Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

The std::iterator_traits class template defines 5 nested types: iterator_category, value_type, difference_type, pointer and reference. Browsing the sources of the <algorithm> header of both libc++ and libstdc++, one can see many uses of value_type, difference_type and iterator_category, but only one for reference (inside std::iter_swap) and none for pointer.

My application uses a hand-built proxy iterator / proxy reference pair. I want to transition to using the Boost iterator_facade which lets me configure the reference type from the default T& to an arbitrary type, but not so for the pointer type which is T* by default. I want to avoid being bitten by some deeply hidden use of the nested pointer type.

Note: the iterator is a proxy for a builtin type without nested members, so I do not need compatibility with operator-> (for which the return type would be pointer).

Question: what use cases are there in the Standard Library for the nested type pointer inside iterator_traits?

share|improve this question
I found no uses in the original SGI STL or in the C++ standard. Probably provided as a means for the language user to use it, not the standard library. – Rapptz Feb 17 '14 at 10:27
You may find its declared type interesting in an iterator who's template type is specialized by <T*> It is still T*, but T everywhere else loses the *. – WhozCraig Feb 17 '14 at 10:51
@WhozCraig tnx good point, but if I would just declare using pointer = void for my own iterator, where could I get bitten? – TemplateRex Feb 17 '14 at 10:53
It is used by reverse_iterator to find the return type of operator-> for instance. – Marc Glisse Feb 17 '14 at 10:53
That I cannot tell you. Is your iterator an output iterator ? If so, the standard says it can be defined as void, otherwise it shall be defined properly. (again, this is for iterator_traits so I can't comment on boost's template, as i'm unfamiliar with it). – WhozCraig Feb 17 '14 at 10:58

1 Answer 1

up vote 1 down vote accepted

In contrast to the first three types iterator_category, value_type and difference_type (which are heavily used by the standard algorithms for tag dispatching to efficient versions depending on the iterator capabilities) the last two types pointer and reference inside iterator_traits appear not to be used by any algorithms but are used to define compliance with the iterator requirements.

24.2.1 In general [iterator.requirements.general]

1 [..] All iterators i for which the expression (*i).m is well-defined, support the expression i->m with the same semantics as (*i).m. [...]

24.4.1 Iterator traits [iterator.traits]

[...] In addition, the types


shall be defined as the iterator’s reference and pointer types, that is, for an iterator object a, the same type as the type of *a and a->, respectively. [...]

The default values T* and T& for pointer and reference of course satisfy the iterator requirements. Regarding proxy references, the Boost.Iterator documentation specifies

The reference type of a readable iterator (and today's input iterator) need not in fact be a reference, so long as it is convertible to the iterator's value_type. When the value_type is a class, however, it must still be possible to access members through operator->. Therefore, an iterator whose reference type is not in fact a reference must return a proxy containing a copy of the referenced value from its operator->.

The return types for iterator_facade's operator-> and operator[] are not explicitly specified. Instead, those types are described in terms of a set of requirements, which must be satisfied by the iterator_facade implementation.

Conclusion: as long as a proxy iterator does not require accessing members of its underlying value_type through .m or ->m, one does not need to worry about the pointer type inside iterator_traits, and even if one does use proxy iterators, boost::iterator_facade will do the right thing.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.