B2 objects are subobjects of
sizeof operator gives information about the size of a complete object, not a subobject.
The Standard allows but does not require a base class subobject to occupy no memory. So on another compliant implementation, you could find in your second example that the subobjects have different addresses after all.
1.8p5: Unless it is a bit-field, a most derived object shall have a non-zero size and shall occupy one or more bytes of storage. Base class subobjects may have zero size. An object of trivially copyable or standard-layout type shall occupy contiguous bytes of storage.
1.8p6: Unless an object is a bit-field or a base class subobject of zero size, the address of that object is the address of the first byte it occupies. Two distinct objects that are neither bit-fields nor base class subobjects of zero size shall have distinct addresses.
And the only "safe" uses of pointer arithmetic are:
- On pointers to elements of the same array
- The guarantee that the address of a subobject
y of complete object
x is between
&x inclusive and
void* pointers is ill-formed. You probably meant to
reinterpret_cast<char*> or something. (Another sign that the code is very risky.)
5.7p4: For the purpose of these operators [binary
-], a pointer to a nonarray object behaves the same as a pointer to the first element of an array of length one with the type of the object as its element type.
5.7p6: When two pointers to elements of the same array are subtracted, the result is the difference of the subscripts of the two array elements. ... Unless both pointers point to elements of the same array object, the behavior is undefined.