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DependentPromise.java
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/**
* Copyright 2015-2021 Valery Silaev (http://vsilaev.com)
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package net.tascalate.concurrent;
import java.time.Duration;
import java.util.Set;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionStage;
import java.util.concurrent.Executor;
import java.util.concurrent.TimeUnit;
import java.util.function.BiConsumer;
import java.util.function.BiFunction;
import java.util.function.Consumer;
import java.util.function.Function;
import java.util.function.Predicate;
import java.util.function.Supplier;
import net.tascalate.concurrent.decorators.ExecutorBoundDependentPromise;
/**
*
* <p>{@link Promise} wrapper that may keep track origin of this promise and cancel them
* along with this promise itself.
*
* For example:
* <pre>
* <code>
* DependentPromise<?> p1 = DependentPromise.from(CallableTask.runAsync(this::someLongRunningMethod, myExecutor));
* DependentPromise<?> p2 = p1.thenRunAsync(this::someOtherLongRunningTask, true);
* ...
* p2.cancel(true);
*
* </code>
* </pre>
* <p>In the example <code>p2</code> is created with specifying <code>p1</code> as origin (last argument is <code>true</code>).
* Now when canceling <code>p2</code> both <code>p2</code> and <code>p1</code> will be cancelled if not completed yet.
*
* <p>The class add overloads to all composition methods declared in {@link CompletionStage} and {@link Promise} interface.
*
* <p>The ones that accepts another {@link CompletionStage} as argument (named <code>*Both*</code> and
* <code>*Either*</code> are overloaded with a set of @{link {@link PromiseOrigin} as an argument to let
* you specify what to enlist as origin: "this" related to the method call or the parameter.
*
* <p>Rest of methods from {@link CompletionStage} and {@link Promise} API are overloaded with boolean argument
* <code>enlistOrigin</code> that specify whether or not the {@link Promise} object whose
* method is invoked should be added as an origin to result.
*
* <p>All methods originally specified in {@link CompletionStage} does not add "this" as an origin to
* resulting promise.
*
* @author vsilaev
*
* @param <T>
* a type of the successfully resolved promise value
*/
public interface DependentPromise<T> extends Promise<T> {
@Override
default <D> D as(Function<? super Promise<T>, D> decoratorFactory) {
return asʹ(decoratorFactory);
}
default <D> D asʹ(Function<? super DependentPromise<T>, D> decoratorFactory) {
return decoratorFactory.apply(this);
}
// Only for backward-compatibility with versions below 0.5.4
public static <U> DependentPromise<U> from(Promise<U> source) {
return ConfigurableDependentPromise.from(source);
}
// For symmetry with above
public static <U> DependentPromise<U> from(Promise<U> source, Set<PromiseOrigin> defaultEnlistOptions) {
return ConfigurableDependentPromise.from(source, defaultEnlistOptions);
}
@Override
DependentPromise<T> onCancel(Runnable action);
@Override
default DependentPromise<T> defaultAsyncOn(Executor executor) {
return new ExecutorBoundDependentPromise<>(this, executor);
}
// Delay
@Override
default DependentPromise<T> delay(long timeout, TimeUnit unit) {
return delay(timeout, unit, true);
}
@Override
default DependentPromise<T> delay(long timeout, TimeUnit unit,
boolean delayOnError) {
return delay(Timeouts.toDuration(timeout, unit), delayOnError);
}
@Override
default DependentPromise<T> delay(Duration duration) {
return delay(duration, true);
}
default DependentPromise<T> delay(long timeout, TimeUnit unit,
boolean delayOnError, boolean enlistOrigin) {
return delay(Timeouts.toDuration(timeout, unit), delayOnError, enlistOrigin);
}
@Override
DependentPromise<T> delay(Duration duration, boolean delayOnError);
DependentPromise<T> delay(Duration duration, boolean delayOnError, boolean enlistOrigin);
// Or Timeout
@Override
default DependentPromise<T> orTimeout(long timeout, TimeUnit unit) {
return orTimeout(timeout, unit, true);
}
@Override
default DependentPromise<T> orTimeout(long timeout, TimeUnit unit,
boolean cancelOnTimeout) {
return orTimeout(Timeouts.toDuration(timeout, unit), cancelOnTimeout);
}
default DependentPromise<T> orTimeout(long timeout, TimeUnit unit,
boolean cancelOnTimeout, boolean enlistOrigin) {
return orTimeout(Timeouts.toDuration(timeout, unit), cancelOnTimeout, enlistOrigin);
}
@Override
default DependentPromise<T> orTimeout(Duration duration) {
return orTimeout(duration, true);
}
@Override
DependentPromise<T> orTimeout(Duration duration, boolean cancelOnTimeout);
DependentPromise<T> orTimeout(Duration duration,
boolean cancelOnTimeout, boolean enlistOrigin);
// On Timeout
@Override
default DependentPromise<T> onTimeout(T value, long timeout, TimeUnit unit) {
return onTimeout(value, timeout, unit, true);
}
@Override
default DependentPromise<T> onTimeout(T value,
long timeout, TimeUnit unit,
boolean cancelOnTimeout) {
return onTimeout(value, Timeouts.toDuration(timeout, unit), cancelOnTimeout);
}
default DependentPromise<T> onTimeout(T value,
long timeout, TimeUnit unit,
boolean cancelOnTimeout, boolean enlistOrigin) {
return onTimeout(value, Timeouts.toDuration(timeout, unit), cancelOnTimeout, enlistOrigin);
}
@Override
default DependentPromise<T> onTimeout(T value, Duration duration) {
return onTimeout(value, duration, true);
}
@Override
DependentPromise<T> onTimeout(T value, Duration duration, boolean cancelOnTimeout);
DependentPromise<T> onTimeout(T value, Duration duration,
boolean cancelOnTimeout, boolean enlistOrigin);
@Override
default DependentPromise<T> onTimeout(Supplier<? extends T> supplier,
long timeout, TimeUnit unit) {
return onTimeout(supplier, timeout, unit, true);
}
@Override
default DependentPromise<T> onTimeout(Supplier<? extends T> supplier,
long timeout, TimeUnit unit,
boolean cancelOnTimeout) {
return onTimeout(supplier, Timeouts.toDuration(timeout, unit), cancelOnTimeout);
}
default DependentPromise<T> onTimeout(Supplier<? extends T> supplier,
long timeout, TimeUnit unit,
boolean cancelOnTimeout, boolean enlistOrigin) {
return onTimeout(supplier, Timeouts.toDuration(timeout, unit), cancelOnTimeout, enlistOrigin);
}
@Override
default DependentPromise<T> onTimeout(Supplier<? extends T> supplier, Duration duration) {
return onTimeout(supplier, duration, true);
}
@Override
DependentPromise<T> onTimeout(Supplier<? extends T> supplier, Duration duration,
boolean cancelOnTimeout);
DependentPromise<T> onTimeout(Supplier<? extends T> supplier, Duration duration,
boolean cancelOnTimeout, boolean enlistOrigin);
<U> DependentPromise<U> thenApply(Function<? super T, ? extends U> fn, boolean enlistOrigin);
<U> DependentPromise<U> thenApplyAsync(Function<? super T, ? extends U> fn, boolean enlistOrigin);
<U> DependentPromise<U> thenApplyAsync(Function<? super T, ? extends U> fn, Executor executor, boolean enlistOrigin);
DependentPromise<Void> thenAccept(Consumer<? super T> action, boolean enlistOrigin);
DependentPromise<Void> thenAcceptAsync(Consumer<? super T> action, boolean enlistOrigin);
DependentPromise<Void> thenAcceptAsync(Consumer<? super T> action, Executor executor, boolean enlistOrigin);
DependentPromise<Void> thenRun(Runnable action, boolean enlistOrigin);
DependentPromise<Void> thenRunAsync(Runnable action, boolean enlistOrigin);
DependentPromise<Void> thenRunAsync(Runnable action, Executor executor, boolean enlistOrigin);
<U, V> DependentPromise<V> thenCombine(CompletionStage<? extends U> other,
BiFunction<? super T, ? super U, ? extends V> fn,
Set<PromiseOrigin> enlistOptions);
<U, V> DependentPromise<V> thenCombineAsync(CompletionStage<? extends U> other,
BiFunction<? super T, ? super U, ? extends V> fn,
Set<PromiseOrigin> enlistOptions);
<U, V> DependentPromise<V> thenCombineAsync(CompletionStage<? extends U> other,
BiFunction<? super T, ? super U, ? extends V> fn,
Executor executor,
Set<PromiseOrigin> enlistOptions);
<U> DependentPromise<Void> thenAcceptBoth(CompletionStage<? extends U> other,
BiConsumer<? super T, ? super U> action,
Set<PromiseOrigin> enlistOptions);
<U> DependentPromise<Void> thenAcceptBothAsync(CompletionStage<? extends U> other,
BiConsumer<? super T, ? super U> action,
Set<PromiseOrigin> enlistOptions);
<U> DependentPromise<Void> thenAcceptBothAsync(CompletionStage<? extends U> other,
BiConsumer<? super T, ? super U> action,
Executor executor,
Set<PromiseOrigin> enlistOptions);
DependentPromise<Void> runAfterBoth(CompletionStage<?> other, Runnable action, Set<PromiseOrigin> enlistOptions);
DependentPromise<Void> runAfterBothAsync(CompletionStage<?> other, Runnable action, Set<PromiseOrigin> enlistOptions);
DependentPromise<Void> runAfterBothAsync(CompletionStage<?> other,
Runnable action,
Executor executor,
Set<PromiseOrigin> enlistOptions);
<U> DependentPromise<U> applyToEither(CompletionStage<? extends T> other,
Function<? super T, U> fn,
Set<PromiseOrigin> enlistOptions);
<U> DependentPromise<U> applyToEitherAsync(CompletionStage<? extends T> other,
Function<? super T, U> fn,
Set<PromiseOrigin> enlistOptions);
<U> DependentPromise<U> applyToEitherAsync(CompletionStage<? extends T> other,
Function<? super T, U> fn,
Executor executor,
Set<PromiseOrigin> enlistOptions);
DependentPromise<Void> acceptEither(CompletionStage<? extends T> other,
Consumer<? super T> action,
Set<PromiseOrigin> enlistOptions);
DependentPromise<Void> acceptEitherAsync(CompletionStage<? extends T> other,
Consumer<? super T> action,
Set<PromiseOrigin> enlistOptions);
DependentPromise<Void> acceptEitherAsync(CompletionStage<? extends T> other,
Consumer<? super T> action,
Executor executor,
Set<PromiseOrigin> enlistOptions);
DependentPromise<Void> runAfterEither(CompletionStage<?> other, Runnable action, Set<PromiseOrigin> enlistOptions);
DependentPromise<Void> runAfterEitherAsync(CompletionStage<?> other, Runnable action, Set<PromiseOrigin> enlistOptions);
DependentPromise<Void> runAfterEitherAsync(CompletionStage<?> other,
Runnable action,
Executor executor,
Set<PromiseOrigin> enlistOptions);
<U> DependentPromise<U> thenCompose(Function<? super T, ? extends CompletionStage<U>> fn, boolean enlistOrigin);
<U> DependentPromise<U> thenComposeAsync(Function<? super T, ? extends CompletionStage<U>> fn, boolean enlistOrigin);
<U> DependentPromise<U> thenComposeAsync(Function<? super T, ? extends CompletionStage<U>> fn,
Executor executor,
boolean enlistOrigin);
DependentPromise<T> exceptionally(Function<Throwable, ? extends T> fn, boolean enlistOrigin);
DependentPromise<T> exceptionallyAsync(Function<Throwable, ? extends T> fn, boolean enlistOrigin);
DependentPromise<T> exceptionallyAsync(Function<Throwable, ? extends T> fn,
Executor executor,
boolean enlistOrigin);
DependentPromise<T> exceptionallyCompose(Function<Throwable, ? extends CompletionStage<T>> fn, boolean enlistOrigin);
DependentPromise<T> exceptionallyComposeAsync(Function<Throwable, ? extends CompletionStage<T>> fn, boolean enlistOrigin);
DependentPromise<T> exceptionallyComposeAsync(Function<Throwable, ? extends CompletionStage<T>> fn,
Executor executor,
boolean enlistOrigin);
DependentPromise<T> thenFilter(Predicate<? super T> predicate, boolean enlistOrigin);
DependentPromise<T> thenFilter(Predicate<? super T> predicate, Function<? super T, Throwable> errorSupplier, boolean enlistOrigin);
DependentPromise<T> thenFilterAsync(Predicate<? super T> predicate, boolean enlistOrigin);
DependentPromise<T> thenFilterAsync(Predicate<? super T> predicate, Function<? super T, Throwable> errorSupplier, boolean enlistOrigin);
DependentPromise<T> thenFilterAsync(Predicate<? super T> predicate, Executor executor, boolean enlistOrigin);
DependentPromise<T> thenFilterAsync(Predicate<? super T> predicate, Function<? super T, Throwable> errorSupplier, Executor executor, boolean enlistOrigin);
DependentPromise<T> whenComplete(BiConsumer<? super T, ? super Throwable> action, boolean enlistOrigin);
DependentPromise<T> whenCompleteAsync(BiConsumer<? super T, ? super Throwable> action, boolean enlistOrigin);
DependentPromise<T> whenCompleteAsync(BiConsumer<? super T, ? super Throwable> action,
Executor executor,
boolean enlistOrigin);
<U> DependentPromise<U> handle(BiFunction<? super T, Throwable, ? extends U> fn, boolean enlistOrigin);
<U> DependentPromise<U> handleAsync(BiFunction<? super T, Throwable, ? extends U> fn, boolean enlistOrigin);
<U> DependentPromise<U> handleAsync(BiFunction<? super T, Throwable, ? extends U> fn,
Executor executor,
boolean enlistOrigin);
CompletableFuture<T> toCompletableFuture(boolean enlistOrigin);
// Re-declare CompletionStage original methods with right return type
@Override
<U> DependentPromise<U> thenApply(Function<? super T, ? extends U> fn);
@Override
<U> DependentPromise<U> thenApplyAsync(Function<? super T, ? extends U> fn);
@Override
<U> DependentPromise<U> thenApplyAsync(Function<? super T, ? extends U> fn, Executor executor);
@Override
DependentPromise<Void> thenAccept(Consumer<? super T> action);
@Override
DependentPromise<Void> thenAcceptAsync(Consumer<? super T> action);
@Override
DependentPromise<Void> thenAcceptAsync(Consumer<? super T> action, Executor executor);
@Override
DependentPromise<Void> thenRun(Runnable action);
@Override
DependentPromise<Void> thenRunAsync(Runnable action);
@Override
DependentPromise<Void> thenRunAsync(Runnable action, Executor executor);
@Override
<U, V> DependentPromise<V> thenCombine(CompletionStage<? extends U> other,
BiFunction<? super T, ? super U, ? extends V> fn);
@Override
<U, V> DependentPromise<V> thenCombineAsync(CompletionStage<? extends U> other,
BiFunction<? super T, ? super U, ? extends V> fn);
@Override
<U, V> DependentPromise<V> thenCombineAsync(CompletionStage<? extends U> other,
BiFunction<? super T, ? super U, ? extends V> fn,
Executor executor);
@Override
<U> DependentPromise<Void> thenAcceptBoth(CompletionStage<? extends U> other,
BiConsumer<? super T, ? super U> action);
@Override
<U> DependentPromise<Void> thenAcceptBothAsync(CompletionStage<? extends U> other,
BiConsumer<? super T, ? super U> action);
@Override
<U> DependentPromise<Void> thenAcceptBothAsync(CompletionStage<? extends U> other,
BiConsumer<? super T, ? super U> action,
Executor executor);
@Override
DependentPromise<Void> runAfterBoth(CompletionStage<?> other, Runnable action);
@Override
DependentPromise<Void> runAfterBothAsync(CompletionStage<?> other, Runnable action);
@Override
DependentPromise<Void> runAfterBothAsync(CompletionStage<?> other,
Runnable action,
Executor executor);
@Override
<U> DependentPromise<U> applyToEither(CompletionStage<? extends T> other, Function<? super T, U> fn);
@Override
<U> DependentPromise<U> applyToEitherAsync(CompletionStage<? extends T> other, Function<? super T, U> fn);
@Override
<U> DependentPromise<U> applyToEitherAsync(CompletionStage<? extends T> other,
Function<? super T, U> fn,
Executor executor);
@Override
DependentPromise<Void> acceptEither(CompletionStage<? extends T> other, Consumer<? super T> action);
@Override
DependentPromise<Void> acceptEitherAsync(CompletionStage<? extends T> other, Consumer<? super T> action);
@Override
DependentPromise<Void> acceptEitherAsync(CompletionStage<? extends T> other,
Consumer<? super T> action,
Executor executor);
@Override
DependentPromise<Void> runAfterEither(CompletionStage<?> other, Runnable action);
@Override
DependentPromise<Void> runAfterEitherAsync(CompletionStage<?> other, Runnable action);
@Override
DependentPromise<Void> runAfterEitherAsync(CompletionStage<?> other,
Runnable action,
Executor executor);
@Override
<U> DependentPromise<U> thenCompose(Function<? super T, ? extends CompletionStage<U>> fn);
@Override
<U> DependentPromise<U> thenComposeAsync(Function<? super T, ? extends CompletionStage<U>> fn);
@Override
<U> DependentPromise<U> thenComposeAsync(Function<? super T, ? extends CompletionStage<U>> fn, Executor executor);
@Override
DependentPromise<T> exceptionally(Function<Throwable, ? extends T> fn);
@Override
DependentPromise<T> exceptionallyAsync(Function<Throwable, ? extends T> fn);
@Override
DependentPromise<T> exceptionallyAsync(Function<Throwable, ? extends T> fn, Executor executor);
@Override
DependentPromise<T> exceptionallyCompose(Function<Throwable, ? extends CompletionStage<T>> fn);
@Override
DependentPromise<T> exceptionallyComposeAsync(Function<Throwable, ? extends CompletionStage<T>> fn);
@Override
DependentPromise<T> exceptionallyComposeAsync(Function<Throwable, ? extends CompletionStage<T>> fn, Executor executor);
@Override
DependentPromise<T> thenFilter(Predicate<? super T> predicate);
@Override
DependentPromise<T> thenFilter(Predicate<? super T> predicate, Function<? super T, Throwable> errorSupplier);
@Override
DependentPromise<T> thenFilterAsync(Predicate<? super T> predicate);
@Override
DependentPromise<T> thenFilterAsync(Predicate<? super T> predicate, Function<? super T, Throwable> errorSupplier);
@Override
DependentPromise<T> thenFilterAsync(Predicate<? super T> predicate, Executor executor);
@Override
DependentPromise<T> thenFilterAsync(Predicate<? super T> predicate, Function<? super T, Throwable> errorSupplier, Executor executor);
@Override
DependentPromise<T> whenComplete(BiConsumer<? super T, ? super Throwable> action);
@Override
DependentPromise<T> whenCompleteAsync(BiConsumer<? super T, ? super Throwable> action);
@Override
DependentPromise<T> whenCompleteAsync(BiConsumer<? super T, ? super Throwable> action, Executor executor);
@Override
<U> DependentPromise<U> handle(BiFunction<? super T, Throwable, ? extends U> fn);
@Override
<U> DependentPromise<U> handleAsync(BiFunction<? super T, Throwable, ? extends U> fn);
@Override
<U> DependentPromise<U> handleAsync(BiFunction<? super T, Throwable, ? extends U> fn, Executor executor);
}