Given a positive integer n, it is asked to find the probability that one can pick two numbersA and B from the set [1...n], such that the GCD of A and B is B. So my approach was to calculate number of pairs such that one is divisible by another. And the answer was expected to be in irreducible fraction form.
1 2 3
1/1 3/4 5/9

long n = sc.nextLong();
long sum=0;
for(long i=1;i<=n/2;i++)
 long tot = n*n;
 long bro = hcf(tot,sum);

And my hcf function was:

public static long hcf(long n1,long n2)
    if (n2!=0)
        return hcf(n2, n1%n2);
        return n1;

But the compiler message was time-out. I think there may be some problem with the hcf function or there is a better and efficient method for finding the irreducible fraction. Since it was successful for smaller inputs, I think there is most probably an efficient method for finding the irreducible fraction form. Any suggestions?

  • 1
    What's the range on n? – templatetypedef Aug 19 '16 at 17:15
  • @templatetypedef n ranges upto 10^9 and number of test cases range upto 10^3 – yobro97 Aug 19 '16 at 17:16
  • For those first three values of n, the probability appears to be (2n-1)/(n^2). Any chance there is a general theorem about that? Maybe something inductive? – bradimus Aug 19 '16 at 17:20
  • 2
    If this is a "challenge" question submission, the "timeout" (which is a runtime error, not a compiler error) means you have to find a slick solution. Part of the point of many such sites, is that the naive solution will fail, and that is the real challenge for you to solve. – Weather Vane Aug 19 '16 at 17:20
  • @WeatherVane....thats the reason I have asked this question here....maybe something comes by intuition like what bradimus said....but I wanted some kind of proof so that I can follow the same approach for similar questions...:) – yobro97 Aug 19 '16 at 17:24

Your hcf function is not too slow. Instead, the problem is that you have a for loop which iterates O(n) times, which is quite a lot when n = 10^9. You can get it down to O(sqrt(n)) by only counting cases where B <= sqrt(A). That will give you about half of the cases, because usually exactly one of B and A/B is smaller than sqrt(A). The only exception is you have to account for cases when B * B = A.

  • @your solution is correct. The accepted solutions follow your logic. Not sure why didn't the OP read the solutions of others from online judge when they were open. – sashas Aug 20 '16 at 8:35

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