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Why doesn't std::pair have iterators?

std::pair should provide iterator and const_iterator as well as begin() and end() -- just for their two members.

I think it would be useful because then we could pass them into templated functions that expect iterables, like vector or set.

Are there any downsides to this?

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std::pair<int, std::string>. Iterators only work on homogeneous containers. – R. Martinho Fernandes Dec 6 '12 at 17:54
Although std::pair is sometimes used as a range, nothing about it requires or even encourages use as such -- so specializing for that wouldn't be too great. An early draft of C++11 actually had this at one point. See… – Cory Nelson Dec 6 '12 at 17:57
If you find yourself wanting to pass your objects to such templated functions then you should probably use std::array<T, 2> rather than std::pair<T>. – leftaroundabout Dec 6 '12 at 18:01
up vote 18 down vote accepted

One reason is that the two elements of a pair can be of different types. This doesn't fit with the iterator model.

The same goes for tuples, where having iterators would perhaps be even more appealing.

If you need an inexpensive homogenous container of a fixed length, you could use std::array<T, n>.

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The std has std::pair<ForwardIt,ForwardIt> std::equal_range – QuentinUK Mar 19 at 12:36

The purpose of std::pair is not to be a traditional container but rather to serve as a tuple that allows two potentially heterogeneous objects to be treated as a single one.

Additionally, because you have direct access to both parts of the pair, and because the types paired may not be the same, an iterator makes no sense.

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I don't think there's any particular downside other than that it only works for pair<T,T>, not pair<T,U>.

#include <utility>
#include <iterator>
#include <vector>
#include <iostream>

namespace itpair {
    template <typename T>
    struct pair_iterator : std::iterator<std::forward_iterator_tag, T> {
        std::pair<T,T> *container;
        int idx;
        pair_iterator(std::pair<T,T> *container, int idx) : container(container), idx(idx) {}
        T &operator*() const {
            return idx ? container->second : container->first;
        T *operator->() const {
            return &*this;
        friend pair_iterator &operator++(pair_iterator &self) {
            self.idx += 1;
            return self;
        friend pair_iterator operator++(pair_iterator &self, int) {
            pair_iterator result = self;
            return result;
        friend bool operator==(const pair_iterator &self, const pair_iterator &other) {
            return self.container == other.container && self.idx == other.idx;
        friend bool operator!=(const pair_iterator &self, const pair_iterator &other) {
            return !(self == other);

    template <typename T>
    pair_iterator<T> begin(std::pair<T,T> &p) {
        return pair_iterator<T>(&p, 0);
    template <typename T>
    pair_iterator<T> end(std::pair<T,T> &p) {
        return pair_iterator<T>(&p, 2);

int main() {
    std::pair<int,int> p = std::make_pair(1, 2);
    using namespace itpair;
    std::vector<int> v(begin(p), end(p));
    std::cout << v[0] << " " << v[1] << "\n";

Of course you want a const_iterator too, and next you'll be wanting it to be random-access (which means more operators).

Like everyone says, though, that's not really what pair is for. It's just not a Container.

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