I have a task that would benefit from the Thread Pool design pattern (many small tasks to be performed in parallel). I initially implemented a naive thread pool from scratch, with n Runnables all pulling work units from the same
ConcurrentLinkedQueue until the queue is empty, then terminating. I then decided "hey, let's try the Executor in Java, because that is probably better-tested and more reliable than my naively designed system." Problem: in my implementation, each thread persisted until the queue was empty, using a while
(!queue.isEmpty()), and got its own instance of a non-threadsafe object, let's call it
SlowObject foo, that is time-consuming to construct. Trying to pass all
Runnables that go into the
Executor's pool an instance of the time-inefficient object fails because it is not thread-safe. Creating a new instance of
SlowObject for each
Runnable is undesirable because they are costly to construct.
Is there a way to say "how many threads are we using? Let's create one
SlowObject for each thread, and then let the Runnables detect what thread we're on and look up the correct object to use?" This sounds brittle and failure-prone -- not sure what design pattern I should be looking at instead, though.