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/**
* Copyright (c) 2016-present, RxJava Contributors.
*
* 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 io.reactivex.schedulers;
import java.util.concurrent.*;
import io.reactivex.Scheduler;
import io.reactivex.annotations.*;
import io.reactivex.internal.schedulers.*;
import io.reactivex.plugins.RxJavaPlugins;
/**
* Static factory methods for returning standard Scheduler instances.
*
* The initial and runtime values of the various scheduler types can be overridden via the
* {@code RxJavaPlugins.setInit(scheduler name)SchedulerHandler()} and
* {@code RxJavaPlugins.set(scheduler name)SchedulerHandler()} respectively.
*
* Supported system properties ({@code System.getProperty()}):
*
* - {@code rx2.io-keep-alive-time} (long): sets the keep-alive time of the {@link #io()} Scheduler workers, default is {@link IoScheduler#KEEP_ALIVE_TIME_DEFAULT}
* - {@code rx2.io-priority} (int): sets the thread priority of the {@link #io()} Scheduler, default is {@link Thread#NORM_PRIORITY}
* - {@code rx2.computation-threads} (int): sets the number of threads in the {@link #computation()} Scheduler, default is the number of available CPUs
* - {@code rx2.computation-priority} (int): sets the thread priority of the {@link #computation()} Scheduler, default is {@link Thread#NORM_PRIORITY}
* - {@code rx2.newthread-priority} (int): sets the thread priority of the {@link #newThread()} Scheduler, default is {@link Thread#NORM_PRIORITY}
* - {@code rx2.single-priority} (int): sets the thread priority of the {@link #single()} Scheduler, default is {@link Thread#NORM_PRIORITY}
* - {@code rx2.purge-enabled} (boolean): enables periodic purging of all Scheduler's backing thread pools, default is false
* - {@code rx2.purge-period-seconds} (int): specifies the periodic purge interval of all Scheduler's backing thread pools, default is 1 second
*
*/
public final class Schedulers {
@NonNull
static final Scheduler SINGLE;
@NonNull
static final Scheduler COMPUTATION;
@NonNull
static final Scheduler IO;
@NonNull
static final Scheduler TRAMPOLINE;
@NonNull
static final Scheduler NEW_THREAD;
static final class SingleHolder {
static final Scheduler DEFAULT = new SingleScheduler();
}
static final class ComputationHolder {
static final Scheduler DEFAULT = new ComputationScheduler();
}
static final class IoHolder {
static final Scheduler DEFAULT = new IoScheduler();
}
static final class NewThreadHolder {
static final Scheduler DEFAULT = new NewThreadScheduler();
}
static {
SINGLE = RxJavaPlugins.initSingleScheduler(new SingleTask());
COMPUTATION = RxJavaPlugins.initComputationScheduler(new ComputationTask());
IO = RxJavaPlugins.initIoScheduler(new IOTask());
TRAMPOLINE = TrampolineScheduler.instance();
NEW_THREAD = RxJavaPlugins.initNewThreadScheduler(new NewThreadTask());
}
/** Utility class. */
private Schedulers() {
throw new IllegalStateException("No instances!");
}
/**
* Returns a default, shared {@link Scheduler} instance intended for computational work.
*
* This can be used for event-loops, processing callbacks and other computational work.
*
* It is not recommended to perform blocking, IO-bound work on this scheduler. Use {@link #io()} instead.
*
* The default instance has a backing pool of single-threaded {@link ScheduledExecutorService} instances equal to
* the number of available processors ({@link java.lang.Runtime#availableProcessors()}) to the Java VM.
*
* Unhandled errors will be delivered to the scheduler Thread's {@link java.lang.Thread.UncaughtExceptionHandler}.
*
* This type of scheduler is less sensitive to leaking {@link io.reactivex.Scheduler.Worker} instances, although
* not disposing a worker that has timed/delayed tasks not cancelled by other means may leak resources and/or
* execute those tasks "unexpectedly".
*
* If the {@link RxJavaPlugins#setFailOnNonBlockingScheduler(boolean)} is set to true, attempting to execute
* operators that block while running on this scheduler will throw an {@link IllegalStateException}.
*
* You can control certain properties of this standard scheduler via system properties that have to be set
* before the {@link Schedulers} class is referenced in your code.
*
Supported system properties ({@code System.getProperty()}):
*
* - {@code rx2.computation-threads} (int): sets the number of threads in the {@link #computation()} Scheduler, default is the number of available CPUs
* - {@code rx2.computation-priority} (int): sets the thread priority of the {@link #computation()} Scheduler, default is {@link Thread#NORM_PRIORITY}
*
*
* The default value of this scheduler can be overridden at initialization time via the
* {@link RxJavaPlugins#setInitComputationSchedulerHandler(io.reactivex.functions.Function)} plugin method.
* Note that due to possible initialization cycles, using any of the other scheduler-returning methods will
* result in a {@code NullPointerException}.
* Once the {@link Schedulers} class has been initialized, you can override the returned {@link Scheduler} instance
* via the {@link RxJavaPlugins#setComputationSchedulerHandler(io.reactivex.functions.Function)} method.
*
* It is possible to create a fresh instance of this scheduler with a custom ThreadFactory, via the
* {@link RxJavaPlugins#createComputationScheduler(ThreadFactory)} method. Note that such custom
* instances require a manual call to {@link Scheduler#shutdown()} to allow the JVM to exit or the
* (J2EE) container to unload properly.
*
Operators on the base reactive classes that use this scheduler are marked with the
* @{@link io.reactivex.annotations.SchedulerSupport SchedulerSupport}({@link io.reactivex.annotations.SchedulerSupport#COMPUTATION COMPUTATION})
* annotation.
* @return a {@link Scheduler} meant for computation-bound work
*/
@NonNull
public static Scheduler computation() {
return RxJavaPlugins.onComputationScheduler(COMPUTATION);
}
/**
* Returns a default, shared {@link Scheduler} instance intended for IO-bound work.
*
* This can be used for asynchronously performing blocking IO.
*
* The implementation is backed by a pool of single-threaded {@link ScheduledExecutorService} instances
* that will try to reuse previously started instances used by the worker
* returned by {@link io.reactivex.Scheduler#createWorker()} but otherwise will start a new backing
* {@link ScheduledExecutorService} instance. Note that this scheduler may create an unbounded number
* of worker threads that can result in system slowdowns or {@code OutOfMemoryError}. Therefore, for casual uses
* or when implementing an operator, the Worker instances must be disposed via {@link io.reactivex.Scheduler.Worker#dispose()}.
*
* It is not recommended to perform computational work on this scheduler. Use {@link #computation()} instead.
*
* Unhandled errors will be delivered to the scheduler Thread's {@link java.lang.Thread.UncaughtExceptionHandler}.
*
* You can control certain properties of this standard scheduler via system properties that have to be set
* before the {@link Schedulers} class is referenced in your code.
*
Supported system properties ({@code System.getProperty()}):
*
* - {@code rx2.io-keep-alive-time} (long): sets the keep-alive time of the {@link #io()} Scheduler workers, default is {@link IoScheduler#KEEP_ALIVE_TIME_DEFAULT}
* - {@code rx2.io-priority} (int): sets the thread priority of the {@link #io()} Scheduler, default is {@link Thread#NORM_PRIORITY}
*
*
* The default value of this scheduler can be overridden at initialization time via the
* {@link RxJavaPlugins#setInitIoSchedulerHandler(io.reactivex.functions.Function)} plugin method.
* Note that due to possible initialization cycles, using any of the other scheduler-returning methods will
* result in a {@code NullPointerException}.
* Once the {@link Schedulers} class has been initialized, you can override the returned {@link Scheduler} instance
* via the {@link RxJavaPlugins#setIoSchedulerHandler(io.reactivex.functions.Function)} method.
*
* It is possible to create a fresh instance of this scheduler with a custom ThreadFactory, via the
* {@link RxJavaPlugins#createIoScheduler(ThreadFactory)} method. Note that such custom
* instances require a manual call to {@link Scheduler#shutdown()} to allow the JVM to exit or the
* (J2EE) container to unload properly.
*
Operators on the base reactive classes that use this scheduler are marked with the
* @{@link io.reactivex.annotations.SchedulerSupport SchedulerSupport}({@link io.reactivex.annotations.SchedulerSupport#IO IO})
* annotation.
* @return a {@link Scheduler} meant for IO-bound work
*/
@NonNull
public static Scheduler io() {
return RxJavaPlugins.onIoScheduler(IO);
}
/**
* Returns a default, shared {@link Scheduler} instance whose {@link io.reactivex.Scheduler.Worker}
* instances queue work and execute them in a FIFO manner on one of the participating threads.
*
* The default implementation's {@link Scheduler#scheduleDirect(Runnable)} methods execute the tasks on the current thread
* without any queueing and the timed overloads use blocking sleep as well.
*
* Note that this scheduler can't be reliably used to return the execution of
* tasks to the "main" thread. Such behavior requires a blocking-queueing scheduler currently not provided
* by RxJava itself but may be found in external libraries.
*
* This scheduler can't be overridden via an {@link RxJavaPlugins} method.
* @return a {@link Scheduler} that queues work on the current thread
*/
@NonNull
public static Scheduler trampoline() {
return TRAMPOLINE;
}
/**
* Returns a default, shared {@link Scheduler} instance that creates a new {@link Thread} for each unit of work.
*
* The default implementation of this scheduler creates a new, single-threaded {@link ScheduledExecutorService} for
* each invocation of the {@link Scheduler#scheduleDirect(Runnable)} (plus its overloads) and {@link Scheduler#createWorker()}
* methods, thus an unbounded number of worker threads may be created that can
* result in system slowdowns or {@code OutOfMemoryError}. Therefore, for casual uses or when implementing an operator,
* the Worker instances must be disposed via {@link io.reactivex.Scheduler.Worker#dispose()}.
*
* Unhandled errors will be delivered to the scheduler Thread's {@link java.lang.Thread.UncaughtExceptionHandler}.
*
* You can control certain properties of this standard scheduler via system properties that have to be set
* before the {@link Schedulers} class is referenced in your code.
*
Supported system properties ({@code System.getProperty()}):
*
* - {@code rx2.newthread-priority} (int): sets the thread priority of the {@link #newThread()} Scheduler, default is {@link Thread#NORM_PRIORITY}
*
*
* The default value of this scheduler can be overridden at initialization time via the
* {@link RxJavaPlugins#setInitNewThreadSchedulerHandler(io.reactivex.functions.Function)} plugin method.
* Note that due to possible initialization cycles, using any of the other scheduler-returning methods will
* result in a {@code NullPointerException}.
* Once the {@link Schedulers} class has been initialized, you can override the returned {@link Scheduler} instance
* via the {@link RxJavaPlugins#setNewThreadSchedulerHandler(io.reactivex.functions.Function)} method.
*
* It is possible to create a fresh instance of this scheduler with a custom ThreadFactory, via the
* {@link RxJavaPlugins#createNewThreadScheduler(ThreadFactory)} method. Note that such custom
* instances require a manual call to {@link Scheduler#shutdown()} to allow the JVM to exit or the
* (J2EE) container to unload properly.
*
Operators on the base reactive classes that use this scheduler are marked with the
* @{@link io.reactivex.annotations.SchedulerSupport SchedulerSupport}({@link io.reactivex.annotations.SchedulerSupport#NEW_THREAD NEW_TRHEAD})
* annotation.
* @return a {@link Scheduler} that creates new threads
*/
@NonNull
public static Scheduler newThread() {
return RxJavaPlugins.onNewThreadScheduler(NEW_THREAD);
}
/**
* Returns a default, shared, single-thread-backed {@link Scheduler} instance for work
* requiring strongly-sequential execution on the same background thread.
*
* Uses:
*
* - event loop
* - support Schedulers.from(Executor) and from(ExecutorService) with delayed scheduling
* - support benchmarks that pipeline data from some thread to another thread and
* avoid core-bashing of computation's round-robin nature
*
*
* Unhandled errors will be delivered to the scheduler Thread's {@link java.lang.Thread.UncaughtExceptionHandler}.
*
* This type of scheduler is less sensitive to leaking {@link io.reactivex.Scheduler.Worker} instances, although
* not disposing a worker that has timed/delayed tasks not cancelled by other means may leak resources and/or
* execute those tasks "unexpectedly".
*
* If the {@link RxJavaPlugins#setFailOnNonBlockingScheduler(boolean)} is set to true, attempting to execute
* operators that block while running on this scheduler will throw an {@link IllegalStateException}.
*
* You can control certain properties of this standard scheduler via system properties that have to be set
* before the {@link Schedulers} class is referenced in your code.
*
Supported system properties ({@code System.getProperty()}):
*
* - {@code rx2.single-priority} (int): sets the thread priority of the {@link #single()} Scheduler, default is {@link Thread#NORM_PRIORITY}
*
*
* The default value of this scheduler can be overridden at initialization time via the
* {@link RxJavaPlugins#setInitSingleSchedulerHandler(io.reactivex.functions.Function)} plugin method.
* Note that due to possible initialization cycles, using any of the other scheduler-returning methods will
* result in a {@code NullPointerException}.
* Once the {@link Schedulers} class has been initialized, you can override the returned {@link Scheduler} instance
* via the {@link RxJavaPlugins#setSingleSchedulerHandler(io.reactivex.functions.Function)} method.
*
* It is possible to create a fresh instance of this scheduler with a custom ThreadFactory, via the
* {@link RxJavaPlugins#createSingleScheduler(ThreadFactory)} method. Note that such custom
* instances require a manual call to {@link Scheduler#shutdown()} to allow the JVM to exit or the
* (J2EE) container to unload properly.
*
Operators on the base reactive classes that use this scheduler are marked with the
* @{@link io.reactivex.annotations.SchedulerSupport SchedulerSupport}({@link io.reactivex.annotations.SchedulerSupport#SINGLE SINGLE})
* annotation.
* @return a {@link Scheduler} that shares a single backing thread.
* @since 2.0
*/
@NonNull
public static Scheduler single() {
return RxJavaPlugins.onSingleScheduler(SINGLE);
}
/**
* Wraps an {@link Executor} into a new Scheduler instance and delegates {@code schedule()}
* calls to it.
*
* If the provided executor doesn't support any of the more specific standard Java executor
* APIs, cancelling tasks scheduled by this scheduler can't be interrupted when they are
* executing but only prevented from running prior to that. In addition, tasks scheduled with
* a time delay or periodically will use the {@link #single()} scheduler for the timed waiting
* before posting the actual task to the given executor.
*
* Tasks submitted to the {@link Scheduler.Worker} of this {@code Scheduler} are also not interruptible. Use the
* {@link #from(Executor, boolean)} overload to enable task interruption via this wrapper.
*
* If the provided executor supports the standard Java {@link ExecutorService} API,
* cancelling tasks scheduled by this scheduler can be cancelled/interrupted by calling
* {@link io.reactivex.disposables.Disposable#dispose()}. In addition, tasks scheduled with
* a time delay or periodically will use the {@link #single()} scheduler for the timed waiting
* before posting the actual task to the given executor.
*
* If the provided executor supports the standard Java {@link ScheduledExecutorService} API,
* cancelling tasks scheduled by this scheduler can be cancelled/interrupted by calling
* {@link io.reactivex.disposables.Disposable#dispose()}. In addition, tasks scheduled with
* a time delay or periodically will use the provided executor. Note, however, if the provided
* {@code ScheduledExecutorService} instance is not single threaded, tasks scheduled
* with a time delay close to each other may end up executing in different order than
* the original schedule() call was issued. This limitation may be lifted in a future patch.
*
* Starting, stopping and restarting this scheduler is not supported (no-op) and the provided
* executor's lifecycle must be managed externally:
*
* ExecutorService exec = Executors.newSingleThreadedExecutor();
* try {
* Scheduler scheduler = Schedulers.from(exec);
* Flowable.just(1)
* .subscribeOn(scheduler)
* .map(v -> v + 1)
* .observeOn(scheduler)
* .blockingSubscribe(System.out::println);
* } finally {
* exec.shutdown();
* }
*
*
* This type of scheduler is less sensitive to leaking {@link Scheduler.Worker} instances, although
* not disposing a worker that has timed/delayed tasks not cancelled by other means may leak resources and/or
* execute those tasks "unexpectedly".
*
* Note that this method returns a new {@link Scheduler} instance, even for the same {@link Executor} instance.
* @param executor
* the executor to wrap
* @return the new Scheduler wrapping the Executor
*/
@NonNull
public static Scheduler from(@NonNull Executor executor) {
return new ExecutorScheduler(executor, false);
}
/**
* Wraps an {@link Executor} into a new Scheduler instance and delegates {@code schedule()}
* calls to it.
*
* The tasks scheduled by the returned {@link Scheduler} and its {@link Scheduler.Worker}
* can be optionally interrupted.
*
* If the provided executor doesn't support any of the more specific standard Java executor
* APIs, tasks scheduled with a time delay or periodically will use the
* {@link #single()} scheduler for the timed waiting
* before posting the actual task to the given executor.
*
* If the provided executor supports the standard Java {@link ExecutorService} API,
* canceling tasks scheduled by this scheduler can be cancelled/interrupted by calling
* {@link io.reactivex.disposables.Disposable#dispose()}. In addition, tasks scheduled with
* a time delay or periodically will use the {@link #single()} scheduler for the timed waiting
* before posting the actual task to the given executor.
*
* If the provided executor supports the standard Java {@link ScheduledExecutorService} API,
* canceling tasks scheduled by this scheduler can be cancelled/interrupted by calling
* {@link io.reactivex.disposables.Disposable#dispose()}. In addition, tasks scheduled with
* a time delay or periodically will use the provided executor. Note, however, if the provided
* {@code ScheduledExecutorService} instance is not single threaded, tasks scheduled
* with a time delay close to each other may end up executing in different order than
* the original schedule() call was issued. This limitation may be lifted in a future patch.
*
* Starting, stopping and restarting this scheduler is not supported (no-op) and the provided
* executor's lifecycle must be managed externally:
*
* ExecutorService exec = Executors.newSingleThreadedExecutor();
* try {
* Scheduler scheduler = Schedulers.from(exec, true);
* Flowable.just(1)
* .subscribeOn(scheduler)
* .map(v -> v + 1)
* .observeOn(scheduler)
* .blockingSubscribe(System.out::println);
* } finally {
* exec.shutdown();
* }
*
*
* This type of scheduler is less sensitive to leaking {@link Scheduler.Worker} instances, although
* not disposing a worker that has timed/delayed tasks not cancelled by other means may leak resources and/or
* execute those tasks "unexpectedly".
*
* Note that this method returns a new {@link Scheduler} instance, even for the same {@link Executor} instance.
* @param executor
* the executor to wrap
* @param interruptibleWorker if {@code true} the tasks submitted to the {@link Scheduler.Worker} will
* be interrupted when the task is disposed.
* @return the new Scheduler wrapping the Executor
* @since 2.2.6 - experimental
*/
@NonNull
@Experimental
public static Scheduler from(@NonNull Executor executor, boolean interruptibleWorker) {
return new ExecutorScheduler(executor, interruptibleWorker);
}
/**
* Shuts down the standard Schedulers.
*
The operation is idempotent and thread-safe.
*/
public static void shutdown() {
computation().shutdown();
io().shutdown();
newThread().shutdown();
single().shutdown();
trampoline().shutdown();
SchedulerPoolFactory.shutdown();
}
/**
* Starts the standard Schedulers.
*
The operation is idempotent and thread-safe.
*/
public static void start() {
computation().start();
io().start();
newThread().start();
single().start();
trampoline().start();
SchedulerPoolFactory.start();
}
static final class IOTask implements Callable {
@Override
public Scheduler call() throws Exception {
return IoHolder.DEFAULT;
}
}
static final class NewThreadTask implements Callable {
@Override
public Scheduler call() throws Exception {
return NewThreadHolder.DEFAULT;
}
}
static final class SingleTask implements Callable {
@Override
public Scheduler call() throws Exception {
return SingleHolder.DEFAULT;
}
}
static final class ComputationTask implements Callable {
@Override
public Scheduler call() throws Exception {
return ComputationHolder.DEFAULT;
}
}
}