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Problem Statement:

  1. I have a 5000 id's that point to rows in a database.[ Could be more than 5000 ]

  2. Each Runnable retrieves the row in a database given an id and performs some time consuming tasks

    public class BORunnable implements Callable<Properties>{
    
      public BORunnable(String branchID) {            
        this.branchID=branchID;            
      }
    
      public setBranchId(String branchID){
        this.branchID=branchID;
      }
      public Properties call(){
        //Get the branchID
        //Do some time consuming tasks. Merely takes 1 sec to complete
    
        return propObj;            
      }
    }
    
  3. I am going to submit these runnables to the executor service.

  4. For that, I need to create and submit 5000 or even more runnables to the executor service. This creation of runnables, in my environment could throw out of memory exception. [given that 5000 is just an example]

So I came up with a approach, I would be thankful if you provide anything different:

  1. Created a thread pool of fixed size 10.

    int corePoolSize = 10;
    ThreadPoolExecutor executor = new ThreadPoolExecutor(corePoolSize, 
        corePoolSize + 5, 10, TimeUnit.SECONDS, 
        new LinkedBlockingQueue<Runnable>());
    
    Collection<Future<Properties>> futuresCollection = 
        new LinkedList<Future<Properties>>();
    
  2. Added all of the branchIDs to the branchIdQueue

    Queue<String> branchIdQueue = new LinkedList<String>();
    Collections.addAll(branchIdQueue, branchIDs);
    
  3. I am trying to reuse runnable. Created a bunch of runnable

    Now i want this number of elements to be dequeued and create runnable for each

    int noOfElementsToDequeue = Math.min(corePoolSize, branchIdQueue.size());
    
    ArrayList<BORunnable>runnablesList = dequeueAndSubmitRunnable(
        branchIdQueue,noOfElementsToDequeue);
    
    
    ArrayList<BORunnable> dequeueAndSubmitRunnable(branchIdQueue,
        noOFElementsToDequeue){
    ArrayList<BORunnable> runnablesList= new ArrayList<BORunnable>();
        for (int i = 0; i < noOfElementsToDequeue; i++) {
            //Create this number of runnables
            runnablesList.add(new BORunnable(branchIdQueue.remove()));
        }
    return runnablesList;
    }
    
  4. Submitting the retrieved runnables to the executor

    for(BORunnable boRunnableObj:runnablesList){
         futuresCollection.add(executor.submit(boRunnableObj));
    }
    
  5. If the queue is empty, I created the runnables I needed. if it's not, I want to reuse the runnable and submit to the executor.

  6. Here I get number of runnables to be reused = the total count - current active count [Approximate is enough for me]

    int coreSize=executor.getCorePoolSize();
    
    while(!branchIdQueue.isEmpty()){
    
        //Total size - current active count 
        int runnablesToBeReused=coreSize-executor.getActiveCount();
        if(runnablesToBeReused!=0){
            ArrayList<String> branchIDsTobeReset = removeElementsFromQueue(
                branchIdQueue,runnablesToBeReused);
            ArrayList<BORunnable> boRunnableToBeReusedList = 
                getBORunnableToBeReused(boRunnableList,runnablesToBeReused);
            for(BORunnable aRunnable:boRunnableList){
                //aRunnable.set(branchIDSTobeRest.get(0));
            }
        }
    
    }
    

My Problem is

  1. I couldn't able to find out which Runnable has been released by the thread pool so i could use that to submit

  2. Hence, I randomly take few runnables and try to set the branchId, but then thread race problem may occur. [don't want to use volatile]

  • Why not just use the branchidQueue and create BORunnable directly when submitting it? I don't see why you need runnablesList. So you would save that memory. – Fildor Aug 27 '14 at 7:30
  • Trying to avoid iteration in BORunnable. If there is an iteration in a runnable, then it's of no use for a mulithreading concept. – surendhar_s Aug 27 '14 at 7:48
  • Why don't you use Future.isDone()? docs.oracle.com/javase/7/docs/api/java/util/concurrent/… – inigoD Aug 27 '14 at 8:45
  • No not inside the runnable. I mean for(String id:branchidQueue){ futuresCollection.add(executor.submit(new BORunnable(id))); } well, just with dequeing, but you know what I mean. Just leaving out the ArrayList - step. – Fildor Aug 27 '14 at 8:47
  • @Fildor Creation of BoRunnable may result in out of memory exception in JVM environment. There is no specified limit in number of BoRunnable object creation. – surendhar_s Aug 27 '14 at 9:56
1

Reusing the Runnables makes no sense as the problem is not the cost of creating or freeing the runnable instances. These come almost for free in Java.

What you want to do is to limit the number of pending jobs which is easy to achieve: just provide a limit to the queue you are passing to the executor service. That’s as easy as passing an int value (the limit) to the LinkedBlockingQueue’s constructor. Note that you can also use an ArrayBlockingQueue then as a LinkedBlockingQueue does not provide an advantage for bounded queue usage.

When you have provided a limit to the queue, the executor will reject queuing up new jobs. The only thing left to do is to provide an appropriate RejectedExecutionHandler to the executor. E.g. CallerRunsPolicy would be sufficient to avoid that the caller creates more new jobs while the threads are all busy and the queue is full.

After execution, the Runnables are subject to garbage collection.

  • Thanks for your input. If you provide a limit to the queue, it will reject all the other runnables i am trying to add, i don't want that to happen. This is my problem, Create and add runnable only when the queue is empty enough to hold one or more runnables. – surendhar_s Aug 28 '14 at 5:32
  • @surendhar_s: maybe you should (re)read the part with the RejectedExecutionHandler and CallerRunsPolicy carefully. – Holger Aug 28 '14 at 8:18
  • If you don’t like CallerRunsPolicy you may look at WaitingRejectionHandler from this answer. What both have in common is that all runnables will run, it’s only slowing the submitting thread down in creating new runnables. Which is exactly what you want. – Holger Aug 28 '14 at 8:50

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