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I'm wondering about one thing. I've got class which has 1 overloaded member function:

class A{
    class const_iterator{};
    class iterator : public const_iterator{};
    iterator find(const K &key);
    const_iterator find(const K &key) const;

Ad. iterator is inheriting from const_iterator, but it isn't adding anything.

What I want to do is, inside normal find call const find. Something like this:

typename A::iterator A::find(const K &key){
     const_iterator it(find(key));
     return (*(iterator*)&it);

I don't need different implementation of non-const find ATM. Is it possible to do something like this? Because now I'm getting into infinite loop, adding "A::" before find isn't changing anything.

share|improve this question
Possible duplicate: stackoverflow.com/questions/123758/… – Vincenzo Pii Nov 18 '12 at 13:53
up vote 2 down vote accepted

In general, there’s no clean solution for this, unfortunately.

You can call the overloaded find by simply casting this to A const* – but the result will be of the wrong type (const_iterator rather than iterator) and there may not be a conversion between these in the general case (your (*(iterator*)&it) won’t work in your case).

But of course, in your special case, since you defined the two classes, you can define such a conversion by adding an appropriate constructor to iterator:

class iterator : public const_iterator {
    iterator(const_iterator const& other) { 
        // Construct …

Then you can re-write your non-const find implementation as follows:

A::iterator A::find(const int &key){
    const_iterator it(const_cast<A const*>(this)->find(key));
    return static_cast<iterator>(it);

Incidentally, note the absence of typename in the return type. Since A::iterator isn’t a dependent name, you don’t need (and, at least in C++03, are not allowed to) use typename here.

share|improve this answer
thanks a lot, that worked, i need typename because there are templates and so on, also it works with that simple downcasting the pointer, I didn't have to define conversion(maybe because this inhering is mostly only name change and it isn't implementing anything new) – Michał Dębski Nov 18 '12 at 14:34
@MichałDębski No, you do need to define the conversion. There is no automatic downcast from base class to derived class. Your pointer cast is forbidden and yields undefined behaviour. – Konrad Rudolph Nov 18 '12 at 14:38
const_cast<const A*>(this)->find(key);
share|improve this answer
@Aardvark - good point. I changed static_cast to const_cast. Thanks. – Pete Becker Nov 18 '12 at 13:41
Why don't we use static_cast or dynamic_cast or a regular cast? Why does const_cast<> have to be used? – 0x499602D2 Nov 18 '12 at 13:47
@David Because we change the const-ness of the object, nothing more. Furthermore, dynamic_cast would be totally wrong here since it only applies to casting within an inheritance hierarchy (and even then only when we’re not sure whether the cast will succeed, and handle the resulting null value accordingly), which isn’t the case here. – Konrad Rudolph Nov 18 '12 at 13:53
@KonradRudolph Thanks. I'm kind of confused with those ---_cast<> functions. – 0x499602D2 Nov 18 '12 at 13:54
const_cast changes only the const-ness of the argument. That's the narrowest conversion that gets to the right type. static_cast also works, but it can do more than just changing const-ness, so shouldn't be used here. The risk is that a more powerful cast can change other aspects of the type; in a simple case like this one it's not likely, but in more complicated situations a more powerful cast could mask a coding error. In general, use the least-powerful cast that does what's needed. – Pete Becker Nov 18 '12 at 13:54

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