JDeferred is a Java Deferred/Promise library similar to JQuery's Deferred Object.
Inspired by JQuery and Android Deferred Object.
If you are using JDeferred 1.x, see JDeferred 1.x Documentation
- Deferred object and Promise
- Promise callbacks
.then(…)
.filter(…)
.pipe(…)
.done(…)
.fail(…)
.progress(…)
.always(…)
.pipeAlways(…)
- Multiple promises
.when(p1, p2, p3, …).then(…)
.race(p1, p2, p3, …).then(…)
.settle(p1, p2, p3, …).then(…)
- Callable and Runnable wrappers
.when(new Runnable() {…})
.race(new Runnable() {…})
.settle(new Runnable() {…})
- Uses Executor Service
- Java Generics support
Deferred<Integer, Exception, Double> deferred;
deferred.resolve(10);
deferred.reject(new Exception());
deferred.notify(0.80);
- Android Support
- Java 8 Lambda friendly
- Yes it's on Maven Central Repository!
<dependency>
    <groupId>org.jdeferred.v2</groupId>
    <artifactId>jdeferred-core</artifactId>
    <version>${version}</version>
</dependency>
compile 'org.jdeferred.v2:jdeferred-core:${version}'
Find available versions on Maven Central Repository.
Compatibility reports between versions:
Deferred deferred = new DeferredObject();
Promise promise = deferred.promise();
promise.done(new DoneCallback() {
public void onDone(Object result) {
...
}
}).fail(new FailCallback() {
public void onFail(Object rejection) {
...
}
}).progress(new ProgressCallback() {
public void onProgress(Object progress) {
...
}
}).always(new AlwaysCallback() {
public void onAlways(State state, Object result, Object rejection) {
...
}
});
With the reference to deferred object, you can then trigger actions/updates:
deferred.resolve("done");
deferred.reject("oops");
deferred.notify("100%");
Use
.filter(...)
instead of.then(...)
since 2.0.0-Beta2
Deferred d = …;
Promise p = d.promise();
Promise filtered = p.filter(new DoneFilter<Integer, Integer>() {
public Integer filterDone(Integer result)
return result * 10;
}
});
filtered.done(new DoneCallback<Integer>() {
public void onDone(Integer result) {
// result would be original * 10
System.out.println(result);
}
});
d.resolve(3) -> 30.
Use
.pipe(...)
instead of.then(...)
since 2.0.0-Beta2
Deferred d = ...;
Promise p = d.promise();
p.pipe(new DonePipe<Integer, Integer, Exception, Void>() {
public Deferred<Integer, Exception, Void> pipeDone(Integer result) {
if (result < 100) {
return new DeferredObject<Integer, Void, Void>().resolve(result);
} else {
return new DeferredObject<Integer, Void, Void>().reject(new Exception(...));
}
}
}).done(...).fail(...);
d.resolve(80) -> done!
d.resolve(100) -> fail!
DeferredManager dm = new DefaultDeferredManager();
Promise p1, p2, p3;
// initialize p1, p2, p3
dm.when(p1, p2, p3)
.done(…)
.fail(…)
You can also specify a Executor Service for your need.
DeferredManager dm = new DefaultDeferredManager(myExecutorService);
You can use Callable and Runnable almost like a Promise without any additional work.
DeferredManager dm = new DefaultDeferredManager();
dm.when(new Callable<Integer>(){
public Integer call() {
// return something
// or throw a new exception
}
}).done(new DoneCallback<Integer>() {
public void onDone(Integer result) {
...
}
}).fail(new FailCallback<Throwable>() {
public void onFail(Throwable e) {
...
}
});
If you need to notify progress within your Callable or Runnable, you either need to create your own Deferred object and Promise, or you can use DeferredCallable and DeferredRunnable.
Use your own Deferred object
final Deferred deferred = ...
Promise promise = deferred.promise();
promise.then(…);
Runnable r = new Runnable() {
public void run() {
while (…) {
deferred.notify(myProgress);
}
deferred.resolve("done");
}
}
Or, extending DeferredRunnable
DeferredManager dm = …;
dm.when(new DeferredRunnable<Double>(){
public void run() {
while (…) {
notify(myProgress);
}
}
}).then(…);
Since 1.0.1
Normally, when using this framework, you would want to do things asynchronously. However, if there is a need to wait for all deferred tasks to finish, you can use Object.wait or Promise.waitSafely methods.
Promise p = dm.when(...)
.done(...)
.fail(...)
synchronized (p)
while (p.isPending()) {
try {
p.wait();
} catch (InterruptedException e) { ... }
}
}
Alternatively, you can use a more simplified shortcut
Promise p = dm.when(...)
.done(...)
.fail(...)
try {
p.waitSafely();
} catch (InterruptedException e) {
...
}
Now this is pretty cool when used with Java 8 Lambda!
dm.when(() -> {
return "Hey!";
}).done(r -> System.out.println(r));
dm.when(
() -> { return "Hello"; },
() -> { return "World"; }
).done(rs ->
rs.forEach(r -> System.out.println(r.getResult()))
);
Calls to when
with multiple arguments results in a Promise
that signals fail
on the first rejection or signals
done
with all computed values.
Callable<Integer> c1 = () -> 1;
Callable<Integer> c2 = () -> 2;
Callable<Integer> c3 = () -> 3;
Promise<MultipleResults3<Integer, Integer, Integer>, OneReject<Throwable>, MasterProgress> p = dm.when(c1, c2, c3);
p.done(MultipleResults3<Integer, Integer, Integer> r -> {
Assert.assertEquals(r.getFirst(), 1);
Assert.assertEquals(r.getSecond(), 2);
Assert.assertEquals(r.getThird(), 3);
});
Callable<Integer> c1 = () -> 1;
Callable<Integer> c2 = () -> 2;
Callable<Integer> c3 = () -> throw new RuntimeException("boom!");
Promise<MultipleResults3<Integer, Integer, Integer>, OneReject<Throwable>, MasterProgress> p = dm.when(c1, c2, c3);
p.done(MultipleResults3<Integer, Integer, Integer> r -> Assert.fail("should not be called"))
.fail(OneReject<Throwable> r -> Assert.assertEquals(r.getReject().getMessage(), "boom!"));
Since 2.0.0
Calls to when
with multiple arguments (up to five) will produce results with typesafe getters.
Since 2.0.0
Calls to race
with multiple arguments results in a Promise
that signals fail
on the first rejection or signals
done
on the first resolution.
Callable<Integer> c1 = () -> { Thread.sleep(200); return 1; };
Callable<Integer> c2 = () -> { Thread.sleep(100); return 2; };
Callable<Integer> c3 = () -> { Thread.sleep(200); return 3; };
Promise<OneResult<?>, OneReject<Throwable>, Void> p = dm.race(c1, c2, c3);
p.done(OneResult<?> r -> Assert.assertEquals(r.getResult(), 2));
Callable<Integer> c1 = () -> { Thread.sleep(200); return 1; };
Callable<Integer> c2 = () -> { Thread.sleep(100); throw new RuntimeException("boom!"); };
Callable<Integer> c3 = () -> { Thread.sleep(200); return 3; };
Promise<OneResult<?>, OneReject<Throwable>, Void> p = dm.race(c1, c2, c3);
p.done(OneResult<?> r -> Assert.fail("should not be called")
.fail(OneReject<Throwable> r -> Assert.assertEquals(r.getReject().getMessage(), "boom!"));
Since 2.0.0
Calls to settle
with multiple arguments results in a Promise
that collects all resolutions and rejections.
Callable<Integer> c1 = () -> { Thread.sleep(200); return 1; };
Callable<Integer> c2 = () -> { Thread.sleep(100); throw new RuntimeException("boom!"); };
Callable<Integer> c3 = () -> { Thread.sleep(200); return 3; };
Promise<AllValues, Throwable, MasterProgress>, Void> p = dm.race(c1, c2, c3);
p.done(AllValues r -> {
Assert.assertEquals(r.get(0).getValue(), 1);
Assert.assertTrue(r.get(1).getValue() instanceof RuntimeException);
Assert.assertEquals(r.get(2).getValue(), 3);
});
Since 2.0.0
Sometimes a task may be cancelled while its running and would require ti cleanup any resources it may have allocated. You
may define a task that implements the org.jdeferred2.CancellationHandler
interface or pass and extra argument to
DeferredFutureTask
with such implementation, for example
final DataSource datasource = ...;
class DatabaseTask extends Runnable, CancellationHandler {
@Override
public void run() {
// perform computation with datasource
}
@Override
public void onCancel() {
try {
datasource.close();
} catch(Exception e) {
throw new IllegalStateException(e);
}
}
}
DeferredFutureTask<X> task = new DeferredFutureTask(new DatabaseTask());
dm.when(task).done(...)
You may also pass the CancellationHandler
as an additional argument, for example
final DataSource datasource = ...;
class DatabaseTask extends Runnable {
@Override
public void run() {
// perform computation with datasource
}
}
class DatabaseCancellationHandler implements CancellationHandler {
@Override
public void onCancel() {
try {
datasource.close();
} catch(Exception e) {
throw new IllegalStateException(e);
}
}
}
DeferredFutureTask<X> task = new DeferredFutureTask(new DatabaseTask(), new DatabaseCancellationHandler());
dm.when(task).done(...)
You can also easily use with Groovy!
@Grab('org.jdeferred.v2:jdeferred-core:2.0.0')
import org.jdeferred2.*
import org.jdeferred2.impl.*
def deferred = new DeferredObject()
def promise = deferred.promise()
promise.done { result ->
println "done: $result"
}.fail { rejection ->
println "fail: $rejection"
}.always { state, result, rejection ->
println "always"
}
deferred.resolve("done")
Since 1.1.0-Beta1
jdeferred-android
is now available, and it can be included just like any other Android libraries!
It also uses Android Maven plugin and builds apklib file. If you use Android Maven plugin, you can include
dependency:
APKLIB with Maven:
<dependency>
<groupId>org.jdeferred.v2</groupId>
<artifactId>jdeferred-android</artifactId>
<version>${version}</version>
<type>apklib</type>
</dependency>
AAR with Maven:
Since 1.2.0-Beta1
<dependency>
<groupId>org.jdeferred.v2</groupId>
<artifactId>jdeferred-android-aar</artifactId>
<version>${version}</version>
<type>aar</type>
</dependency>
AAR with Gradle:
compile 'org.jdeferred.v2:jdeferred-android-aar:${version}'
// or
compile 'org.jdeferred.v2:jdeferred-android-aar:${version}@aar'
Find available versions on Maven Central Repository.
jdeferred-android
introduces a new DeferredManager
implementation called AndroidDeferredManager
.
AndroidDeferredManager
makes sure that callbacks are executed in UI Thread rather than background Thread
in order for callbacks to make UI updates. Alternatively, callbacks can also implement AndroidExecutionScopeable
interface to fine-grain control whether the callback should execute in UI Thread or background Thread.
AndroidDeferredManager
also supports new DeferredAsyncTask
object. This object is based on
Android's AsyncTask
.
If you need to always execute callbacks in background thread, then you can continue to use DefaultDeferredManager
.
Lastly, because JDeferred use SLF4J - you can further route log messages using slf4j-android
.
Here is a sample code on how to use JDeferred with Asynchronous Servlet!
@WebServlet(value = "/AsyncServlet", asyncSupported = true)
public class AsyncServlet extends HttpServlet {
private static final long serialVersionUID = 1L;
private ExecutorService executorService = Executors.newCachedThreadPool();
private DeferredManager dm = new DefaultDeferredManager(executorService);
protected void doGet(HttpServletRequest request,
HttpServletResponse response) throws ServletException, IOException {
final AsyncContext actx = request.startAsync(request, response);
dm.when(new Callable<String>() {
@Override
public String call() throws Exception {
if (actx.getRequest().getParameter("fail") != null) {
throw new Exception("oops!");
}
Thread.sleep(2000);
return "Hello World!";
}
}).then(new DoneCallback<String>() {
@Override
public void onDone(String result) {
actx.getRequest().setAttribute("message", result);
actx.dispatch("/hello.jsp");
}
}).fail(new FailCallback<Throwable>() {
@Override
public void onFail(Throwable exception) {
actx.getRequest().setAttribute("exception", exception);
actx.dispatch("/error.jsp");
}
});
}
}
is deprecated and will be removed in the next minor version. UseDeferredManager.StartPolicy.MANAUL
DeferredManager.StartPolicy.MANUAL
instead.