Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

During parameter resolution for a function which expects a pointer, why is the the reference-to-pointer conversion being selected rather than the pointer conversion?

template<typename T>
  class resource_ptr
      operator T*()const {...} // <- C1: Convert to raw pointer for observation.
      operator T*&()     {...} // <- C2: Convert to reference to pointer, for assignment.
void AcquireResource(resource_class *&);  // Assigns to the given pointer.
void UseResource(resource_class *);
resource_ptr<resource_class> rpResource;
AcquireResource(rpResource); // <- Calls C2, as expected.
UseResource(rpResource);     // <- Calls C2.  C1 would have been nice.

UseResource((resource_class*)rpResource); // <- Still calls C2. ???

Note that in this particular design, since C2 is granting write access, it asserts that the resource pointer is currently unassigned, to prevent resource leaks. So it's important that C2 only get used when we actually want the pointer by reference, as when passing to an API which assigns to it. As it stands, this design is broken.

(These conversions can be replaced with explicit functions, but I would like to understand this issue.)

share|improve this question
btw I'd declare assignment operator instead of (T*&) conversion. This allow to handle assignment properly and prevent memory leaks in all possible use cases without restrictions. Imo implicit conversions should be usded very carifully in very rare cases. It is dificult to understand and predict program behaviour with lot of possible type conversions. –  user396672 Jul 13 '12 at 8:24
When an API accepts a reference to a raw pointer (as an "out parameter"), you have to pass it a reference to raw pointer. You can of course use a temp raw pointer to ferry between the two, but the idea here is to provide that parameter, inline. –  Need to Know Jul 13 '12 at 9:46

2 Answers 2

Your call to UseResource is an initialization of a non-class type (a pointer type), so the following clause applies:

8.5 Initializers [dcl.init]

15 [...] — Otherwise, if the source type is a (possibly cv-qualified) class type, conversion functions are considered. The applicable conversion functions are enumerated (, and the best one is chosen through overload resolution (13.3).

It doesn't matter whether you provide an explicit cast to the parameter type resource_class *; the cast changes the initialization from a copy-initialization to a direct-initialization, but (per 8.5:13) the distinction is irrelevant when the target type is a non-class type.

We then have two conversion functions with effective argument list (resource_ptr &) and (resource_ptr const &) (for the implicit object parameter) respectively; applies for binding the references, so the less cv-qualified reference binding is preferred over the more cv-qualified binding.

share|improve this answer

The const version is used when the object to be converted is const. That works the same as with ordinary member functions.

I would go with named conversion functions, to make this easier to read.

share|improve this answer
Ah - now I see that without the const the two are considered ambiguous to a function expecting T*. A const member is of course perfectly call-able on a non-const object, but I guess it breaks the tie and gives the non-const version precedence. Ick. Seems like the non-ref should be considered the better match. –  Need to Know Jul 13 '12 at 9:35

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.