/*
 * 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 java.util.concurrent;

import java.util.function.BiConsumer;
import java.util.function.BiFunction;
import java.util.function.Consumer;
import java.util.function.Function;

A stage of a possibly asynchronous computation, that performs an action or computes a value when another CompletionStage completes. A stage completes upon termination of its computation, but this may in turn trigger other dependent stages. The functionality defined in this interface takes only a few basic forms, which expand out to a larger set of methods to capture a range of usage styles:
  • The computation performed by a stage may be expressed as a Function, Consumer, or Runnable (using methods with names including apply, accept, or run, respectively) depending on whether it requires arguments and/or produces results. For example:
     
    stage.thenApply(x -> square(x))
         .thenAccept(x -> System.out.print(x))
         .thenRun(() -> System.out.println());
    An additional form (compose) allows the construction of computation pipelines from functions returning completion stages.

    Any argument to a stage's computation is the outcome of a triggering stage's computation.

  • One stage's execution may be triggered by completion of a single stage, or both of two stages, or either of two stages. Dependencies on a single stage are arranged using methods with prefix then. Those triggered by completion of both of two stages may combine their results or effects, using correspondingly named methods. Those triggered by either of two stages make no guarantees about which of the results or effects are used for the dependent stage's computation.
  • Dependencies among stages control the triggering of computations, but do not otherwise guarantee any particular ordering. Additionally, execution of a new stage's computations may be arranged in any of three ways: default execution, default asynchronous execution (using methods with suffix async that employ the stage's default asynchronous execution facility), or custom (via a supplied Executor). The execution properties of default and async modes are specified by CompletionStage implementations, not this interface. Methods with explicit Executor arguments may have arbitrary execution properties, and might not even support concurrent execution, but are arranged for processing in a way that accommodates asynchrony.
  • Two method forms (handle and whenComplete) support unconditional computation whether the triggering stage completed normally or exceptionally. Method exceptionally supports computation only when the triggering stage completes exceptionally, computing a replacement result, similarly to the java catch keyword. In all other cases, if a stage's computation terminates abruptly with an (unchecked) exception or error, then all dependent stages requiring its completion complete exceptionally as well, with a CompletionException holding the exception as its cause. If a stage is dependent on both of two stages, and both complete exceptionally, then the CompletionException may correspond to either one of these exceptions. If a stage is dependent on either of two others, and only one of them completes exceptionally, no guarantees are made about whether the dependent stage completes normally or exceptionally. In the case of method whenComplete, when the supplied action itself encounters an exception, then the stage completes exceptionally with this exception unless the source stage also completed exceptionally, in which case the exceptional completion from the source stage is given preference and propagated to the dependent stage.

All methods adhere to the above triggering, execution, and exceptional completion specifications (which are not repeated in individual method specifications). Additionally, while arguments used to pass a completion result (that is, for parameters of type T) for methods accepting them may be null, passing a null value for any other parameter will result in a NullPointerException being thrown.

Method form handle is the most general way of creating a continuation stage, unconditionally performing a computation that is given both the result and exception (if any) of the triggering CompletionStage, and computing an arbitrary result. Method whenComplete is similar, but preserves the result of the triggering stage instead of computing a new one. Because a stage's normal result may be null, both methods should have a computation structured thus:

(result, exception) -> {
  if (exception == null) {
    // triggering stage completed normally
  } else {
    // triggering stage completed exceptionally
  }
 }

This interface does not define methods for initially creating, forcibly completing normally or exceptionally, probing completion status or results, or awaiting completion of a stage. Implementations of CompletionStage may provide means of achieving such effects, as appropriate. Method toCompletableFuture enables interoperability among different implementations of this interface by providing a common conversion type.

Author:Doug Lea
Since:1.8
/** * A stage of a possibly asynchronous computation, that performs an * action or computes a value when another CompletionStage completes. * A stage completes upon termination of its computation, but this may * in turn trigger other dependent stages. The functionality defined * in this interface takes only a few basic forms, which expand out to * a larger set of methods to capture a range of usage styles: * * <ul> * * <li>The computation performed by a stage may be expressed as a * Function, Consumer, or Runnable (using methods with names including * <em>apply</em>, <em>accept</em>, or <em>run</em>, respectively) * depending on whether it requires arguments and/or produces results. * For example: * <pre> {@code * stage.thenApply(x -> square(x)) * .thenAccept(x -> System.out.print(x)) * .thenRun(() -> System.out.println());}</pre> * * An additional form (<em>compose</em>) allows the construction of * computation pipelines from functions returning completion stages. * * <p>Any argument to a stage's computation is the outcome of a * triggering stage's computation. * * <li>One stage's execution may be triggered by completion of a * single stage, or both of two stages, or either of two stages. * Dependencies on a single stage are arranged using methods with * prefix <em>then</em>. Those triggered by completion of * <em>both</em> of two stages may <em>combine</em> their results or * effects, using correspondingly named methods. Those triggered by * <em>either</em> of two stages make no guarantees about which of the * results or effects are used for the dependent stage's computation. * * <li>Dependencies among stages control the triggering of * computations, but do not otherwise guarantee any particular * ordering. Additionally, execution of a new stage's computations may * be arranged in any of three ways: default execution, default * asynchronous execution (using methods with suffix <em>async</em> * that employ the stage's default asynchronous execution facility), * or custom (via a supplied {@link Executor}). The execution * properties of default and async modes are specified by * CompletionStage implementations, not this interface. Methods with * explicit Executor arguments may have arbitrary execution * properties, and might not even support concurrent execution, but * are arranged for processing in a way that accommodates asynchrony. * * <li>Two method forms ({@link #handle handle} and {@link * #whenComplete whenComplete}) support unconditional computation * whether the triggering stage completed normally or exceptionally. * Method {@link #exceptionally exceptionally} supports computation * only when the triggering stage completes exceptionally, computing a * replacement result, similarly to the java {@code catch} keyword. * In all other cases, if a stage's computation terminates abruptly * with an (unchecked) exception or error, then all dependent stages * requiring its completion complete exceptionally as well, with a * {@link CompletionException} holding the exception as its cause. If * a stage is dependent on <em>both</em> of two stages, and both * complete exceptionally, then the CompletionException may correspond * to either one of these exceptions. If a stage is dependent on * <em>either</em> of two others, and only one of them completes * exceptionally, no guarantees are made about whether the dependent * stage completes normally or exceptionally. In the case of method * {@code whenComplete}, when the supplied action itself encounters an * exception, then the stage completes exceptionally with this * exception unless the source stage also completed exceptionally, in * which case the exceptional completion from the source stage is * given preference and propagated to the dependent stage. * * </ul> * * <p>All methods adhere to the above triggering, execution, and * exceptional completion specifications (which are not repeated in * individual method specifications). Additionally, while arguments * used to pass a completion result (that is, for parameters of type * {@code T}) for methods accepting them may be null, passing a null * value for any other parameter will result in a {@link * NullPointerException} being thrown. * * <p>Method form {@link #handle handle} is the most general way of * creating a continuation stage, unconditionally performing a * computation that is given both the result and exception (if any) of * the triggering CompletionStage, and computing an arbitrary result. * Method {@link #whenComplete whenComplete} is similar, but preserves * the result of the triggering stage instead of computing a new one. * Because a stage's normal result may be {@code null}, both methods * should have a computation structured thus: * * <pre>{@code (result, exception) -> { * if (exception == null) { * // triggering stage completed normally * } else { * // triggering stage completed exceptionally * } * }}</pre> * * <p>This interface does not define methods for initially creating, * forcibly completing normally or exceptionally, probing completion * status or results, or awaiting completion of a stage. * Implementations of CompletionStage may provide means of achieving * such effects, as appropriate. Method {@link #toCompletableFuture} * enables interoperability among different implementations of this * interface by providing a common conversion type. * * @author Doug Lea * @since 1.8 */
public interface CompletionStage<T> {
Returns a new CompletionStage that, when this stage completes normally, is executed with this stage's result as the argument to the supplied function.

This method is analogous to Optional.map and Stream.map.

See the CompletionStage documentation for rules covering exceptional completion.

Params:
  • fn – the function to use to compute the value of the returned CompletionStage
Type parameters:
  • <U> – the function's return type
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this stage completes * normally, is executed with this stage's result as the argument * to the supplied function. * * <p>This method is analogous to * {@link java.util.Optional#map Optional.map} and * {@link java.util.stream.Stream#map Stream.map}. * * <p>See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param fn the function to use to compute the value of the * returned CompletionStage * @param <U> the function's return type * @return the new CompletionStage */
public <U> CompletionStage<U> thenApply(Function<? super T,? extends U> fn);
Returns a new CompletionStage that, when this stage completes normally, is executed using this stage's default asynchronous execution facility, with this stage's result as the argument to the supplied function. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • fn – the function to use to compute the value of the returned CompletionStage
Type parameters:
  • <U> – the function's return type
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this stage completes * normally, is executed using this stage's default asynchronous * execution facility, with this stage's result as the argument to * the supplied function. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param fn the function to use to compute the value of the * returned CompletionStage * @param <U> the function's return type * @return the new CompletionStage */
public <U> CompletionStage<U> thenApplyAsync (Function<? super T,? extends U> fn);
Returns a new CompletionStage that, when this stage completes normally, is executed using the supplied Executor, with this stage's result as the argument to the supplied function. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • fn – the function to use to compute the value of the returned CompletionStage
  • executor – the executor to use for asynchronous execution
Type parameters:
  • <U> – the function's return type
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this stage completes * normally, is executed using the supplied Executor, with this * stage's result as the argument to the supplied function. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param fn the function to use to compute the value of the * returned CompletionStage * @param executor the executor to use for asynchronous execution * @param <U> the function's return type * @return the new CompletionStage */
public <U> CompletionStage<U> thenApplyAsync (Function<? super T,? extends U> fn, Executor executor);
Returns a new CompletionStage that, when this stage completes normally, is executed with this stage's result as the argument to the supplied action. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • action – the action to perform before completing the returned CompletionStage
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this stage completes * normally, is executed with this stage's result as the argument * to the supplied action. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param action the action to perform before completing the * returned CompletionStage * @return the new CompletionStage */
public CompletionStage<Void> thenAccept(Consumer<? super T> action);
Returns a new CompletionStage that, when this stage completes normally, is executed using this stage's default asynchronous execution facility, with this stage's result as the argument to the supplied action. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • action – the action to perform before completing the returned CompletionStage
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this stage completes * normally, is executed using this stage's default asynchronous * execution facility, with this stage's result as the argument to * the supplied action. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param action the action to perform before completing the * returned CompletionStage * @return the new CompletionStage */
public CompletionStage<Void> thenAcceptAsync(Consumer<? super T> action);
Returns a new CompletionStage that, when this stage completes normally, is executed using the supplied Executor, with this stage's result as the argument to the supplied action. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • action – the action to perform before completing the returned CompletionStage
  • executor – the executor to use for asynchronous execution
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this stage completes * normally, is executed using the supplied Executor, with this * stage's result as the argument to the supplied action. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param action the action to perform before completing the * returned CompletionStage * @param executor the executor to use for asynchronous execution * @return the new CompletionStage */
public CompletionStage<Void> thenAcceptAsync(Consumer<? super T> action, Executor executor);
Returns a new CompletionStage that, when this stage completes normally, executes the given action. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • action – the action to perform before completing the returned CompletionStage
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this stage completes * normally, executes the given action. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param action the action to perform before completing the * returned CompletionStage * @return the new CompletionStage */
public CompletionStage<Void> thenRun(Runnable action);
Returns a new CompletionStage that, when this stage completes normally, executes the given action using this stage's default asynchronous execution facility. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • action – the action to perform before completing the returned CompletionStage
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this stage completes * normally, executes the given action using this stage's default * asynchronous execution facility. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param action the action to perform before completing the * returned CompletionStage * @return the new CompletionStage */
public CompletionStage<Void> thenRunAsync(Runnable action);
Returns a new CompletionStage that, when this stage completes normally, executes the given action using the supplied Executor. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • action – the action to perform before completing the returned CompletionStage
  • executor – the executor to use for asynchronous execution
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this stage completes * normally, executes the given action using the supplied Executor. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param action the action to perform before completing the * returned CompletionStage * @param executor the executor to use for asynchronous execution * @return the new CompletionStage */
public CompletionStage<Void> thenRunAsync(Runnable action, Executor executor);
Returns a new CompletionStage that, when this and the other given stage both complete normally, is executed with the two results as arguments to the supplied function. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • other – the other CompletionStage
  • fn – the function to use to compute the value of the returned CompletionStage
Type parameters:
  • <U> – the type of the other CompletionStage's result
  • <V> – the function's return type
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this and the other * given stage both complete normally, is executed with the two * results as arguments to the supplied function. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param other the other CompletionStage * @param fn the function to use to compute the value of the * returned CompletionStage * @param <U> the type of the other CompletionStage's result * @param <V> the function's return type * @return the new CompletionStage */
public <U,V> CompletionStage<V> thenCombine (CompletionStage<? extends U> other, BiFunction<? super T,? super U,? extends V> fn);
Returns a new CompletionStage that, when this and the other given stage both complete normally, is executed using this stage's default asynchronous execution facility, with the two results as arguments to the supplied function. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • other – the other CompletionStage
  • fn – the function to use to compute the value of the returned CompletionStage
Type parameters:
  • <U> – the type of the other CompletionStage's result
  • <V> – the function's return type
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this and the other * given stage both complete normally, is executed using this * stage's default asynchronous execution facility, with the two * results as arguments to the supplied function. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param other the other CompletionStage * @param fn the function to use to compute the value of the * returned CompletionStage * @param <U> the type of the other CompletionStage's result * @param <V> the function's return type * @return the new CompletionStage */
public <U,V> CompletionStage<V> thenCombineAsync (CompletionStage<? extends U> other, BiFunction<? super T,? super U,? extends V> fn);
Returns a new CompletionStage that, when this and the other given stage both complete normally, is executed using the supplied executor, with the two results as arguments to the supplied function. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • other – the other CompletionStage
  • fn – the function to use to compute the value of the returned CompletionStage
  • executor – the executor to use for asynchronous execution
Type parameters:
  • <U> – the type of the other CompletionStage's result
  • <V> – the function's return type
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this and the other * given stage both complete normally, is executed using the * supplied executor, with the two results as arguments to the * supplied function. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param other the other CompletionStage * @param fn the function to use to compute the value of the * returned CompletionStage * @param executor the executor to use for asynchronous execution * @param <U> the type of the other CompletionStage's result * @param <V> the function's return type * @return the new CompletionStage */
public <U,V> CompletionStage<V> thenCombineAsync (CompletionStage<? extends U> other, BiFunction<? super T,? super U,? extends V> fn, Executor executor);
Returns a new CompletionStage that, when this and the other given stage both complete normally, is executed with the two results as arguments to the supplied action. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • other – the other CompletionStage
  • action – the action to perform before completing the returned CompletionStage
Type parameters:
  • <U> – the type of the other CompletionStage's result
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this and the other * given stage both complete normally, is executed with the two * results as arguments to the supplied action. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param other the other CompletionStage * @param action the action to perform before completing the * returned CompletionStage * @param <U> the type of the other CompletionStage's result * @return the new CompletionStage */
public <U> CompletionStage<Void> thenAcceptBoth (CompletionStage<? extends U> other, BiConsumer<? super T, ? super U> action);
Returns a new CompletionStage that, when this and the other given stage both complete normally, is executed using this stage's default asynchronous execution facility, with the two results as arguments to the supplied action. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • other – the other CompletionStage
  • action – the action to perform before completing the returned CompletionStage
Type parameters:
  • <U> – the type of the other CompletionStage's result
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this and the other * given stage both complete normally, is executed using this * stage's default asynchronous execution facility, with the two * results as arguments to the supplied action. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param other the other CompletionStage * @param action the action to perform before completing the * returned CompletionStage * @param <U> the type of the other CompletionStage's result * @return the new CompletionStage */
public <U> CompletionStage<Void> thenAcceptBothAsync (CompletionStage<? extends U> other, BiConsumer<? super T, ? super U> action);
Returns a new CompletionStage that, when this and the other given stage both complete normally, is executed using the supplied executor, with the two results as arguments to the supplied action. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • other – the other CompletionStage
  • action – the action to perform before completing the returned CompletionStage
  • executor – the executor to use for asynchronous execution
Type parameters:
  • <U> – the type of the other CompletionStage's result
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this and the other * given stage both complete normally, is executed using the * supplied executor, with the two results as arguments to the * supplied action. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param other the other CompletionStage * @param action the action to perform before completing the * returned CompletionStage * @param executor the executor to use for asynchronous execution * @param <U> the type of the other CompletionStage's result * @return the new CompletionStage */
public <U> CompletionStage<Void> thenAcceptBothAsync (CompletionStage<? extends U> other, BiConsumer<? super T, ? super U> action, Executor executor);
Returns a new CompletionStage that, when this and the other given stage both complete normally, executes the given action. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • other – the other CompletionStage
  • action – the action to perform before completing the returned CompletionStage
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this and the other * given stage both complete normally, executes the given action. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param other the other CompletionStage * @param action the action to perform before completing the * returned CompletionStage * @return the new CompletionStage */
public CompletionStage<Void> runAfterBoth(CompletionStage<?> other, Runnable action);
Returns a new CompletionStage that, when this and the other given stage both complete normally, executes the given action using this stage's default asynchronous execution facility. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • other – the other CompletionStage
  • action – the action to perform before completing the returned CompletionStage
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this and the other * given stage both complete normally, executes the given action * using this stage's default asynchronous execution facility. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param other the other CompletionStage * @param action the action to perform before completing the * returned CompletionStage * @return the new CompletionStage */
public CompletionStage<Void> runAfterBothAsync(CompletionStage<?> other, Runnable action);
Returns a new CompletionStage that, when this and the other given stage both complete normally, executes the given action using the supplied executor. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • other – the other CompletionStage
  • action – the action to perform before completing the returned CompletionStage
  • executor – the executor to use for asynchronous execution
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this and the other * given stage both complete normally, executes the given action * using the supplied executor. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param other the other CompletionStage * @param action the action to perform before completing the * returned CompletionStage * @param executor the executor to use for asynchronous execution * @return the new CompletionStage */
public CompletionStage<Void> runAfterBothAsync(CompletionStage<?> other, Runnable action, Executor executor);
Returns a new CompletionStage that, when either this or the other given stage complete normally, is executed with the corresponding result as argument to the supplied function. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • other – the other CompletionStage
  • fn – the function to use to compute the value of the returned CompletionStage
Type parameters:
  • <U> – the function's return type
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when either this or the * other given stage complete normally, is executed with the * corresponding result as argument to the supplied function. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param other the other CompletionStage * @param fn the function to use to compute the value of the * returned CompletionStage * @param <U> the function's return type * @return the new CompletionStage */
public <U> CompletionStage<U> applyToEither (CompletionStage<? extends T> other, Function<? super T, U> fn);
Returns a new CompletionStage that, when either this or the other given stage complete normally, is executed using this stage's default asynchronous execution facility, with the corresponding result as argument to the supplied function. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • other – the other CompletionStage
  • fn – the function to use to compute the value of the returned CompletionStage
Type parameters:
  • <U> – the function's return type
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when either this or the * other given stage complete normally, is executed using this * stage's default asynchronous execution facility, with the * corresponding result as argument to the supplied function. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param other the other CompletionStage * @param fn the function to use to compute the value of the * returned CompletionStage * @param <U> the function's return type * @return the new CompletionStage */
public <U> CompletionStage<U> applyToEitherAsync (CompletionStage<? extends T> other, Function<? super T, U> fn);
Returns a new CompletionStage that, when either this or the other given stage complete normally, is executed using the supplied executor, with the corresponding result as argument to the supplied function. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • other – the other CompletionStage
  • fn – the function to use to compute the value of the returned CompletionStage
  • executor – the executor to use for asynchronous execution
Type parameters:
  • <U> – the function's return type
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when either this or the * other given stage complete normally, is executed using the * supplied executor, with the corresponding result as argument to * the supplied function. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param other the other CompletionStage * @param fn the function to use to compute the value of the * returned CompletionStage * @param executor the executor to use for asynchronous execution * @param <U> the function's return type * @return the new CompletionStage */
public <U> CompletionStage<U> applyToEitherAsync (CompletionStage<? extends T> other, Function<? super T, U> fn, Executor executor);
Returns a new CompletionStage that, when either this or the other given stage complete normally, is executed with the corresponding result as argument to the supplied action. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • other – the other CompletionStage
  • action – the action to perform before completing the returned CompletionStage
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when either this or the * other given stage complete normally, is executed with the * corresponding result as argument to the supplied action. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param other the other CompletionStage * @param action the action to perform before completing the * returned CompletionStage * @return the new CompletionStage */
public CompletionStage<Void> acceptEither (CompletionStage<? extends T> other, Consumer<? super T> action);
Returns a new CompletionStage that, when either this or the other given stage complete normally, is executed using this stage's default asynchronous execution facility, with the corresponding result as argument to the supplied action. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • other – the other CompletionStage
  • action – the action to perform before completing the returned CompletionStage
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when either this or the * other given stage complete normally, is executed using this * stage's default asynchronous execution facility, with the * corresponding result as argument to the supplied action. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param other the other CompletionStage * @param action the action to perform before completing the * returned CompletionStage * @return the new CompletionStage */
public CompletionStage<Void> acceptEitherAsync (CompletionStage<? extends T> other, Consumer<? super T> action);
Returns a new CompletionStage that, when either this or the other given stage complete normally, is executed using the supplied executor, with the corresponding result as argument to the supplied action. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • other – the other CompletionStage
  • action – the action to perform before completing the returned CompletionStage
  • executor – the executor to use for asynchronous execution
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when either this or the * other given stage complete normally, is executed using the * supplied executor, with the corresponding result as argument to * the supplied action. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param other the other CompletionStage * @param action the action to perform before completing the * returned CompletionStage * @param executor the executor to use for asynchronous execution * @return the new CompletionStage */
public CompletionStage<Void> acceptEitherAsync (CompletionStage<? extends T> other, Consumer<? super T> action, Executor executor);
Returns a new CompletionStage that, when either this or the other given stage complete normally, executes the given action. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • other – the other CompletionStage
  • action – the action to perform before completing the returned CompletionStage
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when either this or the * other given stage complete normally, executes the given action. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param other the other CompletionStage * @param action the action to perform before completing the * returned CompletionStage * @return the new CompletionStage */
public CompletionStage<Void> runAfterEither(CompletionStage<?> other, Runnable action);
Returns a new CompletionStage that, when either this or the other given stage complete normally, executes the given action using this stage's default asynchronous execution facility. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • other – the other CompletionStage
  • action – the action to perform before completing the returned CompletionStage
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when either this or the * other given stage complete normally, executes the given action * using this stage's default asynchronous execution facility. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param other the other CompletionStage * @param action the action to perform before completing the * returned CompletionStage * @return the new CompletionStage */
public CompletionStage<Void> runAfterEitherAsync (CompletionStage<?> other, Runnable action);
Returns a new CompletionStage that, when either this or the other given stage complete normally, executes the given action using the supplied executor. See the CompletionStage documentation for rules covering exceptional completion.
Params:
  • other – the other CompletionStage
  • action – the action to perform before completing the returned CompletionStage
  • executor – the executor to use for asynchronous execution
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when either this or the * other given stage complete normally, executes the given action * using the supplied executor. * * See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param other the other CompletionStage * @param action the action to perform before completing the * returned CompletionStage * @param executor the executor to use for asynchronous execution * @return the new CompletionStage */
public CompletionStage<Void> runAfterEitherAsync (CompletionStage<?> other, Runnable action, Executor executor);
Returns a new CompletionStage that is completed with the same value as the CompletionStage returned by the given function.

When this stage completes normally, the given function is invoked with this stage's result as the argument, returning another CompletionStage. When that stage completes normally, the CompletionStage returned by this method is completed with the same value.

To ensure progress, the supplied function must arrange eventual completion of its result.

This method is analogous to Optional.flatMap and Stream.flatMap.

See the CompletionStage documentation for rules covering exceptional completion.

Params:
  • fn – the function to use to compute another CompletionStage
Type parameters:
  • <U> – the type of the returned CompletionStage's result
Returns:the new CompletionStage
/** * Returns a new CompletionStage that is completed with the same * value as the CompletionStage returned by the given function. * * <p>When this stage completes normally, the given function is * invoked with this stage's result as the argument, returning * another CompletionStage. When that stage completes normally, * the CompletionStage returned by this method is completed with * the same value. * * <p>To ensure progress, the supplied function must arrange * eventual completion of its result. * * <p>This method is analogous to * {@link java.util.Optional#flatMap Optional.flatMap} and * {@link java.util.stream.Stream#flatMap Stream.flatMap}. * * <p>See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param fn the function to use to compute another CompletionStage * @param <U> the type of the returned CompletionStage's result * @return the new CompletionStage */
public <U> CompletionStage<U> thenCompose (Function<? super T, ? extends CompletionStage<U>> fn);
Returns a new CompletionStage that is completed with the same value as the CompletionStage returned by the given function, executed using this stage's default asynchronous execution facility.

When this stage completes normally, the given function is invoked with this stage's result as the argument, returning another CompletionStage. When that stage completes normally, the CompletionStage returned by this method is completed with the same value.

To ensure progress, the supplied function must arrange eventual completion of its result.

See the CompletionStage documentation for rules covering exceptional completion.

Params:
  • fn – the function to use to compute another CompletionStage
Type parameters:
  • <U> – the type of the returned CompletionStage's result
Returns:the new CompletionStage
/** * Returns a new CompletionStage that is completed with the same * value as the CompletionStage returned by the given function, * executed using this stage's default asynchronous execution * facility. * * <p>When this stage completes normally, the given function is * invoked with this stage's result as the argument, returning * another CompletionStage. When that stage completes normally, * the CompletionStage returned by this method is completed with * the same value. * * <p>To ensure progress, the supplied function must arrange * eventual completion of its result. * * <p>See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param fn the function to use to compute another CompletionStage * @param <U> the type of the returned CompletionStage's result * @return the new CompletionStage */
public <U> CompletionStage<U> thenComposeAsync (Function<? super T, ? extends CompletionStage<U>> fn);
Returns a new CompletionStage that is completed with the same value as the CompletionStage returned by the given function, executed using the supplied Executor.

When this stage completes normally, the given function is invoked with this stage's result as the argument, returning another CompletionStage. When that stage completes normally, the CompletionStage returned by this method is completed with the same value.

To ensure progress, the supplied function must arrange eventual completion of its result.

See the CompletionStage documentation for rules covering exceptional completion.

Params:
  • fn – the function to use to compute another CompletionStage
  • executor – the executor to use for asynchronous execution
Type parameters:
  • <U> – the type of the returned CompletionStage's result
Returns:the new CompletionStage
/** * Returns a new CompletionStage that is completed with the same * value as the CompletionStage returned by the given function, * executed using the supplied Executor. * * <p>When this stage completes normally, the given function is * invoked with this stage's result as the argument, returning * another CompletionStage. When that stage completes normally, * the CompletionStage returned by this method is completed with * the same value. * * <p>To ensure progress, the supplied function must arrange * eventual completion of its result. * * <p>See the {@link CompletionStage} documentation for rules * covering exceptional completion. * * @param fn the function to use to compute another CompletionStage * @param executor the executor to use for asynchronous execution * @param <U> the type of the returned CompletionStage's result * @return the new CompletionStage */
public <U> CompletionStage<U> thenComposeAsync (Function<? super T, ? extends CompletionStage<U>> fn, Executor executor);
Returns a new CompletionStage that, when this stage completes either normally or exceptionally, is executed with this stage's result and exception as arguments to the supplied function.

When this stage is complete, the given function is invoked with the result (or null if none) and the exception (or null if none) of this stage as arguments, and the function's result is used to complete the returned stage.

Params:
  • fn – the function to use to compute the value of the returned CompletionStage
Type parameters:
  • <U> – the function's return type
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this stage completes * either normally or exceptionally, is executed with this stage's * result and exception as arguments to the supplied function. * * <p>When this stage is complete, the given function is invoked * with the result (or {@code null} if none) and the exception (or * {@code null} if none) of this stage as arguments, and the * function's result is used to complete the returned stage. * * @param fn the function to use to compute the value of the * returned CompletionStage * @param <U> the function's return type * @return the new CompletionStage */
public <U> CompletionStage<U> handle (BiFunction<? super T, Throwable, ? extends U> fn);
Returns a new CompletionStage that, when this stage completes either normally or exceptionally, is executed using this stage's default asynchronous execution facility, with this stage's result and exception as arguments to the supplied function.

When this stage is complete, the given function is invoked with the result (or null if none) and the exception (or null if none) of this stage as arguments, and the function's result is used to complete the returned stage.

Params:
  • fn – the function to use to compute the value of the returned CompletionStage
Type parameters:
  • <U> – the function's return type
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this stage completes * either normally or exceptionally, is executed using this stage's * default asynchronous execution facility, with this stage's * result and exception as arguments to the supplied function. * * <p>When this stage is complete, the given function is invoked * with the result (or {@code null} if none) and the exception (or * {@code null} if none) of this stage as arguments, and the * function's result is used to complete the returned stage. * * @param fn the function to use to compute the value of the * returned CompletionStage * @param <U> the function's return type * @return the new CompletionStage */
public <U> CompletionStage<U> handleAsync (BiFunction<? super T, Throwable, ? extends U> fn);
Returns a new CompletionStage that, when this stage completes either normally or exceptionally, is executed using the supplied executor, with this stage's result and exception as arguments to the supplied function.

When this stage is complete, the given function is invoked with the result (or null if none) and the exception (or null if none) of this stage as arguments, and the function's result is used to complete the returned stage.

Params:
  • fn – the function to use to compute the value of the returned CompletionStage
  • executor – the executor to use for asynchronous execution
Type parameters:
  • <U> – the function's return type
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this stage completes * either normally or exceptionally, is executed using the * supplied executor, with this stage's result and exception as * arguments to the supplied function. * * <p>When this stage is complete, the given function is invoked * with the result (or {@code null} if none) and the exception (or * {@code null} if none) of this stage as arguments, and the * function's result is used to complete the returned stage. * * @param fn the function to use to compute the value of the * returned CompletionStage * @param executor the executor to use for asynchronous execution * @param <U> the function's return type * @return the new CompletionStage */
public <U> CompletionStage<U> handleAsync (BiFunction<? super T, Throwable, ? extends U> fn, Executor executor);
Returns a new CompletionStage with the same result or exception as this stage, that executes the given action when this stage completes.

When this stage is complete, the given action is invoked with the result (or null if none) and the exception (or null if none) of this stage as arguments. The returned stage is completed when the action returns.

Unlike method handle, this method is not designed to translate completion outcomes, so the supplied action should not throw an exception. However, if it does, the following rules apply: if this stage completed normally but the supplied action throws an exception, then the returned stage completes exceptionally with the supplied action's exception. Or, if this stage completed exceptionally and the supplied action throws an exception, then the returned stage completes exceptionally with this stage's exception.

Params:
  • action – the action to perform
Returns:the new CompletionStage
/** * Returns a new CompletionStage with the same result or exception as * this stage, that executes the given action when this stage completes. * * <p>When this stage is complete, the given action is invoked * with the result (or {@code null} if none) and the exception (or * {@code null} if none) of this stage as arguments. The returned * stage is completed when the action returns. * * <p>Unlike method {@link #handle handle}, * this method is not designed to translate completion outcomes, * so the supplied action should not throw an exception. However, * if it does, the following rules apply: if this stage completed * normally but the supplied action throws an exception, then the * returned stage completes exceptionally with the supplied * action's exception. Or, if this stage completed exceptionally * and the supplied action throws an exception, then the returned * stage completes exceptionally with this stage's exception. * * @param action the action to perform * @return the new CompletionStage */
public CompletionStage<T> whenComplete (BiConsumer<? super T, ? super Throwable> action);
Returns a new CompletionStage with the same result or exception as this stage, that executes the given action using this stage's default asynchronous execution facility when this stage completes.

When this stage is complete, the given action is invoked with the result (or null if none) and the exception (or null if none) of this stage as arguments. The returned stage is completed when the action returns.

Unlike method handleAsync, this method is not designed to translate completion outcomes, so the supplied action should not throw an exception. However, if it does, the following rules apply: If this stage completed normally but the supplied action throws an exception, then the returned stage completes exceptionally with the supplied action's exception. Or, if this stage completed exceptionally and the supplied action throws an exception, then the returned stage completes exceptionally with this stage's exception.

Params:
  • action – the action to perform
Returns:the new CompletionStage
/** * Returns a new CompletionStage with the same result or exception as * this stage, that executes the given action using this stage's * default asynchronous execution facility when this stage completes. * * <p>When this stage is complete, the given action is invoked with the * result (or {@code null} if none) and the exception (or {@code null} * if none) of this stage as arguments. The returned stage is completed * when the action returns. * * <p>Unlike method {@link #handleAsync(BiFunction) handleAsync}, * this method is not designed to translate completion outcomes, * so the supplied action should not throw an exception. However, * if it does, the following rules apply: If this stage completed * normally but the supplied action throws an exception, then the * returned stage completes exceptionally with the supplied * action's exception. Or, if this stage completed exceptionally * and the supplied action throws an exception, then the returned * stage completes exceptionally with this stage's exception. * * @param action the action to perform * @return the new CompletionStage */
public CompletionStage<T> whenCompleteAsync (BiConsumer<? super T, ? super Throwable> action);
Returns a new CompletionStage with the same result or exception as this stage, that executes the given action using the supplied Executor when this stage completes.

When this stage is complete, the given action is invoked with the result (or null if none) and the exception (or null if none) of this stage as arguments. The returned stage is completed when the action returns.

Unlike method handleAsync, this method is not designed to translate completion outcomes, so the supplied action should not throw an exception. However, if it does, the following rules apply: If this stage completed normally but the supplied action throws an exception, then the returned stage completes exceptionally with the supplied action's exception. Or, if this stage completed exceptionally and the supplied action throws an exception, then the returned stage completes exceptionally with this stage's exception.

Params:
  • action – the action to perform
  • executor – the executor to use for asynchronous execution
Returns:the new CompletionStage
/** * Returns a new CompletionStage with the same result or exception as * this stage, that executes the given action using the supplied * Executor when this stage completes. * * <p>When this stage is complete, the given action is invoked with the * result (or {@code null} if none) and the exception (or {@code null} * if none) of this stage as arguments. The returned stage is completed * when the action returns. * * <p>Unlike method {@link #handleAsync(BiFunction,Executor) handleAsync}, * this method is not designed to translate completion outcomes, * so the supplied action should not throw an exception. However, * if it does, the following rules apply: If this stage completed * normally but the supplied action throws an exception, then the * returned stage completes exceptionally with the supplied * action's exception. Or, if this stage completed exceptionally * and the supplied action throws an exception, then the returned * stage completes exceptionally with this stage's exception. * * @param action the action to perform * @param executor the executor to use for asynchronous execution * @return the new CompletionStage */
public CompletionStage<T> whenCompleteAsync (BiConsumer<? super T, ? super Throwable> action, Executor executor);
Returns a new CompletionStage that, when this stage completes exceptionally, is executed with this stage's exception as the argument to the supplied function. Otherwise, if this stage completes normally, then the returned stage also completes normally with the same value.
Params:
  • fn – the function to use to compute the value of the returned CompletionStage if this CompletionStage completed exceptionally
Returns:the new CompletionStage
/** * Returns a new CompletionStage that, when this stage completes * exceptionally, is executed with this stage's exception as the * argument to the supplied function. Otherwise, if this stage * completes normally, then the returned stage also completes * normally with the same value. * * @param fn the function to use to compute the value of the * returned CompletionStage if this CompletionStage completed * exceptionally * @return the new CompletionStage */
public CompletionStage<T> exceptionally (Function<Throwable, ? extends T> fn);
Returns a new CompletionStage that, when this stage completes exceptionally, is executed with this stage's exception as the argument to the supplied function, using this stage's default asynchronous execution facility. Otherwise, if this stage completes normally, then the returned stage also completes normally with the same value.
Params:
  • fn – the function to use to compute the value of the returned CompletionStage if this CompletionStage completed exceptionally
Implementation Requirements:The default implementation invokes handle, relaying to handleAsync on exception, then thenCompose for result.
Returns:the new CompletionStage
Since:12
/** * Returns a new CompletionStage that, when this stage completes * exceptionally, is executed with this stage's exception as the * argument to the supplied function, using this stage's default * asynchronous execution facility. Otherwise, if this stage * completes normally, then the returned stage also completes * normally with the same value. * * @implSpec The default implementation invokes {@link #handle}, * relaying to {@link #handleAsync} on exception, then {@link * #thenCompose} for result. * * @param fn the function to use to compute the value of the * returned CompletionStage if this CompletionStage completed * exceptionally * @return the new CompletionStage * @since 12 */
public default CompletionStage<T> exceptionallyAsync (Function<Throwable, ? extends T> fn) { return handle((r, ex) -> (ex == null) ? this : this.<T>handleAsync((r1, ex1) -> fn.apply(ex1))) .thenCompose(Function.identity()); }
Returns a new CompletionStage that, when this stage completes exceptionally, is executed with this stage's exception as the argument to the supplied function, using the supplied Executor. Otherwise, if this stage completes normally, then the returned stage also completes normally with the same value.
Params:
  • fn – the function to use to compute the value of the returned CompletionStage if this CompletionStage completed exceptionally
  • executor – the executor to use for asynchronous execution
Implementation Requirements:The default implementation invokes handle, relaying to handleAsync on exception, then thenCompose for result.
Returns:the new CompletionStage
Since:12
/** * Returns a new CompletionStage that, when this stage completes * exceptionally, is executed with this stage's exception as the * argument to the supplied function, using the supplied Executor. * Otherwise, if this stage completes normally, then the returned * stage also completes normally with the same value. * * @implSpec The default implementation invokes {@link #handle}, * relaying to {@link #handleAsync} on exception, then {@link * #thenCompose} for result. * * @param fn the function to use to compute the value of the * returned CompletionStage if this CompletionStage completed * exceptionally * @param executor the executor to use for asynchronous execution * @return the new CompletionStage * @since 12 */
public default CompletionStage<T> exceptionallyAsync (Function<Throwable, ? extends T> fn, Executor executor) { return handle((r, ex) -> (ex == null) ? this : this.<T>handleAsync((r1, ex1) -> fn.apply(ex1), executor)) .thenCompose(Function.identity()); }
Returns a new CompletionStage that, when this stage completes exceptionally, is composed using the results of the supplied function applied to this stage's exception.
Params:
  • fn – the function to use to compute the returned CompletionStage if this CompletionStage completed exceptionally
Implementation Requirements:The default implementation invokes handle, invoking the given function on exception, then thenCompose for result.
Returns:the new CompletionStage
Since:12
/** * Returns a new CompletionStage that, when this stage completes * exceptionally, is composed using the results of the supplied * function applied to this stage's exception. * * @implSpec The default implementation invokes {@link #handle}, * invoking the given function on exception, then {@link * #thenCompose} for result. * * @param fn the function to use to compute the returned * CompletionStage if this CompletionStage completed exceptionally * @return the new CompletionStage * @since 12 */
public default CompletionStage<T> exceptionallyCompose (Function<Throwable, ? extends CompletionStage<T>> fn) { return handle((r, ex) -> (ex == null) ? this : fn.apply(ex)) .thenCompose(Function.identity()); }
Returns a new CompletionStage that, when this stage completes exceptionally, is composed using the results of the supplied function applied to this stage's exception, using this stage's default asynchronous execution facility.
Params:
  • fn – the function to use to compute the returned CompletionStage if this CompletionStage completed exceptionally
Implementation Requirements:The default implementation invokes handle, relaying to handleAsync on exception, then thenCompose for result.
Returns:the new CompletionStage
Since:12
/** * Returns a new CompletionStage that, when this stage completes * exceptionally, is composed using the results of the supplied * function applied to this stage's exception, using this stage's * default asynchronous execution facility. * * @implSpec The default implementation invokes {@link #handle}, * relaying to {@link #handleAsync} on exception, then {@link * #thenCompose} for result. * * @param fn the function to use to compute the returned * CompletionStage if this CompletionStage completed exceptionally * @return the new CompletionStage * @since 12 */
public default CompletionStage<T> exceptionallyComposeAsync (Function<Throwable, ? extends CompletionStage<T>> fn) { return handle((r, ex) -> (ex == null) ? this : this.handleAsync((r1, ex1) -> fn.apply(ex1)) .thenCompose(Function.identity())) .thenCompose(Function.identity()); }
Returns a new CompletionStage that, when this stage completes exceptionally, is composed using the results of the supplied function applied to this stage's exception, using the supplied Executor.
Params:
  • fn – the function to use to compute the returned CompletionStage if this CompletionStage completed exceptionally
  • executor – the executor to use for asynchronous execution
Implementation Requirements:The default implementation invokes handle, relaying to handleAsync on exception, then thenCompose for result.
Returns:the new CompletionStage
Since:12
/** * Returns a new CompletionStage that, when this stage completes * exceptionally, is composed using the results of the supplied * function applied to this stage's exception, using the * supplied Executor. * * @implSpec The default implementation invokes {@link #handle}, * relaying to {@link #handleAsync} on exception, then {@link * #thenCompose} for result. * * @param fn the function to use to compute the returned * CompletionStage if this CompletionStage completed exceptionally * @param executor the executor to use for asynchronous execution * @return the new CompletionStage * @since 12 */
public default CompletionStage<T> exceptionallyComposeAsync (Function<Throwable, ? extends CompletionStage<T>> fn, Executor executor) { return handle((r, ex) -> (ex == null) ? this : this.handleAsync((r1, ex1) -> fn.apply(ex1), executor) .thenCompose(Function.identity())) .thenCompose(Function.identity()); }
Returns a CompletableFuture maintaining the same completion properties as this stage. If this stage is already a CompletableFuture, this method may return this stage itself. Otherwise, invocation of this method may be equivalent in effect to thenApply(x -> x), but returning an instance of type CompletableFuture.
Returns:the CompletableFuture
/** * Returns a {@link CompletableFuture} maintaining the same * completion properties as this stage. If this stage is already a * CompletableFuture, this method may return this stage itself. * Otherwise, invocation of this method may be equivalent in * effect to {@code thenApply(x -> x)}, but returning an instance * of type {@code CompletableFuture}. * * @return the CompletableFuture */
public CompletableFuture<T> toCompletableFuture(); }