📄 traverse.ipp
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(EnvT::level+1), (self_t::leftnum), (EnvT::index), (EnvT::lastleft)
> left_sub_env_t;
typedef typename traverse_post_order_return<
MetaT, LeftT, left_sub_env_t
>::type
left_t;
// right traversal environment and resulting parser type
typedef traverse_post_order_env<
(EnvT::level+1), (self_t::thisnum-1), (self_t::leafnum), (self_t::leftnum+1)
> right_sub_env_t;
typedef typename traverse_post_order_return<
MetaT, RightT, right_sub_env_t
>::type
right_t;
// actual traversal environment and resulting parser type
typedef traverse_post_order_env<
(EnvT::level), (self_t::thisnum), (EnvT::index), (EnvT::lastleft)
> return_env_t;
typedef typename MetaT::template binary_result<
BinaryT, left_t, right_t, return_env_t
>::type
nexttype;
typedef typename MetaT::template binary_result<
BinaryT, left_t, right_t, EnvT
>::type
type;
};
#endif // defined(BOOST_MSVC) && (BOOST_MSVC <= 1300)
///////////////////////////////////////////////////////////////////////////////
namespace impl
{
///////////////////////////////////////////////////////////////////////////
//
// Meta functions, which dispatch the calculation of the return type of
// of the post_order traverse function to the result template of the
// corresponding parser_category based metafunction template.
//
///////////////////////////////////////////////////////////////////////////
template <typename CategoryT>
struct traverse_post_order_return_category;
template <>
struct traverse_post_order_return_category<plain_parser_category> {
template <typename MetaT, typename ParserT, typename EnvT>
struct result {
typedef typename parser_traversal_plain_result<
MetaT, ParserT, EnvT
>::type
type;
};
};
template <>
struct traverse_post_order_return_category<unary_parser_category> {
template <typename MetaT, typename ParserT, typename EnvT>
struct result {
typedef typename parser_traversal_unary_result<
MetaT, ParserT, typename ParserT::subject_t, EnvT
>::type
type;
};
};
template <>
struct traverse_post_order_return_category<action_parser_category> {
template <typename MetaT, typename ParserT, typename EnvT>
struct result {
typedef typename parser_traversal_action_result<
MetaT, ParserT, typename ParserT::subject_t, EnvT
>::type
type;
};
};
template <>
struct traverse_post_order_return_category<binary_parser_category> {
template <typename MetaT, typename ParserT, typename EnvT>
struct result {
typedef typename parser_traversal_binary_result<
MetaT, ParserT, typename ParserT::left_t,
typename ParserT::right_t, EnvT
>::type
type;
};
};
///////////////////////////////////////////////////////////////////////////
//
// Post-order parser traversal
//
// The following templates contain the parser_category based code for
//
// - calculating the type of the resulting parser, which is to be
// returned from a level of traversal
// - traversing down the composite parser structure, this traversal
// returnes a new parser object
//
// Both tasks are delegated to the MetaT metafunction supplied by the
// user.
//
///////////////////////////////////////////////////////////////////////////
template <typename CategoryT>
struct traverse_post_order;
template <>
struct traverse_post_order<plain_parser_category> {
template <typename MetaT, typename ParserT, typename EnvT>
struct result {
typedef
typename parser_traversal_plain_result<MetaT, ParserT, EnvT>::type
type;
};
template <typename MetaT, typename ParserT, typename EnvT>
static
typename parser_traversal_plain_result<MetaT, ParserT, EnvT>::nexttype
generate(MetaT const &meta_, ParserT const &parser_, EnvT const &env)
{
return meta_.generate_plain(parser_, env);
}
};
template <>
struct traverse_post_order<unary_parser_category> {
template <
typename MetaT, typename ParserT, typename SubjectT, typename EnvT
>
struct result {
typedef typename parser_traversal_unary_result<
MetaT, ParserT, SubjectT, EnvT
>::type
type;
};
template <typename MetaT, typename ParserT, typename EnvT>
static
typename parser_traversal_unary_result<
MetaT, ParserT, typename ParserT::subject_t, EnvT
>::nexttype
generate(MetaT const &meta_, ParserT const &unary_, EnvT const &env)
{
typedef typename ParserT::subject_t subject_t;
typedef typename subject_t::parser_category_t subject_category_t;
return meta_.generate_unary(
unary_,
traverse_post_order<subject_category_t>::generate(meta_,
unary_.subject(),
traverse_post_order_env<
EnvT::level+1, EnvT::node-1, EnvT::index, EnvT::lastleft
>()
),
env
);
}
};
template <>
struct traverse_post_order<action_parser_category> {
template <
typename MetaT, typename ParserT, typename SubjectT, typename EnvT
>
struct result {
typedef typename parser_traversal_action_result<
MetaT, ParserT, SubjectT, EnvT
>::type
type;
};
template <typename MetaT, typename ParserT, typename EnvT>
static
typename parser_traversal_action_result<
MetaT, ParserT, typename ParserT::subject_t, EnvT
>::nexttype
generate(MetaT const &meta_, ParserT const &action_, EnvT const &env)
{
typedef typename ParserT::subject_t subject_t;
typedef typename subject_t::parser_category_t subject_category_t;
return meta_.generate_action(
action_,
traverse_post_order<subject_category_t>::generate(meta_,
action_.subject(),
traverse_post_order_env<
EnvT::level+1, EnvT::node-1, EnvT::index, EnvT::lastleft
>()
),
env
);
}
};
template <>
struct traverse_post_order<binary_parser_category> {
template <
typename MetaT, typename ParserT, typename LeftT,
typename RightT, typename EnvT
>
struct result {
typedef typename parser_traversal_binary_result<
MetaT, ParserT, LeftT, RightT, EnvT
>::type
type;
};
template <typename MetaT, typename ParserT, typename EnvT>
static
typename parser_traversal_binary_result<
MetaT, ParserT, typename ParserT::left_t,
typename ParserT::right_t, EnvT
>::nexttype
generate(MetaT const &meta_, ParserT const &binary_, EnvT const& /*env*/)
{
typedef typename ParserT::left_t left_t;
typedef typename ParserT::right_t right_t;
typedef typename left_t::parser_category_t left_category_t;
typedef typename right_t::parser_category_t right_category_t;
enum {
leftnum = (node_count<left_t>::value + EnvT::lastleft-1),
thisnum = (node_count<ParserT>::value + EnvT::lastleft-1),
rightnum = (thisnum-1),
leafnum = (leaf_count<left_t>::value + EnvT::index)
};
return meta_.generate_binary(
binary_,
traverse_post_order<left_category_t>::generate(
meta_, binary_.left(),
traverse_post_order_env<
EnvT::level+1, leftnum, EnvT::index, EnvT::lastleft
>()
),
traverse_post_order<right_category_t>::generate(
meta_, binary_.right(),
traverse_post_order_env<
EnvT::level+1, rightnum, leafnum, leftnum+1
>()
),
traverse_post_order_env<
EnvT::level, thisnum, EnvT::index, EnvT::lastleft
>()
);
}
};
} // namespace impl
///////////////////////////////////////////////////////////////////////////////
}} // namespace boost::spirit
#endif // !defined(BOOST_SPIRIT_TRAVERSE_IPP)
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