It's handy if you're supporting multiple versions of something. For example, I'm writing code that supports PostgreSQL 9.4 and 9.6. A number of internal API changes exist, mostly new arguments to existing functions.
Compatibility headers and wrapper functions
I could write compatibility headers with
static inline wrapper functions with new names for everything, basically a wrapper API, where I use the wrapper name everywhere in my code. Say
static inline something*
get_something_compat(int thingid, bool missing_ok)
but it's ugly to scatter
_compat or whatever suffixes everywhere.
Instead, I can insert a compatibility header in the include path when building against the older version, e.g.
#define get_something(thingid, missing_ok) \
so the rest of the code can just use the 9.6 signature. When building against 9.4 we'll prefix
-Icompat94 to the header search path.
Care is required to prevent multiple evaluation, but if you're using
#include_next you clearly don't mind relying on gcc. In that case you can also use statement expressions.
This approach is handy when the new version is the "primary" target, but backward compatibility for an older version is desired for some limited time period. So you're deprecating the older versions progressively and trying to keep your code clean with reference to the current version.
Or be a sensible person, use C++, and use overloaded functions and template inline functions :p