# StackOverflowError computing factorial of a BigInteger?

I am trying to write a Java program to calculate factorial of a large number. It seems `BigInteger` is not able to hold such a large number.

The below is the (straightforward) code I wrote.

`````` public static BigInteger getFactorial(BigInteger num) {
if (num.intValue() == 0) return BigInteger.valueOf(1);

if (num.intValue() == 1) return BigInteger.valueOf(1);

return num.multiply(getFactorial(num.subtract(BigInteger.valueOf(1))));
}
``````

The maximum number the above program handles in 5022, after that the program throws a `StackOverflowError`. Are there any other ways to handle it?

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That cant be the biggest for BigInteger data types. Where is the stackoverflow exception being thrown? Post more relevant code. –  JonH Jan 24 '12 at 18:59
Yes, use the iterative algorithm. BigInteger is doing fine, getFactorial just ate all the stack space. –  harold Jan 24 '12 at 19:00
@harold (+1) - another example of why I think recursion is a harmful technique to teach college students, at least in languages without tail recurion. It's an intellectual exercise, but ultimately not useful for anything interesting. –  CPerkins Jan 24 '12 at 19:07
Recursion "not useful for anything interesting"? Meh. –  akappa Jan 24 '12 at 19:17
@JonH: stack overflow is not the same thing as a numerical overflow, type of `num` is irrelevant here. –  Groo Jan 24 '12 at 20:58

The problem here looks like its a stack overflow from too much recursion (5000 recursive calls looks like about the right number of calls to blow out a Java call stack) and not a limitation of `BigInteger`. Rewriting the factorial function iteratively should fix this. For example:

``````public static BigInteger factorial(BigInteger n) {
BigInteger result = BigInteger.ONE;

while (!n.equals(BigInteger.ZERO)) {
result = result.multiply(n);
n = n.subtract(BigInteger.ONE);
}

return result;
}
``````

Hope this helps!

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Modified code to use static constants `BigInteger.ONE` and `ZERO`. –  tskuzzy Jan 24 '12 at 19:48
During algorithm class, I remembered a technique which used Push/Pop unto a Stack to avoid StackOverflow exception when implementing the extremely deep-recursive Ackermann function in Java, especially for `A(4,1)` which took around 28 minutes to execute on Core2Duo T7250. –  ee. Jan 25 '12 at 2:00
@ee.- What you're describing is replacing the runtime stack with an explicit stack. This can be made to work, though the complexity of most algorithms written this way is often higher than the recursive version. –  templatetypedef Jan 25 '12 at 2:11
@templatetypedef I concur. The standard runtime stack in Java will immediately catches StackOverflow exception soon enough when running `Ackermann function` at `A(4,1)` using standard recursion approach. Explicit stack seems to resolve the problem, albeit the complexity of the explicit stack approach. –  ee. Jan 25 '12 at 2:50
excellent answer. :) –  Phoenix May 11 '13 at 11:21

The issue isn't BigInteger, it is your use of a recursive method call (`getFactorial()`).

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Try this instead, an iterative algorithm:

``````public static BigInteger getFactorial(int num) {
BigInteger fact = BigInteger.valueOf(1);
for (int i = 1; i <= num; i++)
fact = fact.multiply(BigInteger.valueOf(i));
return fact;
}
``````
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The Guava libraries from Google have a highly optimized implementation of factorial that outputs BigIntegers. Check it out. (It does more balanced multiplies and optimizes away simple shifts.)

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Naive implementations of factorial don't work out in real situations.

If you have a serious need, the best thing to do is to write a gamma function (or `ln(gamma)` function) that will work not only for integers but is also correct for decimal numbers. Memoize results so you don't have to keep repeating calculations using a `WeakHashMap` and you're in business.

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