Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

This seems wrong.

        static ConcurrentHashMap k; //multiple threads have access to k
         X o = k.get("LL");
         o.a = 6;

If multiple threads access k concurrently, and get k("LL"), then update (o.a = #) without k.put("ll",o), without synchronizing on 'o', or on 'k' what happens?

share|improve this question
I believe (Yes, I'm not sure) a concurrent modification exception exception would raise on runtime when you try to set the a property from the X object. – Bruno Vieira Nov 4 '12 at 1:43

3 Answers 3

up vote 2 down vote accepted

A ConcurrentMap has conditional operations that guarantee atomic insert/removal and replacement of key/value pairs. Additionally, accessing a ConcurrentMap creates a happens-before relationship so you can make certain guarantees about the ordering of your code.

In the code presented, the line:

X o = k.get("LL");

accesses the current X value for the key "LL". The next line modifies the a property. Without knowing the implementation of X, this is Java so we know that there is no method call here. If (and only if) the a property is marked as volatile then some subsequent code accessing the X at "LL" will see the a value as 6. If it isn't volatile then there are no guarantees at all. They will probably see 6, particularly on an SMP x86 box, with not many threads doing much at the time. In production, on a big NUMA box, they are less likely to. Mutability brings with it all sorts of complications and difficulty.

Generally, you'll find it is easier to reason about the state the map is in if you use immutable keys AND values.

share|improve this answer
How does accessing create a happens - before, the javadoc, says the happens- before is for writes/adds. – Sam Adams Nov 5 '12 at 1:13
Well, the docs state "Actions in a thread prior to placing an object into any concurrent collection happen-before actions subsequent to the access or removal of that element from the collection in another thread." so you're correct that there is no guarantee that writes to a mutable value will necessarily piggy-back off just accessing the same value in a concurrent collection. As Rich Hickey says, we invented mutable values, we should uninvent them. – Jed Wesley-Smith Nov 5 '12 at 2:01

The ConcurrentHashMap guarantees that getting a value is atomic, but it can't control what you do with the values you get from it. Modifying values in the hashmap is fine from the ConcurrentHashMap's view but may still not result in the behaviour you want. To be sure about thread-safety you need to consider exactly what each thread that has access to it does.

Putting the value back in the ConcurrentHashMap seems redundant and doesn't make the whole operation any safer. You're already modifying the object outside of any synchronization.

Additional synchronization may be necessary, but I can't tell for sure without seeing more context.

share|improve this answer
X x; line 3: synchronized(k){ x = k.get("LL");} line 12: synchronized(k){x.a++;} first thread goes through line 3, second thread goes through line 3 when thread 1 is at line 5, thread one alters x.a, then thread 2 alters x.a, what happens? – Sam Adams Nov 4 '12 at 2:29
is the only way to do this (++x.a twice), to reset x in line 12: synchronized(k){x = k.get("LL); x.a++}? – Sam Adams Nov 4 '12 at 2:35
@SamAdams In both examples, x will be incremented twice. But if you didn't have a synchronized block, one of the updates could have been lost. – fgb Nov 4 '12 at 2:38
and for reads: X x; line 3: synchronized(k){ x = k.get("LL");} line 12: synchronized(k){if(x.b){x.b = false;}} first thread goes through line 3, second thread goes through line 3 when thread 1 is at line 5, thread one alters x.b to false, what x.b does thread 2 see- i'll ask this in another question. – Sam Adams Nov 4 '12 at 2:46

Simply speaking:


is an atomic operation, all the threads will compete, and the last thread setting it will "win", overwriting the value.

More specifically, the ConcurrentHashMap only guarantees that the link between a key and its associated value is handled taking multiple threads into account - ie put and get are atomic.

This does not prevent any thread from modifying attributes of the value once it gets a reference to it!

share|improve this answer
what about synchronized(o){o.a = 6;}? – Sam Adams Nov 4 '12 at 1:45
@SamAdams that means that you can be 100% sure that o.a's value is 6 within the entire synchronized block. – MDeSchaepmeester Nov 4 '12 at 1:47
To explain better, the concurrenthashmap only guarantees the link between a key and its associated value is handled taking multiple threads into account. It does not prevent you modifying attributes of the value once you get a reference to it. – thedayofcondor Nov 4 '12 at 2:12
There is nothing to suggest that that is "atomic" or that there is any memory guarantees from setting it. In fact, there is no meaning without happens-before in the statement "the last thread setting it" as there is no negotiation between the threads on time. It is quite possible that several different threads could be using the same o and all have completely different values of o.a. – Jed Wesley-Smith Nov 5 '12 at 0:52
it still isn't atomic, volatile only gives you visibility guarantees – Jed Wesley-Smith Nov 5 '12 at 1:08

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.