This question indicates that std::initializer_list<int>::const_iterator type is just a plain int const* pointer, but the wording of the standard as cited in this answer (to the same question) sounds more like a suggestion than like a guarantee to me.

In my code, the problem occurs as follows: I have a function processing a sub-range of an initializer_list, and in a different situation I reuse the code from a convenience function passing a single element (as a single-element range):

void doStuff(int const* begin, int const* end)
{ ... do stuff ... }

  // main use; in the real code, 'init' is a parameter of a function
  std::initializer_list<int> init({1, 2, 3, 4, 5});
  doStuff(init.begin() + 1, init.end());

  // alternative use of doStuff, relies on the pointer assumption
  int x = 6;
  doStuff(&x, (&x) + 1);

This construction relies on the fact that iterators are indeed pointers. It works at least with my clang++ 3.9 compiler. Can I rely on this to always work, i.e., is the pointer assumption portable? guaranteed to be portable? Or should I rather change the argument type of doStuff into a template parameter, to be on the safe side?

template <typename Iterator>
void doStuff(Iterator begin, Iterator end)
{ ... do stuff ... }
  • 1
    From cppreference, it seems you can. That is, either you can, or cppreference is wrong – Justin Jun 13 '17 at 20:49
  • @Justin Good point, but I cannot judge the source. Is it their reading of the standard, or is this website maintained by the standard committee? I did not find a definite source. – tglas Jun 13 '17 at 20:54
  • @tglas You can have a look at the current standard's draft (available at isocpp.org) and see §21.9.1. – Nikola Benes Jun 13 '17 at 20:57
  • 1
    Iterators are iterators. Assuming they are pointers or some other specific type is wrong. One should not make such assumptions in portable code (guaranteed or not). Just my humble opinion. – Jesper Juhl Jun 13 '17 at 21:00

Yes, you can rely on it, 18.9 from C++14 gives us inside class initializer_list the definitions:

typedef const E* iterator; typedef const E* const_iterator;

Other types in C++ are different -- for example std::vector, where the iterator is implementation defined, and some implementations use a raw pointer as an iterator, and some use a class.

  • Wow, that was fast. Thanks! – tglas Jun 13 '17 at 20:50
  • 2
    And wrong, sorry! Mis-read the part of the standard! – Chris Jefferson Jun 13 '17 at 20:53
  • I switched to C++14 anyway this morning, so that sounds like the definite answer. – tglas Jun 13 '17 at 21:01

Section 18.9 of the standard gives a synopsis of the <initializer_list> header as follows:

namespace std {
  template<class E> class initializer_list {
    typedef E value_type;
    typedef const E& reference;
    typedef const E& const_reference;
    typedef size_t size_type;
    typedef const E* iterator;
    typedef const E* const_iterator;
    constexpr initializer_list() noexcept;
    constexpr size_t size() const noexcept; // number of elements
    constexpr const E* begin() const noexcept; // first element
    constexpr const E* end() const noexcept; // one past the last element
  // 18.9.3 initializer list range access
  template<class E> constexpr const E* begin(initializer_list<E> il) noexcept;
  template<class E> constexpr const E* end(initializer_list<E> il) noexcept;

Furthermore, the begin() and end() functions on an initializer_list are guaranteed to return a const E*, as we can see from 18.9.2.

So yes, you can rely on it.

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