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According to some STL documentation I found, inserting or deleting elements in an std::list does not invalidate iterators. This means that it is allowed to loop over a list (from begin() to end()), and then add elements using push_front.

E.g., in the following code, I initialize a list with elements a, b and c, then loop over it and perform a push_front of the elements. The result should be cbaabc, which is exactly what I get:

std::list<std::string> testList;

for (std::list<std::string>::iterator itList = testList.begin(); itList != testList.end(); ++itList)

for (std::list<std::string>::const_iterator itList = testList.begin(); itList != testList.end(); ++itList)
   std::cout << *itList << std::endl;

When I use reverse iterators (loop from rbegin() to rend()) and use push_back, I would expect similar behavior, i.e. a result of abccba. However, I get a different result:

std::list<std::string> testList;

for (std::list<std::string>::reverse_iterator itList = testList.rbegin(); itList != testList.rend(); ++itList)

for (std::list<std::string>::const_iterator itList = testList.begin(); itList != testList.end(); ++itList)
   std::cout << *itList << std::endl;

The result is not abccba, but abcccba. That's right there is one additional c added.

It looks like the first push_back also changes the value of the iterator that was initialized with rbegin(). After the push_back it does not point anymore to the 3rd element in the list (which was previously the last one), but to the 4th element (which is now the last one).

I tested this with both Visual Studio 2010 and with GCC and both return the same result.

Is this an error? Or some strange behavior of reverse iterators that I'm not aware of?

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up vote 11 down vote accepted

The standard says that iterators and references remain valid during an insert. It doesn't say anything about reverse iterators. :-)

The reverse_iterator returned by rbegin() internally holds the value of end(). After a push_back() this value will obviously not be the same as it was before. I don't think the standard says what it should be. Obvious alternatives include the previous last element of the list, or that it stays at the end if that is a fixed value (like a sentinel node).

Technical details: The value returned by rend() cannot point before begin(), because that is not valid. So it was decided that rend() should contain the value of begin() and all other reverse iterators be shifted one position further. The operator* compensates for this and accesses the correct element anyway.

First paragraph of 24.5.1 Reverse iterators says:

Class template reverse_iterator is an iterator adaptor that iterates from the end of the sequence defined by its underlying iterator to the beginning of that sequence. The fundamental relation between a reverse iterator and its corresponding iterator i is established by the identity:
&*(reverse_iterator(i)) == &*(i - 1).

share|improve this answer
Thanks, do you have any reference for the technical details? – Patrick Apr 10 '12 at 9:25
Added a quote from the standard. – Bo Persson Apr 10 '12 at 9:34
+1. I think that quote from the standard clinches it. – Oliver Charlesworth Apr 10 '12 at 9:56
@BoPersson: Note that the "remain valid" only concerns iterators pointing to existing elements. The behavior for singular values (like end()) is thus not specified. – Matthieu M. Apr 10 '12 at 11:02
@MatthieuM - It doesn't say so explicitly, at least no in the list section. It says "Does not affect the validity of iterators and references" in [list.modifiers]. I would have preferred "iterators to existing elements" here... – Bo Persson Apr 10 '12 at 12:19

I think to understand this, it's best to start by re-casting the for loop as a while loop:

typedef std::list<std::string> container;

container testList;

container::reverse_iterator itList = testList.rbegin(); 
while (itList != testList.rend()) {

Along with that, we have to understand how a reverse_iterator works in general. Specifically a reverse_iterator really points to the element after the one you get when you dereference it. end() yields an iterator to just after the end of the container -- but for things like arrays, there's no defined way to point to just before the beginning of a container. What C++ does instead is have the iterator start from just after the end, and progress to the beginning, but when you dereference it, you get the element just before where it actually points.

That means your code actually works like this:

enter image description here

After that, you get pretty much what you expect, pushing back B and then A, so you end up with ABCCCBA.

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Try using an iterator for btoh. Try:

std::list<std::string>::iterator i = testList.end(); 

and reverse through with --i

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I am not looking for an alternative solution. I want to know why the reverse iterator suddenly points to something else, because this seems to be in contradiction with the documentation (see sgi.com/tech/stl/List.html). – Patrick Apr 10 '12 at 9:05

Modifying container will invalidate it's iterators, so the behavior in this case is undefined.

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This is not true. SGI's STL page about lists (sgi.com/tech/stl/List.html) says: Lists have the important property that insertion and splicing do not invalidate iterators to list elements, and that even removal invalidates only the iterators that point to the elements that are removed. The ordering of iterators may be changed (that is, list<T>::iterator might have a different predecessor or successor after a list operation than it did before), but the iterators themselves will not be invalidated or made to point to different elements. – Patrick Apr 10 '12 at 9:04
@Patrick Indeed, the C++ standard also states that std::list's push_back does not invalidate any iterators. Note that the SGI STL page is not a good reference for standard compliance. – juanchopanza Apr 10 '12 at 9:12

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