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<!DOCTYPE HTML PUBLIC "-//IETF//DTD HTML//EN">
<html>
 <head>
   <title>JSR 166 Snapshot Introduction.</title>
  </head>

  <body bgcolor="#ffffee" vlink="#0000aa" link="#cc0000">
  <h1>JSR 166 Snapshot Introduction.</h1>

  by <a href="http://gee.cs.oswego.edu/dl">Doug Lea</a>
  <p>

To join a mailing list discussing this JSR, go to:
<A HREF="http://altair.cs.oswego.edu/mailman/listinfo/concurrency-interest"> http://altair.cs.oswego.edu/mailman/listinfo/concurrency-interest</A> .

<p>
<em>
 Disclaimer - This prototype is experimental code developed as part of
 JSR166 and made available to the developer community for use
 as-is. It is not a supported product. Use it at your own risk. The
 specification, language and implementation are subject to change as a
 result of your feedback. Because these features have not yet been
 approved for addition to the Java language, there is no schedule for
 their inclusion in a product.
</em>

<p>
Package java.util.concurrent contains utility classes that are
commonly useful in concurrent programming. Like package java.util, it
includes a few small standardized extensible frameworks, as well as
some classes that provide useful functionality and are otherwise
tedious or difficult to implement.  In this JSR, we have been
conservative in selecting only those APIs and implementations that are
useful enough to encourage nearly all concurrent programmers to use
routinely.  JSR 166 also includes a few changes and additions in
packages outside of java.util.concurrent: java.lang, to address
uncaught exceptions, and java.util to better integrate queues.
The API covers:

  <ul>
    <li> Queues
    <li> Executors
    <li> Locks
    <li> Condition variables
    <li> Atomic variables
    <li> Timing
    <li> Synchronizers
    <li> Concurrent Collections
    <li> Uncaught Exception Handlers
  </ul>


The main rationale for JSR 166 is that threading primitives, such as
synchronized blocks, Object.wait and Object.notify, are insufficient
for many programming tasks.  Currently, developers can use only the
concurrency control constructs provided in the Java language
itself. These are too low level for some applications, and are
incomplete for others.  As a result, application programmers are often
forced to implement their own concurrency facilities, resulting in
enormous duplication of effort creating facilities that are
notoriously hard to get right and even harder to optimize.  Offering a
standard set of concurrency utilities will ease the task of writing a
wide variety of multithreaded applications and generally improve the
quality of the applications that use them.

<p>
Here are brief descriptions and rationales of the main components.
For details see the javadocs at <a
href="http://gee.cs.oswego.edu/dl/concurrent/index.html">http://gee.cs.oswego.edu/dl/concurrent/index.html</a>


<h2>Queues</h2>

A basic (nonblocking) Queue interface that is compatatible with
java.util.Collections will be introduced into java.util. Also,
although it is at the borders of being in scope of JSR-166,
java.util.LinkedList will be adapted to support Queue, and
a new non-thread-safe java.util.PriorityQueue will be added.

<p> Five implementations in java.util.concurrent support the extended
BlockingQueue interface, that defines blocking versions of put and
take: LinkedBlockingQueue, ArrayBlockingQueue, SynchronousQueue,
PriorityBlockingQueue, and DelayQueue. Additionally,
java.util.concurrent.LinkedQueue supplies an efficient thread-safe
non-blocking queue.

<p> Since the target release is JDK1.5, and generics are slated to be
in 1.5, Queues are parametrized on element type. (Also some others
below.)


<h2>Executors</h2>

Executors provide a simple standardized interface for defining custom
thread-like subsystems, including thread pools, asynch-IO, and
lightweight task frameworks.  Executors also standardize ways of
calling threads that compute functions returning results, via
Futures. This is supported in part by defining interface Callable, the
argument/result analog of Runnable.
 
<p> Executors provide a framework for executing Runnables.  The
Executor manages queueing and scheduling of tasks, and creation and
teardown of threads.  Depending on which concrete Executor class is
being used, tasks may execute in a newly created thread, an existing
task-execution thread, or the thread calling execute(), and may
execute sequentially or concurrently.

<p> Several concrete implementations of Executor are included in
java.util.concurrent, including ThreadPoolExecutor, a flexible thread
pool and ScheduledExecutor, which adds support for delayed and
periodic task execution.  Executor can be used in conjunction with
FutureTask (which implements Runnable) to asynchronously start a
potentially long-running computation and query the FutureTask to
determine if its execution has completed.

<p> The <tt>Executors</tt> class provides factory methods for all
of the types of executors provided in
<tt>java.util.concurrent</tt>.


<h2>Locks</h2>

The Lock interface supports locking disciplines that differ in
semantics (reentrant, fair, etc), and that can be used in
non-block-structured contexts including hand-over-hand and lock
reordering algorithms. This flexibility comes at the price of more
awkward syntax.  Implementations include ReentrantLock and
FairReentrantLock.

<p>
The Locks class additionally supports trylock-designs using builtin
locks without needing to use Lock classes.  This requires adding new
capabilities to builtin locks inside JVMs.

<p>
A ReadWriteLock interface similarly defines locks that may be shared
among readers but are exclusive to writers. For this release, only a
single implementation, ReentrantReadWriteLock, is planned, since it
covers all standard usage contexts. But programmers may create their
own implementations to cover nonstandard requirements.

<h2>Conditions</h2>

A Condition class provides the kinds of condition variables associated
with monitors in other cocurrent languages, as well as pthreads
condvars.  Their support reduces the need for tricky and/or
inefficient solutions to many classic concurrent problems.  Conditions
also address the annoying problem that Object.wait(msecs) does not
return an indication of whether the wait timed out. This leads to
error-prone code. Since this method is in class Object, the problem is
basically unfixable.
<p>
To avoid compatibility problems, the names of Condition methods need
to be different than Object versions. The downside of this is that
people can make the mistake of calling cond.notify instead of
cond.signal. However, they will get IllegalMonitorState exceptions if
they do, so they can detect the error if they ever run the code.


<h2>Atomic variables</h2>

The atomic subpackage includes a small library of classes, including
AtomicInteger, AtomicLong, and AtomicReference that support variables
performinf compareAndSet (CAS) and related atomic operations.

<h2>Timing</h2>

Java has always supported sub-millisecond versions of several native
time-out-based methods (such as Object.wait), but not methods to
actually perform timing in finer-grained units. We address this by
introducing class TimeUnit, which provides multiple granularities for
both accessing time and performing time-out based operations.


<h2>Synchronizers</h2>

Five classes aid common special-purpose synchronization idioms.
Semaphores and FairSemaphores are classic concurrency tools.
CountDownLatches are very simple yet very common objects useful for
blocking until a single signal, event, or condition holds.
CyclicBarriers are resettable multiway synchronization points very
common in some styles of parallel programming. Exchangers allow two
threads to exchange objects at a rendezvous point.


<h2>Concurrent Collections</h2>

JSR 166 will supply a few Collection implementations designed for use
in multithreaded contexts: ConcurrentHashMap, CopyOnWriteArrayList,
and CopyOnWriteArraySet.

<h2>Uncaught Exception Handlers</h2>

The java.lang.Thread class will be modified to allow per-thread
installation of handlers for uncaught exceptions. Ths optionally
disassociates these handlers from ThreadGroups, which has proven to be
too inflexible in many multithreaded programs. (Note that the combination
of features in JSR 166 make ThreadGroups even less likely to
be used in most programs. Perhaps they will eventually be deprecated.)

<p> Additionally, ThreadLocals will now support a means to remove a
ThreadLocal, which is needed in some thread-pool and worker-thread
designs.

  <hr>
  <address><A HREF="http://gee.cs.oswego.edu/dl">Doug Lea</A></address>
 </body>
</html>

Doug Lea
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