// 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 OBJECT_MANAGER_DWA2002614_HPP # define OBJECT_MANAGER_DWA2002614_HPP # include # include # include # include # include # include # include // Facilities for dealing with types which always manage Python // objects. Some examples are object, list, str, et. al. Different // to_python/from_python conversion rules apply here because in // contrast to other types which are typically embedded inside a // Python object, these are wrapped around a Python object. For most // object managers T, a C++ non-const T reference argument does not // imply the existence of a T lvalue embedded in the corresponding // Python argument, since mutating member functions on T actually only // modify the held Python object. // // handle is an object manager, though strictly speaking it should // not be. In other words, even though mutating member functions of // hanlde actually modify the handle and not the T object, // handle& arguments of wrapped functions will bind to "rvalues" // wrapping the actual Python argument, just as with other object // manager classes. Making an exception for handle is simply not // worth the trouble. // // borrowed cv* is an object manager so that we can use the general // to_python mechanisms to convert raw Python object pointers to // python, without the usual semantic problems of using raw pointers. // Object Manager Concept requirements: // // T is an Object Manager // p is a PyObject* // x is a T // // * object_manager_traits::is_specialized == true // // * T(detail::borrowed_reference(p)) // Manages p without checking its type // // * get_managed_object(x, boost::python::tag) // Convertible to PyObject* // // Additional requirements if T can be converted from_python: // // * T(object_manager_traits::adopt(p)) // steals a reference to p, or throws a TypeError exception if // p doesn't have an appropriate type. May assume p is non-null // // * X::check(p) // convertible to bool. True iff T(X::construct(p)) will not // throw. // Forward declarations // namespace boost { namespace python { namespace api { class object; } }} namespace boost { namespace python { namespace converter { // Specializations for handle template struct handle_object_manager_traits : pyobject_traits { private: typedef pyobject_traits base; public: BOOST_STATIC_CONSTANT(bool, is_specialized = true); // Initialize with a null_ok pointer for efficiency, bypassing the // null check since the source is always non-null. static null_ok* adopt(PyObject* p) { return python::allow_null(base::checked_downcast(p)); } }; template struct default_object_manager_traits { BOOST_STATIC_CONSTANT( bool, is_specialized = python::detail::is_borrowed_ptr::value ); }; template struct object_manager_traits : mpl::if_c< is_handle::value , handle_object_manager_traits , default_object_manager_traits >::type { }; // // Traits for detecting whether a type is an object manager or a // (cv-qualified) reference to an object manager. // template struct is_object_manager : mpl::bool_::is_specialized> { }; template struct is_reference_to_object_manager : mpl::false_ { }; template struct is_reference_to_object_manager : is_object_manager { }; template struct is_reference_to_object_manager : is_object_manager { }; template struct is_reference_to_object_manager : is_object_manager { }; template struct is_reference_to_object_manager : is_object_manager { }; }}} // namespace boost::python::converter #endif // OBJECT_MANAGER_DWA2002614_HPP