To make it possible to deal with insertion in the same way as writing into an array, a special kind of iterator adaptors, called insert iterators, are provided in the library. With regular iterator classes,
while (first != last) *result++ = *first++;
causes a range [first,last) to be copied into a range starting with result. The same code with result being an insert iterator will insert corresponding elements into the container. This device allows all of the copying algorithms in the library to work in the insert mode instead of the regular overwrite mode.
An insert iterator is constructed from a container and possibly one of its iterators pointing to where insertion takes place if it is neither at the beginning nor at the end of the container. Insert iterators satisfy the requirements of output iterators. operator* returns the insert iterator itself. The assignment operator=(const T& x) is defined on insert iterators to allow writing into them, it inserts x right before where the insert iterator is pointing. In other words, an insert iterator is like a cursor pointing into the container where the insertion takes place. back_insert_iterator inserts elements at the end of a container, front_insert_iterator inserts elements at the beginning of a container, and insert_iterator inserts elements where the iterator points to in a container. back_inserter, front_inserter, and inserter are three functions making the insert iterators out of a container.
namespace std {
template <class Container>
class back_insert_iterator :
public iterator<output_iterator_tag,void,void,void,void> {
protected:
Container* container;
public:
typedef Container container_type;
explicit back_insert_iterator(Container& x);
back_insert_iterator<Container>&
operator=(const typename Container::value_type& value);
back_insert_iterator<Container>&
operator=(typename Container::value_type&& value);
back_insert_iterator<Container>& operator*();
back_insert_iterator<Container>& operator++();
back_insert_iterator<Container> operator++(int);
};
template <class Container>
back_insert_iterator<Container> back_inserter(Container& x);
}
explicit back_insert_iterator(Container& x);
Effects: Initializes container with std::addressof(x).
back_insert_iterator<Container>&
operator=(const typename Container::value_type& value);
Effects: container->push_back(value);
Returns: *this.
back_insert_iterator<Container>&
operator=(typename Container::value_type&& value);
Effects: container->push_back(std::move(value));
Returns: *this.
back_insert_iterator<Container>& operator*();
Returns: *this.
back_insert_iterator<Container>& operator++();
back_insert_iterator<Container> operator++(int);
Returns: *this.
template <class Container>
back_insert_iterator<Container> back_inserter(Container& x);
Returns: back_insert_iterator<Container>(x).
namespace std {
template <class Container>
class front_insert_iterator :
public iterator<output_iterator_tag,void,void,void,void> {
protected:
Container* container;
public:
typedef Container container_type;
explicit front_insert_iterator(Container& x);
front_insert_iterator<Container>&
operator=(const typename Container::value_type& value);
front_insert_iterator<Container>&
operator=(typename Container::value_type&& value);
front_insert_iterator<Container>& operator*();
front_insert_iterator<Container>& operator++();
front_insert_iterator<Container> operator++(int);
};
template <class Container>
front_insert_iterator<Container> front_inserter(Container& x);
}
explicit front_insert_iterator(Container& x);
Effects: Initializes container with std::addressof(x).
front_insert_iterator<Container>&
operator=(const typename Container::value_type& value);
Effects: container->push_front(value);
Returns: *this.
front_insert_iterator<Container>&
operator=(typename Container::value_type&& value);
Effects: container->push_front(std::move(value));
Returns: *this.
front_insert_iterator<Container>& operator*();
Returns: *this.
front_insert_iterator<Container>& operator++();
front_insert_iterator<Container> operator++(int);
Returns: *this.
template <class Container>
front_insert_iterator<Container> front_inserter(Container& x);
Returns: front_insert_iterator<Container>(x).
namespace std {
template <class Container>
class insert_iterator :
public iterator<output_iterator_tag,void,void,void,void> {
protected:
Container* container;
typename Container::iterator iter;
public:
typedef Container container_type;
insert_iterator(Container& x, typename Container::iterator i);
insert_iterator<Container>&
operator=(const typename Container::value_type& value);
insert_iterator<Container>&
operator=(typename Container::value_type&& value);
insert_iterator<Container>& operator*();
insert_iterator<Container>& operator++();
insert_iterator<Container>& operator++(int);
};
template <class Container>
insert_iterator<Container> inserter(Container& x, typename Container::iterator i);
}
insert_iterator(Container& x, typename Container::iterator i);
Effects: Initializes container with std::addressof(x) and iter with i.
insert_iterator<Container>&
operator=(const typename Container::value_type& value);
Effects:
iter = container->insert(iter, value); ++iter;
Returns: *this.
insert_iterator<Container>&
operator=(typename Container::value_type&& value);
Effects:
iter = container->insert(iter, std::move(value)); ++iter;
Returns: *this.
insert_iterator<Container>& operator*();
Returns: *this.
insert_iterator<Container>& operator++();
insert_iterator<Container>& operator++(int);
Returns: *this.
template <class Container>
insert_iterator<Container> inserter(Container& x, typename Container::iterator i);
Returns: insert_iterator<Container>(x, i).