It is not a macro expansion issue. The macro is not expanded to a constant in either C or C++, here. The preprocessor does not do arithmetic, so it simply generates the expression 512 / 8 which isn't a constant, but which the compiler should definitely be able to reduce to one.
The preprocessor generates the same code for C and C++ here, but GCC (for reasons I do not understand) treats the __attribute__ extension differently in the two languages. I really have no idea why, there likely are good reasons, but someone else will have to explain that.
If you compile C, gcc is happy with aligned((512 / 8)), but if you compile C++ with g++ it will complain that 512 / 8 is not a constant. It is right, I guess, but really also wrong.
There are other cases where it is the opposite, where g++ is happy with a non-constant, but gcc is not. If you declare a static const int for example, you can use it in __attribute__((aligned(...)) in C++ but not in C. Again, I cannot explain why. It's a compiler extension and GCC can do whatever. And for some reason, it will treat the two languages differently here.
/* g++ will complain about this one; gcc will not */
typedef char *__attribute__((aligned((512 / 8)))) char_PT;
/* gcc will complain about this one; g++ will not */
static const int A = 16;
typedef char *__attribute__((aligned(A))) char_PT2;
I suppose, though, that since we know one version that works with C and another that works with C++, we could do this:
#define BITS 512
#ifdef __cplusplus
static const unsigned int ALIGN_BYTES = BITS / 8;
#define ALIGN __attribute__((aligned(ALIGN_BYTES)))
#else /* C */
#define ALIGN_BYTES (BITS / 8)
#define ALIGN __attribute__((aligned(ALIGN_BYTES)))
#endif
typedef char *ALIGN char_PT;
__attribute__is a gcc extension, so look there. C11 has_Alignas, C++11alignas.#define ALIGN alignas(ALIGN_BYTES)does in fact fix the problem. Thanks