"in light of the incompatibility of C?" What incompatibility with C? If you compile your code as C, NULL will be properly defined as a pointer. And C doesn't have overloading. So where is the incompatibility?

Is it even an incompatibility with C? According to cppreference, in C it's implementation-defined what type the NULL macro is, and "an integer constant with value 0" is one valid one.

@StaceyGirl: "even if not strictly conforming" That's not a thing you can just ignore.

@Stacey: How does using 0 as a variadic terminator break in C++ implementations on machines where it happens to work in similar C implementations? It breaks if the width and object-representation (and arg-passing rules) for (int)0 differ from (void*)0 or (char*)0, which should be the same in both C and C++. e.g. it can break on a machine with int = int16_t but 32-bit pointers, where a pointer takes two stack slots or two registers (unlikely). Or breaks on a machine where null pointers don't have an all-zero bit-pattern; a few such real-world C and C++ implementations do exist.

@StaceyGirl, doesn't that depend on how your C environment defines NULL? It could be just 0 there too, right? (like Nathan Pierson commented above). And if that's the case, then it would not work as a char * if they're of different sizes

@StaceyGirl, so cppreference.com is wrong when it says it might be "an integer constant expression with the value ​0" (in C)?

@StaceyGirl, so it depends on the platform in C too, just that you haven't seen a platform where it would matter. Those are two different things.

@StaceyGirl No compiler ever is bug-free, so any attempt to even talk about the standard of any language is meaningless (just continuing your logic).

@StaceyGirl The conscious decision and the promise of the gcc and clang authors is to conform to whatever standard is requested when -pedantic is specified, and to deviate from the standard where convenient when -pedantic is not specified ref ref.

I see -pedantic as a promise to be conforming. Any deviation from conformance is a bug, by definition (but you are not talking about bugs).

There is a lot of bug reports that say N685 is not correctly implemented. As far as I understand they are all suspended because there are different opinions about what is correct, not because there is a conscious decision to ignore N685.

@StaceyGirl: Right, I should have thought of 64-bit machines where an int arg could have high garbage in the 64-bit stack slot (or register). If that happens to work in C but not C++, that's just an implementation difference or a matter of different surrounding code. e.g. it will generally work reliably on Windows x64 for one of the first 4 args to be 0 because they're passed in registers, and zeroing a 32-bit register implicitly zero-extends to 64-bit on x86-64. And if writing stack args with push instead of mov stores, push 0 is a qword store.

@StaceyGirl: godbolt.org/z/vMT51ajPz shows MSVC -O2 making calls to a variadic function in C, using mov QWORD PTR [rsp+48], 0 for the 0 arg, spending an extra byte of machine code to store a qword instead of 32-bit dword. Perhaps intentionally to work around the bugs in existing codebases that rely on foo(..., NULL). However, godbolt.org/z/bvqM9sT7f shows that MSVC++ does the same thing, so it happens to work there as well, and where GCC uses push 0. So yes definitely a case that could have broken, but does happen to work in both C and C++.

@StaceyGirl: And note that I used a literal 0, not NULL, so I'm not relying on a definition of NULL as 0L to make it happen to work. i.e. I intentionally wrote this to provoke the problem you described with unwritten high garbage in a stack arg.

@StaceyGirl: Yes, that's why I used __attribute__((ms_abi)) for GCC, to target that calling convention. (But sorry for misreading your "C++ on Windows" as MSVC, for some reason I was thinking you'd actually mentioned MSVC. Maybe I thought that since I was pretty sure GCC and clang code-gen would be the same from the same source.) Anyway, when you say "C++ on Windows" defines NULL as 0, which implementation did you mean?

@StaceyGirl NULL may be defined as 0 in C, so your first comment saying that it is valid to use as a sentinel (e.g. for execl) is not correct