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After scratching my head at some errors in some template code that used std::vector::value_type I tracked it down to the following. Is this correct behavior according to the standard, or is this a problem with MSVC 2012 CTP?

typedef std::vector<int>::value_type       t1;
typedef std::vector<int const>::value_type t2;

static_assert(!std::is_same<t1, t2>::value, "hmmm");

The above assertion fails.

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IMO I would expect std::vector (and the other containers) to std::remove_const for their value_type, but this appears to show that they don't. Huh. –  Mooing Duck May 2 '13 at 5:13
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@MooingDuck: No. As per the Standard, value_type is just T. It doesn't remove const-ness. –  Nawaz May 2 '13 at 5:20
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The question is : is std::vector<int const> allowed? –  Nawaz May 2 '13 at 5:33
    
What do g++ and clang (and any other c++ compiler) have to say about this? –  RedX May 2 '13 at 5:46

3 Answers 3

up vote 8 down vote accepted

The value_type of a std::vector<T> is T (§23.3.6.1).

The value of is_same takes cv qualifiers into account (§20.9.6).

In your case that means checking std::is_same<int, int const>, which is supposed to fail.

Which in turn means that the behavior you observed is wrong according to the standard. It seems that MSVC is dropping the cv qualifiers for value_type:

std::vector<const int>::value_type val = 5;
val = 10;

This compiles on MSVC2008 but fails with gcc 4.4.

You should probably file a bug report with Microsoft.

Edit: Nawaz's comment above got me thinking. According to this question const int is indeed not allowed as a a value_type in C++03! It seems though that it is in C++11.. While it's not explicitly forbidden in C++11 for vectors, it is forbidden for allocators (§17.6.3.5), which in turn makes it illegal for vectors as well.

In any case, MSVC's behavior of silently dropping the const seems wrong here.

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I feel empty after reading this... That's an awesome investigation work here! –  Gui13 May 2 '13 at 9:00
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Although your expectations make sense to me, AFAIK, std::vector<const int> is not standardized. Therefore, Microsoft might implement it as an extension (which GCC doesn't) stripping the const from const int. –  Cassio Neri May 2 '13 at 9:25
    
I guess you could argue it's indeed undefined behavior by the standard and therefore Microsoft is technically right to do as they please. I still wonder though whether the current behavior is intentional or it's just in there because nobody complained about it before. –  ComicSansMS May 2 '13 at 10:16

GCC 4.7.2, for instance, fails to compile the OP code even before it reaches the static_assert.

The problem is that standard containers (e.g. std::vector) were not designed to hold const T because they depend on allocators and the standard in [allocator.requirements] only defines the allocator behavior for non-const, non-reference object types.

As far as I understand, this means that using std::vector<const int> yields undefined behaviour. Therefore, both compilers are right!

See also this question, this answer and Howard Hinnant's comment on it, which I quote the first sencence:

Bottom line: We didn't design containers to hold const T.

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It seems to me std::vector<const int> is not allowed: According to the standard T shall be CopyInsertable and const int isn't.

See Sequence container requirements at 23.2.3 Sequence containers [sequence.reqmts] in the draft N3485.

The OP code fails to compile with both gcc 4.7 and icc 13.0 at the line

typedef std::vector<int const>::value_type t2;

Apparently, the MSVC discards the const qualifier.

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