protected virtual MethodInfo GetMethodImpl()
{
if ((this._methodBase == null) || !(this._methodBase is MethodInfo))
{
IRuntimeMethodInfo method = this.FindMethodHandle();
RuntimeType declaringType = RuntimeMethodHandle.GetDeclaringType(method);
if ((RuntimeTypeHandle.IsGenericTypeDefinition(declaringType) || RuntimeTypeHandle.HasInstantiation(declaringType)) && ((RuntimeMethodHandle.GetAttributes(method) & MethodAttributes.Static) == MethodAttributes.PrivateScope))
{
if (!(this._methodPtrAux == IntPtr.Zero))
{
declaringType = (RuntimeType)base.GetType().GetMethod("Invoke").GetParameters()[0].ParameterType;
}
else
{
Type type = this._target.GetType();
Type genericTypeDefinition = declaringType.GetGenericTypeDefinition();
while (true)
{
if (type.IsGenericType && (type.GetGenericTypeDefinition() == genericTypeDefinition))
{
break;
}
type = type.BaseType;
}
declaringType = type as RuntimeType;
}
}
this._methodBase = (MethodInfo)RuntimeType.GetMethodBase(declaringType, method);
}
return((MethodInfo)this._methodBase);
}
protected virtual MethodInfo GetMethodImpl()
{
if (_methodBase == null)
{
RuntimeMethodHandle method = FindMethodHandle();
RuntimeTypeHandle declaringType = method.GetDeclaringType();
// need a proper declaring type instance method on a generic type
if (declaringType.IsGenericTypeDefinition() || declaringType.HasInstantiation())
{
bool isStatic = (method.GetAttributes() & MethodAttributes.Static) != (MethodAttributes)0;
if (!isStatic)
{
if (_methodPtrAux == (IntPtr)0)
{
declaringType = _target.GetType().TypeHandle; // may throw NullRefException if the this is null but that's ok
}
else
{
// it's an open one, need to fetch the first arg of the instantiation
MethodInfo invoke = this.GetType().GetMethod("Invoke");
declaringType = invoke.GetParameters()[0].ParameterType.TypeHandle;
}
}
}
_methodBase = (MethodInfo)RuntimeType.GetMethodBase(declaringType, method);
}
return((MethodInfo)_methodBase);
}
protected override MethodInfo GetMethodImpl()
{
if (this._invocationCount != (IntPtr)0 && this._invocationList != null)
{
object[] objArray = this._invocationList as object[];
if (objArray != null)
{
int index = (int)this._invocationCount - 1;
return(((Delegate)objArray[index]).Method);
}
MulticastDelegate multicastDelegate = this._invocationList as MulticastDelegate;
if (multicastDelegate != null)
{
return(multicastDelegate.GetMethodImpl());
}
}
else if (this.IsUnmanagedFunctionPtr())
{
if (this._methodBase == null || !(this._methodBase is MethodInfo))
{
IRuntimeMethodInfo methodHandle = this.FindMethodHandle();
RuntimeType runtimeType = RuntimeMethodHandle.GetDeclaringType(methodHandle);
if (RuntimeTypeHandle.IsGenericTypeDefinition(runtimeType) || RuntimeTypeHandle.HasInstantiation(runtimeType))
{
runtimeType = this.GetType() as RuntimeType;
}
this._methodBase = (object)(MethodInfo)RuntimeType.GetMethodBase(runtimeType, methodHandle);
}
return((MethodInfo)this._methodBase);
}
return(base.GetMethodImpl());
}
internal static RuntimeType GetGenericTypeDefinition(RuntimeType type)
{
RuntimeType o = type;
if (RuntimeTypeHandle.HasInstantiation(o) && !RuntimeTypeHandle.IsGenericTypeDefinition(o))
{
RuntimeTypeHandle.GetGenericTypeDefinition(o.GetTypeHandleInternal(), JitHelpers.GetObjectHandleOnStack <RuntimeType>(ref o));
}
return(o);
}
protected virtual MethodInfo GetMethodImpl()
{
if ((_methodBase == null) || !(_methodBase is MethodInfo))
{
IRuntimeMethodInfo method = FindMethodHandle();
RuntimeType? declaringType = RuntimeMethodHandle.GetDeclaringType(method);
// need a proper declaring type instance method on a generic type
if (RuntimeTypeHandle.IsGenericTypeDefinition(declaringType) || RuntimeTypeHandle.HasInstantiation(declaringType))
{
bool isStatic = (RuntimeMethodHandle.GetAttributes(method) & MethodAttributes.Static) != (MethodAttributes)0;
if (!isStatic)
{
if (_methodPtrAux == IntPtr.Zero)
{
// The target may be of a derived type that doesn't have visibility onto the
// target method. We don't want to call RuntimeType.GetMethodBase below with that
// or reflection can end up generating a MethodInfo where the ReflectedType cannot
// see the MethodInfo itself and that breaks an important invariant. But the
// target type could include important generic type information we need in order
// to work out what the exact instantiation of the method's declaring type is. So
// we'll walk up the inheritance chain (which will yield exactly instantiated
// types at each step) until we find the declaring type. Since the declaring type
// we get from the method is probably shared and those in the hierarchy we're
// walking won't be we compare using the generic type definition forms instead.
Type?currentType = _target !.GetType();
Type targetType = declaringType.GetGenericTypeDefinition();
while (currentType != null)
{
if (currentType.IsGenericType &&
currentType.GetGenericTypeDefinition() == targetType)
{
declaringType = currentType as RuntimeType;
break;
}
currentType = currentType.BaseType;
}
// RCWs don't need to be "strongly-typed" in which case we don't find a base type
// that matches the declaring type of the method. This is fine because interop needs
// to work with exact methods anyway so declaringType is never shared at this point.
Debug.Assert(currentType != null || _target.GetType().IsCOMObject, "The class hierarchy should declare the method");
}
else
{
// it's an open one, need to fetch the first arg of the instantiation
MethodInfo invoke = this.GetType().GetMethod("Invoke") !;
declaringType = (RuntimeType)invoke.GetParameters()[0].ParameterType;
}
}
}
_methodBase = (MethodInfo)RuntimeType.GetMethodBase(declaringType, method) !;
}
return((MethodInfo)_methodBase);
}
protected override MethodInfo GetMethodImpl()
{
if (_invocationCount != (IntPtr)0 && _invocationList != null)
{
// multicast case
Object[] invocationList = _invocationList as Object[];
if (invocationList != null)
{
int index = (int)_invocationCount - 1;
return(((Delegate)invocationList[index]).Method);
}
MulticastDelegate innerDelegate = _invocationList as MulticastDelegate;
if (innerDelegate != null)
{
// must be a secure/wrapper delegate
return(innerDelegate.GetMethodImpl());
}
}
else if (IsUnmanagedFunctionPtr())
{
// we handle unmanaged function pointers here because the generic ones (used for WinRT) would otherwise
// be treated as open delegates by the base implementation, resulting in failure to get the MethodInfo
if ((_methodBase == null) || !(_methodBase is MethodInfo))
{
IRuntimeMethodInfo method = FindMethodHandle();
RuntimeType declaringType = RuntimeMethodHandle.GetDeclaringType(method);
// need a proper declaring type instance method on a generic type
if (RuntimeTypeHandle.IsGenericTypeDefinition(declaringType) || RuntimeTypeHandle.HasInstantiation(declaringType))
{
// we are returning the 'Invoke' method of this delegate so use this.GetType() for the exact type
RuntimeType reflectedType = GetType() as RuntimeType;
declaringType = reflectedType;
}
_methodBase = (MethodInfo)RuntimeType.GetMethodBase(declaringType, method);
}
return((MethodInfo)_methodBase);
}
// Otherwise, must be an inner delegate of a SecureDelegate of an open virtual method. In that case, call base implementation
return(base.GetMethodImpl());
}
internal static __ComGenericInterfaceDispatcher CreateGenericComDispatcher(RuntimeTypeHandle genericDispatcherDef, RuntimeTypeHandle[] genericArguments, __ComObject comThisPointer)
{
#if !RHTESTCL && !CORECLR && !CORERT
Debug.Assert(genericDispatcherDef.IsGenericTypeDefinition());
Debug.Assert(genericArguments != null && genericArguments.Length > 0);
RuntimeTypeHandle instantiatedDispatcherType;
if (!Internal.Runtime.TypeLoader.TypeLoaderEnvironment.Instance.TryGetConstructedGenericTypeForComponents(genericDispatcherDef, genericArguments, out instantiatedDispatcherType))
return null; // ERROR
__ComGenericInterfaceDispatcher dispatcher = (__ComGenericInterfaceDispatcher)InteropExtensions.RuntimeNewObject(instantiatedDispatcherType);
dispatcher.m_comObject = comThisPointer;
return dispatcher;
#else
return null;
#endif
}