/usr/include/vtk-7.1/vtkMarchingCubes.h is in libvtk7-dev 7.1.1+dfsg1-2.
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Program: Visualization Toolkit
Module: vtkMarchingCubes.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 vtkMarchingCubes
* @brief generate isosurface(s) from volume
*
* vtkMarchingCubes is a filter that takes as input a volume (e.g., 3D
* structured point set) and generates on output one or more isosurfaces.
* One or more contour values must be specified to generate the isosurfaces.
* Alternatively, you can specify a min/max scalar range and the number of
* contours to generate a series of evenly spaced contour values.
*
* @warning
* This filter is specialized to volumes. If you are interested in
* contouring other types of data, use the general vtkContourFilter. If you
* want to contour an image (i.e., a volume slice), use vtkMarchingSquares.
* @sa
* vtkContourFilter vtkSliceCubes vtkMarchingSquares vtkDividingCubes
*/
#ifndef vtkMarchingCubes_h
#define vtkMarchingCubes_h
#include "vtkFiltersCoreModule.h" // For export macro
#include "vtkPolyDataAlgorithm.h"
#include "vtkContourValues.h" // Needed for direct access to ContourValues
class vtkIncrementalPointLocator;
class VTKFILTERSCORE_EXPORT vtkMarchingCubes : public vtkPolyDataAlgorithm
{
public:
static vtkMarchingCubes *New();
vtkTypeMacro(vtkMarchingCubes,vtkPolyDataAlgorithm);
void PrintSelf(ostream& os, vtkIndent indent) VTK_OVERRIDE;
// Methods to set contour values
void SetValue(int i, double value);
double GetValue(int i);
double *GetValues();
void GetValues(double *contourValues);
void SetNumberOfContours(int number);
int GetNumberOfContours();
void GenerateValues(int numContours, double range[2]);
void GenerateValues(int numContours, double rangeStart, double rangeEnd);
// Because we delegate to vtkContourValues
vtkMTimeType GetMTime() VTK_OVERRIDE;
//@{
/**
* Set/Get the computation of normals. Normal computation is fairly
* expensive in both time and storage. If the output data will be
* processed by filters that modify topology or geometry, it may be
* wise to turn Normals and Gradients off.
*/
vtkSetMacro(ComputeNormals,int);
vtkGetMacro(ComputeNormals,int);
vtkBooleanMacro(ComputeNormals,int);
//@}
//@{
/**
* Set/Get the computation of gradients. Gradient computation is
* fairly expensive in both time and storage. Note that if
* ComputeNormals is on, gradients will have to be calculated, but
* will not be stored in the output dataset. If the output data
* will be processed by filters that modify topology or geometry, it
* may be wise to turn Normals and Gradients off.
*/
vtkSetMacro(ComputeGradients,int);
vtkGetMacro(ComputeGradients,int);
vtkBooleanMacro(ComputeGradients,int);
//@}
//@{
/**
* Set/Get the computation of scalars.
*/
vtkSetMacro(ComputeScalars,int);
vtkGetMacro(ComputeScalars,int);
vtkBooleanMacro(ComputeScalars,int);
//@}
//@{
/**
* Overide the default locator. Useful for changing the number of
* bins for performance or specifying a more aggressive locator.
*/
void SetLocator(vtkIncrementalPointLocator *locator);
vtkGetObjectMacro(Locator,vtkIncrementalPointLocator);
//@}
/**
* Create default locator. Used to create one when none is
* specified. The locator is used to merge coincident points.
*/
void CreateDefaultLocator();
protected:
vtkMarchingCubes();
~vtkMarchingCubes() VTK_OVERRIDE;
int RequestData(vtkInformation *, vtkInformationVector **, vtkInformationVector *) VTK_OVERRIDE;
int FillInputPortInformation(int port, vtkInformation *info) VTK_OVERRIDE;
vtkContourValues *ContourValues;
int ComputeNormals;
int ComputeGradients;
int ComputeScalars;
vtkIncrementalPointLocator *Locator;
private:
vtkMarchingCubes(const vtkMarchingCubes&) VTK_DELETE_FUNCTION;
void operator=(const vtkMarchingCubes&) VTK_DELETE_FUNCTION;
};
/**
* Set a particular contour value at contour number i. The index i ranges
* between 0<=i<NumberOfContours.
*/
inline void vtkMarchingCubes::SetValue(int i, double value)
{this->ContourValues->SetValue(i,value);}
/**
* Get the ith contour value.
*/
inline double vtkMarchingCubes::GetValue(int i)
{return this->ContourValues->GetValue(i);}
/**
* Get a pointer to an array of contour values. There will be
* GetNumberOfContours() values in the list.
*/
inline double *vtkMarchingCubes::GetValues()
{return this->ContourValues->GetValues();}
/**
* Fill a supplied list with contour values. There will be
* GetNumberOfContours() values in the list. Make sure you allocate
* enough memory to hold the list.
*/
inline void vtkMarchingCubes::GetValues(double *contourValues)
{this->ContourValues->GetValues(contourValues);}
/**
* Set the number of contours to place into the list. You only really
* need to use this method to reduce list size. The method SetValue()
* will automatically increase list size as needed.
*/
inline void vtkMarchingCubes::SetNumberOfContours(int number)
{this->ContourValues->SetNumberOfContours(number);}
/**
* Get the number of contours in the list of contour values.
*/
inline int vtkMarchingCubes::GetNumberOfContours()
{return this->ContourValues->GetNumberOfContours();}
/**
* Generate numContours equally spaced contour values between specified
* range. Contour values will include min/max range values.
*/
inline void vtkMarchingCubes::GenerateValues(int numContours, double range[2])
{this->ContourValues->GenerateValues(numContours, range);}
/**
* Generate numContours equally spaced contour values between specified
* range. Contour values will include min/max range values.
*/
inline void vtkMarchingCubes::GenerateValues(int numContours, double
rangeStart, double rangeEnd)
{this->ContourValues->GenerateValues(numContours, rangeStart, rangeEnd);}
#endif
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