x
Yes
No
Do you want to visit DriveHQ English website?
Inicio
Características
Precios
Prueba gratuita
Software cliente
Acerca de nosotros
Servidor de archivos
|
Solución de copias de seguridad
|
Servidor FTP
|
Servidor de correo electrónico
|
Alojamiento web
|
Software cliente
Servidor de archivos
Solución de copia de seguridad
Servidor FTP
Servidor de correo electrónico
Alojamiento web
Software cliente
arg_from_python.hpp - Hosted on DriveHQ Cloud IT Platform
Arriba
Subir
Descargar
Compartir
Publicar
Nueva carpeta
Nuevo archivo
Copiar
Cortar
Eliminar
Pegar
Clasificación
Actualizar
Ruta de la carpeta: \\game3dprogramming\materials\GameFactory\GameFactoryDemo\references\boost_1_35_0\boost\python\converter\arg_from_python.hpp
Girar
Efecto
Propiedad
Historial
// 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 ARG_FROM_PYTHON_DWA2002127_HPP # define ARG_FROM_PYTHON_DWA2002127_HPP # include
# include
# include
# include
# include
# include
# include
# include
# include
# include
# include
# include
# include
# include
# include
# include
# include
# include
# include
namespace boost { namespace python { template
struct arg_from_python; }} // This header defines Python->C++ function argument converters, // parametrized on the argument type. namespace boost { namespace python { namespace converter { // // lvalue converters // // These require that an lvalue of the type U is stored somewhere in // the Python object being converted. // Used when T == U*const& template
struct pointer_cref_arg_from_python { typedef T result_type; pointer_cref_arg_from_python(PyObject*); T operator()() const; bool convertible() const; private: // storage for a U* // needed because not all compilers will let us declare U* as the // return type of operator() -- we return U*const& instead typename python::detail::referent_storage
::type m_result; }; // Base class for pointer and reference converters struct arg_lvalue_from_python_base { public: // member functions arg_lvalue_from_python_base(void* result); bool convertible() const; protected: // member functions void*const& result() const; private: // data members void* m_result; }; // Used when T == U* template
struct pointer_arg_from_python : arg_lvalue_from_python_base { typedef T result_type; pointer_arg_from_python(PyObject*); T operator()() const; }; // Used when T == U& and (T != V const& or T == W volatile&) template
struct reference_arg_from_python : arg_lvalue_from_python_base { typedef T result_type; reference_arg_from_python(PyObject*); T operator()() const; }; // =================== // // rvalue converters // // These require only that an object of type T can be created from // the given Python object, but not that the T object exist // somewhere in storage. // // Used when T is a plain value (non-pointer, non-reference) type or // a (non-volatile) const reference to a plain value type. template
struct arg_rvalue_from_python { typedef typename boost::add_reference< T // We can't add_const here, or it would be impossible to pass // auto_ptr
args from Python to C++ >::type result_type; arg_rvalue_from_python(PyObject*); bool convertible() const; # if BOOST_MSVC < 1301 || _MSC_FULL_VER > 13102196 typename arg_rvalue_from_python
:: # endif result_type operator()(); private: rvalue_from_python_data
m_data; PyObject* m_source; }; // ================== // Converts to a (PyObject*,T) bundle, for when you need a reference // back to the Python object template
struct back_reference_arg_from_python : boost::python::arg_from_python
{ typedef T result_type; back_reference_arg_from_python(PyObject*); T operator()(); private: typedef boost::python::arg_from_python
base; PyObject* m_source; }; // ================== template
struct if_2 { typedef typename mpl::eval_if
, F>::type type; }; // This metafunction selects the appropriate arg_from_python converter // type for an argument of type T. template
struct select_arg_from_python { typedef typename if_2< is_object_manager
, object_manager_value_arg_from_python
, if_2< is_reference_to_object_manager
, object_manager_ref_arg_from_python
, if_2< is_pointer
, pointer_arg_from_python
, if_2< mpl::and_< indirect_traits::is_reference_to_pointer
, indirect_traits::is_reference_to_const
, mpl::not_
> > , pointer_cref_arg_from_python
, if_2< mpl::or_< indirect_traits::is_reference_to_non_const
, indirect_traits::is_reference_to_volatile
> , reference_arg_from_python
, mpl::if_< boost::python::is_back_reference
, back_reference_arg_from_python
, arg_rvalue_from_python
> > > > > >::type type; }; // ================== // // implementations // // arg_lvalue_from_python_base // inline arg_lvalue_from_python_base::arg_lvalue_from_python_base(void* result) : m_result(result) { } inline bool arg_lvalue_from_python_base::convertible() const { return m_result != 0; } inline void*const& arg_lvalue_from_python_base::result() const { return m_result; } // pointer_cref_arg_from_python // namespace detail { // null_ptr_reference -- a function returning a reference to a null // pointer of type U. Needed so that extractors for T*const& can // convert Python's None. template
struct null_ptr_owner { static T value; }; template
T null_ptr_owner
::value = 0; template
inline U& null_ptr_reference(U&(*)()) { return null_ptr_owner
::value; } } template
inline pointer_cref_arg_from_python
::pointer_cref_arg_from_python(PyObject* p) { // T == U*const&: store a U* in the m_result storage. Nonzero // indicates success. If find returns nonzero, it's a pointer to // a U object. python::detail::write_void_ptr_reference( m_result.bytes , p == Py_None ? p : converter::get_lvalue_from_python(p, registered_pointee
::converters) , (T(*)())0); } template
inline bool pointer_cref_arg_from_python
::convertible() const { return python::detail::void_ptr_to_reference(m_result.bytes, (T(*)())0) != 0; } template
inline T pointer_cref_arg_from_python
::operator()() const { return (*(void**)m_result.bytes == Py_None) // None ==> 0 ? detail::null_ptr_reference((T(*)())0) // Otherwise, return a U*const& to the m_result storage. : python::detail::void_ptr_to_reference(m_result.bytes, (T(*)())0); } // pointer_arg_from_python // template
inline pointer_arg_from_python
::pointer_arg_from_python(PyObject* p) : arg_lvalue_from_python_base( p == Py_None ? p : converter::get_lvalue_from_python(p, registered_pointee
::converters)) { } template
inline T pointer_arg_from_python
::operator()() const { return (result() == Py_None) ? 0 : T(result()); } // reference_arg_from_python // template
inline reference_arg_from_python
::reference_arg_from_python(PyObject* p) : arg_lvalue_from_python_base(converter::get_lvalue_from_python(p,registered
::converters)) { } template
inline T reference_arg_from_python
::operator()() const { return python::detail::void_ptr_to_reference(result(), (T(*)())0); } // arg_rvalue_from_python // template
inline arg_rvalue_from_python
::arg_rvalue_from_python(PyObject* obj) : m_data(converter::rvalue_from_python_stage1(obj, registered
::converters)) , m_source(obj) { } template
inline bool arg_rvalue_from_python
::convertible() const { return m_data.stage1.convertible != 0; } template
inline typename arg_rvalue_from_python
::result_type arg_rvalue_from_python
::operator()() { if (m_data.stage1.construct != 0) m_data.stage1.construct(m_source, &m_data.stage1); return python::detail::void_ptr_to_reference(m_data.stage1.convertible, (result_type(*)())0); } // back_reference_arg_from_python // template
back_reference_arg_from_python
::back_reference_arg_from_python(PyObject* x) : base(x), m_source(x) { } template
inline T back_reference_arg_from_python
::operator()() { return T(m_source, base::operator()()); } }}} // namespace boost::python::converter #endif // ARG_FROM_PYTHON_DWA2002127_HPP
arg_from_python.hpp
Dirección de la página
Dirección del archivo
Anterior 1/27
Siguiente
Descargar
( 9 KB )
Comments
Total ratings:
0
Average rating:
No clasificado
of 10
Would you like to comment?
Join now
, or
Logon
if you are already a member.