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Is there any way to check whether a given iterator belongs to a given list in C++?

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1 Answer 1

up vote 13 down vote accepted

The obvious but invalid approach

You can't simply iterate throught the list, comparing each iterator value to your "candidate".

The C++03 Standard is vague about the validity of == applied to iterators from different containers (Mankarse's comment on Nawaz's answer links http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2009/n2948.html#446), some compilers (eg. VC++2005 debug mode) warn if you do so, but despite all that it may actually work reliably depending on your compiler/libraries - check its documentation if you don't care about portability.

The C++11 Standard is very explicit, you can't compare iterators to different containers:

§ 24.2.5 The domain of == for forward iterators is that of iterators over the same underlying sequence.

So, the answers to this question that rely on operator== are questionable now, and invalid in future.

An oft-valid approach

What you can do is iterate along the list, comparing the address of the elements (i.e. &*i) to the address of the object to which your other iterate points.

  • Mankarse's comment cautions that this might not work as intended for objects providing their own operator&. You could work around this, e.g. http://www.boost.org/doc/libs/1_42_0/libs/utility/utility.htm#addressof

  • Martin's comment mentions that you have to assume the candidate iterator that you're testing list membership for is safely dereferenceable - i.e. not equal to an end() iterator on the container from which it came. As Steve points out - that's a pretty reasonable precondition and shouldn't surprise anyone.

(This is fine for all Standard containers as stored elements never have the same address, but more generally user-defined containers could allow non-equal iterators to address the same value object (e.g. supporting cycles or a "flyweight pattern" style optimisation), in which case this approach would fail. Still, if you write such a container you're probably in a position to design for safe iterator comparison.)

Implementation:

template <class IteratorA, class IteratorB, class IteratorC>
inline bool range_contains(IteratorA from, const IteratorB& end,
                           const IteratorC& candidate)
{
    while (from != end)
        if (&*from++ == &*candidate)
            return true;
    return false;
}

Notes:

  • This adopts the Standard library approach of accepting a range of iterator positions to search.
  • The types of each iterator are allowed to vary, as the are portability issues, e.g. containers where begin() returns an iterator but end() returns a const_iterator.
  • Iterators other than from are taken by const reference, as iterators can sometimes be non-trivial objects (i.e. too large to fit in a register, relatively expensive to copy). from is needed by value as it will be incremented through the range.
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@Tony: Thanks for the comment on my answer, it was grossly wrong. I just had to delete it. Lesson Learnt: Multitasking is bad, especially juggling SO and work! –  Alok Save Jun 10 '11 at 7:27
    
Note that this still will only work for ForwardIterators (and refinements thereof), so care is needed in the general case. –  Mankarse Jun 10 '11 at 7:33
    
@Als: I was a quite surprised, as I've seen many of your other answers and know how polished they typically are. I get stuck the same way often enough... no worries. –  Tony D Jun 10 '11 at 7:33
    
... comparing the address of the elements ... -- Except of course that if the passed iterator happens to point to an end() (or the begin() of an empty list), dereferencing it is UB again. What a mess! :-) –  Martin Ba Jun 10 '11 at 7:34
    
@Mankarse: agreed - I can't see this test being meaningful in the context of input or output iterators. –  Tony D Jun 10 '11 at 7:42

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