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I know the memory layout of multiple inheritance is not defined, so I should not rely on it. However, can I rely on it in a special case. That is, a class has only one "real" super class. All others are "empty classes", i.e., classes that neither have fields nor virtual methods (i.e. they only have non-virtual methods). In this case, these additional classes should not add anything to the memory layout of the class. (More concisely, in the C++11 wording, the class has standard-layout)

Can I infer that all the superclasses will have no offset? E.g.:

#include <iostream>

class X{

    int a;
    int b;

class I{};

class J{};

class Y : public I, public X,  public J{};

int main(){

    Y* y = new Y();
    X* x = y;
    I* i = y;
    J* j = y;

    std::cout << sizeof(Y) << std::endl 
                  << y << std::endl 
                  << x << std::endl 
                  << i << std::endl 
                  << j << std::endl;

Here, Y is the class with X being the only real base class. The output of the program (when compiled on linux with g++4.6) is as follows:






As I concluded, there is no pointer adjustment. But is this implementation specific or can I rely on it. I.e., if I receive an object of type I (and I know only these classes exist), can I use a reinterpret_cast to cast it to X?

My hopes are that that I could rely on it because the spec says that the size of an object must at least be a byte. Therefore, the compiler cannot choose another layout. If it would layout I and J behind the members of X, then their size would be zero (because they have no members). Therefore, the only reasonable choice is to align all super classes without offset.

Am I correct or am I playing with the fire if I use reinterpret_cast from I to X here?

share|improve this question
Memory layout of inheritance, single or multiple, empty bases or not, is not defined. – n.m. Jun 15 '12 at 9:34
I'd say you're playing with fire, because you're trying to make a very strange construct which will certainly cause pain and misery to anyone who has to understand it in future, even if it doesn't break when you upgrade your compiler! – Rook Jun 15 '12 at 9:35
luckily, your statements are no longer correct in C++11, see the answer :) – gexicide Jun 15 '12 at 11:29
@n.m. it is implementation defined. The implementation is required to document it, so it is defined, just not in the standard. – user1203803 Jun 15 '12 at 11:47
up vote 6 down vote accepted

In C++11 the compiler is required to use the Empty Base-class Optimization for standard layout types. see

For your specific example all the types are standard layout classes and don't have common base classes or members (see below) so you can rely on that behaviour in C++11 (and in practice, I think many compilers already followed that rule, certainly G++ did, and others following the Itanium C++ ABI.)

A caveat: make sure you don't have any base classes of the same type, because they must be at distinct addresses, e.g.

struct I {};

struct J : I {};
struct K : I { };

struct X { int i; };

struct Y : J, K, X { };

#include <iostream>

Y y;

int main()
  std::cout << &y << ' ' << &y.i << ' ' << (X*)&y << ' ' << (I*)(J*)&y << ' ' << (I*)(K*)&y << '\n';



0x600d60 0x600d60 0x600d60 0x600d60 0x600d61

For the type Y only one of the I bases can be at offset zero, so although the X sub-object is at offset zero (i.e. offsetof(Y, i) is zero) and one of the I bases is at the same address, but the other I base is (at least with G++ and Clang++) one byte into the object, so if you got an I* you couldn't reinterpret_cast to X* because you wouldn't know which I sub-object it pointed to, the I at offset 0 or the I at offset 1.

It's OK for the compiler to put the second I sub-object at offset 1 (i.e. inside the int) because I has no non-static data members, so you can't actually dereference or access anything at that address, only get a pointer to the object at that address. If you added non-static data members to I then Y would no longer be standard layout and would not have to use the EBO, and offsetof(Y, i) would no longer be zero.

share|improve this answer
perfect, so it works :) – gexicide Jun 15 '12 at 11:28
note the important caveat I expanded on in my edit though – Jonathan Wakely Jun 15 '12 at 11:42
yes, of course. I must ensure that the class has standard-layout. Thanks! – gexicide Jun 15 '12 at 11:51
(Updated the example to be closer to your original). In my example Y is standard layout, but it wouldn't be safe to reinterpret_cast an I* to J*, K*, Y* or X* because you wouldn't know which I* it points to. – Jonathan Wakely Jun 15 '12 at 12:18
okay, so no inhertance diamonds and only standard-layout. Right like that? – gexicide Jun 15 '12 at 14:10

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