All Downloads are FREE. Search and download functionalities are using the official Maven repository.

akka.dispatch.Future.scala Maven / Gradle / Ivy

There is a newer version: 2.2.6.3
Show newest version
/*
 * Copyright (C) 2009-2019 Lightbend Inc. 
 */

package akka.dispatch

import scala.runtime.{ AbstractPartialFunction, BoxedUnit }
import akka.japi.{ Procedure, Function => JFunc, Option => JOption }

import scala.concurrent.{ ExecutionContext, ExecutionContextExecutor, ExecutionContextExecutorService, Future, Promise }
import java.lang.{ Iterable => JIterable }
import java.util.{ LinkedList => JLinkedList }
import java.util.concurrent.{ Callable, Executor, ExecutorService }

import scala.util.{ Failure, Success, Try }
import java.util.concurrent.CompletionStage
import java.util.concurrent.CompletableFuture

import akka.compat
import akka.util.unused
import com.github.ghik.silencer.silent

/**
 * ExecutionContexts is the Java API for ExecutionContexts
 */
object ExecutionContexts {

  /**
   * Returns a new ExecutionContextExecutor which will delegate execution to the underlying Executor,
   * and which will use the default error reporter.
   *
   * @param executor the Executor which will be used for the ExecutionContext
   * @return a new ExecutionContext
   */
  def fromExecutor(executor: Executor): ExecutionContextExecutor =
    ExecutionContext.fromExecutor(executor)

  /**
   * Returns a new ExecutionContextExecutor which will delegate execution to the underlying Executor,
   * and which will use the provided error reporter.
   *
   * @param executor the Executor which will be used for the ExecutionContext
   * @param errorReporter a Procedure that will log any exceptions passed to it
   * @return a new ExecutionContext
   */
  def fromExecutor(executor: Executor, errorReporter: Procedure[Throwable]): ExecutionContextExecutor =
    ExecutionContext.fromExecutor(executor, errorReporter.apply)

  /**
   * Returns a new ExecutionContextExecutorService which will delegate execution to the underlying ExecutorService,
   * and which will use the default error reporter.
   *
   * @param executorService the ExecutorService which will be used for the ExecutionContext
   * @return a new ExecutionContext
   */
  def fromExecutorService(executorService: ExecutorService): ExecutionContextExecutorService =
    ExecutionContext.fromExecutorService(executorService)

  /**
   * Returns a new ExecutionContextExecutorService which will delegate execution to the underlying ExecutorService,
   * and which will use the provided error reporter.
   *
   * @param executorService the ExecutorService which will be used for the ExecutionContext
   * @param errorReporter a Procedure that will log any exceptions passed to it
   * @return a new ExecutionContext
   */
  def fromExecutorService(
      executorService: ExecutorService,
      errorReporter: Procedure[Throwable]): ExecutionContextExecutorService =
    ExecutionContext.fromExecutorService(executorService, errorReporter.apply)

  /**
   * @return a reference to the global ExecutionContext
   */
  def global(): ExecutionContextExecutor = ExecutionContext.global

  /**
   * WARNING: Not A General Purpose ExecutionContext!
   *
   * This is an execution context which runs everything on the calling thread.
   * It is very useful for actions which are known to be non-blocking and
   * non-throwing in order to save a round-trip to the thread pool.
   */
  private[akka] object sameThreadExecutionContext extends ExecutionContext with BatchingExecutor {
    override protected def unbatchedExecute(runnable: Runnable): Unit = runnable.run()
    override protected def resubmitOnBlock: Boolean = false // No point since we execute on same thread
    override def reportFailure(t: Throwable): Unit =
      throw new IllegalStateException("exception in sameThreadExecutionContext", t)
  }
}

/**
 * Futures is the Java API for Futures and Promises
 */
object Futures {
  import akka.util.ccompat.JavaConverters._

  /**
   * Starts an asynchronous computation and returns a `Future` object with the result of that computation.
   *
   * The result becomes available once the asynchronous computation is completed.
   *
   * @param body     the asynchronous computation
   * @param executor the execution context on which the future is run
   * @return         the `Future` holding the result of the computation
   */
  def future[T](body: Callable[T], executor: ExecutionContext): Future[T] = Future(body.call)(executor)

  /**
   * Creates a promise object which can be completed with a value.
   *
   * @return         the newly created `Promise` object
   */
  def promise[T](): Promise[T] = Promise[T]()

  /**
   * creates an already completed Promise with the specified exception
   */
  def failed[T](exception: Throwable): Future[T] = Future.failed(exception)

  /**
   * Creates an already completed Promise with the specified result
   */
  def successful[T](result: T): Future[T] = Future.successful(result)

  /**
   * Creates an already completed CompletionStage with the specified exception
   */
  def failedCompletionStage[T](ex: Throwable): CompletionStage[T] = {
    val f = CompletableFuture.completedFuture[T](null.asInstanceOf[T])
    f.obtrudeException(ex)
    f
  }

  /**
   * Returns a Future that will hold the optional result of the first Future with a result that matches the predicate
   */
  def find[T <: AnyRef](
      futures: JIterable[Future[T]],
      predicate: JFunc[T, java.lang.Boolean],
      executor: ExecutionContext): Future[JOption[T]] = {
    implicit val ec = executor
    compat.Future.find[T](futures.asScala)(predicate.apply(_))(executor).map(JOption.fromScalaOption)
  }

  /**
   * Returns a Future to the result of the first future in the list that is completed
   */
  def firstCompletedOf[T <: AnyRef](futures: JIterable[Future[T]], executor: ExecutionContext): Future[T] =
    Future.firstCompletedOf(futures.asScala)(executor)

  /**
   * A non-blocking fold over the specified futures, with the start value of the given zero.
   * The fold is performed on the thread where the last future is completed,
   * the result will be the first failure of any of the futures, or any failure in the actual fold,
   * or the result of the fold.
   */
  def fold[T <: AnyRef, R <: AnyRef](
      zero: R,
      futures: JIterable[Future[T]],
      fun: akka.japi.Function2[R, T, R],
      executor: ExecutionContext): Future[R] =
    compat.Future.fold(futures.asScala)(zero)(fun.apply)(executor)

  /**
   * Reduces the results of the supplied futures and binary function.
   */
  def reduce[T <: AnyRef, R >: T](
      futures: JIterable[Future[T]],
      fun: akka.japi.Function2[R, T, R],
      executor: ExecutionContext): Future[R] =
    compat.Future.reduce[T, R](futures.asScala)(fun.apply)(executor)

  /**
   * Simple version of [[#traverse]]. Transforms a JIterable[Future[A]] into a Future[JIterable[A]].
   * Useful for reducing many Futures into a single Future.
   */
  def sequence[A](in: JIterable[Future[A]], executor: ExecutionContext): Future[JIterable[A]] = {
    implicit val d = executor
    in.asScala.foldLeft(Future(new JLinkedList[A]())) { (fr, fa) =>
      for (r <- fr; a <- fa) yield { r.add(a); r }
    }
  }

  /**
   * Transforms a JIterable[A] into a Future[JIterable[B]] using the provided Function A => Future[B].
   * This is useful for performing a parallel map. For example, to apply a function to all items of a list
   * in parallel.
   */
  def traverse[A, B](in: JIterable[A], fn: JFunc[A, Future[B]], executor: ExecutionContext): Future[JIterable[B]] = {
    implicit val d = executor
    in.asScala.foldLeft(Future(new JLinkedList[B]())) { (fr, a) =>
      val fb = fn(a)
      for (r <- fr; b <- fb) yield { r.add(b); r }
    }
  }
}

/**
 * This class contains bridge classes between Scala and Java.
 * Internal use only.
 */
object japi {
  @deprecated("Do not use this directly, use subclasses of this", "2.0")
  class CallbackBridge[-T] extends AbstractPartialFunction[T, BoxedUnit] {
    override final def isDefinedAt(t: T): Boolean = true
    override final def apply(t: T): BoxedUnit = {
      internal(t)
      BoxedUnit.UNIT
    }
    protected def internal(@unused result: T): Unit = ()
  }

  @deprecated("Do not use this directly, use 'Recover'", "2.0")
  class RecoverBridge[+T] extends AbstractPartialFunction[Throwable, T] {
    override final def isDefinedAt(t: Throwable): Boolean = true
    override final def apply(t: Throwable): T = internal(t)
    protected def internal(@unused result: Throwable): T = null.asInstanceOf[T]
  }

  @deprecated("Do not use this directly, use subclasses of this", "2.0")
  class BooleanFunctionBridge[-T] extends scala.Function1[T, Boolean] {
    override final def apply(t: T): Boolean = internal(t)
    protected def internal(@unused result: T): Boolean = false
  }

  @deprecated("Do not use this directly, use subclasses of this", "2.0")
  class UnitFunctionBridge[-T] extends (T => BoxedUnit) {
    final def apply$mcLJ$sp(l: Long): BoxedUnit = { internal(l.asInstanceOf[T]); BoxedUnit.UNIT }
    final def apply$mcLI$sp(i: Int): BoxedUnit = { internal(i.asInstanceOf[T]); BoxedUnit.UNIT }
    final def apply$mcLF$sp(f: Float): BoxedUnit = { internal(f.asInstanceOf[T]); BoxedUnit.UNIT }
    final def apply$mcLD$sp(d: Double): BoxedUnit = { internal(d.asInstanceOf[T]); BoxedUnit.UNIT }
    override final def apply(t: T): BoxedUnit = { internal(t); BoxedUnit.UNIT }
    protected def internal(@unused result: T): Unit = ()
  }
}

/**
 * Callback for when a Future is completed successfully
 * SAM (Single Abstract Method) class
 *
 * Java API
 */
@silent("deprecated")
abstract class OnSuccess[-T] extends japi.CallbackBridge[T] {
  protected final override def internal(result: T) = onSuccess(result)

  /**
   * This method will be invoked once when/if a Future that this callback is registered on
   * becomes successfully completed
   */
  @throws(classOf[Throwable])
  def onSuccess(result: T): Unit
}

/**
 * Callback for when a Future is completed with a failure
 * SAM (Single Abstract Method) class
 *
 * Java API
 */
@silent("deprecated")
abstract class OnFailure extends japi.CallbackBridge[Throwable] {
  protected final override def internal(failure: Throwable) = onFailure(failure)

  /**
   * This method will be invoked once when/if a Future that this callback is registered on
   * becomes completed with a failure
   */
  @throws(classOf[Throwable])
  def onFailure(failure: Throwable): Unit
}

/**
 * Callback for when a Future is completed with either failure or a success
 * SAM (Single Abstract Method) class
 *
 * Java API
 */
@silent("deprecated")
abstract class OnComplete[-T] extends japi.CallbackBridge[Try[T]] {
  protected final override def internal(value: Try[T]): Unit = value match {
    case Failure(t) => onComplete(t, null.asInstanceOf[T])
    case Success(r) => onComplete(null, r)
  }

  /**
   * This method will be invoked once when/if a Future that this callback is registered on
   * becomes completed with a failure or a success.
   * In the case of success then "failure" will be null, and in the case of failure the "success" will be null.
   */
  @throws(classOf[Throwable])
  def onComplete(failure: Throwable, success: T): Unit
}

/**
 * Callback for the Future.recover operation that conditionally turns failures into successes.
 *
 * SAM (Single Abstract Method) class
 *
 * Java API
 */
@silent("deprecated")
abstract class Recover[+T] extends japi.RecoverBridge[T] {
  protected final override def internal(result: Throwable): T = recover(result)

  /**
   * This method will be invoked once when/if the Future this recover callback is registered on
   * becomes completed with a failure.
   *
   * @return a successful value for the passed in failure
   * Throws the passed in failure to propagate it.
   *
   * Java API
   */
  @throws(classOf[Throwable])
  def recover(failure: Throwable): T
}

/**
 * Java API (not recommended):
 * Callback for the Future.filter operation that creates a new Future which will
 * conditionally contain the success of another Future.
 *
 * Unfortunately it is not possible to express the type of a Scala filter in
 * Java: Function1[T, Boolean], where “Boolean” is the primitive type. It is
 * possible to use `Future.filter` by constructing such a function indirectly:
 *
 * {{{
 * import static akka.dispatch.Filter.filterOf;
 * Future f = ...;
 * f.filter(filterOf(new Function() {
 *   @Override
 *   public Boolean apply(String s) {
 *     ...
 *   }
 * }));
 * }}}
 *
 * However, `Future.filter` exists mainly to support Scala’s for-comprehensions,
 * thus Java users should prefer `Future.map`, translating non-matching values
 * to failure cases.
 */
object Filter {
  def filterOf[T](f: akka.japi.Function[T, java.lang.Boolean]): (T => Boolean) =
    new Function1[T, Boolean] { def apply(result: T): Boolean = f(result).booleanValue() }
}

/**
 * Callback for the Future.foreach operation that will be invoked if the Future that this callback
 * is registered on becomes completed with a success. This method is essentially the same operation
 * as onSuccess.
 *
 * SAM (Single Abstract Method) class
 * Java API
 */
@silent("deprecated")
abstract class Foreach[-T] extends japi.UnitFunctionBridge[T] {
  override final def internal(t: T): Unit = each(t)

  /**
   * This method will be invoked once when/if a Future that this callback is registered on
   * becomes successfully completed
   */
  @throws(classOf[Throwable])
  def each(result: T): Unit
}

/**
 * Callback for the Future.map and Future.flatMap operations that will be invoked
 * if the Future that this callback is registered on becomes completed with a success.
 * This callback is the equivalent of an akka.japi.Function
 *
 * Override "apply" normally, or "checkedApply" if you need to throw checked exceptions.
 *
 * SAM (Single Abstract Method) class
 *
 * Java API
 */
abstract class Mapper[-T, +R] extends scala.runtime.AbstractFunction1[T, R] {

  /**
   * Override this method to perform the map operation, by default delegates to "checkedApply"
   * which by default throws an UnsupportedOperationException.
   */
  def apply(parameter: T): R = checkedApply(parameter)

  /**
   * Override this method if you need to throw checked exceptions
   *
   * Throws UnsupportedOperation by default.
   */
  @throws(classOf[Throwable])
  def checkedApply(@unused parameter: T): R =
    throw new UnsupportedOperationException("Mapper.checkedApply has not been implemented")
}




© 2015 - 2024 Weber Informatics LLC | Privacy Policy