📄 vector10.hpp
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// Copyright Aleksey Gurtovoy 2000-2004
//
// 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)
//
// Preprocessed version of "boost/mpl/vector/vector10.hpp" header
// -- DO NOT modify by hand!
namespace boost { namespace mpl {
namespace aux {
template<> struct v_at_impl<0>
{
template< typename V_ > struct result_
{
typedef typename V_::item0 type;
};
};
}
template<>
struct at_impl< aux::vector_tag<0> >
{
template< typename V_, typename N > struct apply
{
typedef typename aux::v_at_impl<BOOST_MPL_AUX_VALUE_WKND(N)::value>
::template result_<V_>::type type;
};
};
template<>
struct size_impl< aux::vector_tag<0> >
{
template< typename Vector > struct apply
: long_<0>
{
};
};
template<>
struct O1_size_impl< aux::vector_tag<0> >
: size_impl< aux::vector_tag<0> >
{
};
template<>
struct clear_impl< aux::vector_tag<0> >
{
template< typename Vector > struct apply
{
typedef vector0<> type;
};
};
template<
typename T0
>
struct vector1
{
typedef aux::vector_tag<1> tag;
typedef vector1 type;
typedef T0 item0;
typedef void_ item1;
typedef T0 back;
typedef v_iter< type,0 > begin;
typedef v_iter< type,1 > end;
};
template<>
struct push_front_impl< aux::vector_tag<0> >
{
template< typename Vector, typename T > struct apply
{
typedef vector1<
T
> type;
};
};
template<>
struct pop_front_impl< aux::vector_tag<1> >
{
template< typename Vector > struct apply
{
typedef vector0<
> type;
};
};
template<>
struct push_back_impl< aux::vector_tag<0> >
{
template< typename Vector, typename T > struct apply
{
typedef vector1<
T
> type;
};
};
template<>
struct pop_back_impl< aux::vector_tag<1> >
{
template< typename Vector > struct apply
{
typedef vector0<
> type;
};
};
namespace aux {
template<> struct v_at_impl<1>
{
template< typename V_ > struct result_
{
typedef typename V_::item1 type;
};
};
}
template<>
struct at_impl< aux::vector_tag<1> >
{
template< typename V_, typename N > struct apply
{
typedef typename aux::v_at_impl<BOOST_MPL_AUX_VALUE_WKND(N)::value>
::template result_<V_>::type type;
};
};
template<>
struct front_impl< aux::vector_tag<1> >
{
template< typename Vector > struct apply
{
typedef typename Vector::item0 type;
};
};
template<>
struct back_impl< aux::vector_tag<1> >
{
template< typename Vector > struct apply
{
typedef typename Vector::back type;
};
};
template<>
struct empty_impl< aux::vector_tag<1> >
{
template< typename Vector > struct apply
: false_
{
};
};
template<>
struct size_impl< aux::vector_tag<1> >
{
template< typename Vector > struct apply
: long_<1>
{
};
};
template<>
struct O1_size_impl< aux::vector_tag<1> >
: size_impl< aux::vector_tag<1> >
{
};
template<>
struct clear_impl< aux::vector_tag<1> >
{
template< typename Vector > struct apply
{
typedef vector0<> type;
};
};
template<
typename T0, typename T1
>
struct vector2
{
typedef aux::vector_tag<2> tag;
typedef vector2 type;
typedef T0 item0;
typedef T1 item1;
typedef void_ item2;
typedef T1 back;
typedef v_iter< type,0 > begin;
typedef v_iter< type,2 > end;
};
template<>
struct push_front_impl< aux::vector_tag<1> >
{
template< typename Vector, typename T > struct apply
{
typedef vector2<
T
,
typename Vector::item0
> type;
};
};
template<>
struct pop_front_impl< aux::vector_tag<2> >
{
template< typename Vector > struct apply
{
typedef vector1<
typename Vector::item1
> type;
};
};
template<>
struct push_back_impl< aux::vector_tag<1> >
{
template< typename Vector, typename T > struct apply
{
typedef vector2<
typename Vector::item0
,
T
> type;
};
};
template<>
struct pop_back_impl< aux::vector_tag<2> >
{
template< typename Vector > struct apply
{
typedef vector1<
typename Vector::item0
> type;
};
};
namespace aux {
template<> struct v_at_impl<2>
{
template< typename V_ > struct result_
{
typedef typename V_::item2 type;
};
};
}
template<>
struct at_impl< aux::vector_tag<2> >
{
template< typename V_, typename N > struct apply
{
typedef typename aux::v_at_impl<BOOST_MPL_AUX_VALUE_WKND(N)::value>
::template result_<V_>::type type;
};
};
template<>
struct front_impl< aux::vector_tag<2> >
{
template< typename Vector > struct apply
{
typedef typename Vector::item0 type;
};
};
template<>
struct back_impl< aux::vector_tag<2> >
{
template< typename Vector > struct apply
{
typedef typename Vector::back type;
};
};
template<>
struct empty_impl< aux::vector_tag<2> >
{
template< typename Vector > struct apply
: false_
{
};
};
template<>
struct size_impl< aux::vector_tag<2> >
{
template< typename Vector > struct apply
: long_<2>
{
};
};
template<>
struct O1_size_impl< aux::vector_tag<2> >
: size_impl< aux::vector_tag<2> >
{
};
template<>
struct clear_impl< aux::vector_tag<2> >
{
template< typename Vector > struct apply
{
typedef vector0<> type;
};
};
template<
typename T0, typename T1, typename T2
>
struct vector3
{
typedef aux::vector_tag<3> tag;
typedef vector3 type;
typedef T0 item0;
typedef T1 item1;
typedef T2 item2;
typedef void_ item3;
typedef T2 back;
typedef v_iter< type,0 > begin;
typedef v_iter< type,3 > end;
};
template<>
struct push_front_impl< aux::vector_tag<2> >
{
template< typename Vector, typename T > struct apply
{
typedef vector3<
T
,
typename Vector::item0, typename Vector::item1
> type;
};
};
template<>
struct pop_front_impl< aux::vector_tag<3> >
{
template< typename Vector > struct apply
{
typedef vector2<
typename Vector::item1, typename Vector::item2
> type;
};
};
template<>
struct push_back_impl< aux::vector_tag<2> >
{
template< typename Vector, typename T > struct apply
{
typedef vector3<
typename Vector::item0, typename Vector::item1
,
T
> type;
};
};
template<>
struct pop_back_impl< aux::vector_tag<3> >
{
template< typename Vector > struct apply
{
typedef vector2<
typename Vector::item0, typename Vector::item1
> type;
};
};
namespace aux {
template<> struct v_at_impl<3>
{
template< typename V_ > struct result_
{
typedef typename V_::item3 type;
};
};
}
template<>
struct at_impl< aux::vector_tag<3> >
{
template< typename V_, typename N > struct apply
{
typedef typename aux::v_at_impl<BOOST_MPL_AUX_VALUE_WKND(N)::value>
::template result_<V_>::type type;
};
};
template<>
struct front_impl< aux::vector_tag<3> >
{
template< typename Vector > struct apply
{
typedef typename Vector::item0 type;
};
};
template<>
struct back_impl< aux::vector_tag<3> >
{
template< typename Vector > struct apply
{
typedef typename Vector::back type;
};
};
template<>
struct empty_impl< aux::vector_tag<3> >
{
template< typename Vector > struct apply
: false_
{
};
};
template<>
struct size_impl< aux::vector_tag<3> >
{
template< typename Vector > struct apply
: long_<3>
{
};
};
template<>
struct O1_size_impl< aux::vector_tag<3> >
: size_impl< aux::vector_tag<3> >
{
};
template<>
struct clear_impl< aux::vector_tag<3> >
{
template< typename Vector > struct apply
{
typedef vector0<> type;
};
};
template<
typename T0, typename T1, typename T2, typename T3
>
struct vector4
{
typedef aux::vector_tag<4> tag;
typedef vector4 type;
typedef T0 item0;
typedef T1 item1;
typedef T2 item2;
typedef T3 item3;
typedef void_ item4;
typedef T3 back;
typedef v_iter< type,0 > begin;
typedef v_iter< type,4 > end;
};
template<>
struct push_front_impl< aux::vector_tag<3> >
{
template< typename Vector, typename T > struct apply
{
typedef vector4<
T
,
typename Vector::item0, typename Vector::item1
, typename Vector::item2
> type;
};
};
template<>
struct pop_front_impl< aux::vector_tag<4> >
{
template< typename Vector > struct apply
{
typedef vector3<
typename Vector::item1, typename Vector::item2
, typename Vector::item3
> type;
};
};
template<>
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