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Standard library for the Scala Programming Language
/* __ *\
** ________ ___ / / ___ Scala API **
** / __/ __// _ | / / / _ | (c) 2003-2013, LAMP/EPFL **
** __\ \/ /__/ __ |/ /__/ __ | http://scala-lang.org/ **
** /____/\___/_/ |_/____/_/ | | **
** |/ **
\* */
package scala.collection
import generic._
import mutable.{ Builder, ArrayBuffer }
import TraversableView.NoBuilder
import scala.annotation.migration
import scala.language.implicitConversions
trait ViewMkString[+A] {
self: Traversable[A] =>
// It is necessary to use thisSeq rather than toSeq to avoid cycles in the
// eager evaluation of vals in transformed view subclasses, see #4558.
protected[this] def thisSeq: Seq[A] = (new ArrayBuffer[A] ++= self).result
// Have to overload all three to work around #4299. The overload
// is because mkString should force a view but toString should not.
override def mkString: String = mkString("")
override def mkString(sep: String): String = mkString("", sep, "")
override def mkString(start: String, sep: String, end: String): String = {
thisSeq.addString(new StringBuilder(), start, sep, end).toString
}
override def addString(b: StringBuilder, start: String, sep: String, end: String): StringBuilder = {
var first = true
b append start
for (x <- self) {
if (first) first = false else b append sep
b append x
}
b append end
b
}
}
/** A template trait for non-strict views of traversable collections.
* $traversableViewInfo
*
* Implementation note: Methods such as `map` or `flatMap` on this view will not invoke the implicitly passed
* `Builder` factory, but will return a new view directly, to preserve by-name behavior.
* The new view is then cast to the factory's result type. This means that every `CanBuildFrom`
* that takes a `View` as its `From` type parameter must yield the same view (or a generic
* superclass of it) as its result parameter. If that assumption is broken, cast errors might result.
*
* @define viewInfo
* A view is a lazy version of some collection. Collection transformers such as
* `map` or `filter` or `++` do not traverse any elements when applied on a view.
* Instead they create a new view which simply records that fact that the operation
* needs to be applied. The collection elements are accessed, and the view operations are applied,
* when a non-view result is needed, or when the `force` method is called on a view.
* @define traversableViewInfo
* $viewInfo
*
* All views for traversable collections are defined by creating a new `foreach` method.
*
* @author Martin Odersky
* @version 2.8
* @since 2.8
* @tparam A the element type of the view
* @tparam Coll the type of the underlying collection containing the elements.
* @tparam This the type of the view itself
*/
trait TraversableViewLike[+A,
+Coll,
+This <: TraversableView[A, Coll] with TraversableViewLike[A, Coll, This]]
extends Traversable[A] with TraversableLike[A, This] with ViewMkString[A] with GenTraversableViewLike[A, Coll, This]
{
self =>
override protected[this] def newBuilder: Builder[A, This] =
throw new UnsupportedOperationException(this+".newBuilder")
protected def underlying: Coll
protected[this] def viewIdentifier: String = ""
protected[this] def viewIdString: String = ""
override def stringPrefix = "TraversableView"
def force[B >: A, That](implicit bf: CanBuildFrom[Coll, B, That]) = {
val b = bf(underlying)
b ++= this
b.result()
}
trait Transformed[+B] extends TraversableView[B, Coll] with super.Transformed[B] {
def foreach[U](f: B => U): Unit
// Methods whose standard implementations use "isEmpty" need to be rewritten
// for views, else they will end up traversing twice in a situation like:
// xs.view.flatMap(f).headOption
override def headOption: Option[B] = {
for (x <- this)
return Some(x)
None
}
override def lastOption: Option[B] = {
// (Should be) better than allocating a Some for every element.
var empty = true
var result: B = null.asInstanceOf[B]
for (x <- this) {
empty = false
result = x
}
if (empty) None else Some(result)
}
// XXX: As yet not dealt with, tail and init both call isEmpty.
override def stringPrefix = self.stringPrefix
override def toString = viewToString
}
/** Explicit instantiation of the `Transformed` trait to reduce class file size in subclasses. */
private[collection] abstract class AbstractTransformed[+B] extends Traversable[B] with Transformed[B]
trait EmptyView extends Transformed[Nothing] with super.EmptyView
/** A fall back which forces everything into a vector and then applies an operation
* on it. Used for those operations which do not naturally lend themselves to a view
*/
trait Forced[B] extends Transformed[B] with super.Forced[B]
trait Sliced extends Transformed[A] with super.Sliced
trait Mapped[B] extends Transformed[B] with super.Mapped[B]
trait FlatMapped[B] extends Transformed[B] with super.FlatMapped[B]
trait Appended[B >: A] extends Transformed[B] with super.Appended[B]
trait Filtered extends Transformed[A] with super.Filtered
trait TakenWhile extends Transformed[A] with super.TakenWhile
trait DroppedWhile extends Transformed[A] with super.DroppedWhile
override def ++[B >: A, That](xs: GenTraversableOnce[B])(implicit bf: CanBuildFrom[This, B, That]): That = {
newAppended(xs.seq.toTraversable).asInstanceOf[That]
// was: if (bf.isInstanceOf[ByPassCanBuildFrom]) newAppended(that).asInstanceOf[That]
// else super.++[B, That](that)(bf)
}
override def map[B, That](f: A => B)(implicit bf: CanBuildFrom[This, B, That]): That = {
newMapped(f).asInstanceOf[That]
// val b = bf(repr)
// if (b.isInstanceOf[NoBuilder[_]]) newMapped(f).asInstanceOf[That]
// else super.map[B, That](f)(bf)
}
override def collect[B, That](pf: PartialFunction[A, B])(implicit bf: CanBuildFrom[This, B, That]): That =
filter(pf.isDefinedAt).map(pf)(bf)
override def flatMap[B, That](f: A => GenTraversableOnce[B])(implicit bf: CanBuildFrom[This, B, That]): That = {
newFlatMapped(f).asInstanceOf[That]
// was: val b = bf(repr)
// if (b.isInstanceOf[NoBuilder[_]]) newFlatMapped(f).asInstanceOf[That]
// else super.flatMap[B, That](f)(bf)
}
override def flatten[B](implicit asTraversable: A => /*<: GenSeq[B]): Transformed[B] = new { val forced = xs } with AbstractTransformed[B] with Forced[B]
protected def newAppended[B >: A](that: GenTraversable[B]): Transformed[B] = new { val rest = that } with AbstractTransformed[B] with Appended[B]
protected def newMapped[B](f: A => B): Transformed[B] = new { val mapping = f } with AbstractTransformed[B] with Mapped[B]
protected def newFlatMapped[B](f: A => GenTraversableOnce[B]): Transformed[B] = new { val mapping = f } with AbstractTransformed[B] with FlatMapped[B]
protected def newFiltered(p: A => Boolean): Transformed[A] = new { val pred = p } with AbstractTransformed[A] with Filtered
protected def newSliced(_endpoints: SliceInterval): Transformed[A] = new { val endpoints = _endpoints } with AbstractTransformed[A] with Sliced
protected def newDroppedWhile(p: A => Boolean): Transformed[A] = new { val pred = p } with AbstractTransformed[A] with DroppedWhile
protected def newTakenWhile(p: A => Boolean): Transformed[A] = new { val pred = p } with AbstractTransformed[A] with TakenWhile
protected def newTaken(n: Int): Transformed[A] = newSliced(SliceInterval(0, n))
protected def newDropped(n: Int): Transformed[A] = newSliced(SliceInterval(n, Int.MaxValue))
override def filter(p: A => Boolean): This = newFiltered(p)
override def withFilter(p: A => Boolean): This = newFiltered(p)
override def partition(p: A => Boolean): (This, This) = (newFiltered(p), newFiltered(!p(_)))
override def init: This = newSliced(SliceInterval(0, size - 1)) // !!! can't call size here.
override def drop(n: Int): This = newDropped(n)
override def take(n: Int): This = newTaken(n)
override def slice(from: Int, until: Int): This = newSliced(SliceInterval(from, until))
override def dropWhile(p: A => Boolean): This = newDroppedWhile(p)
override def takeWhile(p: A => Boolean): This = newTakenWhile(p)
override def span(p: A => Boolean): (This, This) = (newTakenWhile(p), newDroppedWhile(p))
override def splitAt(n: Int): (This, This) = (newTaken(n), newDropped(n))
override def scanLeft[B, That](z: B)(op: (B, A) => B)(implicit bf: CanBuildFrom[This, B, That]): That =
newForced(thisSeq.scanLeft(z)(op)).asInstanceOf[That]
@migration("The behavior of `scanRight` has changed. The previous behavior can be reproduced with scanRight.reverse.", "2.9.0")
override def scanRight[B, That](z: B)(op: (A, B) => B)(implicit bf: CanBuildFrom[This, B, That]): That =
newForced(thisSeq.scanRight(z)(op)).asInstanceOf[That]
override def groupBy[K](f: A => K): immutable.Map[K, This] =
thisSeq groupBy f mapValues (xs => newForced(xs))
override def unzip[A1, A2](implicit asPair: A => (A1, A2)) =
(newMapped(x => asPair(x)._1), newMapped(x => asPair(x)._2)) // TODO - Performance improvements.
override def unzip3[A1, A2, A3](implicit asTriple: A => (A1, A2, A3)) =
(newMapped(x => asTriple(x)._1), newMapped(x => asTriple(x)._2), newMapped(x => asTriple(x)._3)) // TODO - Performance improvements.
override def toString = viewToString
}