Coming from the discussions about the use of vendor specific attributes in another question I asked myself, "what rules should we tell people for using attributes that are not listed in the standard"?
The two attributes that are defined are
[[ noreturn ]] and
[[ carries_dependencies ]]. The standard leaves open how compilers should react on unknown attributes -- thus, by the standard they may stop with an error message. This is not what e.g. GCC does, it emits a warning and continues. This is probably a behavior to be expected by the most-common compilers. For this reason I would have like to read a "should" in the standard, but we don't have it.
The paper N2553 brings up flexible attributes. It lists further attributes used by GCC (
weak) and MSVC (
dllimport). for OpenMP, the widely supported parallelizing framework, scoped attributes are suggested, eg.
omp::parallel(clause,clause). So, it is very likely that we will se some vendor specific attributes very soon after they support the syntax at all, indeed.
Therefore, when we now go "out in the world" and tell people about C++11, what should the advice be about using attributes?
- Only use
- Use your compilers old syntax instead, eg.
__attribute__((noreturn))and define a macro when you port the code (the current situation)
- Use those attributes your favorite compiler supports freely, knowing this code might not be portable to another standard-conforming compiler, because if the standard allows a compiler to stop with an error, you have to consider this will happen. This sounds a bit like advocating writing non-portable code.
- Or, my guess, expect the most-used compilers to warn about unknown attributes, so you can use vendor-specific attributes, keeping in mind that in rare cases you may get problems.
Note the slight difference in the last two bullet-items. While both say "use those attributes you need", item3's message is "do not care about other compilers", while item4 implicitly rephrases the standard texts "implementation defined behavior" to "the compiler should emit a diagnostic message".
What could be the suggestion for an upcoming Best Practice here?