[section:shared_container Shared Container Iterator] Defined in header [@../../../boost/iterator/shared_container_iterator.hpp `boost/iterator/shared_container_iterator.hpp`]. The purpose of the shared container iterator is to attach the lifetime of a container to the lifetime of its iterators. In other words, the container will not be deleted until after all its iterators are destroyed. The shared container iterator is typically used to implement functions that return iterators over a range of objects that only need to exist for the lifetime of the iterators. By returning a pair of shared iterators from a function, the callee can return a heap-allocated range of objects whose lifetime is automatically managed. The shared container iterator augments an iterator over a shared container. It maintains a reference count on the shared container. If only shared container iterators hold references to the container, the container's lifetime will end when the last shared container iterator over it is destroyed. In any case, the shared container is guaranteed to persist beyond the lifetime of all the iterators. In all other ways, the shared container iterator behaves the same as its base iterator. [h2 Synopsis] namespace boost { namespace iterators { template class shared_container_iterator; template shared_container_iterator make_shared_container_iterator(typename Container::iterator base, std::shared_ptr const& container); std::pair< typename shared_container_iterator, typename shared_container_iterator > make_shared_container_range(std::shared_ptr const& container); // Backward compatibility with boost::shared_ptr template shared_container_iterator make_shared_container_iterator(typename Container::iterator base, boost::shared_ptr const& container); std::pair< typename shared_container_iterator, typename shared_container_iterator > make_shared_container_range(boost::shared_ptr const& container); } } [note `shared_container_iterator` and its factory functions support both `std::shared_ptr` and `boost::shared_ptr` for a smart pointer that holds a shared reference to the container. However, the support for `boost::shared_ptr` comes at a cost of wrapping it in a `std::shared_ptr` internally. This means that when constructing the iterator from a `boost::shared_ptr`, the construction will have to allocate memory for `std::shared_ptr` shared state, which may potentially fail. It is recommended to use `std::shared_ptr` directly.] [section:shared_container_type The Shared Container Iterator Type] template class shared_container_iterator; The class template `shared_container_iterator` is the shared container iterator type. The `Container` template type argument must model the [@http://www.sgi.com/tech/stl/Container.html Container] concept. [h2 Example] The following example illustrates how to create an iterator that regulates the lifetime of a reference counted `std::vector`. Though the original shared pointer `ints` ceases to exist after `set_range()` returns, the `shared_counter_iterator` objects maintain references to the underlying vector and thereby extend the container's lifetime. [example_link shared_iterator_example1.cpp..`shared_iterator_example1.cpp`]: #include #include #include #include #include using iterator = boost::iterators::shared_container_iterator< std::vector >; void set_range(iterator& i, iterator& end) { std::shared_ptr< std::vector > ints(new std::vector()); ints->push_back(0); ints->push_back(1); ints->push_back(2); ints->push_back(3); ints->push_back(4); ints->push_back(5); i = iterator(ints->begin(), ints); end = iterator(ints->end(), ints); } int main() { iterator i, end; set_range(i, end); std::copy(i, end, std::ostream_iterator(std::cout, ",")); std::cout.put('\n'); return 0; } The output from this part is: [pre 0,1,2,3,4,5, ] [table Template Parameters [[Parameter][Description]] [[Container][The type of the container that we wish to iterate over. It must be a model of the Container concept.]] ] [h2 Concepts] The `shared_container_iterator` type models the same iterator concept as the base iterator (`Container::iterator`). [h2 Operations] The `shared_container_iterator` type implements the member functions and operators required of the [@http://www.sgi.com/tech/stl/RandomAccessIterator.html Random Access Iterator] concept, though only operations defined for the base iterator will be valid. In addition it has the following constructors: shared_container_iterator(Container::iterator const& it, std::shared_ptr const& container) // Backward compatibility with boost::shared_ptr shared_container_iterator(Container::iterator const& it, boost::shared_ptr const& container) [endsect] [section:shared_container_object_generator The Shared Container Iterator Object Generator] template shared_container_iterator make_shared_container_iterator(Container::iterator base, std::shared_ptr const& container) // Backward compatibility with boost::shared_ptr template shared_container_iterator make_shared_container_iterator(Container::iterator base, boost::shared_ptr const& container) This function provides an alternative to directly constructing a `shared_container_iterator`. Using the object generator, a `shared_container_iterator` can be created and passed to a function without explicitly specifying its type. [h2 Example] This example, similar to the previous, uses `make_shared_container_iterator()` to create the iterators. [example_link shared_iterator_example2.cpp..`shared_iterator_example2.cpp`]: #include #include #include #include #include #include template void print_range_nl(Iterator begin, Iterator end) { using val = typename std::iterator_traits::value_type; std::copy(begin, end, std::ostream_iterator(std::cout, ",")); std::cout.put('\n'); } int main() { using ints_t = std::shared_ptr< std::vector >; { ints_t ints(new std::vector()); ints->push_back(0); ints->push_back(1); ints->push_back(2); ints->push_back(3); ints->push_back(4); ints->push_back(5); print_range_nl(boost::iterators::make_shared_container_iterator(ints->begin(), ints), boost::iterators::make_shared_container_iterator(ints->end(), ints)); } return 0; } Observe that the `shared_container_iterator` type is never explicitly named. The output from this example is the same as the previous. [endsect] [section:shared_container_generator The Shared Container Iterator Range Generator] template std::pair< shared_container_iterator, shared_container_iterator > make_shared_container_range(std::shared_ptr const& container); // Backward compatibility with boost::shared_ptr template std::pair< shared_container_iterator, shared_container_iterator > make_shared_container_range(boost::shared_ptr const& container); Class `shared_container_iterator` is meant primarily to return, using iterators, a range of values that we can guarantee will be alive as long as the iterators are. This is a convenience function to do just that. It is functionally equivalent to this: std::make_pair(make_shared_container_iterator(container->begin(), container), make_shared_container_iterator(container->end(), container)); [h2 Example] In the following example, a range of values is returned as a pair of `shared_container_iterator` objects. [example_link shared_iterator_example3.cpp..`shared_iterator_example3.cpp`]: #include #include // for std::copy #include #include #include #include // for std::tie using iterator = boost::iterators::shared_container_iterator< std::vector >; std::pair return_range() { std::shared_ptr< std::vector > range(new std::vector()); range->push_back(0); range->push_back(1); range->push_back(2); range->push_back(3); range->push_back(4); range->push_back(5); return boost::iterators::make_shared_container_range(range); } int main() { iterator i,end; std::tie(i, end) = return_range(); std::copy(i, end, std::ostream_iterator(std::cout, ",")); std::cout.put('\n'); return 0; } Though the range object only lives for the duration of the `return_range` call, the reference counted `std::vector` will live until `i` and `end` are both destroyed. The output from this example is the same as the previous two. [endsect] [endsect]