# Implementation of operator!= for Iter Class

Based on the implementation of Iter, I have difficulties to understand `operator!=` and don't understand why it doesn't check `_p_vec`?

This is the suggested implementation of `operator!=` that ONLY compares the `_pos`.

``````class Iter
{
public:
Iter (const IntVector* p_vec, int pos)
: _pos( pos )
, _p_vec( p_vec )
{ }

// these three methods form the basis of an iterator for use with
// a range-based for loop
bool operator!= (const Iter& other) const
{
return _pos != other._pos;
}
...
...
private:
int _pos;
const IntVector *_p_vec;
};
``````

However, I think the correct way to do this as follows. In other words, we have to compare both `_pos` and `_p_vec`.

``````bool Iter::operator!= (const Iter& other) const
{
return _p_vec != other._p_vec || _pos != other._pos;
}
``````

Question> Whose code is correct?

===Update on how std::vector works on comparison of iterator====

``````std::vector<int> vecOne { 1, 2, 3};
std::vector<int> vecTwo { 4, 5, 6};

auto iterOne = vecOne.begin();

auto iterTwo = vecTwo.begin();

if ( iterOne == iterTwo)
std::cout << "iterOne == iterTwo" << std::endl;
else
std::cout << "iterOne != iterTwo" << std::endl;
``````

Output is : `iterOne != iterTwo`

However,

``````std::vector<int> foo;
std::vector<int> bar;

if ( foo.begin() == bar.begin() )
std::cout << "foo.begin() == bar.begin()" << std::endl;
else
std::cout << "foo.begin() != bar.begin()" << std::endl;
``````

Output is : `foo.begin() == bar.begin()`

GCC (version 4.7.1)

-
your check is not necessary, as it's UB to compare iterators from two different containers... (AFAIK) –  Nim Feb 1 '13 at 16:04
Are you sure? Comparing two iterators from different container types is UB for sure, but also for different containers of the same type? –  leemes Feb 1 '13 at 16:06
@leemes, the first would generate a compiler error, the second not, and hence the UB... –  Nim Feb 1 '13 at 16:07
Besides the comparison problem, it's a bit odd to store a pointer and an offset when you could just as well have a pointer directly to the current element. –  Bo Persson Feb 1 '13 at 16:14
@q0987 "you can see [...] are NOT UB" - No, you can't see that. You can only see that in this example it works. But you know what, one of the most evil things about UB is, that it can also just work, since working is at least some behaviour. But then again in the next line/program/library/compiler it can break. UB is one of the reasons why proof by example usually doesn't work that well for C++ language features. –  Christian Rau Feb 1 '13 at 16:21

Also comparing the underlying container reference is an improvement to make sure that, for example, the `begin()` iterators of two different containers compare equal.

However, iterators of different containers are rarely compared (when using STL algorithms, they never will). So this might be considered an optimization. Think of a loop in which you step from `begin()` to `end()`, so the only iterators you are comparing are the "current" one and `end()`, which are of the same container.

Comparing iterators of standard containers (vector, etc.) is considered undefined behavior. Indeed, since they never are compared in (good) code (for example the standard algorithms), it doesn't have to define a behavior for such cases.

So the author of this `Iter` class might also want to come back to this point and say: "Comparing iterators of different vectors is undefined behavior."

This being said, if you want to ensure that you never compare iterators of different containers, leave out this check and maybe assert it for debug builds (but don't check it in release builds).

A good example where you might want to compare iterators of different containers is for linked lists, where you define the end of the list being a null pointer (or a pointer to a static null item instance). Consider the iterator being a pointer to a linked list item; in this case, the `end()` iterator is just a null pointer (or points to this null item). It is the same one for all containers, so you can't implement the check in your comparison method in such cases. Maybe this is one of the reasons why such a comparison isn't defined -- it should return "unequal" when comparing end iterators of different lists, but it can't.

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Actually I think they're relying on this being defined as UB. –  Seth Carnegie Feb 1 '13 at 16:04
Undefined behavior. It means that the compiler allows you to do something, but the result isn't defined by the standard. There are a lot of examples for undefined behavior. Since the standard doesn't define a behavior, it's up to the implementation what to do (it can do anything). –  leemes Feb 1 '13 at 16:06
@q0987, Undefined Behaviour (i.e. anything could be possible..) –  Nim Feb 1 '13 at 16:06
It's not, strictly speaking an optimization; it's a design decision. There's no good reason to compare iterators that don't point into the same sequence, so there is no design requirement to support this misuse. –  Pete Becker Feb 1 '13 at 16:22
@leemes - regardless, the design decision for iterators is that comparing iterators that do not point into the same sequence doesn't make sense. So not checking is not an optimization; it's coding to specification. Yes, it's legitimate to bulk up an iterator for debugging purposes, but it's checking for incorrect usage, not improving usability. –  Pete Becker Feb 1 '13 at 17:02

As a general rule, users of iterators are not supposed to compare iterators from different containers. In the standard library, doing so is undefined behavior.

So assuming you are only trying to create iterators that are as robust as standard library ones, comparing the container is not required. However, if you have the pointer to container around, then it would be polite to check that the containers match at least in debug, then assert that you shouldn't be making this comparison.

You are free to check it in release as well, but if your iterator using code is also supposed to work with standard containers, then relying on iterators from different containers comparing not equal is not advised.

See comparing iterators from different containers for someone talking about how it is undefined behavior.

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Please see my updated OP. The result is NOT UB. –  q0987 Feb 1 '13 at 16:19
@q0987 Trying something doesn't tell you it isn't UB. Undefined behavior doesn't mean "segfault", it means anything can happen. Including "return false". And every time you check it it could "return false", and it can still be undefined what happens by the C++ standard, and the next iteration of the compiler could segfault, delete your hard drive, or change the screen color to pink when you compare two iterators. Which is why good debugging iterators assert in debug mode when compared between different containers. –  Yakk Feb 1 '13 at 16:23