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I have a singleton logger that contains a vector. Objects from outside can append information to this vector by calling singletonLogger.append(String data) and read the whole vector by calling singletonLogger.getLogEntries() which returns a string. It would be nice to overload the getLogEntries-method with an int-parameter, e.g. getLogEntries(int x), to be able to get only the last x entries instead of the whole log.

Without regarding mutliple threads, this would be easy, something like:

String getLogEntries(int x) {

int size = vector.size();

for(int i = size; i > (size - x); i--) {

    // StringBuilder.append(vector.elementAt....


But of course, this is not really safe when taking multiple threads into account. Imagine the vector gets cleared by another method shortly after its size was determined by the method above, the loop will crash.

On the other hand, I do not want to mark the whole method as synchronized, because the loop processing could last 5 - 10 seconds. This would block all the code that is trying to call the logger's methods, right?

Is there another way to reliably get the last x elements of a vector?


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Can you just make the Vector synchronized? – Jivings Feb 17 '12 at 16:30
Uh. The Vector class is already synchronized by definition. – Gray Feb 17 '12 at 16:39

2 Answers 2

up vote 2 down vote accepted


Vector has a sublist method that should work and be synchronized but that doesn't solve someone clearing the Vector in another thread. You could use ReadWriteLock and get a readLock() when reading from the end of the Vector using sublist() and a writeLock() (which guarantees exclusive access) when clear() needs to be called. If your background thread is writing the log entries to disk or something, it should count the number of line written, and then get a writeLock() and remove those from the front of the list instead of calling clear(). That would limit the time under the lock to be more efficient.

You might also consider maintaining your own internal queue so you can control the synchronization specifically. This may make it easier to clear the earlier entries from the queue. Then again you may need a ReadWriteLock for that as well.

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Thanks to all of you. I knew a vector is already thread safe, but I think this does not solve my problem. Imagine: subList(vector.size()-x, vector.size()) . It is not guaranteed that those indices are still valid when subList is executed, right? – ceran Feb 17 '12 at 16:35
Okay, this ensures that both indices are consistent. But it is not guaranteed that the vector still contains those indicies at all since they are determined at another time then the sublist method gets executed. edit: hm, your comment vanished :D – ceran Feb 17 '12 at 16:42
You will get concurrent modification exceptions if you use the list returned by this method after any changes to the underlying vector. Which makes it quite inappropriate for a multi threaded application. – Perception Feb 17 '12 at 16:43
Oh, I missed the cleared(). I'll edit my answer. – Gray Feb 17 '12 at 16:44
thank you, I will try this – ceran Feb 17 '12 at 16:56

Did you consider copying the relevant elements to a new Vector in a synchronized block and then handling them outside one?

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