boost_1_45_0/libs/iterator/doc/zip_iterator_ref.rst - nest-learning-thermostat/5.0/boost - Git at Google

 .. Copyright David Abrahams 2006. Distributed under the Boost
 .. Software License, Version 1.0. (See accompanying
 .. file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)

 ::

   template<typename IteratorTuple>
   class zip_iterator
   {

   public:
     typedef /* see below */ reference;
     typedef reference value_type;
     typedef value_type* pointer;
     typedef /* see below */ difference_type;
     typedef /* see below */ iterator_category;

     zip_iterator();
     zip_iterator(IteratorTuple iterator_tuple);

     template<typename OtherIteratorTuple>
     zip_iterator(
           const zip_iterator<OtherIteratorTuple>& other
         , typename enable_if_convertible<
                 OtherIteratorTuple
               , IteratorTuple>::type* = 0     // exposition only
     );

     const IteratorTuple& get_iterator_tuple() const;

   private:
     IteratorTuple m_iterator_tuple;     // exposition only
   };

   template<typename IteratorTuple>
   zip_iterator<IteratorTuple>
   make_zip_iterator(IteratorTuple t);


 The ``reference`` member of ``zip_iterator`` is the type of the tuple
 made of the reference types of the iterator types in the ``IteratorTuple``
 argument.

 The ``difference_type`` member of ``zip_iterator`` is the ``difference_type``
 of the first of the iterator types in the ``IteratorTuple`` argument.

 The ``iterator_category`` member of ``zip_iterator`` is convertible to the
 minimum of the traversal categories of the iterator types in the ``IteratorTuple``
 argument. For example, if the ``zip_iterator`` holds only vector
 iterators, then ``iterator_category`` is convertible to
 ``boost::random_access_traversal_tag``. If you add a list iterator, then
 ``iterator_category`` will be convertible to ``boost::bidirectional_traversal_tag``,
 but no longer to ``boost::random_access_traversal_tag``.


 ``zip_iterator`` requirements
 ...................................

 All iterator types in the argument ``IteratorTuple`` shall model Readable Iterator.


 ``zip_iterator`` models
 .............................

 The resulting ``zip_iterator`` models Readable Iterator.

 The fact that the ``zip_iterator`` models only Readable Iterator does not
 prevent you from modifying the values that the individual iterators point
 to. The tuple returned by the ``zip_iterator``'s ``operator*`` is a tuple
 constructed from the reference types of the individual iterators, not
 their value types. For example, if ``zip_it`` is a ``zip_iterator`` whose
 first member iterator is an ``std::vector<double>::iterator``, then the
 following line will modify the value which the first member iterator of
 ``zip_it`` currently points to:

 ::

     zip_it->get<0>() = 42.0;


 Consider the set of standard traversal concepts obtained by taking
 the most refined standard traversal concept modeled by each individual
 iterator type in the ``IteratorTuple`` argument.The ``zip_iterator``
 models the least refined standard traversal concept in this set.

 ``zip_iterator<IteratorTuple1>`` is interoperable with
 ``zip_iterator<IteratorTuple2>`` if and only if ``IteratorTuple1``
 is interoperable with ``IteratorTuple2``.


 ``zip_iterator`` operations
 .................................

 In addition to the operations required by the concepts modeled by
 ``zip_iterator``, ``zip_iterator`` provides the following
 operations.


 ``zip_iterator();``

 :Returns: An instance of ``zip_iterator`` with ``m_iterator_tuple``
   default constructed.


 ``zip_iterator(IteratorTuple iterator_tuple);``

 :Returns: An instance of ``zip_iterator`` with ``m_iterator_tuple``
   initialized to ``iterator_tuple``.


 ::

     template<typename OtherIteratorTuple>
     zip_iterator(
           const zip_iterator<OtherIteratorTuple>& other
         , typename enable_if_convertible<
                 OtherIteratorTuple
               , IteratorTuple>::type* = 0     // exposition only
     );

 :Returns: An instance of ``zip_iterator`` that is a copy of ``other``.
 :Requires: ``OtherIteratorTuple`` is implicitly convertible to ``IteratorTuple``.


 ``const IteratorTuple& get_iterator_tuple() const;``

 :Returns: ``m_iterator_tuple``


 ``reference operator*() const;``

 :Returns: A tuple consisting of the results of dereferencing all iterators in
   ``m_iterator_tuple``.


 ``zip_iterator& operator++();``

 :Effects: Increments each iterator in ``m_iterator_tuple``.
 :Returns: ``*this``


 ``zip_iterator& operator--();``

 :Effects: Decrements each iterator in ``m_iterator_tuple``.
 :Returns: ``*this``

 ::

     template<typename IteratorTuple>
     zip_iterator<IteratorTuple>
     make_zip_iterator(IteratorTuple t);

 :Returns: An instance of ``zip_iterator<IteratorTuple>`` with ``m_iterator_tuple``
   initialized to ``t``.
	.. Copyright David Abrahams 2006. Distributed under the Boost
	.. Software License, Version 1.0. (See accompanying
	.. file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)

	::

	template<typename IteratorTuple>
	class zip_iterator
	{

	public:
	typedef /* see below */ reference;
	typedef reference value_type;
	typedef value_type* pointer;
	typedef /* see below */ difference_type;
	typedef /* see below */ iterator_category;

	zip_iterator();
	zip_iterator(IteratorTuple iterator_tuple);

	template<typename OtherIteratorTuple>
	zip_iterator(
	const zip_iterator<OtherIteratorTuple>& other
	, typename enable_if_convertible<
	OtherIteratorTuple
	, IteratorTuple>::type* = 0 // exposition only
	);

	const IteratorTuple& get_iterator_tuple() const;

	private:
	IteratorTuple m_iterator_tuple; // exposition only
	};

	template<typename IteratorTuple>
	zip_iterator<IteratorTuple>
	make_zip_iterator(IteratorTuple t);


	The ``reference`` member of ``zip_iterator`` is the type of the tuple
	made of the reference types of the iterator types in the ``IteratorTuple``
	argument.

	The ``difference_type`` member of ``zip_iterator`` is the ``difference_type``
	of the first of the iterator types in the ``IteratorTuple`` argument.

	The ``iterator_category`` member of ``zip_iterator`` is convertible to the
	minimum of the traversal categories of the iterator types in the ``IteratorTuple``
	argument. For example, if the ``zip_iterator`` holds only vector
	iterators, then ``iterator_category`` is convertible to
	``boost::random_access_traversal_tag``. If you add a list iterator, then
	``iterator_category`` will be convertible to ``boost::bidirectional_traversal_tag``,
	but no longer to ``boost::random_access_traversal_tag``.


	``zip_iterator`` requirements
	...................................

	All iterator types in the argument ``IteratorTuple`` shall model Readable Iterator.


	``zip_iterator`` models
	.............................

	The resulting ``zip_iterator`` models Readable Iterator.

	The fact that the ``zip_iterator`` models only Readable Iterator does not
	prevent you from modifying the values that the individual iterators point
	to. The tuple returned by the ``zip_iterator``'s ``operator*`` is a tuple
	constructed from the reference types of the individual iterators, not
	their value types. For example, if ``zip_it`` is a ``zip_iterator`` whose
	first member iterator is an ``std::vector<double>::iterator``, then the
	following line will modify the value which the first member iterator of
	``zip_it`` currently points to:

	::

	zip_it->get<0>() = 42.0;


	Consider the set of standard traversal concepts obtained by taking
	the most refined standard traversal concept modeled by each individual
	iterator type in the ``IteratorTuple`` argument.The ``zip_iterator``
	models the least refined standard traversal concept in this set.

	``zip_iterator<IteratorTuple1>`` is interoperable with
	``zip_iterator<IteratorTuple2>`` if and only if ``IteratorTuple1``
	is interoperable with ``IteratorTuple2``.



	``zip_iterator`` operations
	.................................

	In addition to the operations required by the concepts modeled by
	``zip_iterator``, ``zip_iterator`` provides the following
	operations.


	``zip_iterator();``

	:Returns: An instance of ``zip_iterator`` with ``m_iterator_tuple``
	default constructed.


	``zip_iterator(IteratorTuple iterator_tuple);``

	:Returns: An instance of ``zip_iterator`` with ``m_iterator_tuple``
	initialized to ``iterator_tuple``.


	::

	template<typename OtherIteratorTuple>
	zip_iterator(
	const zip_iterator<OtherIteratorTuple>& other
	, typename enable_if_convertible<
	OtherIteratorTuple
	, IteratorTuple>::type* = 0 // exposition only
	);

	:Returns: An instance of ``zip_iterator`` that is a copy of ``other``.
	:Requires: ``OtherIteratorTuple`` is implicitly convertible to ``IteratorTuple``.


	``const IteratorTuple& get_iterator_tuple() const;``

	:Returns: ``m_iterator_tuple``


	``reference operator*() const;``

	:Returns: A tuple consisting of the results of dereferencing all iterators in
	``m_iterator_tuple``.


	``zip_iterator& operator++();``

	:Effects: Increments each iterator in ``m_iterator_tuple``.
	:Returns: ``*this``


	``zip_iterator& operator--();``

	:Effects: Decrements each iterator in ``m_iterator_tuple``.
	:Returns: ``*this``

	::

	template<typename IteratorTuple>
	zip_iterator<IteratorTuple>
	make_zip_iterator(IteratorTuple t);

	:Returns: An instance of ``zip_iterator<IteratorTuple>`` with ``m_iterator_tuple``
	initialized to ``t``.