces();
//@}
/**
* Get the ghost level.
*/
virtual int GetGhostLevel();
/**
* Return the actual size of the data in kibibytes (1024 bytes). This number
* is valid only after the pipeline has updated. The memory size
* returned is guaranteed to be greater than or equal to the
* memory required to represent the data (e.g., extra space in
* arrays, etc. are not included in the return value). THIS METHOD
* IS THREAD SAFE.
*/
unsigned long GetActualMemorySize() VTK_OVERRIDE;
//@{
/**
* Shallow and Deep copy.
*/
void ShallowCopy(vtkDataObject *src) VTK_OVERRIDE;
void DeepCopy(vtkDataObject *src) VTK_OVERRIDE;
//@}
/**
* Fill vtkIdTypeArray container with list of cell Ids. This
* method traverses all cells and, for a particular cell type,
* inserts the cell Id into the container.
*/
void GetIdsOfCellsOfType(int type, vtkIdTypeArray *array) VTK_OVERRIDE;
/**
* Traverse cells and determine if cells are all of the same type.
*/
int IsHomogeneous() VTK_OVERRIDE;
/**
* This method will remove any cell that is marked as ghost
* (has the vtkDataSetAttributes::DUPLICATECELL bit set).
*/
void RemoveGhostCells();
//@{
/**
* Retrieve an instance of this class from an information object.
*/
static vtkUnstructuredGrid* GetData(vtkInformation* info);
static vtkUnstructuredGrid* GetData(vtkInformationVector* v, int i=0);
//@}
/**
* Special support for polyhedron. Return NULL for all other cell types.
*/
vtkIdType *GetFaces(vtkIdType cellId);
//@{
/**
* Get pointer to faces and facelocations. Support for polyhedron cells.
*/
vtkIdTypeArray* GetFaces(){return this->Faces;};
vtkIdTypeArray* GetFaceLocations(){return this->FaceLocations;};
//@}
/**
* Special function used by vtkUnstructuredGridReader.
* By default vtkUnstructuredGrid does not contain face information, which is
* only used by polyhedron cells. If so far no polyhedron cells have been
* added, Faces and FaceLocations pointers will be NULL. In this case, need to
* initialize the arrays and assign values to the previous non-polyhedron cells.
*/
int InitializeFacesRepresentation(vtkIdType numPrevCells);
/**
* A static method for converting a polyhedron vtkCellArray of format
* [nCellFaces, nFace0Pts, i, j, k, nFace1Pts, i, j, k, ...]
* into three components: (1) an integer indicating the number of faces
* (2) a standard vtkCellArray storing point ids [nCell0Pts, i, j, k]
* and (3) an vtkIdTypeArray storing face connectivity in format
* [nFace0Pts, i, j, k, nFace1Pts, i, j, k, ...]
* Note: input is assumed to contain only one polyhedron cell.
* Outputs (2) and (3) will be stacked at the end of the input
* cellArray and faces. The original data in the input will not
* be touched.
*/
static void DecomposeAPolyhedronCell(vtkCellArray *polyhedronCellArray,
vtkIdType & nCellpts,
vtkIdType & nCellfaces,
vtkCellArray *cellArray,
vtkIdTypeArray *faces);
static void DecomposeAPolyhedronCell(vtkIdType * polyhedronCellStream,
vtkIdType & nCellpts,
vtkIdType & nCellfaces,
vtkCellArray *cellArray,
vtkIdTypeArray *faces);
/**
* A static method for converting an input polyhedron cell stream of format
* [nFace0Pts, i, j, k, nFace1Pts, i, j, k, ...]
* into three components: (1) an integer indicating the number of faces
* (2) a standard vtkCellArray storing point ids [nCell0Pts, i, j, k]
* and (3) an vtkIdTypeArray storing face connectivity in format
* [nFace0Pts, i, j, k, nFace1Pts, i, j, k, ...]
* Note: input is assumed to contain only one polyhedron cell.
* Outputs (2) and (3) will be stacked at the end of the input
* cellArray and faces. The original data in the input will not
* be touched.
*/
static void DecomposeAPolyhedronCell(vtkIdType nCellFaces,
vtkIdType * inFaceStream,
vtkIdType & nCellpts,
vtkCellArray * cellArray,
vtkIdTypeArray * faces);
/**
* Convert pid in a face stream into idMap[pid]. The face stream is of format
* [nCellFaces, nFace0Pts, i, j, k, nFace1Pts, i, j, k, ...]. The user is
* responsible to make sure all the Ids in faceStream do not exceed the
* range of idMap.
*/
static void ConvertFaceStreamPointIds(vtkIdList * faceStream,
vtkIdType * idMap);
/**
* Convert pid in a face stream into idMap[pid]. The face stream is of format
* [nFace0Pts, i, j, k, nFace1Pts, i, j, k, ...]. The user is responsible to
* make sure all the Ids in faceStream do not exceed the range of idMap.
*/
static void ConvertFaceStreamPointIds(vtkIdType nfaces,
vtkIdType * faceStream,
vtkIdType * idMap);
protected:
vtkUnstructuredGrid();
~vtkUnstructuredGrid() VTK_OVERRIDE;
// used by GetCell method
vtkVertex *Vertex;
vtkPolyVertex *PolyVertex;
vtkLine *Line;
vtkPolyLine *PolyLine;
vtkTriangle *Triangle;
vtkTriangleStrip *TriangleStrip;
vtkPixel *Pixel;
vtkQuad *Quad;
vtkPolygon *Polygon;
vtkTetra *Tetra;
vtkVoxel *Voxel;
vtkHexahedron *Hexahedron;
vtkWedge *Wedge;
vtkPyramid *Pyramid;
vtkPentagonalPrism *PentagonalPrism;
vtkHexagonalPrism *HexagonalPrism;
vtkQuadraticEdge *QuadraticEdge;
vtkQuadraticTriangle *QuadraticTriangle;
vtkQuadraticQuad *QuadraticQuad;
vtkQuadraticPolygon *QuadraticPolygon;
vtkQuadraticTetra *QuadraticTetra;
vtkQuadraticHexahedron *QuadraticHexahedron;
vtkQuadraticWedge *QuadraticWedge;
vtkQuadraticPyramid *QuadraticPyramid;
vtkQuadraticLinearQuad *QuadraticLinearQuad;
vtkBiQuadraticQuad *BiQuadraticQuad;
vtkTriQuadraticHexahedron *TriQuadraticHexahedron;
vtkQuadraticLinearWedge *QuadraticLinearWedge;
vtkBiQuadraticQuadraticWedge *BiQuadraticQuadraticWedge;
vtkBiQuadraticQuadraticHexahedron *BiQuadraticQuadraticHexahedron;
vtkBiQuadraticTriangle *BiQuadraticTriangle;
vtkCubicLine *CubicLine;
vtkConvexPointSet *ConvexPointSet;
vtkPolyhedron *Polyhedron;
vtkEmptyCell *EmptyCell;
// points inherited
// point data (i.e., scalars, vectors, normals, tcoords) inherited
vtkCellArray *Connectivity;
vtkCellLinks *Links;
vtkUnsignedCharArray *Types;
vtkIdTypeArray *Locations;
// Special support for polyhedra/cells with explicit face representations.
// The Faces class represents polygonal faces using a modified vtkCellArray
// structure. Each cell face list begins with the total number of faces in
// the cell, followed by a vtkCellArray data organization
// (n,i,j,k,n,i,j,k,...).
vtkIdTypeArray *Faces;
vtkIdTypeArray *FaceLocations;
private:
// Hide these from the user and the compiler.
vtkUnstructuredGrid(const vtkUnstructuredGrid&) VTK_DELETE_FUNCTION;
void operator=(const vtkUnstructuredGrid&) VTK_DELETE_FUNCTION;
void Cleanup();
};
#endif
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