ext-boost/boost/mpl/aux_/preprocessed/msvc70/reverse_fold_impl.hpp
2014-12-07 23:50:51 +01:00

296 lines
8.7 KiB
C++

// 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/aux_/reverse_fold_impl.hpp" header
// -- DO NOT modify by hand!
namespace boost { namespace mpl { namespace aux {
/// forward declaration
template<
long N
, typename First
, typename Last
, typename State
, typename BackwardOp
, typename ForwardOp
>
struct reverse_fold_impl;
template< long N >
struct reverse_fold_chunk;
template<> struct reverse_fold_chunk<0>
{
template<
typename First
, typename Last
, typename State
, typename BackwardOp
, typename ForwardOp
>
struct result_
{
typedef First iter0;
typedef State fwd_state0;
typedef fwd_state0 bkwd_state0;
typedef bkwd_state0 state;
typedef iter0 iterator;
};
};
template<> struct reverse_fold_chunk<1>
{
template<
typename First
, typename Last
, typename State
, typename BackwardOp
, typename ForwardOp
>
struct result_
{
typedef First iter0;
typedef State fwd_state0;
typedef typename apply2< ForwardOp, fwd_state0, typename deref<iter0>::type >::type fwd_state1;
typedef typename mpl::next<iter0>::type iter1;
typedef fwd_state1 bkwd_state1;
typedef typename apply2< BackwardOp, bkwd_state1, typename deref<iter0>::type >::type bkwd_state0;
typedef bkwd_state0 state;
typedef iter1 iterator;
};
};
template<> struct reverse_fold_chunk<2>
{
template<
typename First
, typename Last
, typename State
, typename BackwardOp
, typename ForwardOp
>
struct result_
{
typedef First iter0;
typedef State fwd_state0;
typedef typename apply2< ForwardOp, fwd_state0, typename deref<iter0>::type >::type fwd_state1;
typedef typename mpl::next<iter0>::type iter1;
typedef typename apply2< ForwardOp, fwd_state1, typename deref<iter1>::type >::type fwd_state2;
typedef typename mpl::next<iter1>::type iter2;
typedef fwd_state2 bkwd_state2;
typedef typename apply2< BackwardOp, bkwd_state2, typename deref<iter1>::type >::type bkwd_state1;
typedef typename apply2< BackwardOp, bkwd_state1, typename deref<iter0>::type >::type bkwd_state0;
typedef bkwd_state0 state;
typedef iter2 iterator;
};
};
template<> struct reverse_fold_chunk<3>
{
template<
typename First
, typename Last
, typename State
, typename BackwardOp
, typename ForwardOp
>
struct result_
{
typedef First iter0;
typedef State fwd_state0;
typedef typename apply2< ForwardOp, fwd_state0, typename deref<iter0>::type >::type fwd_state1;
typedef typename mpl::next<iter0>::type iter1;
typedef typename apply2< ForwardOp, fwd_state1, typename deref<iter1>::type >::type fwd_state2;
typedef typename mpl::next<iter1>::type iter2;
typedef typename apply2< ForwardOp, fwd_state2, typename deref<iter2>::type >::type fwd_state3;
typedef typename mpl::next<iter2>::type iter3;
typedef fwd_state3 bkwd_state3;
typedef typename apply2< BackwardOp, bkwd_state3, typename deref<iter2>::type >::type bkwd_state2;
typedef typename apply2< BackwardOp, bkwd_state2, typename deref<iter1>::type >::type bkwd_state1;
typedef typename apply2< BackwardOp, bkwd_state1, typename deref<iter0>::type >::type bkwd_state0;
typedef bkwd_state0 state;
typedef iter3 iterator;
};
};
template<> struct reverse_fold_chunk<4>
{
template<
typename First
, typename Last
, typename State
, typename BackwardOp
, typename ForwardOp
>
struct result_
{
typedef First iter0;
typedef State fwd_state0;
typedef typename apply2< ForwardOp, fwd_state0, typename deref<iter0>::type >::type fwd_state1;
typedef typename mpl::next<iter0>::type iter1;
typedef typename apply2< ForwardOp, fwd_state1, typename deref<iter1>::type >::type fwd_state2;
typedef typename mpl::next<iter1>::type iter2;
typedef typename apply2< ForwardOp, fwd_state2, typename deref<iter2>::type >::type fwd_state3;
typedef typename mpl::next<iter2>::type iter3;
typedef typename apply2< ForwardOp, fwd_state3, typename deref<iter3>::type >::type fwd_state4;
typedef typename mpl::next<iter3>::type iter4;
typedef fwd_state4 bkwd_state4;
typedef typename apply2< BackwardOp, bkwd_state4, typename deref<iter3>::type >::type bkwd_state3;
typedef typename apply2< BackwardOp, bkwd_state3, typename deref<iter2>::type >::type bkwd_state2;
typedef typename apply2< BackwardOp, bkwd_state2, typename deref<iter1>::type >::type bkwd_state1;
typedef typename apply2< BackwardOp, bkwd_state1, typename deref<iter0>::type >::type bkwd_state0;
typedef bkwd_state0 state;
typedef iter4 iterator;
};
};
template< long N >
struct reverse_fold_chunk
{
template<
typename First
, typename Last
, typename State
, typename BackwardOp
, typename ForwardOp
>
struct result_
{
typedef First iter0;
typedef State fwd_state0;
typedef typename apply2< ForwardOp, fwd_state0, typename deref<iter0>::type >::type fwd_state1;
typedef typename mpl::next<iter0>::type iter1;
typedef typename apply2< ForwardOp, fwd_state1, typename deref<iter1>::type >::type fwd_state2;
typedef typename mpl::next<iter1>::type iter2;
typedef typename apply2< ForwardOp, fwd_state2, typename deref<iter2>::type >::type fwd_state3;
typedef typename mpl::next<iter2>::type iter3;
typedef typename apply2< ForwardOp, fwd_state3, typename deref<iter3>::type >::type fwd_state4;
typedef typename mpl::next<iter3>::type iter4;
typedef reverse_fold_impl<
( (N - 4) < 0 ? 0 : N - 4 )
, iter4
, Last
, fwd_state4
, BackwardOp
, ForwardOp
> nested_chunk;
typedef typename nested_chunk::state bkwd_state4;
typedef typename apply2< BackwardOp, bkwd_state4, typename deref<iter3>::type >::type bkwd_state3;
typedef typename apply2< BackwardOp, bkwd_state3, typename deref<iter2>::type >::type bkwd_state2;
typedef typename apply2< BackwardOp, bkwd_state2, typename deref<iter1>::type >::type bkwd_state1;
typedef typename apply2< BackwardOp, bkwd_state1, typename deref<iter0>::type >::type bkwd_state0;
typedef bkwd_state0 state;
typedef typename nested_chunk::iterator iterator;
};
};
template<
typename First
, typename Last
, typename State
, typename BackwardOp
, typename ForwardOp
>
struct reverse_fold_step;
template<
typename Last
, typename State
>
struct reverse_fold_null_step
{
typedef Last iterator;
typedef State state;
};
template<>
struct reverse_fold_chunk< -1 >
{
template<
typename First
, typename Last
, typename State
, typename BackwardOp
, typename ForwardOp
>
struct result_
{
typedef typename if_<
typename is_same< First,Last >::type
, reverse_fold_null_step< Last,State >
, reverse_fold_step< First,Last,State,BackwardOp,ForwardOp >
>::type res_;
typedef typename res_::state state;
typedef typename res_::iterator iterator;
};
};
template<
typename First
, typename Last
, typename State
, typename BackwardOp
, typename ForwardOp
>
struct reverse_fold_step
{
typedef reverse_fold_chunk< -1 >::template result_<
typename mpl::next<First>::type
, Last
, typename apply2<ForwardOp,State, typename deref<First>::type>::type
, BackwardOp
, ForwardOp
> nested_step;
typedef typename apply2<
BackwardOp
, typename nested_step::state
, typename deref<First>::type
>::type state;
typedef typename nested_step::iterator iterator;
};
template<
long N
, typename First
, typename Last
, typename State
, typename BackwardOp
, typename ForwardOp
>
struct reverse_fold_impl
: reverse_fold_chunk<N>
::template result_< First,Last,State,BackwardOp,ForwardOp >
{
};
}}}