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I know very well why one needs to use typename for dependent types, since the compiler may not be able to disambiguate between a type and a variable declaration when it sees something like T::type, see e.g. this answer for a great explanation. TL;DR: in an expression like T::type * x;, the compiler cannot "know" whether T::type is a type or perhaps a variable declared in some particular specialization for T.

However, in something like

using type = T::type;

there is nothing ambiguous. IMO, T::type should always be parsed as a type, as it's part of the RHS of a using statement. However, we still need to use the typename here (at least according to gcc and clang),

using type = typename T::type;

Live on Coliru, gcc Live on Coliru, clang

Visual C++ seems to accept the code without a typename, however I don't have too much faith in the compiler being fully standard compliant (in fact, it has many non-standard extensions, e.g. binding rvalues to non-const references).

Question: Is there any reason why this is not an exception to the typename rule in C++11 and later?

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    For the downvoters: I don't ask questions for the sake of getting some points. In case you think the question is crap, or the answer is trivial, at least let me know. I'd very much like to see modern C++ simplified, and getting a cleaner syntax is (imo) worthwhile. – vsoftco Jan 25 '17 at 0:52
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    Thanks that's pretty convincing. – Ben Voigt Jan 25 '17 at 1:29
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    @BenVoigt Funny thing, VC++ accepts the code, rextester.com/HYWJH30088. But (as mentioned in the updated edit), I don't really trust VC++ as a fully standard compliant complier. Thanks for the example, yes it has the same flavour, but with typedef things can get a bit harder to parse. However with a using, even myself can write a parser pretty fast. – vsoftco Jan 25 '17 at 1:34
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    One of the rationales floated on std-discussion? last time it came up is that it blocks potential evolution paths (e.g., using using to declare expression aliases). – T.C. Jan 25 '17 at 5:08
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    There has been a proposal (p0634r0) for this, though I'm not sure what its current status is. – ralismark Apr 19 '17 at 9:35
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There is no hard reason. As ralismark said, a paper was discussed this year (for C++20, not 17!). There are concerns, but also counterpoints:

  1. It could be seen as making the language less regular (as codeshot said), but the new idea is that disambiguating typename will become rare enough as to have near-consistency in the other direction. (As has been said, there was already an exceptional case in the form of base class names.)
  2. It could foreclose possible extensions (as T.C. reported), but the extensions could have their own disambiguation rather than burdening the common case.

The paper has strong support and the new rules will probably appear in the working draft in a few months.

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The template argument type T does not, and can not implicitly carry with it its internal components. thus T::type is fundamentally a new type when the compiler looks at the uninstantiated template, hence the need to declare a new typename 'T::type'.

Unfortunately, I think this issue will remain with us until the standard includes full-fledged Concepts.

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  • I remember that item 9 of modern c++ have your question as a reason to choose using instead of typedef. Maybe this time vc is more compianto than clang ? – alangab Jun 27 '17 at 19:26
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    The point was that you already told the compiler that T::type is a type, because you cannot put a non-type on the RHS of a using declaration. Why do you need to tell it again with typename? In other places it’s necessary for disambiguation, but not here. – Daniel H Jul 26 '17 at 18:44
  • You can put a non-type there and it will issue a diagnostic. It will make the language irregular if they change this and that can have many unintended consequences that results in closing the avenues for evolution. Currently T::a (for class template T) is always a value unless preceded by typename, and using always reports an error when used with a value. This is a regular rule and so it's easy to explain, implement, and to plan language evolution. – codeshot Aug 30 '17 at 19:33

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