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I made a collection for which I want to provide an STL-style, random-access iterator. I was searching around for an example implementation of an iterator but I didn't find any. I know about the need for const overloads of [] and * operators. What are the requirements for an iterator to be "STL-style" and what are some other pitfalls to avoid (if any)?

Additional context: This is for a library and I don't want to introduce any dependency on it unless I really need to. I write my own collection to be able to provide binary compatibility between C++03 and C++11 with the same compiler (so no STL which would probably break).

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1  
+1! Nice question. I've wondered the same thing. It's easy enough to flick something together based on Boost.Iterator, but it's surprisingly hard to just find a list of the requirements if you implement it from scratch. –  jalf Nov 8 '11 at 17:21

6 Answers 6

up vote 78 down vote accepted

http://www.cplusplus.com/reference/std/iterator/ has a handy chart that details the specs of § 24.2.2 of the C++11 standard. Basically, the iterators have tags that describe the valid operations, and the tags have a heiarchy. Below is purely symbolic, these classes don't actually exist as such.

iterator {
    iterator(const iterator&);
    ~iterator();
    iterator& operator=(const iterator&);
    iterator& operator++(); //prefix increment
    reference operator*() const;
    friend void swap(iterator& lhs, iterator& rhs); //C++11 I think
};
input_iterator : public virtual iterator {
    iterator operator++(int); //postfix increment
    value_type operator*() const;
    pointer operator->() const;
    friend bool operator==(const iterator&, const iterator&);
    friend bool operator!=(const iterator&, const iterator&); 
};
//once an input iterator has been dereferenced, it is 
//undefined to dereference one before that.
output_iterator : public virtual iterator {
    reference operator*() const;
    iterator operator++(int); //postfix increment
};
//dereferences may only be on the left side of an assignment
//once an input iterator has been dereferenced, it is 
//undefined to dereference one before that.
forward_iterator : input_iterator, output_iterator {
    forward_iterator();
};
//multiple passes allowed
bidirectional_iterator : forward_iterator {
    iterator& operator--(); //prefix increment
    iterator operator--(int); //postfix decrement
};

random_access_iterator : bidirectional_iterator {
    friend bool operator<(const iterator&, const iterator&);
    friend bool operator>(const iterator&, const iterator&);
    friend bool operator<=(const iterator&, const iterator&);
    friend bool operator>=(const iterator&, const iterator&);

    iterator& operator+=(size_type);
    friend iterator operator+(const iterator&, size_type);
    friend iterator operator+(size_type, const iterator&);
    iterator& operator-=(size_type);  
    friend iterator operator-(const iterator&, size_type);
    friend difference_type operator-(iterator, iterator);

    reference operator[](size_type) const;
};

You can either specialize std::iterator_traits<youriterator>, or put the same typedefs in the iterator itself, or inherit from std::iterator (which has these typedefs). I prefer the second option, to avoid changing things in the std namespace, and for readability, but most people inherit from std::iterator.

struct std::iterator_traits<youriterator> {        
    typedef ???? difference_type; //almost always ptrdif_t
    typedef ???? value_type; //almost always T
    typedef ???? reference; //almost always T& or const T&
    typedef ???? pointer; //almost always T* or const T*
    typedef ???? iterator_category;  //usually std::forward_iterator_tag or similar
};

Note the iterator_category should be one of std::input_iterator_tag, std::output_iterator_tag, std::forward_iterator_tag, std::bidirectional_iterator_tag, or std::random_access_iterator_tag, depending on which of the categories your iterator was able to meet all of the requirements for as detailed above. Depending on your iterator, you may choose to specialize std::next, std::prev, std::advance, and std::distance as well, but this is quite rare. In extremely rare cases you may which to specialize std::begin and std::end.

Your container should probably also have a const_iterator, which is a (possibly mutable) iterator to constant data that is similar to your iterator except it should be implicitly constructable from a iterator and users should be unable to modify the data. It is common for it's internal pointer to be a pointer to non-constant data, and have iterator inherit from const_iterator so as to minimize code duplication.

My post at Writing your own STL Container has a more complete container/iterator prototype.

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2  
In addition to either specialize std::iterator_traits or define the typedefs yourself, you can also just derive from std::iterator, which defines those for you, depending on its template parameters. –  Christian Rau Nov 8 '11 at 17:56
    
Yes, but it's only slightly shorter in the code and confusing. I'll add that anyway. –  Mooing Duck Nov 8 '11 at 18:02
    
Why is it confusing? And I like it not to write all these typedefs, especially when nearly all of them except for the category and the value type are often just obvious (and handled by std::iterator's default template arguments. –  Christian Rau Nov 8 '11 at 18:16
    
I guess it's not really more confusing. I just like to have the types as readily available as possible in my declaration. –  Mooing Duck Nov 8 '11 at 18:27
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@LokiAstari: The complete documentation is quite extensive (40ish pages in the draft), and not in the scope of Stack Overflow. However, I added more info detailing the iterator tags and const_iterator. What else was my post lacking? You seem to imply there's more to add to the class, but the question is specifically about implementing iterators. –  Mooing Duck Nov 8 '11 at 18:49

The iterator_facade documentation from Boost.Iterator provides what looks like a nice tutorial on implementing iterators for a linked list. Could you use that as a starting point for building a random-access iterator over your container?

If nothing else, you can take a look at the member functions and typedefs provided by iterator_facade and use it as a starting point for building your own.

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Thomas Becker wrote a useful article on the subject here.

There was also this (perhaps simpler) approach that appeared previously on SO: How to correctly implement custom iterators and const_iterators?

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use Boost.Iterator library

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4  
Sorry, I forgot to say that this is for a library and I don't want to introduce any dependency on it unless I really need to. I write my own collection to be able to provide binary compatibility between C++03 and C++11 with the same compiler (so no STL which would probably break). –  Tamás Szelei Nov 8 '11 at 17:18
3  
I appreciate it but I'd be happier with a more complete answer that especially covers the implementation details and common mistakes for a random-access iterator. –  Tamás Szelei Nov 8 '11 at 17:46

First of all you can look here for a list of the various operations the individual iterator types need to support.

Next, when you have made your iterator class you need to either specialize std::iterator_traits for it and provide some neccessary typedefs (like iterator category or value type) or alternatively derive it from std::iterator, which defines the needed typedefs for you and can therefore be used with the default std::iterator_traits.

disclaimer: I know some people don't like cplusplus.com that much, but they provide some really useful information on this.

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I was/am in the same boat as you for different reasons (partly educational, partly constraints). I had to re-write all the containers of the standard library and the containers had to conform to the standard. That means, if I swap out my container with the stl version, the code would work the same. Which also meant that I had to re-write the iterators.

Anyway, I looked at EASTL. Apart from learning a ton about containers that I never learned all this time using the stl containers or through my undergraduate courses. The main reason is that EASTL is more readable than the stl counterpart (I found this is simply because of the lack of all the macros and straight forward coding style). There are some icky things in there (like #ifdefs for exceptions) but nothing to overwhelm you.

As others mentioned, look at cplusplus.com's reference on iterators and containers.

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