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Question Synopsis

Given a std::vector<T>, how can I create a view that exposes the interface of a std::vector<std::pair<T, T>>, where each pair consists of two consecutive elements in the underlying vector?


The goal is to create multiple container abstractions over the same storage, which is a std::vector<T>. The type T is some sort of discriminated union, à la Boost Variant. The storage requirement is given, otherwise I would simply use a std::vector<std::pair<T, T>>. The views over the storage I would like to support are sets (unique elements) and tables (associative array, unique keys). While the former is straight-forward by ensuring the set uniqueness property, the latter requires handling keys and values.

To support associative array semantics over a std::vector<T>, I am currently thinking that the best way would be to create a view of the form std::vector<std::pair<T, T>>, and that this view would allow me use STL algorithms to maintain the required properties. Does this sound like a good strategy? Are there any other ideas?


If I had an iterator i that goes over every even element and iterator j that goes through every odd element, Boost's zip iterator comes to mind, which would enable iteration in (i,j) pairs. But my use case is slightly different in that I do not have two separate containers.

share|improve this question
I'm not sure what you mean by a view. How about a vector of pair of iterators into the vector<T>? Or a custom class in place of pair<...> which maintains a single iterator into the vector<T> and sometimes makes a copy of that iterator and increments it? –  Beta Mar 19 '12 at 5:03
Should be pretty trivial to implement in terms of boost::iterator_facade. –  ildjarn Mar 19 '12 at 5:04
The initial part of the question seems to suggest that you could simply define your own iterator class. It would contain an ordinary vector::const_iterator as member and define operator* such that it returns a pair, and operator++ such that it increments the inner iterator twice. But I don't understand how that enables you to provide an associative-array "view" of the vector. The pairwise elements will still be in the original order. There will be no notion of deduplication or mapping. –  jogojapan Mar 19 '12 at 6:01
After reading again, I realized you apparently somehow ensure that the consecutive pairs stored in the vector are such they could be the entries of an associative array. I.e. the first element of every pair is unique, etc. In that case: Is the only thing you need the iterator? Or do you also need functions that search for a key and return a value, insert a new pair etc? In other words, are you looking to implement a vector-based class that implements the full interface of a map? –  jogojapan Mar 19 '12 at 6:11
@jogojapan: Yes, I am essentially implementing a map on top of a vector<T>, however, not on top of a vector<pair<T,T>>. It seems that all I need for that is to define a custom iterator?! –  Matthias Vallentin Mar 19 '12 at 6:14

2 Answers 2

up vote 1 down vote accepted

It seems that Boost's iterator_facade is indeed what I want. Here is a toy example (with rough edges):

#include <algorithm>
#include <iostream>
#include <vector>
#include <boost/iterator/iterator_facade.hpp>

template <typename Value>
class pair_iterator
  : public boost::iterator_facade<
      , Value
      , boost::random_access_traversal_tag
      , std::pair<Value&, Value&>
      , typename std::vector<Value>::difference_type
    typedef std::vector<Value> vector_type;
    typedef typename vector_type::difference_type difference_type;
    typedef typename vector_type::iterator iterator;

        : i_(0)

    explicit pair_iterator(iterator i)
      : i_(i)

    friend class boost::iterator_core_access;

    bool equal(pair_iterator<Value> const& other) const
        return i_ == other.i_;

    void increment()

    std::pair<Value&, Value&> dereference() const
        return { std::ref(*i_), std::ref(*(i_ + 1)) };

    void advance(difference_type n)
        i_ += n << 1;

    difference_type distance_to(pair_iterator<Value> const& other) const
        return other.i_ - i_;

    iterator i_;

int main()
    typedef pair_iterator<int> int_map_iterator;
    std::vector<int> v{2, 20, 3, 30, 5, 50, 7, 70};
    int_map_iterator first(v.begin());
    int_map_iterator last(v.end());

    std::for_each(first + 1, last,
                  [](std::pair<int&, int&> p)
                          << p.first << " -> "
                          << p.second << std::endl;

    return 0;

The output is:

3 -> 30
5 -> 50
7 -> 70


  • Conversion from iterator to const_iterator has not yet been addressed by this example.
  • The iterator only works when the underlying vector has even size and needs a more conservative implementation of dereference().
share|improve this answer
This looks like it crashes when the vector size is odd. –  wjl Sep 23 '12 at 14:48
That's correct, thanks for pointing it out. One could check for size % 2 in the iterator constructor or use a safer dereference operator. –  Matthias Vallentin Sep 24 '12 at 19:27

The first thing to note is that you won't be able to expose a std::pair<T const, T>& as a means to modify the objects. What may be sufficantly close, however, is a std::pair<T const, T&> as you'll only be able to change the second part.

With this out of the way it seems you need

  1. An iterator type which skips every other value and is used to iterate over the keys (elements with even indices) and the values (elements with odd indices).
  2. Something like a "zip iterator" which takes two iterators and exposes a std::pair<T const, T&> obtained from them.
share|improve this answer
Would you mind elaborating on the need for std::pair<T const, T&>? Is this a requirement for map-like containers? –  Matthias Vallentin Mar 19 '12 at 7:22
Well, you want to be able to change the value using something like it->second = ... whole the key is immutable. Similarily, something like m[key] should probably work. –  Dietmar Kühl Mar 19 '12 at 8:02
I see. Would it suffice to provide std::pair<T const&, T&>, i.e., taking the key by reference as well? –  Matthias Vallentin Mar 19 '12 at 15:32
Yes, I think this should be fine: you don't want to copy the key either. The "normal" maps return a std::pair<Key const, Value>& which you won't gave. It is just attempting to give it compatible access. –  Dietmar Kühl Mar 19 '12 at 16:03

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