# what is stl-style for merge two containers while alternating the elements?

What is an elegant way to do the following in STL-style rather then for(;;):

Given p={1,2,3} and q={7,8,9}, i'd like to merge this to be pq={1,7,2,8,3,9}. one application is creating pq vector for integrating out of position (q) and momentum (p):

``````for(size_t i=0; i<p.size();++i) {
pq.push_back(p[i]);
pq.push_back(q[i]);
}
``````

it's not elegant, it's not stl. it works but this question is about learning stl-style correctly rather then getting the job done so it's different from How to fit elements of two vectors alternately in C++? (please comment before closing it so i can rephrase it)

the solution that i'm looking for should use some stl-algorithms and iterator manipulation. boost is good too.

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i'm aware of stackoverflow.com/questions/3660058/… but it's different since here the pattern is well defined. this case is quite common for physics so a tailored solution would be good –  kirill_igum Apr 21 at 3:11
"It works ..." Does it actually work? when i is less than 6 but greater than 2, your code is going to segfault ... I'm guessing `i < p.size()` is what you meant. –  maditya Apr 21 at 3:19
@maditya thanks, i corrected the typo –  kirill_igum Apr 21 at 9:56

I don't know of an existing algorithm that's really suited to this task. The obvious alternative is to write roughly the code above, but as a generic algorithm:

``````template <class InIter1, class InIter2, class OutIter>
OutIter unsorted_merge(InIter1 b1, Inter1 e1, inIter2 b2, OutIter r) {
while (b1 != e1) {
*r = *b1; ++r; ++b1;
*r = *b2; ++r; ++b2;
}
return r;
};
``````

Even though that code may not be particularly elegant or beautiful, the rest of the code can be:

``````unsorted_merge(p.begin(), p.end(), q.begin(), std::back_inserter(pq));
``````
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There's no STL algorithm that interleaves two data structures, if that's what you're asking. However, if you want an iterator-based solution, you could do something like this:

``````auto pIt = p.begin(), qIt = q.begin();
bool even = false;
while(pIt != p.end() && qIt != q.end()) {
auto nextElement = (even = !even) ? pIt : qIt;
pq.push_back(*nextElement);
++pIt;
++qIt;
}
``````

This has the advantage of interleaving the first n elements of each vector, where n is the size of the smaller vector.

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using lambda and `boost::for_each` (zip_iterator with std::for_each is similar):

``````vector<double> pq;
boost::for_each(
p,q,
[&pq](double p,double q) {
pq.push_back(p); pq.push_back(q);
}
);
``````

I didn't time it against Jerry's solution and I think Jerry's is more proper way but this is another option and it's easy to understand

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