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My question regarding underscores in names is partly answered here, but either the answer is incomplete or I do not fully understand it.

Sect. of the C++11 standard declares this literal operator as an example:

long double operator "" _w(long double);

Besides declaring the operator, the standard and its example do two further things that, if viewed separately, each make sense:

  • it begins the name _w with an underscore; and
  • it puts the operator in the global namespace.

My question has two parts:

  1. According to the answer linked above, the name _w is not an identifier, or the identifier _w is not a name, or ... well, I'm confused.
  2. If _w is okay, then is the capitalized _W okay, too -- as in 60.0_W, meaning 60.0 watts? Or is the preprocessor likely to mishandle the capitalized version?

Undoubtedly like you, I am not in the habit of starting global names with underscores, a habit the standard's sect. explicitly seems to deprecate. Therefore, if you can cast some additional light on the matter of underscores, names and literal operators, the light would be appreciated.

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_W will cause trouble, as a #define _W /*anything*/ before the definition of the literal operator will cause the _W to be replaced. It's not that the _W in operator"" _W is reserved, but the implementation may well have a macro _W like above. Now, one might wonder if macro replacement on literal-operator identifiers is actually allowed by the standard, and I'd say yes, since the _W is a seperate preprocessor token. – Xeo Dec 10 '12 at 2:19
It's mostly subclauses 2.2 and 2.5 for the preprocessing stages / tokens. _W is an identifier, as such it's a preprocessing-token, which, if it names a macro, gets expanded in phase 4. – Xeo Dec 10 '12 at 2:51
The _W in operator"" _W is certainly an identifier and as such could be redefined as a macro without warning. That won't affect the _W in 27_W (which is not a preprocessing token), but I think that's cold comfort if the operator"" can't be defined. 13.5.8 (8) shows that it's not legal to define operator ""_W (without the space), because _W is not an identifier in that context. On the other hand, that last construct is, afaics, not usable in a well-formed program, which would make it feasible to add it to the grammar without affecting any existing correct code. C++1y? – rici Dec 10 '12 at 3:53
Johannes Schaub - litb suggests in the comments on that answer that the name includes the full operator "" part (he says "So to sum it up, his name starts with o and not with _). _w is an identifier, while operator "" _w is a name. Or at least that's what I got out of my question... – Cornstalks Dec 10 '12 at 4:32
Also wanted to add that Luc Danton says pretty clearly exactly which part is the name: "A literal-operator-id is a name. The identifier part of it is not." (and from his answer a literal-operator-id is defined as: operator "" identifier, where identifier is the _w). I also asked about _W and it seems that this version indeed may be problematic. – Cornstalks Dec 10 '12 at 4:40

1 Answer 1

up vote 10 down vote accepted

Alright, I checked back with Richard Smith from the Clang team, and the _W part in your literal operator is indeed not a reserved identifier and/or name and it is also a seperate preprocessor token which will get expanded if it names a macro. This is in accordance with the standard subclauses 2.5, where an identifier is a preprocessor-token, and 2.2 which has macro expansion as part of phase 4, before preprocessor-tokens are replaced with just tokens of the language grammar, which happens in phase 7.

He also mentioned that, since the Portland meeting of the committee, you can say operator""_W, which will prevent macro expansion, since the _W is not a single identifier anymore. Clang trunk already implements this and compiles the following snippet:

#define _W _x

int operator""_W(unsigned long long){ return 42; }

int main(){
  int i = 1337_W;
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Would this work for string literals as well? Would "1337"_W work or does the preprocessor consider it to be two different tokens? – K-ballo Jan 4 '13 at 19:23
@K-ballo: Remember, the problem is not with the usage of the literal ooerator for a user-defined literal, it's the declaration where the _W is replaced. – Xeo Jan 5 '13 at 14:14

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