- java.lang.Object
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- java.util.concurrent.SubmissionPublisher<T>
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- Type Parameters:
T
- the published item type
- All Implemented Interfaces:
AutoCloseable
,Flow.Publisher<T>
public class SubmissionPublisher<T> extends Object implements Flow.Publisher<T>, AutoCloseable
AFlow.Publisher
that asynchronously issues submitted (non-null) items to current subscribers until it is closed. Each current subscriber receives newly submitted items in the same order unless drops or exceptions are encountered. Using a SubmissionPublisher allows item generators to act as compliant reactive-streams Publishers relying on drop handling and/or blocking for flow control.A SubmissionPublisher uses the
Executor
supplied in its constructor for delivery to subscribers. The best choice of Executor depends on expected usage. If the generator(s) of submitted items run in separate threads, and the number of subscribers can be estimated, consider using aExecutors.newFixedThreadPool(int)
. Otherwise consider using the default, normally theForkJoinPool.commonPool()
.Buffering allows producers and consumers to transiently operate at different rates. Each subscriber uses an independent buffer. Buffers are created upon first use and expanded as needed up to the given maximum. (The enforced capacity may be rounded up to the nearest power of two and/or bounded by the largest value supported by this implementation.) Invocations of
request
do not directly result in buffer expansion, but risk saturation if unfilled requests exceed the maximum capacity. The default value ofFlow.defaultBufferSize()
may provide a useful starting point for choosing a capacity based on expected rates, resources, and usages.A single SubmissionPublisher may be shared among multiple sources. Actions in a source thread prior to publishing an item or issuing a signal happen-before actions subsequent to the corresponding access by each subscriber. But reported estimates of lag and demand are designed for use in monitoring, not for synchronization control, and may reflect stale or inaccurate views of progress.
Publication methods support different policies about what to do when buffers are saturated. Method
submit
blocks until resources are available. This is simplest, but least responsive. Theoffer
methods may drop items (either immediately or with bounded timeout), but provide an opportunity to interpose a handler and then retry.If any Subscriber method throws an exception, its subscription is cancelled. If a handler is supplied as a constructor argument, it is invoked before cancellation upon an exception in method
onNext
, but exceptions in methodsonSubscribe
,onError
andonComplete
are not recorded or handled before cancellation. If the supplied Executor throwsRejectedExecutionException
(or any other RuntimeException or Error) when attempting to execute a task, or a drop handler throws an exception when processing a dropped item, then the exception is rethrown. In these cases, not all subscribers will have been issued the published item. It is usually good practice tocloseExceptionally
in these cases.Method
consume(Consumer)
simplifies support for a common case in which the only action of a subscriber is to request and process all items using a supplied function.This class may also serve as a convenient base for subclasses that generate items, and use the methods in this class to publish them. For example here is a class that periodically publishes the items generated from a supplier. (In practice you might add methods to independently start and stop generation, to share Executors among publishers, and so on, or use a SubmissionPublisher as a component rather than a superclass.)
class PeriodicPublisher<T> extends SubmissionPublisher<T> { final ScheduledFuture<?> periodicTask; final ScheduledExecutorService scheduler; PeriodicPublisher(Executor executor, int maxBufferCapacity, Supplier<? extends T> supplier, long period, TimeUnit unit) { super(executor, maxBufferCapacity); scheduler = new ScheduledThreadPoolExecutor(1); periodicTask = scheduler.scheduleAtFixedRate( () -> submit(supplier.get()), 0, period, unit); } public void close() { periodicTask.cancel(false); scheduler.shutdown(); super.close(); } }
Here is an example of a
Flow.Processor
implementation. It uses single-step requests to its publisher for simplicity of illustration. A more adaptive version could monitor flow using the lag estimate returned fromsubmit
, along with other utility methods.class TransformProcessor<S,T> extends SubmissionPublisher<T> implements Flow.Processor<S,T> { final Function<? super S, ? extends T> function; Flow.Subscription subscription; TransformProcessor(Executor executor, int maxBufferCapacity, Function<? super S, ? extends T> function) { super(executor, maxBufferCapacity); this.function = function; } public void onSubscribe(Flow.Subscription subscription) { (this.subscription = subscription).request(1); } public void onNext(S item) { subscription.request(1); submit(function.apply(item)); } public void onError(Throwable ex) { closeExceptionally(ex); } public void onComplete() { close(); } }
- Since:
- 9
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Constructor Summary
Constructors Constructor Description SubmissionPublisher()
Creates a new SubmissionPublisher using theForkJoinPool.commonPool()
for async delivery to subscribers (unless it does not support a parallelism level of at least two, in which case, a new Thread is created to run each task), with maximum buffer capacity ofFlow.defaultBufferSize()
, and no handler for Subscriber exceptions in methodonNext
.SubmissionPublisher(Executor executor, int maxBufferCapacity)
Creates a new SubmissionPublisher using the given Executor for async delivery to subscribers, with the given maximum buffer size for each subscriber, and no handler for Subscriber exceptions in methodonNext
.SubmissionPublisher(Executor executor, int maxBufferCapacity, BiConsumer<? super Flow.Subscriber<? super T>,? super Throwable> handler)
Creates a new SubmissionPublisher using the given Executor for async delivery to subscribers, with the given maximum buffer size for each subscriber, and, if non-null, the given handler invoked when any Subscriber throws an exception in methodonNext
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Method Summary
All Methods Instance Methods Concrete Methods Modifier and Type Method Description void
close()
Unless already closed, issuesonComplete
signals to current subscribers, and disallows subsequent attempts to publish.void
closeExceptionally(Throwable error)
Unless already closed, issuesonError
signals to current subscribers with the given error, and disallows subsequent attempts to publish.CompletableFuture<Void>
consume(Consumer<? super T> consumer)
Processes all published items using the given Consumer function.int
estimateMaximumLag()
Returns an estimate of the maximum number of items produced but not yet consumed among all current subscribers.long
estimateMinimumDemand()
Returns an estimate of the minimum number of items requested (viarequest
) but not yet produced, among all current subscribers.Throwable
getClosedException()
Returns the exception associated withcloseExceptionally
, or null if not closed or if closed normally.Executor
getExecutor()
Returns the Executor used for asynchronous delivery.int
getMaxBufferCapacity()
Returns the maximum per-subscriber buffer capacity.int
getNumberOfSubscribers()
Returns the number of current subscribers.List<Flow.Subscriber<? super T>>
getSubscribers()
Returns a list of current subscribers for monitoring and tracking purposes, not for invokingFlow.Subscriber
methods on the subscribers.boolean
hasSubscribers()
Returns true if this publisher has any subscribers.boolean
isClosed()
Returns true if this publisher is not accepting submissions.boolean
isSubscribed(Flow.Subscriber<? super T> subscriber)
Returns true if the given Subscriber is currently subscribed.int
offer(T item, long timeout, TimeUnit unit, BiPredicate<Flow.Subscriber<? super T>,? super T> onDrop)
Publishes the given item, if possible, to each current subscriber by asynchronously invoking itsonNext
method, blocking while resources for any subscription are unavailable, up to the specified timeout or until the caller thread is interrupted, at which point the given handler (if non-null) is invoked, and if it returns true, retried once.int
offer(T item, BiPredicate<Flow.Subscriber<? super T>,? super T> onDrop)
Publishes the given item, if possible, to each current subscriber by asynchronously invoking itsonNext
method.int
submit(T item)
Publishes the given item to each current subscriber by asynchronously invoking itsonNext
method, blocking uninterruptibly while resources for any subscriber are unavailable.void
subscribe(Flow.Subscriber<? super T> subscriber)
Adds the given Subscriber unless already subscribed.
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Constructor Detail
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SubmissionPublisher
public SubmissionPublisher(Executor executor, int maxBufferCapacity, BiConsumer<? super Flow.Subscriber<? super T>,? super Throwable> handler)
Creates a new SubmissionPublisher using the given Executor for async delivery to subscribers, with the given maximum buffer size for each subscriber, and, if non-null, the given handler invoked when any Subscriber throws an exception in methodonNext
.- Parameters:
executor
- the executor to use for async delivery, supporting creation of at least one independent threadmaxBufferCapacity
- the maximum capacity for each subscriber's buffer (the enforced capacity may be rounded up to the nearest power of two and/or bounded by the largest value supported by this implementation; methodgetMaxBufferCapacity()
returns the actual value)handler
- if non-null, procedure to invoke upon exception thrown in methodonNext
- Throws:
NullPointerException
- if executor is nullIllegalArgumentException
- if maxBufferCapacity not positive
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SubmissionPublisher
public SubmissionPublisher(Executor executor, int maxBufferCapacity)
Creates a new SubmissionPublisher using the given Executor for async delivery to subscribers, with the given maximum buffer size for each subscriber, and no handler for Subscriber exceptions in methodonNext
.- Parameters:
executor
- the executor to use for async delivery, supporting creation of at least one independent threadmaxBufferCapacity
- the maximum capacity for each subscriber's buffer (the enforced capacity may be rounded up to the nearest power of two and/or bounded by the largest value supported by this implementation; methodgetMaxBufferCapacity()
returns the actual value)- Throws:
NullPointerException
- if executor is nullIllegalArgumentException
- if maxBufferCapacity not positive
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SubmissionPublisher
public SubmissionPublisher()
Creates a new SubmissionPublisher using theForkJoinPool.commonPool()
for async delivery to subscribers (unless it does not support a parallelism level of at least two, in which case, a new Thread is created to run each task), with maximum buffer capacity ofFlow.defaultBufferSize()
, and no handler for Subscriber exceptions in methodonNext
.
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Method Detail
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subscribe
public void subscribe(Flow.Subscriber<? super T> subscriber)
Adds the given Subscriber unless already subscribed. If already subscribed, the Subscriber'sonError
method is invoked on the existing subscription with anIllegalStateException
. Otherwise, upon success, the Subscriber'sonSubscribe
method is invoked asynchronously with a newFlow.Subscription
. IfonSubscribe
throws an exception, the subscription is cancelled. Otherwise, if this SubmissionPublisher was closed exceptionally, then the subscriber'sonError
method is invoked with the corresponding exception, or if closed without exception, the subscriber'sonComplete
method is invoked. Subscribers may enable receiving items by invoking therequest
method of the new Subscription, and may unsubscribe by invoking itscancel
method.- Specified by:
subscribe
in interfaceFlow.Publisher<T>
- Parameters:
subscriber
- the subscriber- Throws:
NullPointerException
- if subscriber is null
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submit
public int submit(T item)
Publishes the given item to each current subscriber by asynchronously invoking itsonNext
method, blocking uninterruptibly while resources for any subscriber are unavailable. This method returns an estimate of the maximum lag (number of items submitted but not yet consumed) among all current subscribers. This value is at least one (accounting for this submitted item) if there are any subscribers, else zero.If the Executor for this publisher throws a RejectedExecutionException (or any other RuntimeException or Error) when attempting to asynchronously notify subscribers, then this exception is rethrown, in which case not all subscribers will have been issued this item.
- Parameters:
item
- the (non-null) item to publish- Returns:
- the estimated maximum lag among subscribers
- Throws:
IllegalStateException
- if closedNullPointerException
- if item is nullRejectedExecutionException
- if thrown by Executor
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offer
public int offer(T item, BiPredicate<Flow.Subscriber<? super T>,? super T> onDrop)
Publishes the given item, if possible, to each current subscriber by asynchronously invoking itsonNext
method. The item may be dropped by one or more subscribers if resource limits are exceeded, in which case the given handler (if non-null) is invoked, and if it returns true, retried once. Other calls to methods in this class by other threads are blocked while the handler is invoked. Unless recovery is assured, options are usually limited to logging the error and/or issuing anonError
signal to the subscriber.This method returns a status indicator: If negative, it represents the (negative) number of drops (failed attempts to issue the item to a subscriber). Otherwise it is an estimate of the maximum lag (number of items submitted but not yet consumed) among all current subscribers. This value is at least one (accounting for this submitted item) if there are any subscribers, else zero.
If the Executor for this publisher throws a RejectedExecutionException (or any other RuntimeException or Error) when attempting to asynchronously notify subscribers, or the drop handler throws an exception when processing a dropped item, then this exception is rethrown.
- Parameters:
item
- the (non-null) item to publishonDrop
- if non-null, the handler invoked upon a drop to a subscriber, with arguments of the subscriber and item; if it returns true, an offer is re-attempted (once)- Returns:
- if negative, the (negative) number of drops; otherwise an estimate of maximum lag
- Throws:
IllegalStateException
- if closedNullPointerException
- if item is nullRejectedExecutionException
- if thrown by Executor
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offer
public int offer(T item, long timeout, TimeUnit unit, BiPredicate<Flow.Subscriber<? super T>,? super T> onDrop)
Publishes the given item, if possible, to each current subscriber by asynchronously invoking itsonNext
method, blocking while resources for any subscription are unavailable, up to the specified timeout or until the caller thread is interrupted, at which point the given handler (if non-null) is invoked, and if it returns true, retried once. (The drop handler may distinguish timeouts from interrupts by checking whether the current thread is interrupted.) Other calls to methods in this class by other threads are blocked while the handler is invoked. Unless recovery is assured, options are usually limited to logging the error and/or issuing anonError
signal to the subscriber.This method returns a status indicator: If negative, it represents the (negative) number of drops (failed attempts to issue the item to a subscriber). Otherwise it is an estimate of the maximum lag (number of items submitted but not yet consumed) among all current subscribers. This value is at least one (accounting for this submitted item) if there are any subscribers, else zero.
If the Executor for this publisher throws a RejectedExecutionException (or any other RuntimeException or Error) when attempting to asynchronously notify subscribers, or the drop handler throws an exception when processing a dropped item, then this exception is rethrown.
- Parameters:
item
- the (non-null) item to publishtimeout
- how long to wait for resources for any subscriber before giving up, in units ofunit
unit
- aTimeUnit
determining how to interpret thetimeout
parameteronDrop
- if non-null, the handler invoked upon a drop to a subscriber, with arguments of the subscriber and item; if it returns true, an offer is re-attempted (once)- Returns:
- if negative, the (negative) number of drops; otherwise an estimate of maximum lag
- Throws:
IllegalStateException
- if closedNullPointerException
- if item is nullRejectedExecutionException
- if thrown by Executor
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close
public void close()
Unless already closed, issuesonComplete
signals to current subscribers, and disallows subsequent attempts to publish. Upon return, this method does NOT guarantee that all subscribers have yet completed.- Specified by:
close
in interfaceAutoCloseable
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closeExceptionally
public void closeExceptionally(Throwable error)
Unless already closed, issuesonError
signals to current subscribers with the given error, and disallows subsequent attempts to publish. Future subscribers also receive the given error. Upon return, this method does NOT guarantee that all subscribers have yet completed.- Parameters:
error
- theonError
argument sent to subscribers- Throws:
NullPointerException
- if error is null
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isClosed
public boolean isClosed()
Returns true if this publisher is not accepting submissions.- Returns:
- true if closed
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getClosedException
public Throwable getClosedException()
Returns the exception associated withcloseExceptionally
, or null if not closed or if closed normally.- Returns:
- the exception, or null if none
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hasSubscribers
public boolean hasSubscribers()
Returns true if this publisher has any subscribers.- Returns:
- true if this publisher has any subscribers
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getNumberOfSubscribers
public int getNumberOfSubscribers()
Returns the number of current subscribers.- Returns:
- the number of current subscribers
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getExecutor
public Executor getExecutor()
Returns the Executor used for asynchronous delivery.- Returns:
- the Executor used for asynchronous delivery
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getMaxBufferCapacity
public int getMaxBufferCapacity()
Returns the maximum per-subscriber buffer capacity.- Returns:
- the maximum per-subscriber buffer capacity
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getSubscribers
public List<Flow.Subscriber<? super T>> getSubscribers()
Returns a list of current subscribers for monitoring and tracking purposes, not for invokingFlow.Subscriber
methods on the subscribers.- Returns:
- list of current subscribers
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isSubscribed
public boolean isSubscribed(Flow.Subscriber<? super T> subscriber)
Returns true if the given Subscriber is currently subscribed.- Parameters:
subscriber
- the subscriber- Returns:
- true if currently subscribed
- Throws:
NullPointerException
- if subscriber is null
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estimateMinimumDemand
public long estimateMinimumDemand()
Returns an estimate of the minimum number of items requested (viarequest
) but not yet produced, among all current subscribers.- Returns:
- the estimate, or zero if no subscribers
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estimateMaximumLag
public int estimateMaximumLag()
Returns an estimate of the maximum number of items produced but not yet consumed among all current subscribers.- Returns:
- the estimate
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consume
public CompletableFuture<Void> consume(Consumer<? super T> consumer)
Processes all published items using the given Consumer function. Returns a CompletableFuture that is completed normally when this publisher signalsonComplete
, or completed exceptionally upon any error, or an exception is thrown by the Consumer, or the returned CompletableFuture is cancelled, in which case no further items are processed.- Parameters:
consumer
- the function applied to each onNext item- Returns:
- a CompletableFuture that is completed normally when the publisher signals onComplete, and exceptionally upon any error or cancellation
- Throws:
NullPointerException
- if consumer is null
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