vtkParametricKuen.h 2.58 KB
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/*=========================================================================

  Program:   Visualization Toolkit
  Module:    vtkParametricKuen.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 vtkParametricKuen - Generate Kuens' surface.
// .SECTION Description
// vtkParametricKuen generates Kuens' surface. This surface has a constant
// negative gaussian curvature. For more information about this surface, see
// Dr. O'Niell's page at the
// <a href="http://www.math.ucla.edu/~bon/kuen.html">UCLA Mathematics Department</a>.
// .SECTION Thanks
// Tim Meehan

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#ifndef vtkParametricKuen_h
#define vtkParametricKuen_h
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#include "vtkCommonComputationalGeometryModule.h" // For export macro
#include "vtkParametricFunction.h"

class VTKCOMMONCOMPUTATIONALGEOMETRY_EXPORT vtkParametricKuen : public vtkParametricFunction
{
public:

  vtkTypeMacro(vtkParametricKuen,vtkParametricFunction);
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  void PrintSelf(ostream& os, vtkIndent indent) VTK_OVERRIDE;
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  // Description:
  // Construct Kuen's surface with the following parameters:
  // (MinimumU, MaximumU) = (-3*pi, 3*pi),
  // (MinimumV, MaximumV) = (0., pi),
  // JoinU = 0, JoinV = 0,
  // TwistU = 0, TwistV = 0;
  // ClockwiseOrdering = 1,
  // DerivativesAvailable = 1,
  static vtkParametricKuen *New();

  // Description
  // Return the parametric dimension of the class.
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  int GetDimension() VTK_OVERRIDE {return 2;}
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  // Description:
  // Kuen's surface.
  //
  // This function performs the mapping \f$f(u,v) \rightarrow (x,y,x)\f$, returning it
  // as Pt. It also returns the partial derivatives Du and Dv.
  // \f$Pt = (x, y, z), D_u\vec{f} = (dx/du, dy/du, dz/du), D_v\vec{f} = (dx/dv, dy/dv, dz/dv)\f$ .
  // Then the normal is \f$N = D_u\vec{f} \times D_v\vec{f}\f$ .
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  void Evaluate(double uvw[3], double Pt[3], double Duvw[9]) VTK_OVERRIDE;
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  // Description:
  // Calculate a user defined scalar using one or all of uvw, Pt, Duvw.
  // This method simply returns 0.
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  double EvaluateScalar(double uvw[3], double Pt[3], double Duvw[9]) VTK_OVERRIDE;
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protected:
  vtkParametricKuen();
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  ~vtkParametricKuen() VTK_OVERRIDE;
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private:
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  vtkParametricKuen(const vtkParametricKuen&) VTK_DELETE_FUNCTION;
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  void operator=(const vtkParametricKuen&) VTK_DELETE_FUNCTION;
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};

#endif