I'm having trouble implementing the gammainc of MATLAB in Java.

I tried doing it part by part. I used these function that uses Lanczos approximation which I got on the web for solving **Γ(a)**:

```
private static double logGamma(double x) {
double tmp = (x - 0.5) * Math.log(x + 4.5) - (x + 4.5);
double ser = 1.0 + 76.18009173 / (x + 0) - 86.50532033 / (x + 1)
+ 24.01409822 / (x + 2) - 1.231739516 / (x + 3)
+ 0.00120858003 / (x + 4) - 0.00000536382 / (x + 5);
return tmp + Math.log(ser * Math.sqrt(2 * Math.PI));
}
private static double gamma(double x) { return Math.exp(logGamma(x)); }
```

Then I used Simpson's Rule on solving the integral part then I combined them to do the gammainc but the output I get is not reasonable.

The integral part can also be seen as a lower incomplete gamma function.

I'm asking for advice for a better solution.