boost/units/detail/conversion_impl.hpp
// Boost.Units - A C++ library for zero-overhead dimensional analysis and
// unit/quantity manipulation and conversion
//
// Copyright (C) 2003-2008 Matthias Christian Schabel
// Copyright (C) 2007-2008 Steven Watanabe
//
// 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)
#ifndef BOOST_UNITS_DETAIL_CONVERSION_IMPL_HPP
#define BOOST_UNITS_DETAIL_CONVERSION_IMPL_HPP
#include <boost/mpl/bool.hpp>
#include <boost/mpl/and.hpp>
#include <boost/mpl/divides.hpp>
#include <boost/preprocessor/seq/enum.hpp>
#include <boost/type_traits/is_same.hpp>
#include <boost/units/heterogeneous_system.hpp>
#include <boost/units/homogeneous_system.hpp>
#include <boost/units/reduce_unit.hpp>
#include <boost/units/static_rational.hpp>
#include <boost/units/units_fwd.hpp>
#include <boost/units/detail/dimension_list.hpp>
#include <boost/units/detail/heterogeneous_conversion.hpp>
#include <boost/units/detail/one.hpp>
#include <boost/units/detail/static_rational_power.hpp>
#include <boost/units/detail/unscale.hpp>
#include <boost/units/units_fwd.hpp>
namespace boost {
namespace units {
namespace detail {
template<class Source, class Dest>
struct conversion_factor_helper;
template<class Source, class Dest>
struct call_base_unit_converter;
}
/// INTERNAL ONLY
struct undefined_base_unit_converter_base {
BOOST_STATIC_CONSTEXPR bool is_defined = false;
};
/// INTERNAL ONLY
struct no_default_conversion {
BOOST_STATIC_CONSTEXPR bool is_defined = false;
};
/// INTERNAL ONLY
template<class BaseUnit>
struct unscaled_get_default_conversion : no_default_conversion { };
/// INTERNAL ONLY
template<bool is_defined>
struct unscaled_get_default_conversion_impl;
/// INTERNAL ONLY
template<>
struct unscaled_get_default_conversion_impl<true>
{
template<class T>
struct apply
{
typedef typename unscaled_get_default_conversion<typename unscale<T>::type>::type type;
};
};
/// INTERNAL ONLY
template<>
struct unscaled_get_default_conversion_impl<false>
{
template<class T>
struct apply
{
typedef typename T::unit_type type;
};
};
/// INTERNAL ONLY
template<class BaseUnit>
struct get_default_conversion
{
typedef typename unscaled_get_default_conversion_impl<
unscaled_get_default_conversion<typename unscale<BaseUnit>::type>::is_defined
>::template apply<BaseUnit>::type type;
};
/// INTERNAL ONLY
template<class Source, class Destination>
struct select_base_unit_converter
{
typedef Source source_type;
typedef Destination destination_type;
};
/// INTERNAL ONLY
template<class Source, class Dest>
struct base_unit_converter_base : undefined_base_unit_converter_base {
};
/// INTERNAL ONLY
template<class Source>
struct base_unit_converter_base<Source, BOOST_UNITS_MAKE_HETEROGENEOUS_UNIT(Source, typename Source::dimension_type)>
{
BOOST_STATIC_CONSTEXPR bool is_defined = true;
typedef one type;
static BOOST_CONSTEXPR type value() {
return(one());
}
};
/// INTERNAL ONLY
template<class Source, class Dest>
struct base_unit_converter : base_unit_converter_base<Source, Dest> { };
namespace detail {
template<class Source, class Dest>
struct do_call_base_unit_converter {
typedef select_base_unit_converter<typename unscale<Source>::type, typename unscale<Dest>::type> selector;
typedef typename selector::source_type source_type;
typedef typename selector::destination_type destination_type;
typedef base_unit_converter<source_type, destination_type> converter;
typedef typename mpl::divides<typename get_scale_list<Source>::type, typename get_scale_list<source_type>::type>::type source_factor;
typedef typename mpl::divides<typename get_scale_list<Dest>::type, typename get_scale_list<destination_type>::type>::type destination_factor;
typedef typename mpl::divides<source_factor, destination_factor>::type factor;
typedef eval_scale_list<factor> eval_factor;
typedef typename multiply_typeof_helper<typename converter::type, typename eval_factor::type>::type type;
static BOOST_CONSTEXPR type value()
{
return(converter::value() * eval_factor::value());
}
};
template<bool forward_is_defined, bool reverse_is_defined>
struct call_base_unit_converter_base_unit_impl;
template<>
struct call_base_unit_converter_base_unit_impl<true, true>
{
template<class Source, class Dest>
struct apply
: do_call_base_unit_converter<Source, typename Dest::unit_type>
{
};
};
template<>
struct call_base_unit_converter_base_unit_impl<true, false>
{
template<class Source, class Dest>
struct apply
: do_call_base_unit_converter<Source, typename Dest::unit_type>
{
};
};
template<>
struct call_base_unit_converter_base_unit_impl<false, true>
{
template<class Source, class Dest>
struct apply
{
typedef do_call_base_unit_converter<Dest, typename Source::unit_type> converter;
typedef typename divide_typeof_helper<one, typename converter::type>::type type;
static BOOST_CONSTEXPR type value() {
return(one() / converter::value());
}
};
};
template<>
struct call_base_unit_converter_base_unit_impl<false, false>
{
template<class Source, class Dest>
struct apply
{
typedef typename reduce_unit<typename get_default_conversion<Source>::type>::type new_source;
typedef typename reduce_unit<typename get_default_conversion<Dest>::type>::type new_dest;
typedef call_base_unit_converter<Source, new_source> start;
typedef detail::conversion_factor_helper<
new_source,
new_dest
> conversion;
typedef call_base_unit_converter<Dest, new_dest> end;
typedef typename divide_typeof_helper<
typename multiply_typeof_helper<
typename start::type,
typename conversion::type
>::type,
typename end::type
>::type type;
static BOOST_CONSTEXPR type value() {
return(start::value() * conversion::value() / end::value());
}
};
};
template<int N>
struct get_default_conversion_impl
{
template<class Begin>
struct apply
{
typedef typename Begin::item source_pair;
typedef typename source_pair::value_type exponent;
typedef typename source_pair::tag_type source;
typedef typename reduce_unit<typename get_default_conversion<source>::type>::type new_source;
typedef typename get_default_conversion_impl<N-1>::template apply<typename Begin::next> next_iteration;
typedef typename multiply_typeof_helper<typename power_typeof_helper<new_source, exponent>::type, typename next_iteration::unit_type>::type unit_type;
typedef call_base_unit_converter<source, new_source> conversion;
typedef typename multiply_typeof_helper<typename conversion::type, typename next_iteration::type>::type type;
static BOOST_CONSTEXPR type value() {
return(static_rational_power<exponent>(conversion::value()) * next_iteration::value());
}
};
};
template<>
struct get_default_conversion_impl<0>
{
template<class Begin>
struct apply
{
typedef unit<dimensionless_type, heterogeneous_system<heterogeneous_system_impl<dimensionless_type, dimensionless_type, no_scale> > > unit_type;
typedef one type;
static BOOST_CONSTEXPR one value() {
return(one());
}
};
};
template<bool is_defined>
struct call_base_unit_converter_impl;
template<>
struct call_base_unit_converter_impl<true>
{
template<class Source, class Dest>
struct apply
: do_call_base_unit_converter<Source, Dest>
{
};
};
template<>
struct call_base_unit_converter_impl<false>
{
template<class Source, class Dest>
struct apply {
typedef typename reduce_unit<typename get_default_conversion<Source>::type>::type new_source;
typedef typename Dest::system_type::type system_list;
typedef typename get_default_conversion_impl<system_list::size::value>::template apply<system_list> impl;
typedef typename impl::unit_type new_dest;
typedef call_base_unit_converter<Source, new_source> start;
typedef conversion_factor_helper<new_source, new_dest> conversion;
typedef typename divide_typeof_helper<
typename multiply_typeof_helper<
typename start::type,
typename conversion::type
>::type,
typename impl::type
>::type type;
static BOOST_CONSTEXPR type value() {
return(start::value() * conversion::value() / impl::value());
}
};
};
#define BOOST_UNITS_DETAIL_BASE_UNIT_CONVERTER_IS_DEFINED(Source, Dest)\
base_unit_converter<\
typename select_base_unit_converter<typename unscale<Source>::type, typename unscale<Dest>::type>::source_type,\
typename select_base_unit_converter<typename unscale<Source>::type, typename unscale<Dest>::type>::destination_type\
>::is_defined
template<class Source, class Dest>
struct call_base_unit_converter : call_base_unit_converter_impl<BOOST_UNITS_DETAIL_BASE_UNIT_CONVERTER_IS_DEFINED(Source, Dest)>::template apply<Source, Dest>
{
};
template<class Source, class Dest>
struct call_base_unit_converter<Source, BOOST_UNITS_MAKE_HETEROGENEOUS_UNIT(Dest, typename Source::dimension_type)> :
call_base_unit_converter_base_unit_impl<
BOOST_UNITS_DETAIL_BASE_UNIT_CONVERTER_IS_DEFINED(Source, typename Dest::unit_type),
BOOST_UNITS_DETAIL_BASE_UNIT_CONVERTER_IS_DEFINED(Dest, typename Source::unit_type)
>::template apply<Source, Dest>
{
};
template<int N>
struct conversion_impl
{
template<class Begin, class DestinationSystem>
struct apply
{
typedef typename conversion_impl<N-1>::template apply<
typename Begin::next,
DestinationSystem
> next_iteration;
typedef typename Begin::item unit_pair;
typedef typename unit_pair::tag_type unit;
typedef typename unit::dimension_type dimensions;
typedef typename reduce_unit<units::unit<dimensions, DestinationSystem> >::type reduced_unit;
typedef detail::call_base_unit_converter<unit, reduced_unit> converter;
typedef typename multiply_typeof_helper<typename converter::type, typename next_iteration::type>::type type;
static BOOST_CONSTEXPR type value() { return(static_rational_power<typename unit_pair::value_type>(converter::value()) * next_iteration::value()); }
};
};
template<>
struct conversion_impl<0>
{
template<class Begin, class DestinationSystem>
struct apply
{
typedef one type;
static BOOST_CONSTEXPR type value() { return(one()); }
};
};
} // namespace detail
/// forward to conversion_factor (intentionally allowing ADL)
/// INTERNAL ONLY
template<class Unit1, class T1, class Unit2, class T2>
struct conversion_helper<quantity<Unit1, T1>, quantity<Unit2, T2> >
{
/// INTERNAL ONLY
typedef quantity<Unit2, T2> destination_type;
static BOOST_CONSTEXPR destination_type convert(const quantity<Unit1, T1>& source)
{
return(destination_type::from_value(static_cast<T2>(source.value() * conversion_factor(Unit1(), Unit2()))));
}
};
namespace detail {
template<class Source, class Dest>
struct conversion_factor_helper;
template<class D, class L1, class L2>
struct conversion_factor_helper<unit<D, homogeneous_system<L1> >, unit<D, homogeneous_system<L2> > >
: conversion_factor_helper<
typename reduce_unit<unit<D, homogeneous_system<L1> > >::type,
typename reduce_unit<unit<D, homogeneous_system<L2> > >::type
>
{
//typedef typename reduce_unit<unit<D, homogeneous_system<L1> > >::type source_unit;
//typedef typename source_unit::system_type::type unit_list;
//typedef typename detail::conversion_impl<unit_list::size::value>::template apply<
// unit_list,
// homogeneous_system<L2>
//> impl;
//typedef typename impl::type type;
//static BOOST_CONSTEXPR type value()
//{
// return(impl::value());
//}
};
template<class D, class L1, class L2>
struct conversion_factor_helper<unit<D, heterogeneous_system<L1> >, unit<D, homogeneous_system<L2> > >
: conversion_factor_helper<
typename reduce_unit<unit<D, heterogeneous_system<L1> > >::type,
typename reduce_unit<unit<D, homogeneous_system<L2> > >::type
>
{
//typedef typename detail::conversion_impl<L1::type::size::value>::template apply<
// typename L1::type,
// homogeneous_system<L2>
//> impl;
//typedef eval_scale_list<typename L1::scale> scale;
//typedef typename multiply_typeof_helper<typename impl::type, typename scale::type>::type type;
//static BOOST_CONSTEXPR type value()
//{
// return(impl::value() * scale::value());
//}
};
// There is no simple algorithm for doing this conversion
// other than just defining it as the reverse of the
// heterogeneous->homogeneous case
template<class D, class L1, class L2>
struct conversion_factor_helper<unit<D, homogeneous_system<L1> >, unit<D, heterogeneous_system<L2> > >
: conversion_factor_helper<
typename reduce_unit<unit<D, homogeneous_system<L1> > >::type,
typename reduce_unit<unit<D, heterogeneous_system<L2> > >::type
>
{
//typedef typename detail::conversion_impl<L2::type::size::value>::template apply<
// typename L2::type,
// homogeneous_system<L1>
//> impl;
//typedef eval_scale_list<typename L2::scale> scale;
//typedef typename multiply_typeof_helper<typename impl::type, typename scale::type>::type type;
//static BOOST_CONSTEXPR type value()
//{
// return(one() / (impl::value() * scale::value()));
//}
};
/// Requires that all possible conversions
/// between base units are defined.
template<class D, class S1, class S2>
struct conversion_factor_helper<unit<D, heterogeneous_system<S1> >, unit<D, heterogeneous_system<S2> > >
{
/// INTERNAL ONLY
typedef typename detail::extract_base_units<S1::type::size::value>::template apply<
typename S1::type,
dimensionless_type
>::type from_base_units;
/// INTERNAL ONLY
typedef typename detail::extract_base_units<S2::type::size::value>::template apply<
typename S2::type,
from_base_units
>::type all_base_units;
/// INTERNAL ONLY
typedef typename detail::make_homogeneous_system<all_base_units>::type system;
typedef typename detail::conversion_impl<S1::type::size::value>::template apply<
typename S1::type,
system
> conversion1;
typedef typename detail::conversion_impl<S2::type::size::value>::template apply<
typename S2::type,
system
> conversion2;
typedef eval_scale_list<typename mpl::divides<typename S1::scale, typename S2::scale>::type> scale;
typedef typename multiply_typeof_helper<
typename conversion1::type,
typename divide_typeof_helper<typename scale::type, typename conversion2::type>::type
>::type type;
static BOOST_CONSTEXPR type value()
{
return(conversion1::value() * (scale::value() / conversion2::value()));
}
};
} // namespace detail
} // namespace units
} // namespace boost
#endif // BOOST_UNITS_CONVERSION_IMPL_HPP