boost/python/detail/unwind_type.hpp
// 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 UNWIND_TYPE_DWA200222_HPP # define UNWIND_TYPE_DWA200222_HPP # include <boost/python/detail/cv_category.hpp> # include <boost/python/detail/indirect_traits.hpp> # include <boost/type_traits/object_traits.hpp> namespace boost { namespace python { namespace detail { #ifndef _MSC_VER //if forward declared, msvc6.5 does not recognize them as inline // forward declaration, required (at least) by Tru64 cxx V6.5-042 template <class Generator, class U> inline typename Generator::result_type unwind_type(U const& p, Generator* = 0); // forward declaration, required (at least) by Tru64 cxx V6.5-042 template <class Generator, class U> inline typename Generator::result_type unwind_type(boost::type<U>*p = 0, Generator* = 0); #endif template <class Generator, class U> inline typename Generator::result_type unwind_type_cv(U* p, cv_unqualified, Generator* = 0) { return Generator::execute(p); } template <class Generator, class U> inline typename Generator::result_type unwind_type_cv(U const* p, const_, Generator* = 0) { return unwind_type(const_cast<U*>(p), (Generator*)0); } template <class Generator, class U> inline typename Generator::result_type unwind_type_cv(U volatile* p, volatile_, Generator* = 0) { return unwind_type(const_cast<U*>(p), (Generator*)0); } template <class Generator, class U> inline typename Generator::result_type unwind_type_cv(U const volatile* p, const_volatile_, Generator* = 0) { return unwind_type(const_cast<U*>(p), (Generator*)0); } template <class Generator, class U> inline typename Generator::result_type unwind_ptr_type(U* p, Generator* = 0) { typedef typename cv_category<U>::type tag; return unwind_type_cv<Generator>(p, tag()); } template <bool is_ptr> struct unwind_helper { template <class Generator, class U> static typename Generator::result_type execute(U p, Generator* = 0) { return unwind_ptr_type(p, (Generator*)0); } }; template <> struct unwind_helper<false> { template <class Generator, class U> static typename Generator::result_type execute(U& p, Generator* = 0) { return unwind_ptr_type(&p, (Generator*)0); } }; template <class Generator, class U> inline typename Generator::result_type #ifndef _MSC_VER unwind_type(U const& p, Generator*) #else unwind_type(U const& p, Generator* = 0) #endif { return unwind_helper<is_pointer<U>::value>::execute(p, (Generator*)0); } enum { direct_ = 0, pointer_ = 1, reference_ = 2, reference_to_pointer_ = 3 }; template <int indirection> struct unwind_helper2; template <> struct unwind_helper2<direct_> { template <class Generator, class U> static typename Generator::result_type execute(U(*)(), Generator* = 0) { return unwind_ptr_type((U*)0, (Generator*)0); } }; template <> struct unwind_helper2<pointer_> { template <class Generator, class U> static typename Generator::result_type execute(U*(*)(), Generator* = 0) { return unwind_ptr_type((U*)0, (Generator*)0); } }; template <> struct unwind_helper2<reference_> { template <class Generator, class U> static typename Generator::result_type execute(U&(*)(), Generator* = 0) { return unwind_ptr_type((U*)0, (Generator*)0); } }; template <> struct unwind_helper2<reference_to_pointer_> { template <class Generator, class U> static typename Generator::result_type execute(U&(*)(), Generator* = 0) { return unwind_ptr_type(U(0), (Generator*)0); } }; // Call this one with both template parameters explicitly specified // and no function arguments: // // return unwind_type<my_generator,T>(); // // Doesn't work if T is an array type; we could handle that case, but // why bother? template <class Generator, class U> inline typename Generator::result_type #ifndef _MSC_VER unwind_type(boost::type<U>*, Generator*) #else unwind_type(boost::type<U>*p =0, Generator* =0) #endif { BOOST_STATIC_CONSTANT(int, indirection = (boost::is_pointer<U>::value ? pointer_ : 0) + (indirect_traits::is_reference_to_pointer<U>::value ? reference_to_pointer_ : boost::is_reference<U>::value ? reference_ : 0)); return unwind_helper2<indirection>::execute((U(*)())0,(Generator*)0); } }}} // namespace boost::python::detail #endif // UNWIND_TYPE_DWA200222_HPP