For obvious reasons, a C compiler has to compile all functions that are externally visible to other shared libraries so that they conform to the platform's calling conventions and other ABI requirements. However, I've learned that it doesn't necessarily need to do that for functions that can be guaranteed to never be called from external modules.
How and when can a compiler determine whether that holds true for a given function?
A static function is only visible to other functions in the same compilation unit, and therefore would be a good candidate for such ABI-breaking optimizations. But function pointers to the static function could still be passed to other modules. Does the compiler try to determine if function pointers are passed anywhere in the code?
The gcc compiler has some extensions that allow symbols to be declared as default, hidden or even internal, and the documentation specifically mentions that this information can be used to perform some kinds of optimizations not possible for externally visible funcitons. What would happen if a function pointer was passed to external code for a function annotated as being internal?
What would be the best way to help the compiler to perform as much optimizations as possible, while still guaranteeing interoperability with other libraries? Should I just use the compiler option to define all functions as internal, and override that with an attribute for all functions that need to be externally visible?