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/* __ *\
** ________ ___ / / ___ Scala API **
** / __/ __// _ | / / / _ | (c) 2003-2011, LAMP/EPFL **
** __\ \/ /__/ __ |/ /__/ __ | http://scala-lang.org/ **
** /____/\___/_/ |_/____/_/ | | **
** |/ **
\* */
package scala.collection
package mutable
import generic._
/** `Queue` objects implement data structures that allow to
* insert and retrieve elements in a first-in-first-out (FIFO) manner.
*
* @author Matthias Zenger
* @author Martin Odersky
* @version 2.8
* @since 1
*
* @define Coll mutable.Queue
* @define coll mutable queue
* @define orderDependent
* @define orderDependentFold
* @define mayNotTerminateInf
* @define willNotTerminateInf
*/
@cloneable
class Queue[A]
extends MutableList[A]
with GenericTraversableTemplate[A, Queue]
with Cloneable[Queue[A]]
with Serializable
{
override def companion: GenericCompanion[Queue] = Queue
override protected[this] def newBuilder = companion.newBuilder[A]
private[mutable] def this(fst: LinkedList[A], lst: LinkedList[A], lng: Int) {
this()
first0 = fst
last0 = lst
len = lng
}
/** Adds all elements to the queue.
*
* @param elems the elements to add.
*/
def enqueue(elems: A*): Unit = this ++= elems
/** Returns the first element in the queue, and removes this element
* from the queue.
*
* @throws Predef.NoSuchElementException
* @return the first element of the queue.
*/
def dequeue(): A =
if (isEmpty)
throw new NoSuchElementException("queue empty")
else {
val res = first0.elem
first0 = first0.next
len -= 1
res
}
/** Returns the first element in the queue which satisfies the
* given predicate, and removes this element from the queue.
*
* @param p the predicate used for choosing the first element
* @return the first element of the queue for which p yields true
*/
def dequeueFirst(p: A => Boolean): Option[A] =
if (isEmpty)
None
else if (p(first0.elem)) {
val res: Option[A] = Some(first0.elem)
first0 = first0.next
len -= 1
res
} else {
val optElem = removeFromList(p)
if (optElem != None) len -= 1
optElem
}
private def removeFromList(p: A => Boolean): Option[A] = {
var leftlst = first0
var res: Option[A] = None
while (leftlst.next.nonEmpty && !p(leftlst.next.elem)) {
leftlst = leftlst.next
}
if (leftlst.next.nonEmpty) {
res = Some(leftlst.next.elem)
if (leftlst.next eq last0) last0 = leftlst
leftlst.next = leftlst.next.next
}
res
}
/** Returns all elements in the queue which satisfy the
* given predicate, and removes those elements from the queue.
*
* @param p the predicate used for choosing elements
* @return a sequence of all elements in the queue for which
* p yields true.
*/
def dequeueAll(p: A => Boolean): Seq[A] = {
if (first0.isEmpty)
Seq.empty
else {
val res = new ArrayBuffer[A]
while ((first0.nonEmpty) && p(first0.elem)) {
res += first0.elem
first0 = first0.next
len -= 1
}
if (first0.isEmpty) res
else removeAllFromList(p, res)
}
}
private def removeAllFromList(p: A => Boolean, res: ArrayBuffer[A]): ArrayBuffer[A] = {
var leftlst = first0
while (leftlst.next.nonEmpty) {
if (p(leftlst.next.elem)) {
res += leftlst.next.elem
if (leftlst.next eq last0) last0 = leftlst
leftlst.next = leftlst.next.next
len -= 1
} else leftlst = leftlst.next
}
res
}
/** Return the proper suffix of this list which starts with the first element that satisfies `p`.
* That element is unlinked from the list. If no element satisfies `p`, return None.
*/
def extractFirst(start: LinkedList[A], p: A => Boolean): Option[LinkedList[A]] = {
if (isEmpty) None
else {
var cell = start
while ((cell.next.nonEmpty) && !p(cell.next.elem)) {
cell = cell.next
}
if (cell.next.isEmpty)
None
else {
val res: Option[LinkedList[A]] = Some(cell.next)
cell.next = cell.next.next
len -= 1
res
}
}
}
/** Returns the first element in the queue, or throws an error if there
* is no element contained in the queue.
*
* @return the first element.
*/
def front: A = head
}
object Queue extends SeqFactory[Queue] {
implicit def canBuildFrom[A]: CanBuildFrom[Coll, A, Queue[A]] = ReusableCBF.asInstanceOf[GenericCanBuildFrom[A]]
def newBuilder[A]: Builder[A, Queue[A]] = new MutableList[A] mapResult { _.toQueue }
}
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