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utility/include/boost/next_prior.hpp
Andrey Semashev e25d85446e Use Boost.Iterator to advance iterators. 
By using Boost.Iterator we rely on the separate traversal category instead of
the standard iterator category to advance iterators efficiently. For instance,
this allows to advance transform iterators over a random access sequence
in constant time, despite that they are formally input iterators.

Also, std::reverse_iterator formally requires at least bidirectional iterator
as the underlying iterator type. Transform iterators from the example above
don't qualify, so potentially std::reverse_iterator could fail to compile.
2017-07-12 21:15:20 +03:00

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// Boost next_prior.hpp header file ---------------------------------------//
// (C) Copyright Dave Abrahams and Daniel Walker 1999-2003.
// Copyright (c) Andrey Semashev 2017
//
// 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)
// See http://www.boost.org/libs/utility for documentation.
// Revision History
// 13 Dec 2003 Added next(x, n) and prior(x, n) (Daniel Walker)
#ifndef BOOST_NEXT_PRIOR_HPP_INCLUDED
#define BOOST_NEXT_PRIOR_HPP_INCLUDED
#include <iterator>
#include <boost/config.hpp>
#include <boost/core/enable_if.hpp>
#include <boost/type_traits/has_plus.hpp>
#include <boost/type_traits/has_plus_assign.hpp>
#include <boost/type_traits/has_minus.hpp>
#include <boost/type_traits/has_minus_assign.hpp>
#include <boost/iterator/advance.hpp>
#include <boost/iterator/reverse_iterator.hpp>
namespace boost {
// Helper functions for classes like bidirectional iterators not supporting
// operator+ and operator-
//
// Usage:
// const std::list<T>::iterator p = get_some_iterator();
// const std::list<T>::iterator prev = boost::prior(p);
// const std::list<T>::iterator next = boost::next(prev, 2);
// Contributed by Dave Abrahams
namespace next_prior_detail {
// The trait attempts to detect if the T type is an iterator. Class-type iterators are assumed
// to have the nested type iterator_category. Strictly speaking, this is not required to be the
// case (e.g. a user can specialize iterator_traits for T without defining T::iterator_category).
// Still, this is a good heuristic in practice, and we can't do anything better anyway.
// Since C++17 we can test for iterator_traits<T>::iterator_category presence instead as it is
// required to be only present for iterators.
template< typename T, typename Void = void >
struct is_iterator
{
static BOOST_CONSTEXPR_OR_CONST bool value = false;
};
template< typename T >
struct is_iterator< T, typename enable_if_has_type< typename T::iterator_category >::type >
{
static BOOST_CONSTEXPR_OR_CONST bool value = true;
};
template< typename T >
struct is_iterator< T*, void >
{
static BOOST_CONSTEXPR_OR_CONST bool value = true;
};
template< typename T, typename Distance, bool HasPlus = has_plus< T, Distance >::value >
struct next_plus_impl;
template< typename T, typename Distance >
struct next_plus_impl< T, Distance, true >
{
static T call(T x, Distance n)
{
return x + n;
}
};
template< typename T, typename Distance, bool HasPlusAssign = has_plus_assign< T, Distance >::value >
struct next_plus_assign_impl :
public next_plus_impl< T, Distance >
{
};
template< typename T, typename Distance >
struct next_plus_assign_impl< T, Distance, true >
{
static T call(T x, Distance n)
{
x += n;
return x;
}
};
template< typename T, typename Distance, bool IsIterator = is_iterator< T >::value >
struct next_advance_impl :
public next_plus_assign_impl< T, Distance >
{
};
template< typename T, typename Distance >
struct next_advance_impl< T, Distance, true >
{
static T call(T x, Distance n)
{
boost::iterators::advance(x, n);
return x;
}
};
template< typename T, typename Distance, bool HasMinus = has_minus< T, Distance >::value >
struct prior_minus_impl;
template< typename T, typename Distance >
struct prior_minus_impl< T, Distance, true >
{
static T call(T x, Distance n)
{
return x - n;
}
};
template< typename T, typename Distance, bool HasMinusAssign = has_minus_assign< T, Distance >::value >
struct prior_minus_assign_impl :
public prior_minus_impl< T, Distance >
{
};
template< typename T, typename Distance >
struct prior_minus_assign_impl< T, Distance, true >
{
static T call(T x, Distance n)
{
x -= n;
return x;
}
};
template< typename T, typename Distance, bool IsIterator = is_iterator< T >::value >
struct prior_advance_impl :
public prior_minus_assign_impl< T, Distance >
{
};
template< typename T, typename Distance >
struct prior_advance_impl< T, Distance, true >
{
static T call(T x, Distance n)
{
// Avoid negating n to sidestep possible integer overflow
boost::iterators::reverse_iterator< T > rx(x);
boost::iterators::advance(rx, n);
return rx.base();
}
};
} // namespace next_prior_detail
template <class T>
inline T next(T x) { return ++x; }
template <class T, class Distance>
inline T next(T x, Distance n)
{
return next_prior_detail::next_advance_impl< T, Distance >::call(x, n);
}
template <class T>
inline T prior(T x) { return --x; }
template <class T, class Distance>
inline T prior(T x, Distance n)
{
return next_prior_detail::prior_advance_impl< T, Distance >::call(x, n);
}
} // namespace boost
#endif // BOOST_NEXT_PRIOR_HPP_INCLUDED
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