231 lines
6.2 KiB
C++
231 lines
6.2 KiB
C++
// Copyright David Abrahams 2002.
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// Distributed under the Boost Software License, Version 1.0. (See
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// accompanying file LICENSE_1_0.txt or copy at
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// http://www.boost.org/LICENSE_1_0.txt)
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#ifndef OBJECT_MANAGER_DWA2002614_HPP
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# define OBJECT_MANAGER_DWA2002614_HPP
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# include <boost/python/handle.hpp>
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# include <boost/python/cast.hpp>
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# include <boost/python/converter/pyobject_traits.hpp>
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# include <boost/type_traits/object_traits.hpp>
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# include <boost/mpl/if.hpp>
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# include <boost/python/detail/indirect_traits.hpp>
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# include <boost/mpl/bool.hpp>
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// Facilities for dealing with types which always manage Python
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// objects. Some examples are object, list, str, et. al. Different
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// to_python/from_python conversion rules apply here because in
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// contrast to other types which are typically embedded inside a
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// Python object, these are wrapped around a Python object. For most
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// object managers T, a C++ non-const T reference argument does not
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// imply the existence of a T lvalue embedded in the corresponding
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// Python argument, since mutating member functions on T actually only
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// modify the held Python object.
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//
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// handle<T> is an object manager, though strictly speaking it should
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// not be. In other words, even though mutating member functions of
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// hanlde<T> actually modify the handle<T> and not the T object,
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// handle<T>& arguments of wrapped functions will bind to "rvalues"
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// wrapping the actual Python argument, just as with other object
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// manager classes. Making an exception for handle<T> is simply not
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// worth the trouble.
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//
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// borrowed<T> cv* is an object manager so that we can use the general
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// to_python mechanisms to convert raw Python object pointers to
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// python, without the usual semantic problems of using raw pointers.
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// Object Manager Concept requirements:
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//
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// T is an Object Manager
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// p is a PyObject*
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// x is a T
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//
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// * object_manager_traits<T>::is_specialized == true
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//
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// * T(detail::borrowed_reference(p))
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// Manages p without checking its type
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//
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// * get_managed_object(x, boost::python::tag)
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// Convertible to PyObject*
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//
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// Additional requirements if T can be converted from_python:
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//
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// * T(object_manager_traits<T>::adopt(p))
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// steals a reference to p, or throws a TypeError exception if
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// p doesn't have an appropriate type. May assume p is non-null
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//
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// * X::check(p)
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// convertible to bool. True iff T(X::construct(p)) will not
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// throw.
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// Forward declarations
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//
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namespace boost { namespace python
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{
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namespace api
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{
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class object;
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}
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}}
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namespace boost { namespace python { namespace converter {
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// Specializations for handle<T>
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template <class T>
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struct handle_object_manager_traits
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: pyobject_traits<typename T::element_type>
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{
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private:
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typedef pyobject_traits<typename T::element_type> base;
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public:
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BOOST_STATIC_CONSTANT(bool, is_specialized = true);
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// Initialize with a null_ok pointer for efficiency, bypassing the
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// null check since the source is always non-null.
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static null_ok<typename T::element_type>* adopt(PyObject* p)
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{
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return python::allow_null(base::checked_downcast(p));
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}
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};
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template <class T>
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struct default_object_manager_traits
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{
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BOOST_STATIC_CONSTANT(
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bool, is_specialized = python::detail::is_borrowed_ptr<T>::value
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);
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};
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template <class T>
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struct object_manager_traits
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: mpl::if_c<
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is_handle<T>::value
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, handle_object_manager_traits<T>
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, default_object_manager_traits<T>
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>::type
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{
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};
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//
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// Traits for detecting whether a type is an object manager or a
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// (cv-qualified) reference to an object manager.
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//
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template <class T>
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struct is_object_manager
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: mpl::bool_<object_manager_traits<T>::is_specialized>
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{
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};
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# ifndef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
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template <class T>
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struct is_reference_to_object_manager
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: mpl::false_
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{
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};
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template <class T>
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struct is_reference_to_object_manager<T&>
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: is_object_manager<T>
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{
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};
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template <class T>
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struct is_reference_to_object_manager<T const&>
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: is_object_manager<T>
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{
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};
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template <class T>
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struct is_reference_to_object_manager<T volatile&>
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: is_object_manager<T>
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{
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};
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template <class T>
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struct is_reference_to_object_manager<T const volatile&>
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: is_object_manager<T>
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{
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};
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# else
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namespace detail
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{
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typedef char (&yes_reference_to_object_manager)[1];
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typedef char (&no_reference_to_object_manager)[2];
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// A number of nastinesses go on here in order to work around MSVC6
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// bugs.
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template <class T>
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struct is_object_manager_help
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{
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typedef typename mpl::if_<
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is_object_manager<T>
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, yes_reference_to_object_manager
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, no_reference_to_object_manager
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>::type type;
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// If we just use the type instead of the result of calling this
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// function, VC6 will ICE.
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static type call();
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};
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// A set of overloads for each cv-qualification. The same argument
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// is passed twice: the first one is used to unwind the cv*, and the
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// second one is used to avoid relying on partial ordering for
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// overload resolution.
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template <class U>
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typename is_object_manager_help<U>
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is_object_manager_helper(U*, void*);
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template <class U>
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typename is_object_manager_help<U>
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is_object_manager_helper(U const*, void const*);
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template <class U>
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typename is_object_manager_help<U>
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is_object_manager_helper(U volatile*, void volatile*);
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template <class U>
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typename is_object_manager_help<U>
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is_object_manager_helper(U const volatile*, void const volatile*);
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template <class T>
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struct is_reference_to_object_manager_nonref
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: mpl::false_
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{
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};
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template <class T>
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struct is_reference_to_object_manager_ref
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{
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static T sample_object;
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BOOST_STATIC_CONSTANT(
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bool, value
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= (sizeof(is_object_manager_helper(&sample_object, &sample_object).call())
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== sizeof(detail::yes_reference_to_object_manager)
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)
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);
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typedef mpl::bool_<value> type;
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};
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}
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template <class T>
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struct is_reference_to_object_manager
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: mpl::if_<
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is_reference<T>
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, detail::is_reference_to_object_manager_ref<T>
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, detail::is_reference_to_object_manager_nonref<T>
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>::type
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{
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};
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# endif
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}}} // namespace boost::python::converter
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#endif // OBJECT_MANAGER_DWA2002614_HPP
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