What is happening here is that you call
TContainer.Create and create an instance to an object. But you then assign that instance to an interface reference, the global variable
Foo. Because that variable is of type
IFoo, the interface delegation means that the implementing object is the instance of
TFooImpl and not the instance of
Hence nothing ever takes a reference to the instance of
TContainer, its reference count is never increased, and so it is never destroyed.
I don't think there's a very easy way around this. You may be able to use
TAggregatedObject but it may not solve your problem. It would force you to declare
TContainer.FFoo to be of type
TFooImpl which I imagine you do not want to do. Anyhow, here's what it looks like re-cast that way:
IFoo = interface
TFooImpl = class(TAggregatedObject, IFoo)
TContainer = class(TInterfacedObject, IFoo)
function GetFoo: IFoo;
destructor Destroy; override;
property Foo: IFoo read GetFoo implements IFoo;
Writeln('TContainer.Destroy called');//this line does run
function TContainer.GetFoo: IFoo;
if not Assigned(FFoo) then
FFoo := TFooImpl.Create(Self);
Result := FFoo;
Foo : IFoo;
Foo := TContainer.Create;
The documentation does talk about this:
The class you use to implement the delegated interface should derive from TAggregationObject.
Initially I could not find any documentation for this
TAggregationObject. And finally I realised that it's actually named
TAggregatedObject and is documented.
TAggregatedObject provides the functionality for an inner object of an
aggregate by implementing the IInterface methods to delegate to the
An aggregated object is an object composed of several interfaced
objects. Each object implements its own behavior and interfaces, but
all the objects share the same reference count, which is that of the
controller object. In the container pattern, the controller is the
TAggregatedObject does not itself support any interfaces. However, as
is typical of an aggregate, it does implement the methods of
IInterface, which are used by the objects that descend from it.
TAggregatedObject, therefore, serves as a base for classes that
implement interfaces for creating objects that are part of an
TAggregatedObject is used as a base for classes that create contained
objects and connecting objects. Using TAggregatedObject ensures that
calls to the IInterface methods delegate to the controlling IInterface
of the aggregate.
The controlling IInterface is specified in the constructor for
TAggregatedObject and is indicated by the Controller property.
In addition there is this from the source code comments:
TAggregatedObject and TContainedObject are suitable base classes
for interfaced objects intended to be aggregated or contained in an
outer controlling object. When using the "implements" syntax on an
interface property in an outer object class declaration, use these
types to implement the inner object.
Interfaces implemented by aggregated objects on behalf of the
controller should not be distinguishable from other interfaces
provided by the controller. Aggregated objects must not maintain
their own reference count - they must have the same lifetime as
their controller. To achieve this, aggregated objects reflect the
reference count methods to the controller.
TAggregatedObject simply reflects QueryInterface calls to its
controller. From such an aggregated object, one can obtain any
interface that the controller supports, and only interfaces that the
controller supports. This is useful for implementing a controller
class that uses one or more internal objects to implement the
interfaces declared on the controller class. Aggregation promotes
implementation sharing across the object hierarchy.
TAggregatedObject is what most aggregate objects should inherit
from, especially when used in conjunction with the "implements"