C++ methods are simply functions (with a convention about
this which often becomes the implicit first argument).
Functions are mostly machine code, starting at some specific address. The start address is all that is needed to call the function.
So objects (or their vtable) need at most the address of called functions.
Of course a function takes some place (in the text segment).
But an object won't need extra space for that function. If the function is not virtual, no extra space per object is needed. If the function is virtual, the object has a single vtable (per virtual class). Generally, each object has, as its first field, the pointer to the vtable. This means 8 bytes per object on x86-64/Linux. Each object (assuming single inheritance) has one vtable pointer, independently of the number or of the code size of the virtual
If you have multiple, perhaps virtual, inheritance with virtual methods in several superclasses you'll need several vtable pointers per instance.
So for your
Foo example, there is no
virtual function (and no superclass containing some of them), so instances of
Foo contain no vtable pointer.
If you add one (or many hundreds) of virtual functions to
Foo (then you should have a virtual destructor, see rule of three in C++), each instance would have one vtable pointer.
If you want a behavior to be specific to instances (so instances
b could have different behavior) without using the class machinery for that, you need some member function pointers (in C++03) or (in C++11) some
std::function (perhaps anonymous closures). Of course they need space in every instance.
BTW, to know the size of some type or class, use
sizeof .... (it does include the vtable[s] pointer[s] if relevant).