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/*
 * Copyright (C) 2007 The Guava Authors
 *
 * 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 com.google.common.util.concurrent;

import static com.google.common.base.Preconditions.checkNotNull;

import java.util.concurrent.CancellationException;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.Executor;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import java.util.concurrent.locks.AbstractQueuedSynchronizer;

import javax.annotation.Nullable;

/**
 * An abstract implementation of the {@link ListenableFuture} interface. This
 * class is preferable to {@link java.util.concurrent.FutureTask} for two
 * reasons: It implements {@code ListenableFuture}, and it does not implement
 * {@code Runnable}. (If you want a {@code Runnable} implementation of {@code
 * ListenableFuture}, create a {@link ListenableFutureTask}, or submit your
 * tasks to a {@link ListeningExecutorService}.)
 *
 * 

This class implements all methods in {@code ListenableFuture}. * Subclasses should provide a way to set the result of the computation through * the protected methods {@link #set(Object)} and * {@link #setException(Throwable)}. Subclasses may also override {@link * #interruptTask()}, which will be invoked automatically if a call to {@link * #cancel(boolean) cancel(true)} succeeds in canceling the future. * *

{@code AbstractFuture} uses an {@link AbstractQueuedSynchronizer} to deal * with concurrency issues and guarantee thread safety. * *

The state changing methods all return a boolean indicating success or * failure in changing the future's state. Valid states are running, * completed, failed, or cancelled. * *

This class uses an {@link ExecutionList} to guarantee that all registered * listeners will be executed, either when the future finishes or, for listeners * that are added after the future completes, immediately. * {@code Runnable}-{@code Executor} pairs are stored in the execution list but * are not necessarily executed in the order in which they were added. (If a * listener is added after the Future is complete, it will be executed * immediately, even if earlier listeners have not been executed. Additionally, * executors need not guarantee FIFO execution, or different listeners may run * in different executors.) * * @author Sven Mawson * @since 1.0 */ public abstract class AbstractFuture implements ListenableFuture { /** Synchronization control for AbstractFutures. */ private final Sync sync = new Sync(); // The execution list to hold our executors. private final ExecutionList executionList = new ExecutionList(); /** * Constructor for use by subclasses. */ protected AbstractFuture() {} /* * Improve the documentation of when InterruptedException is thrown. Our * behavior matches the JDK's, but the JDK's documentation is misleading. */ /** * {@inheritDoc} * *

The default {@link AbstractFuture} implementation throws {@code * InterruptedException} if the current thread is interrupted before or during * the call, even if the value is already available. * * @throws InterruptedException if the current thread was interrupted before * or during the call (optional but recommended). * @throws CancellationException {@inheritDoc} */ @Override public V get(long timeout, TimeUnit unit) throws InterruptedException, TimeoutException, ExecutionException { return sync.get(unit.toNanos(timeout)); } /* * Improve the documentation of when InterruptedException is thrown. Our * behavior matches the JDK's, but the JDK's documentation is misleading. */ /** * {@inheritDoc} * *

The default {@link AbstractFuture} implementation throws {@code * InterruptedException} if the current thread is interrupted before or during * the call, even if the value is already available. * * @throws InterruptedException if the current thread was interrupted before * or during the call (optional but recommended). * @throws CancellationException {@inheritDoc} */ @Override public V get() throws InterruptedException, ExecutionException { return sync.get(); } @Override public boolean isDone() { return sync.isDone(); } @Override public boolean isCancelled() { return sync.isCancelled(); } @Override public boolean cancel(boolean mayInterruptIfRunning) { if (!sync.cancel(mayInterruptIfRunning)) { return false; } executionList.execute(); if (mayInterruptIfRunning) { interruptTask(); } return true; } /** * Subclasses can override this method to implement interruption of the * future's computation. The method is invoked automatically by a successful * call to {@link #cancel(boolean) cancel(true)}. * *

The default implementation does nothing. * * @since 10.0 */ protected void interruptTask() { } /** * Returns true if this future was cancelled with {@code * mayInterruptIfRunning} set to {@code true}. * * @since 14.0 */ protected final boolean wasInterrupted() { return sync.wasInterrupted(); } /** * {@inheritDoc} * * @since 10.0 */ @Override public void addListener(Runnable listener, Executor exec) { executionList.add(listener, exec); } /** * Subclasses should invoke this method to set the result of the computation * to {@code value}. This will set the state of the future to * {@link AbstractFuture.Sync#COMPLETED} and invoke the listeners if the * state was successfully changed. * * @param value the value that was the result of the task. * @return true if the state was successfully changed. */ protected boolean set(@Nullable V value) { boolean result = sync.set(value); if (result) { executionList.execute(); } return result; } /** * Subclasses should invoke this method to set the result of the computation * to an error, {@code throwable}. This will set the state of the future to * {@link AbstractFuture.Sync#COMPLETED} and invoke the listeners if the * state was successfully changed. * * @param throwable the exception that the task failed with. * @return true if the state was successfully changed. */ protected boolean setException(Throwable throwable) { boolean result = sync.setException(checkNotNull(throwable)); if (result) { executionList.execute(); } return result; } /** *

Following the contract of {@link AbstractQueuedSynchronizer} we create a * private subclass to hold the synchronizer. This synchronizer is used to * implement the blocking and waiting calls as well as to handle state changes * in a thread-safe manner. The current state of the future is held in the * Sync state, and the lock is released whenever the state changes to * {@link #COMPLETED}, {@link #CANCELLED}, or {@link #INTERRUPTED} * *

To avoid races between threads doing release and acquire, we transition * to the final state in two steps. One thread will successfully CAS from * RUNNING to COMPLETING, that thread will then set the result of the * computation, and only then transition to COMPLETED, CANCELLED, or * INTERRUPTED. * *

We don't use the integer argument passed between acquire methods so we * pass around a -1 everywhere. */ static final class Sync extends AbstractQueuedSynchronizer { private static final long serialVersionUID = 0L; /* Valid states. */ static final int RUNNING = 0; static final int COMPLETING = 1; static final int COMPLETED = 2; static final int CANCELLED = 4; static final int INTERRUPTED = 8; private V value; private Throwable exception; /* * Acquisition succeeds if the future is done, otherwise it fails. */ @Override protected int tryAcquireShared(int ignored) { if (isDone()) { return 1; } return -1; } /* * We always allow a release to go through, this means the state has been * successfully changed and the result is available. */ @Override protected boolean tryReleaseShared(int finalState) { setState(finalState); return true; } /** * Blocks until the task is complete or the timeout expires. Throws a * {@link TimeoutException} if the timer expires, otherwise behaves like * {@link #get()}. */ V get(long nanos) throws TimeoutException, CancellationException, ExecutionException, InterruptedException { // Attempt to acquire the shared lock with a timeout. if (!tryAcquireSharedNanos(-1, nanos)) { throw new TimeoutException("Timeout waiting for task."); } return getValue(); } /** * Blocks until {@link #complete(Object, Throwable, int)} has been * successfully called. Throws a {@link CancellationException} if the task * was cancelled, or a {@link ExecutionException} if the task completed with * an error. */ V get() throws CancellationException, ExecutionException, InterruptedException { // Acquire the shared lock allowing interruption. acquireSharedInterruptibly(-1); return getValue(); } /** * Implementation of the actual value retrieval. Will return the value * on success, an exception on failure, a cancellation on cancellation, or * an illegal state if the synchronizer is in an invalid state. */ private V getValue() throws CancellationException, ExecutionException { int state = getState(); switch (state) { case COMPLETED: if (exception != null) { throw new ExecutionException(exception); } else { return value; } case CANCELLED: case INTERRUPTED: throw cancellationExceptionWithCause( "Task was cancelled.", exception); default: throw new IllegalStateException( "Error, synchronizer in invalid state: " + state); } } /** * Checks if the state is {@link #COMPLETED}, {@link #CANCELLED}, or {@link * INTERRUPTED}. */ boolean isDone() { return (getState() & (COMPLETED | CANCELLED | INTERRUPTED)) != 0; } /** * Checks if the state is {@link #CANCELLED} or {@link #INTERRUPTED}. */ boolean isCancelled() { return (getState() & (CANCELLED | INTERRUPTED)) != 0; } /** * Checks if the state is {@link #INTERRUPTED}. */ boolean wasInterrupted() { return getState() == INTERRUPTED; } /** * Transition to the COMPLETED state and set the value. */ boolean set(@Nullable V v) { return complete(v, null, COMPLETED); } /** * Transition to the COMPLETED state and set the exception. */ boolean setException(Throwable t) { return complete(null, t, COMPLETED); } /** * Transition to the CANCELLED or INTERRUPTED state. */ boolean cancel(boolean interrupt) { return complete(null, null, interrupt ? INTERRUPTED : CANCELLED); } /** * Implementation of completing a task. Either {@code v} or {@code t} will * be set but not both. The {@code finalState} is the state to change to * from {@link #RUNNING}. If the state is not in the RUNNING state we * return {@code false} after waiting for the state to be set to a valid * final state ({@link #COMPLETED}, {@link #CANCELLED}, or {@link * #INTERRUPTED}). * * @param v the value to set as the result of the computation. * @param t the exception to set as the result of the computation. * @param finalState the state to transition to. */ private boolean complete(@Nullable V v, @Nullable Throwable t, int finalState) { boolean doCompletion = compareAndSetState(RUNNING, COMPLETING); if (doCompletion) { // If this thread successfully transitioned to COMPLETING, set the value // and exception and then release to the final state. this.value = v; // Don't actually construct a CancellationException until necessary. this.exception = ((finalState & (CANCELLED | INTERRUPTED)) != 0) ? new CancellationException("Future.cancel() was called.") : t; releaseShared(finalState); } else if (getState() == COMPLETING) { // If some other thread is currently completing the future, block until // they are done so we can guarantee completion. acquireShared(-1); } return doCompletion; } } static final CancellationException cancellationExceptionWithCause( @Nullable String message, @Nullable Throwable cause) { CancellationException exception = new CancellationException(message); exception.initCause(cause); return exception; } }





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