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I have a template function, that needs to be specialized for iterators. So what I did was along the lines of:

template <typename T>
void function2(T whatever, typename std::iterator_traits<T>::pointer) // ... iterator

template <typename T>
void function2(T whatever, ...) // ... non-iterator

template <typename T>
void function(T whatever) {
    function2(whatever, NULL);

And I've hit a wall, because Microsoft standard library specializes std::iterator_traits for all numeric types (bool, char, int, float…). And it does it so that reference and pointer are non-void, despite the fact that neither operator* nor operator-> can be called on those types.

Ok, I can checki the std::iterator_traits<T>::category derives std::input_iterator (actually I think std::forward_iterator is more appropriate in my case) at the cost of some more complex template machinery.

I would however be interested in knowing:

  • Why do they define iterator_traits for types, that don't conform to the iterator concept (even output iterators need at least unary operator*, none of these types have one.
  • Are they violating C++ specification in doing so? Not that Microsoft wouldn't be violating it all over the place, but if they are I would be satisfied with compiler-specific workaround, if they don't obviously not.
  • And is it even workable in general anyway? It appears the std::iterator_traits<T>::pointer always exists, but is undefined and that leads to error rather than SFINAE.
share|improve this question
Aside: your code is invalid C++ (but MSVC will accept it), you need to mark the dependent name std::iterator_traits<T>::pointer by typename. – Konrad Rudolph Feb 12 '13 at 10:45
@KonradRudolph: Thanks. I am actually compiling in both msvc++ and gcc 4.5 and 4.6, so I need to have those in, but it was not copy-paste; the actual code takes a template specialized on something and I am checking whether that something is iterator. – Jan Hudec Feb 12 '13 at 11:42

1 Answer 1

up vote 2 down vote accepted

Other functions [res.on.functions]


2 In particular, the effects are undefined in the following cases:

  • for types used as template arguments when instantiating a template component, if the operations on the type do not implement the semantics of the applicable Requirements subclause

In order to use iterator_traits<T>, T must be an iterator. If it isn't, the behaviour is undefined. You cannot detect whether a type T is an iterator at compile time. It is not even theoretically possible, since a type is allowed to support the same operators and typedefs as iterators, so that an implementation's generic iterator_traits<T> can be instantiated without any error or warning message, but with a completely different meaning.

Thinking about it, since your comment clarifies that a reasonable guess is good enough, I think you're best off using SFINAE and enable_if to detect core operations (unary * and prefix ++), using std::iterator_traits<T>::pointer only if those conditions are met.

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Well, I doubt any type would define ::iterator_category and still not actually be iterator, so for practical purpose that should work. – Jan Hudec Feb 12 '13 at 10:49
"In order to use iterator_traits<T>, T must be an iterator" -- where does the standard say that? The concept requirements for algorithms come from 25.1/5, but I can't find anything to say that Iterator is likewise a special template parameter name. I agree with you that just because iterator_traits<T> instantiates doesn't mean the type T is an iterator, though, so the main point of your answer holds either way. – Steve Jessop Feb 12 '13 at 10:53
I would create such a type in my own code for fun, just to mess with yours, but that's just me. :) Yes, if you don't need to worry about such types, there are some things you can do. – hvd Feb 12 '13 at 10:53
@SteveJessop Since iterator_traits is defined in 24.4.1, I believe 24.2 Iterator requirements applies. – hvd Feb 12 '13 at 10:55
@hvd: can you be more specific which part of 24.2 you mean? I don't see how the statements in 24.2, "iterators have the following properties..." imply what you say they imply, "the Iterator template parameter of iterator_traits must be an iterator. Iterator types are required to have a suitable iterator_traits` specialization. The way I read 24.4.1/2 is a guarantee that for any type Iterator, if it has all those nested types then the catch-all iterator_traits template will provide the necessary specialization. No more or less. – Steve Jessop Feb 12 '13 at 10:58

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