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So I tried working out a solution to this problem, but my program is acting very strange.

#include <iostream>
using namespace std;

int triangle_numbers(int n, int meh = 0)
    int count = 0;

    //calculate how many divisors there are for meh
    for(int i = 1; i <= meh; i++)
        if(meh%i == 0)

    //if the number of divisors for meh is over 500, return meh
    if(count > 500)
        return meh;

    //recursive call to increment n by 1 and set meh to the next triangle number
    triangle_numbers(n+1, meh += n);

int main()
    int cc = triangle_numbers(1);
    cout << cc << endl;

If I output meh and count individually I get accurate results, so I'm not sure why my program is giving me the same number (4246934) even if I do, say, if(count > 10). I have a feeling it may have to do with my recursive call, but everything I've tried so far hasn't worked. Any help?

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1 Answer 1

up vote 3 down vote accepted

You are missing a final return statement necessary to complete the recursion (doesn't the compiler warn that triangle_numbers does not actually return something in all cases?).

Once the final value of meh has been computed, you need to have

return triangle_numbers(n+1, meh += n);

so that meh can be returned all the way back up the call stack and finally to main.

The number you are seeing now is probably a value left over on the stack after the recursion does end.

Side note: a classic optimization in this algorithm is to have i iterate up to meh / 2 but no further. Obviously numbers greater than half of meh cannot evenly divide it so they can be skipped.

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Thanks. I just figured that returning meh would be sufficient to end the call. Although this works now, and I've made the optimization you'd mentioned, I'm experience that it takes a very long time to complete. Would making the function tail-recursive help with this? –  Bob John Aug 16 '12 at 22:05
@BobJohn: The function is already tail-recursive, so no. Improvements can be made by having the function keep state between calls to keep from calculating the same results more than once (dynamic programming) and at the same time applying more math. The nth triangle number can be directly computed with n * (n + 1) / 2, which is pretty useful when we are trying to count its factors... –  Jon Aug 17 '12 at 7:47

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