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boost/spirit/home/qi/detail/alternative_function.hpp

/*=============================================================================
    Copyright (c) 2001-2011 Hartmut Kaiser

    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_SPIRIT_QI_DETAIL_ALTERNATIVE_FUNCTION_HPP
#define BOOST_SPIRIT_QI_DETAIL_ALTERNATIVE_FUNCTION_HPP

#if defined(_MSC_VER)
#pragma once
#endif

#include <boost/spirit/home/qi/domain.hpp>
#include <boost/spirit/home/qi/detail/assign_to.hpp>
#include <boost/spirit/home/support/unused.hpp>
#include <boost/spirit/home/qi/detail/attributes.hpp>
#include <boost/variant.hpp>
#include <boost/mpl/bool.hpp>

namespace boost { namespace spirit { namespace qi { namespace detail
{
    template <typename Variant, typename T>
    struct find_substitute
    {
        // Get the type from the Variant that can be a substitute for T.
        // If none is found, just return T

        typedef Variant variant_type;
        typedef typename variant_type::types types;
        typedef typename mpl::end<types>::type end;

        typedef typename mpl::find<types, T>::type iter_1;

        typedef typename
            mpl::eval_if<
                is_same<iter_1, end>,
                mpl::find_if<types, traits::is_substitute<T, mpl::_1> >,
                mpl::identity<iter_1>
            >::type
        iter;

        typedef typename
            mpl::eval_if<
                is_same<iter, end>,
                mpl::identity<T>,
                mpl::deref<iter>
            >::type
        type;
    };

#ifdef _MSC_VER
#  pragma warning(push)
#  pragma warning(disable: 4512) // assignment operator could not be generated.
#endif
    template <typename Iterator, typename Context, typename Skipper,
        typename Attribute>
    struct alternative_function
    {
        alternative_function(
            Iterator& first_, Iterator const& last_, Context& context_,
            Skipper const& skipper_, Attribute& attr_)
          : first(first_), last(last_), context(context_), skipper(skipper_),
            attr(attr_)
        {
        }

        template <typename Component>
        bool call(Component const& component, mpl::true_) const
        {
            // if Attribute is not a variant, then pass it as-is
            return component.parse(first, last, context, skipper, attr);
        }

        template <typename Component>
        bool call_optional_or_variant(Component const& component, mpl::true_) const
        {
            // If Attribute is an optional, then create an attribute for the Component
            // with the type optional::value_type. If the expected attribute is unused type,
            // use it instead.
            typedef typename
                traits::attribute_of<Component, Context, Iterator>::type
            expected_type;

            typename mpl::if_<
                is_same<expected_type, unused_type>,
                unused_type,
                typename Attribute::value_type>::type
            val;

            if (component.parse(first, last, context, skipper, val))
            {
                traits::assign_to(val, attr);
                return true;
            }
            return false;
        }

        template <typename Component>
        bool call_variant(Component const& component, mpl::false_) const
        {
            // If Attribute is a variant, then search the variant types for a
            // suitable substitute type.

            typename
                find_substitute<Attribute,
                    typename traits::attribute_of<Component, Context, Iterator>::type
                >::type
            val;

            if (component.parse(first, last, context, skipper, val))
            {
                traits::assign_to(val, attr);
                return true;
            }
            return false;
        }

        template <typename Component>
        bool call_variant(Component const& component, mpl::true_) const
        {
            // If Attribute is a variant and the expected attribute is
            // the same type (pass the variant as-is).

            return component.parse(first, last, context, skipper, attr);
        }

        template <typename Component>
        bool call_optional_or_variant(Component const& component, mpl::false_) const
        {
            // Attribute is a variant...

            typedef typename
                traits::attribute_of<Component, Context, Iterator>::type
            expected;
            return call_variant(component,
                is_same<Attribute, expected>());
        }

        template <typename Component>
        bool call(Component const& component, mpl::false_) const
        {
            return call_optional_or_variant(
                component, spirit::traits::not_is_variant<Attribute, qi::domain>());
        }

        template <typename Component>
        bool call_unused(Component const& component, mpl::true_) const
        {
            // return true if the parser succeeds
            return call(component,
                mpl::and_<
                    spirit::traits::not_is_variant<Attribute, qi::domain>,
                    spirit::traits::not_is_optional<Attribute, qi::domain>
                >());
        }

        template <typename Component>
        bool call_unused(Component const& component, mpl::false_) const
        {
            return component.parse(first, last, context, skipper, unused);
        }

        template <typename Component>
        bool operator()(Component const& component) const
        {
            // return true if the parser succeeds
            typedef typename traits::not_is_unused<
                typename traits::attribute_of<Component, Context, Iterator>::type
            >::type predicate;

            return call_unused(component, predicate());
        }

        Iterator& first;
        Iterator const& last;
        Context& context;
        Skipper const& skipper;
        Attribute& attr;
    };

    template <typename Iterator, typename Context, typename Skipper>
    struct alternative_function<Iterator, Context, Skipper, unused_type const>
    {
        alternative_function(
            Iterator& first_, Iterator const& last_, Context& context_,
            Skipper const& skipper_, unused_type)
          : first(first_), last(last_), context(context_), skipper(skipper_)
        {
        }

        template <typename Component>
        bool operator()(Component const& component) const
        {
            // return true if the parser succeeds
            return component.parse(first, last, context, skipper,
                unused);
        }

        Iterator& first;
        Iterator const& last;
        Context& context;
        Skipper const& skipper;
    };
#ifdef _MSC_VER
#  pragma warning(pop)
#endif

}}}}

#endif