Reference counting overview
To understand what is happening here we need short overview of how Delphi ARC works on reference counted object instances (ones implementing some interface) under classic compiler.
Reference counting basically counts strong references to an object instance and when last strong reference to an object goes out of scope, reference count will drop to 0 and instance will be destroyed.
Strong references here represent interface references (object references and pointers don't trigger reference counting mechanism) and compiler inserts calls to
_Release methods at appropriate places for incrementing and decrementing reference count. For instance, when assigning to interface
_AddRef is called, and when that reference goes out of scope
Simplified those methods generally look like:
function TInterfacedObject._AddRef: Integer;
Result := AtomicIncrement(FRefCount);
function TInterfacedObject._Release: Integer;
Result := AtomicDecrement(FRefCount);
if Result = 0 then
Construction of reference counted object instance looks like:
TInterfacedObject.Create -> RefCount = 0
- executing chain of constructors
assigning to initial strong reference
Intf := ...
To understand actual problem we need to dig deeper in construction sequence, particularly
class function TInterfacedObject.NewInstance: TObject;
Result := inherited NewInstance;
TInterfacedObject(Result).FRefCount := 1;
Why is initial reference count in
NewInstance set to 1 and not to 0?
Initial reference count must be set to 1 because code in constructors can be complex and can trigger transient reference counting which could automatically destroy the object during the construction process before it has chance to be assigned to the initial strong reference that will keep it alive.
That initial reference count is then decreased in
AfterConstruction and object instance reference count is properly set for further reference counting.
Real problem in this questions code is in fact that it triggers transient reference counting in
AfterConstruction method after call to
inherited which decreases initial object reference count back to 0. Because of that, object will have its count increased, then decreased to 0 and it will self destruct calling
While object instance is protected from self destruction inside constructor chain, for a brief moment it will be in fragile state inside
AfterConstruction method and we need to make sure that there is no code there that can trigger reference counting mechanism during that time.
Actual code that triggers reference counting in this case is hidden in rather unexpected place and it comes in form of
[weak] attribute. So, the very thing that should prevent instance from participating in reference counting mechanism actually triggers it - this is a flaw in
[weak] attribute design reported as RSP-20406.
- If possible, move code that can trigger reference counting from
AfterConstruction to constructor
inherited at the end of
AfterConstruction method instead of the beginning.
- Perform some explicit reference counting on your own by calling
AtomicIncrement(FRefCount) at the beginning and
AtomicDecrement(FRefCount) at the end of
AfterConstruction (you cannot use
_Release because it will destroy the object)
[weak] attribute with
[unsafe] (this can only be done if
TFoo instance lifetime will never exceed
TBar instance lifetime