Given a variable
foo of type
FooClass* and a member variable in that class named
bar, is the distance between
&(foo->bar) the same in any situation with some constraints:
FooClassis a non-POD type.
We know that
foowill always point to an instance of
FooClass, and not some subtype of it.
We only care about behaviour under a single compiler and a single compilation; that is, the value this may result in under gcc is never used in code compiled with MSVC, and it is never saved to be re-used between compilations. It is computed in the binary and used in the binary, and that is it.
We don't use a custom
new, although some instances of the class may be stack-allocated and some heap-allocated.
There is no explicit
FooClass; it relies upon the compiler-generated one (and each of the fields in
FooClassis either POD or default-constructable).
I can't find a guarantee either way on this in the standard (nor did I expect to), but my rudimentary testing with gcc leads me to believe that it will always be the case there. I also know that this guarantee is made for POD-types, but let us assume this type can't be POD.
An update/clarification: this is just for a single compilation of a single binary; the calculated offsets will never leave that single execution. Basically, I want to be able to uniquely identify the fields of a class in a static map and then be able to lookup into that map for some macro/template/EVIL trickery. It is merely for my own amusement, and no life support machines will rely on this code.