聊聊reactive streams的Mono及Flux

本文主要讲一下reactive streams的Publisher接口的两个抽象类Mono与Flux

Publisher

reactive-streams-1.0.1-sources.jar!/org/reactivestreams/Publisher.java

/**
 * A {@link Publisher} is a provider of a potentially unbounded number of sequenced elements, publishing them according to
 * the demand received from its {@link Subscriber}(s).
 * 

* A {@link Publisher} can serve multiple {@link Subscriber}s subscribed {@link #subscribe(Subscriber)} dynamically * at various points in time. * * @param the type of element signaled. */ public interface Publisher { /** * Request {@link Publisher} to start streaming data. *

* This is a "factory method" and can be called multiple times, each time starting a new {@link Subscription}. *

* Each {@link Subscription} will work for only a single {@link Subscriber}. *

* A {@link Subscriber} should only subscribe once to a single {@link Publisher}. *

* If the {@link Publisher} rejects the subscription attempt or otherwise fails it will * signal the error via {@link Subscriber#onError}. * * @param s the {@link Subscriber} that will consume signals from this {@link Publisher} */ public void subscribe(Subscriber s); }

Mono

reactor-core-3.1.2.RELEASE-sources.jar!/reactor/core/publisher/Mono.java

public abstract class Mono implements Publisher {
    //...
    /**
     * Expose the specified {@link Publisher} with the {@link Mono} API, and ensure it will emit 0 or 1 item.
     * The source emitter will be cancelled on the first `onNext`.
     * 

* *

* @param source the {@link Publisher} source * @param the source type * * @return the next item emitted as a {@link Mono} */ public static Mono from(Publisher source) { if (source instanceof Mono) { @SuppressWarnings("unchecked") Mono casted = (Mono) source; return casted; } if (source instanceof Flux) { @SuppressWarnings("unchecked") Flux casted = (Flux) source; return casted.next(); } return onAssembly(new MonoFromPublisher<>(source)); } /** * Create a new {@link Mono} that emits the specified item, which is captured at * instantiation time. * *

* *

* @param data the only item to onNext * @param the type of the produced item * * @return a {@link Mono}. */ public static Mono just(T data) { return onAssembly(new MonoJust<>(data)); } //... }

Flux

reactor-core-3.1.2.RELEASE-sources.jar!/reactor/core/publisher/Flux.java

public abstract class Flux implements Publisher {
    //......
    /**
     * Programmatically create a {@link Flux} with the capability of emitting multiple
     * elements in a synchronous or asynchronous manner through the {@link FluxSink} API.
     * 

* This Flux factory is useful if one wants to adapt some other multi-valued async API * and not worry about cancellation and backpressure (which is handled by buffering * all signals if the downstream can't keep up). *

* For example: * *


     * Flux.<String>create(emitter -> {
     *
     *     ActionListener al = e -> {
     *         emitter.next(textField.getText());
     *     };
     *     // without cleanup support:
     *
     *     button.addActionListener(al);
     *
     *     // with cleanup support:
     *
     *     button.addActionListener(al);
     *     emitter.onDispose(() -> {
     *         button.removeListener(al);
     *     });
     * }, FluxSink.OverflowStrategy.LATEST);
     * 
* * @param The type of values in the sequence * @param backpressure the backpressure mode, see {@link OverflowStrategy} for the * available backpressure modes * @param emitter Consume the {@link FluxSink} provided per-subscriber by Reactor to generate signals. * @return a {@link Flux} */ public static Flux create(Consumer> emitter, OverflowStrategy backpressure) { return onAssembly(new FluxCreate<>(emitter, backpressure, FluxCreate.CreateMode.PUSH_PULL)); } /** * Decorate the specified {@link Publisher} with the {@link Flux} API. *

* *

* @param source the source to decorate * @param The type of values in both source and output sequences * * @return a new {@link Flux} */ public static Flux from(Publisher source) { if (source instanceof Flux) { @SuppressWarnings("unchecked") Flux casted = (Flux) source; return casted; } if (source instanceof Fuseable.ScalarCallable) { try { @SuppressWarnings("unchecked") T t = ((Fuseable.ScalarCallable) source).call(); if (t != null) { return just(t); } return empty(); } catch (Exception e) { return error(e); } } return wrap(source); } /** * Programmatically create a {@link Flux} by generating signals one-by-one via a * consumer callback and some state, with a final cleanup callback. The * {@code stateSupplier} may return {@literal null} but your cleanup {@code stateConsumer} * will need to handle the null case. *

* *

* * @param the value type emitted * @param the per-subscriber custom state type * @param stateSupplier called for each incoming Subscriber to provide the initial state for the generator bifunction * @param generator Consume the {@link SynchronousSink} provided per-subscriber by Reactor * as well as the current state to generate a single signal on each pass * and return a (new) state. * @param stateConsumer called after the generator has terminated or the downstream cancelled, receiving the last * state to be handled (i.e., release resources or do other cleanup). * * @return a {@link Flux} */ public static Flux generate(Callable stateSupplier, BiFunction, S> generator, Consumer stateConsumer) { return onAssembly(new FluxGenerate<>(stateSupplier, generator, stateConsumer)); } }

实例

Mono

    @Test
    public void testMonoBasic(){
        Mono.fromSupplier(() -> "Hello").subscribe(System.out::println);
        Mono.justOrEmpty(Optional.of("Hello")).subscribe(System.out::println);
        Mono.create(sink -> sink.success("Hello")).subscribe(System.out::println);
    }

Mono ,是指最多只能触发(emit) (事件)一次。它对应于 RxJava 库的 Single 和 Maybe 类型或者是java的Optional。因此一个异步任务,如果只是想要在完成时给出完成信号,就可以使用 Mono

调用 Flux的single()将返回一个 Mono,而连接两个 monos一起使用 concatWith 将产生一个 Flux。

Flux

    @Test
    public void testBasic(){
        Flux.just("Hello", "World").subscribe(System.out::println);
        Flux.fromArray(new Integer[] {1, 2, 3}).subscribe(System.out::println);
        Flux.empty().subscribe(System.out::println);
        Flux.range(1, 10).subscribe(System.out::println);
        Flux.interval(Duration.of(10, ChronoUnit.SECONDS)).subscribe(System.out::println);
    }
Flux 相当于一个 RxJava Observable,能够发出 0~N 个数据项,然后(可选地)completing 或 erroring。处理多个数据项作为stream。

小结

Mono和Flux都是实现Publisher接口的抽象类,一个相当于Optional,一个相当于有0..N的stream。两个都是spring 5 reactive编程的重要基础概念。

doc

  • mono
  • flux

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