I am familiar with the synchronized
block/method. Is this required when modifying fields from separate threads? Will setting and getting the field without synchronization at the same time cause the field to get screwed up? Here is a little graph:
Time | Thread A | Thread B
1 ... ...
2 fieldA = 10; System.out.println(fieldA);
3 fieldA = 20; fieldA = 30;
4 ... ...
Could something like this cause some sort of exception and multi-threaded fields should always be accessed through synchronization? Could this behavior change when using objects vs. primitives as a field type?
Reading this, it convinces me that two threads have different memory and each field change is cloned to all the other threads "sharing" this field.
Could bytecode instructions be executed in strange ways? Like say the bytecode to do ++
was getting the value, incrementing the value, and storing it.
Time | Thread A | Thread B //Imagine in bytecode
1 x = 10 waiting
2 y = x + 1 waiting
3 waiting x = 0;
4 waiting ...
5 x = y waiting
In the above example, Thread A incremented x from 10 to 11, but Thread B's x = 0 was completely ignored. If this type of thread switching didn't happen and it was done on a statment-by-statement basis, then the result of the two threads work would result either 0, or 1.
So again, my question is, when is synchronization required when modifying shared fields? If synchronization is required or not, can you please explain why and include the few examples above?