PowerToys/Pythonnet.Runtime/methodbinding.cs

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2014-01-11 00:19:14 +08:00
// ==========================================================================
// This software is subject to the provisions of the Zope Public License,
// Version 2.0 (ZPL). A copy of the ZPL should accompany this distribution.
// THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
// WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
// WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
// FOR A PARTICULAR PURPOSE.
// ==========================================================================
using System;
using System.Reflection;
namespace Python.Runtime {
//========================================================================
// Implements a Python binding type for CLR methods. These work much like
// standard Python method bindings, but the same type is used to bind
// both static and instance methods.
//========================================================================
internal class MethodBinding : ExtensionType {
internal MethodInfo info;
internal MethodObject m;
internal IntPtr target;
public MethodBinding(MethodObject m, IntPtr target) : base() {
Runtime.Incref(target);
this.target = target;
this.info = null;
this.m = m;
}
//====================================================================
// Implement binding of generic methods using the subscript syntax [].
//====================================================================
public static IntPtr mp_subscript(IntPtr tp, IntPtr idx) {
MethodBinding self = (MethodBinding)GetManagedObject(tp);
Type[] types = Runtime.PythonArgsToTypeArray(idx);
if (types == null) {
return Exceptions.RaiseTypeError("type(s) expected");
}
MethodInfo mi = MethodBinder.MatchParameters(self.m.info, types);
if (mi == null) {
string e = "No match found for given type params";
return Exceptions.RaiseTypeError(e);
}
MethodBinding mb = new MethodBinding(self.m, self.target);
mb.info = mi;
Runtime.Incref(mb.pyHandle);
return mb.pyHandle;
}
//====================================================================
// MethodBinding __getattribute__ implementation.
//====================================================================
public static IntPtr tp_getattro(IntPtr ob, IntPtr key) {
MethodBinding self = (MethodBinding)GetManagedObject(ob);
if (!Runtime.PyString_Check(key)) {
Exceptions.SetError(Exceptions.TypeError, "string expected");
return IntPtr.Zero;
}
string name = Runtime.GetManagedString(key);
if (name == "__doc__") {
IntPtr doc = self.m.GetDocString();
Runtime.Incref(doc);
return doc;
}
// XXX deprecate __overloads__ soon...
if (name == "__overloads__" || name == "Overloads") {
OverloadMapper om = new OverloadMapper(self.m, self.target);
Runtime.Incref(om.pyHandle);
return om.pyHandle;
}
return Runtime.PyObject_GenericGetAttr(ob, key);
}
//====================================================================
// MethodBinding __call__ implementation.
//====================================================================
public static IntPtr tp_call(IntPtr ob, IntPtr args, IntPtr kw) {
MethodBinding self = (MethodBinding)GetManagedObject(ob);
// This works around a situation where the wrong generic method is picked,
// for example this method in the tests: string Overloaded<T>(int arg1, int arg2, string arg3)
if (self.info != null)
{
if (self.info.IsGenericMethod)
{
int len = Runtime.PyTuple_Size(args);
Type[] sigTp = Runtime.PythonArgsToTypeArray(args, true);
if (sigTp != null)
{
Type[] genericTp = self.info.GetGenericArguments();
MethodInfo betterMatch = MethodBinder.MatchSignatureAndParameters(self.m.info, genericTp, sigTp);
if (betterMatch != null) self.info = betterMatch;
}
}
}
// This supports calling a method 'unbound', passing the instance
// as the first argument. Note that this is not supported if any
// of the overloads are static since we can't know if the intent
// was to call the static method or the unbound instance method.
if ((self.target == IntPtr.Zero) && (!self.m.IsStatic()))
{
int len = Runtime.PyTuple_Size(args);
if (len < 1)
{
Exceptions.SetError(Exceptions.TypeError, "not enough arguments");
return IntPtr.Zero;
}
IntPtr uargs = Runtime.PyTuple_GetSlice(args, 1, len);
IntPtr inst = Runtime.PyTuple_GetItem(args, 0);
Runtime.Incref(inst);
IntPtr r = self.m.Invoke(inst, uargs, kw, self.info);
Runtime.Decref(inst);
Runtime.Decref(uargs);
return r;
}
return self.m.Invoke(self.target, args, kw, self.info);
}
//====================================================================
// MethodBinding __hash__ implementation.
//====================================================================
public static IntPtr tp_hash(IntPtr ob) {
MethodBinding self = (MethodBinding)GetManagedObject(ob);
long x = 0;
long y = 0;
if (self.target != IntPtr.Zero) {
x = Runtime.PyObject_Hash(self.target).ToInt64();
if (x == -1) {
return new IntPtr(-1);
}
}
y = Runtime.PyObject_Hash(self.m.pyHandle).ToInt64();
if (y == -1) {
return new IntPtr(-1);
}
x ^= y;
if (x == -1) {
x = -1;
}
return new IntPtr(x);
}
//====================================================================
// MethodBinding __repr__ implementation.
//====================================================================
public static IntPtr tp_repr(IntPtr ob) {
MethodBinding self = (MethodBinding)GetManagedObject(ob);
string type = (self.target == IntPtr.Zero) ? "unbound" : "bound";
string s = String.Format("<{0} method '{1}'>", type, self.m.name);
return Runtime.PyString_FromStringAndSize(s, s.Length);
}
//====================================================================
// MethodBinding dealloc implementation.
//====================================================================
public static new void tp_dealloc(IntPtr ob) {
MethodBinding self = (MethodBinding)GetManagedObject(ob);
Runtime.Decref(self.target);
ExtensionType.FinalizeObject(self);
}
}
}