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I use a simple way to hide my enums from local namespaces - enumeration inside of a struct. It goes roughly like this:

struct Color
    enum Type
        Red, Green, Black
    Type t_;
    Color(Type t) : t_(t) {}
    operator Type () const {return t_;}
  template<typename T>
  operator T () const;

operator T () is a protection from implicit type casting. Then I tried to compile this code with gcc and with keil:

Color n;
int a[9];
a[ (int)n ] = 1;

gcc compiled it with no error (wich is what I expected), but Keil gived me an error: "invalid type conversion. operator () is inaccessible".

So my question is: which compiler is right?

I know about c++11 enum class, but it isn't supported by Keil now

share|improve this question
Neither g++ nor clang++ compile this code for me, even after having fixed the definition of Color n;. –  Mat May 21 '13 at 13:36
What version of g++ are you using? What are the errors? –  Amomum May 21 '13 at 13:39
invalid cast from type ‘Color’ to type ‘int’: GCC 4.6.3, 4.7.2, 4.8.0; reinterpret_cast from 'Color' to 'int' is not allowed: clang 3.3 –  Mat May 21 '13 at 13:42
Now that's interesting. I actually use this thing with a macro and it did compile. But I tried this simple snippet and it didn't. I'm confused. UPD: Right, c-style casting works in g++, but doesn't in Keil. I should test code before question it :( The question should be about C-style conversion –  Amomum May 21 '13 at 13:49
I'm not sure if this has anything to do with it but on stackoverflow.com/questions/573294/when-to-use-reinterpret-cast I found this comment, "in C++03 a cast of int* to void* was forbidden to be done with reinterpret_cast (although compilers did not implement that and it was impractical, hence was changed for C++11)". Since structs involve pointers to the object. Maybe the reason why Keil doesn't like it is due to that C++03 standard. –  Travis Pessetto May 21 '13 at 13:55

1 Answer 1

Should reinterpret_cast (not c-style () cast) call type conversion operator?

No, reinterpret_cast is only used for a few dodgy types of conversions:

  • converting pointers to integers and back
  • converting between pointers (and references) to unrelated types

You shouldn't need a cast at all to use the implicit conversion operator - you have not prevented implicit conversion at all. In C++11, if the operator were explicit, then you'd need a static_cast.

If you're stuck with C++03, and you really want to prevent implicit conversion but allow explicit conversion, then I think the only sensible thing to do is to provide a named conversion function.

Update: The question has now changed, and is asking about C-style casting rather than reinterpret_cast. That should compile since any conversion that can be done by static_cast (including implicit conversions) can also be done with a C-style cast.

share|improve this answer
So making operator private doesn't make implicit conversion impossible? o_o –  Amomum May 21 '13 at 13:50
Still thank you for the answer, I have guessed about named function by myself, still, operator would be more straight-forward. I wish reinterpret_cast just .. well, interpreted the memory block without any questions what so ever. –  Amomum May 21 '13 at 13:58
@Amomum: No; operator Type() is public, and Type can be used as an array index. –  Mike Seymour May 21 '13 at 13:58
@Amomum: That is what reinterpret_cast does; but you'd need to cast to a reference (reinterpret_cast<int&>) in order to reinterpret the memory, and you'll get undefined behaviour since the types don't match. –  Mike Seymour May 21 '13 at 14:00
Cast a reference?! o_O That's the first time I hear that. Thanks for the previous comment, but not using type conversion at all doesn't work in Keil (oddly enough) - it tries to use template operator and fails. –  Amomum May 21 '13 at 14:09

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