Let's consider a third-party class
A with the following characteristics:
Most of its implementation is private and quite complex, so it can be extended but not reasonably modified.
Ahas a very expensive constructor that should never be called unnecessarily - in my case it builds a huge lookup table of data for later use.
This means that creating a decorator class as a drop-in replacement for
Ais out of the question, since any decorator would have to inherit from
Aand call its constructor.
Ais used by third-party code, so a proxy class cannot be used in its place - other code expects instances of
Aand that is what it should get.
Aprovides a bunch of very expensive reporting methods that frabble a lot of wrabbles to produce a bunch of reports.
These methods do not produce any locally-used result - they could theoretically be asynchronous, but unfortunately they are not.
The methods of
Acall each other - a lot.
Aimplementation is opaque and in constant flux - hacks like using reflection post-instantiation to e.g. slim things down are out of the question.
Ais not thread-safe - not really...
I reached a point where
A became a bottleneck in a project of mine, so I created a child class
B hoping to push the actual frabbling of wrabbles to a separate thread. I overrode all public methods of
A to just submit
Runnable objects to a single-thread executor service. Each
Runnable then executes the appropriate
super method from the worker thread.
A calls its own public methods a lot. Normally that would not be a problem, but in my case the superclass is calling methods from
B. That is a major issue, because the
B methods defer the actual execution and submit new tasks to the executor service, leading to both performance and correctness issues.
My solution was to check the result of
Thread.currentThread() in all methods from
B so that calls coming from the worker thread will be delegated directly to the
super method rather than being submitted as a new task.
So now I am at the point where it's
Thread.currentThread() that has become a performance issue, probably due to its being a native method that is called way too often.
Is there a faster way to check for method calls that originate from the superclass and/or the worker thread in a thread-safe manner?
Is there an alternative design that would allow me to push
A's frabbling of wrabbles to another thread? It seems to me that due to
Abeing third-party code I am mostly trapped...