use volatile and cache locally or synchronize?
I think you are mistaken about what the volatile
keyword does. With all modern OS processors, there is a local per-processor memory cache. The volatile
keyword doesn't enable the local cacheing -- you get that "for free" as part of modern computer hardware. This cacheing is an important part of multi-threaded program performance increases.
The volatile
keyword ensures that when you read the field, a read memory-barrier is crossed ensuring that all updated central memory blocks are updated in the processor cache. A write to a volatile
field means that a write memory-barrier is crossed ensuring that local cache updates are written to central memory. This behavior is exactly the same as the memory barriers that you cross in a synchronized
block. When you enter a synchronized
block, a read memory-barrier is crossed and when you leave a write is crossed.
The biggest difference between synchronized
and volatile
is that you pay for locking with synchronized
. synchronized
is necessary when there are more than a single operation happening at the same time and you need to wrap the operations in a mutex lock. If you are just trying to keep your name
field properly updated with main memory then volatile
is the way to go.
Another option is an AtomicReference
which wraps a private volatile Object
field and provides atomic methods like compareAndSet(...)
. Even if you are not using the special methods, many programmers feel that it is a good way to encapsulate the fields you need to be memory synced.
Lastly, both volatile
and synchronized
also provide "happens-before" guarantees which control instruction reordering which is important to ensure proper order of operations in your program.
In terms of your code, you should never do something like:
synchronized(guard) {
if (name != null) {
print(name);
}
}
You don't want to do expensive IO inside of a synchronized
block. It should something like:
// grab a copy of the name so we can do the print outside of the sync block
String nameCopy;
synchronized(guard) {
nameCopy = name;
}
if (nameCopy != null) {
print(nameCopy);
}
With volatile
, you want to do one volatile
field lookup so something like the following is recommended:
void run() {
// only do one access to the expensive `volatile` field
String nameCopy = name;
if (nameCopy != null) {
print(nameCopy);
}
}
Lastly, from the comments, volatile
is significantly more expensive than a normal operation (which can use cached memory) but volatile
is significantly less expensive than a synchronized
block which has to test and update the lock status on the way in and way out of the block and cross the memory barriers that affect all cached memory. My back of the envelope testing shows that demonstrates this performance difference.
AtomicReference<String>
this.name.get()
in order to get a local cache.