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I have a small program. I have to calculate combination with repetition.
My code:

int factorial(int a){

    if (a<0)
    return 0;
    if (a==0 || a==1)
    return 1;
    return factorial(a-1)*a;
long int combinationWithRepetion(int n, int k){
    long int a,b,wyn=0;


    return wyn;
int main()
    int k,n=0;
    cout<<"Give n: ";
    cout<<"Give k: ";
    cout<<"combination With Repetion for n="<<n<<
    " k="<<k<<".\n Is equal to "<<combinationWithRepetion(n,k)<<endl;
    return 0;

For n=9 and k=6 in Wolfram alfa I get 3003, but in this program the result is 44.

For me the code is fine.

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who would you trust? Wolfram Alpha or your code? –  Mitch Wheat Nov 6 '11 at 7:37
@MitchWheat, his own code, obviously! –  Marlon Nov 6 '11 at 7:38
@MitchWheat but what you think about code, maybe I miss something? –  Dudi Nov 6 '11 at 7:42

2 Answers 2

up vote 4 down vote accepted

With n=9 and k=6 you compute factorial(14) which is 87,178,291,200 which will overflow a 4-byte int. You need to use something like long long to get an 8-byte int if you want to use this formula.

There are better formulas for computing binomial coefficients which do not rely on computing the full factorials then doing the division. See Binomial coefficient in programming languages, the direct method (rather than using recursion).

In C++ you can use:

int binomial(int N, int K) {
  if( K > N - K )
    K = N - K;
  int c = 1;
  for(int i = 0; i < K; ++i) {
    c *= (N - i);
    c /= (i + 1);
  return c;
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On a platform with 64-bit long longs, a one-line change to long long factorial(long long a) is sufficient to make it work. –  David Schwartz Nov 6 '11 at 7:50
@DavidSchwartz Damn right, thanks :) –  Dudi Nov 6 '11 at 7:55
@David Schwartz - That will work, but since factorial grows so fast it will overflow for factorial(21), so I added the link to a better way to compute binomial coefficients without computing the factorials first. –  JohnPS Nov 6 '11 at 7:58

So you are calculating (n+k-1) choose k. Substiuting n=9,k=6, it is 14choose6(=3003). But 14! takes more than 36bits to represent, but your int only has 32 bits. A better implementation would be to simplify n!/((n-k)!k!) to n(n-1)...(n-k+1)/k!. Or you can use pascal triangle.

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