# Are there any C# math libraries that do interpolation / extrapolation

For example, I have points

Y X
100 50
90 43
80 32

need to solve for y = 50

or

Y X
1/1/2009 100
1/3/2009 97
1/4/2009 94
1/5/2009 92
1/6/2009 91
1/7/2009 89

need to solve for y = 1/23/2009

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The one I use is the numerics component of Math.NET http://numerics.mathdotnet.com/

It contains "various interpolation methods, including barycentric approaches and splines".

But as the saying goes, there are lies, damn lies and bicubic spline interpolations.

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See if you can find what you want at ALGLIB. Of course, you'll still have to make decisions about the appropriate type of interpolation/extrapolation for your problem.

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Alglib is GPL license and not concurrent for the free version, and paid for the commercial concurrent version, just an FYI for others out there. – VoteCoffee Oct 9 '14 at 18:39

I don't know about libraries but here's a simple Secant solver :

``````class SecantSolver
{
private int     _maxSteps= 10;
private double _precision= 0.1;

public SecantSolver(int maxSteps, double precision)
{
_maxSteps= maxSteps;
_precision= precision;

if (maxSteps <= 0)
throw new ArgumentException("maxSteps is out of range; must be greater than 0!");

if (precision <= 0)
throw new ArgumentException("precision is out of range; must be greater than 0!");

}

private double ComputeNextPoint(double p0, double p1, Func<Double,Double> f)
{
double r0 = f(p0);
double r1 = f(p1);
double p2 = p1 - r1 * (p1-p0) / (r1-r0); // the basic secant formula
return p2;
}

public double Solve( double lowerBound, double upperBound, Func<Double,Double> f, out String message)
{
double p2,p1,p0;
int i;
p0=lowerBound;
p1=upperBound;
p2= ComputeNextPoint(p0,p1,f);

// iterate till precision goal is met or the maximum
// number of steps is reached
for(i=0; System.Math.Abs(f(p2))>_precision &&i<_maxSteps;i++) {
p0=p1;
p1=p2;
p2=ComputeNextPoint(p0,p1,f);
}

if (i < _maxSteps)
message = String.Format("Method converges in " + i + " steps.");
else
message = String.Format("{0}. The method did not converge.", p2);

return p2;
}
}
``````

Usage:

``````SecantSolver solver= new SecantSolver(200,              // maxsteps
0.00000001f/100   // tolerance
);

string message;
double root= solver.Solve(0.10,   // initial guess (lower)
1.0,    // initial guess (upper)
f,      // the function to solve
out message
);
``````
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ILNumerics Interpolation Toolbox brings all the standard interpolation functions. You will find various interpolation/ extrapolation functions with a common, simple interface. A particular advantage over other solutions is the speed: these functions are carefully optimized to be as fast as possible on multicore hardware and for large data.

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