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I ' m a newcomer in C++ and I kindly request for help to resolve an issue.

I'm writing a simple STL style function , that should return the middle element of sequence (vector, list etc)

Here is my function, I try to use the concept of iterator

template <class It, class T> It  middle(It first, It last) 

    return first;

here is my main, trying to call middle for a vector of ints (I've omitted includes)

int main() {
    int x;
    cout<<"Enter vector elemets...";
    while (cin>>x)
    cout<<"the vector is:"<<endl;
    for(int i=0;i<vi.size();++i)
    cout<<vi[i]<<" ";
    vector<int>::iterator first=vi.begin();
    vector<int>::iterator last=vi.end();
    vector<int>::iterator ii=middle(first,last);
    cout<<"The middle element of the vector is: "<<*ii<<endl;

When compiling with g++ I get the following error:

myex21-7.cpp:79: error: no matching function for call to ‘middle(__gnu_cxx::__normal_iterator<int*, std::vector<int, std::allocator<int> > >&, __gnu_cxx::__normal_iterator<int*, std::vector<int, std::allocator<int> > >&)’

Could somebody give me some tips to resolve it? Thanks for any help in advanced snek

share|improve this question
Just drop the second template parameter in middle. It is not needed. Also, have a look at std::next. – juanchopanza Jul 6 '13 at 16:47
Thank so much Juan! – snek Jul 6 '13 at 16:52

4 Answers 4

How about:

auto middle = container.begin();
std::advance(middle, container.size()/2);

If you have C++11 available, std::next lets you do the same in one line instead of two.

Also note that in the case of a container that supports random access iterators (e.g., std::vectoror std::deque) this will be relatively efficient (constant complexity instead of linear complexity).

share|improve this answer
Simple and efficient, I'm just curious. Will this be O(n^2) on std::lists? I recall .size() being O(n) and since list::iterators can (afaik) only move one node at a time, that would make it O(n^2) ? – Borgleader Jul 6 '13 at 16:54
@Borgleader that would make it O(n). – juanchopanza Jul 6 '13 at 16:55
@juanchopanza Haha right, they're sequential -.- My bad – Borgleader Jul 6 '13 at 16:57
This doesn't work on raw C arrays. Write a std::size_t size( Container const& c ) and it can be made to work. :) – Yakk Jul 6 '13 at 18:16

The other answers here are interesting, but they require access to the container itself. To be truly STL style, you should work with iterator ranges. Here's a solution that does the efficient thing for random access iterators, but also works for forward iterators


#include <iterator>

template <typename ForwardIt>
ForwardIt DoMidpoint(ForwardIt first, ForwardIt last, std::forward_iterator_tag)
    ForwardIt result = first;

    // Try to increment the range by 2
    bool sawOne = false;
    // EDIT: Note improvements to this loop in the comments

    while(first != last)
        if (sawOne)
            // If that succeeded, increment the result by 1
            sawOne = false;
            sawOne = true;

    return result;

template <typename RandomAccessIt>
RandomAccessIt DoMidpoint(RandomAccessIt first, RandomAccessIt last, std::random_access_iterator_tag)
    return first + (last - first)/2;

template <typename ForwardIt>
ForwardIt midpoint(ForwardIt first, ForwardIt last)
    return DoMidpoint(first, last, typename std::iterator_traits<ForwardIt>::iterator_category());
share|improve this answer
template<class It> It midpoint( It begin, It end ) { return std::advance( begin, std::distance(begin, end)/2 ); } seems shorter. It does mean that on non-random access iterators, we go over each location 1.5 times. Your loop might be improved to while(first!=last){++first; if (first==last) break; ++first; ++result; };, which folds the paired iterations of your loop into one body. – Yakk Jul 6 '13 at 18:23
@Yakk: std::advance returns void. You could instead return std::next(begin, std::distance(begin, end) / 2); – Blastfurnace Jul 6 '13 at 18:50
@Yakk: I suppose the loop solution also goes over the range 1.5 times because first and result are incremented separately. That loop looks better too -- not going to change the answer though because I don't want to do another ideone example :) – Billy ONeal Jul 6 '13 at 19:14
@Blastfurnace sorry, I got next and advance mixed up. – Yakk Jul 6 '13 at 19:19
@Yakk: turning it into a range is only easy if you have support of a library providing a range. Given that there is no such library in the standard, I'm not going to use something like that in my "Joe User" answers here. Not everyone in the world can use Boost. – Billy ONeal Jul 7 '13 at 3:53

Unless this is an exercise, it might be simpler to implement something in terms of std::next. Ignoring for now the special case of containers with an even number of elements, you could use something like this:

std::vector<SomeType> v = ....;
auto mid = std::next(v.begin(), v.size()/2);

As for the problem with your code, your middle function template has two parameters:

template <class It, class T> It  middle(It first, It last) { .... }

But there is no way for the second parameter to be deduced from the function arguments. Since the parameter is not needed anyway, you can simply remove it:

template <class It> It  middle(It first, It last) { .... } 
share|improve this answer

There are several kinds of iterators in STL, vector features random access ones, which means that you can get iterator to middle element by

auto middle = v.begin() + v.size()/2;
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