yuzu/externals/vcpkg/packages/boost-icl_x64-windows/include/boost/icl/interval.hpp
2022-11-05 15:35:56 +01:00

137 lines
5.8 KiB
C++
Executable File

/*-----------------------------------------------------------------------------+
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_INTERVAL_HPP_JOFA_101014
#define BOOST_ICL_INTERVAL_HPP_JOFA_101014
#include <boost/icl/type_traits/interval_type_default.hpp>
namespace boost{ namespace icl
{
template <class IntervalT, bool IsDiscrete, bound_type PretendedBounds, bound_type RepresentedBounds>
struct static_interval;
template <class DomainT, ICL_COMPARE Compare = ICL_COMPARE_INSTANCE(ICL_COMPARE_DEFAULT, DomainT)>
struct interval
{
typedef typename interval_type_default<DomainT,Compare>::type interval_type;
typedef interval_type type;
#ifdef BOOST_ICL_USE_STATIC_BOUNDED_INTERVALS
static inline interval_type open(const DomainT& low, const DomainT& up)
{
return
static_interval
< interval_type // if the domain_type is discrete ...
, is_discrete<typename interval_traits<interval_type>::domain_type>::value
, interval_bounds::static_open // 'pretended' bounds will be transformed to
, interval_bound_type<interval_type>::value // the represented bounds
>
::construct(low, up);
}
static inline interval_type left_open(const DomainT& low, const DomainT& up)
{
return
static_interval
< interval_type
, is_discrete<typename interval_traits<interval_type>::domain_type>::value
, interval_bounds::static_left_open
, interval_bound_type<interval_type>::value
>
::construct(low, up);
}
static inline interval_type right_open(const DomainT& low, const DomainT& up)
{
return
static_interval
< interval_type
, is_discrete<typename interval_traits<interval_type>::domain_type>::value
, interval_bounds::static_right_open
, interval_bound_type<interval_type>::value
>
::construct(low, up);
}
static inline interval_type closed(const DomainT& low, const DomainT& up)
{
return
static_interval
< interval_type
, is_discrete<typename interval_traits<interval_type>::domain_type>::value
, interval_bounds::static_closed
, interval_bound_type<interval_type>::value
>
::construct(low, up);
}
static inline interval_type construct(const DomainT& low, const DomainT& up)
{ return icl::construct<interval_type>(low, up); }
#else // ICL_USE_DYNAMIC_INTERVAL_BORDER_DEFAULTS
static inline interval_type right_open(const DomainT& low, const DomainT& up)
{ return icl::construct<interval_type>(low, up, interval_bounds::right_open()); }
static inline interval_type left_open(const DomainT& low, const DomainT& up)
{ return icl::construct<interval_type>(low, up, interval_bounds::left_open()); }
static inline interval_type open(const DomainT& low, const DomainT& up)
{ return icl::construct<interval_type>(low, up, interval_bounds::open()); }
static inline interval_type closed(const DomainT& low, const DomainT& up)
{ return icl::construct<interval_type>(low, up, interval_bounds::closed()); }
static inline interval_type construct(const DomainT& low, const DomainT& up)
{ return icl::construct<interval_type>(low, up); }
#endif
};
template <class IntervalT, bound_type PretendedBounds, bound_type RepresentedBounds>
struct static_interval<IntervalT, true, PretendedBounds, RepresentedBounds>
{// is_discrete<domain_type<IntervalT>>
typedef typename interval_traits<IntervalT>::domain_type domain_type;
static inline IntervalT construct(const domain_type& low, const domain_type& up)
{
return icl::construct<IntervalT>(
shift_lower(interval_bounds(PretendedBounds), interval_bounds(RepresentedBounds), low)
, shift_upper(interval_bounds(PretendedBounds), interval_bounds(RepresentedBounds), up )
);
}
};
template <class IntervalT, bound_type PretendedBounds, bound_type RepresentedBounds>
struct static_interval<IntervalT, false, PretendedBounds, RepresentedBounds>
{// !is_discrete<domain_type<IntervalT>>
typedef typename interval_traits<IntervalT>::domain_type domain_type;
static inline IntervalT construct(const domain_type& low, const domain_type& up)
{
BOOST_STATIC_ASSERT((is_discrete<domain_type>::value || PretendedBounds==RepresentedBounds));
// For domain_types that are not discrete, e.g. interval<float>
// one of the following must hold: If you call
// interval<T>::right_open(x,y) then interval<T>::type must be static_right_open
// interval<T>::left_open(x,y) then interval<T>::type must be static_left_open
// interval<T>::open(x,y) then interval<T>::type must be static_open
// interval<T>::closed(x,y) then interval<T>::type must be static_closed
// Conversion between 'PretendedBounds' and 'RepresentedBounds' is only possible
// for discrete domain_types.
return icl::construct<IntervalT>(low, up);
}
};
}} // namespace boost icl
#endif // BOOST_ICL_INTERVAL_HPP_JOFA_101014