/usr/include/vtk-6.3/vtkSpline.h is in libvtk6-dev 6.3.0+dfsg1-11build1.
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Program: Visualization Toolkit
Module: vtkSpline.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 vtkSpline - spline abstract class for interpolating splines
// .SECTION Description
// vtkSpline interpolates a set of data points (i.e., interpolation means
// that the spline passes through the points). vtkSpline is an abstract
// class: its subclasses vtkCardinalSpline and vtkKochenekSpline do the
// interpolation. Note that this spline maps the 1D parametric coordinate
// t into a single value x. Thus if you want to use the spline to
// interpolate points (i.e. x[3]), you have to create three splines for
// each of the x-y-z coordinates. Fortunately, the vtkParametricSpline
// class does this for you.
//
// Typically a spline is used by adding a sequence of parametric coordinate /
// data (t,x) values followed by use of an evaluation function (e.g.,
// vtkCardinalSpline::Evaluate()). Since these splines are 1D, a point in
// this context is an independent / dependent variable pair.
//
// Splines can also be set up to be closed or open. Closed splines continue
// from the last point to the first point with continuous function and
// derivative values. (You don't need to duplicate the first point to close
// the spline, just set ClosedOn.)
//
// This implementation of splines does not use a normalized parametric
// coordinate. If the spline is open, then the parameter space is (tMin <= t
// <= tMax) where tMin and tMax are the minimum and maximum parametric values
// seen when performing AddPoint(). If the spline is closed, then the
// parameter space is (tMin <= t <= (tMax+1)) where tMin and tMax are the
// minimum and maximum parametric values seen when performing AddPoint().
// Note, however, that this behavior can be changed by explicitly setting
// the ParametricRange(tMin,tMax). If set, the parameter space remains
// (tMin <= t <= tMax), except that additions of data with parametric
// values outside this range are clamped within this range.
// .SECTION See Also
// vtkCardinalSpline vtkKochenekSpline vtkParametricSpline
// vtkParametricFunctionSource
#ifndef vtkSpline_h
#define vtkSpline_h
#include "vtkCommonDataModelModule.h" // For export macro
#include "vtkObject.h"
class vtkPiecewiseFunction;
class VTKCOMMONDATAMODEL_EXPORT vtkSpline : public vtkObject
{
public:
vtkTypeMacro(vtkSpline,vtkObject);
void PrintSelf(ostream& os, vtkIndent indent);
// Description:
// Set/Get the parametric range. If not set, the range is determined
// implicitly by keeping track of the (min,max) parameter values for
// t. If set, the AddPoint() method will clamp the t value to lie
// within the specified range.
void SetParametricRange(double tMin, double tMax);
void SetParametricRange(double tRange[2])
{this->SetParametricRange(tRange[0],tRange[1]);}
void GetParametricRange(double tRange[2]) const;
// Description:
// Set/Get ClampValue. If On, results of the interpolation will be
// clamped to the min/max of the input data.
vtkSetMacro(ClampValue,int);
vtkGetMacro(ClampValue,int);
vtkBooleanMacro(ClampValue,int);
// Description:
// Compute the coefficients for the spline.
virtual void Compute () = 0;
// Description:
// Interpolate the value of the spline at parametric location of t.
virtual double Evaluate (double t) = 0;
// Description:
// Return the number of points inserted thus far.
int GetNumberOfPoints();
// Description:
// Add a pair of points to be fit with the spline.
void AddPoint (double t, double x);
// Description:
// Remove a point from the data to be fit with the spline.
void RemovePoint (double t);
// Description:
// Remove all points from the data.
void RemoveAllPoints ();
// Description:
// Control whether the spline is open or closed. A closed spline forms
// a continuous loop: the first and last points are the same, and
// derivatives are continuous.
vtkSetMacro(Closed,int);
vtkGetMacro(Closed,int);
vtkBooleanMacro(Closed,int);
// Description:
// Set the type of constraint of the left(right) end points. Four
// constraints are available:
//
// 0: the first derivative at left(right) most point is determined
// from the line defined from the first(last) two points.
//
// 1: the first derivative at left(right) most point is set to
// Left(Right)Value.
//
// 2: the second derivative at left(right) most point is set to
// Left(Right)Value.
//
// 3: the second derivative at left(right)most points is Left(Right)Value
// times second derivative at first interior point.
vtkSetClampMacro(LeftConstraint,int,0,3);
vtkGetMacro(LeftConstraint,int);
vtkSetClampMacro(RightConstraint,int,0,3);
vtkGetMacro(RightConstraint,int);
// Description:
// The values of the derivative on the left and right sides. The value
// is used only if the left(right) constraint is type 1-3.
vtkSetMacro(LeftValue,double);
vtkGetMacro(LeftValue,double);
vtkSetMacro(RightValue,double);
vtkGetMacro(RightValue,double);
// Description:
// Return the MTime also considering the Piecewise function.
unsigned long GetMTime();
// Description:
// Deep copy of spline data.
virtual void DeepCopy(vtkSpline *s);
protected:
vtkSpline();
~vtkSpline();
unsigned long ComputeTime;
int ClampValue;
double *Intervals;
double *Coefficients;
int LeftConstraint;
double LeftValue;
int RightConstraint;
double RightValue;
vtkPiecewiseFunction *PiecewiseFunction;
int Closed;
// Explicitly specify the parametric range.
double ParametricRange[2];
// Helper methods
double ComputeLeftDerivative();
double ComputeRightDerivative();
int FindIndex(int size, double t);
private:
vtkSpline(const vtkSpline&); // Not implemented.
void operator=(const vtkSpline&); // Not implemented.
};
#endif
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