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I needed to use the std::is_assignable type traits, which happens not to be available in the oldest compiler version that I want to support. Since I had to implement this myself (okay, I admit it, there was some interwebs peeking), I now wonder if this is a bug in my implementation or a general problem of std::is_assignable.

First of all, this is my test struct:

struct Bar {
  bool const cb; // this should kill the default assignment operator
  int i;
};

and here is my stdreplace::is_assignable

template <typename T> struct is_assignable : private std::__sfinae_types {
  private:
    template <typename T1> 
      static decltype(std::declval<T1>() = std::declval<T1>(),__one()) test(int);
    template <typename T1> 
      static __two test(...);
  public:
    static bool const value = sizeof(test<T>(0)) == sizeof(__one);
};

However, it tells me, Bar is assignable:

int: 1
Bar: 1
int[2]: 0

Where is the problem?

share|improve this question
    
Did you try changing your boolean variable name to be somthing else than a reserved keyword? –  Anthony Vallée-Dubois Feb 24 '12 at 5:26
    
@pwny: Oh boy. It was a typo in the question, because I typed the Bar struct by hand. I corrected the question, thanks! –  bitmask Feb 24 '12 at 5:29
    
Hehe all good I was just making sure this wasn't some weird compiler trick acting up because of this. –  Anthony Vallée-Dubois Feb 24 '12 at 5:31
    
With copy ellision this code is valid. You need to do some tricks with a function body to make sure a copy happens. –  Dani Feb 24 '12 at 5:37
1  
Tested on g++ 4.7.0 I get 0, so there is no problem with what you have shown (but I just tested on ideone (gcc 4.5.1) and got 1 so I think it might be a compiler problem). –  Jesse Good Feb 24 '12 at 5:50

1 Answer 1

up vote 2 down vote accepted

Your compiler probably does not correctly define the assignment operator as deleted. In c++03 code with respect to implicitly declared special member functions, such an assignment within an unevaluated operand was fine even if the assignment would be illformed if it occurs in an evaluated operand. The reason for that is because the asignment operator would never be implicitly defined but only implicitly declared thus never rising an error.

Since that changed in c++11 and your assignment operator should be deleted automatically it appears to me that your compiler is at fault.

share|improve this answer
    
I see. I suspected as much, because further investigation and different attempts made one less sense than the previous, thanks for the confirmation. I'd file a bug report, but apparently it is already fixed in newer versions. –  bitmask Feb 24 '12 at 9:21

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