Class ExecutionSequencer
- java.lang.Object
-
- com.google.common.util.concurrent.ExecutionSequencer
-
@Beta public final class ExecutionSequencer extends Object
Serializes execution of tasks, somewhat like an "asynchronoussynchronized
block." Each enqueued callable will not be submitted to its associated executor until the previous callable has returned -- and, if the previous callable was anAsyncCallable
, not until theFuture
it returned is done (successful, failed, or cancelled).This class has limited support for cancellation and other "early completion":
- While calls to
submit
andsubmitAsync
return aFuture
that can be cancelled, cancellation never propagates to a task that has started to run -- neither to the callable itself nor to anyFuture
returned by anAsyncCallable
. (However, cancellation can prevent an unstarted task from running.) Therefore, the next task will wait for any running callable (or pendingFuture
returned by anAsyncCallable
) to complete, without interrupting it (and without callingcancel
on theFuture
). So beware: Even if you cancel every precededingFuture
returned by this class, the next task may still have to wait.. - Once an
AsyncCallable
returns aFuture
, this class considers that task to be "done" as soon as thatFuture
completes in any way. Notably, aFuture
is "completed" even if it is cancelled while its underlying work continues on a thread, an RPC, etc. TheFuture
is also "completed" if it fails "early" -- for example, if the deadline expires on aFuture
returned fromFutures.withTimeout(com.google.common.util.concurrent.ListenableFuture<V>, long, java.util.concurrent.TimeUnit, java.util.concurrent.ScheduledExecutorService)
while theFuture
it wraps continues its underlying work. So beware: YourAsyncCallable
should not complete itsFuture
until it is safe for the next task to start.
An additional limitation: this class serializes execution of tasks but not any listeners of those tasks.
This class is similar to
MoreExecutors.newSequentialExecutor(java.util.concurrent.Executor)
. This class is different in a few ways:- Each task may be associated with a different executor.
- Tasks may be of type
AsyncCallable
. - Running tasks cannot be interrupted. (Note that
newSequentialExecutor
does not returnFuture
objects, so it doesn't support interruption directly, either. However, utilities that use that executor have the ability to interrupt tasks running on it. This class, by contrast, does not expose anExecutor
API.)
If you don't need the features of this class, you may prefer
newSequentialExecutor
for its simplicity and ability to accommodate interruption.- Since:
- 26.0
- While calls to
-
-
Method Summary
All Methods Static Methods Instance Methods Concrete Methods Modifier and Type Method Description static ExecutionSequencer
create()
Creates a new instance.<T> ListenableFuture<T>
submit(Callable<T> callable, Executor executor)
Enqueues a task to run when the previous task (if any) completes.<T> ListenableFuture<T>
submitAsync(AsyncCallable<T> callable, Executor executor)
Enqueues a task to run when the previous task (if any) completes.
-
-
-
Method Detail
-
create
public static ExecutionSequencer create()
Creates a new instance.
-
submit
public <T> ListenableFuture<T> submit(Callable<T> callable, Executor executor)
Enqueues a task to run when the previous task (if any) completes.Cancellation does not propagate from the output future to a callable that has begun to execute, but if the output future is cancelled before
Callable.call()
is invoked,Callable.call()
will not be invoked.
-
submitAsync
public <T> ListenableFuture<T> submitAsync(AsyncCallable<T> callable, Executor executor)
Enqueues a task to run when the previous task (if any) completes.Cancellation does not propagate from the output future to the future returned from
callable
or a callable that has begun to execute, but if the output future is cancelled beforeAsyncCallable.call()
is invoked,AsyncCallable.call()
will not be invoked.
-
-