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Consider the following code:

#include <vector>
#include <iostream>

int main()
    std::vector<int> vec{1,2,3,5};
    for(auto it=vec.cbegin();it!=vec.cend();++it)
        std::cout << *it;
        // A typo: end instead of cend
        if(next(it)!=vec.end()) std::cout << ",";
    std::cout << "\n";

Here I've introduced a typo: in the comparison I called vec.end() instead of vec.cend(). This appears to work as intended with gcc 5.2. But is it actually well-defined according to the Standard? Can iterator and const_iterator be safely compared?

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up vote 22 down vote accepted

Surprisingly, C++98 and C++11 didn't say that you can compare a iterator with a const_iterator. This leads to LWG issue 179 and LWG issue 2263. Now in C++14, this is explicitly permitted by § 23.2.1[container.requirements.general]p7

In the expressions

i == j
i != j
i < j
i <= j
i >= j
i > j
i - j

where i and j denote objects of a container's iterator type, either or both may be replaced by an object of the container's const_iterator type referring to the same element with no change in semantics.

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Very nice research! – jogojapan Feb 14 at 14:58

See §23.2.1, Table 96:



any iterator category that meets the forward iterator requirements.

convertible to X::const_iterator

So, yes, it is well-defined.

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Convertible doesn't imply comparable. – cpplearner Feb 14 at 11:31
For instance, convertible does not rule out comparison operators implemented as member functions, meaning i < ci resolves to i.operator <(ci), where no conversion of i gets considered. There may be additional guarantees in the standard, but if so, they should be in the answer. – hvd Feb 14 at 11:43
@hvd: fortunately, in the questioner's code, the const_iterator is on the LHS of the comparison, and the plain iterator is on the right. So it's converted. Or I guess we could say it's unfortunate, since it means the compiler doesn't catch the unintended use of end(). – Steve Jessop Feb 14 at 16:28
@SteveJessop It was just an example. Another is operators that do not take const_iterator at all, but simply something that const_iterator is implicitly convertible to, requiring two user-defined conversions. A third is a template comparison operator where the type argument cannot be deduced because of a const_iterator/iterator mismatch. (Luckily there is an answer now that shows the additional requirements in the standard.) – hvd Feb 14 at 16:37

Table 96 in the C++11 Standard, in section 23.2.1, defines the operational semantics of a.cend() for any container type X (including std::vector) as follows:

const_cast<X const &>(a).end()

So the answer is yes because by this definition cend() refers to the same element/position in the container as end(), and X::iterator must be convertible to X::const_iterator (a requirement also specified in the same table(*)).

(The answer is also yes for begin() vs. cbegin() for the same reasons, as defined in the same table.)

(*) It has been pointed out in comments to other answers that convertibility does not necessarily imply that the comparison operation i1==i2 will always work, e.g. if operator==() is a member function of the iterator type, the implicit conversion will only be accepted for the righthand-side argument, not the lefthand-side one. 24.2.5/6 states (about forward-iterators a and b):

If a and b are both dereferenceable, then a == b if and only if *a and *b are bound to the same object

Even though the iterators end() and cend() are not dereferenceable, the statement above implies that operator==() must be defined in such a way that the comparison is possible even if a is a const-iterator and b is not, and vice versa, because 24.2.5 is about forward-iterators in general, including both const- and non-const-versions -- this is clear e.g. from 24.2.5/1. This is why I am convinced that the wording from Table 96, which refers to convertibility, also implies comparability. But as described in cpplearner@'s later answer, this has been made explicitly clear only in C++14.

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