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I'm trying to nail down some interview questions, so I stared with a simple one.

Design the factorial function.

This function is a leaf (no dependencies - easly testable), so I made it static inside the helper class.

public static class MathHelper
    public static int Factorial(int n)
        Debug.Assert(n >= 0);
        if (n < 0)
            throw new ArgumentException("n cannot be lower that 0");

        Debug.Assert(n <= 12);
        if (n > 12)
            throw new OverflowException("Overflow occurs above 12 factorial");

        int factorialOfN = 1;
        for (int i = 1; i <= n; ++i)
                factorialOfN *= i;   
        return factorialOfN;


    public void Overflow()
      int temp = FactorialHelper.MathHelper.Factorial(40);

    public void ZeroTest()
        int factorialOfZero = FactorialHelper.MathHelper.Factorial(0);
        Assert.AreEqual(1, factorialOfZero);

    public void FactorialOf5()
       int factOf5 = FactorialHelper.MathHelper.Factorial(5);

    public void NegativeTest()
        int factOfMinus5 = FactorialHelper.MathHelper.Factorial(-5);

I have a few questions:

  1. Is it correct? (I hope so ;) )
  2. Does it throw right exceptions?
  3. Should I use checked context or this trick ( n > 12 ) is ok?
  4. Is it better to use uint istead of checking for negative values?
  5. Future improving: Overload for long, decimal, BigInteger or maybe generic method?

Thank you

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A minor clarification of intent might be to replace ` Assert.AreEqual(120,factOf5);` with ` Assert.AreEqual(5*4*3*2*1,factOf5);` –  Albin Sunnanbo Feb 20 '11 at 6:53
If you don't get any good responses here, consider posting on Code Review - Stack Exchange –  Ani Feb 20 '11 at 6:55
It seems redundant to have the Assert statements in there. –  Gabe Feb 20 '11 at 7:12
+1 Albin, @Ani thx, @Gabe you mean Debug.Assert? I thought about it, but when I testing/designing some may put Try and Catch in the code so I wouldn't noticed the exception. –  lukas Feb 20 '11 at 7:18
returning a signed int seems odd, when you know a factorial will always be positive. –  st0le Feb 20 '11 at 7:41

4 Answers 4

It looks right to me, but it would be inefficient with larger numbers. If you're allowing for big integers, the number will keep growing with each multiply, so you would see a tremendous (asymptotically better) increase in speed if you multiplied them hierarchically. For example:

bigint myFactorial(uint first, uint last)
    if (first == last) return first;
    uint mid = first + (last - first)/2;
    return myFactorial(first,mid) * myFactorial(1+mid,last);
bigint factorial(uint n)
    return myFactorial(2,n);

If you really want a fast factorial method, you also might consider something like this:

  1. Factor the factorial with a modified Sieve of Eratosthenes
  2. Compute the powers of each prime factor using a fast exponentiation algorithm (and fast multiplication and square algorithms)
  3. Multiply all the powers of primes together hierarchically
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Depending on the use you will have to do with the method, you could precomputer in a static function the first n factorials (for example the ones that fit in a long), because BigIntegers are probably quite slow. –  xanatos Feb 20 '11 at 7:21
  1. Yes, it looks right
  2. The exceptions seem OK to me, and also as an interviewer, I can't see myself being concerned there
  3. Checked. Also, in an interview, you'd never know that 12 just happened to be the right number.
  4. Uint. If you can enforce something with a signature instead of an exception, do it.
  5. You should just make it long (or bigint) and be done with it (int is a silly choice of return types here)

Here are some follow-up questions I'd ask if I were your interviewer:

  1. Why didn't you solve this recursively? Factorial is a naturally recursive problem.
  2. Can you add memoization to this so that it does a faster job computing 12! if it's already done 11!?
  3. Do you need the n==0 case here?

As an interviewer, I'd definitely have some curveballs like that to throw at you. In general, I like the approach of practicing with a whiteboard and a mock interviewer, because so much of it is being nimble and thinking on your feet.

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In the for cycle you can start with for (int i = 2...). Multiplying by 1 is quite useless. I would have throw a single ArgumentOutOfRangeException for both < 0 and > 12. The Debug.Assert will mask the exception when you are using your unit test (you would have to test it in Release mode).

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You can use double type to store factorial, but if you have biginteger implementation in the language, I imagine it would be preferred. Factorials grow very large quickly, so use appropriate data type for that.

Testing is like theorem proofs are in mathematics - without them, work done is worth less then 52%. If you have not written a proof before, you just can not come up with one, it is not as simple as that.

If I would be the reviewer, there would be a few things I would look for:

  1. Violation of DRY and KISS principle, naming conventions, code format, access modifiers.
  2. How fast can it find particular element (time complexity), and will that change during execution?
  3. What are the function limits, have thy been detected and how are thy handled.
  4. What is the tests code coverage and do thy include all important tests.
  5. Is there a simple fix to make the algorithm do better and does it scale?

Example code in Java:

 * Constant error message used by {@link #getFact(int)} function.
private static final IllegalArgumentException IAE = new IllegalArgumentException(
        "Factorial returns a number in a factorial number sequence, "
                + "negative index nr results in complex infinity.");
 * Dynamic storage used by {@link #getFact(int)} function.
 * This and following static initialization can be improved, when using
 * Google Guava.
private static final ArrayList<BigInteger> bial = new ArrayList<BigInteger>();
static {

 * Function returns factorial of nr. Values are calculated on fly, and 
 * memoized for fastest access. This is not ideal solution in case of
 * very large factorial, rather it is preferred solution for repeated use
 * of factorials up to 10k.
 * @param nr
 *            Natural number of what function must return factorial to.
 * @return Gives the biginteger instance factorial of nr.
 * @throws IllegalArgumentException
 *             Is thrown, when nr < 0.
 * @throws OutOfMemoryError
 *             Is thrown, when required allocation space does not exist in
 *             Java heap for this program. Function requires large amount of
 *             memory to calculate big factorials. For example: for default
 *             64mb heap, function can find factorial 18500 and not 18600.
public static BigInteger getFact(int nr) throws IllegalArgumentException,
        OutOfMemoryError {
    if (nr < 0)
        throw IAE;
    if (bial.size() <= nr)
        for (int i = bial.size(); i < nr + 1; i++)
            bial.add(bial.get(i - 1).multiply(BigInteger.valueOf(i)));
    return bial.get(nr);

Addition to alternative to this example solution your answer you should include:

  1. test cases for:
    • positive confirmation for values {0,1,2,18500}
    • positive error throwing for {-1,18600}
  2. forgot what I meant to say, but it was semi-important
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