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I gather unrestricted unions as one of the functionality being put forth in C++11. Can anyone please explain the semantics behind this and the advantages it provides?

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2 Answers 2

up vote 18 down vote accepted

There is an explaination on Wikipedia : http://en.wikipedia.org/wiki/C%2B%2B0x#Unrestricted_unions

Search there first before asking about C++0x features explainations.

Unrestricted unions

In Standard C++ there are restrictions on what types of objects can be members of a union. For example, unions cannot contain any objects that define a non-trivial constructor. C++0x will alleviate some of these restrictions, allowing unions to be used on more types that they were previously not allowed to be used on.[6] This is a simple example of a union permitted in C++0x:

//for placement new
#include <new>

struct Point  {
    Point() {}
    Point(int x, int y): x_(x), y_(y) {}
    int x_, y_;
};
union U {
    int z;
    double w;
    Point p;  // Illegal in C++; point has a non-trivial constructor. 
              //   However, this is legal in C++0x.
    U() { new( &p ) Point(); } // No nontrivial member functions are
                               //implicitly defined for a union;
                               // if required they are instead deleted
                               // to force a manual definition.
};

The changes will not break any existing code since they only relax current rules.

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It is nothing else than the old unions we have always had, an object containing one member at a time, of varying type.

The change is just that you are now allowed to store non-POD types in a union. However, you will then be responsible for explicitly constructing and destroying that member.

From N3242:

[ Example: Consider an object u of a union type U having non-static data members m of type M and n of type N. If M has a non-trivial destructor and N has a non-trivial constructor (for instance, if they declare or inherit virtual functions), the active member of u can be safely switched from m to n using the destructor and placement new operator as follows:
u.m.~M();
new (&u.n) N;
—end example ]

Not a widely useful feature, IMO.

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