Writing an operator== function for an iterator in C++

Question

I realize I'm stupid so please go easy on me. Yes this is an assignment, but I want to understand what I'm doing wrong, not just the answer.

I'm trying to write an operator== and an operator!= function for an iterator on a binary search tree in the BSTIterator class template.

Given (all in the same class template):

private: 

BSTNode<Data>* curr;

...

bool operator==(BSTIterator<Data> const & other) const {
  (here's where I do my magic)
}

Same setup for operator!=.

I write for == ...

  return (&curr == other);

I don't think I need the parentheses but anyway ... here's what I have for !=

  return !(&curr == other);

My compiler has a problem with != but not apparently ==.

It spit out a lot of gobbledy gook but, as far as I can tell, the relevant part is:

No match for 'operator!=' in '&((const BSTIterator*)this)->BSTIterator::curr != other'

and it references the line that says return !(&curr == other);

I think at first the compiler didn't like my operator== function either but I see no reference to it now. Why would it like one and not the other when they are basically the same except for the ! ?

Please let me know if I need to include more information.

Answer 1

As I understand from your code curr indicate the position that your iterator point to it. Do when you compare an instance of your iterator with another you should check if they both point to the same location. am I right? if the answer is true shouldn't you code like this:

bool operator==( BSTIterator<Data> const & other) const {
    return this->curr == other.curr;
}
bool operator!=( BSTIterator<Data> const & other) const {
    return this->curr != other.curr;
}

And about your error: your compiler say &cur is of a type( BSTNode<Data>** ) that I don't know how to compare it with an instance of your iterator( BSTIterator<Data> ) and that's obvious since you are defining == and != for your class and you never defined and operator for such operation, do you?

Answer 2

The first thing is to determine what the semantics of the operation are. For a class with reference semantics (an iterator represents a reference into an element in a container) the common definition of equality is refers to the exact same object. Conceptually, it1 == it2 iff &*it1 == &*it2 (both iterators are the same if the address of the object accessed through operator* is the same ^*).

After that you just need to perform the test. In your case if you have a pointer to the node in the tree, then the two iterators are the same if the pointers stored inside the iterators refer to the same node. That is, if the stored pointers are the same.

Note that in this case you want to compare the pointers by value: two pointers are the same if the value stored in them is the same, so you will not use the address-of operator (1):

return (&curr == other);
        ^        ^
        1        2

Also note (2) that in that line of code you are comparing a pointer curr with an iterator other which probably does not make sense. You want to compare both stored pointers.