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android / platform / prebuilts / fullsdk / sources / android-29 / refs/heads/androidx-recyclerview-recyclerview-selection-release / . / java / util / concurrent / Executors.java
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/*
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
/*
* 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 dalvik.annotation.optimization.ReachabilitySensitive;
import java.security.AccessControlContext;
import java.security.AccessControlException;
import java.security.AccessController;
import java.security.PrivilegedAction;
import java.security.PrivilegedActionException;
import java.security.PrivilegedExceptionAction;
import java.util.Collection;
import java.util.List;
import java.util.concurrent.atomic.AtomicInteger;
import sun.security.util.SecurityConstants;
// BEGIN android-note
// removed security manager docs
// END android-note
/**
* Factory and utility methods for {@link Executor}, {@link
* ExecutorService}, {@link ScheduledExecutorService}, {@link
* ThreadFactory}, and {@link Callable} classes defined in this
* package. This class supports the following kinds of methods:
*
* <ul>
* <li>Methods that create and return an {@link ExecutorService}
* set up with commonly useful configuration settings.
* <li>Methods that create and return a {@link ScheduledExecutorService}
* set up with commonly useful configuration settings.
* <li>Methods that create and return a "wrapped" ExecutorService, that
* disables reconfiguration by making implementation-specific methods
* inaccessible.
* <li>Methods that create and return a {@link ThreadFactory}
* that sets newly created threads to a known state.
* <li>Methods that create and return a {@link Callable}
* out of other closure-like forms, so they can be used
* in execution methods requiring {@code Callable}.
* </ul>
*
* @since 1.5
* @author Doug Lea
*/
public class Executors {
/**
* Creates a thread pool that reuses a fixed number of threads
* operating off a shared unbounded queue. At any point, at most
* {@code nThreads} threads will be active processing tasks.
* If additional tasks are submitted when all threads are active,
* they will wait in the queue until a thread is available.
* If any thread terminates due to a failure during execution
* prior to shutdown, a new one will take its place if needed to
* execute subsequent tasks. The threads in the pool will exist
* until it is explicitly {@link ExecutorService#shutdown shutdown}.
*
* @param nThreads the number of threads in the pool
* @return the newly created thread pool
* @throws IllegalArgumentException if {@code nThreads <= 0}
*/
public static ExecutorService newFixedThreadPool(int nThreads) {
return new ThreadPoolExecutor(nThreads, nThreads,
0L, TimeUnit.MILLISECONDS,
new LinkedBlockingQueue<Runnable>());
}
/**
* Creates a thread pool that maintains enough threads to support
* the given parallelism level, and may use multiple queues to
* reduce contention. The parallelism level corresponds to the
* maximum number of threads actively engaged in, or available to
* engage in, task processing. The actual number of threads may
* grow and shrink dynamically. A work-stealing pool makes no
* guarantees about the order in which submitted tasks are
* executed.
*
* @param parallelism the targeted parallelism level
* @return the newly created thread pool
* @throws IllegalArgumentException if {@code parallelism <= 0}
* @since 1.8
*/
public static ExecutorService newWorkStealingPool(int parallelism) {
return new ForkJoinPool
(parallelism,
ForkJoinPool.defaultForkJoinWorkerThreadFactory,
null, true);
}
/**
* Creates a work-stealing thread pool using the number of
* {@linkplain Runtime#availableProcessors available processors}
* as its target parallelism level.
*
* @return the newly created thread pool
* @see #newWorkStealingPool(int)
* @since 1.8
*/
public static ExecutorService newWorkStealingPool() {
return new ForkJoinPool
(Runtime.getRuntime().availableProcessors(),
ForkJoinPool.defaultForkJoinWorkerThreadFactory,
null, true);
}
/**
* Creates a thread pool that reuses a fixed number of threads
* operating off a shared unbounded queue, using the provided
* ThreadFactory to create new threads when needed. At any point,
* at most {@code nThreads} threads will be active processing
* tasks. If additional tasks are submitted when all threads are
* active, they will wait in the queue until a thread is
* available. If any thread terminates due to a failure during
* execution prior to shutdown, a new one will take its place if
* needed to execute subsequent tasks. The threads in the pool will
* exist until it is explicitly {@link ExecutorService#shutdown
* shutdown}.
*
* @param nThreads the number of threads in the pool
* @param threadFactory the factory to use when creating new threads
* @return the newly created thread pool
* @throws NullPointerException if threadFactory is null
* @throws IllegalArgumentException if {@code nThreads <= 0}
*/
public static ExecutorService newFixedThreadPool(int nThreads, ThreadFactory threadFactory) {
return new ThreadPoolExecutor(nThreads, nThreads,
0L, TimeUnit.MILLISECONDS,
new LinkedBlockingQueue<Runnable>(),
threadFactory);
}
/**
* Creates an Executor that uses a single worker thread operating
* off an unbounded queue. (Note however that if this single
* thread terminates due to a failure during execution prior to
* shutdown, a new one will take its place if needed to execute
* subsequent tasks.) Tasks are guaranteed to execute
* sequentially, and no more than one task will be active at any
* given time. Unlike the otherwise equivalent
* {@code newFixedThreadPool(1)} the returned executor is
* guaranteed not to be reconfigurable to use additional threads.
*
* @return the newly created single-threaded Executor
*/
public static ExecutorService newSingleThreadExecutor() {
return new FinalizableDelegatedExecutorService
(new ThreadPoolExecutor(1, 1,
0L, TimeUnit.MILLISECONDS,
new LinkedBlockingQueue<Runnable>()));
}
/**
* Creates an Executor that uses a single worker thread operating
* off an unbounded queue, and uses the provided ThreadFactory to
* create a new thread when needed. Unlike the otherwise
* equivalent {@code newFixedThreadPool(1, threadFactory)} the
* returned executor is guaranteed not to be reconfigurable to use
* additional threads.
*
* @param threadFactory the factory to use when creating new
* threads
*
* @return the newly created single-threaded Executor
* @throws NullPointerException if threadFactory is null
*/
public static ExecutorService newSingleThreadExecutor(ThreadFactory threadFactory) {
return new FinalizableDelegatedExecutorService
(new ThreadPoolExecutor(1, 1,
0L, TimeUnit.MILLISECONDS,
new LinkedBlockingQueue<Runnable>(),
threadFactory));
}
/**
* Creates a thread pool that creates new threads as needed, but
* will reuse previously constructed threads when they are
* available. These pools will typically improve the performance
* of programs that execute many short-lived asynchronous tasks.
* Calls to {@code execute} will reuse previously constructed
* threads if available. If no existing thread is available, a new
* thread will be created and added to the pool. Threads that have
* not been used for sixty seconds are terminated and removed from
* the cache. Thus, a pool that remains idle for long enough will
* not consume any resources. Note that pools with similar
* properties but different details (for example, timeout parameters)
* may be created using {@link ThreadPoolExecutor} constructors.
*
* @return the newly created thread pool
*/
public static ExecutorService newCachedThreadPool() {
return new ThreadPoolExecutor(0, Integer.MAX_VALUE,
60L, TimeUnit.SECONDS,
new SynchronousQueue<Runnable>());
}
/**
* Creates a thread pool that creates new threads as needed, but
* will reuse previously constructed threads when they are
* available, and uses the provided
* ThreadFactory to create new threads when needed.
* @param threadFactory the factory to use when creating new threads
* @return the newly created thread pool
* @throws NullPointerException if threadFactory is null
*/
public static ExecutorService newCachedThreadPool(ThreadFactory threadFactory) {
return new ThreadPoolExecutor(0, Integer.MAX_VALUE,
60L, TimeUnit.SECONDS,
new SynchronousQueue<Runnable>(),
threadFactory);
}
/**
* Creates a single-threaded executor that can schedule commands
* to run after a given delay, or to execute periodically.
* (Note however that if this single
* thread terminates due to a failure during execution prior to
* shutdown, a new one will take its place if needed to execute
* subsequent tasks.) Tasks are guaranteed to execute
* sequentially, and no more than one task will be active at any
* given time. Unlike the otherwise equivalent
* {@code newScheduledThreadPool(1)} the returned executor is
* guaranteed not to be reconfigurable to use additional threads.
* @return the newly created scheduled executor
*/
public static ScheduledExecutorService newSingleThreadScheduledExecutor() {
return new DelegatedScheduledExecutorService
(new ScheduledThreadPoolExecutor(1));
}
/**
* Creates a single-threaded executor that can schedule commands
* to run after a given delay, or to execute periodically. (Note
* however that if this single thread terminates due to a failure
* during execution prior to shutdown, a new one will take its
* place if needed to execute subsequent tasks.) Tasks are
* guaranteed to execute sequentially, and no more than one task
* will be active at any given time. Unlike the otherwise
* equivalent {@code newScheduledThreadPool(1, threadFactory)}
* the returned executor is guaranteed not to be reconfigurable to
* use additional threads.
* @param threadFactory the factory to use when creating new
* threads
* @return a newly created scheduled executor
* @throws NullPointerException if threadFactory is null
*/
public static ScheduledExecutorService newSingleThreadScheduledExecutor(ThreadFactory threadFactory) {
return new DelegatedScheduledExecutorService
(new ScheduledThreadPoolExecutor(1, threadFactory));
}
/**
* Creates a thread pool that can schedule commands to run after a
* given delay, or to execute periodically.
* @param corePoolSize the number of threads to keep in the pool,
* even if they are idle
* @return a newly created scheduled thread pool
* @throws IllegalArgumentException if {@code corePoolSize < 0}
*/
public static ScheduledExecutorService newScheduledThreadPool(int corePoolSize) {
return new ScheduledThreadPoolExecutor(corePoolSize);
}
/**
* Creates a thread pool that can schedule commands to run after a
* given delay, or to execute periodically.
* @param corePoolSize the number of threads to keep in the pool,
* even if they are idle
* @param threadFactory the factory to use when the executor
* creates a new thread
* @return a newly created scheduled thread pool
* @throws IllegalArgumentException if {@code corePoolSize < 0}
* @throws NullPointerException if threadFactory is null
*/
public static ScheduledExecutorService newScheduledThreadPool(
int corePoolSize, ThreadFactory threadFactory) {
return new ScheduledThreadPoolExecutor(corePoolSize, threadFactory);
}
/**
* Returns an object that delegates all defined {@link
* ExecutorService} methods to the given executor, but not any
* other methods that might otherwise be accessible using
* casts. This provides a way to safely "freeze" configuration and
* disallow tuning of a given concrete implementation.
* @param executor the underlying implementation
* @return an {@code ExecutorService} instance
* @throws NullPointerException if executor null
*/
public static ExecutorService unconfigurableExecutorService(ExecutorService executor) {
if (executor == null)
throw new NullPointerException();
return new DelegatedExecutorService(executor);
}
/**
* Returns an object that delegates all defined {@link
* ScheduledExecutorService} methods to the given executor, but
* not any other methods that might otherwise be accessible using
* casts. This provides a way to safely "freeze" configuration and
* disallow tuning of a given concrete implementation.
* @param executor the underlying implementation
* @return a {@code ScheduledExecutorService} instance
* @throws NullPointerException if executor null
*/
public static ScheduledExecutorService unconfigurableScheduledExecutorService(ScheduledExecutorService executor) {
if (executor == null)
throw new NullPointerException();
return new DelegatedScheduledExecutorService(executor);
}
// Android-changed: Removed references to SecurityManager from javadoc.
/**
* Returns a default thread factory used to create new threads.
* This factory creates all new threads used by an Executor in the
* same {@link ThreadGroup}. Each new
* thread is created as a non-daemon thread with priority set to
* the smaller of {@code Thread.NORM_PRIORITY} and the maximum
* priority permitted in the thread group. New threads have names
* accessible via {@link Thread#getName} of
* <em>pool-N-thread-M</em>, where <em>N</em> is the sequence
* number of this factory, and <em>M</em> is the sequence number
* of the thread created by this factory.
* @return a thread factory
*/
public static ThreadFactory defaultThreadFactory() {
return new DefaultThreadFactory();
}
// Android-changed: Dropped documentation for legacy security code.
/**
* Legacy security code; do not use.
*/
public static ThreadFactory privilegedThreadFactory() {
return new PrivilegedThreadFactory();
}
/**
* Returns a {@link Callable} object that, when
* called, runs the given task and returns the given result. This
* can be useful when applying methods requiring a
* {@code Callable} to an otherwise resultless action.
* @param task the task to run
* @param result the result to return
* @param <T> the type of the result
* @return a callable object
* @throws NullPointerException if task null
*/
public static <T> Callable<T> callable(Runnable task, T result) {
if (task == null)
throw new NullPointerException();
return new RunnableAdapter<T>(task, result);
}
/**
* Returns a {@link Callable} object that, when
* called, runs the given task and returns {@code null}.
* @param task the task to run
* @return a callable object
* @throws NullPointerException if task null
*/
public static Callable<Object> callable(Runnable task) {
if (task == null)
throw new NullPointerException();
return new RunnableAdapter<Object>(task, null);
}
/**
* Returns a {@link Callable} object that, when
* called, runs the given privileged action and returns its result.
* @param action the privileged action to run
* @return a callable object
* @throws NullPointerException if action null
*/
public static Callable<Object> callable(final PrivilegedAction<?> action) {
if (action == null)
throw new NullPointerException();
return new Callable<Object>() {
public Object call() { return action.run(); }};
}
/**
* Returns a {@link Callable} object that, when
* called, runs the given privileged exception action and returns
* its result.
* @param action the privileged exception action to run
* @return a callable object
* @throws NullPointerException if action null
*/
public static Callable<Object> callable(final PrivilegedExceptionAction<?> action) {
if (action == null)
throw new NullPointerException();
return new Callable<Object>() {
public Object call() throws Exception { return action.run(); }};
}
// Android-changed: Dropped documentation for legacy security code.
/**
* Legacy security code; do not use.
*/
public static <T> Callable<T> privilegedCallable(Callable<T> callable) {
if (callable == null)
throw new NullPointerException();
return new PrivilegedCallable<T>(callable);
}
// Android-changed: Dropped documentation for legacy security code.
/**
* Legacy security code; do not use.
*/
public static <T> Callable<T> privilegedCallableUsingCurrentClassLoader(Callable<T> callable) {
if (callable == null)
throw new NullPointerException();
return new PrivilegedCallableUsingCurrentClassLoader<T>(callable);
}
// Non-public classes supporting the public methods
/**
* A callable that runs given task and returns given result.
*/
private static final class RunnableAdapter<T> implements Callable<T> {
private final Runnable task;
private final T result;
RunnableAdapter(Runnable task, T result) {
this.task = task;
this.result = result;
}
public T call() {
task.run();
return result;
}
}
/**
* A callable that runs under established access control settings.
*/
private static final class PrivilegedCallable<T> implements Callable<T> {
final Callable<T> task;
final AccessControlContext acc;
PrivilegedCallable(Callable<T> task) {
this.task = task;
this.acc = AccessController.getContext();
}
public T call() throws Exception {
try {
return AccessController.doPrivileged(
new PrivilegedExceptionAction<T>() {
public T run() throws Exception {
return task.call();
}
}, acc);
} catch (PrivilegedActionException e) {
throw e.getException();
}
}
}
/**
* A callable that runs under established access control settings and
* current ClassLoader.
*/
private static final class PrivilegedCallableUsingCurrentClassLoader<T>
implements Callable<T> {
final Callable<T> task;
final AccessControlContext acc;
final ClassLoader ccl;
PrivilegedCallableUsingCurrentClassLoader(Callable<T> task) {
// Android-removed: System.getSecurityManager always returns null.
/*
SecurityManager sm = System.getSecurityManager();
if (sm != null) {
// Calls to getContextClassLoader from this class
// never trigger a security check, but we check
// whether our callers have this permission anyways.
sm.checkPermission(SecurityConstants.GET_CLASSLOADER_PERMISSION);
// Whether setContextClassLoader turns out to be necessary
// or not, we fail fast if permission is not available.
sm.checkPermission(new RuntimePermission("setContextClassLoader"));
}
*/
this.task = task;
this.acc = AccessController.getContext();
this.ccl = Thread.currentThread().getContextClassLoader();
}
public T call() throws Exception {
try {
return AccessController.doPrivileged(
new PrivilegedExceptionAction<T>() {
public T run() throws Exception {
Thread t = Thread.currentThread();
ClassLoader cl = t.getContextClassLoader();
if (ccl == cl) {
return task.call();
} else {
t.setContextClassLoader(ccl);
try {
return task.call();
} finally {
t.setContextClassLoader(cl);
}
}
}
}, acc);
} catch (PrivilegedActionException e) {
throw e.getException();
}
}
}
/**
* The default thread factory.
*/
private static class DefaultThreadFactory implements ThreadFactory {
private static final AtomicInteger poolNumber = new AtomicInteger(1);
private final ThreadGroup group;
private final AtomicInteger threadNumber = new AtomicInteger(1);
private final String namePrefix;
DefaultThreadFactory() {
SecurityManager s = System.getSecurityManager();
group = (s != null) ? s.getThreadGroup() :
Thread.currentThread().getThreadGroup();
namePrefix = "pool-" +
poolNumber.getAndIncrement() +
"-thread-";
}
public Thread newThread(Runnable r) {
Thread t = new Thread(group, r,
namePrefix + threadNumber.getAndIncrement(),
0);
if (t.isDaemon())
t.setDaemon(false);
if (t.getPriority() != Thread.NORM_PRIORITY)
t.setPriority(Thread.NORM_PRIORITY);
return t;
}
}
/**
* Thread factory capturing access control context and class loader.
*/
private static class PrivilegedThreadFactory extends DefaultThreadFactory {
final AccessControlContext acc;
final ClassLoader ccl;
PrivilegedThreadFactory() {
super();
// Android-removed: System.getSecurityManager always returns null.
/*
SecurityManager sm = System.getSecurityManager();
if (sm != null) {
// Calls to getContextClassLoader from this class
// never trigger a security check, but we check
// whether our callers have this permission anyways.
sm.checkPermission(SecurityConstants.GET_CLASSLOADER_PERMISSION);
// Fail fast
sm.checkPermission(new RuntimePermission("setContextClassLoader"));
}
*/
this.acc = AccessController.getContext();
this.ccl = Thread.currentThread().getContextClassLoader();
}
public Thread newThread(final Runnable r) {
return super.newThread(new Runnable() {
public void run() {
AccessController.doPrivileged(new PrivilegedAction<Void>() {
public Void run() {
Thread.currentThread().setContextClassLoader(ccl);
r.run();
return null;
}
}, acc);
}
});
}
}
/**
* A wrapper class that exposes only the ExecutorService methods
* of an ExecutorService implementation.
*/
private static class DelegatedExecutorService
extends AbstractExecutorService {
// Android-added: @ReachabilitySensitive
// Needed for FinalizableDelegatedExecutorService below.
@ReachabilitySensitive
private final ExecutorService e;
DelegatedExecutorService(ExecutorService executor) { e = executor; }
public void execute(Runnable command) { e.execute(command); }
public void shutdown() { e.shutdown(); }
public List<Runnable> shutdownNow() { return e.shutdownNow(); }
public boolean isShutdown() { return e.isShutdown(); }
public boolean isTerminated() { return e.isTerminated(); }
public boolean awaitTermination(long timeout, TimeUnit unit)
throws InterruptedException {
return e.awaitTermination(timeout, unit);
}
public Future<?> submit(Runnable task) {
return e.submit(task);
}
public <T> Future<T> submit(Callable<T> task) {
return e.submit(task);
}
public <T> Future<T> submit(Runnable task, T result) {
return e.submit(task, result);
}
public <T> List<Future<T>> invokeAll(Collection<? extends Callable<T>> tasks)
throws InterruptedException {
return e.invokeAll(tasks);
}
public <T> List<Future<T>> invokeAll(Collection<? extends Callable<T>> tasks,
long timeout, TimeUnit unit)
throws InterruptedException {
return e.invokeAll(tasks, timeout, unit);
}
public <T> T invokeAny(Collection<? extends Callable<T>> tasks)
throws InterruptedException, ExecutionException {
return e.invokeAny(tasks);
}
public <T> T invokeAny(Collection<? extends Callable<T>> tasks,
long timeout, TimeUnit unit)
throws InterruptedException, ExecutionException, TimeoutException {
return e.invokeAny(tasks, timeout, unit);
}
}
private static class FinalizableDelegatedExecutorService
extends DelegatedExecutorService {
FinalizableDelegatedExecutorService(ExecutorService executor) {
super(executor);
}
protected void finalize() {
super.shutdown();
}
}
/**
* A wrapper class that exposes only the ScheduledExecutorService
* methods of a ScheduledExecutorService implementation.
*/
private static class DelegatedScheduledExecutorService
extends DelegatedExecutorService
implements ScheduledExecutorService {
private final ScheduledExecutorService e;
DelegatedScheduledExecutorService(ScheduledExecutorService executor) {
super(executor);
e = executor;
}
public ScheduledFuture<?> schedule(Runnable command, long delay, TimeUnit unit) {
return e.schedule(command, delay, unit);
}
public <V> ScheduledFuture<V> schedule(Callable<V> callable, long delay, TimeUnit unit) {
return e.schedule(callable, delay, unit);
}
public ScheduledFuture<?> scheduleAtFixedRate(Runnable command, long initialDelay, long period, TimeUnit unit) {
return e.scheduleAtFixedRate(command, initialDelay, period, unit);
}
public ScheduledFuture<?> scheduleWithFixedDelay(Runnable command, long initialDelay, long delay, TimeUnit unit) {
return e.scheduleWithFixedDelay(command, initialDelay, delay, unit);
}
}
/** Cannot instantiate. */
private Executors() {}
}