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371 lines
10 KiB
C++
371 lines
10 KiB
C++
// Copyright 2014 Neil Groves
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//
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// Copyright (c) 2010 Ilya Murav'jov
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//
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// Use, modification and distribution is subject to the Boost Software License,
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// Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
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// http://www.boost.org/LICENSE_1_0.txt)
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//
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// Credits:
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// My (Neil's) first indexed adaptor was hindered by having the underlying
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// iterator return the same reference as the wrapped iterator. This meant that
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// to obtain the index one had to get to the index_iterator and call the
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// index() function on it. Ilya politely pointed out that this was useless in
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// a number of scenarios since one naturally hides the use of iterators in
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// good range-based code. Ilya provided a new interface (which has remained)
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// and a first implementation. Much of this original implementation has
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// been simplified and now supports more compilers and platforms.
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//
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#ifndef BOOST_RANGE_ADAPTOR_INDEXED_HPP_INCLUDED
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#define BOOST_RANGE_ADAPTOR_INDEXED_HPP_INCLUDED
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#include <boost/range/config.hpp>
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#include <boost/range/adaptor/argument_fwd.hpp>
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#include <boost/range/iterator_range.hpp>
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#include <boost/range/traversal.hpp>
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#include <boost/range/size.hpp>
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#include <boost/range/begin.hpp>
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#include <boost/range/end.hpp>
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#include <boost/mpl/if.hpp>
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#include <boost/type_traits/is_convertible.hpp>
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#include <boost/iterator/iterator_traits.hpp>
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#include <boost/iterator/iterator_facade.hpp>
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#include <boost/tuple/tuple.hpp>
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namespace boost
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{
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namespace adaptors
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{
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struct indexed
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{
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explicit indexed(std::ptrdiff_t x = 0)
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: val(x)
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{
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}
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std::ptrdiff_t val;
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};
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} // namespace adaptors
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namespace range
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{
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// Why yet another "pair" class:
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// - std::pair can't store references
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// - no need for typing for index type (default to "std::ptrdiff_t"); this is
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// useful in BOOST_FOREACH() expressions that have pitfalls with commas
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// ( see http://www.boost.org/doc/libs/1_44_0/doc/html/foreach/pitfalls.html )
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// - meaningful access functions index(), value()
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template<class T, class Indexable = std::ptrdiff_t>
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class index_value
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: public tuple<Indexable, T>
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{
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typedef tuple<Indexable, T> base_t;
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template<int N>
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struct iv_types
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{
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typedef typename tuples::element<N, base_t>::type n_type;
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typedef typename tuples::access_traits<n_type>::non_const_type non_const_type;
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typedef typename tuples::access_traits<n_type>::const_type const_type;
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};
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public:
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typedef typename iv_types<0>::non_const_type index_type;
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typedef typename iv_types<0>::const_type const_index_type;
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typedef typename iv_types<1>::non_const_type value_type;
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typedef typename iv_types<1>::const_type const_value_type;
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index_value()
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{
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}
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index_value(typename tuples::access_traits<Indexable>::parameter_type t0,
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typename tuples::access_traits<T>::parameter_type t1)
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: base_t(t0, t1)
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{
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}
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// member functions index(), value() (non-const and const)
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index_type index()
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{
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return boost::tuples::get<0>(*this);
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}
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const_index_type index() const
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{
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return boost::tuples::get<0>(*this);
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}
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value_type value()
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{
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return boost::tuples::get<1>(*this);
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}
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const_value_type value() const
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{
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return boost::tuples::get<1>(*this);
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}
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};
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} // namespace range
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namespace range_detail
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{
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template<typename Iter>
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struct indexed_iterator_value_type
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{
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typedef ::boost::range::index_value<
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typename iterator_reference<Iter>::type,
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typename iterator_difference<Iter>::type
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> type;
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};
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// Meta-function to get the traversal for the range and therefore iterator
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// returned by the indexed adaptor for a specified iterator type.
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//
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// Random access -> Random access
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// Bidirectional -> Forward
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// Forward -> Forward
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// SinglePass -> SinglePass
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//
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// The rationale for demoting a Bidirectional input to Forward is that the end
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// iterator cannot cheaply have an index computed for it. Therefore I chose to
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// demote to forward traversal. I can maintain the ability to traverse randomly
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// when the input is Random Access since the index for the end iterator is cheap
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// to compute.
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template<typename Iter>
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struct indexed_traversal
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{
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private:
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typedef typename iterator_traversal<Iter>::type wrapped_traversal;
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public:
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typedef typename mpl::if_<
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is_convertible<wrapped_traversal, random_access_traversal_tag>,
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random_access_traversal_tag,
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typename mpl::if_<
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is_convertible<wrapped_traversal, bidirectional_traversal_tag>,
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forward_traversal_tag,
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wrapped_traversal
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>::type
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>::type type;
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};
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template<typename Iter>
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class indexed_iterator
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: public iterator_facade<
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indexed_iterator<Iter>,
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typename indexed_iterator_value_type<Iter>::type,
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typename indexed_traversal<Iter>::type,
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typename indexed_iterator_value_type<Iter>::type,
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typename iterator_difference<Iter>::type
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>
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{
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public:
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typedef Iter wrapped;
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private:
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typedef iterator_facade<
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indexed_iterator<wrapped>,
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typename indexed_iterator_value_type<wrapped>::type,
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typename indexed_traversal<wrapped>::type,
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typename indexed_iterator_value_type<wrapped>::type,
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typename iterator_difference<wrapped>::type
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> base_t;
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public:
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typedef typename base_t::difference_type difference_type;
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typedef typename base_t::reference reference;
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typedef typename base_t::difference_type index_type;
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indexed_iterator()
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: m_it()
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, m_index()
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{
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}
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template<typename OtherWrapped>
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indexed_iterator(
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const indexed_iterator<OtherWrapped>& other,
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typename enable_if<is_convertible<OtherWrapped, wrapped> >::type* = 0
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)
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: m_it(other.get())
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, m_index(other.get_index())
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{
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}
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explicit indexed_iterator(wrapped it, index_type index)
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: m_it(it)
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, m_index(index)
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{
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}
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wrapped get() const
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{
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return m_it;
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}
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index_type get_index() const
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{
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return m_index;
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}
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private:
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friend class boost::iterator_core_access;
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reference dereference() const
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{
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return reference(m_index, *m_it);
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}
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bool equal(const indexed_iterator& other) const
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{
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return m_it == other.m_it;
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}
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void increment()
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{
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++m_index;
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++m_it;
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}
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void decrement()
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{
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BOOST_ASSERT_MSG(m_index > 0, "indexed Iterator out of bounds");
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--m_index;
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--m_it;
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}
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void advance(index_type n)
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{
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m_index += n;
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BOOST_ASSERT_MSG(m_index >= 0, "indexed Iterator out of bounds");
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m_it += n;
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}
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difference_type distance_to(const indexed_iterator& other) const
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{
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return other.m_it - m_it;
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}
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wrapped m_it;
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index_type m_index;
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};
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template<typename SinglePassRange>
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struct indexed_range
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: iterator_range<
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indexed_iterator<
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typename range_iterator<SinglePassRange>::type
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>
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>
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{
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typedef iterator_range<
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indexed_iterator<
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typename range_iterator<SinglePassRange>::type
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>
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> base_t;
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BOOST_RANGE_CONCEPT_ASSERT((
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boost::SinglePassRangeConcept<SinglePassRange>));
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public:
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typedef indexed_iterator<
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typename range_iterator<SinglePassRange>::type
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> iterator;
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// Constructor for non-random access iterators.
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// This sets the end iterator index to i despite this being incorrect it
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// is never observable since bidirectional iterators are demoted to
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// forward iterators.
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indexed_range(
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typename base_t::difference_type i,
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SinglePassRange& r,
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single_pass_traversal_tag
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)
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: base_t(iterator(boost::begin(r), i),
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iterator(boost::end(r), i))
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{
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}
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indexed_range(
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typename base_t::difference_type i,
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SinglePassRange& r,
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random_access_traversal_tag
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)
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: base_t(iterator(boost::begin(r), i),
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iterator(boost::end(r), i + boost::size(r)))
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{
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}
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};
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} // namespace range_detail
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using range_detail::indexed_range;
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namespace adaptors
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{
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template<class SinglePassRange>
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inline indexed_range<SinglePassRange>
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operator|(SinglePassRange& r, indexed e)
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{
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BOOST_RANGE_CONCEPT_ASSERT((
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boost::SinglePassRangeConcept<SinglePassRange>
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));
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return indexed_range<SinglePassRange>(
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e.val, r,
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typename range_traversal<SinglePassRange>::type());
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}
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template<class SinglePassRange>
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inline indexed_range<const SinglePassRange>
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operator|(const SinglePassRange& r, indexed e)
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{
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BOOST_RANGE_CONCEPT_ASSERT((
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boost::SinglePassRangeConcept<const SinglePassRange>
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));
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return indexed_range<const SinglePassRange>(
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e.val, r,
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typename range_traversal<const SinglePassRange>::type());
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}
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template<class SinglePassRange>
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inline indexed_range<SinglePassRange>
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index(
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SinglePassRange& rng,
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typename range_difference<SinglePassRange>::type index_value = 0)
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{
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BOOST_RANGE_CONCEPT_ASSERT((
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boost::SinglePassRangeConcept<SinglePassRange>
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));
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return indexed_range<SinglePassRange>(
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index_value, rng,
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typename range_traversal<SinglePassRange>::type());
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}
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template<class SinglePassRange>
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inline indexed_range<const SinglePassRange>
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index(
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const SinglePassRange& rng,
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typename range_difference<const SinglePassRange>::type index_value = 0)
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{
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BOOST_RANGE_CONCEPT_ASSERT((
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boost::SinglePassRangeConcept<SinglePassRange>
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));
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return indexed_range<const SinglePassRange>(
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index_value, rng,
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typename range_traversal<const SinglePassRange>::type());
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}
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} // namespace adaptors
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} // namespace boost
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#endif // include guard
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