The `interpolate`

method expects arrays of pairs (here called `x`

and `y`

) and returns a function (`psf`

) that fits these values as best as possible.

This function is then used to interpolate the yi-value of a given xi-value (which is normally not contained in the x/y array used to define the function).

So you have pairs containing of x- and y-values defining a function and use this function to interpolate missing values.

See the userguide on Apache Commons (Chapter 4.4: Interpolation).

Example:

The green dots are known value pairs. These are defined by the `x`

and `y`

value arrays.

When calling `interpolate`

, the returned `PolynomialSplineFunction`

returns the function that is approximated using the known value pairs. The shape of the funtion is defined by the type of `UnivariateInterpolator`

that is used. In the question example, a `LinearInterpolator`

is used. The drawing shows the function returned by a spline interpolator.

The red dot symbolizes a value with an unknown y-value on the interpolated function (this would be the value with an x-value of `xi`

in the question example).

If you need to calculate more than one extra value, use a function like this

```
public double[] linearInterp(double[] x, double[] y, double[] xi) {
LinearInterpolator li = new LinearInterpolator(); // or other interpolator
PolynomialSplineFunction psf = li.interpolate(x, y);
double[] yi = new double[xi.length];
for (int i = 0; i < xi.length; i++) {
yi[i] = psf.value(xi[i]);
}
return yi;
}
```

A calculation example:

```
public class Interpolate {
public static void main(String[] args) {
double[] x = { 0, 50, 100 };
double[] y = { 0, 50, 200 };
LinearInterpolator interp = new LinearInterpolator();
PolynomialSplineFunction f = interp.interpolate(x, y);
System.out.println("Piecewise functions:");
Arrays.stream(f.getPolynomials()).forEach(System.out::println);
double value = f.value(70);
System.out.println("y for xi = 70: " + value);
}
}
```

Three known value pairs are given:

(0, 0)

(50, 50)

(100, 200)

One value is unknown:

(70, ?)

The `LinearInterpolator`

interpolates the given values and generates a function with two piecewise, linear polynomials:

```
y = x (for x values < 50)
y = 50 + 3 * x (for x-values >= 50)
```

The value of the interpolated `xi`

(here: 70) is

```
y = 50 + 3 * (70 - 50) = 110
```

`highchart.js`

to plot the data. My ultimate goal is to have an extrapolation function to plot points in the future using the using my set of X/Y points. maybe using something like this: stackoverflow.com/questions/32076041/extrapolation-in-java But I've been led to believe if I have an interpolation function, I can use that function to extrapolate. – Johntk Apr 9 '16 at 23:06