The fact that a task or a Runnable
may be in idle
(I suppose waiting for I/O or some other resource) is one of the main reason because is appropriate to use a thread pool.
The amount of thread that you want to use on the other hand, is what you need to tune, in order to allow the task to be processed when some of the thread is blocked waiting for a resource.
The only think you need to do is observe how often the thread are getting into idle and tune the amount of thread accordingly.
Don't queue tasks that wait synchronously for results from other tasks. This can cause a deadlock of the form described above, where all the threads are occupied with tasks that are in turn waiting for results from queued tasks that can't execute because all the threads are busy.
Be careful when using pooled threads for potentially long-lived operations. If the program must wait for a resource, such as an I/O completion, specify a maximum wait time, and then fail or requeue the task for execution at a later time. This guarantees that eventually some progress will be made by freeing the thread for a task that might complete successfully.
Understand your tasks. To tune the thread pool size effectively, you need to understand the tasks that are being queued and what they are doing. Are they CPU-bound? Are they I/O-bound? Your answers will affect how you tune your application. If you have different classes of tasks with radically different characteristics, it may make sense to have multiple work queues for different types of tasks, so each pool can be tuned accordingly.
wait
in there, it will still consume a thread from the pool.