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What's wrong with this below code?.

private Map<Integer, Integer> aMap = new ConcurrentHashMap<Integer, Integer>();    
Record rec = records.get(id);
  if (rec == null) {
      rec = new Record(id);
      records.put(id, rec);
  return rec;
  1. Is the above code not Thread-safe?. Why should i use putIfAbsent here in this case?.
  2. Locking is applied only for updates. In case of of retrievals, it allows full concurrency. What does this statement mean?.
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2 Answers

up vote 6 down vote accepted

It's not thread safe.

  1. If there was another thread, then in the time between records.get and records.put the other thread might have put the record as well.

  2. Read only operations (i.e. ones that do not modify a structure) can be done by multiple threads at the same time. For example, 1000 threads can safely read the value of an int. However, those 1000 threads cannot update the value of the int without some sort of locking operation.

I know that this may sound like a very unlikely event, but remember that a 1 in a million event happens 1000 times per second at 1GHz.

This is thread safe:

private Map<Integer, Integer> aMap = new ConcurrentHashMap<Integer, Integer>();
// presumably aMap is a member and the code below is in a function
aMap.putIfAbsent(id, new Record(id))
Record rec = records.get(id);
return rec;

Note that this might create a Record and never use it.

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Read only operations (i.e. ones that do not modify a structure) can be done by multiple threads at the same time. - Does this mean full concurrency?. –  John Cooper Sep 29 '13 at 0:35
I haven't heard that term before, but it seems to me that yes. –  Adam Sep 29 '13 at 0:38
one final question replacing the put with putIfAbsent() does it make thread safe?. –  John Cooper Sep 29 '13 at 0:40
Yes, if you do it carefully. The docs for putIfAbsent say "the action is performed atomically". Atomic means that the action is performed as one chunk that cannot be split/interrupted by other threads. I'll edit the answer for how to make it atomic. –  Adam Sep 29 '13 at 0:44
I'm just assuming that aMap is some variable that might be used outside of the record get function. –  Adam Sep 29 '13 at 0:51
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It could or could not be thread-safe, depending on how you want it to act.

By the end of the code, aMap will safely have a Record for id. However, it's possible that two threads will both create and put a Record in, such that there are two (or more, if more threads do it) Records in existence. That might be fine, and it might not be -- really depends on your application.

One of the dangers of thread-safety (for instance, if you use a normal HashMap without synchronization) is that threads can read partially-created or partially-updated objects across threads; in other words, things can go really haywire. This will not happen in your code, because ConcurrentHashMap will ensure memory is kept up-to-date between threads, and in that sense it is thread-safe.

One thing you can do is to use putIfAbsent, which will atomically put a key-value pair into the map, but only if there's nothing at that key already:

if (rec == null) {
    records.putIfAbsent(id, new Record(id));
    rec = records.get(id);

In this approach, you might create a second Record object, but if so, it'll not get inserted and will immediately be available for garbage collection. By the end of the snippet:

  • records will contain a Record for the given id
  • only one Record will have ever been put into records for that id (whether put there by this thread or another)
  • rec will point to that record
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I think you meant records.putIfAbsent(.. and not records.put(.. in your code snippet –  Adam Sep 29 '13 at 0:49
Whoops, yes, thank you. –  yshavit Sep 29 '13 at 0:51
Thanks @yshavit for your answer too... Thanks for your time. –  John Cooper Sep 29 '13 at 0:55
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