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I have a function that expects a templated iterator type.

It currently dereferences the iterator to inspect the type being iterated.

template < typename Iterator >
void func( Iterator i )
  // Inspect the size of the objects being iterated
  const size_t type_size = sizeof( *i );


I recently discovered that several of the standard iterator types, such as std::insert_iterator define *i as simply a reference to i.

That is, sizeof(*i) is the size of the iterator itself; the same as sizeof(i) or sizeof(***i)

Is there a universal way (supporting C++ 03) to determine the size or type of objects being iterated by any standard iterator?

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2 Answers 2

up vote 2 down vote accepted

I'm not sure why you would want the value_type of an OutputbIterator, because there is no way to extract a value from an Output Iterator. However, the three insert iterator adaptors all define value_type to be void and provide a container_type type member, so you could fall back to the value_type of T::container_type if the value_type of T turns out to be void.

(By "value_type of" I really mean std::iterator_traits<T::container_type>::value_type and std::iterator_traits<T>::value_type.)

Or you could just not try to use Output Iterators as though they had values :)

Edit: SFINAE isn't necessary: (even without C++11 niceness)

template<typename U, typename T> struct helper {typedef U type;};

// ostream*_iterator handling courtesy Drew Dormann
template <typename T, typename charT, typename traits>
struct helper<void, std::ostream_iterator<T, charT, traits> > {typedef T type;};

template <typename charT, typename traits>
struct helper<void, std::ostreambuf_iterator<charT, traits> > {typedef charT type;};

// std::raw_storage_iterator still needs an override
// as well as any non-standard output iterators which don't define a container_type.

template<typename T> struct helper<void, T>
{typedef typename std::iterator_traits<typename T::container_type>::value_type type;};

typedef<typename It> struct my_value_type
  : public helper<typename std::iterator_traits<It>::value_type, It> {}; 
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I effectively want the type being inserted, not extracted. Your container_type proposal is interesting. I'd probably need to work some SFINAE magic, since raw pointers are valid iterators but don't define that typedef. –  Drew Dormann Nov 28 '12 at 19:39
@DrewDormann: std::iterator_traits<T*>::value_type should be T, though, no? –  rici Nov 28 '12 at 19:40
@DrewDormann, see edit (untested) –  rici Nov 28 '12 at 19:50
@DrewDormann, of course, that won't work for ostream_iterator. For that one, you're just SOL. –  rici Nov 28 '12 at 19:59
Thanks, your solution did the job. I fixed one typo and added support for iostream iterators. Consider me SIL. –  Drew Dormann Nov 28 '12 at 23:08

This is what the iterator_traits are for.

typedef typename std::iterator_traits<Iterator>::value_type type;
const std::size_t type_size = sizeof(type);

Edit: This has not to not work for all Output Iterators.

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Is there a gcc bug that would evaluate that type to void for any std::insert_iterator? Your code doesn't compile -- giving the error that it's trying to evaluate sizeof(void). –  Drew Dormann Nov 28 '12 at 18:37
@Drew Dormann If this is your own iterator type I suspect you have to specialize iterator_traits for it to know the value type. –  Mark B Nov 28 '12 at 18:42
Thats pretty strange, output-iterators don't have a value-type. –  ipc Nov 28 '12 at 18:45
@ipc Very strange, yes. –  Drew Dormann Nov 28 '12 at 19:03
@ipc (follow-up) I was making a common misunderstanding regarding value_type. It's defined as the type would be read from the iterator. So it has no meaning for insert_iterator. (Sorry - that also makes this answer wrong) –  Drew Dormann Feb 27 '13 at 19:52

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