DictOffset() public static method

public static DictOffset ( IntPtr ob ) : int
ob System.IntPtr
return int
Ejemplo n.º 1
0
        internal CLRObject(Object ob, IntPtr tp) : base()
        {
            IntPtr py = Runtime.PyType_GenericAlloc(tp, 0);

            int flags = (int)Marshal.ReadIntPtr(tp, TypeOffset.tp_flags);

            if ((flags & TypeFlags.Subclass) != 0)
            {
                IntPtr dict = Marshal.ReadIntPtr(py, ObjectOffset.DictOffset(tp));
                if (dict == IntPtr.Zero)
                {
                    dict = Runtime.PyDict_New();
                    Marshal.WriteIntPtr(py, ObjectOffset.DictOffset(tp), dict);
                }
            }

            GCHandle gc = GCHandle.Alloc(this);

            Marshal.WriteIntPtr(py, ObjectOffset.magic(tp), (IntPtr)gc);
            this.tpHandle = tp;
            this.pyHandle = py;
            this.gcHandle = gc;
            inst          = ob;

            // Fix the BaseException args (and __cause__ in case of Python 3)
            // slot if wrapping a CLR exception
            Exceptions.SetArgsAndCause(py);
        }
Ejemplo n.º 2
0
        /// <summary>
        /// The following CreateType implementations do the necessary work to
        /// create Python types to represent managed extension types, reflected
        /// types, subclasses of reflected types and the managed metatype. The
        /// dance is slightly different for each kind of type due to different
        /// behavior needed and the desire to have the existing Python runtime
        /// do as much of the allocation and initialization work as possible.
        /// </summary>
        internal static IntPtr CreateType(Type impl)
        {
            IntPtr type    = AllocateTypeObject(impl.Name);
            int    ob_size = ObjectOffset.Size(type);

            // Set tp_basicsize to the size of our managed instance objects.
            Marshal.WriteIntPtr(type, TypeOffset.tp_basicsize, (IntPtr)ob_size);

            var offset = (IntPtr)ObjectOffset.DictOffset(type);

            Marshal.WriteIntPtr(type, TypeOffset.tp_dictoffset, offset);

            InitializeSlots(type, impl);

            int flags = TypeFlags.Default | TypeFlags.Managed |
                        TypeFlags.HeapType | TypeFlags.HaveGC;

            Util.WriteCLong(type, TypeOffset.tp_flags, flags);

            Runtime.PyType_Ready(type);

            IntPtr dict = Marshal.ReadIntPtr(type, TypeOffset.tp_dict);
            IntPtr mod  = Runtime.PyString_FromString("CLR");

            Runtime.PyDict_SetItemString(dict, "__module__", mod);

            InitMethods(type, impl);

            return(type);
        }
Ejemplo n.º 3
0
        public static void Finalize(IPythonDerivedType obj)
        {
            FieldInfo fi   = obj.GetType().GetField("__pyobj__");
            CLRObject self = (CLRObject)fi.GetValue(obj);

            // delete the python object in an asnyc task as we may not be able to acquire
            // the GIL immediately and we don't want to block the GC thread.
            var t = Task.Factory.StartNew(() =>
            {
                // If python's been terminated then there's nothing to do
                if (0 == Runtime.Py_IsInitialized())
                {
                    return;
                }

                IntPtr gs = Runtime.PyGILState_Ensure();
                try
                {
                    // the C# object is being destroyed which must mean there are no more
                    // references to the Python object as well so now we can dealloc the
                    // python object.
                    IntPtr dict = Marshal.ReadIntPtr(self.pyHandle, ObjectOffset.DictOffset(self.pyHandle));
                    if (dict != IntPtr.Zero)
                    {
                        Runtime.Decref(dict);
                    }
                    Runtime.PyObject_GC_Del(self.pyHandle);
                    self.gcHandle.Free();
                }
                finally
                {
                    Runtime.PyGILState_Release(gs);
                }
            });
        }
Ejemplo n.º 4
0
        internal CLRObject(object ob, IntPtr tp)
        {
            IntPtr py = Runtime.PyType_GenericAlloc(tp, 0);

            long flags = Util.ReadCLong(tp, TypeOffset.tp_flags);

            if ((flags & TypeFlags.Subclass) != 0)
            {
                IntPtr dict = Marshal.ReadIntPtr(py, ObjectOffset.DictOffset(tp));
                if (dict == IntPtr.Zero)
                {
                    dict = Runtime.PyDict_New();
                    Marshal.WriteIntPtr(py, ObjectOffset.DictOffset(tp), dict);
                }
            }

            GCHandle gc = GCHandle.Alloc(this);

            Marshal.WriteIntPtr(py, ObjectOffset.magic(tp), (IntPtr)gc);
            tpHandle = tp;
            pyHandle = py;
            gcHandle = gc;
            inst     = ob;

            // for performance before calling SetArgsAndCause() lets check if we are an exception
            if (inst is Exception)
            {
                // Fix the BaseException args (and __cause__ in case of Python 3)
                // slot if wrapping a CLR exception
                Exceptions.SetArgsAndCause(py);
            }
        }
Ejemplo n.º 5
0
        //====================================================================
        // Standard dealloc implementation for instances of reflected types.
        //====================================================================

        public static void tp_dealloc(IntPtr ob)
        {
            ManagedType self = GetManagedObject(ob);
            IntPtr      dict = Marshal.ReadIntPtr(ob, ObjectOffset.DictOffset(ob));

            if (dict != IntPtr.Zero)
            {
                Runtime.Decref(dict);
            }
            Runtime.PyObject_GC_UnTrack(self.pyHandle);
            Runtime.PyObject_GC_Del(self.pyHandle);
            Runtime.Decref(self.tpHandle);
            self.gcHandle.Free();
        }
Ejemplo n.º 6
0
        public ModuleObject(string name)
        {
            if (name == string.Empty)
            {
                throw new ArgumentException("Name must not be empty!");
            }
            moduleName = name;
            cache      = new Dictionary <string, ManagedType>();
            _namespace = name;

            // Use the filename from any of the assemblies just so there's something for
            // anything that expects __file__ to be set.
            var filename  = "unknown";
            var docstring = "Namespace containing types from the following assemblies:\n\n";

            foreach (Assembly a in AssemblyManager.GetAssemblies(name))
            {
                if (!a.IsDynamic && a.Location != null)
                {
                    filename = a.Location;
                }
                docstring += "- " + a.FullName + "\n";
            }

            dict = Runtime.PyDict_New();
            IntPtr pyname      = Runtime.PyString_FromString(moduleName);
            IntPtr pyfilename  = Runtime.PyString_FromString(filename);
            IntPtr pydocstring = Runtime.PyString_FromString(docstring);
            IntPtr pycls       = TypeManager.GetTypeHandle(GetType());

            Runtime.PyDict_SetItemString(dict, "__name__", pyname);
            Runtime.PyDict_SetItemString(dict, "__file__", pyfilename);
            Runtime.PyDict_SetItemString(dict, "__doc__", pydocstring);
            Runtime.PyDict_SetItemString(dict, "__class__", pycls);
            Runtime.XDecref(pyname);
            Runtime.XDecref(pyfilename);
            Runtime.XDecref(pydocstring);

            Marshal.WriteIntPtr(pyHandle, ObjectOffset.DictOffset(pyHandle), dict);

            InitializeModuleMembers();
        }
Ejemplo n.º 7
0
        /// <summary>
        /// The following CreateType implementations do the necessary work to
        /// create Python types to represent managed extension types, reflected
        /// types, subclasses of reflected types and the managed metatype. The
        /// dance is slightly different for each kind of type due to different
        /// behavior needed and the desire to have the existing Python runtime
        /// do as much of the allocation and initialization work as possible.
        /// </summary>
        internal static IntPtr CreateType(Type impl)
        {
            string name = impl.Name;

            // Create new names per instance for Dynamic Objects - Arturo Rodriguez
            if (impl == typeof(QuantApp.Kernel.JVM.JVMObject) || impl == typeof(System.Dynamic.DynamicObject))
            {
                name += System.Guid.NewGuid().ToString().Replace("-", "_");
            }


            IntPtr type    = AllocateTypeObject(name);
            int    ob_size = ObjectOffset.Size(type);

            // Set tp_basicsize to the size of our managed instance objects.
            Marshal.WriteIntPtr(type, TypeOffset.tp_basicsize, (IntPtr)ob_size);

            var offset = (IntPtr)ObjectOffset.DictOffset(type);

            Marshal.WriteIntPtr(type, TypeOffset.tp_dictoffset, offset);

            InitializeSlots(type, impl);

            int flags = TypeFlags.Default | TypeFlags.Managed |
                        TypeFlags.HeapType | TypeFlags.HaveGC;

            Util.WriteCLong(type, TypeOffset.tp_flags, flags);

            Runtime.PyType_Ready(type);

            IntPtr dict = Marshal.ReadIntPtr(type, TypeOffset.tp_dict);
            IntPtr mod  = Runtime.PyString_FromString("CLR");

            Runtime.PyDict_SetItemString(dict, "__module__", mod);

            InitMethods(type, impl);

            return(type);
        }
Ejemplo n.º 8
0
        internal CLRObject(Object ob, IntPtr tp) : base()
        {
            IntPtr py = Runtime.PyType_GenericAlloc(tp, 0);

            int flags = (int)Marshal.ReadIntPtr(tp, TypeOffset.tp_flags);

            if ((flags & TypeFlags.Subclass) != 0)
            {
                IntPtr dict = Marshal.ReadIntPtr(py, ObjectOffset.DictOffset(tp));
                if (dict == IntPtr.Zero)
                {
                    dict = Runtime.PyDict_New();
                    Marshal.WriteIntPtr(py, ObjectOffset.DictOffset(tp), dict);
                }
            }

            GCHandle gc = GCHandle.Alloc(this);

            Marshal.WriteIntPtr(py, ObjectOffset.magic(tp), (IntPtr)gc);
            this.tpHandle = tp;
            this.pyHandle = py;
            this.gcHandle = gc;
            inst          = ob;
        }
Ejemplo n.º 9
0
        internal static IntPtr CreateType(ManagedType impl, Type clrType)
        {
            // Cleanup the type name to get rid of funny nested type names.
            string name = "CLR." + clrType.FullName;
            int    i    = name.LastIndexOf('+');

            if (i > -1)
            {
                name = name.Substring(i + 1);
            }
            i = name.LastIndexOf('.');
            if (i > -1)
            {
                name = name.Substring(i + 1);
            }

            IntPtr base_         = IntPtr.Zero;
            int    ob_size       = ObjectOffset.Size(Runtime.PyTypeType);
            int    tp_dictoffset = ObjectOffset.DictOffset(Runtime.PyTypeType);

            // XXX Hack, use a different base class for System.Exception
            // Python 2.5+ allows new style class exceptions but they *must*
            // subclass BaseException (or better Exception).
            if (typeof(Exception).IsAssignableFrom(clrType))
            {
                ob_size       = ObjectOffset.Size(Exceptions.Exception);
                tp_dictoffset = ObjectOffset.DictOffset(Exceptions.Exception);
            }

            if (clrType == typeof(Exception))
            {
                base_ = Exceptions.Exception;
            }
            else if (clrType.BaseType != null)
            {
                ClassBase bc = ClassManager.GetClass(clrType.BaseType);
                base_ = bc.pyHandle;
            }

            IntPtr type = AllocateTypeObject(name);

            Marshal.WriteIntPtr(type, TypeOffset.ob_type, Runtime.PyCLRMetaType);
            Runtime.XIncref(Runtime.PyCLRMetaType);

            Marshal.WriteIntPtr(type, TypeOffset.tp_basicsize, (IntPtr)ob_size);
            Marshal.WriteIntPtr(type, TypeOffset.tp_itemsize, IntPtr.Zero);
            Marshal.WriteIntPtr(type, TypeOffset.tp_dictoffset, (IntPtr)tp_dictoffset);

            InitializeSlots(type, impl.GetType());

            if (base_ != IntPtr.Zero)
            {
                Marshal.WriteIntPtr(type, TypeOffset.tp_base, base_);
                Runtime.XIncref(base_);
            }

            int flags = TypeFlags.Default;

            flags |= TypeFlags.Managed;
            flags |= TypeFlags.HeapType;
            flags |= TypeFlags.BaseType;
            flags |= TypeFlags.HaveGC;
            Util.WriteCLong(type, TypeOffset.tp_flags, flags);

            // Leverage followup initialization from the Python runtime. Note
            // that the type of the new type must PyType_Type at the time we
            // call this, else PyType_Ready will skip some slot initialization.

            Runtime.PyType_Ready(type);

            IntPtr dict = Marshal.ReadIntPtr(type, TypeOffset.tp_dict);
            string mn   = clrType.Namespace ?? "";
            IntPtr mod  = Runtime.PyString_FromString(mn);

            Runtime.PyDict_SetItemString(dict, "__module__", mod);

            // Hide the gchandle of the implementation in a magic type slot.
            GCHandle gc = GCHandle.Alloc(impl);

            Marshal.WriteIntPtr(type, TypeOffset.magic(), (IntPtr)gc);

            // Set the handle attributes on the implementing instance.
            impl.tpHandle = Runtime.PyCLRMetaType;
            impl.gcHandle = gc;
            impl.pyHandle = type;

            //DebugUtil.DumpType(type);

            return(type);
        }