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According to cppreference, both gcc and clang have completed the implementation of P1102R2 ("Down with ()!") recently, which means we can define lambda expressions more concisely in C++23.

But I found that they are inconsistent with a certain form:

auto l = []<auto> noexcept requires true {};

clang accepts this form, and gcc rejects its grammar.

Which compiler should I trust? Is this lambda well-formed or ill-formed in C++23?

Update:

Perhaps because of the pressure of public opinion, clang quickly fixed the 49736 within five days after I reported it.

As I tried further, I accidentally found out that gcc also rejected the following valid form, which made me report the 99850 and it was fixed after 2 weeks.

auto l = []<auto> requires true -> void {};
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  • It doesn't look like this lambda has any real-life application. Adding the language-lawyer tag is probably a good idea. – super Mar 27 at 16:06
  • I would not trust the implementation of any C++23 feature from a compiler that hasn't even finished C++20. Also, what command line option would you even use to access it? – Nicol Bolas Mar 27 at 16:11
  • @NicolBolas GCC & Clang trunk understand -std=c++2b. – HolyBlackCat Mar 27 at 16:15
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Thanks for reminding me of how pointless this feature is.

The correct answer is: no, that's not a well-formed lambda. The grammar is defined in [expr.prim.lambda.general]:

enter image description here

In our case, to start with we have:

[]<auto> noexcept requires true {};
  • [] is the lambda-introducer
  • <auto> matches <template-parameter-list> and now we know we're the 2nd kind lambda-expression. So grammatically, we're need to follow with a requires-clause (optionally) then a lambda-declarator then a compound-statement.
  • noexcept does not match requires-clause, so now we're parsing a lambda-declarator. A lambda-declarator could start with (parameter-declaration-clause) but we don't have that, so we're just looking for lambda-specifiers. We consume the noexcept as part of noexcept-specifier.
  • requires true does not fit either attribute-specifier-seq or trailing-return-type so we have neither of those, and now we're done with lambda-specifiers so we're done with lambda-declarator. At this point, we're looking for a compound-statement. But we don't have that, so this is an error.

Basically, there are two spots you can put a requires-clause: either directly after the template parameters or, if we have function parameters, after the lambda-specifiers after the function parameters. So this works:

[]<auto> requires true noexcept {};

as does this:

[]<auto>() noexcept requires true {};

as does this:

[]<auto> requires true () noexcept requires true { };

But not the one in OP.

Also, don't write this.

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    I filed a bug report for llvm this morning, but I am not 100% sure that it should be ill-formed. Thanks for letting me know I'm right. – 康桓瑋 Mar 27 at 17:41
  • An additional point: Would making it defined remove a wart, making the language more regular, and should it thus be defined? Contrived examples being contrived isn't all that surprising though. – Deduplicator Mar 28 at 17:52
  • @Deduplicator Should it? I mean, if you're at the point where you're already writing template parameters and a noexcept-specifier and a requires-clause, are you really harmed by having to provide an extra ()? – Barry Mar 28 at 19:03
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    @Deduplicator: It was simply not considered worthwhile to make a complicated grammar to make a non-empty lambda-specifiers differentiate the two potential requires-clauses. – Davis Herring Mar 29 at 2:46
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    The observation that led to the current rule is that the requires-clause is either constraining the explicit template parameter list or the explicit function parameter list. As such, an explicit <> list can be followed by a requires-clause, and an explicit () list can be followed by a requires-clause. If you omit the explicit list, you can't include a requires clause for it. – Richard Smith Mar 30 at 5:29

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