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 hierarchy. 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 output 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 decrement
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;
};
contiguous_iterator : random_access_iterator { //C++17
}; //elements are stored contiguously in memory.
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 ptrdiff_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 requirements your iterator satisfies. Depending on your iterator, you may choose to specialize std::next
, std::prev
, std::advance
, and std::distance
as well, but this is rarely needed. In extremely rare cases you may wish 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 its 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.