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Find position of element in C++11 range-based for loop?

I have a vector and I would like to iterate it and, at the same time, have access to the indexes for each individual element (I need to pass both the element and its index to a function). I have considered the following two solutions:

std::vector<int> v = { 10, 20, 30 };

// Solution 1
for (std::vector<int>::size_type idx = 0; idx < v.size(); ++idx)
    foo(v[idx], idx);

// Solution 2
for (auto it = v.begin(); it != v.end(); ++it)
    foo(*it, it - v.begin());

I was wondering whether there might be a more compact solution. Something similar to Python's enumerate. This is the closest that I got using a C++11 range-loop, but having to define the index outside of the loop in a private scope definitely seems to be like a worse solution than either 1 or 2:

    int idx = 0;
    for (auto& elem : v)
        foo(elem, idx++);

Is there any way (perhaps using Boost) to simplify the latest example in such a way that the index gets self-contained into the loop?

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marked as duplicate by Matthieu M., Magnus Hoff, Xeo, ildjarn, Graviton Jul 5 '12 at 1:38

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Why simplify simple things? :-) –  Kos Jul 4 '12 at 11:34
You would have to create a generator-like function/object that returns std::pair and use the first and second fields of the pair. You could probably use macros to do the trick, but there is no handy and elegant way to use the Python-like syntax in C++. Your second solution is probably the best thing to do. –  Morwenn Jul 4 '12 at 11:41
@Kos I am pretty much okay with solution 2. Just curious if there is even a simpler way :) –  betabandido Jul 4 '12 at 11:43

3 Answers 3

up vote 6 down vote accepted

As @Kos says, this is such a simple thing that I don't really see the need to simplify it further and would personally just stick to the traditional for loop with indices, except that I'd ditch std::vector<T>::size_type and simply use std::size_t:

for(std::size_t i=0; i < v.size(); ++i)
  foo(v[i], i);

I'm not too keen of solution 2. It requires (kinda hidden) random access iterators which wouldn't allow you to easily swap the container, which is one of the strong points of iterators. If you truly want to use iterators and make it generic (and possibly incur a performance hit when the iterators are not random access), I'd recommend using std::distance:

for(auto it(v.begin); it != v.end(); ++it)
  foo(*it, std::distance(it, v.begin());
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Given that any attempt to get anywhere close to Python's enumerate seems to end up in a huge code bloat, I think it is better to just use any of these two solutions. –  betabandido Jul 4 '12 at 13:19

One way is to wrap the loop in a function of your own.

#include <iostream>
#include <vector>
#include <string>

template<typename T, typename F>
void mapWithIndex(std::vector<T> vec, F fun) {
   for(int i = 0; i < vec.size(); i++) 
       fun(vec[i], i); 

int main() {
   std::vector<std::string> vec = {"hello", "cup", "of", "tea"};
   mapWithIndex(vec, [](std::string s, int i){
      std::cout << i << " " << s << '\n';
   } );
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IMO this only complicates things further... –  SingerOfTheFall Jul 4 '12 at 11:53
You make a fair point. Normally, a plain for loop is best. Apparently the OP doesn't want one though. –  Karolis Juodelė Jul 4 '12 at 12:00
I actually wanted to further simplify the code (if possible, of course). for idx, elem in enumerate(v): foo(idx, elem) seems to me like simpler than any other solution posted in my question or in the answers. But, of course, that is a Python solution, and I was asking for a C++ one. –  betabandido Jul 4 '12 at 12:09

Here is some kind of funny solution using lazy evaluation. First, construct the generator object EnumerateObject:

template<typename Iterable>
class EnumerateObject
        Iterable _iter;
        size_t _size;
        decltype(_iter.begin()) _begin;

        template<class Iterable2>
        EnumerateObject(Iterable2&& iter):

        const EnumerateObject& begin() const { return *this; }
        const EnumerateObject& end()   const { return *this; }

        bool operator!=(const EnumerateObject&) const
            return _begin != _iter.end();

        void operator++()

        auto operator*() const -> std::pair<size_t, decltype(*_begin)>
            return make_pair(_size, *_begin);

Then, create a wrapper function enumerate that will deduce the template arguments and return the generator:

template<typename Iterable>
EnumerateObject<Iterable> enumerate(Iterable&& iter)
    return { std::forward<Iterable>(iter) };

You can now use your function that way:

int main()
    std::vector<double> v = { 1., 2., 3., 4., 5. };;
    for (auto& a: enumerate(v))
        size_t index = a.first;
        double& val = a.second;

        // Do someting with index and val

Since C++ does not really allow parallel assignment, you won't be able to simulate exactly the Python enumerate function. But in the use, I think that this is something that is pretty much close. Note that it is "really" complicated but the function is generic.

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Your code will blow up horribly if you pass a temporary to enumerate. –  Xeo Jul 4 '12 at 13:04
Which compiler are you using? It does not compile with g++ 4.6 or 4.7. –  betabandido Jul 4 '12 at 13:17
@Xeo Isn't it funny? You're probably right and I don't really see how to make a safer version. Anyway, using that function is not even as handy as the plain old solution. –  Morwenn Jul 4 '12 at 13:19
@betabandido I'm using MinGW g++ 4.7.0. –  Morwenn Jul 4 '12 at 13:19
@Xeo,Morwenn Shouldn't decltype(_iter.begin()) be something like decltype(_iter.front())? Still, with none of these options compiles, due to a constness problem (using std::pair<size_t, const int&> as a return type for the particular type of vector<int> works). –  betabandido Jul 4 '12 at 14:53

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