A value larger than ULong? Computing 100!

I'm trying to compute 100! and there doesn't seem to be a built-in factorial function. So, I've written:

``````Protected Sub ComputeFactorial(ByVal n As ULong)
Dim factorial As ULong = 1
Dim i As Integer
For i = 1 To n
factorial = factorial * i
Next
End Sub
``````

Unfortunately, running this with the value of 100 for n rseults in

Value was either too large or too small for a UInt64.

So, is there a larger data type for holding numbers? Am i mistaken in my methods? Am I helpless?

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Why don't you take the opportunity and write a bigint class yourself? It's a bit more in the spirit of the Euler Project... :) –  Guffa Aug 12 '09 at 17:52
For the record: 100! ~= 9.33262154 × 10^157 –  Robert Aug 12 '09 at 17:59
@Guffa if i only knew where to start, hahah –  Chris Aug 12 '09 at 18:15
It's not actually all that hard to implement a bigint class. You could even implement multiplication by repeated addition, if all you need is 100! –  Captain Segfault Aug 13 '09 at 1:13

Sounds like Project Euler.

.NET 4.0 has System.Numerics.BigInteger, or you can pick up a pretty sweet implementation here:
C# BigInteger Class

Edit: treed :(

I'll add - the version at CodeProject has additional features like integer square root, a primality test, Lucas sequence generation. Also, you don't have direct access to the buffer in the .NET implementation which was annoying for a couple things I was trying.

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Indeed, Project Euler! I suppose I'll have to go with one of these other classes. Quite unfortunate! –  Chris Aug 12 '09 at 17:43
Don't be upset - I was using the one from CodeProject when I put down some 80 problems in 7 days. I stopped shortly after - stupid ADD. :o –  Sam Harwell Aug 12 '09 at 17:49

Until you can use `System.Numerics.BigInteger` you are going to be stuck using a non-Microsoft implementation like `BigInteger` on Code Project.

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Hint: use an array to store the digits of the number. You can tell by inspection that the result will not have more than 200 digits.

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You need an implementation of "BigNums". These are integers that dynamically allocate memory so that they can hold their value.

A version was actually cut from the BCL.

The J# library has an implementation of java.math.BigInteger that you can use from any language.

Alternatively, if precision/accuracy are not a concern (you only care about order of magnitude), you can just use 64-bit floats.

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decimal will handle 0 through +/-79,228,162,514,264,337,593,543,950,335 with no decimal point(scale of zero)

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Value was either too large or too small for a Decimal. –  Chris Aug 12 '09 at 17:42