/usr/include/vtk-6.1/vtkUniformGrid.h is in libvtk6-dev 6.1.0+dfsg2-6.
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Program: Visualization Toolkit
Module: vtkUniformGrid.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.
=========================================================================*/
// .NAME vtkUniformGrid - image data with blanking
// .SECTION Description
// vtkUniformGrid is a subclass of vtkImageData. In addition to all
// the image data functionality, it supports blanking.
#ifndef __vtkUniformGrid_h
#define __vtkUniformGrid_h
#include "vtkCommonDataModelModule.h" // For export macro
#include "vtkImageData.h"
class vtkEmptyCell;
class vtkStructuredVisibilityConstraint;
class vtkUnsignedCharArray;
class vtkAMRBox;
class VTKCOMMONDATAMODEL_EXPORT vtkUniformGrid : public vtkImageData
{
public:
// Description:
// Construct an empty uniform grid.
static vtkUniformGrid *New();
vtkTypeMacro(vtkUniformGrid,vtkImageData);
void PrintSelf(ostream& os, vtkIndent indent);
// Description:
// Copy the geometric and topological structure of an input image data
// object.
virtual void CopyStructure(vtkDataSet *ds);
// Description:
// Return what type of dataset this is.
virtual int GetDataObjectType() {return VTK_UNIFORM_GRID;};
// Description:
// Standard vtkDataSet API methods. See vtkDataSet for more information.
virtual vtkCell *GetCell(vtkIdType cellId);
virtual void GetCell(vtkIdType cellId, vtkGenericCell *cell);
virtual vtkIdType FindCell(
double x[3], vtkCell *cell, vtkIdType cellId, double tol2,
int& subId, double pcoords[3], double *weights);
virtual vtkIdType FindCell(
double x[3], vtkCell *cell, vtkGenericCell *gencell,
vtkIdType cellId, double tol2, int& subId,
double pcoords[3], double *weights);
virtual vtkCell *FindAndGetCell(
double x[3], vtkCell *cell, vtkIdType cellId,
double tol2, int& subId, double pcoords[3],
double *weights);
virtual int GetCellType(vtkIdType cellId);
virtual void GetCellPoints(vtkIdType cellId, vtkIdList *ptIds)
{vtkStructuredData::GetCellPoints(cellId,ptIds,this->GetDataDescription(),
this->GetDimensions());}
virtual void GetPointCells(vtkIdType ptId, vtkIdList *cellIds)
{vtkStructuredData::GetPointCells(ptId,cellIds,this->GetDimensions());}
virtual void Initialize();
virtual int GetMaxCellSize() {return 8;}; //voxel is the largest
// Description:
// Returns the data description of this uniform grid instance.
int GetGridDescription();
// BTX
// Description:
// Initialize with no ghost cell arrays, from the definition in
// the given box. The box is expetced to be 3D, if you have 2D
// data the set the third dimensions 0. eg. (X,X,0)(X,X,0)
// Returns 0 if the initialization failed.
int Initialize(const vtkAMRBox *def, double* origin, double* spacing);
// Description:
// Initialize from the definition in the given box, with ghost cell
// arrays nGhosts cells thick in all directions. The box is expetced
// to be 3D, if you have 2D data the set the third dimensions 0.
// eg. (X,X,0)(X,X,0)
// Returns 0 if the initialization failed.
int Initialize(const vtkAMRBox *def, double* origin, double* spacing, int nGhosts);
// Description:
// Initialize from the definition in the given box, with ghost cell
// arrays of the thickness given in each direction by "nGhosts" array.
// The box and ghost array are expected to be 3D, if you have 2D data
// the set the third dimensions 0. eg. (X,X,0)(X,X,0)
// Returns 0 if the initialization failed.
int Initialize(const vtkAMRBox *def, double* origin, double* spacing, const int nGhosts[3]);
// Description:
// Construct a uniform grid, from the definition in the given box
// "def", with ghost cell arrays of the thickness given in each
// direction by "nGhosts*". The box and ghost array are expected
// to be 3D, if you have 2D data the set the third dimensions 0. eg.
// (X,X,0)(X,X,0)
// Returns 0 if the initialization failed.
int Initialize(const vtkAMRBox *def, double* origin, double* spacing, int nGhostsI,int nGhostsJ,int nGhostsK);
//ETX
// Description:
// Shallow and Deep copy.
virtual void ShallowCopy(vtkDataObject *src);
virtual void DeepCopy(vtkDataObject *src);
// Description:
// Methods for supporting blanking of cells. Blanking turns on or off
// points in the structured grid, and hence the cells connected to them.
// These methods should be called only after the dimensions of the
// grid are set.
virtual void BlankPoint(vtkIdType ptId);
virtual void UnBlankPoint(vtkIdType ptId);
virtual void BlankPoint( const int i, const int j, const int k );
virtual void UnBlankPoint( const int i, const int j, const int k );
// Description:
// Methods for supporting blanking of cells. Blanking turns on or off
// cells in the structured grid.
// These methods should be called only after the dimensions of the
// grid are set.
virtual void BlankCell(vtkIdType ptId);
virtual void UnBlankCell(vtkIdType ptId);
virtual void BlankCell( const int i, const int j, const int k );
virtual void UnBlankCell( const int i, const int j, const int k );
// Description:
// Get the array that defines the blanking (visibility) of each point.
virtual vtkUnsignedCharArray *GetPointVisibilityArray();
// Description:
// Set an array that defines the (blanking) visibility of the points
// in the grid. Make sure that length of the visibility array matches
// the number of points in the grid.
virtual void SetPointVisibilityArray(vtkUnsignedCharArray *pointVisibility);
// Description:
// Get the array that defines the blanking (visibility) of each cell.
virtual vtkUnsignedCharArray *GetCellVisibilityArray();
// Description:
// Set an array that defines the (blanking) visibility of the cells
// in the grid. Make sure that length of the visibility array matches
// the number of points in the grid.
virtual void SetCellVisibilityArray(vtkUnsignedCharArray *pointVisibility);
// Description:
// Attaches the CellVisibility array to the Cell data.
// Used primarily for debugging.
virtual void AttachCellVisibilityToCellData( );
// Description:
// Attaches the PointVisibility arry to the Point data.
// Used primarily for debugging.
virtual void AttachPointVisibilityToPointData( );
// Description:
// Return non-zero value if specified point is visible.
// These methods should be called only after the dimensions of the
// grid are set.
virtual unsigned char IsPointVisible(vtkIdType ptId);
// Description:
// Return non-zero value if specified cell is visible.
// These methods should be called only after the dimensions of the
// grid are set.
virtual unsigned char IsCellVisible(vtkIdType cellId);
// Description:
// Returns 1 if there is any visibility constraint on the points,
// 0 otherwise.
virtual unsigned char GetPointBlanking();
// Description:
// Returns 1 if there is any visibility constraint on the cells,
// 0 otherwise.
virtual unsigned char GetCellBlanking();
virtual vtkImageData* NewImageDataCopy();
//BTX
// Description:
// Retrieve an instance of this class from an information object.
static vtkUniformGrid* GetData(vtkInformation* info);
static vtkUniformGrid* GetData(vtkInformationVector* v, int i=0);
//ETX
protected:
vtkUniformGrid();
~vtkUniformGrid();
// Description:
// Returns the cell dimensions for this vtkUniformGrid instance.
void GetCellDims( int cellDims[3] );
// Description:
// Override this method because of blanking.
virtual void ComputeScalarRange();
vtkStructuredVisibilityConstraint* PointVisibility;
void SetPointVisibility(vtkStructuredVisibilityConstraint *pointVisibility);
vtkGetObjectMacro(PointVisibility, vtkStructuredVisibilityConstraint);
vtkStructuredVisibilityConstraint* CellVisibility;
void SetCellVisibility(vtkStructuredVisibilityConstraint *cellVisibility);
vtkGetObjectMacro(CellVisibility, vtkStructuredVisibilityConstraint);
vtkEmptyCell* GetEmptyCell();
private:
vtkUniformGrid(const vtkUniformGrid&); // Not implemented.
void operator=(const vtkUniformGrid&); // Not implemented.
vtkEmptyCell *EmptyCell;
};
#endif
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