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struct A {
   // ... some methods ...
   std::vector<int> foo;
   // ... more data members ...
};

With g++4.7 and libstdc++ I get std::is_standard_layout<A>::value == true.
But what happens with other compilers or standard-libraries?
Are there any guarantees that (at least certain?) STL-containers will not break the standard-layout?

Background:

struct B : A { // still standard-layout
   // ... more methods (but no new variables!)
   void bar();
};

This allows the use of static_cast<B &>(a).bar() even for A a;. (I'm not saying this is good design!).

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1  
The effect of static_cast<B&>(a).bar() is undefined. It may well "work" in the sense that it seems to do what you think it might do, but it is in no sense allowed by the language definition. –  Pete Becker Mar 3 '13 at 16:48
    
@PeteBecker Standard-layout guarantees that the address of the base class A is the same as the address of B. Therefore at least static_cast<B*>(&a)->bar() has to work. I not completely sure about using references, though –  smilingthax Mar 3 '13 at 16:59
1  
Um, no, that doesn't mean you can pretend that an object of a base type is an object of a derived type. Again, the behavior is undefined. –  Pete Becker Mar 3 '13 at 18:38
1  
Standard layout is about being able to pass objects to other languages, which, presumably, don't know about "all the fancy C++ stuff". It does not mean that standard layout objects with the same layout can be treated as the same type. The standard simply does not require this to work. –  Pete Becker Mar 3 '13 at 22:00
1  
As I said: the behavior is undefined. You can speculate about what your compiler might do, and you may well be right. But you may well be wrong, too. And I don't think there's any guarantee that when you pass an A* to some C function you can get a B* back, since C doesn't do inheritance. –  Pete Becker Mar 3 '13 at 23:11
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1 Answer

up vote 2 down vote accepted

No, there are no guarantees.

The C++11 Standard explicitly mentions when a class must have standard layout (e.g. the mutex class, the atomic_flag class, etc.).

The word "layout" does not appear in the whole Clause 23 (Containers Library). I believe this is sufficient to assume that no guarantees are given.

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