Above answer is vastly overcomplicated. If the function reference is static, as it is above, the address is simply the value of the symbol name in pointer context:
void* myfunction_address = myfunction;
If you are grabbing the function dynamically out of a shared library, then the value returned from dlsym() (POSIX) or GetProcAddress() (windows) is likewise the address of the function.
Note that the above code is likely to generate a warning with some compilers, as ISO C technically forbids assignment between code and data pointers (some architectures put them in physically distinct address spaces).
And some pedants will point out that the address returned isn't really guaranteed to be the memory address of the function, it's just a unique value that can be compared for equality with other function pointers and acts, when called, to transfer control to the function whose pointer it holds. Obviously all known compilers implement this with a branch target address.
And finally, note that the "address" of a function is a little ambiguous. If the function was loaded dynamically or is an extern reference to an exported symbol, what you really get is generally a pointer to some fixup code in the "PLT" (a Unix/ELF term, though the PE/COFF mechanism on windows is similar) that then jumps to the function.