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Can/Should i inherit from STL iterator to implement my own iterator class? If no, why not?

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Do you mean from any STL iterator, or specifically from the std::iterator type? –  Sven Jun 24 '11 at 16:47
see: –  Loki Astari Jun 28 '11 at 14:07

5 Answers 5

up vote 7 down vote accepted

If you mean std::iterator: yes, that's what it's for.

If you mean anything else: no, because none of the STL iterators have virtual destructors. They're not meant for inheritance and a class inheriting from them might not clean up properly.

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Iterators are not used in a context were that matters (ie you never have a base cass pointer pointing at the derived iterator). Iterators are always objects. –  Loki Astari Jun 24 '11 at 16:48
This advice is overly broad. It's OK not to have a virtual destructor if the derived class doesn't need any cleanup (automatically generated or otherwise), or if it won't be used polymorphically. It's extremely rare to have a pointer to an iterator. –  Mark Ransom Jun 24 '11 at 16:49
@Martin: it's still possible to obtain a pointer to an iterator, and in that case, you're screwed. I've used pointers to (heavy-duty, not STL) iterators in a project. –  larsmans Jun 24 '11 at 16:51
You are aware, that std::iterator doesn't have a virtual destructor either? @MarkRansom: Deleting a class with a non-virtual destructor via a pointer to base class is always UB. –  MikeMB Aug 21 at 19:31
@MikeMB You're probably right, but my larger point stands: iterators are extremely unlikely to be deleted polymorphically. Even the functions that work with them are probably template based to work with the fully derived class. –  Mark Ransom Aug 21 at 20:44

As of today (C++11/C++14), the standard seems to imply that it isn't a good idea anymore to inherit from std::iterator to implement custom iterators. Here is a brief explanation, from N3931:

Although the Standard has made this mistake almost a dozen times, I recommend not depicting directory_iterator and recursive_directory_iterator as deriving from std::iterator, since that's a binding requirement on implementations. Instead they should be depicted as having the appropriate typedefs, and leave it up to implementers to decide how to provide them. (The difference is observable to users with is_base_of, not that they should be asking that question.)

[2014-02-08 Daniel comments and provides wording]

This issue is basically similar to the kind of solution that had been used to remove the requirement to derive from unary_function and friends as described by N3198 and I'm strongly in favour to follow that spirit here as well. I'd like to add that basically all "newer" iterator types (such as the regex related iterator) don't derive from std::iterator either.

The paper cites N3198 which itself states that it follows the deprecation discussed in N3145. The reasons for deprecating the classes that only exist to provide typedefs are given as such:

Our experience with concepts gives us confidence that it is rarely necessary to depend on specific base class-derived class relations, if availability of types and functions is sufficient. The new language tools allow us even in the absence of language-supported concepts to deduce the existence of typenames in class types, which would introduce a much weaker coupling among them. Another advantage of replacing inheritance by associated types is the fact, that this will reduce the number of cases, where ambiguities arise: This can easily happen, if a type would inherit both from unary_function and binary_function (This makes sense, if a functor is both an unary and a binary function object).

tl;dr: classes which only provide typedefs are now deemed useless. Moreover, they increase coupling when it is not needed, are more verbose, and can have unwanted side effects in some corner cases (see the previous quotation).

Update: issue 2438 from N4245 seems to actually contradict what I asserted earlier:

For LWG convenience, nine STL iterators are depicted as deriving from std::iterator to get their iterator_category/etc. typedefs. Unfortunately (and unintentionally), this also mandates the inheritance, which is observable (not just through is_base_of, but also overload resolution). This is unfortunate because it confuses users, who can be misled into thinking that their own iterators must derive from std::iterator, or that overloading functions to take std::iterator is somehow meaningful. This is also unintentional because the STL's most important iterators, the container iterators, aren't required to derive from std::iterator. (Some are even allowed to be raw pointers.) Finally, this unnecessarily constrains implementers, who may not want to derive from std::iterator. (For example, to simplify debugger views.)

To sum up, I was wrong, @aschepler was right: it can be used, but it is certainely not required - it isn't discouraged either. The whole "let's remove std::iterator" thing exists for the standard not to constrain the standard library implementers.

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I don't read any of this as recommending that user-defined classes should not inherit std::iterator. The point of N3931 is that the Standard library spec should not require library classes to inherit it. In the case of unary_function and binary_function, that whole model was determined inferior to SFINAE methods, std::bind, etc., types, functions, and all. When you mean to write an iterator class, you haven't really done so until you define all the correct typedefs and support the correct expressions. std::iterator is just one way to make part of that job easier. –  aschepler May 23 '14 at 20:53

If you're talking about std::iterator template, then yes, you should, but I hope you do understand that it has no functionality, just a bunch of typedefs. The pro of this decision is that your iterator can be fed to iterator_traits template.

If, on the other hand, you're talking about some specific STL iterator, like vector<T>::iterator or other, then the answer is a resounding NO. Let alone everything else, you don't know for sure that it's actually a class (e.g. the same vector<T>::iterator can be just typedefed as T*)

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No one should not because of the potential problems that might be encountered. Probably you are better off using Composition rather than Inheritance with STL Iterators.

Undefined Behavior due to absence of virtual destructors:
STL containers & iterators are not meant to act as base classes as they do not have virtual destructors.

For classes with no virtual destructors being used as Base class, the problem arises when deallocating through a pointer to the base class (delete, delete[] etc). Since the classes don't have virtual destructors, they cannot be cleaned up properly and results in Undefined Behavior.

One might argue that there would not be a need to delete the iterator polymorphically & hence nothing wrong to go ahead with deriving from STL iterators, well there might be some other problems like:

Inheritance maynot be possible at all:
All iterator types in the standard container are Implementation defined.
For e.g: std::vector<T>::iterator might be just a T*. In this case, you simply cannot inherit from it.

The C++ standard has no provisions demanding that say std::vector<T>::iterator does not use inheritance inhibiting techniques to prevent derivation. Thus, if you are deriving from a STL iterator you are relying on a feature of your STL that happens to allow derivation. That makes such an implementation non portable.

Buggy behaviors if not implemented properly:
Consider that you are deriving from vector iterator class like:

class yourIterator : std::vector<T>::iterator { ... };

There might be a function which operates on the vector iterators,
For ex:

void doSomething(std::vector<T>::iterator to, std::vector<T>::iterator from);

Since yourIterator is a std::vector<T>::iterator you can call doSomething() on your container class but you will be facing the ugly problem of Object Slicing. The doSomething() has to be implemented in a proper templated manner, to avoid the problem.

Problems while using Standard Library Algorithms:
Consider you are using the derivation from vector iterator, and then you use a Standard library algorithm like std::transform()

For Ex:

yourIterator a;
yourIterator b;
std::transform( a++, b--, ... );

The postfix operator ++ returns a std::vector<T>::iterator and not a yourIterator resulting in a wrong template being chosen.

Thus, Inheriting from STL Iterators is possible indeed but if you ready to dig out all such and many other potential problems and address them, Personally I won't give it the time and the effort to do so.

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You mean, classes with virtual destructor can only be derived from? –  Nawaz Jun 24 '11 at 16:50
@Nawaz: You mean "You mean, only classes with virutal destructor can be derived from?"? :D –  Armen Tsirunyan Jun 24 '11 at 16:53
@Armen: yeah yeah :D –  Nawaz Jun 24 '11 at 16:54
Hope that answers your query or sarcasm, whatever it was. –  Alok Save Jun 24 '11 at 16:57

Yes you should. It takes a lot of tedium out of writing your own iterator (ie it set up a lot of the types for you). Note: It provides no implementation but it works correctly with all the iterator_traits types.

See here for details:

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