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In C# it's pretty straightforward:

class Class1{
  private static readonly object locker = new object();
  void Method1(){
    lock(locker) { .... }

And I definitely should not make a synchronization on this because it might lead to a deadlock. Likewise, in Scala I saw examples and couldn't get the idea of what is the basic principle of synchronization and object (field) I should use to make a synchronization:

def add(user: User) {
  // tokenizeName was measured to be the most expensive operation.
  val tokens = tokenizeName(

  tokens.foreach { term =>
    userMap.synchronized {
      add(term, user)

class Person(var name: String) {
  def set(changedName: String) {
    this.synchronized {
      name = changedName

#3 and so on...

Would you mind making it clear for me?

share|improve this question
while synchronizing is possible in scala, it would be more idiomatic to eliminate the need for it. E.g use immutable data structures and design programs in a way that allows for non-blocking aynchronous execution. – rompetroll Jun 16 '13 at 7:10
@rompetroll, I'm very curious about it. Can you please show me an example? But nonetheless, even using immutable data structures is just moving the responsibility of synchronization further, for example, to someone who will use this code with immutable state, eventually it will necessary to use it. As far as I understand, it's not possible to avoid using synchronized method even when there are only immutable data structures. Isn't that so? – Oskar K. Jun 16 '13 at 7:55
If your program doesn't fork, why would you need synchronized? If your sub routines are all based on immutable structures, the only place where state updates are seen is your main method. You can perfectly design large libraries without the need to introduce a single synchronized keyword. – 0__ Jun 16 '13 at 10:38
@Grienders, No, it is entirely possible. If your data is completely immutable (with no exceptions; this also implies that there are no I/O operations performed), then no explicit synchronization is really needed, because no thread would be able to interfere with other thread operations in any way. – Vladimir Matveev Jun 16 '13 at 13:05
However, with immutable data the only way you can transfer data between threads is starting new child thread with new piece of data. This can be very inconvenient and ineffective, so you eventually just have to have mutable state. But different libraries try to abstract this state so you won't access it directly, so you still won't need synchronized. For example, that is what actor libraries (e.g. Akka) do. On lower level each actor has mutable queue of messages, but you do not access it directly, you use immutable messages instead. Hence, no synchronized in your code. – Vladimir Matveev Jun 16 '13 at 13:08
up vote 10 down vote accepted
  1. Having a lock on object in Scala is the same as having the lock on static field/class in Java, which is basically one of 'hardest' locks. It will block operations not on instance of class, but on class itself in scope of class loader. You should think carefully when introducing locks like this. It doesn't protect you from a deadlock due to incorrect ordering of acquired locks, but instead leads to blocking threads if ones are working with different instances of a class, and may not interfere at all.

  2. having a lock on 'this' or some class (not object) field (mutex) is more relaxed way of synchronization, you should use it for managing access not to class - but to particular instance of this class.

  3. look at actors in akka, they rock and eliminate many of problems with synchronization.

side-note: making synchronization on 'this' doesn't imply deadlocks.

share|improve this answer
making synchronization on 'this' doesn't imply deadlocks. - in Java? In C# it might does. – Oskar K. Jun 16 '13 at 4:13
I'm not sure how just making it synchronized on class instance can lead to deadlock alone. If you lock instance A in thread B, then try to lock instance C, and lock instance C in thread D and try to lock on instance A - then you're in trouble disregard of what objects A and C (static or not). – jdevelop Jun 16 '13 at 4:16
making synchronization on 'this' doesn't imply deadlocks. -- in Java? In C# it might do for sure – Oskar K. Jun 16 '13 at 4:35
I think the words in #1 are not chosen carefully (i.e., wrong). A Scala object is analogous to Java statics, but it's just an ordinary instance under the hood, a static field something like Foo$.MODULE$. Foo.synchronized means syncd on that instance, not on Foo$.class. – som-snytt Jun 16 '13 at 5:25
I don't know about C#, but synchronizing on this does not automatically introduce a risk of deadlocks in either Java or Scala. It depends on what you're doing with them. If one thread could synchronize on instance A and instance B (in that order) while another thread synchronizes on instance B and instance A, then you're in trouble. – Aaron Novstrup Jun 16 '13 at 5:31

In Scala it's even more straightforward to get the same behavior (I'm assuming you want to lock on the contained object for some reason e.g. more fine-grained control than locking the whole instance of that class):

class Class1 {
  private object Locker
  def method1 { Locker.synchronized { ... } }

But you should rarely control things this way. In particular, it won't prevent deadlocks in either C# or Scala without a lot of attention to what goes into ....

You should at least use the concurrency tools in java.util.concurrent, and you may want to look into futures or actors.

share|improve this answer
@Grienders this is Scala, and indeed the correct way to make a private lock, which reduces the risk of deadlocks, because Class1 fully controls where that lock is used. If you only have one private lock, you cannot run into a deadlock. You need at least two locks for a potential deadlock. – 0__ Jun 16 '13 at 9:59
@Grienders - That is Scala. You said "In C# it is pretty straightforward". I showed how to do the exact same thing in Scala even more simply. So if you already know how to do it in C#, now you know how to do it in Scala. – Rex Kerr Jun 16 '13 at 10:01
@0__ - You do need at least two locks, but they can be two locks on different instances of the same class. So even with a single private lock you have to take considerable care. – Rex Kerr Jun 16 '13 at 10:02
try to compile your code as a Scala code and you'll see. – Oskar K. Jun 16 '13 at 10:08
Trust me, I write Scala since years. This compiles. I take it you remove the ellipsis ... which is a placeholder. – 0__ Jun 16 '13 at 10:28

If the premise is that you want to avoid locking on this because another thread with third party code can lock on the same object, then Scala offers one more level of visibility private[this].

class C {
  private[this] val lock = new Object()
  def method1(): Unit = lock.synchronized {

Here actually no other object other than a particular instance of C can access lock. Even other instances from the same class cannot access lock.

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