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streamsupport-flow is a backport of the new Java 9 (JEP 266) reactive-streams Flow and SubmissionPublisher API for Java 6 to 8 and Android developers

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/*
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.  Oracle designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
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/*
 * This file is available under and governed by the GNU General Public
 * License version 2 only, as published by the Free Software Foundation.
 * However, the following notice accompanied the original version of this
 * file:
 *
 * Written by Doug Lea with assistance from members of JCP JSR-166
 * Expert Group and released to the public domain, as explained at
 * http://creativecommons.org/publicdomain/zero/1.0/
 */

package java8.util.concurrent;

import java.util.concurrent.Executor;

/**
 * Interrelated interfaces and static methods for establishing
 * flow-controlled components in which {@link Publisher Publishers}
 * produce items consumed by one or more {@link Subscriber
 * Subscribers}, each managed by a {@link Subscription
 * Subscription}.
 *
 * 

These interfaces correspond to the reactive-streams * specification. They apply in both concurrent and distributed * asynchronous settings: All (seven) methods are defined in {@code * void} "one-way" message style. Communication relies on a simple form * of flow control (method {@link Subscription#request}) that can be * used to avoid resource management problems that may otherwise occur * in "push" based systems. * *

Examples. A {@link Publisher} usually defines its own * {@link Subscription} implementation; constructing one in method * {@code subscribe} and issuing it to the calling {@link * Subscriber}. It publishes items to the subscriber asynchronously, * normally using an {@link Executor}. For example, here is a very * simple publisher that only issues (when requested) a single {@code * TRUE} item to a single subscriber. Because the subscriber receives * only a single item, this class does not use buffering and ordering * control required in most implementations (for example {@link * SubmissionPublisher}). * *

 {@code
 * class OneShotPublisher implements Publisher {
 *   private final ExecutorService executor = ForkJoinPool.commonPool(); // daemon-based
 *   private boolean subscribed; // true after first subscribe
 *   public synchronized void subscribe(Subscriber subscriber) {
 *     if (subscribed)
 *       subscriber.onError(new IllegalStateException()); // only one allowed
 *     else {
 *       subscribed = true;
 *       subscriber.onSubscribe(new OneShotSubscription(subscriber, executor));
 *     }
 *   }
 *   static class OneShotSubscription implements Subscription {
 *     private final Subscriber subscriber;
 *     private final ExecutorService executor;
 *     private Future future; // to allow cancellation
 *     private boolean completed;
 *     OneShotSubscription(Subscriber subscriber,
 *                         ExecutorService executor) {
 *       this.subscriber = subscriber;
 *       this.executor = executor;
 *     }
 *     public synchronized void request(long n) {
 *       if (n != 0 && !completed) {
 *         completed = true;
 *         if (n < 0) {
 *           IllegalArgumentException ex = new IllegalArgumentException();
 *           executor.execute(() -> subscriber.onError(ex));
 *         } else {
 *           future = executor.submit(() -> {
 *             subscriber.onNext(Boolean.TRUE);
 *             subscriber.onComplete();
 *           });
 *         }
 *       }
 *     }
 *     public synchronized void cancel() {
 *       completed = true;
 *       if (future != null) future.cancel(false);
 *     }
 *   }
 * }}
* *

A {@link Subscriber} arranges that items be requested and * processed. Items (invocations of {@link Subscriber#onNext}) are * not issued unless requested, but multiple items may be requested. * Many Subscriber implementations can arrange this in the style of * the following example, where a buffer size of 1 single-steps, and * larger sizes usually allow for more efficient overlapped processing * with less communication; for example with a value of 64, this keeps * total outstanding requests between 32 and 64. * Because Subscriber method invocations for a given {@link * Subscription} are strictly ordered, there is no need for these * methods to use locks or volatiles unless a Subscriber maintains * multiple Subscriptions (in which case it is better to instead * define multiple Subscribers, each with its own Subscription). * *

 {@code
 * class SampleSubscriber implements Subscriber {
 *   final Consumer consumer;
 *   Subscription subscription;
 *   final long bufferSize;
 *   long count;
 *   SampleSubscriber(long bufferSize, Consumer consumer) {
 *     this.bufferSize = bufferSize;
 *     this.consumer = consumer;
 *   }
 *   public void onSubscribe(Subscription subscription) {
 *     long initialRequestSize = bufferSize;
 *     count = bufferSize - bufferSize / 2; // re-request when half consumed
 *     (this.subscription = subscription).request(initialRequestSize);
 *   }
 *   public void onNext(T item) {
 *     if (--count <= 0)
 *       subscription.request(count = bufferSize - bufferSize / 2);
 *     consumer.accept(item);
 *   }
 *   public void onError(Throwable ex) { ex.printStackTrace(); }
 *   public void onComplete() {}
 * }}
* *

The default value of {@link #defaultBufferSize} may provide a * useful starting point for choosing request sizes and capacities in * Flow components based on expected rates, resources, and usages. * Or, when flow control is never needed, a subscriber may initially * request an effectively unbounded number of items, as in: * *

 {@code
 * class UnboundedSubscriber implements Subscriber {
 *   public void onSubscribe(Subscription subscription) {
 *     subscription.request(Long.MAX_VALUE); // effectively unbounded
 *   }
 *   public void onNext(T item) { use(item); }
 *   public void onError(Throwable ex) { ex.printStackTrace(); }
 *   public void onComplete() {}
 *   void use(T item) { ... }
 * }}
* * @author Doug Lea * @since 9 */ public final class Flow { // CVS rev. 1.30 private Flow() {} // uninstantiable /** * A producer of items (and related control messages) received by * Subscribers. Each current {@link Subscriber} receives the same * items (via method {@code onNext}) in the same order, unless * drops or errors are encountered. If a Publisher encounters an * error that does not allow items to be issued to a Subscriber, * that Subscriber receives {@code onError}, and then receives no * further messages. Otherwise, when it is known that no further * messages will be issued to it, a subscriber receives {@code * onComplete}. Publishers ensure that Subscriber method * invocations for each subscription are strictly ordered in happens-before * order. * *

Publishers may vary in policy about whether drops (failures * to issue an item because of resource limitations) are treated * as unrecoverable errors. Publishers may also vary about * whether Subscribers receive items that were produced or * available before they subscribed. * * @param the published item type */ public static interface Publisher { /** * Adds the given Subscriber if possible. If already * subscribed, or the attempt to subscribe fails due to policy * violations or errors, the Subscriber's {@code onError} * method is invoked with an {@link IllegalStateException}. * Otherwise, the Subscriber's {@code onSubscribe} method is * invoked with a new {@link Subscription}. Subscribers may * enable receiving items by invoking the {@code request} * method of this Subscription, and may unsubscribe by * invoking its {@code cancel} method. * * @param subscriber the subscriber * @throws NullPointerException if subscriber is null */ public void subscribe(Subscriber subscriber); } /** * A receiver of messages. The methods in this interface are * invoked in strict sequential order for each {@link * Subscription}. * * @param the subscribed item type */ public static interface Subscriber { /** * Method invoked prior to invoking any other Subscriber * methods for the given Subscription. If this method throws * an exception, resulting behavior is not guaranteed, but may * cause the Subscription not to be established or to be cancelled. * *

Typically, implementations of this method invoke {@code * subscription.request} to enable receiving items. * * @param subscription a new subscription */ public void onSubscribe(Subscription subscription); /** * Method invoked with a Subscription's next item. If this * method throws an exception, resulting behavior is not * guaranteed, but may cause the Subscription to be cancelled. * * @param item the item */ public void onNext(T item); /** * Method invoked upon an unrecoverable error encountered by a * Publisher or Subscription, after which no other Subscriber * methods are invoked by the Subscription. If this method * itself throws an exception, resulting behavior is * undefined. * * @param throwable the exception */ public void onError(Throwable throwable); /** * Method invoked when it is known that no additional * Subscriber method invocations will occur for a Subscription * that is not already terminated by error, after which no * other Subscriber methods are invoked by the Subscription. * If this method throws an exception, resulting behavior is * undefined. */ public void onComplete(); } /** * Message control linking a {@link Publisher} and {@link * Subscriber}. Subscribers receive items only when requested, * and may cancel at any time. The methods in this interface are * intended to be invoked only by their Subscribers; usages in * other contexts have undefined effects. */ public static interface Subscription { /** * Adds the given number {@code n} of items to the current * unfulfilled demand for this subscription. If {@code n} is * negative, the Subscriber will receive an {@code onError} * signal with an {@link IllegalArgumentException} argument. * Otherwise, the Subscriber will receive up to {@code n} * additional {@code onNext} invocations (or fewer if * terminated). * * @param n the increment of demand; a value of {@code * Long.MAX_VALUE} may be considered as effectively unbounded */ public void request(long n); /** * Causes the Subscriber to (eventually) stop receiving * messages. Implementation is best-effort -- additional * messages may be received after invoking this method. * A cancelled subscription need not ever receive an * {@code onComplete} or {@code onError} signal. */ public void cancel(); } /** * A component that acts as both a Subscriber and Publisher. * * @param the subscribed item type * @param the published item type */ public static interface Processor extends Subscriber, Publisher { } static final int DEFAULT_BUFFER_SIZE = 256; /** * Returns a default value for Publisher or Subscriber buffering, * that may be used in the absence of other constraints. * *

Implementation Note: * The current value returned is 256. * * @return the buffer size value */ public static int defaultBufferSize() { return DEFAULT_BUFFER_SIZE; } }





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