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Standard library for the SubScript extension of the Scala Programming Language
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/* __ *\
** ________ ___ / / ___ Scala API **
** / __/ __// _ | / / / _ | (c) 2003-2013, LAMP/EPFL **
** __\ \/ /__/ __ |/ /__/ __ | http://scala-lang.org/ **
** /____/\___/_/ |_/____/_/ | | **
** |/ **
\* */
package scala
package collection
package mutable
import generic._
import parallel.mutable.ParArray
/** An implementation of the `Buffer` class using an array to
* represent the assembled sequence internally. Append, update and random
* access take constant time (amortized time). Prepends and removes are
* linear in the buffer size.
*
* @author Matthias Zenger
* @author Martin Odersky
* @version 2.8
* @since 1
* @see [[http://docs.scala-lang.org/overviews/collections/concrete-mutable-collection-classes.html#array_buffers "Scala's Collection Library overview"]]
* section on `Array Buffers` for more information.
*
* @tparam A the type of this arraybuffer's elements.
*
* @define Coll `mutable.ArrayBuffer`
* @define coll array buffer
* @define thatinfo the class of the returned collection. In the standard library configuration,
* `That` is always `ArrayBuffer[B]` because an implicit of type `CanBuildFrom[ArrayBuffer, B, ArrayBuffer[B]]`
* is defined in object `ArrayBuffer`.
* @define bfinfo an implicit value of class `CanBuildFrom` which determines the
* result class `That` from the current representation type `Repr`
* and the new element type `B`. This is usually the `canBuildFrom` value
* defined in object `ArrayBuffer`.
* @define orderDependent
* @define orderDependentFold
* @define mayNotTerminateInf
* @define willNotTerminateInf
*/
@SerialVersionUID(1529165946227428979L)
class ArrayBuffer[A](override protected val initialSize: Int)
extends AbstractBuffer[A]
with Buffer[A]
with GenericTraversableTemplate[A, ArrayBuffer]
with BufferLike[A, ArrayBuffer[A]]
with IndexedSeqOptimized[A, ArrayBuffer[A]]
with Builder[A, ArrayBuffer[A]]
with ResizableArray[A]
with CustomParallelizable[A, ParArray[A]]
with Serializable {
override def companion: GenericCompanion[ArrayBuffer] = ArrayBuffer
import scala.collection.Traversable
def this() = this(16)
def clear() { reduceToSize(0) }
override def sizeHint(len: Int) {
if (len > size && len >= 1) {
val newarray = new Array[AnyRef](len)
scala.compat.Platform.arraycopy(array, 0, newarray, 0, size0)
array = newarray
}
}
override def par = ParArray.handoff[A](array.asInstanceOf[Array[A]], size)
/** Appends a single element to this buffer and returns
* the identity of the buffer. It takes constant amortized time.
*
* @param elem the element to append.
* @return the updated buffer.
*/
def +=(elem: A): this.type = {
ensureSize(size0 + 1)
array(size0) = elem.asInstanceOf[AnyRef]
size0 += 1
this
}
/** Appends a number of elements provided by a traversable object.
* The identity of the buffer is returned.
*
* @param xs the traversable object.
* @return the updated buffer.
*/
override def ++=(xs: TraversableOnce[A]): this.type = xs match {
case v: scala.collection.IndexedSeqLike[_, _] =>
val n = v.length
ensureSize(size0 + n)
v.copyToArray(array.asInstanceOf[scala.Array[Any]], size0, n)
size0 += n
this
case _ =>
super.++=(xs)
}
/** Prepends a single element to this buffer and returns
* the identity of the buffer. It takes time linear in
* the buffer size.
*
* @param elem the element to prepend.
* @return the updated buffer.
*/
def +=:(elem: A): this.type = {
ensureSize(size0 + 1)
copy(0, 1, size0)
array(0) = elem.asInstanceOf[AnyRef]
size0 += 1
this
}
/** Prepends a number of elements provided by a traversable object.
* The identity of the buffer is returned.
*
* @param xs the traversable object.
* @return the updated buffer.
*/
override def ++=:(xs: TraversableOnce[A]): this.type = { insertAll(0, xs.toTraversable); this }
/** Inserts new elements at the index `n`. Opposed to method
* `update`, this method will not replace an element with a new
* one. Instead, it will insert a new element at index `n`.
*
* @param n the index where a new element will be inserted.
* @param seq the traversable object providing all elements to insert.
* @throws IndexOutOfBoundsException if `n` is out of bounds.
*/
def insertAll(n: Int, seq: Traversable[A]) {
if (n < 0 || n > size0) throw new IndexOutOfBoundsException(n.toString)
val len = seq.size
val newSize = size0 + len
ensureSize(newSize)
copy(n, n + len, size0 - n)
seq.copyToArray(array.asInstanceOf[Array[Any]], n)
size0 = newSize
}
/** Removes the element on a given index position. It takes time linear in
* the buffer size.
*
* @param n the index which refers to the first element to delete.
* @param count the number of elements to delete
* @throws IndexOutOfBoundsException if `n` is out of bounds.
*/
override def remove(n: Int, count: Int) {
require(count >= 0, "removing negative number of elements")
if (n < 0 || n > size0 - count) throw new IndexOutOfBoundsException(n.toString)
copy(n + count, n, size0 - (n + count))
reduceToSize(size0 - count)
}
/** Removes the element at a given index position.
*
* @param n the index which refers to the element to delete.
* @return the element that was formerly at position `n`.
*/
def remove(n: Int): A = {
val result = apply(n)
remove(n, 1)
result
}
def result: ArrayBuffer[A] = this
/** Defines the prefix of the string representation.
*/
override def stringPrefix: String = "ArrayBuffer"
}
/** Factory object for the `ArrayBuffer` class.
*
* $factoryInfo
* @define coll array buffer
* @define Coll `ArrayBuffer`
*/
object ArrayBuffer extends SeqFactory[ArrayBuffer] {
/** $genericCanBuildFromInfo */
implicit def canBuildFrom[A]: CanBuildFrom[Coll, A, ArrayBuffer[A]] = ReusableCBF.asInstanceOf[GenericCanBuildFrom[A]]
def newBuilder[A]: Builder[A, ArrayBuffer[A]] = new ArrayBuffer[A]
}