ToPython() static private method

static private ToPython ( Object value, Type type ) : IntPtr
value Object
type System.Type
return System.IntPtr
Beispiel #1
0
 public static PyObject ToPython(this object o)
 {
     return(new PyObject(Converter.ToPython(o, o?.GetType())));
 }
Beispiel #2
0
        public static void InvokeCtor(IPythonDerivedType obj, string origCtorName, Object[] args)
        {
            // call the base constructor
            obj.GetType().InvokeMember(origCtorName,
                                       BindingFlags.InvokeMethod,
                                       null,
                                       obj,
                                       args);

            List <PyObject> disposeList = new List <PyObject>();
            CLRObject       self        = null;
            IntPtr          gs          = Runtime.PyGILState_Ensure();

            try
            {
                // create the python object
                IntPtr type = TypeManager.GetTypeHandle(obj.GetType());
                self = new CLRObject(obj, type);

                // set __pyobj__ to self and deref the python object which will allow this
                // object to be collected.
                FieldInfo fi = obj.GetType().GetField("__pyobj__");
                fi.SetValue(obj, self);

                Runtime.Incref(self.pyHandle);
                PyObject pyself = new PyObject(self.pyHandle);
                disposeList.Add(pyself);

                Runtime.Incref(Runtime.PyNone);
                PyObject pynone = new PyObject(Runtime.PyNone);
                disposeList.Add(pynone);

                // call __init__
                PyObject init = pyself.GetAttr("__init__", pynone);
                disposeList.Add(init);
                if (init.Handle != Runtime.PyNone)
                {
                    // if __init__ hasn't been overriden then it will be a managed object
                    ManagedType managedMethod = ManagedType.GetManagedObject(init.Handle);
                    if (null == managedMethod)
                    {
                        PyObject[] pyargs = new PyObject[args.Length];
                        for (int i = 0; i < args.Length; ++i)
                        {
                            pyargs[i] = new PyObject(Converter.ToPython(args[i], args[i].GetType()));
                            disposeList.Add(pyargs[i]);
                        }

                        disposeList.Add(init.Invoke(pyargs));
                    }
                }
            }
            finally
            {
                foreach (PyObject x in disposeList)
                {
                    if (x != null)
                    {
                        x.Dispose();
                    }
                }

                // Decrement the python object's reference count.
                // This doesn't actually destroy the object, it just sets the reference to this object
                // to be a weak reference and it will be destroyed when the C# object is destroyed.
                if (null != self)
                {
                    Runtime.Decref(self.pyHandle);
                }

                Runtime.PyGILState_Release(gs);
            }
        }
Beispiel #3
0
        internal static IntPtr CreateSubType(IntPtr py_name, IntPtr py_base_type, IntPtr py_dict)
        {
            // Utility to create a subtype of a managed type with the ability for the
            // a python subtype able to override the managed implementation
            string name = Runtime.GetManagedString(py_name);

            // the derived class can have class attributes __assembly__ and __module__ which
            // control the name of the assembly and module the new type is created in.
            object assembly     = null;
            object namespaceStr = null;

            var disposeList = new List <PyObject>();

            try
            {
                var assemblyKey = new PyObject(Converter.ToPython("__assembly__", typeof(string)));
                disposeList.Add(assemblyKey);
                if (0 != Runtime.PyMapping_HasKey(py_dict, assemblyKey.Handle))
                {
                    var pyAssembly = new PyObject(Runtime.PyDict_GetItem(py_dict, assemblyKey.Handle));
                    Runtime.XIncref(pyAssembly.Handle);
                    disposeList.Add(pyAssembly);
                    if (!Converter.ToManagedValue(pyAssembly.Handle, typeof(string), out assembly, false))
                    {
                        throw new InvalidCastException("Couldn't convert __assembly__ value to string");
                    }
                }

                var namespaceKey = new PyObject(Converter.ToPythonImplicit("__namespace__"));
                disposeList.Add(namespaceKey);
                if (0 != Runtime.PyMapping_HasKey(py_dict, namespaceKey.Handle))
                {
                    var pyNamespace = new PyObject(Runtime.PyDict_GetItem(py_dict, namespaceKey.Handle));
                    Runtime.XIncref(pyNamespace.Handle);
                    disposeList.Add(pyNamespace);
                    if (!Converter.ToManagedValue(pyNamespace.Handle, typeof(string), out namespaceStr, false))
                    {
                        throw new InvalidCastException("Couldn't convert __namespace__ value to string");
                    }
                }
            }
            finally
            {
                foreach (PyObject o in disposeList)
                {
                    o.Dispose();
                }
            }

            // create the new managed type subclassing the base managed type
            var baseClass = ManagedType.GetManagedObject(py_base_type) as ClassBase;

            if (null == baseClass)
            {
                return(Exceptions.RaiseTypeError("invalid base class, expected CLR class type"));
            }

            try
            {
                Type subType = ClassDerivedObject.CreateDerivedType(name,
                                                                    baseClass.type,
                                                                    py_dict,
                                                                    (string)namespaceStr,
                                                                    (string)assembly);

                // create the new ManagedType and python type
                ClassBase subClass = ClassManager.GetClass(subType);
                IntPtr    py_type  = GetTypeHandle(subClass, subType);

                // by default the class dict will have all the C# methods in it, but as this is a
                // derived class we want the python overrides in there instead if they exist.
                IntPtr cls_dict = Marshal.ReadIntPtr(py_type, TypeOffset.tp_dict);
                Runtime.PyDict_Update(cls_dict, py_dict);
                Runtime.XIncref(py_type);
                // Update the __classcell__ if it exists
                var cell = new BorrowedReference(Runtime.PyDict_GetItemString(cls_dict, "__classcell__"));
                if (!cell.IsNull)
                {
                    Runtime.PyCell_Set(cell, py_type);
                    Runtime.PyDict_DelItemString(cls_dict, "__classcell__");
                }

                return(py_type);
            }
            catch (Exception e)
            {
                return(Exceptions.RaiseTypeError(e.Message));
            }
        }
Beispiel #4
0
        internal virtual IntPtr Invoke(IntPtr inst, IntPtr args, IntPtr kw, MethodBase info, MethodInfo[] methodinfo)
        {
            // No valid methods, nothing to bind.
            if (GetMethods().Length == 0)
            {
                var msg = new StringBuilder("The underlying C# method(s) have been deleted");
                if (list.Count > 0 && list[0].Name != null)
                {
                    msg.Append($": {list[0]}");
                }
                return(Exceptions.RaiseTypeError(msg.ToString()));
            }

            Binding binding = Bind(inst, args, kw, info, methodinfo);
            object  result;
            IntPtr  ts = IntPtr.Zero;

            if (binding == null)
            {
                var value = new StringBuilder("No method matches given arguments");
                if (methodinfo != null && methodinfo.Length > 0)
                {
                    value.Append($" for {methodinfo[0].Name}");
                }
                else if (list.Count > 0 && list[0].Valid)
                {
                    value.Append($" for {list[0].Value.Name}");
                }

                value.Append(": ");
                AppendArgumentTypes(to: value, args);
                Exceptions.RaiseTypeError(value.ToString());
                return(IntPtr.Zero);
            }

            if (allow_threads)
            {
                ts = PythonEngine.BeginAllowThreads();
            }

            try
            {
                result = binding.info.Invoke(binding.inst, BindingFlags.Default, null, binding.args, null);
            }
            catch (Exception e)
            {
                if (e.InnerException != null)
                {
                    e = e.InnerException;
                }
                if (allow_threads)
                {
                    PythonEngine.EndAllowThreads(ts);
                }
                Exceptions.SetError(e);
                return(IntPtr.Zero);
            }

            if (allow_threads)
            {
                PythonEngine.EndAllowThreads(ts);
            }

            // If there are out parameters, we return a tuple containing
            // the result, if any, followed by the out parameters. If there is only
            // one out parameter and the return type of the method is void,
            // we return the out parameter as the result to Python (for
            // code compatibility with ironpython).

            var mi = (MethodInfo)binding.info;

            if (binding.outs > 0)
            {
                ParameterInfo[] pi = mi.GetParameters();
                int             c  = pi.Length;
                var             n  = 0;

                bool   isVoid    = mi.ReturnType == typeof(void);
                int    tupleSize = binding.outs + (isVoid ? 0 : 1);
                IntPtr t         = Runtime.PyTuple_New(tupleSize);
                if (!isVoid)
                {
                    IntPtr v = Converter.ToPython(result, mi.ReturnType);
                    Runtime.PyTuple_SetItem(t, n, v);
                    n++;
                }

                for (var i = 0; i < c; i++)
                {
                    Type pt = pi[i].ParameterType;
                    if (pt.IsByRef)
                    {
                        IntPtr v = Converter.ToPython(binding.args[i], pt.GetElementType());
                        Runtime.PyTuple_SetItem(t, n, v);
                        n++;
                    }
                }

                if (binding.outs == 1 && mi.ReturnType == typeof(void))
                {
                    IntPtr v = Runtime.PyTuple_GetItem(t, 0);
                    Runtime.XIncref(v);
                    Runtime.XDecref(t);
                    return(v);
                }

                return(t);
            }

            return(Converter.ToPython(result, mi.ReturnType));
        }
Beispiel #5
0
        internal virtual IntPtr Invoke(IntPtr inst, IntPtr args, IntPtr kw, MethodBase info, MethodInfo[] methodinfo)
        {
            Binding binding = Bind(inst, args, kw, info, methodinfo);
            object  result;
            IntPtr  ts = IntPtr.Zero;

            if (binding == null)
            {
                var value = new StringBuilder("No method matches given arguments");
                if (methodinfo != null && methodinfo.Length > 0)
                {
                    value.Append($" for {methodinfo[0].Name}");
                }

                long argCount = Runtime.PyTuple_Size(args);
                value.Append(": (");
                for (long argIndex = 0; argIndex < argCount; argIndex++)
                {
                    var arg = Runtime.PyTuple_GetItem(args, argIndex);
                    if (arg != IntPtr.Zero)
                    {
                        var type = Runtime.PyObject_Type(arg);
                        if (type != IntPtr.Zero)
                        {
                            try {
                                var description = Runtime.PyObject_Unicode(type);
                                if (description != IntPtr.Zero)
                                {
                                    value.Append(Runtime.GetManagedString(description));
                                    Runtime.XDecref(description);
                                }
                            } finally {
                                Runtime.XDecref(type);
                            }
                        }
                    }

                    if (argIndex + 1 < argCount)
                    {
                        value.Append(", ");
                    }
                }
                value.Append(')');
                Exceptions.SetError(Exceptions.TypeError, value.ToString());
                return(IntPtr.Zero);
            }

            if (allow_threads)
            {
                ts = PythonEngine.BeginAllowThreads();
            }

            try
            {
                result = binding.info.Invoke(binding.inst, BindingFlags.Default, null, binding.args, null);
            }
            catch (Exception e)
            {
                if (e.InnerException != null)
                {
                    e = e.InnerException;
                }
                if (allow_threads)
                {
                    PythonEngine.EndAllowThreads(ts);
                }
                Exceptions.SetError(e);
                return(IntPtr.Zero);
            }

            if (allow_threads)
            {
                PythonEngine.EndAllowThreads(ts);
            }

            // If there are out parameters, we return a tuple containing
            // the result followed by the out parameters. If there is only
            // one out parameter and the return type of the method is void,
            // we return the out parameter as the result to Python (for
            // code compatibility with ironpython).

            var mi = (MethodInfo)binding.info;

            if (binding.outs == 1 && mi.ReturnType == typeof(void))
            {
            }

            if (binding.outs > 0)
            {
                ParameterInfo[] pi = mi.GetParameters();
                int             c  = pi.Length;
                var             n  = 0;

                IntPtr t = Runtime.PyTuple_New(binding.outs + 1);
                IntPtr v = Converter.ToPython(result, mi.ReturnType);
                Runtime.PyTuple_SetItem(t, n, v);
                n++;

                for (var i = 0; i < c; i++)
                {
                    Type pt = pi[i].ParameterType;
                    if (pi[i].IsOut || pt.IsByRef)
                    {
                        v = Converter.ToPython(binding.args[i], pt);
                        Runtime.PyTuple_SetItem(t, n, v);
                        n++;
                    }
                }

                if (binding.outs == 1 && mi.ReturnType == typeof(void))
                {
                    v = Runtime.PyTuple_GetItem(t, 1);
                    Runtime.XIncref(v);
                    Runtime.XDecref(t);
                    return(v);
                }

                return(t);
            }

            return(Converter.ToPython(result, mi.ReturnType));
        }
Beispiel #6
0
        internal virtual IntPtr Invoke(IntPtr inst, IntPtr args, IntPtr kw, MethodBase info, MethodInfo[] methodinfo)
        {
            Binding binding = Bind(inst, args, kw, info, methodinfo);
            object  result;
            IntPtr  ts = IntPtr.Zero;

            if (binding == null)
            {
                Exceptions.SetError(Exceptions.TypeError, "No method matches given arguments");
                return(IntPtr.Zero);
            }

            if (allow_threads)
            {
                ts = PythonEngine.BeginAllowThreads();
            }

            try
            {
                result = binding.info.Invoke(binding.inst, BindingFlags.Default, null, binding.args, null);
            }
            catch (Exception e)
            {
                if (e.InnerException != null)
                {
                    e = e.InnerException;
                }
                if (allow_threads)
                {
                    PythonEngine.EndAllowThreads(ts);
                }
                Exceptions.SetError(e);
                return(IntPtr.Zero);
            }

            if (allow_threads)
            {
                PythonEngine.EndAllowThreads(ts);
            }

            // If there are out parameters, we return a tuple containing
            // the result followed by the out parameters. If there is only
            // one out parameter and the return type of the method is void,
            // we return the out parameter as the result to Python (for
            // code compatibility with ironpython).

            var mi = (MethodInfo)binding.info;

            if (binding.outs == 1 && mi.ReturnType == typeof(void))
            {
            }

            if (binding.outs > 0)
            {
                ParameterInfo[] pi = mi.GetParameters();
                int             c  = pi.Length;
                var             n  = 0;

                IntPtr t = Runtime.PyTuple_New(binding.outs + 1);
                IntPtr v = Converter.ToPython(result, mi.ReturnType);
                Runtime.PyTuple_SetItem(t, n, v);
                n++;

                for (var i = 0; i < c; i++)
                {
                    Type pt = pi[i].ParameterType;
                    if (pi[i].IsOut || pt.IsByRef)
                    {
                        v = Converter.ToPython(binding.args[i], pt);
                        Runtime.PyTuple_SetItem(t, n, v);
                        n++;
                    }
                }

                if (binding.outs == 1 && mi.ReturnType == typeof(void))
                {
                    v = Runtime.PyTuple_GetItem(t, 1);
                    Runtime.XIncref(v);
                    Runtime.XDecref(t);
                    return(v);
                }

                return(t);
            }

            return(Converter.ToPython(result, mi.ReturnType));
        }
Beispiel #7
0
        private object?TrueDispatch(object?[] args)
        {
            MethodInfo method = dtype.GetMethod("Invoke");

            ParameterInfo[] pi    = method.GetParameters();
            Type            rtype = method.ReturnType;

            NewReference callResult;

            using (var pyargs = Runtime.PyTuple_New(pi.Length))
            {
                for (var i = 0; i < pi.Length; i++)
                {
                    // Here we own the reference to the Python value, and we
                    // give the ownership to the arg tuple.
                    using var arg = Converter.ToPython(args[i], pi[i].ParameterType);
                    int res = Runtime.PyTuple_SetItem(pyargs.Borrow(), i, arg.StealOrThrow());
                    if (res != 0)
                    {
                        throw PythonException.ThrowLastAsClrException();
                    }
                }

                callResult = Runtime.PyObject_Call(target, pyargs.Borrow(), null);
            }

            if (callResult.IsNull())
            {
                throw PythonException.ThrowLastAsClrException();
            }

            using (callResult)
            {
                BorrowedReference op = callResult.Borrow();
                int byRefCount       = pi.Count(parameterInfo => parameterInfo.ParameterType.IsByRef);
                if (byRefCount > 0)
                {
                    // By symmetry with MethodBinder.Invoke, when there are out
                    // parameters we expect to receive a tuple containing
                    // the result, if any, followed by the out parameters. If there is only
                    // one out parameter and the return type of the method is void,
                    // we instead receive the out parameter as the result from Python.

                    bool isVoid    = rtype == typeof(void);
                    int  tupleSize = byRefCount + (isVoid ? 0 : 1);
                    if (isVoid && byRefCount == 1)
                    {
                        // The return type is void and there is a single out parameter.
                        for (int i = 0; i < pi.Length; i++)
                        {
                            Type t = pi[i].ParameterType;
                            if (t.IsByRef)
                            {
                                if (!Converter.ToManaged(op, t, out args[i], true))
                                {
                                    Exceptions.RaiseTypeError($"The Python function did not return {t.GetElementType()} (the out parameter type)");
                                    throw PythonException.ThrowLastAsClrException();
                                }
                                break;
                            }
                        }
                        return(null);
                    }
                    else if (Runtime.PyTuple_Check(op) && Runtime.PyTuple_Size(op) == tupleSize)
                    {
                        int index = isVoid ? 0 : 1;
                        for (int i = 0; i < pi.Length; i++)
                        {
                            Type t = pi[i].ParameterType;
                            if (t.IsByRef)
                            {
                                BorrowedReference item = Runtime.PyTuple_GetItem(op, index++);
                                if (!Converter.ToManaged(item, t, out args[i], true))
                                {
                                    Exceptions.RaiseTypeError($"The Python function returned a tuple where element {i} was not {t.GetElementType()} (the out parameter type)");
                                    throw PythonException.ThrowLastAsClrException();
                                }
                            }
                        }
                        if (isVoid)
                        {
                            return(null);
                        }
                        BorrowedReference item0 = Runtime.PyTuple_GetItem(op, 0);
                        if (!Converter.ToManaged(item0, rtype, out object?result0, true))
                        {
                            Exceptions.RaiseTypeError($"The Python function returned a tuple where element 0 was not {rtype} (the return type)");
                            throw PythonException.ThrowLastAsClrException();
                        }
                        return(result0);
                    }
                    else
                    {
                        string tpName = Runtime.PyObject_GetTypeName(op);
                        if (Runtime.PyTuple_Check(op))
                        {
                            tpName += $" of size {Runtime.PyTuple_Size(op)}";
                        }
                        StringBuilder sb = new StringBuilder();
                        if (!isVoid)
                        {
                            sb.Append(rtype.FullName);
                        }
                        for (int i = 0; i < pi.Length; i++)
                        {
                            Type t = pi[i].ParameterType;
                            if (t.IsByRef)
                            {
                                if (sb.Length > 0)
                                {
                                    sb.Append(",");
                                }
                                sb.Append(t.GetElementType().FullName);
                            }
                        }
                        string returnValueString = isVoid ? "" : "the return value and ";
                        Exceptions.RaiseTypeError($"Expected a tuple ({sb}) of {returnValueString}the values for out and ref parameters, got {tpName}.");
                        throw PythonException.ThrowLastAsClrException();
                    }
                }

                if (rtype == typeof(void))
                {
                    return(null);
                }

                if (!Converter.ToManaged(op, rtype, out object?result, true))
                {
                    throw PythonException.ThrowLastAsClrException();
                }

                return(result);
            }
        }
Beispiel #8
0
        /// <summary>
        /// Implements __getitem__ for array types.
        /// </summary>
        public static IntPtr mp_subscript(IntPtr ob, IntPtr idx)
        {
            var    obj      = (CLRObject)GetManagedObject(ob);
            var    items    = obj.inst as Array;
            Type   itemType = obj.inst.GetType().GetElementType();
            int    rank     = items.Rank;
            int    index;
            object value;

            // Note that CLR 1.0 only supports int indexes - methods to
            // support long indices were introduced in 1.1. We could
            // support long indices automatically, but given that long
            // indices are not backward compatible and a relative edge
            // case, we won't bother for now.

            // Single-dimensional arrays are the most common case and are
            // cheaper to deal with than multi-dimensional, so check first.

            if (rank == 1)
            {
                index = Runtime.PyInt_AsLong(idx);

                if (Exceptions.ErrorOccurred())
                {
                    return(Exceptions.RaiseTypeError("invalid index value"));
                }

                if (index < 0)
                {
                    index = items.Length + index;
                }

                try
                {
                    value = items.GetValue(index);
                }
                catch (IndexOutOfRangeException)
                {
                    Exceptions.SetError(Exceptions.IndexError, "array index out of range");
                    return(IntPtr.Zero);
                }

                return(Converter.ToPython(value, itemType));
            }

            // Multi-dimensional arrays can be indexed a la: list[1, 2, 3].

            if (!Runtime.PyTuple_Check(idx))
            {
                Exceptions.SetError(Exceptions.TypeError, "invalid index value");
                return(IntPtr.Zero);
            }

            int count = Runtime.PyTuple_Size(idx);

            var args = new int[count];

            for (var i = 0; i < count; i++)
            {
                IntPtr op = Runtime.PyTuple_GetItem(idx, i);
                index = Runtime.PyInt_AsLong(op);

                if (Exceptions.ErrorOccurred())
                {
                    return(Exceptions.RaiseTypeError("invalid index value"));
                }

                if (index < 0)
                {
                    index = items.GetLength(i) + index;
                }

                args.SetValue(index, i);
            }

            try
            {
                value = items.GetValue(args);
            }
            catch (IndexOutOfRangeException)
            {
                Exceptions.SetError(Exceptions.IndexError, "array index out of range");
                return(IntPtr.Zero);
            }

            return(Converter.ToPython(value, itemType));
        }
Beispiel #9
0
        /// <summary>
        /// Descriptor __get__ implementation. This method returns the
        /// value of the field on the given object. The returned value
        /// is converted to an appropriately typed Python object.
        /// </summary>
        public static IntPtr tp_descr_get(IntPtr ds, IntPtr ob, IntPtr tp)
        {
            var    self = (FieldObject)GetManagedObject(ds);
            object result;

            if (self == null)
            {
                return(IntPtr.Zero);
            }
            else if (!self.info.Valid)
            {
                Exceptions.SetError(Exceptions.AttributeError, self.info.DeletedMessage);
                return(IntPtr.Zero);
            }

            FieldInfo info = self.info.Value;

            if (ob == IntPtr.Zero || ob == Runtime.PyNone)
            {
                if (!info.IsStatic)
                {
                    Exceptions.SetError(Exceptions.TypeError,
                                        "instance attribute must be accessed through a class instance");
                    return(IntPtr.Zero);
                }
                try
                {
                    // Fasterflect does not support constant fields
                    if (info.IsLiteral && !info.IsInitOnly)
                    {
                        result = info.GetValue(null);
                    }
                    else
                    {
                        result = self.GetMemberGetter(info.DeclaringType)(info.DeclaringType);
                    }

                    return(Converter.ToPython(result, info.FieldType));
                }
                catch (Exception e)
                {
                    Exceptions.SetError(Exceptions.TypeError, e.Message);
                    return(IntPtr.Zero);
                }
            }

            try
            {
                var co = (CLRObject)GetManagedObject(ob);
                if (co == null)
                {
                    Exceptions.SetError(Exceptions.TypeError, "instance is not a clr object");
                    return(IntPtr.Zero);
                }

                // Fasterflect does not support constant fields
                if (info.IsLiteral && !info.IsInitOnly)
                {
                    result = info.GetValue(co.inst);
                }
                else
                {
                    var type = co.inst.GetType();
                    result = self.GetMemberGetter(type)(self.IsValueType(type) ? co.inst.WrapIfValueType() : co.inst);
                }

                return(Converter.ToPython(result, info.FieldType));
            }
            catch (Exception e)
            {
                Exceptions.SetError(Exceptions.TypeError, e.Message);
                return(IntPtr.Zero);
            }
        }
Beispiel #10
0
        /// <summary>
        /// Descriptor __get__ implementation. This method returns the
        /// value of the property on the given object. The returned value
        /// is converted to an appropriately typed Python object.
        /// </summary>
        public static IntPtr tp_descr_get(IntPtr ds, IntPtr ob, IntPtr tp)
        {
            var        self   = (PropertyObject)GetManagedObject(ds);
            MethodInfo getter = self.getter;
            object     result;

            IntPtr ts = IntPtr.Zero;

            if (getter == null)
            {
                return(Exceptions.RaiseTypeError("property cannot be read"));
            }

            if (ob == IntPtr.Zero || ob == Runtime.PyNone)
            {
                if (!getter.IsStatic)
                {
                    Exceptions.SetError(Exceptions.TypeError,
                                        "instance property must be accessed through a class instance");
                    return(IntPtr.Zero);
                }

                ts = PythonEngine.BeginAllowThreads();
                try
                {
                    result = self.info.GetValue(null, null);
                    PythonEngine.EndAllowThreads(ts);
                    return(Converter.ToPython(result, self.info.PropertyType));
                }
                catch (Exception e)
                {
                    PythonEngine.EndAllowThreads(ts);
                    return(Exceptions.RaiseTypeError(e.Message));
                }
            }

            var co = GetManagedObject(ob) as CLRObject;

            if (co == null)
            {
                return(Exceptions.RaiseTypeError("invalid target"));
            }

            ts = PythonEngine.BeginAllowThreads();
            try
            {
                result = self.info.GetValue(co.inst, null);
                PythonEngine.EndAllowThreads(ts);
                return(Converter.ToPython(result, self.info.PropertyType));
            }
            catch (Exception e)
            {
                if (e.InnerException != null)
                {
                    e = e.InnerException;
                }
                PythonEngine.EndAllowThreads(ts);
                Exceptions.SetError(e);
                return(IntPtr.Zero);
            }
        }
Beispiel #11
0
        /// <summary>
        /// Descriptor __get__ implementation. This method returns the
        /// value of the property on the given object. The returned value
        /// is converted to an appropriately typed Python object.
        /// </summary>
        public static IntPtr tp_descr_get(IntPtr ds, IntPtr ob, IntPtr tp)
        {
            var self = (PropertyObject)GetManagedObject(ds);

            if (!self.info.Valid)
            {
                return(Exceptions.RaiseTypeError(self.info.DeletedMessage));
            }
            var        info   = self.info.Value;
            MethodInfo getter = self.getter.UnsafeValue;
            object     result;


            if (getter == null)
            {
                return(Exceptions.RaiseTypeError("property cannot be read"));
            }

            if (ob == IntPtr.Zero || ob == Runtime.PyNone)
            {
                if (!getter.IsStatic)
                {
                    Exceptions.SetError(Exceptions.TypeError,
                                        "instance property must be accessed through a class instance");
                    return(IntPtr.Zero);
                }

                try
                {
                    result = self.GetMemberGetter(info.DeclaringType)(info.DeclaringType);
                    return(Converter.ToPython(result, info.PropertyType));
                }
                catch (Exception e)
                {
                    return(Exceptions.RaiseTypeError(e.Message));
                }
            }

            var co = GetManagedObject(ob) as CLRObject;

            if (co == null)
            {
                return(Exceptions.RaiseTypeError("invalid target"));
            }

            try
            {
                var type = co.inst.GetType();
                result = self.GetMemberGetter(type)(self.IsValueType(type) ? co.inst.WrapIfValueType() : co.inst);
                return(Converter.ToPython(result, info.PropertyType));
            }
            catch (Exception e)
            {
                if (e.InnerException != null)
                {
                    e = e.InnerException;
                }
                Exceptions.SetError(e);
                return(IntPtr.Zero);
            }
        }