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In Qt 5.2.1, how is it that the following code results are different?

QVector<int> c;
if (c.cbegin() != c.begin())
{
   std::cout << "Argh!" << std::endl;
}

this prints "argh" but the following doesn't.

QVector<int> c;
if (c.begin() != c.cbegin())
{
    std::cout << "Argh!" << std::endl;
}

Notice that cbegin and begin places are switched. But if you change the container state I mean for example push_back something in it, it works correctly. Seems to me that before calling any mutable method on container, cbegin and cend are invalid. Is it a bug or feature?

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4  
Um, there's always std::vector. ;) –  Mark Garcia Aug 27 at 6:08
2  
How can this be a feature? –  Praetorian Aug 27 at 6:12
2  
I traced into begin and cbegin. cbegin method just return the pointer to internal buffer and begin method first call the detach method (write on demand). Which in this case (default constructed) detach calls reallocData which in turn change the internal buffer pointer and begin returns this new pointer. By this I think it's a bug and should be reported. –  R.J Aug 27 at 6:33
3  
@GreenScape No, as far as standard library containers are concerned, the comparison is well defined. I don't know much about Qt, but given that they document STL-style iterators are typedefs for plain pointers, the comparison itself is well defined as far as the language is concerned. The result should be as expected too, but the fact that it fails is an unfortunate implementation detail. –  Praetorian Aug 27 at 7:21
2  
@GreenScape No, the standard library containers guarantee that "in the expressions i == j (etc.) 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". –  T.C. Aug 27 at 8:12

2 Answers 2

The behavior you're observing has to do with the order of the calls being made to QVector::begin and QVector::cbegin. If the call to the former happens before the call to the latter, then their return values compare equal, but if you reverse the order, they do not compare equal. This can be demonstrated by the following code:

QVector<int> c;
std::cout << static_cast<void const *>(c.begin()) << std::endl;
std::cout << static_cast<void const *>(c.cbegin()) << std::endl;

The addresses printed will be the same. However, if you swap the order of the two print statements, the addresses will be different.

If you dig into the source code for the two member functions, you'll see

inline iterator begin() { detach(); return d->begin(); }
inline const_iterator cbegin() const { return d->constBegin(); }

And tracing back further, the bodies of both d->begin() and d->constBegin() are identical. So the difference is in the call to QVector::detach() in the first case. This is defined as

template <typename T>
void QVector<T>::detach()
{
    if (!isDetached()) {
#if QT_SUPPORTS(UNSHARABLE_CONTAINERS)
        if (!d->alloc)
            d = Data::unsharableEmpty();
        else
#endif
            reallocData(d->size, int(d->alloc));
    }
    Q_ASSERT(isDetached());
}

An explanation of what's going on can be found here.

Qt’s containers are implicitly shared – when you copy an object, only a pointer to the data is copied. When the object is modified, it first creates a deep copy of the data so that it does not affect the other objects. The process of creating a deep copy of the day is called detach

Since, STL-style iterators are conceptually just pointers, they make modification to the underlying data directly. As a consequence, non-const iterators detach when created using Container::begin() so that other implicitly shared instances do not get affected by the changes.

So, if the call to QVector::begin() happens first, then the container's underlying storage is reallocated, and the subsequent call to QVector::cbegin() will return the same pointer. However, reverse them and the call to QVector::cbegin() returns a pointer to the shared storage before any reallocation happens.

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Hmm... but objects start off detached. Why would the example you gave result in different pointers depending on the order you create the iterators? –  Vitali Aug 30 at 3:55
    
@Vitali It seems objects do not start off detached, which is very strange. If I add std::cout << c.isDetached() << std::endl; before calling either begin()/cbegin() it prints 0. –  Praetorian Aug 30 at 22:16

The test code you used is very similar to a bug report which was filed in 2012. It was closed as invalid, because

constBegin and begin should not be compared. Ever. This is not correct usage at all (and can be caught, with strict iterator checks), so there's nothing to fix here.

Which is true. But the function begin() is overloaded as

 QVector<T>::iterator       QVector::begin();
 QVector<T>::const_iterator QVector::begin() const;

This is an unspecified bevahior, as the order of evaluation of the operands of the C++ == operator is unspecified. There is no concept of left-to-right or right-to-left evaluation in C++.

So depending on the compiler and optimizations, you will end up with either the iterator version of begin or the const_iterator version.

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+1 for finding the bug report. Having the two overloads of begin() is not really a problem under normal usage because you'd have to cast one of the operands to get the two different overloads to be called in the same comparison. And if you did that, the result would be unspecified, not undefined, same as the order of evaluation of the operands. –  Praetorian Aug 27 at 7:18
1  
Wait a sec, where is the UB here? –  T.C. Aug 27 at 7:35
    
@T.C. unspecified, fixed. –  UmNyobe Aug 27 at 7:40
    
What determines if you'll get the iterator or const_iterator version is the object it's being called on. If it's const, then you get the const_iterator and otherwise you get the iterator. –  Dave Johansen Sep 8 at 20:53

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