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I was reading today about how for containers that support bidirectional iteration, this piece of code is valid:

Collection c(10, 10);
auto last = --c.end();

That got me thinking, is it required that when submitting a pair of bidirectional iterators [beg, end) to an algorithm in the STL that --end is defined? If so, should the result be dereferenceable?


void algo(T beg, T end){
    auto iter = --end;
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Not if beg == end. – John Calsbeek Aug 21 '12 at 14:28
up vote 5 down vote accepted

If the algorithm requires a range defined by bidirectional iterators first and last, then --last needs to be valid under the same conditions that ++first does -- namely that the range isn't empty. The range is empty if and only if first == last.

If the range isn't empty, then --last evaluates to an iterator that refers to the last element in the range, so *--last indeed also needs to be valid.

That said, there aren't all that many standard algorithms that require specifically a bidirectional iterator (and don't require random-access). prev, copy_backward, move_backward, reverse, reverse_copy, stable_partition, inplace_merge, [prev|next]_permutation.

If you look at what some of those do, you should see that typically the algorithm does decrement the end-of-range iterator and dereference the result.

As James says, for containers the function end() returns an iterator by value. There is no general requirement that for iterators that --x should be a well-formed expression when x is an rvalue of the type. For example, pointers are bidirectional iterators, and a function declared as int *foo(); returns a pointer by value, and --foo() is not a well-formed expression. It just so happens that for the containers you've looked at in your implementation, end() returns a class type which has operator-- defined as a member function, and so the code compiles. It also works since the container isn't empty.

Be aware that there is a difference in this respect between:

auto last = --c.end();


auto last = c.end();

The former decrements an rvalue, whereas the latter decrements an lvalue.

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You read wrong. The expression --c.end() is never authorized. If the iterator isn't at least bidirectional, it is, in fact, expressedly forbidden, and requires a compiler error. If the collection is empty, it is undefined behavior. And in all other cases, it will work if it compiles, but there is no guarantee that it will compile. It failed to compile with many early implementations of std::vector, for example, where the iterator was just a typedef to a pointer. (In fact, I think formally that it is undefined behavior in all cases, since you're violating a constraint on a templated implementation. In practice, however, you'll get what I just described.)

Arguably, because it isn't guaranteed, a good implementation will cause it to fail to compile, systematically. For various reasons, most don't. Don't ask me why, because it's incredibly simple to get it to fail systematically: just make the operator-- on the iterator a free function, rather than a member.

EDIT (additional information):

The fact that it isn't required is probably a large part of the motivation behind std::next and std::prev in C++11. Of course, every project I've worked on has had them anyway. The correct way to write this is:

prev( c.end() );

And of course, the constraints that the iterator be bidirectional or better, and that the container not be empty, still hold.

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Each algorithm will tell you what type of iterator it requires. When a bidirectional iterator is called for, then naturally it will need to support decrementing.

Whether --end is possible depends on whether end == beg.

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@SteveJessop: I don't agree with the edit. It doesn't matter what beg is, as long as end is not the same as begin(). – Kerrek SB Aug 21 '12 at 14:36
OK, if you revert it then I won't edit-war. However, no standard algorithm will wind an iterator back prior to the start point of the range it has been instructed to operate on, so although --end might be valid for some empty input ranges, the algorithm won't perform it and so it isn't required to be valid. Furthermore, "when submitting a pair of bidirectional iterators to an algorithm", there is no requirement that the iterators come from a container, so I didn't think that begin() should enter into it. Your version was true but (IMO) irrelevant to the question. – Steve Jessop Aug 21 '12 at 14:40
@SteveJessop: The iterators have to be comparable, though -- doesn't that imply that they have to come from the same container? – Kerrek SB Aug 21 '12 at 14:42
No, for example they could be pointers into an array, or they could be some user-defined bidirectional iterator that operates independently of any container. Off the top of my head I think all the standard iterators that are bi-directional, have to do with containers. But I might have forgotten something. – Steve Jessop Aug 21 '12 at 14:43
@SteveJessop: If they're pointers into an array, they definitely have to come from the same array, or it's UB. But I see how you could have more general situations without containers... – Kerrek SB Aug 21 '12 at 14:44

It's only required for algorithms that require bidirectional iterators.

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It's not required then. I've used implementations of std::vector where it wouldn't compile. – James Kanze Aug 21 '12 at 14:42

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