I need a function that takes two arguments
template<class T1, class T2> SomeReturnType Foo(T1 arg1, T2 arg2);
The arguments can be a pointer or an
std::iterator, either a bidirectional_iterator of a random_access_iterator.
Foo does some operation with those iterators and needs to return an iterator to another object, but the returned iterator is of the following type
ptr, T -> iterator< iterator_traits<T>::iterator_category > T, ptr -> iterator< iterator_traits<T>::iterator_category > ptr, ptr -> iterator< random_access_iterator_tag > random_access_iterator, random_access_iterator -> iterator< random_access_iterator_tag > random_access_iterator, T -> iterator< iterator_traits<T>::iterator_category > T, random_access_iterator -> iterator< iterator_traits<T>::iterator_category > T, T -> iterator< bidirectional_iterator_tag> >
I plan to call helper functions from
Foo based on iterator_category_tags of the arguments, using function overloading to take care of the dispatch. But I dont know how to compute the return type of
EDIT: I see the problem now. The return type of
Foo is derived from std::iterator, and can be the argument of the
Foo function. This is a problem because the traits class that I have been using were not specialized for these return types, only the base classes of the return types. I think the solution is to use the
is derived_from metafunction.
EDIT2: the title clearly does not reflect the content of the question. To make this useful for others I am soliciting suggestions for a better title.