Andrei-Pozolotin/Atom.scala

## Atom.scala
/*------------------------------------------------------------------------------
 * MIT License
 *
 * Copyright (c) 2017 Doug Kirk
 *
 * Permission is hereby granted, free of charge, to any person obtaining a copy
 * of this software and associated documentation files (the "Software"), to deal
 * in the Software without restriction, including without limitation the rights
 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 * copies of the Software, and to permit persons to whom the Software is
 * furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included in all
 * copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
 * SOFTWARE.
 *----------------------------------------------------------------------------*/

sealed trait Atom[A] {
  def apply(): A
  def reset(a: A): A
  def swap(f: A => A): A

  def addWatch(watcher: Atom.Watcher[A]): Unit
  def removeWatch(watcher: Atom.Watcher[A]): Unit
}


object Atom {
  import java.util.concurrent.atomic._
  import scala.language.implicitConversions

  def apply[A <: AnyRef](initial: A): Atom[A] = new AtomImpl[A](new AtomicReference[A](initial))
  def apply(initial: Boolean): Atom[Boolean] = new BooleanAtom(new AtomicBoolean(initial))
  def apply(initial: Int): Atom[Int] = new IntAtom(new AtomicInteger(initial))
  def apply(initial: Long): Atom[Long] = new LongAtom(new AtomicLong(initial))

  implicit def atom2value[A](atom: Atom[A]): A = atom.apply

  object BooleanOps {
    def not(b: Boolean) = !b
    def and(left: Boolean)(right: Boolean) = left && right
    def or(left: Boolean)(right: Boolean) = left || right
  }

  object IntOps {
    def inc(i: Int) = i + 1
    def dec(i: Int) = i - 1

    def inc(l: Long) = l + 1
    def dec(l: Long) = l - 1
  }

  object SeqOps {
    def concat[A](tail: Seq[A])(as: Seq[A]) = as ++ tail
    def conj[A](a: A)(as: Seq[A]) = as :+ a
    def disj[A](a: A)(as: Seq[A]) = {
      val (left, right) = as.span(_ != a)
      left ++ right.drop(1)
    }
    def select[A](f: A => Boolean)(as: Seq[A]) = as filter f
    def drop[A](n: Int)(as: Seq[A]) = as drop n
    def take[A](n: Int)(as: Seq[A]) = as take n
  }

  object SetOps {
    def conj[A](a: A)(as: Set[A]) = as + a
    def disj[A](a: A)(as: Set[A]) = as - a
    def union[A](others: Set[A])(as: Set[A]) = as union others
    def difference[A](others: Set[A])(as: Set[A]) = as diff others
    def intersection[A](others: Set[A])(as: Set[A]) = as intersect others
    def select[A](f: A => Boolean)(as: Set[A]) = as filter f
  }

  object MapOps {
    def assoc[K, V](k: K, v: V)(m: Map[K, V]) = m + (k -> v)
    def dissoc[K, V](k: K)(m: Map[K, V]) = m - k
    def select[K, V](f: ((K, V)) => Boolean)(m: Map[K, V]) = m filter f
    def selectKeys[K, V](f: K => Boolean)(m: Map[K, V]) = m filter { case (k, _) => f(k) }
  }


  type Watcher[A] = (Atom[A], /* old */A, /* new */A) => Unit


  //------------------------------------------
  // private implementation

  private class AtomImpl[A](ref: AtomicReference[A]) extends Atom[A] with WatchSupport[A] {
    def apply() = ref.get
    def reset(a: A): A = { ref.set(a); a }
    def swap(f: A => A): A = {
      while (true) {
        val oldvalue = ref.get
        val newvalue = f(oldvalue)
        if (ref.compareAndSet(oldvalue, newvalue)) {
          notifyWatchers(oldvalue, newvalue)
          return newvalue
        }
      }
      // never reached...but we must satisfy the type checker
      throw new IllegalStateException("exiting swap without matching old value")
    }
    override def toString() = s"Atom<$ref>"
  }


  private class BooleanAtom(ref: AtomicBoolean) extends Atom[Boolean] with WatchSupport[Boolean] {
    def apply(): Boolean = ref.get
    def reset(b: Boolean): Boolean = { ref.set(b); b }
    def swap(f: Boolean => Boolean): Boolean = {
      while (true) {
        val oldvalue = ref.get
        val newvalue = f(oldvalue)
        if (ref.compareAndSet(oldvalue, newvalue)) {
          notifyWatchers(oldvalue, newvalue)
          return newvalue
        }
      }
      // never reached...but we must satisfy the type checker
      throw new IllegalStateException("exiting swap without matching old value")
    }
    override def toString() = s"BooleanAtom<$ref>"
  }


  private class IntAtom(ref: AtomicInteger) extends Atom[Int] with WatchSupport[Int] {
    def apply(): Int = ref.get
    def reset(i: Int): Int = { ref.set(i); i }
    def swap(f: Int => Int): Int = {
      while (true) {
        val oldvalue = ref.get
        val newvalue = f(oldvalue)
        if (ref.compareAndSet(oldvalue, newvalue)) {
          notifyWatchers(oldvalue, newvalue)
          return newvalue
        }
      }
      // never reached...but we must satisfy the type checker
      throw new IllegalStateException("exiting swap without matching old value")
    }
    override def toString() = s"IntAtom<$ref>"
  }


  private class LongAtom(ref: AtomicLong) extends Atom[Long] with WatchSupport[Long] {
    def apply(): Long = ref.get
    def reset(l: Long): Long = { ref.set(l); l }
    def swap(f: Long => Long): Long = {
      while (true) {
        val oldvalue = ref.get
        val newvalue = f(oldvalue)
        if (ref.compareAndSet(oldvalue, newvalue)) {
          notifyWatchers(oldvalue, newvalue)
          return newvalue
        }
      }
      // never reached...but we must satisfy the type checker
      throw new IllegalStateException("exiting swap without matching old value")
    }
    override def toString() = s"LongAtom<$ref>"
  }


  sealed trait WatchSupport[A] { self: Atom[A] =>
    private[this] val watchers = new AtomicReference[Set[Watcher[A]]](Set.empty[Watcher[A]])


    final def addWatch(watcher: Watcher[A]): Unit = swapWatchers(_ + watcher)
    final def removeWatch(watcher: Watcher[A]): Unit = swapWatchers(_ - watcher)


    protected def notifyWatchers(oldvalue: A, newvalue: A): Unit =
      watchers.get.foreach { _(self, oldvalue, newvalue) }


    private[this] def swapWatchers(f: Set[Watcher[A]] => Set[Watcher[A]]): Unit = {
      while (true) {
        val oldvalue = watchers.get
        val newvalue = f(oldvalue)
        if (watchers.compareAndSet(oldvalue, newvalue)) {
          return ()
        }
      }
    }
  }
}
	/*------------------------------------------------------------------------------
	* MIT License
	*
	* Copyright (c) 2017 Doug Kirk
	*
	* Permission is hereby granted, free of charge, to any person obtaining a copy
	* of this software and associated documentation files (the "Software"), to deal
	* in the Software without restriction, including without limitation the rights
	* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
	* copies of the Software, and to permit persons to whom the Software is
	* furnished to do so, subject to the following conditions:
	*
	* The above copyright notice and this permission notice shall be included in all
	* copies or substantial portions of the Software.
	*
	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
	* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
	* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
	* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
	* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
	* SOFTWARE.
	----------------------------------------------------------------------------/

	sealed trait Atom[A] {
	def apply(): A
	def reset(a: A): A
	def swap(f: A => A): A

	def addWatch(watcher: Atom.Watcher[A]): Unit
	def removeWatch(watcher: Atom.Watcher[A]): Unit
	}


	object Atom {
	import java.util.concurrent.atomic._
	import scala.language.implicitConversions

	def apply[A <: AnyRef](initial: A): Atom[A] = new AtomImpl[A](new AtomicReference[A](initial))
	def apply(initial: Boolean): Atom[Boolean] = new BooleanAtom(new AtomicBoolean(initial))
	def apply(initial: Int): Atom[Int] = new IntAtom(new AtomicInteger(initial))
	def apply(initial: Long): Atom[Long] = new LongAtom(new AtomicLong(initial))

	implicit def atom2value[A](atom: Atom[A]): A = atom.apply

	object BooleanOps {
	def not(b: Boolean) = !b
	def and(left: Boolean)(right: Boolean) = left && right
	def or(left: Boolean)(right: Boolean) = left \|\| right
	}

	object IntOps {
	def inc(i: Int) = i + 1
	def dec(i: Int) = i - 1

	def inc(l: Long) = l + 1
	def dec(l: Long) = l - 1
	}

	object SeqOps {
	def concat[A](tail: Seq[A])(as: Seq[A]) = as ++ tail
	def conj[A](a: A)(as: Seq[A]) = as :+ a
	def disj[A](a: A)(as: Seq[A]) = {
	val (left, right) = as.span(_ != a)
	left ++ right.drop(1)
	}
	def select[A](f: A => Boolean)(as: Seq[A]) = as filter f
	def drop[A](n: Int)(as: Seq[A]) = as drop n
	def take[A](n: Int)(as: Seq[A]) = as take n
	}

	object SetOps {
	def conj[A](a: A)(as: Set[A]) = as + a
	def disj[A](a: A)(as: Set[A]) = as - a
	def union[A](others: Set[A])(as: Set[A]) = as union others
	def difference[A](others: Set[A])(as: Set[A]) = as diff others
	def intersection[A](others: Set[A])(as: Set[A]) = as intersect others
	def select[A](f: A => Boolean)(as: Set[A]) = as filter f
	}

	object MapOps {
	def assoc[K, V](k: K, v: V)(m: Map[K, V]) = m + (k -> v)
	def dissoc[K, V](k: K)(m: Map[K, V]) = m - k
	def select[K, V](f: ((K, V)) => Boolean)(m: Map[K, V]) = m filter f
	def selectKeys[K, V](f: K => Boolean)(m: Map[K, V]) = m filter { case (k, _) => f(k) }
	}


	type Watcher[A] = (Atom[A], /* old /A, / new */A) => Unit


	//------------------------------------------
	// private implementation

	private class AtomImpl[A](ref: AtomicReference[A]) extends Atom[A] with WatchSupport[A] {
	def apply() = ref.get
	def reset(a: A): A = { ref.set(a); a }
	def swap(f: A => A): A = {
	while (true) {
	val oldvalue = ref.get
	val newvalue = f(oldvalue)
	if (ref.compareAndSet(oldvalue, newvalue)) {
	notifyWatchers(oldvalue, newvalue)
	return newvalue
	}
	}
	// never reached...but we must satisfy the type checker
	throw new IllegalStateException("exiting swap without matching old value")
	}
	override def toString() = s"Atom<$ref>"
	}


	private class BooleanAtom(ref: AtomicBoolean) extends Atom[Boolean] with WatchSupport[Boolean] {
	def apply(): Boolean = ref.get
	def reset(b: Boolean): Boolean = { ref.set(b); b }
	def swap(f: Boolean => Boolean): Boolean = {
	while (true) {
	val oldvalue = ref.get
	val newvalue = f(oldvalue)
	if (ref.compareAndSet(oldvalue, newvalue)) {
	notifyWatchers(oldvalue, newvalue)
	return newvalue
	}
	}
	// never reached...but we must satisfy the type checker
	throw new IllegalStateException("exiting swap without matching old value")
	}
	override def toString() = s"BooleanAtom<$ref>"
	}


	private class IntAtom(ref: AtomicInteger) extends Atom[Int] with WatchSupport[Int] {
	def apply(): Int = ref.get
	def reset(i: Int): Int = { ref.set(i); i }
	def swap(f: Int => Int): Int = {
	while (true) {
	val oldvalue = ref.get
	val newvalue = f(oldvalue)
	if (ref.compareAndSet(oldvalue, newvalue)) {
	notifyWatchers(oldvalue, newvalue)
	return newvalue
	}
	}
	// never reached...but we must satisfy the type checker
	throw new IllegalStateException("exiting swap without matching old value")
	}
	override def toString() = s"IntAtom<$ref>"
	}


	private class LongAtom(ref: AtomicLong) extends Atom[Long] with WatchSupport[Long] {
	def apply(): Long = ref.get
	def reset(l: Long): Long = { ref.set(l); l }
	def swap(f: Long => Long): Long = {
	while (true) {
	val oldvalue = ref.get
	val newvalue = f(oldvalue)
	if (ref.compareAndSet(oldvalue, newvalue)) {
	notifyWatchers(oldvalue, newvalue)
	return newvalue
	}
	}
	// never reached...but we must satisfy the type checker
	throw new IllegalStateException("exiting swap without matching old value")
	}
	override def toString() = s"LongAtom<$ref>"
	}


	sealed trait WatchSupport[A] { self: Atom[A] =>
	private[this] val watchers = new AtomicReference[Set[Watcher[A]]](Set.empty[Watcher[A]])


	final def addWatch(watcher: Watcher[A]): Unit = swapWatchers(_ + watcher)
	final def removeWatch(watcher: Watcher[A]): Unit = swapWatchers(_ - watcher)


	protected def notifyWatchers(oldvalue: A, newvalue: A): Unit =
	watchers.get.foreach { _(self, oldvalue, newvalue) }


	private[this] def swapWatchers(f: Set[Watcher[A]] => Set[Watcher[A]]): Unit = {
	while (true) {
	val oldvalue = watchers.get
	val newvalue = f(oldvalue)
	if (watchers.compareAndSet(oldvalue, newvalue)) {
	return ()
	}
	}
	}
	}
	}