In discussing design possibilities for a project that has a very large number of constants and bit patterns to be defined, the question came up about how many #defines can a standard compiler handle? I assume it is a very large number, but we were curious to know if there is an actual upper bound.
For a "standard compiler":
18.104.22.168: "Translation limits"
Note the slightly odd way of phrasing the requirement. Implementations could satisfy it by having a single "golden program" which they recognise and compile as a special case, although that would be akin to rigging benchmarks. In practice you can read the standard as saying that if your implementation imposes a limit other than available memory, then that limit should be at least 4095. Beyond 4095 you are relying on implementation-specific behavior to an extent.
Some compilers (Microsoft) impose some implementation limits which are less than the standard says. These are listed somewhere on MSDN I think, but possibly only for C++. As far as C goes, since I'm quoting C99 it might not be relevant to MSVC anyway.
For GCC and MSVC in particular, it shouldn't be too hard to test whether a given implementation imposes an arbitrary limit, perhaps easier than finding it documented :-) Auto-generate files containing nothing but great long lists of
The C preprocessor doesn't expand
(Well you could do multiple inclusion of files also...)
You could make explode a preprocessing run by expanding deeply nested macros, I guess. Something like
should do the trick, since it gives you 2^64 copies of A, or so. AFAIR, these macro definitions are even within the bounds that the standard imposes.