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Thank you for the helpful comments and advice. Using what you guys said, this is what I've come up with:

#include <limits.h>
  else {
     int a = binom(n - 1, k - 1);
     int b = binom(n - 1, k);
     if(a > 0) {
         if (b > INT_MAX - a) {          // case 1: integer overflow
             printf("int overflow\n");
     else if (b < INT_MIN - a) {         // case 2: integer overflow
         printf("int overflow\n");
     int c = a + b;
     return c;

I do have another question. In the above code, when I catch the integer overflow I am not returning a value -- it is simply return;.

One of the comments below suggested return -1;, however this wouldn't work work considering -1 is still a valid integer, correct?

I am not sure what to do since the return type is int for my function. Does return; work or is there a better way to do it? Also suggested was exit(1);, but does that exit the entire program or just the function?


Your function should use integer arithmetic to make sure that the results are exact and also detect any integer overflows caused by exceeding the maximum allowed values.

I am trying to catch an integer overflow when computing binomial coefficients. While a simple concept, what is throwing me off is that this isn't just a one-off addition, it's a recursive algorithm that is constantly performing sums.

This is the function:

// recursive function to calculate binomial coefficients
int binom(int n, int k){
    if(k == 0){         // base case
         return 1;
    else if (n == 0){
         return 0;
         return binom(n - 1, k - 1) + binom(n - 1, k);  // recursive call


Under that logic, I assume the catch should be in the recursive call statement. Something like :

if(binom(n-1, k-1) + binom(n-1,k)) causes overflow, return error, else proceed with binom(n-1, k-1) + binom(n-1,k)

share|improve this question

Do something like:

long res=(long)binom(n - 1, k - 1) + binom(n - 1, k);
if (res>INT_MAX) {
 printf("int overflow\n");
return (int)res;

(Assuming that long is longer than int in your system. If not so, use wider type)

Edit: if you don't want to exit at error, you should decide a value (for example, -1), to represent error. also, it's nicer (and correcter) you use unsigned instead of long:

int a=binom(n - 1, k - 1),b=binom(n - 1, k);
if (a<0 || b<0 || (unsigned)a+(unsigned)b>INT_MAX) return -1;
return a+b;
share|improve this answer
There should be a type cast for the other recursive call as well. (long) binom(n-1,k) – noMAD Feb 23 '12 at 20:57
This assumes sizeof(long) > sizeof(int), which is not guaranteed to be true. – Fred Larson Feb 23 '12 at 20:58
@FredLarson you are right. added note about that. @noMad, sum of long and int is long. – asaelr Feb 23 '12 at 21:03
@asaelr there's not necessarily a wider native type available (think about systems where int and long are both 64 bits). – therefromhere Feb 23 '12 at 21:15
@therefromhere I didn't think about that... hopefully now I'm correct :) – asaelr Feb 23 '12 at 21:19

Signed overflow are undefined behavior you have to check the overflow before it can happen.

int a, b;
int c;


/* Compute a + b and store the result in c */

if (a > 0) {
    if (b > INT_MAX - a) {
        // a + b overflows (i.e., would be > INT_MAX)
} else if (b < INT_MIN - a) {
        // a + b overflows (i.e., would be < INT_MIN)

c = a + b;

so for a recursive function:

a = binom(n - 1, k - 1);
b = binom(n - 1, k);

// if no overflow
c = a + b;

return c;

In your example, you also have to check n and k are not == INT_MIN otherwise the - 1 operation will also overflow.

share|improve this answer
Many thanks -- this is the implementation I went with. I did have one other question. How would I break out of the function if there is an overflow? If I return a integer flag like -1 (as suggested below), since this is recursive it will continue to sum as -1 is a number. – Milan Patel Feb 27 '12 at 18:59
@user1056930 you're welcome! – ouah Feb 27 '12 at 19:00

A few suggestions:

1) You're using a signed integer; if you're working with strictly positive quantities, you should probably use an unsigned int or unsigned long long. With a signed int, when an arithmetic overflow occurs it'll overflow to the largest negative number possible

2) The compiler will define a pre-processor symbol along the lines of INT_MAX; you can probably make good use of it, eg something like this:

#inlcude <stdtypes.h>

uint32_t binom( uint32_t n, uint32_t k ){
  // (...)
  } else {
    int32_t   A = binom( n-1, k-1 )
            , B = binom( n-1, k );
    if( (double)A + (double)B > INT_MAX ){
      // error condition
    } else {
      retval = A+B;

  return retval;
share|improve this answer

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