/* __ *\ ** ________ ___ / / ___ Scala API ** ** / __/ __// _ | / / / _ | (c) 2003-2013, LAMP/EPFL ** ** __\ \/ /__/ __ |/ /__/ __ | http://scala-lang.org/ ** ** /____/\___/_/ |_/____/_/ | | ** ** |/ ** \* */ package scala.collection package parallel.immutable import scala.collection.generic.{GenericParTemplate, CanCombineFrom, ParFactory} import scala.collection.parallel.ParSeqLike import scala.collection.parallel.Combiner import scala.collection.parallel.SeqSplitter import mutable.ArrayBuffer import immutable.Vector import immutable.VectorBuilder import immutable.VectorIterator /** Immutable parallel vectors, based on vectors. * * $paralleliterableinfo * * $sideeffects * * @tparam T the element type of the vector * * @author Aleksandar Prokopec * @since 2.9 * @see [[http://docs.scala-lang.org/overviews/parallel-collections/concrete-parallel-collections.html#parallel_vector Scala's Parallel Collections Library overview]] * section on `ParVector` for more information. * * @define Coll `immutable.ParVector` * @define coll immutable parallel vector */ class ParVector[+T](private[this] val vector: Vector[T]) extends ParSeq[T] with GenericParTemplate[T, ParVector] with ParSeqLike[T, ParVector[T], Vector[T]] with Serializable { override def companion = ParVector def this() = this(Vector()) def apply(idx: Int) = vector.apply(idx) def length = vector.length def splitter: SeqSplitter[T] = { val pit = new ParVectorIterator(vector.startIndex, vector.endIndex) vector.initIterator(pit) pit } override def seq: Vector[T] = vector override def toVector: Vector[T] = vector class ParVectorIterator(_start: Int, _end: Int) extends VectorIterator[T](_start, _end) with SeqSplitter[T] { def remaining: Int = remainingElementCount def dup: SeqSplitter[T] = (new ParVector(remainingVector)).splitter def split: Seq[ParVectorIterator] = { val rem = remaining if (rem >= 2) psplit(rem / 2, rem - rem / 2) else Seq(this) } def psplit(sizes: Int*): Seq[ParVectorIterator] = { var remvector = remainingVector val splitted = new ArrayBuffer[Vector[T]] for (sz <- sizes) { splitted += remvector.take(sz) remvector = remvector.drop(sz) } splitted.map(v => new ParVector(v).splitter.asInstanceOf[ParVectorIterator]) } } } /** $factoryInfo * @define Coll `immutable.ParVector` * @define coll immutable parallel vector */ object ParVector extends ParFactory[ParVector] { implicit def canBuildFrom[T]: CanCombineFrom[Coll, T, ParVector[T]] = new GenericCanCombineFrom[T] def newBuilder[T]: Combiner[T, ParVector[T]] = newCombiner[T] def newCombiner[T]: Combiner[T, ParVector[T]] = new LazyParVectorCombiner[T] // was: with EPC[T, ParVector[T]] } private[immutable] class LazyParVectorCombiner[T] extends Combiner[T, ParVector[T]] { //self: EnvironmentPassingCombiner[T, ParVector[T]] => var sz = 0 val vectors = new ArrayBuffer[VectorBuilder[T]] += new VectorBuilder[T] def size: Int = sz def +=(elem: T): this.type = { vectors.last += elem sz += 1 this } def clear() = { vectors.clear() vectors += new VectorBuilder[T] sz = 0 } def result: ParVector[T] = { val rvb = new VectorBuilder[T] for (vb <- vectors) { rvb ++= vb.result } new ParVector(rvb.result) } def combine[U <: T, NewTo >: ParVector[T]](other: Combiner[U, NewTo]) = if (other eq this) this else { val that = other.asInstanceOf[LazyParVectorCombiner[T]] sz += that.sz vectors ++= that.vectors this } }