# How to get combination of two array ( vector ) by STL algorithm?

I have `v1` and `v2` , how should I got a new `v` like below?

``````v1 = {1,2}
v2 = {3,4,5}

v = {f(1,3) , f(1,4) , f(1,5) f(2,3) ,f(2,4) ,f(2,5)}
``````

I know I could do it using two loops, But If there is more idiomatic way like using STL algorithm?

``````//using two loops
for iter1 of v1
for iter2 of v2
v.push_back(f(v1,v2))
``````

EDIT:

`v1` and `v2` not necessary have same size.

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What’s a good, non-recursive algorithm to calculate a Cartesian product? : stackoverflow.com/questions/215908/… –  anno Oct 10 '09 at 1:12
This looks almost exactly like what you're asking for: http://stackoverflow.com/questions/979436 –  Tim Sylvester Oct 10 '09 at 1:34

There is no appropriate STL algorithm, but this combination possible to do by a custom function and std::generate:

``````#include <vector>
#include <algorithm>
#include <iostream>
#include <iterator>

typedef int T;

struct Fctor
{
typedef std::vector<T>::iterator Iterator;
Iterator it1, it2, begin, end;

Fctor(Iterator begin1, Iterator end1, Iterator begin2)
{
begin = begin1;
end = end1;
it1 = begin1;
it2 = begin2;
}

T operator()()
{
// T result = f(*it1, *it2);
T result = (*it1) * (*it2);

if(++it1 != end) return result;
it1 = begin;
++ it2;
return result;
}
};

int main()
{
std::vector<T> v1; v1.push_back(1); v1.push_back(2);
std::vector<T> v2; v2.push_back(3); v2.push_back(4); v2.push_back(5);
std::vector<T> result(v1.size() * v2.size());

Fctor fctor(v2.begin(), v2.end(), v1.begin());
generate(result.begin(), result.end(), fctor);

std::copy(result.begin(), result.end(),
std::ostream_iterator<T>(std::cout, " "));
std::cout << std::endl;
// => 3 4 5 6 8 10
}
``````
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