third_party/boost/include/boost/icl/discrete_interval.hpp - webm/webmlive - Git at Google

 /*-----------------------------------------------------------------------------+
 Copyright (c) 2010-2010: Joachim Faulhaber
 +------------------------------------------------------------------------------+
    Distributed under the Boost Software License, Version 1.0.
       (See accompanying file LICENCE.txt or copy at
            http://www.boost.org/LICENSE_1_0.txt)
 +-----------------------------------------------------------------------------*/
 #ifndef BOOST_ICL_DISCRETE_INTERVAL_HPP_JOFA_100403
 #define BOOST_ICL_DISCRETE_INTERVAL_HPP_JOFA_100403

 #include <functional>
 #include <boost/static_assert.hpp>
 #include <boost/concept/assert.hpp>
 #include <boost/icl/detail/concept_check.hpp>
 #include <boost/icl/type_traits/succ_pred.hpp>
 #include <boost/icl/concept/interval.hpp>
 #include <boost/icl/type_traits/value_size.hpp>
 #include <boost/icl/type_traits/type_to_string.hpp>
 #include <boost/icl/type_traits/is_continuous.hpp>
 #include <boost/icl/type_traits/is_discrete_interval.hpp>
 #include <boost/icl/interval_bounds.hpp>

 namespace boost{namespace icl
 {

 template <class DomainT,
           ICL_COMPARE Compare = ICL_COMPARE_INSTANCE(std::less, DomainT)>
 class discrete_interval
 {
 public:
     typedef discrete_interval<DomainT,Compare> type;
     typedef DomainT domain_type;
     typedef typename bounded_value<DomainT>::type bounded_domain_type;

 public:
     //==========================================================================
     //= Construct, copy, destruct
     //==========================================================================
     /** Default constructor; yields an empty interval <tt>[0,0)</tt>. */
     discrete_interval()
         : _lwb(identity_element<DomainT>::value()), _upb(identity_element<DomainT>::value())
         , _bounds(interval_bounds::right_open())
     {
         BOOST_CONCEPT_ASSERT((DefaultConstructibleConcept<DomainT>));
         BOOST_CONCEPT_ASSERT((LessThanComparableConcept<DomainT>));
         BOOST_STATIC_ASSERT((icl::is_discrete<DomainT>::value));
     }

     //NOTE: Compiler generated copy constructor is used

     /** Constructor for a closed singleton interval <tt>[val,val]</tt> */
     explicit discrete_interval(const DomainT& val)
         : _lwb(val), _upb(val), _bounds(interval_bounds::closed())
     {
         BOOST_CONCEPT_ASSERT((DefaultConstructibleConcept<DomainT>));
         BOOST_CONCEPT_ASSERT((LessThanComparableConcept<DomainT>));
         BOOST_STATIC_ASSERT((icl::is_discrete<DomainT>::value));
     }

     /** Interval from <tt>low</tt> to <tt>up</tt> with bounds <tt>bounds</tt> */
     discrete_interval(const DomainT& low, const DomainT& up,
                       interval_bounds bounds = interval_bounds::right_open(),
                       discrete_interval* = 0)
         : _lwb(low), _upb(up), _bounds(bounds)
     {
         BOOST_CONCEPT_ASSERT((DefaultConstructibleConcept<DomainT>));
         BOOST_CONCEPT_ASSERT((LessThanComparableConcept<DomainT>));
         BOOST_STATIC_ASSERT((icl::is_discrete<DomainT>::value));
     }

     domain_type     lower()const { return _lwb; }
     domain_type     upper()const { return _upb; }
     interval_bounds bounds()const{ return _bounds; }

     static discrete_interval open     (const DomainT& lo, const DomainT& up){ return discrete_interval(lo, up, interval_bounds::open());      }
     static discrete_interval right_open(const DomainT& lo, const DomainT& up){ return discrete_interval(lo, up, interval_bounds::right_open());}
     static discrete_interval left_open (const DomainT& lo, const DomainT& up){ return discrete_interval(lo, up, interval_bounds::left_open()); }
     static discrete_interval closed   (const DomainT& lo, const DomainT& up){ return discrete_interval(lo, up, interval_bounds::closed());    }

 private:
     domain_type     _lwb;
     domain_type     _upb;
     interval_bounds _bounds;
 };

 //==============================================================================
 //=T discrete_interval -> concept intervals
 //==============================================================================
 template<class DomainT, ICL_COMPARE Compare>
 struct interval_traits< icl::discrete_interval<DomainT, Compare> >
 {
     typedef interval_traits type;
     typedef DomainT domain_type;
     typedef ICL_COMPARE_DOMAIN(Compare,DomainT) domain_compare;
     typedef icl::discrete_interval<DomainT, Compare> interval_type;

     static interval_type construct(const domain_type& lo, const domain_type& up)
     {
         return interval_type(lo, up);
     }

     static domain_type lower(const interval_type& inter_val){ return inter_val.lower(); };
     static domain_type upper(const interval_type& inter_val){ return inter_val.upper(); };
 };

 //==============================================================================
 //=T discrete_interval -> concept dynamic_interval_traits
 //==============================================================================
 template<class DomainT, ICL_COMPARE Compare>
 struct dynamic_interval_traits<boost::icl::discrete_interval<DomainT,Compare> >
 {
     typedef dynamic_interval_traits type;
     typedef boost::icl::discrete_interval<DomainT,Compare> interval_type;
     typedef DomainT domain_type;
     typedef ICL_COMPARE_DOMAIN(Compare,DomainT) domain_compare;

     static interval_type construct(const domain_type& lo, const domain_type& up, interval_bounds bounds)
     {
         return interval_type(lo, up, bounds, static_cast<interval_type*>(0) );
     }

     static interval_type construct_bounded(const bounded_value<DomainT>& lo,
                                            const bounded_value<DomainT>& up)
     {
         return  interval_type
                 (
                     lo.value(), up.value(),
                     lo.bound().left() | up.bound().right(),
                     static_cast<interval_type* >(0)
                 );
     }
 };

 //==============================================================================
 //= Type traits
 //==============================================================================
 template <class DomainT, ICL_COMPARE Compare>
 struct interval_bound_type< discrete_interval<DomainT,Compare> >
 {
     typedef interval_bound_type type;
     BOOST_STATIC_CONSTANT(bound_type, value = interval_bounds::dynamic);
 };

 template <class DomainT, ICL_COMPARE Compare>
 struct is_discrete_interval<discrete_interval<DomainT,Compare> >
 {
     typedef is_discrete_interval<discrete_interval<DomainT,Compare> > type;
     BOOST_STATIC_CONSTANT(bool, value = is_discrete<DomainT>::value);
 };

 template <class DomainT, ICL_COMPARE Compare>
 struct type_to_string<icl::discrete_interval<DomainT,Compare> >
 {
     static std::string apply()
     { return "dI<"+ type_to_string<DomainT>::apply() +">"; }
 };

 template<class DomainT>
 struct value_size<icl::discrete_interval<DomainT> >
 {
     static std::size_t apply(const icl::discrete_interval<DomainT>& value)
     { return 2; }
 };

 }} // namespace icl boost

 #endif
	/*-----------------------------------------------------------------------------+
	Copyright (c) 2010-2010: Joachim Faulhaber
	+------------------------------------------------------------------------------+
	Distributed under the Boost Software License, Version 1.0.
	(See accompanying file LICENCE.txt or copy at
	http://www.boost.org/LICENSE_1_0.txt)
	+-----------------------------------------------------------------------------*/
	#ifndef BOOST_ICL_DISCRETE_INTERVAL_HPP_JOFA_100403
	#define BOOST_ICL_DISCRETE_INTERVAL_HPP_JOFA_100403

	#include <functional>
	#include <boost/static_assert.hpp>
	#include <boost/concept/assert.hpp>
	#include <boost/icl/detail/concept_check.hpp>
	#include <boost/icl/type_traits/succ_pred.hpp>
	#include <boost/icl/concept/interval.hpp>
	#include <boost/icl/type_traits/value_size.hpp>
	#include <boost/icl/type_traits/type_to_string.hpp>
	#include <boost/icl/type_traits/is_continuous.hpp>
	#include <boost/icl/type_traits/is_discrete_interval.hpp>
	#include <boost/icl/interval_bounds.hpp>

	namespace boost{namespace icl
	{

	template <class DomainT,
	ICL_COMPARE Compare = ICL_COMPARE_INSTANCE(std::less, DomainT)>
	class discrete_interval
	{
	public:
	typedef discrete_interval<DomainT,Compare> type;
	typedef DomainT domain_type;
	typedef typename bounded_value<DomainT>::type bounded_domain_type;

	public:
	//==========================================================================
	//= Construct, copy, destruct
	//==========================================================================
	/** Default constructor; yields an empty interval <tt>[0,0)</tt>. */
	discrete_interval()
	: _lwb(identity_element<DomainT>::value()), _upb(identity_element<DomainT>::value())
	, _bounds(interval_bounds::right_open())
	{
	BOOST_CONCEPT_ASSERT((DefaultConstructibleConcept<DomainT>));
	BOOST_CONCEPT_ASSERT((LessThanComparableConcept<DomainT>));
	BOOST_STATIC_ASSERT((icl::is_discrete<DomainT>::value));
	}

	//NOTE: Compiler generated copy constructor is used

	/** Constructor for a closed singleton interval <tt>[val,val]</tt> */
	explicit discrete_interval(const DomainT& val)
	: _lwb(val), _upb(val), _bounds(interval_bounds::closed())
	{
	BOOST_CONCEPT_ASSERT((DefaultConstructibleConcept<DomainT>));
	BOOST_CONCEPT_ASSERT((LessThanComparableConcept<DomainT>));
	BOOST_STATIC_ASSERT((icl::is_discrete<DomainT>::value));
	}

	/** Interval from <tt>low</tt> to <tt>up</tt> with bounds <tt>bounds</tt> */
	discrete_interval(const DomainT& low, const DomainT& up,
	interval_bounds bounds = interval_bounds::right_open(),
	discrete_interval* = 0)
	: _lwb(low), _upb(up), _bounds(bounds)
	{
	BOOST_CONCEPT_ASSERT((DefaultConstructibleConcept<DomainT>));
	BOOST_CONCEPT_ASSERT((LessThanComparableConcept<DomainT>));
	BOOST_STATIC_ASSERT((icl::is_discrete<DomainT>::value));
	}

	domain_type lower()const { return _lwb; }
	domain_type upper()const { return _upb; }
	interval_bounds bounds()const{ return _bounds; }

	static discrete_interval open (const DomainT& lo, const DomainT& up){ return discrete_interval(lo, up, interval_bounds::open()); }
	static discrete_interval right_open(const DomainT& lo, const DomainT& up){ return discrete_interval(lo, up, interval_bounds::right_open());}
	static discrete_interval left_open (const DomainT& lo, const DomainT& up){ return discrete_interval(lo, up, interval_bounds::left_open()); }
	static discrete_interval closed (const DomainT& lo, const DomainT& up){ return discrete_interval(lo, up, interval_bounds::closed()); }

	private:
	domain_type _lwb;
	domain_type _upb;
	interval_bounds _bounds;
	};

	//==============================================================================
	//=T discrete_interval -> concept intervals
	//==============================================================================
	template<class DomainT, ICL_COMPARE Compare>
	struct interval_traits< icl::discrete_interval<DomainT, Compare> >
	{
	typedef interval_traits type;
	typedef DomainT domain_type;
	typedef ICL_COMPARE_DOMAIN(Compare,DomainT) domain_compare;
	typedef icl::discrete_interval<DomainT, Compare> interval_type;

	static interval_type construct(const domain_type& lo, const domain_type& up)
	{
	return interval_type(lo, up);
	}

	static domain_type lower(const interval_type& inter_val){ return inter_val.lower(); };
	static domain_type upper(const interval_type& inter_val){ return inter_val.upper(); };
	};

	//==============================================================================
	//=T discrete_interval -> concept dynamic_interval_traits
	//==============================================================================
	template<class DomainT, ICL_COMPARE Compare>
	struct dynamic_interval_traits<boost::icl::discrete_interval<DomainT,Compare> >
	{
	typedef dynamic_interval_traits type;
	typedef boost::icl::discrete_interval<DomainT,Compare> interval_type;
	typedef DomainT domain_type;
	typedef ICL_COMPARE_DOMAIN(Compare,DomainT) domain_compare;

	static interval_type construct(const domain_type& lo, const domain_type& up, interval_bounds bounds)
	{
	return interval_type(lo, up, bounds, static_cast<interval_type*>(0) );
	}

	static interval_type construct_bounded(const bounded_value<DomainT>& lo,
	const bounded_value<DomainT>& up)
	{
	return interval_type
	(
	lo.value(), up.value(),
	lo.bound().left() \| up.bound().right(),
	static_cast<interval_type* >(0)
	);
	}
	};

	//==============================================================================
	//= Type traits
	//==============================================================================
	template <class DomainT, ICL_COMPARE Compare>
	struct interval_bound_type< discrete_interval<DomainT,Compare> >
	{
	typedef interval_bound_type type;
	BOOST_STATIC_CONSTANT(bound_type, value = interval_bounds::dynamic);
	};

	template <class DomainT, ICL_COMPARE Compare>
	struct is_discrete_interval<discrete_interval<DomainT,Compare> >
	{
	typedef is_discrete_interval<discrete_interval<DomainT,Compare> > type;
	BOOST_STATIC_CONSTANT(bool, value = is_discrete<DomainT>::value);
	};

	template <class DomainT, ICL_COMPARE Compare>
	struct type_to_string<icl::discrete_interval<DomainT,Compare> >
	{
	static std::string apply()
	{ return "dI<"+ type_to_string<DomainT>::apply() +">"; }
	};

	template<class DomainT>
	struct value_size<icl::discrete_interval<DomainT> >
	{
	static std::size_t apply(const icl::discrete_interval<DomainT>& value)
	{ return 2; }
	};

	}} // namespace icl boost

	#endif