It looks like when programming in Java we are not suppose to use Vectors anymore when threads are involved.
You need to understand why using
Vector is considered to be a bad thing in most contexts. The reasons are:
Vector synchronizes on every operation. Most contexts do not require fine-grained synchronization, and as such it is an unwanted performance overhead.
Vector.elements() method returns an
Enumeration which does not have fail-fast semantics.
Bringing this back to your question. The alternatives depend on what your threads are trying to do:
If the use-case does not require synchronization at all, use
LinkedList. You would typically use these if:
- The list is thread-confined; i.e. only one thread ever can access it.
- The list requires coarse-grained synchronization; i.e. exclusive access while performing a sequence of operations. In this case, you would typically create a custom class with an embedded (say)
ArrayList that is not exposed in the custom classes API.
If the use-case requires fine-grained synchronization,
Collections.synchronizedList wrapper is equivalent to a
Vector. Alternatively, you could stick with
Vector and avoid using the
CopyOnWriteArrayList list has the advantage that its iterator supports concurrent modification ... in a sense. It also scales better if your application mostly performs read the list. Read operations don't need to explicitly synchronize at all, and typically just need to read a single
volatile once. But the flip side is that write operations do synchronize, and are significantly more expensive than a "normal"
The other problem with
Vector and the
Collections.synchronizedList wrapper is that some use-cases require coarser synchronization; e.g. testing a list's size and conditionally adding an element in a single synchronized operation. The
Deque classes provide higher level abstractions that deal with this kind of thing ... for the use-cases involving passing work asynchronously from one thread to another.
The bottom line is that there is not one-size-fits-all solution. You need to understand the concurrency characteristics of your application design, and choose your data structures accordingly.
Finally, if you are programming for Java ME, you may be stuck with using
Vector, depending on what J2ME profile you are targeting.