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ProcessIndex( int index );

template< typename Iterator >
void ProcessIndexes( Iterator start, Iterator end )
    while( start!=end )

How can I enforce that this function can only ever be called with a specific, fixed iterator-value-type, e.g. int (but any container-type) ? In this case, ProcessIndex() takes an int as input, thus, compilation fails for non-primitive types and generates a warning for e.g. float. However, I would like the declaration to enforce int such that the compilation fails for all but int.

Haven't found the "solution" here or elsewhere, despite good efforts, is it trivial (?).

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static_assert(std::is_same<typename std::iterator_traits<Iterator>::value_type, int>::value, "ProcessIndexes: Iterators must point to int."); -- no idea why you'd want that, but hey... –  Xeo Jan 11 '13 at 14:47
Are you sure a template function and iterator is appropriate in this case. Why not pass a vector of int or an array of int? –  andre Jan 11 '13 at 15:02
Xeo has the right approach, but I'd skip iterator_traits and just test decltype(*start). –  Ben Voigt Jan 11 '13 at 15:04
Re ahenderson: Because the function (actually a class-method) should also accept std::list, std::set, std::map, std::you_name_it :-) I would have liked to pass an arbitrary container with fixed type, but learned that it's commonly done with iterators, which has the added bonus of excepting c-style type-arrays. –  Dr.D. Jan 11 '13 at 15:10
@Ben: I wouldn't, since decltype(*start) is likely int& or int const&. :) –  Xeo Jan 11 '13 at 15:19

1 Answer 1

without c++11 std lib, you can simply roll out yourself with the enable_if magic:

template<bool cond,typename T=void> struct enable_if {}; 
template<typename T> struct enable_if<true,T> { typedef T type; };

template <typename X> struct IsIntPtr { static const bool value=false; };
template <> struct IsIntPtr<int*> { static const bool value=true; };

template <typename Iterator>
typename enable_if<IsIntPtr<Iterator>::value, void>::type
ProcessIndexes(Iterator b, Iterator e)
    while (b != e)
        std::cout << *b++ << '\n';

int main()
    int a[5] = {1, 2, 3, 4, 5}; 
    ProcessIndexes(a, a+5);
    //double b[5] = {1, 2, 3, 4, 5}; 
    //ProcessIndexes(b, b+5);

uncomment the double part will give you compile error, since no template specialization for that type exists. if late on, you decide this should work for double too, just add the specialization.

share|improve this answer
An iterator is not necessarily a pointer. –  Xeo Jan 11 '13 at 15:19
-1, because this doesn't do what the OP wanted at all. –  Puppy Jan 11 '13 at 15:22
I had looked at that before. DeadMG: Why doesn't that enforce the value-type at compile-time ? I got the impression that it does (?) by lack of specialization. –  Dr.D. Jan 11 '13 at 15:26
It's an example of how to approach the problem, one can of course make it an "iterator" to int with more elaboration. Most of time, one would be happy just have a 'dirty quick' version that works. –  arrows Jan 11 '13 at 15:28
@DeadMG, why it doesn't do what the OP want? seems it does enforce the value-type at compile-time. –  arrows Jan 11 '13 at 15:30

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