Eric, I have read your comments and one in particular strikes me
In fact, I can understand the usage of volatile on the concept
level. But for practice, I can't think
up the code which has concurrency
problems without using volatile
The obvious problem you can have are compiler reorderings, for example the more famous hoisting as mentioned by Simon Nickerson. But let's assume that there will be no reorderings, that comment can be a valid one.
Another issue that volatile resolves are with 64 bit variables (long, double). If you write to a long or a double, it is treated as two separate 32 bit stores. What can happen with a concurrent write is the high 32 of one thread gets written to high 32 bits of the register while another thread writes the low 32 bit. You can then have a long that is neither one or the other.
Also, if you look at the memory section of the JLS you will observe it to be a relaxed memory model.
That means writes may not become visible (can be sitting in a store buffer) for a while. This can lead to stale reads. Now you may say that seems unlikely, and it is, but your program is incorrect and has potential to fail.
If you have an int that you are incrementing for the lifetime of an application and you know (or at least think) the int wont overflow then you don't upgrade it to a long, but it is still possible it can. In the case of a memory visibility issue, if you think it shouldn't effect you, you should know that it still can and can cause errors in your concurrent application that are extremely difficult to identify. Correctness is the reason to use volatile.