boost/boost/next_prior.hpp - nest-cam/4320010/boost - Git at Google

 //  Boost next_prior.hpp header file  ---------------------------------------//

 //  (C) Copyright Dave Abrahams and Daniel Walker 1999-2003. 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>
 #if defined(_MSC_VER) && _MSC_VER <= 1310
 #include <boost/mpl/and.hpp>
 #include <boost/type_traits/is_integral.hpp>
 #endif
 #include <boost/type_traits/is_unsigned.hpp>
 #include <boost/type_traits/integral_promotion.hpp>
 #include <boost/type_traits/make_signed.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>

 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 {

 template< typename T, typename Distance, bool HasPlus = has_plus< T, Distance >::value >
 struct next_impl2
 {
     static T call(T x, Distance n)
     {
         std::advance(x, n);
         return x;
     }
 };

 template< typename T, typename Distance >
 struct next_impl2< 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_impl1 :
     public next_impl2< T, Distance >
 {
 };

 template< typename T, typename Distance >
 struct next_impl1< T, Distance, true >
 {
     static T call(T x, Distance n)
     {
         x += n;
         return x;
     }
 };


 template<
     typename T,
     typename Distance,
     typename PromotedDistance = typename integral_promotion< Distance >::type,
 #if !defined(_MSC_VER) || _MSC_VER > 1310
     bool IsUInt = is_unsigned< PromotedDistance >::value
 #else
     // MSVC 7.1 has problems with applying is_unsigned to non-integral types
     bool IsUInt = mpl::and_< is_integral< PromotedDistance >, is_unsigned< PromotedDistance > >::value
 #endif
 >
 struct prior_impl3
 {
     static T call(T x, Distance n)
     {
         std::advance(x, -n);
         return x;
     }
 };

 template< typename T, typename Distance, typename PromotedDistance >
 struct prior_impl3< T, Distance, PromotedDistance, true >
 {
     static T call(T x, Distance n)
     {
         typedef typename make_signed< PromotedDistance >::type signed_distance;
         std::advance(x, -static_cast< signed_distance >(static_cast< PromotedDistance >(n)));
         return x;
     }
 };


 template< typename T, typename Distance, bool HasMinus = has_minus< T, Distance >::value >
 struct prior_impl2 :
     public prior_impl3< T, Distance >
 {
 };

 template< typename T, typename Distance >
 struct prior_impl2< 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_impl1 :
     public prior_impl2< T, Distance >
 {
 };

 template< typename T, typename Distance >
 struct prior_impl1< T, Distance, true >
 {
     static T call(T x, Distance n)
     {
         x -= n;
         return x;
     }
 };

 } // 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_impl1< 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_impl1< T, Distance >::call(x, n);
 }

 } // namespace boost

 #endif  // BOOST_NEXT_PRIOR_HPP_INCLUDED
	// Boost next_prior.hpp header file ---------------------------------------//

	// (C) Copyright Dave Abrahams and Daniel Walker 1999-2003. 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>
	#if defined(_MSC_VER) && _MSC_VER <= 1310
	#include <boost/mpl/and.hpp>
	#include <boost/type_traits/is_integral.hpp>
	#endif
	#include <boost/type_traits/is_unsigned.hpp>
	#include <boost/type_traits/integral_promotion.hpp>
	#include <boost/type_traits/make_signed.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>

	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 {

	template< typename T, typename Distance, bool HasPlus = has_plus< T, Distance >::value >
	struct next_impl2
	{
	static T call(T x, Distance n)
	{
	std::advance(x, n);
	return x;
	}
	};

	template< typename T, typename Distance >
	struct next_impl2< 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_impl1 :
	public next_impl2< T, Distance >
	{
	};

	template< typename T, typename Distance >
	struct next_impl1< T, Distance, true >
	{
	static T call(T x, Distance n)
	{
	x += n;
	return x;
	}
	};


	template<
	typename T,
	typename Distance,
	typename PromotedDistance = typename integral_promotion< Distance >::type,
	#if !defined(_MSC_VER) \|\| _MSC_VER > 1310
	bool IsUInt = is_unsigned< PromotedDistance >::value
	#else
	// MSVC 7.1 has problems with applying is_unsigned to non-integral types
	bool IsUInt = mpl::and_< is_integral< PromotedDistance >, is_unsigned< PromotedDistance > >::value
	#endif
	>
	struct prior_impl3
	{
	static T call(T x, Distance n)
	{
	std::advance(x, -n);
	return x;
	}
	};

	template< typename T, typename Distance, typename PromotedDistance >
	struct prior_impl3< T, Distance, PromotedDistance, true >
	{
	static T call(T x, Distance n)
	{
	typedef typename make_signed< PromotedDistance >::type signed_distance;
	std::advance(x, -static_cast< signed_distance >(static_cast< PromotedDistance >(n)));
	return x;
	}
	};


	template< typename T, typename Distance, bool HasMinus = has_minus< T, Distance >::value >
	struct prior_impl2 :
	public prior_impl3< T, Distance >
	{
	};

	template< typename T, typename Distance >
	struct prior_impl2< 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_impl1 :
	public prior_impl2< T, Distance >
	{
	};

	template< typename T, typename Distance >
	struct prior_impl1< T, Distance, true >
	{
	static T call(T x, Distance n)
	{
	x -= n;
	return x;
	}
	};

	} // 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_impl1< 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_impl1< T, Distance >::call(x, n);
	}

	} // namespace boost

	#endif // BOOST_NEXT_PRIOR_HPP_INCLUDED