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Both std::is_signed<T> and std::numeric_limits<T>::is_signed are supposed to give answers about the signedness of T.
Why are there now two indicators for signedness (i.e. since C++11)?

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std::is_signed<T> is a type, while the std::numeric_limits<T>::is_signed member is just a value. In meta-programming, having the former is much more convenient, and is also more consistent. – Xeo Mar 9 '13 at 0:36
Well you'd actually use std::is_signed<T>::value in practice. Where would you use std::is_signed<T> directly? – Kevin Ballard Mar 9 '13 at 0:37
But is do they their results ever differ? – smilingthax Mar 9 '13 at 0:38
@Kevin: How much meta-programming have you done with type-traits? – Xeo Mar 9 '13 at 0:57
@KevinBallard, you often want to pass a metafunction such as is_signed to another metafunction, such as apply or and_ rather than inspecting the "result" (i.e. its value member) immediately – Jonathan Wakely Mar 9 '13 at 1:13
up vote 5 down vote accepted

I'm going to hazard a guess that the only difference is if std::numeric_limits<T> is specialized for a user-defined type. Such a user-defined type could of course provide their own value for is_signed. But asking for std::is_signed<T>::value on this type will always return false unless std::is_signed<T> has been independently specialized.

It seems as though the condition that std::is_signed<T> represents is

is_arithmetic<T>::value && T(-1) < T(0)

Update: The always-knowledgable Howard Hinnant points out that while std::numeric_limits<> can be legally-specialized, nothing in <type_traits> is allowed to be specialized unless otherwise specified, and is_signed is not specified as being specializable.

Therefore, std::numeric_limits<T>::is_signed may return true for a user-defined type (if it's been specialized) but std::is_signed<T>::value will always return false for user-defined types.

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Can you specialize std::numeric_limits<T> for a user-defined type? In C++03 it was illegal for the user to add anything to namespace std. Has that restriction been lifted for C++11? – David Hammen Mar 9 '13 at 1:01
@DavidHammen: No, the restriction is there, but it doesn't apply to specializations. You're allowed to specialize existing templates in std, you just can't add your own stuff. – Kevin Ballard Mar 9 '13 at 1:04
@DavidHammen : It's always been legal to fully specialize templates in namespace std, just not to partially specialize class templates or overload functions/function templates. – ildjarn Mar 9 '13 at 1:04
This is really close to the right answer. It is legal to specialize numeric_limits for your own type, because chapter 17 says you can and 18.3.2 does not say otherwise. But [meta.type.synop]/p1 says you can't specialize anything in <type_traits> unless otherwise specified and [meta.unary.prop] does not specify otherwise for is_signed. is_signed will always be false for a class type. numeric_limits could be true for a non-std class type if specialized. – Howard Hinnant Mar 9 '13 at 1:08
Xeo has also made the excellent point that is_signed is an integral_constant<bool, value>, where as numeric_limits::is_signed isn't. And tag dispatching on functions overloaded with integral_constant is a common idiom. So in that context is_signed is the preferred tool. – Howard Hinnant Mar 9 '13 at 1:17

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