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Why do Visual Studio 2010 and Visual Studio 2012 fail to compile this code?

Codepad.org, Xcode, gcc, LLVM, Clang all have no problem but Visual Studio poops the bed:

struct S {
  template <class T> inline operator T () const { return T (); }
int main () {
  // NOTE: "S()" denotes construction in these examples
  struct F {
    void operator() (bool) { }
    static void toint (int) { }
    static void tostr (char const*) { }
  bool b1 = S (); // Okay
  bool b2 (S ()); // Okay
  F () (S ());    // Okay
  F::toint (S ());// Okay
  F::tostr (S ());// Okay

  S () || false;  // Error: error C2676: binary '||' : 'vf::S' does
                  // not define this operator or a conversion to a type
                  // acceptable to the predefined operator
  return 0;

Adding the explicit keyword doesn't change a thing for gcc or clang. The error message produced is:

error C2676: binary '||' : 'S' does not define this operator or a
  conversion to a type acceptable to the predefined operator
share|improve this question
And the error message is...? – ybungalobill Nov 17 '12 at 20:54
You could stick the cast in there. – chris Nov 17 '12 at 20:55
@VinnieFalco: The fact that "This works on every other compiler" is completely irrelevant to whether it's a bug or not. What defines a bug is whether the standard allows it. – Nicol Bolas Nov 17 '12 at 21:01
Would you post a link to the bug, for future reference? – James McNellis Nov 19 '12 at 17:57

It's a bug, at least in C++03 (not sure about C++11).

According to the overload resolution rules in C++03 §, the built-in || operator is selected, since no user-defined || operator is defined for S.

§5.15/1 says:

The || operator groups left-to-right. The operands are both implicitly converted to bool (clause 4). [...]

§12.3/2 says:

User-defined conversions are applied only where they are unambiguous (10.2, 12.3.2). [...]


User-defined conversions are used implicitly only if they are unambiguous. [...] Function overload resolution (13.3.3) selects the best conversion function to perform the conversion.


Second, for F to be a viable function, there shall exist for each argument an implicit conversion sequence ( that converts that argument to the corresponding parameter of F.

Clearly S defines a user-defined conversion to bool. The built-in || operator is a viable function for the overload resolution, and since it's the only one, it's the best. So the expression is well-formed.

Also of note is §4/3, which says:

An expression e can be implicitly converted to a type T if and only if the declaration “T t=e;” is well- formed, for some invented temporary variable t (8.5). [...]

So I'm curious whether Visual Studio also produces an error for the statement bool b = S();.

share|improve this answer

If you forbit implicit typecasting to boolean, the compiler has to check if there is an operator|| defined wich takes a boolean. This is (hopefully!) not defined because it would break shortcuts. So he has to check if there is an conversion-operator defined that gives it something defined for the global ||-operator. Could you solve this problem by adding a conversion-operator to bool, BOOL or int (wich is the same anyway^^)…?

operator bool() {return this != null && this != 0xcccccccc;}

This BTW would be just a hack, it would be better to provide a logical meaningful conversion.

Im shure there is a constant defined for 0xcccccccc marking uninitialized Memory in debug mode, but i dont know it.

share|improve this answer
This workaround would fix the sample code but is not usable in practice. The class in question represents a Lua type, which can take on any of 11 different actual types. If I were to provide conversion operators for bool, int, double, string, etc... then there would be ambiguous conversions. That's why I used the template. The only real workaround is to provide a function: template <class T> T cast () and call it explicitly. – Vinnie Falco Nov 24 '12 at 18:53

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