Speaking from an RTEMS perspective, many of our examples show an initialisation thread setting up arguments to invoke main() with argc and argv and processing the return code. I would lean to main(int, char**) being known special by gcc. It won't bother the RTEMS embedded environment at all to do so. If it causes others an issue, perhaps they need to align with standards a bit better. :) --joel On Tue, Oct 4, 2022, 5:26 PM Jason Merrill via Gcc wrote: > On 9/28/22 16:15, Jonathan Wakely wrote: > > As part of implementing a C++23 proposal [1] to massively increase the > > scope of the freestanding C++ standard library some questions came up > > about the special handling of main() that happens for hosted > > environments. > > > > As required by both C++ (all versions) and C (since C99), falling off > > the end of the main() function is not undefined, the compiler is > > required to insert an implicit 'return 0' [2][3]. However, this > > special handling only applies to hosted environments. For freestanding > > the return type or even the existence of main is > > implementation-defined. As a result, GCC gives a -Wreturn-type warning > > for this code with -ffreestanding, but not with -fhosted: > > > > int main() { } > > > > Arsen (CC'd) has been working on the libstdc++ changes for the > > freestanding proposal, and several thousand libstdc++ tests were > > failing when using -ffreestanding, because of the -Wreturn-type > > warnings. He wrote a patch to the compiler [4] to add a new > > -fspecial-main flag which defaults to on for -fhosted, but can be used > > with -ffreestanding to do the implicit 'return 0' (and so disable the > > -Wreturn-type warnings) for freestanding as well. This fixes the > > libstdc++ test FAILs. > > > > However, after discussing this briefly with Jason it occurred to us > > that if the user declares an 'int main()' function, it's a pretty big > > hint that they do want main() to return an int. And so having > > undefined behaviour do to a missing return isn't really doing anybody > > any favours. If you're compiling for freestanding and you *don't* want > > to return a value from main(), then just declare it as void main() > > instead. So now we're wondering if we need -fspecial-main at all, or > > if int main() and int main(int, char**) should always be "special", > > even for freestanding. So Arsen wrote a patch to do that too [5]. > > > > The argument against making 'int main()' imply 'special main' is that > > in a freestanding environment, a function called 'int main()' might be > > just a normal function, not the program's entry point. And in that > > case, maybe you really do want -Wreturn-type warnings. I don't know > > how realistic that is. > > > > So the question is, should Arsen continue with his -fspecial-main > > patch, and propose it along with the libstdc++ changes, or should gcc > > change to always make 'int main()' "special" even for freestanding? > > void main() and long main() and other signatures would still be > > allowed for freestanding, and would not have the implicit 'return 0'. > > I would rather not add a flag. No well-defined freestanding program is > affected by implicit return 0 from main, it should always be enabled. > > > I have no horse in this race, so if the maintainers of bare metal > > ports think int main() should not be special for -ffreestanding, so be > > it. I hope the first patch to add -fspecial-main would be acceptable > > in that case, and libstdc++ will use it when testing with > > -ffreestanding. > > > > [1] > https://www.open-std.org/jtc1/sc22/wg21/docs/papers/2022/p1642r11.html > > [2] https://eel.is/c++draft/basic.start.main#5.sentence-2 > > [3] https://cigix.me/c17#5.1.2.2.3.p1 > > [4] > https://github.com/ArsenArsen/gcc/commit/7e67edaced33e31a0dd4db4b3dd404c4a8daba59 > > [5] > https://github.com/ArsenArsen/gcc/commit/c9bf2f9ed6161a38238e9c7f340d2c3bb04fe443 > > > >