scala.collection.parallel.ParMapLike.scala Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of scala-library Show documentation
Show all versions of scala-library Show documentation
Standard library for the Scala Programming Language
The newest version!
/* __ *\
** ________ ___ / / ___ Scala API **
** / __/ __// _ | / / / _ | (c) 2003-2013, LAMP/EPFL **
** __\ \/ /__/ __ |/ /__/ __ | http://scala-lang.org/ **
** /____/\___/_/ |_/____/_/ | | **
** |/ **
\* */
package scala
package collection.parallel
import scala.collection.MapLike
import scala.collection.GenMapLike
import scala.collection.Map
import scala.collection.mutable.Builder
import scala.annotation.unchecked.uncheckedVariance
import scala.collection.generic.IdleSignalling
import scala.collection.generic.Signalling
/** A template trait for mutable parallel maps. This trait is to be mixed in
* with concrete parallel maps to override the representation type.
*
* $sideeffects
*
* @tparam K the key type of the map
* @tparam V the value type of the map
*
* @author Aleksandar Prokopec
* @since 2.9
*/
trait ParMapLike[K,
+V,
+Repr <: ParMapLike[K, V, Repr, Sequential] with ParMap[K, V],
+Sequential <: Map[K, V] with MapLike[K, V, Sequential]]
extends GenMapLike[K, V, Repr]
with ParIterableLike[(K, V), Repr, Sequential]
{
self =>
def default(key: K): V = throw new NoSuchElementException("key not found: " + key)
def empty: Repr
def apply(key: K) = get(key) match {
case Some(v) => v
case None => default(key)
}
def getOrElse[U >: V](key: K, default: => U): U = get(key) match {
case Some(v) => v
case None => default
}
def contains(key: K): Boolean = get(key).isDefined
def isDefinedAt(key: K): Boolean = contains(key)
private[this] def keysIterator(s: IterableSplitter[(K, V)] @uncheckedVariance): IterableSplitter[K] =
new IterableSplitter[K] {
i =>
val iter = s
def hasNext = iter.hasNext
def next() = iter.next()._1
def split = {
val ss = iter.split.map(keysIterator(_))
ss.foreach { _.signalDelegate = i.signalDelegate }
ss
}
def remaining = iter.remaining
def dup = keysIterator(iter.dup)
}
def keysIterator: IterableSplitter[K] = keysIterator(splitter)
private[this] def valuesIterator(s: IterableSplitter[(K, V)] @uncheckedVariance): IterableSplitter[V] =
new IterableSplitter[V] {
i =>
val iter = s
def hasNext = iter.hasNext
def next() = iter.next()._2
def split = {
val ss = iter.split.map(valuesIterator(_))
ss.foreach { _.signalDelegate = i.signalDelegate }
ss
}
def remaining = iter.remaining
def dup = valuesIterator(iter.dup)
}
def valuesIterator: IterableSplitter[V] = valuesIterator(splitter)
protected class DefaultKeySet extends ParSet[K] {
def contains(key : K) = self.contains(key)
def splitter = keysIterator(self.splitter)
def + (elem: K): ParSet[K] =
(ParSet[K]() ++ this + elem).asInstanceOf[ParSet[K]] // !!! concrete overrides abstract problem
def - (elem: K): ParSet[K] =
(ParSet[K]() ++ this - elem).asInstanceOf[ParSet[K]] // !!! concrete overrides abstract problem
override def size = self.size
override def foreach[S](f: K => S) = for ((k, v) <- self) f(k)
override def seq = self.seq.keySet
}
protected class DefaultValuesIterable extends ParIterable[V] {
def splitter = valuesIterator(self.splitter)
override def size = self.size
override def foreach[S](f: V => S) = for ((k, v) <- self) f(v)
def seq = self.seq.values
}
def keySet: ParSet[K] = new DefaultKeySet
def keys: ParIterable[K] = keySet
def values: ParIterable[V] = new DefaultValuesIterable
def filterKeys(p: K => Boolean): ParMap[K, V] = new ParMap[K, V] {
lazy val filtered = self.filter(kv => p(kv._1))
override def foreach[S](f: ((K, V)) => S): Unit = for (kv <- self) if (p(kv._1)) f(kv)
def splitter = filtered.splitter
override def contains(key: K) = self.contains(key) && p(key)
def get(key: K) = if (!p(key)) None else self.get(key)
def seq = self.seq.filterKeys(p)
def size = filtered.size
def + [U >: V](kv: (K, U)): ParMap[K, U] = ParMap[K, U]() ++ this + kv
def - (key: K): ParMap[K, V] = ParMap[K, V]() ++ this - key
}
def mapValues[S](f: V => S): ParMap[K, S] = new ParMap[K, S] {
override def foreach[Q](g: ((K, S)) => Q): Unit = for ((k, v) <- self) g((k, f(v)))
def splitter = self.splitter.map(kv => (kv._1, f(kv._2)))
override def size = self.size
override def contains(key: K) = self.contains(key)
def get(key: K) = self.get(key).map(f)
def seq = self.seq.mapValues(f)
def + [U >: S](kv: (K, U)): ParMap[K, U] = ParMap[K, U]() ++ this + kv
def - (key: K): ParMap[K, S] = ParMap[K, S]() ++ this - key
}
// note - should not override toMap (could be mutable)
}
© 2015 - 2024 Weber Informatics LLC | Privacy Policy