Is it possible to implement an any iterator with boost iterator facade? I don't want to define implementation details in my baseclass

class Base
typedef std::vector<int>::iterator iterator;//implementation detail
virtual iterator begin()=0;
virtual iterator end()=0;

or do i have to write one completely from scratch;

  • The way I would probably do it is to define an abstract base class like Iterator<T> that acts like a Java or C# iterator, a templated implementation of that for arbitrary iterators, then use Boost.Iterator to wrap an iterator interface on top of any Iterator<T>. Do you want me to try to sketch out pseudocode for that? Commented Feb 22, 2011 at 17:13
  • 1
    You can find one at thbecker.net/free_software_utilities/…
    – UncleBens
    Commented Feb 22, 2011 at 23:03

2 Answers 2


The code you've posted has fixed the type of iterators returned from Base and all it's implementantions to std::vector<int>::iterator which is probably not what you want. Jeremiah's suggestion is one way to go with one drawback: you loose compatibility with STL... I know of three implementations of a polymorphic iterator wrapper:

  1. becker's any_iterator (which implements boost::iterator_facade)
  2. the opaque_iterator library (google for it), or
  3. Adobe's very interesting poly library which contains a hierarchy of STL conforming any_iterators.

The problem is harder than it might seem... I made an attempt myself mainly because I needed covariance in any_iterators type argument (any_iterator<Derived> should be automatically convertible to any_iterator<Base>) which is difficult to implement cleanly with STL like iterators. A C# like Enumerator<T> is easier to implement(*) (and imho generally a cleaner concept than STL-like pairs of iterators) but again, you "loose" the STL.

(*) = without 'yield' of course :-)


I think this may be what you're looking for:

any_iterator: Type Erasure for C++ Iterators

Here's a snippet from that page::


The class template any_iterator is the analog to boost::function for iterators. It allows you to have a single variable and assign to it iterators of different types, as long as these iterators have a suitable commonality.

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