# Am I going crazy on is Math.Pow broken?

I used the base converter from here and changed it to work with ulong values, but when converting large numbers, specifically numbers higher than 16677181699666568 it was returning incorrect values. I started looking into this and discovered that Math.Pow(3, 34) returns the value 16677181699666568, when actually 3^34 is 16677181699666569. This therefore throws a spanner in the works for me. I assume this is just an issue with double precision within the Pow method? Is my easiest fix just to create my own Pow that takes ulong values?

If so, what's the quickest way to do Pow? I assume there's something faster than a for loop with multiplication each time.

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Thanks all... BigInteger.Pow works beautifully. –  Will Calderwood Mar 23 '11 at 16:53

You can use BigInteger.Pow. Or use my power method for `long`.

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The problem is that `Math.Pow` returns a `double`, and the closest `double` value to 16677181699666569 is 16677181699666568.

So without getting `Math.Pow` involved:

``````long accurate = 16677181699666569;
double closestDouble = accurate;
// See http://pobox.com/~skeet/csharp/DoubleConverter.cs
Console.WriteLine(DoubleConverter.ToExactString(closestDouble));
``````

That prints 16677181699666568.

In other words whatever `Math.Pow` does internally, it can't return a result that's more accurate than the one you're getting.

As others have said, `BigInteger.Pow` is your friend if you're using .NET 4.

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Floating point types are an approximation, the rounding you see is normal.

If you want exact results use `BigInteger`.

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I assume this is just an issue with double precision within the Pow method?

Yes.

Is my easiest fix just to create my own Pow that takes ulong values?

You can use BigInteger.Pow.

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