boost/proto/detail/preprocessed/expr_variadic.hpp
///////////////////////////////////////////////////////////////////////////////
/// \file expr_variadic.hpp
/// Contains definition of expr\<\> class template.
//
// Copyright 2008 Eric Niebler. 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)
template<typename Tag, typename Arg0>
struct expr<Tag, term<Arg0>, 0>
{
typedef Tag proto_tag;
static const long proto_arity_c = 0;
typedef mpl::long_<0 > proto_arity;
typedef expr proto_base_expr;
typedef term<Arg0> proto_args;
typedef basic_expr<Tag, proto_args, 0 > proto_grammar;
typedef default_domain proto_domain;
typedef default_generator proto_generator;
typedef proto::tag::proto_expr<Tag, proto_domain> fusion_tag;
typedef expr proto_derived_expr;
typedef void proto_is_expr_;
typedef Arg0 proto_child0; proto_child0 child0;
typedef void proto_child1; typedef void proto_child2; typedef void proto_child3; typedef void proto_child4; typedef void proto_child5; typedef void proto_child6; typedef void proto_child7; typedef void proto_child8; typedef void proto_child9;
BOOST_FORCEINLINE
expr const &proto_base() const
{
return *this;
}
BOOST_FORCEINLINE
expr &proto_base()
{
return *this;
}
template<typename A0>
BOOST_FORCEINLINE
static expr const make(A0 &a0)
{
return detail::make_terminal(a0, static_cast<expr *>(0), static_cast<proto_args *>(0));
}
template<typename A0>
BOOST_FORCEINLINE
static expr const make(A0 const &a0)
{
return detail::make_terminal(a0, static_cast<expr *>(0), static_cast<proto_args *>(0));
}
typedef detail::not_a_valid_type address_of_hack_type_;
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> const
operator =(expr const &a)
{
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> that = {*this, a};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator =(A &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator =(A const &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr &, typename result_of::as_child<A>::type>
, 2
> const
operator =(A &a)
{
proto::expr<
proto::tag::assign
, list2<expr &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr &, typename result_of::as_child<A const>::type>
, 2
> const
operator =(A const &a)
{
proto::expr<
proto::tag::assign
, list2<expr &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator [](A &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator [](A const &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr &, typename result_of::as_child<A>::type>
, 2
> const
operator [](A &a)
{
proto::expr<
proto::tag::subscript
, list2<expr &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr &, typename result_of::as_child<A const>::type>
, 2
> const
operator [](A const &a)
{
proto::expr<
proto::tag::subscript
, list2<expr &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename Sig>
struct result
{
typedef typename result_of::funop<Sig, expr, default_domain>::type const type;
};
template<typename ...A>
BOOST_FORCEINLINE
typename result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::type const
operator ()(A const &... a) const
{
return result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::call(*this, a...);
}
template<typename ...A>
BOOST_FORCEINLINE
typename result_of::funop<
expr(A const &...)
, expr
, default_domain
>::type const
operator ()(A const &... a)
{
return result_of::funop<
expr(A const &...)
, expr
, default_domain
>::call(*this, a...);
}
};
template<typename Tag , typename Arg0>
struct expr<Tag, list1<Arg0>, 1 >
{
typedef Tag proto_tag;
static const long proto_arity_c = 1;
typedef mpl::long_<1 > proto_arity;
typedef expr proto_base_expr;
typedef list1<Arg0> proto_args;
typedef basic_expr<Tag, proto_args, 1 > proto_grammar;
typedef default_domain proto_domain;
typedef default_generator proto_generator;
typedef proto::tag::proto_expr<Tag, proto_domain> fusion_tag;
typedef expr proto_derived_expr;
typedef void proto_is_expr_;
typedef Arg0 proto_child0; proto_child0 child0;
typedef void proto_child1; typedef void proto_child2; typedef void proto_child3; typedef void proto_child4; typedef void proto_child5; typedef void proto_child6; typedef void proto_child7; typedef void proto_child8; typedef void proto_child9;
BOOST_FORCEINLINE
expr const &proto_base() const
{
return *this;
}
BOOST_FORCEINLINE
expr &proto_base()
{
return *this;
}
template<typename A0>
BOOST_FORCEINLINE
static expr const make(A0 const &a0)
{
expr that = {a0};
return that;
}
typedef typename detail::address_of_hack<Tag, proto_child0>::type address_of_hack_type_;
BOOST_FORCEINLINE
operator address_of_hack_type_() const
{
return boost::addressof(this->child0);
}
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> const
operator =(expr const &a)
{
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> that = {*this, a};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator =(A &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator =(A const &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator [](A &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator [](A const &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename Sig>
struct result
{
typedef typename result_of::funop<Sig, expr, default_domain>::type const type;
};
template<typename ...A>
BOOST_FORCEINLINE
typename result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::type const
operator ()(A const &... a) const
{
return result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::call(*this, a...);
}
};
template<typename Tag , typename Arg0 , typename Arg1>
struct expr<Tag, list2<Arg0 , Arg1>, 2 >
{
typedef Tag proto_tag;
static const long proto_arity_c = 2;
typedef mpl::long_<2 > proto_arity;
typedef expr proto_base_expr;
typedef list2<Arg0 , Arg1> proto_args;
typedef basic_expr<Tag, proto_args, 2 > proto_grammar;
typedef default_domain proto_domain;
typedef default_generator proto_generator;
typedef proto::tag::proto_expr<Tag, proto_domain> fusion_tag;
typedef expr proto_derived_expr;
typedef void proto_is_expr_;
typedef Arg0 proto_child0; proto_child0 child0; typedef Arg1 proto_child1; proto_child1 child1;
typedef void proto_child2; typedef void proto_child3; typedef void proto_child4; typedef void proto_child5; typedef void proto_child6; typedef void proto_child7; typedef void proto_child8; typedef void proto_child9;
BOOST_FORCEINLINE
expr const &proto_base() const
{
return *this;
}
BOOST_FORCEINLINE
expr &proto_base()
{
return *this;
}
template<typename A0 , typename A1>
BOOST_FORCEINLINE
static expr const make(A0 const &a0 , A1 const &a1)
{
expr that = {a0 , a1};
return that;
}
typedef detail::not_a_valid_type address_of_hack_type_;
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> const
operator =(expr const &a)
{
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> that = {*this, a};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator =(A &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator =(A const &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator [](A &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator [](A const &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename Sig>
struct result
{
typedef typename result_of::funop<Sig, expr, default_domain>::type const type;
};
template<typename ...A>
BOOST_FORCEINLINE
typename result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::type const
operator ()(A const &... a) const
{
return result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::call(*this, a...);
}
};
template<typename Tag , typename Arg0 , typename Arg1 , typename Arg2>
struct expr<Tag, list3<Arg0 , Arg1 , Arg2>, 3 >
{
typedef Tag proto_tag;
static const long proto_arity_c = 3;
typedef mpl::long_<3 > proto_arity;
typedef expr proto_base_expr;
typedef list3<Arg0 , Arg1 , Arg2> proto_args;
typedef basic_expr<Tag, proto_args, 3 > proto_grammar;
typedef default_domain proto_domain;
typedef default_generator proto_generator;
typedef proto::tag::proto_expr<Tag, proto_domain> fusion_tag;
typedef expr proto_derived_expr;
typedef void proto_is_expr_;
typedef Arg0 proto_child0; proto_child0 child0; typedef Arg1 proto_child1; proto_child1 child1; typedef Arg2 proto_child2; proto_child2 child2;
typedef void proto_child3; typedef void proto_child4; typedef void proto_child5; typedef void proto_child6; typedef void proto_child7; typedef void proto_child8; typedef void proto_child9;
BOOST_FORCEINLINE
expr const &proto_base() const
{
return *this;
}
BOOST_FORCEINLINE
expr &proto_base()
{
return *this;
}
template<typename A0 , typename A1 , typename A2>
BOOST_FORCEINLINE
static expr const make(A0 const &a0 , A1 const &a1 , A2 const &a2)
{
expr that = {a0 , a1 , a2};
return that;
}
typedef detail::not_a_valid_type address_of_hack_type_;
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> const
operator =(expr const &a)
{
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> that = {*this, a};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator =(A &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator =(A const &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator [](A &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator [](A const &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename Sig>
struct result
{
typedef typename result_of::funop<Sig, expr, default_domain>::type const type;
};
template<typename ...A>
BOOST_FORCEINLINE
typename result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::type const
operator ()(A const &... a) const
{
return result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::call(*this, a...);
}
};
template<typename Tag , typename Arg0 , typename Arg1 , typename Arg2 , typename Arg3>
struct expr<Tag, list4<Arg0 , Arg1 , Arg2 , Arg3>, 4 >
{
typedef Tag proto_tag;
static const long proto_arity_c = 4;
typedef mpl::long_<4 > proto_arity;
typedef expr proto_base_expr;
typedef list4<Arg0 , Arg1 , Arg2 , Arg3> proto_args;
typedef basic_expr<Tag, proto_args, 4 > proto_grammar;
typedef default_domain proto_domain;
typedef default_generator proto_generator;
typedef proto::tag::proto_expr<Tag, proto_domain> fusion_tag;
typedef expr proto_derived_expr;
typedef void proto_is_expr_;
typedef Arg0 proto_child0; proto_child0 child0; typedef Arg1 proto_child1; proto_child1 child1; typedef Arg2 proto_child2; proto_child2 child2; typedef Arg3 proto_child3; proto_child3 child3;
typedef void proto_child4; typedef void proto_child5; typedef void proto_child6; typedef void proto_child7; typedef void proto_child8; typedef void proto_child9;
BOOST_FORCEINLINE
expr const &proto_base() const
{
return *this;
}
BOOST_FORCEINLINE
expr &proto_base()
{
return *this;
}
template<typename A0 , typename A1 , typename A2 , typename A3>
BOOST_FORCEINLINE
static expr const make(A0 const &a0 , A1 const &a1 , A2 const &a2 , A3 const &a3)
{
expr that = {a0 , a1 , a2 , a3};
return that;
}
typedef detail::not_a_valid_type address_of_hack_type_;
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> const
operator =(expr const &a)
{
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> that = {*this, a};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator =(A &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator =(A const &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator [](A &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator [](A const &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename Sig>
struct result
{
typedef typename result_of::funop<Sig, expr, default_domain>::type const type;
};
template<typename ...A>
BOOST_FORCEINLINE
typename result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::type const
operator ()(A const &... a) const
{
return result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::call(*this, a...);
}
};
template<typename Tag , typename Arg0 , typename Arg1 , typename Arg2 , typename Arg3 , typename Arg4>
struct expr<Tag, list5<Arg0 , Arg1 , Arg2 , Arg3 , Arg4>, 5 >
{
typedef Tag proto_tag;
static const long proto_arity_c = 5;
typedef mpl::long_<5 > proto_arity;
typedef expr proto_base_expr;
typedef list5<Arg0 , Arg1 , Arg2 , Arg3 , Arg4> proto_args;
typedef basic_expr<Tag, proto_args, 5 > proto_grammar;
typedef default_domain proto_domain;
typedef default_generator proto_generator;
typedef proto::tag::proto_expr<Tag, proto_domain> fusion_tag;
typedef expr proto_derived_expr;
typedef void proto_is_expr_;
typedef Arg0 proto_child0; proto_child0 child0; typedef Arg1 proto_child1; proto_child1 child1; typedef Arg2 proto_child2; proto_child2 child2; typedef Arg3 proto_child3; proto_child3 child3; typedef Arg4 proto_child4; proto_child4 child4;
typedef void proto_child5; typedef void proto_child6; typedef void proto_child7; typedef void proto_child8; typedef void proto_child9;
BOOST_FORCEINLINE
expr const &proto_base() const
{
return *this;
}
BOOST_FORCEINLINE
expr &proto_base()
{
return *this;
}
template<typename A0 , typename A1 , typename A2 , typename A3 , typename A4>
BOOST_FORCEINLINE
static expr const make(A0 const &a0 , A1 const &a1 , A2 const &a2 , A3 const &a3 , A4 const &a4)
{
expr that = {a0 , a1 , a2 , a3 , a4};
return that;
}
typedef detail::not_a_valid_type address_of_hack_type_;
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> const
operator =(expr const &a)
{
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> that = {*this, a};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator =(A &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator =(A const &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator [](A &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator [](A const &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename Sig>
struct result
{
typedef typename result_of::funop<Sig, expr, default_domain>::type const type;
};
template<typename ...A>
BOOST_FORCEINLINE
typename result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::type const
operator ()(A const &... a) const
{
return result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::call(*this, a...);
}
};
template<typename Tag , typename Arg0 , typename Arg1 , typename Arg2 , typename Arg3 , typename Arg4 , typename Arg5>
struct expr<Tag, list6<Arg0 , Arg1 , Arg2 , Arg3 , Arg4 , Arg5>, 6 >
{
typedef Tag proto_tag;
static const long proto_arity_c = 6;
typedef mpl::long_<6 > proto_arity;
typedef expr proto_base_expr;
typedef list6<Arg0 , Arg1 , Arg2 , Arg3 , Arg4 , Arg5> proto_args;
typedef basic_expr<Tag, proto_args, 6 > proto_grammar;
typedef default_domain proto_domain;
typedef default_generator proto_generator;
typedef proto::tag::proto_expr<Tag, proto_domain> fusion_tag;
typedef expr proto_derived_expr;
typedef void proto_is_expr_;
typedef Arg0 proto_child0; proto_child0 child0; typedef Arg1 proto_child1; proto_child1 child1; typedef Arg2 proto_child2; proto_child2 child2; typedef Arg3 proto_child3; proto_child3 child3; typedef Arg4 proto_child4; proto_child4 child4; typedef Arg5 proto_child5; proto_child5 child5;
typedef void proto_child6; typedef void proto_child7; typedef void proto_child8; typedef void proto_child9;
BOOST_FORCEINLINE
expr const &proto_base() const
{
return *this;
}
BOOST_FORCEINLINE
expr &proto_base()
{
return *this;
}
template<typename A0 , typename A1 , typename A2 , typename A3 , typename A4 , typename A5>
BOOST_FORCEINLINE
static expr const make(A0 const &a0 , A1 const &a1 , A2 const &a2 , A3 const &a3 , A4 const &a4 , A5 const &a5)
{
expr that = {a0 , a1 , a2 , a3 , a4 , a5};
return that;
}
typedef detail::not_a_valid_type address_of_hack_type_;
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> const
operator =(expr const &a)
{
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> that = {*this, a};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator =(A &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator =(A const &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator [](A &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator [](A const &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename Sig>
struct result
{
typedef typename result_of::funop<Sig, expr, default_domain>::type const type;
};
template<typename ...A>
BOOST_FORCEINLINE
typename result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::type const
operator ()(A const &... a) const
{
return result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::call(*this, a...);
}
};
template<typename Tag , typename Arg0 , typename Arg1 , typename Arg2 , typename Arg3 , typename Arg4 , typename Arg5 , typename Arg6>
struct expr<Tag, list7<Arg0 , Arg1 , Arg2 , Arg3 , Arg4 , Arg5 , Arg6>, 7 >
{
typedef Tag proto_tag;
static const long proto_arity_c = 7;
typedef mpl::long_<7 > proto_arity;
typedef expr proto_base_expr;
typedef list7<Arg0 , Arg1 , Arg2 , Arg3 , Arg4 , Arg5 , Arg6> proto_args;
typedef basic_expr<Tag, proto_args, 7 > proto_grammar;
typedef default_domain proto_domain;
typedef default_generator proto_generator;
typedef proto::tag::proto_expr<Tag, proto_domain> fusion_tag;
typedef expr proto_derived_expr;
typedef void proto_is_expr_;
typedef Arg0 proto_child0; proto_child0 child0; typedef Arg1 proto_child1; proto_child1 child1; typedef Arg2 proto_child2; proto_child2 child2; typedef Arg3 proto_child3; proto_child3 child3; typedef Arg4 proto_child4; proto_child4 child4; typedef Arg5 proto_child5; proto_child5 child5; typedef Arg6 proto_child6; proto_child6 child6;
typedef void proto_child7; typedef void proto_child8; typedef void proto_child9;
BOOST_FORCEINLINE
expr const &proto_base() const
{
return *this;
}
BOOST_FORCEINLINE
expr &proto_base()
{
return *this;
}
template<typename A0 , typename A1 , typename A2 , typename A3 , typename A4 , typename A5 , typename A6>
BOOST_FORCEINLINE
static expr const make(A0 const &a0 , A1 const &a1 , A2 const &a2 , A3 const &a3 , A4 const &a4 , A5 const &a5 , A6 const &a6)
{
expr that = {a0 , a1 , a2 , a3 , a4 , a5 , a6};
return that;
}
typedef detail::not_a_valid_type address_of_hack_type_;
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> const
operator =(expr const &a)
{
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> that = {*this, a};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator =(A &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator =(A const &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator [](A &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator [](A const &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename Sig>
struct result
{
typedef typename result_of::funop<Sig, expr, default_domain>::type const type;
};
template<typename ...A>
BOOST_FORCEINLINE
typename result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::type const
operator ()(A const &... a) const
{
return result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::call(*this, a...);
}
};
template<typename Tag , typename Arg0 , typename Arg1 , typename Arg2 , typename Arg3 , typename Arg4 , typename Arg5 , typename Arg6 , typename Arg7>
struct expr<Tag, list8<Arg0 , Arg1 , Arg2 , Arg3 , Arg4 , Arg5 , Arg6 , Arg7>, 8 >
{
typedef Tag proto_tag;
static const long proto_arity_c = 8;
typedef mpl::long_<8 > proto_arity;
typedef expr proto_base_expr;
typedef list8<Arg0 , Arg1 , Arg2 , Arg3 , Arg4 , Arg5 , Arg6 , Arg7> proto_args;
typedef basic_expr<Tag, proto_args, 8 > proto_grammar;
typedef default_domain proto_domain;
typedef default_generator proto_generator;
typedef proto::tag::proto_expr<Tag, proto_domain> fusion_tag;
typedef expr proto_derived_expr;
typedef void proto_is_expr_;
typedef Arg0 proto_child0; proto_child0 child0; typedef Arg1 proto_child1; proto_child1 child1; typedef Arg2 proto_child2; proto_child2 child2; typedef Arg3 proto_child3; proto_child3 child3; typedef Arg4 proto_child4; proto_child4 child4; typedef Arg5 proto_child5; proto_child5 child5; typedef Arg6 proto_child6; proto_child6 child6; typedef Arg7 proto_child7; proto_child7 child7;
typedef void proto_child8; typedef void proto_child9;
BOOST_FORCEINLINE
expr const &proto_base() const
{
return *this;
}
BOOST_FORCEINLINE
expr &proto_base()
{
return *this;
}
template<typename A0 , typename A1 , typename A2 , typename A3 , typename A4 , typename A5 , typename A6 , typename A7>
BOOST_FORCEINLINE
static expr const make(A0 const &a0 , A1 const &a1 , A2 const &a2 , A3 const &a3 , A4 const &a4 , A5 const &a5 , A6 const &a6 , A7 const &a7)
{
expr that = {a0 , a1 , a2 , a3 , a4 , a5 , a6 , a7};
return that;
}
typedef detail::not_a_valid_type address_of_hack_type_;
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> const
operator =(expr const &a)
{
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> that = {*this, a};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator =(A &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator =(A const &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator [](A &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator [](A const &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename Sig>
struct result
{
typedef typename result_of::funop<Sig, expr, default_domain>::type const type;
};
template<typename ...A>
BOOST_FORCEINLINE
typename result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::type const
operator ()(A const &... a) const
{
return result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::call(*this, a...);
}
};
template<typename Tag , typename Arg0 , typename Arg1 , typename Arg2 , typename Arg3 , typename Arg4 , typename Arg5 , typename Arg6 , typename Arg7 , typename Arg8>
struct expr<Tag, list9<Arg0 , Arg1 , Arg2 , Arg3 , Arg4 , Arg5 , Arg6 , Arg7 , Arg8>, 9 >
{
typedef Tag proto_tag;
static const long proto_arity_c = 9;
typedef mpl::long_<9 > proto_arity;
typedef expr proto_base_expr;
typedef list9<Arg0 , Arg1 , Arg2 , Arg3 , Arg4 , Arg5 , Arg6 , Arg7 , Arg8> proto_args;
typedef basic_expr<Tag, proto_args, 9 > proto_grammar;
typedef default_domain proto_domain;
typedef default_generator proto_generator;
typedef proto::tag::proto_expr<Tag, proto_domain> fusion_tag;
typedef expr proto_derived_expr;
typedef void proto_is_expr_;
typedef Arg0 proto_child0; proto_child0 child0; typedef Arg1 proto_child1; proto_child1 child1; typedef Arg2 proto_child2; proto_child2 child2; typedef Arg3 proto_child3; proto_child3 child3; typedef Arg4 proto_child4; proto_child4 child4; typedef Arg5 proto_child5; proto_child5 child5; typedef Arg6 proto_child6; proto_child6 child6; typedef Arg7 proto_child7; proto_child7 child7; typedef Arg8 proto_child8; proto_child8 child8;
typedef void proto_child9;
BOOST_FORCEINLINE
expr const &proto_base() const
{
return *this;
}
BOOST_FORCEINLINE
expr &proto_base()
{
return *this;
}
template<typename A0 , typename A1 , typename A2 , typename A3 , typename A4 , typename A5 , typename A6 , typename A7 , typename A8>
BOOST_FORCEINLINE
static expr const make(A0 const &a0 , A1 const &a1 , A2 const &a2 , A3 const &a3 , A4 const &a4 , A5 const &a5 , A6 const &a6 , A7 const &a7 , A8 const &a8)
{
expr that = {a0 , a1 , a2 , a3 , a4 , a5 , a6 , a7 , a8};
return that;
}
typedef detail::not_a_valid_type address_of_hack_type_;
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> const
operator =(expr const &a)
{
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> that = {*this, a};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator =(A &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator =(A const &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator [](A &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator [](A const &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename Sig>
struct result
{
typedef typename result_of::funop<Sig, expr, default_domain>::type const type;
};
template<typename ...A>
BOOST_FORCEINLINE
typename result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::type const
operator ()(A const &... a) const
{
return result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::call(*this, a...);
}
};
template<typename Tag , typename Arg0 , typename Arg1 , typename Arg2 , typename Arg3 , typename Arg4 , typename Arg5 , typename Arg6 , typename Arg7 , typename Arg8 , typename Arg9>
struct expr<Tag, list10<Arg0 , Arg1 , Arg2 , Arg3 , Arg4 , Arg5 , Arg6 , Arg7 , Arg8 , Arg9>, 10 >
{
typedef Tag proto_tag;
static const long proto_arity_c = 10;
typedef mpl::long_<10 > proto_arity;
typedef expr proto_base_expr;
typedef list10<Arg0 , Arg1 , Arg2 , Arg3 , Arg4 , Arg5 , Arg6 , Arg7 , Arg8 , Arg9> proto_args;
typedef basic_expr<Tag, proto_args, 10 > proto_grammar;
typedef default_domain proto_domain;
typedef default_generator proto_generator;
typedef proto::tag::proto_expr<Tag, proto_domain> fusion_tag;
typedef expr proto_derived_expr;
typedef void proto_is_expr_;
typedef Arg0 proto_child0; proto_child0 child0; typedef Arg1 proto_child1; proto_child1 child1; typedef Arg2 proto_child2; proto_child2 child2; typedef Arg3 proto_child3; proto_child3 child3; typedef Arg4 proto_child4; proto_child4 child4; typedef Arg5 proto_child5; proto_child5 child5; typedef Arg6 proto_child6; proto_child6 child6; typedef Arg7 proto_child7; proto_child7 child7; typedef Arg8 proto_child8; proto_child8 child8; typedef Arg9 proto_child9; proto_child9 child9;
BOOST_FORCEINLINE
expr const &proto_base() const
{
return *this;
}
BOOST_FORCEINLINE
expr &proto_base()
{
return *this;
}
template<typename A0 , typename A1 , typename A2 , typename A3 , typename A4 , typename A5 , typename A6 , typename A7 , typename A8 , typename A9>
BOOST_FORCEINLINE
static expr const make(A0 const &a0 , A1 const &a1 , A2 const &a2 , A3 const &a3 , A4 const &a4 , A5 const &a5 , A6 const &a6 , A7 const &a7 , A8 const &a8 , A9 const &a9)
{
expr that = {a0 , a1 , a2 , a3 , a4 , a5 , a6 , a7 , a8 , a9};
return that;
}
typedef detail::not_a_valid_type address_of_hack_type_;
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> const
operator =(expr const &a)
{
proto::expr<
proto::tag::assign
, list2<expr &, expr const &>
, 2
> that = {*this, a};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator =(A &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator =(A const &a) const
{
proto::expr<
proto::tag::assign
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> const
operator [](A &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename A>
BOOST_FORCEINLINE
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> const
operator [](A const &a) const
{
proto::expr<
proto::tag::subscript
, list2<expr const &, typename result_of::as_child<A const>::type>
, 2
> that = {*this, proto::as_child(a)};
return that;
}
template<typename Sig>
struct result
{
typedef typename result_of::funop<Sig, expr, default_domain>::type const type;
};
template<typename ...A>
BOOST_FORCEINLINE
typename result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::type const
operator ()(A const &... a) const
{
return result_of::funop<
expr const(A const &...)
, expr
, default_domain
>::call(*this, a...);
}
};