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Is anybody aware of any real life use of the class AtomicLongFieldUpdate? I have read the description but I have not quite grasped the meaning of it. Why do I want to know that? Curiosity and for OCPJP preparation.

Thanks in advance.

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You can think of a cost ladder for the following:

  • ordinary long: cheap, but unsafe for multi-threaded access
  • volatile long: more expensive, safe for multi-threaded access, atomic operations not possible
  • AtomicLong: most expensive, safe for multi-threaded access, atomic operations possible

(When I say 'unsafe' or 'not possible' I mean 'without an external mechanism like synchronization' of course.)

In the case where multi-threaded access is needed, but most operations are simple reads or writes, with only a few atomic operations needed, you can create one static instance of AtomicLongFieldUpdate and use this when atomic updates are needed. The memory/runtime overhead is then similar to a simple volatile variable, except for the atomic operations which are of the order of (or slightly more expensive than) the ordinary AtomicLong operations.

Here is a nice little tutorial.

  • Just to add some more info. AtomicLong is only more "expensive" than volatile long in that there is a wrapper class -- so slightly more memory overhead. Also, volatile long is not "safe for multi-threaded access` if you are doing ++. – Gray Jun 21 '13 at 17:14
  • Also the memory overhead of AtomicLongFieldUpdate us going to be much more than just a simple AtomicLong. And the runtime is going to be slower than both volatile long and AtomicLong since it is using reflection. – Gray Jun 21 '13 at 18:11
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    @Gray You can use 1 static instance of ALFU, so the memory overhead is not as huge as you might think. Also, I think (not sure) that reflection is only used to set up the field, not on every access; plus in recent HotSpot versions the operation is intrinsified. The exact cost model (memory and runtime) is going to depend on JRE and JVM implementation. – rxg Jun 21 '13 at 21:11
  • You are correct about the 1 static instance. Reflection has to be used on every access otherwise the 1 static won't work @rxg. – Gray Jun 21 '13 at 21:14
  • @Gray I had a peek at the implementation in the Oracle JDK. There are two different implementations depending on the capability of the underlying JVM (one uses synchronize the other doesn't lock), but both do the most expensive reflection work in their constructors, delegating to sun.misc.Unsafe for the real compareAndSet - so the set up is more expensive, but I would expect the runtime cost to just a bit higher than ordinary AtomicLong. – rxg Jun 24 '13 at 8:00
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Is anybody aware of any real life use of the AtomicLongFieldUpdate class?

I've never used this class myself but in doing a get usage on my workspace I see a couple "real life" instances of its use:

  • com.google.common.util.concurrent.AtomicDouble uses it to atomically modify their internal volatile long field which stores the bits from a double using Number.doubleToRawLongBits(...). Pretty cool.

  • net.sf.ehcache.Element uses it to atomically update the hitCount field.

I have read the description but I have not quite grasped the meaning of it.

It basically provides the same functionality as AtomicLong but on a field local to another class. The memory load of the AtomicLongFieldUpdate is less than the AtomicLong in that you configure one instance of the update for each field so lower memory overhead but more CPU overhead (albeit maybe small) from the reflection.

The javadocs say:

This class is designed for use in atomic data structures in which several fields of the same node are independently subject to atomic updates.

Sure but then I'd just use multiple Atomic* fields. Just about the only reason why I'd use the class is if there was an existing class that I could not change that I wanted to increment atomically.

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The reason why you would use e.g. AtomicLongFieldUpdater in favor to AtomicLong is simply to reduce the heap cost. Internally both work pretty much the same on th compareAndSet level which both use sun.misc.Unsafe at the end.

Consider you have a certain class that is initialized 1000k times. With AtomicLong you'd create 1000k AtomicLongs. With AtomicLongFieldUpdater on the other hand, you'd create 1 CONSTANT AtomicLongFieldUpdater and 1000k long primitives which of course does not need so much heap space.

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Atomics are usually used in parallel programming.

Under the work-stealing mode, it only supports async, finish, forasync, isolated, and atomic variables.

You can view atomic as a safe protection from data race and other problems that you need to concern in parallel programming.

  • This doesn't answer the question which is specifically about AtomicLongFieldUpdate. – Gray Jun 21 '13 at 18:15

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