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I want a templated class with a templated conversion operator and a default constructor, but my initial attempt isn't working.

template<typename T>
class C
    C() {}

    template<typename U>
    operator U() 
        C<U> c; // (*)
        c._a = dynamic_cast<U*>(_a); 
        return c;
    T* _a;

But now, when I try to create an instance of C,

template<typename T>
void F()
    C<T> obj;

operator U() keeps calling itself over and over at (*), eventually segfaulting. The same thing happens when I define the function that does the casting externally and call it from operator U()--in which case there is no call to C::C() from within the class definition.

It seems to me then that the conversion operator is getting called when I want the default constructor called--it is essentially trying to convert itself. But surely, there's a way to do what I'm trying to do?

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1 Answer 1

up vote 1 down vote accepted

Note that in operator X (where X is a type) functions, you should usually return something of type X. You're returning a C<U> when you're trying to convert the invoking object to a U which causes the following to happen:

  1. int a = someC; (where someC is a C of any type) will try to assign a C<X> to an int
  2. operator T<int> will be called on someC which will return a C<int> and then try to assign it to an int
  3. operator T<int> will be called on the aforementioned return value which will return a C<int>
  4. That return value which is a C<int> will attempt to be converted to an int which will call operator T<int>....
  5. goto 3;

Hopefully you can see why the infinite recursion and subsequent stack overflow occurs.

You cannot return a C<U> from operator T<U> of class C. You need to redesign your class if you need to for some reason.

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Ha, great! Sounds like you nailed it. I want, in fact, to convert a C<T> to a C<U>. So I guess I should try operator C<U>? I'm away from the computer I did this on so I'll check this out tomorrow. I think the fact that this is such a low-level mistake but the code still compiled is what threw me, but anyway, thanks, this sounds very promising. –  Matt Phillips Dec 2 '11 at 1:55
@MattPhillips try template<typename X> operator C<X>() { ... } (actually yeah, exactly what you said) –  Seth Carnegie Dec 2 '11 at 1:57
Oh no, you used a goto! ;) –  R. Martinho Fernandes Dec 2 '11 at 2:00
@MattPhillips: It might be easier if you want to convert from C<T> to C<U> to use a templated constructor. –  Dave S Dec 2 '11 at 2:19
@Dave S A excerpt from the C++03 standard I found states explicitly that these can't happen. Does C++11 now allow them? A quick google didn't turn up anything for me. –  Matt Phillips Dec 2 '11 at 2:34

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