YouCompleteMe/cpp/BoostParts/boost/python/detail/def_helper.hpp
2012-05-09 21:45:30 -07:00

213 lines
6.4 KiB
C++

// Copyright David Abrahams 2002.
// 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 DEF_HELPER_DWA200287_HPP
# define DEF_HELPER_DWA200287_HPP
# include <boost/python/args.hpp>
# include <boost/type_traits/ice.hpp>
# include <boost/type_traits/same_traits.hpp>
# include <boost/python/detail/indirect_traits.hpp>
# include <boost/mpl/not.hpp>
# include <boost/mpl/and.hpp>
# include <boost/mpl/or.hpp>
# include <boost/type_traits/add_reference.hpp>
# include <boost/mpl/lambda.hpp>
# include <boost/mpl/apply.hpp>
# include <boost/tuple/tuple.hpp>
# include <boost/python/detail/not_specified.hpp>
# include <boost/python/detail/def_helper_fwd.hpp>
namespace boost { namespace python {
struct default_call_policies;
namespace detail
{
// tuple_extract<Tuple,Predicate>::extract(t) returns the first
// element of a Tuple whose type E satisfies the given Predicate
// applied to add_reference<E>. The Predicate must be an MPL
// metafunction class.
template <class Tuple, class Predicate>
struct tuple_extract;
// Implementation class for when the tuple's head type does not
// satisfy the Predicate
template <bool matched>
struct tuple_extract_impl
{
template <class Tuple, class Predicate>
struct apply
{
typedef typename Tuple::head_type result_type;
static typename Tuple::head_type extract(Tuple const& x)
{
return x.get_head();
}
};
};
// Implementation specialization for when the tuple's head type
// satisfies the predicate
template <>
struct tuple_extract_impl<false>
{
template <class Tuple, class Predicate>
struct apply
{
// recursive application of tuple_extract on the tail of the tuple
typedef tuple_extract<typename Tuple::tail_type, Predicate> next;
typedef typename next::result_type result_type;
static result_type extract(Tuple const& x)
{
return next::extract(x.get_tail());
}
};
};
// A metafunction which selects a version of tuple_extract_impl to
// use for the implementation of tuple_extract
template <class Tuple, class Predicate>
struct tuple_extract_base_select
{
typedef typename Tuple::head_type head_type;
typedef typename mpl::apply1<Predicate, typename add_reference<head_type>::type>::type match_t;
BOOST_STATIC_CONSTANT(bool, match = match_t::value);
typedef typename tuple_extract_impl<match>::template apply<Tuple,Predicate> type;
};
template <class Tuple, class Predicate>
struct tuple_extract
: tuple_extract_base_select<
Tuple
, typename mpl::lambda<Predicate>::type
>::type
{
};
//
// Specialized extractors for the docstring, keywords, CallPolicies,
// and default implementation of virtual functions
//
template <class Tuple>
struct doc_extract
: tuple_extract<
Tuple
, mpl::not_<
mpl::or_<
indirect_traits::is_reference_to_class<mpl::_1>
, indirect_traits::is_reference_to_member_function_pointer<mpl::_1 >
>
>
>
{
};
template <class Tuple>
struct keyword_extract
: tuple_extract<Tuple, is_reference_to_keywords<mpl::_1 > >
{
};
template <class Tuple>
struct policy_extract
: tuple_extract<
Tuple
, mpl::and_<
mpl::not_<is_same<not_specified const&,mpl::_1> >
, indirect_traits::is_reference_to_class<mpl::_1 >
, mpl::not_<is_reference_to_keywords<mpl::_1 > >
>
>
{
};
template <class Tuple>
struct default_implementation_extract
: tuple_extract<
Tuple
, indirect_traits::is_reference_to_member_function_pointer<mpl::_1 >
>
{
};
//
// A helper class for decoding the optional arguments to def()
// invocations, which can be supplied in any order and are
// discriminated by their type properties. The template parameters
// are expected to be the types of the actual (optional) arguments
// passed to def().
//
template <class T1, class T2, class T3, class T4>
struct def_helper
{
// A tuple type which begins with references to the supplied
// arguments and ends with actual representatives of the default
// types.
typedef boost::tuples::tuple<
T1 const&
, T2 const&
, T3 const&
, T4 const&
, default_call_policies
, detail::keywords<0>
, char const*
, void(not_specified::*)() // A function pointer type which is never an
// appropriate default implementation
> all_t;
// Constructors; these initialize an member of the tuple type
// shown above.
def_helper(T1 const& a1) : m_all(a1,m_nil,m_nil,m_nil) {}
def_helper(T1 const& a1, T2 const& a2) : m_all(a1,a2,m_nil,m_nil) {}
def_helper(T1 const& a1, T2 const& a2, T3 const& a3) : m_all(a1,a2,a3,m_nil) {}
def_helper(T1 const& a1, T2 const& a2, T3 const& a3, T4 const& a4) : m_all(a1,a2,a3,a4) {}
private: // types
typedef typename default_implementation_extract<all_t>::result_type default_implementation_t;
public: // Constants which can be used for static assertions.
// Users must not supply a default implementation for non-class
// methods.
BOOST_STATIC_CONSTANT(
bool, has_default_implementation = (
!is_same<default_implementation_t, void(not_specified::*)()>::value));
public: // Extractor functions which pull the appropriate value out
// of the tuple
char const* doc() const
{
return doc_extract<all_t>::extract(m_all);
}
typename keyword_extract<all_t>::result_type keywords() const
{
return keyword_extract<all_t>::extract(m_all);
}
typename policy_extract<all_t>::result_type policies() const
{
return policy_extract<all_t>::extract(m_all);
}
default_implementation_t default_implementation() const
{
return default_implementation_extract<all_t>::extract(m_all);
}
private: // data members
all_t m_all;
not_specified m_nil; // for filling in not_specified slots
};
}
}} // namespace boost::python::detail
#endif // DEF_HELPER_DWA200287_HPP