The problem is that instances of Object2 are not getting garbage collected at the end of each loop iteration, ... . Is this to be expected?
Yes it is. The default behaviour of a JVM is to run the garbage collector when it is most efficient to do so. That typically means when the "new" space fills up. The GC is certainly not "eager", and it does not try to reclaim objects as soon as they become unreachable.
Is there a way to force the cleanup of the Object2 instances so that each loop has a fresh start?
You can call
System.gc() as a hint to run the garbage collector NOW. But the JVM can be configured to ignore the hint.
Is this a bad program design?
It is usually bad design to call
System.gc(). Running the GC is relatively expensive, and running it frequently when it is not necessary (from an ergonomic perspective) is very wasteful.
It is always bad design to write code that depends on the GC running immediately. Indeed, anything that requires the use of a custom
finalize() should be treated with great suspicion.
I think that your real issue is this:
.... so the static instancecount variable of Object2 just grows and grows (along with memory usage) with every iteration
This is true to a point. But eventually, the JVM will decide that it is a good time to run the GC, and all of the objects will be reclaimed. That's the way that GC works.
Your real problem is (I think) that you are uncomfortable with the fact that a significant amount of memory is needed to hold all of the garbage objects that haven't been reclaimed yet. But the flip side to that is that the GC ... and your application ... runs faster if it has plenty of memory to play with. Surprisingly, both allocation and reclamation are much faster than if the GC used (for instance) reference counting to ensure that objects are reclaimed ASAP.
The other thing to note is that you must be using a finalizer to decrement the instance counter. This has the unfortunate side-effect of significantly increasing the GC overheads, and slowing the ultimate recycling of the objects.
(What happens is that the main GC notices that the object is finalizable, and adds it to a queue to finalized later. The finalizable objects and any objects that are reachable are taken off the list of objects that can be immediately reclaimed. At a later point, the finalization thread iterates over the queue, calling the
finalize methods for each one. If this results in objects becoming fully unreachable, they will be reclaimed on the next GC run.)