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359 lines
11 KiB
C++
359 lines
11 KiB
C++
// (C) Copyright David Abrahams 2002.
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// (C) Copyright Jeremy Siek 2002.
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// (C) Copyright Thomas Witt 2002.
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// Distributed under the Boost Software License, Version 1.0. (See
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// 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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#ifndef BOOST_ITERATOR_ADAPTOR_23022003THW_HPP
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#define BOOST_ITERATOR_ADAPTOR_23022003THW_HPP
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#include <boost/static_assert.hpp>
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#include <boost/iterator/iterator_categories.hpp>
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#include <boost/iterator/iterator_facade.hpp>
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#include <boost/iterator/detail/enable_if.hpp>
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#include <boost/mpl/and.hpp>
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#include <boost/mpl/not.hpp>
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#include <boost/mpl/or.hpp>
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#include <boost/type_traits/is_same.hpp>
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#include <boost/type_traits/is_convertible.hpp>
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#ifdef BOOST_ITERATOR_REF_CONSTNESS_KILLS_WRITABILITY
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# include <boost/type_traits/remove_reference.hpp>
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#endif
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#include <boost/type_traits/add_reference.hpp>
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#include <boost/iterator/detail/config_def.hpp>
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#include <boost/iterator/iterator_traits.hpp>
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namespace boost {
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namespace iterators {
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// Used as a default template argument internally, merely to
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// indicate "use the default", this can also be passed by users
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// explicitly in order to specify that the default should be used.
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struct use_default;
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} // namespace iterators
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using iterators::use_default;
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// the incompleteness of use_default causes massive problems for
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// is_convertible (naturally). This workaround is fortunately not
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// needed for vc6/vc7.
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template<class To>
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struct is_convertible<use_default,To>
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: mpl::false_ {};
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namespace iterators {
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namespace detail
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{
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//
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// Result type used in enable_if_convertible meta function.
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// This can be an incomplete type, as only pointers to
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// enable_if_convertible< ... >::type are used.
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// We could have used void for this, but conversion to
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// void* is just to easy.
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//
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struct enable_type;
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}
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//
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// enable_if for use in adapted iterators constructors.
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//
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// In order to provide interoperability between adapted constant and
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// mutable iterators, adapted iterators will usually provide templated
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// conversion constructors of the following form
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//
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// template <class BaseIterator>
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// class adapted_iterator :
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// public iterator_adaptor< adapted_iterator<Iterator>, Iterator >
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// {
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// public:
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//
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// ...
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//
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// template <class OtherIterator>
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// adapted_iterator(
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// OtherIterator const& it
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// , typename enable_if_convertible<OtherIterator, Iterator>::type* = 0);
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//
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// ...
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// };
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//
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// enable_if_convertible is used to remove those overloads from the overload
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// set that cannot be instantiated. For all practical purposes only overloads
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// for constant/mutable interaction will remain. This has the advantage that
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// meta functions like boost::is_convertible do not return false positives,
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// as they can only look at the signature of the conversion constructor
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// and not at the actual instantiation.
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//
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// enable_if_interoperable can be safely used in user code. It falls back to
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// always enabled for compilers that don't support enable_if or is_convertible.
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// There is no need for compiler specific workarounds in user code.
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//
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// The operators implementation relies on boost::is_convertible not returning
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// false positives for user/library defined iterator types. See comments
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// on operator implementation for consequences.
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//
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# if defined(BOOST_NO_IS_CONVERTIBLE) || defined(BOOST_NO_SFINAE)
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template <class From, class To>
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struct enable_if_convertible
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{
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typedef boost::iterators::detail::enable_type type;
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};
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# elif BOOST_WORKAROUND(_MSC_FULL_VER, BOOST_TESTED_AT(13102292))
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// For some reason vc7.1 needs us to "cut off" instantiation
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// of is_convertible in a few cases.
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template<typename From, typename To>
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struct enable_if_convertible
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: iterators::enable_if<
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mpl::or_<
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is_same<From,To>
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, is_convertible<From, To>
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>
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, boost::iterators::detail::enable_type
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>
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{};
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# else
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template<typename From, typename To>
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struct enable_if_convertible
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: iterators::enable_if<
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is_convertible<From, To>
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, boost::iterators::detail::enable_type
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>
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{};
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# endif
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//
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// Default template argument handling for iterator_adaptor
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//
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namespace detail
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{
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// If T is use_default, return the result of invoking
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// DefaultNullaryFn, otherwise return T.
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template <class T, class DefaultNullaryFn>
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struct ia_dflt_help
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: mpl::eval_if<
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is_same<T, use_default>
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, DefaultNullaryFn
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, mpl::identity<T>
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>
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{
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};
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// A metafunction which computes an iterator_adaptor's base class,
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// a specialization of iterator_facade.
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template <
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class Derived
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, class Base
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, class Value
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, class Traversal
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, class Reference
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, class Difference
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>
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struct iterator_adaptor_base
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{
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typedef iterator_facade<
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Derived
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# ifdef BOOST_ITERATOR_REF_CONSTNESS_KILLS_WRITABILITY
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, typename boost::iterators::detail::ia_dflt_help<
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Value
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, mpl::eval_if<
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is_same<Reference,use_default>
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, iterator_value<Base>
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, remove_reference<Reference>
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>
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>::type
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# else
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, typename boost::iterators::detail::ia_dflt_help<
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Value, iterator_value<Base>
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>::type
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# endif
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, typename boost::iterators::detail::ia_dflt_help<
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Traversal
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, iterator_traversal<Base>
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>::type
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, typename boost::iterators::detail::ia_dflt_help<
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Reference
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, mpl::eval_if<
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is_same<Value,use_default>
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, iterator_reference<Base>
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, add_reference<Value>
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>
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>::type
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, typename boost::iterators::detail::ia_dflt_help<
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Difference, iterator_difference<Base>
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>::type
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>
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type;
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};
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// workaround for aC++ CR JAGaf33512
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template <class Tr1, class Tr2>
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inline void iterator_adaptor_assert_traversal ()
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{
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BOOST_STATIC_ASSERT((is_convertible<Tr1, Tr2>::value));
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}
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}
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//
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// Iterator Adaptor
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//
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// The parameter ordering changed slightly with respect to former
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// versions of iterator_adaptor The idea is that when the user needs
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// to fiddle with the reference type it is highly likely that the
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// iterator category has to be adjusted as well. Any of the
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// following four template arguments may be ommitted or explicitly
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// replaced by use_default.
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//
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// Value - if supplied, the value_type of the resulting iterator, unless
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// const. If const, a conforming compiler strips constness for the
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// value_type. If not supplied, iterator_traits<Base>::value_type is used
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//
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// Category - the traversal category of the resulting iterator. If not
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// supplied, iterator_traversal<Base>::type is used.
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//
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// Reference - the reference type of the resulting iterator, and in
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// particular, the result type of operator*(). If not supplied but
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// Value is supplied, Value& is used. Otherwise
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// iterator_traits<Base>::reference is used.
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//
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// Difference - the difference_type of the resulting iterator. If not
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// supplied, iterator_traits<Base>::difference_type is used.
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//
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template <
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class Derived
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, class Base
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, class Value = use_default
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, class Traversal = use_default
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, class Reference = use_default
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, class Difference = use_default
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>
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class iterator_adaptor
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: public boost::iterators::detail::iterator_adaptor_base<
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Derived, Base, Value, Traversal, Reference, Difference
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>::type
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{
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friend class iterator_core_access;
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protected:
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typedef typename boost::iterators::detail::iterator_adaptor_base<
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Derived, Base, Value, Traversal, Reference, Difference
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>::type super_t;
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public:
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iterator_adaptor() {}
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explicit iterator_adaptor(Base const &iter)
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: m_iterator(iter)
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{
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}
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typedef Base base_type;
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Base const& base() const
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{ return m_iterator; }
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protected:
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// for convenience in derived classes
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typedef iterator_adaptor<Derived,Base,Value,Traversal,Reference,Difference> iterator_adaptor_;
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//
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// lvalue access to the Base object for Derived
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//
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Base const& base_reference() const
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{ return m_iterator; }
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Base& base_reference()
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{ return m_iterator; }
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private:
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//
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// Core iterator interface for iterator_facade. This is private
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// to prevent temptation for Derived classes to use it, which
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// will often result in an error. Derived classes should use
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// base_reference(), above, to get direct access to m_iterator.
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//
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typename super_t::reference dereference() const
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{ return *m_iterator; }
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template <
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class OtherDerived, class OtherIterator, class V, class C, class R, class D
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>
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bool equal(iterator_adaptor<OtherDerived, OtherIterator, V, C, R, D> const& x) const
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{
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// Maybe readd with same_distance
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// BOOST_STATIC_ASSERT(
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// (detail::same_category_and_difference<Derived,OtherDerived>::value)
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// );
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return m_iterator == x.base();
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}
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typedef typename iterator_category_to_traversal<
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typename super_t::iterator_category
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>::type my_traversal;
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# define BOOST_ITERATOR_ADAPTOR_ASSERT_TRAVERSAL(cat) \
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boost::iterators::detail::iterator_adaptor_assert_traversal<my_traversal, cat>();
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void advance(typename super_t::difference_type n)
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{
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BOOST_ITERATOR_ADAPTOR_ASSERT_TRAVERSAL(random_access_traversal_tag)
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m_iterator += n;
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}
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void increment() { ++m_iterator; }
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void decrement()
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{
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BOOST_ITERATOR_ADAPTOR_ASSERT_TRAVERSAL(bidirectional_traversal_tag)
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--m_iterator;
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}
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template <
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class OtherDerived, class OtherIterator, class V, class C, class R, class D
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>
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typename super_t::difference_type distance_to(
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iterator_adaptor<OtherDerived, OtherIterator, V, C, R, D> const& y) const
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{
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BOOST_ITERATOR_ADAPTOR_ASSERT_TRAVERSAL(random_access_traversal_tag)
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// Maybe readd with same_distance
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// BOOST_STATIC_ASSERT(
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// (detail::same_category_and_difference<Derived,OtherDerived>::value)
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// );
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return y.base() - m_iterator;
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}
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# undef BOOST_ITERATOR_ADAPTOR_ASSERT_TRAVERSAL
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private: // data members
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Base m_iterator;
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};
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} // namespace iterators
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using iterators::iterator_adaptor;
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using iterators::enable_if_convertible;
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} // namespace boost
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#include <boost/iterator/detail/config_undef.hpp>
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#endif // BOOST_ITERATOR_ADAPTOR_23022003THW_HPP
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