boost/xpressive/detail/static/transforms/as_quantifier.hpp
///////////////////////////////////////////////////////////////////////////////
// as_quantifier.hpp
//
// 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)
#ifndef BOOST_XPRESSIVE_DETAIL_STATIC_TRANSFORMS_AS_QUANTIFIER_HPP_EAN_04_01_2007
#define BOOST_XPRESSIVE_DETAIL_STATIC_TRANSFORMS_AS_QUANTIFIER_HPP_EAN_04_01_2007
// MS compatible compilers support #pragma once
#if defined(_MSC_VER)
# pragma once
#endif
#include <boost/mpl/assert.hpp>
#include <boost/type_traits/is_same.hpp>
#include <boost/xpressive/detail/detail_fwd.hpp>
#include <boost/xpressive/detail/static/static.hpp>
#include <boost/proto/core.hpp>
namespace boost { namespace xpressive { namespace detail
{
///////////////////////////////////////////////////////////////////////////////
// generic_quant_tag
template<uint_t Min, uint_t Max>
struct generic_quant_tag
{
typedef mpl::integral_c<uint_t, Min> min_type;
typedef mpl::integral_c<uint_t, Max> max_type;
};
}}}
namespace boost { namespace xpressive { namespace grammar_detail
{
using detail::uint_t;
///////////////////////////////////////////////////////////////////////////////
// min_type / max_type
template<typename Tag>
struct min_type : Tag::min_type {};
template<>
struct min_type<proto::tag::unary_plus> : mpl::integral_c<uint_t, 1> {};
template<>
struct min_type<proto::tag::dereference> : mpl::integral_c<uint_t, 0> {};
template<>
struct min_type<proto::tag::logical_not> : mpl::integral_c<uint_t, 0> {};
template<typename Tag>
struct max_type : Tag::max_type {};
template<>
struct max_type<proto::tag::unary_plus> : mpl::integral_c<uint_t, UINT_MAX-1> {};
template<>
struct max_type<proto::tag::dereference> : mpl::integral_c<uint_t, UINT_MAX-1> {};
template<>
struct max_type<proto::tag::logical_not> : mpl::integral_c<uint_t, 1> {};
///////////////////////////////////////////////////////////////////////////////
// as_simple_quantifier
template<typename Grammar, typename Greedy, typename Callable = proto::callable>
struct as_simple_quantifier : proto::transform<as_simple_quantifier<Grammar, Greedy, Callable> >
{
template<typename Expr, typename State, typename Data>
struct impl : proto::transform_impl<Expr, State, Data>
{
typedef
typename proto::result_of::child<Expr>::type
arg_type;
typedef
typename Grammar::template impl<arg_type, detail::true_xpression, Data>::result_type
xpr_type;
typedef
detail::simple_repeat_matcher<xpr_type, Greedy>
matcher_type;
typedef
typename proto::terminal<matcher_type>::type
result_type;
result_type operator ()(
typename impl::expr_param expr
, typename impl::state_param
, typename impl::data_param data
) const
{
xpr_type xpr = typename Grammar::template impl<arg_type, detail::true_xpression, Data>()(
proto::child(expr)
, detail::true_xpression()
, data
);
typedef typename impl::expr expr_type;
matcher_type matcher(
xpr
, (uint_t)min_type<typename expr_type::proto_tag>::value
, (uint_t)max_type<typename expr_type::proto_tag>::value
, xpr.get_width().value()
);
return result_type::make(matcher);
}
};
};
///////////////////////////////////////////////////////////////////////////////
// add_hidden_mark
struct add_hidden_mark : proto::transform<add_hidden_mark>
{
template<typename Expr, typename State, typename Data>
struct impl : proto::transform_impl<Expr, State, Data>
{
typedef typename impl::expr expr_type;
typedef
typename shift_right<
terminal<detail::mark_begin_matcher>::type
, typename shift_right<
Expr
, terminal<detail::mark_end_matcher>::type
>::type
>::type
result_type;
result_type operator ()(
typename impl::expr_param expr
, typename impl::state_param
, typename impl::data_param data
) const
{
// we're inserting a hidden mark ... so grab the next hidden mark number.
int mark_nbr = data.get_hidden_mark();
detail::mark_begin_matcher begin(mark_nbr);
detail::mark_end_matcher end(mark_nbr);
result_type that = {{begin}, {expr, {end}}};
return that;
}
};
};
///////////////////////////////////////////////////////////////////////////////
// InsertMark
struct InsertMark
: or_<
when<proto::assign<detail::basic_mark_tag, _>, _>
, otherwise<add_hidden_mark>
>
{};
///////////////////////////////////////////////////////////////////////////////
// as_default_quantifier_impl
template<typename Greedy, uint_t Min, uint_t Max>
struct as_default_quantifier_impl : proto::transform<as_default_quantifier_impl<Greedy, Min, Max> >
{
template<typename Expr, typename State, typename Data>
struct impl : proto::transform_impl<Expr, State, Data>
{
typedef
typename proto::result_of::child<Expr>::type
xpr_type;
typedef
typename InsertMark::impl<xpr_type, State, Data>::result_type
marked_sub_type;
typedef
typename shift_right<
terminal<detail::repeat_begin_matcher>::type
, typename shift_right<
marked_sub_type
, typename terminal<detail::repeat_end_matcher<Greedy> >::type
>::type
>::type
result_type;
result_type operator ()(
typename impl::expr_param expr
, typename impl::state_param state
, typename impl::data_param data
) const
{
// Ensure this sub-expression is book-ended with mark matchers
marked_sub_type marked_sub =
InsertMark::impl<xpr_type, State, Data>()(proto::child(expr), state, data);
// Get the mark_number from the begin_mark_matcher
int mark_number = proto::value(proto::left(marked_sub)).mark_number_;
BOOST_ASSERT(0 != mark_number);
typedef typename impl::expr expr_type;
uint_t min_ = (uint_t)min_type<typename expr_type::proto_tag>();
uint_t max_ = (uint_t)max_type<typename expr_type::proto_tag>();
detail::repeat_begin_matcher begin(mark_number);
detail::repeat_end_matcher<Greedy> end(mark_number, min_, max_);
result_type that = {{begin}, {marked_sub, {end}}};
return that;
}
};
};
///////////////////////////////////////////////////////////////////////////////
// optional_tag
template<typename Greedy>
struct optional_tag
{};
///////////////////////////////////////////////////////////////////////////////
// as_default_optional
template<typename Grammar, typename Greedy, typename Callable = proto::callable>
struct as_default_optional : proto::transform<as_default_optional<Grammar, Greedy, Callable> >
{
template<typename Expr, typename State, typename Data>
struct impl : proto::transform_impl<Expr, State, Data>
{
typedef
detail::alternate_end_xpression
end_xpr;
typedef
detail::optional_matcher<
typename Grammar::template impl<Expr, end_xpr, Data>::result_type
, Greedy
>
result_type;
result_type operator ()(
typename impl::expr_param expr
, typename impl::state_param
, typename impl::data_param data
) const
{
return result_type(
typename Grammar::template impl<Expr, end_xpr, Data>()(expr, end_xpr(), data)
);
}
};
};
///////////////////////////////////////////////////////////////////////////////
// as_mark_optional
template<typename Grammar, typename Greedy, typename Callable = proto::callable>
struct as_mark_optional : proto::transform<as_mark_optional<Grammar, Greedy, Callable> >
{
template<typename Expr, typename State, typename Data>
struct impl : proto::transform_impl<Expr, State, Data>
{
typedef
detail::alternate_end_xpression
end_xpr;
typedef
detail::optional_mark_matcher<
typename Grammar::template impl<Expr, end_xpr, Data>::result_type
, Greedy
>
result_type;
result_type operator ()(
typename impl::expr_param expr
, typename impl::state_param
, typename impl::data_param data
) const
{
int mark_number = proto::value(proto::left(expr)).mark_number_;
return result_type(
typename Grammar::template impl<Expr, end_xpr, Data>()(expr, end_xpr(), data)
, mark_number
);
}
};
};
///////////////////////////////////////////////////////////////////////////////
// IsMarkerOrRepeater
struct IsMarkerOrRepeater
: or_<
shift_right<terminal<detail::repeat_begin_matcher>, _>
, assign<terminal<detail::mark_placeholder>, _>
>
{};
///////////////////////////////////////////////////////////////////////////////
// as_optional
template<typename Grammar, typename Greedy>
struct as_optional
: or_<
when<IsMarkerOrRepeater, as_mark_optional<Grammar, Greedy> >
, otherwise<as_default_optional<Grammar, Greedy> >
>
{};
///////////////////////////////////////////////////////////////////////////////
// make_optional_
template<typename Greedy, typename Callable = proto::callable>
struct make_optional_ : proto::transform<make_optional_<Greedy, Callable> >
{
template<typename Expr, typename State, typename Data>
struct impl : proto::transform_impl<Expr, State, Data>
{
typedef typename impl::expr expr_type;
typedef
typename unary_expr<
optional_tag<Greedy>
, Expr
>::type
result_type;
result_type operator ()(
typename impl::expr_param expr
, typename impl::state_param
, typename impl::data_param
) const
{
result_type that = {expr};
return that;
}
};
};
///////////////////////////////////////////////////////////////////////////////
// as_default_quantifier_impl
template<typename Greedy, uint_t Max>
struct as_default_quantifier_impl<Greedy, 0, Max>
: call<make_optional_<Greedy>(as_default_quantifier_impl<Greedy, 1, Max>)>
{};
///////////////////////////////////////////////////////////////////////////////
// as_default_quantifier_impl
template<typename Greedy>
struct as_default_quantifier_impl<Greedy, 0, 1>
: call<make_optional_<Greedy>(_child)>
{};
///////////////////////////////////////////////////////////////////////////////
// as_default_quantifier
template<typename Greedy, typename Callable = proto::callable>
struct as_default_quantifier : proto::transform<as_default_quantifier<Greedy, Callable> >
{
template<typename Expr, typename State, typename Data>
struct impl : proto::transform_impl<Expr, State, Data>
{
typedef typename impl::expr expr_type;
typedef
as_default_quantifier_impl<
Greedy
, min_type<typename expr_type::proto_tag>::value
, max_type<typename expr_type::proto_tag>::value
>
other;
typedef
typename other::template impl<Expr, State, Data>::result_type
result_type;
result_type operator ()(
typename impl::expr_param expr
, typename impl::state_param state
, typename impl::data_param data
) const
{
return typename other::template impl<Expr, State, Data>()(expr, state, data);
}
};
};
}}}
#endif