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// Copyright David Abrahams and Thomas Becker 2000-2006.
// Copyright Kohei Takahashi 2012-2014.
//
// 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)
#ifndef BOOST_ZIP_ITERATOR_TMB_07_13_2003_HPP_
# define BOOST_ZIP_ITERATOR_TMB_07_13_2003_HPP_
#include <stddef.h>
#include <boost/iterator.hpp>
#include <boost/iterator/iterator_traits.hpp>
#include <boost/iterator/iterator_facade.hpp>
#include <boost/iterator/iterator_adaptor.hpp> // for enable_if_convertible
#include <boost/iterator/iterator_categories.hpp>
#include <boost/iterator/minimum_category.hpp>
#include <utility> // for std::pair
#include <boost/fusion/adapted/boost_tuple.hpp> // for backward compatibility
#include <boost/type_traits/remove_reference.hpp>
#include <boost/type_traits/remove_cv.hpp>
#include <boost/mpl/at.hpp>
#include <boost/mpl/fold.hpp>
#include <boost/mpl/transform.hpp>
#include <boost/mpl/placeholders.hpp>
#include <boost/fusion/algorithm/iteration/for_each.hpp>
#include <boost/fusion/algorithm/transformation/transform.hpp>
#include <boost/fusion/sequence/convert.hpp>
#include <boost/fusion/sequence/intrinsic/at_c.hpp>
#include <boost/fusion/sequence/comparison/equal_to.hpp>
#include <boost/fusion/support/tag_of_fwd.hpp>
namespace boost {
namespace iterators {
// Zip iterator forward declaration for zip_iterator_base
template<typename IteratorTuple>
class zip_iterator;
namespace detail
{
// Functors to be used with tuple algorithms
//
template<typename DiffType>
class advance_iterator
{
public:
advance_iterator(DiffType step) : m_step(step) {}
template<typename Iterator>
void operator()(Iterator& it) const
{ it += m_step; }
private:
DiffType m_step;
};
//
struct increment_iterator
{
template<typename Iterator>
void operator()(Iterator& it) const
{ ++it; }
};
//
struct decrement_iterator
{
template<typename Iterator>
void operator()(Iterator& it) const
{ --it; }
};
//
struct dereference_iterator
{
template<typename>
struct result;
template<typename This, typename Iterator>
struct result<This(Iterator)>
{
typedef typename
remove_cv<typename remove_reference<Iterator>::type>::type
iterator;
typedef typename iterator_reference<iterator>::type type;
};
template<typename Iterator>
typename result<dereference_iterator(Iterator)>::type
operator()(Iterator const& it) const
{ return *it; }
};
// Metafunction to obtain the type of the tuple whose element types
// are the reference types of an iterator tuple.
//
template<typename IteratorTuple>
struct tuple_of_references
: mpl::transform<
IteratorTuple,
iterator_reference<mpl::_1>
>
{
};
// Specialization for std::pair
template<typename Iterator1, typename Iterator2>
struct tuple_of_references<std::pair<Iterator1, Iterator2> >
{
typedef std::pair<
typename iterator_reference<Iterator1>::type
, typename iterator_reference<Iterator2>::type
> type;
};
// Metafunction to obtain the minimal traversal tag in a tuple
// of iterators.
//
template<typename IteratorTuple>
struct minimum_traversal_category_in_iterator_tuple
{
typedef typename mpl::transform<
IteratorTuple
, pure_traversal_tag<iterator_traversal<> >
>::type tuple_of_traversal_tags;
typedef typename mpl::fold<
tuple_of_traversal_tags
, random_access_traversal_tag
, minimum_category<>
>::type type;
};
template<typename Iterator1, typename Iterator2>
struct minimum_traversal_category_in_iterator_tuple<std::pair<Iterator1, Iterator2> >
{
typedef typename pure_traversal_tag<
typename iterator_traversal<Iterator1>::type
>::type iterator1_traversal;
typedef typename pure_traversal_tag<
typename iterator_traversal<Iterator2>::type
>::type iterator2_traversal;
typedef typename minimum_category<
iterator1_traversal
, typename minimum_category<
iterator2_traversal
, random_access_traversal_tag
>::type
>::type type;
};
///////////////////////////////////////////////////////////////////
//
// Class zip_iterator_base
//
// Builds and exposes the iterator facade type from which the zip
// iterator will be derived.
//
template<typename IteratorTuple>
struct zip_iterator_base
{
private:
// Reference type is the type of the tuple obtained from the
// iterators' reference types.
typedef typename
detail::tuple_of_references<IteratorTuple>::type reference;
// Value type is the same as reference type.
typedef reference value_type;
// Difference type is the first iterator's difference type
typedef typename iterator_difference<
typename mpl::at_c<IteratorTuple, 0>::type
>::type difference_type;
// Traversal catetgory is the minimum traversal category in the
// iterator tuple.
typedef typename
detail::minimum_traversal_category_in_iterator_tuple<
IteratorTuple
>::type traversal_category;
public:
// The iterator facade type from which the zip iterator will
// be derived.
typedef iterator_facade<
zip_iterator<IteratorTuple>,
value_type,
traversal_category,
reference,
difference_type
> type;
};
template <>
struct zip_iterator_base<int>
{
typedef int type;
};
template <typename reference>
struct converter
{
template <typename Seq>
static reference call(Seq seq)
{
typedef typename fusion::traits::tag_of<reference>::type tag;
return fusion::convert<tag>(seq);
}
};
template <typename Reference1, typename Reference2>
struct converter<std::pair<Reference1, Reference2> >
{
typedef std::pair<Reference1, Reference2> reference;
template <typename Seq>
static reference call(Seq seq)
{
return reference(
fusion::at_c<0>(seq)
, fusion::at_c<1>(seq));
}
};
}
/////////////////////////////////////////////////////////////////////
//
// zip_iterator class definition
//
template<typename IteratorTuple>
class zip_iterator :
public detail::zip_iterator_base<IteratorTuple>::type
{
// Typedef super_t as our base class.
typedef typename
detail::zip_iterator_base<IteratorTuple>::type super_t;
// iterator_core_access is the iterator's best friend.
friend class iterator_core_access;
public:
// Construction
// ============
// Default constructor
zip_iterator() { }
// Constructor from iterator tuple
zip_iterator(IteratorTuple iterator_tuple)
: m_iterator_tuple(iterator_tuple)
{ }
// Copy constructor
template<typename OtherIteratorTuple>
zip_iterator(
const zip_iterator<OtherIteratorTuple>& other,
typename enable_if_convertible<
OtherIteratorTuple,
IteratorTuple
>::type* = 0
) : m_iterator_tuple(other.get_iterator_tuple())
{}
// Get method for the iterator tuple.
const IteratorTuple& get_iterator_tuple() const
{ return m_iterator_tuple; }
private:
// Implementation of Iterator Operations
// =====================================
// Dereferencing returns a tuple built from the dereferenced
// iterators in the iterator tuple.
typename super_t::reference dereference() const
{
typedef typename super_t::reference reference;
typedef detail::converter<reference> gen;
return gen::call(fusion::transform(
get_iterator_tuple(),
detail::dereference_iterator()));
}
// Two zip iterators are equal if all iterators in the iterator
// tuple are equal. NOTE: It should be possible to implement this
// as
//
// return get_iterator_tuple() == other.get_iterator_tuple();
//
// but equality of tuples currently (7/2003) does not compile
// under several compilers. No point in bringing in a bunch
// of #ifdefs here.
//
template<typename OtherIteratorTuple>
bool equal(const zip_iterator<OtherIteratorTuple>& other) const
{
return fusion::equal_to(
get_iterator_tuple(),
other.get_iterator_tuple());
}
// Advancing a zip iterator means to advance all iterators in the
// iterator tuple.
void advance(typename super_t::difference_type n)
{
fusion::for_each(
m_iterator_tuple,
detail::advance_iterator<BOOST_DEDUCED_TYPENAME super_t::difference_type>(n));
}
// Incrementing a zip iterator means to increment all iterators in
// the iterator tuple.
void increment()
{
fusion::for_each(
m_iterator_tuple,
detail::increment_iterator());
}
// Decrementing a zip iterator means to decrement all iterators in
// the iterator tuple.
void decrement()
{
fusion::for_each(
m_iterator_tuple,
detail::decrement_iterator());
}
// Distance is calculated using the first iterator in the tuple.
template<typename OtherIteratorTuple>
typename super_t::difference_type distance_to(
const zip_iterator<OtherIteratorTuple>& other
) const
{
return fusion::at_c<0>(other.get_iterator_tuple()) -
fusion::at_c<0>(this->get_iterator_tuple());
}
// Data Members
// ============
// The iterator tuple.
IteratorTuple m_iterator_tuple;
};
// Make function for zip iterator
//
template<typename IteratorTuple>
inline zip_iterator<IteratorTuple>
make_zip_iterator(IteratorTuple t)
{ return zip_iterator<IteratorTuple>(t); }
} // namespace iterators
using iterators::zip_iterator;
using iterators::make_zip_iterator;
} // namespace boost
#endif
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