The motivation for this extension, which is detectable by a conforming program, and thus non-conforming, is to make
vector<bool> behave more like
vector<char> with respect to references (const and otherwise).
vector<bool> has been derided as "not quite a container." LWG 96, one of the very first LWG issues, launched the debate. Today, 17 years later,
vector<bool> remains largely unchanged.
This paper goes into some specific examples on how the behavior of
vector<bool> differs from every other instantiation of
vector, thus hurting generic code. However the same paper discusses at length the very nice performance properties
vector<bool> can have if properly implemented.
vector<bool> isn't a bad container. It is actually quite useful. It just has a bad name.
As introduced above, and detailed here, what is bad about
vector<bool> is that it behaves differently in generic code than other
vector instantiations. Here is a concrete example:
template <class T>
using const_ref = typename std::vector<T>::const_reference;
const std::vector<T>& cv = v;
const_ref cr = cv;
assert(cr == cv);
v = 1;
assert(true == cv);
assert(cr == cv); // Fires!
The standard specification says that the assert marked
// Fires! will trigger, but only when
test is run with a
vector<bool>. When run with a
vector<char> (or any
bool when an appropriate non-default
T is assigned), the test passes.
The libc++ implementation sought to minimize the negative effects of having
vector<bool> behave differently in generic code. One thing it did to achieve this is to make
vector<T>::const_reference a proxy-reference, just like the specified
vector<T>::reference, except that you can't assign through it. That is, on libc++,
vector<T>::const_reference is essentially a pointer to the bit inside the
vector, instead of a copy of that bit.
On libc++ the above
test passes for both
At what cost?
The downside is that this extension is detectible, as shown in the question. However, very few programs actually care about the exact type of this alias, and more programs care about the behavior.
What is the motivation for this non-conformance?
To give the libc++ client better behavior in generic code, and perhaps after sufficient field testing, propose this extension to a future C++ standard for the betterment of the entire C++ industry.
Such a proposal might come in the form of a new container (e.g.
bit_vector) that has much the same API as today's
vector<bool>, but with a few upgrades such as the
const_reference discussed here. Followed by deprecation (and eventual removal) of the
bitset could also use a little upgrading in this department, e.g. add
const_reference, and a set of iterators.
That is, in hindsight
bitset is to
vector<bool> (which should be renamed to
bit_vector -- or whatever), as
array is to
vector. And the analogy ought to hold true whether or not we are talking about
bool as the
There are multiple examples of C++11 and C++14 features that started out as extensions in libc++. This is how standards evolve. Actual demonstrated positive field experience carries strong influence. The standards folk are a conservative bunch when it comes to changing existing specifications (as they should be). Guessing, even when you are sure you are guessing correctly, is a risky strategy for evolving an internationally recognized standard.