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Container requirements have changed from C++03 to C++0x. While C++03 had blanket requirements (e.g. copy constructibility and assignability for vector), C++0x defines fine-grained requirements on each container operation (section 23.2).

As a result, you can e.g. store a type that is copy-constructible but not assignable - such as a structure with a const member - in a vector as long as you only perform certain operations that do not require assignment (construction and push_back are such operations; insert is not).

What I'm wondering is: does this mean the standard now allows vector<const T>? I don't see any reason it shouldn't - const T, just like a structure with a const member, is a type that is copy constructible but not assignable - but I may have missed something.

(Part of what makes me think I may have missed something, is that gcc trunk crashes and burns if you try to instantiate vector<const T>, but it's fine with vector<T> where T has a const member).

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No, I believe the allocator requirements say that T can be a "non-const, non-reference object type".

You wouldn't be able to do much with a vector of constant objects. And a const vector<T> would be almost the same anyway.

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You are right. But I found nothing stating that vector<T>::value_type has to be vector<T>::allocator_type::value_type (which removes constness, at least with MSVC). –  Alexandre C. Aug 5 '11 at 13:04
    
Also a const vector<T> would not allow resizing. I'm still wondering what semantics I'd like to give to vector<const T> and I'm beginning to think it doesn't really make sense. –  Alexandre C. Aug 5 '11 at 13:05
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Bottom line: We didn't design containers to hold const T. Though I did give it some thought. And we came really close to doing it by accident. To the best of my knowledge, the current sticking point is the pair of overloaded address member functions in the default allocator: When T is const, these two overloads have the same signature. An easy way to correct this would be to specialize std::allocator<const T> and remove one of the overloads. –  Howard Hinnant Aug 5 '11 at 13:28
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@HighCommander4: I am not positive. On libc++ I can construct a vector (even a non-empty one) with a cooperative allocator. I can't do anything else (non-const) with it. I'm not sure if that fits your definition of "works". I'm also not positive if I'm unwittingly taking advantage of an extension. To become sure, I would need to invest a lot more time into this question. I've made such an investment in time before, but that was several years ago, and lots of things have changed in the interim. If it does work, it is not by design on the committee's part. –  Howard Hinnant Aug 5 '11 at 19:55
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A cache is often a mutable container of immutable objects, and a sorted vector is often an alternative to a map, so I disagree that a vector of const objects is of little use. –  Chris Oldwood May 17 '13 at 10:13

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