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source: orxonox.OLD/branches/playability.old/src/lib/math/spline.h @ 10619

Last change on this file since 10619 was 10302, checked in by patrick, 18 years ago

even more performance saved now, since the obb tree doesn't get build every time

File size: 2.8 KB
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1
2#ifndef __Spline_h
3#define __Spline_h
4
5#include "vtkObject.h"
6
7class Spline
8{
9public:
10
11  // Description:
12  // Set/Get the parametric range. If not set, the range is determined
13  // implicitly by keeping track of the (min,max) parameter values for
14  // t. If set, the AddPoint() method will clamp the t value to lie
15  // within the specified range.
16  void SetParametricRange(double tMin, double tMax);
17  void SetParametricRange(double tRange[2])
18    {this->SetParametricRange(tRange[0],tRange[1]);}
19  void GetParametricRange(double tRange[2]) const;
20
21
22  // Description:
23  // Compute the coefficients for the spline.
24  virtual void Compute () = 0;
25
26  // Description:
27  // Interpolate the value of the spline at parametric location of t.
28  virtual double Evaluate (double t) = 0;
29
30  // Description:
31  // Return the number of points inserted thus far.
32  int GetNumberOfPoints();
33
34  // Description:
35  // Add a pair of points to be fit with the spline.
36  void AddPoint (double t, double x);
37
38  // Description:
39  // Remove a point from the data to be fit with the spline.
40  void RemovePoint (double t);
41
42  // Description:
43  // Remove all points from the data.
44  void RemoveAllPoints ();
45
46
47
48protected:
49  Spline();
50  ~Spline();
51
52  unsigned long ComputeTime;
53  // Description:
54  // Set/Get ClampValue. If On, results of the interpolation will be
55  // clamped to the min/max of the input data.
56  int ClampValue;
57  double *Intervals;
58  double *Coefficients;
59  int LeftConstraint;
60  // Description:
61  // The values of the derivative on the left and right sides. The value
62  // is used only if the left(right) constraint is type 1-3.
63  double LeftValue;
64  // Description:
65  // Set the type of constraint of the left(right) end points. Four
66  // constraints are available:
67  //
68  // 0: the first derivative at left(right) most point is determined
69  // from the line defined from the first(last) two points.
70  //
71  // 1: the first derivative at left(right) most point is set to
72  // Left(Right)Value.
73  //
74  // 2: the second derivative at left(right) most point is set to
75  // Left(Right)Value.
76  //
77  // 3: the second derivative at left(right)most points is Left(Right)Value
78  // times second derivative at first interior point.
79  int RightConstraint;
80  double RightValue;
81  vtkPiecewiseFunction *PiecewiseFunction;
82  // Description:
83  // Control whether the spline is open or closed. A closed spline forms
84  // a continuous loop: the first and last points are the same, and
85  // derivatives are continuous.
86
87  int Closed;
88
89  // Explicitly specify the parametric range.
90  double ParametricRange[2];
91
92  // Helper methods
93  double ComputeLeftDerivative();
94  double ComputeRightDerivative();
95  int FindIndex(int size, double t);
96
97private:
98  Spline(const Spline&);  // Not implemented.
99  void operator=(const Spline&);  // Not implemented.
100};
101
102#endif
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