# set intersection

I want to calculate the gcd of two numbers m and n by prime factorization and taking common factors like this. Take example m = 36 n = 48

``````vector<int> factors1 = prime_factorization(m); // 2 2 3 3
vector<int> factors2 = prime_factorization(n); // 2 2 2 2 3
vector<int> intersection(10);
set_intersection(factors1.begin(), factors1.end(), factors2.begin(), factors2.end(), intersection.begin());
``````

intersection is now 2 2 3 0 0 0 0 0 0 0. For this i must set the size of the vector beforehand. Also the remaining elements are set to 0. I don't want this to happen.

Is there a better way to do this? Using sets or anything else?

Also, how do i calculate the product of elements in the vector intersection (2*2*3) using stl ignoring the zeroes?

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Are you set on doing it this way? Because euclid's GCD algorithm is much better for this. –  Null Set Jan 23 '11 at 19:31
@Null set i know euclid's, but just wanted to compute gcd in different ways –  user535450 Jan 23 '11 at 19:33
It's better when the factors are represented as prime ** power. Also, after a decomposition prime factors will be sorted, so the intrsection will be much easier to compute. –  ruslik Jan 23 '11 at 19:47

You can use a back-inserter:

``````vector<int> intersection;
set_intersection(..., back_inserter(intersection));
``````

Note that there are much better ways of determining the GCD, such as Euclid's algorithm.

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Oli's answer is best in the situation as you describe it. But if you were using a vector that already existed and had elements that you were writing over, and you wanted to chop off the extra numbers, you can do it a different way. By calling the vector member `erase` using the return value of set_intersection:

``````intersection.erase(
set_intersection(factors1.begin(), factors1.end(), factors2.begin(), factors2.end(), intersection.begin()),
intersection.end());
``````
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