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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
package immutable
import generic._
import scala.annotation.{tailrec, bridge}
/** $factoryInfo
* @since 1
* @see [[http://docs.scala-lang.org/overviews/collections/concrete-immutable-collection-classes.html#list_maps "Scala's Collection Library overview"]]
* section on `List Maps` for more information.
*
* @define Coll immutable.ListMap
* @define coll immutable list map
*/
object ListMap extends ImmutableMapFactory[ListMap] {
/** $mapCanBuildFromInfo */
implicit def canBuildFrom[A, B]: CanBuildFrom[Coll, (A, B), ListMap[A, B]] =
new MapCanBuildFrom[A, B]
def empty[A, B]: ListMap[A, B] = EmptyListMap.asInstanceOf[ListMap[A, B]]
private object EmptyListMap extends ListMap[Any, Nothing] { }
}
/** This class implements immutable maps using a list-based data structure.
* Instances of `ListMap` represent empty maps; they can be either created by
* calling the constructor directly, or by applying the function `ListMap.empty`.
*
* @tparam A the type of the keys in this list map.
* @tparam B the type of the values associated with the keys.
*
* @author Matthias Zenger
* @author Martin Odersky
* @version 2.0, 01/01/2007
* @since 1
* @define Coll immutable.ListMap
* @define coll immutable list map
* @define mayNotTerminateInf
* @define willNotTerminateInf
*/
@SerialVersionUID(301002838095710379L)
class ListMap[A, +B]
extends AbstractMap[A, B]
with Map[A, B]
with MapLike[A, B, ListMap[A, B]]
with Serializable {
override def empty = ListMap.empty
/** Returns the number of mappings in this map.
*
* @return number of mappings in this map.
*/
override def size: Int = 0
/** Checks if this map maps `key` to a value and return the
* value if it exists.
*
* @param key the key of the mapping of interest
* @return the value of the mapping, if it exists
*/
def get(key: A): Option[B] = None
/** This method allows one to create a new map with an additional mapping
* from `key` to `value`. If the map contains already a mapping for `key`,
* it will be overridden by this function.
*
* @param key the key element of the updated entry.
* @param value the value element of the updated entry.
*/
override def updated [B1 >: B] (key: A, value: B1): ListMap[A, B1] =
new Node[B1](key, value)
/** Add a key/value pair to this map.
* @param kv the key/value pair
* @return A new map with the new binding added to this map
*/
def + [B1 >: B] (kv: (A, B1)): ListMap[A, B1] = updated(kv._1, kv._2)
/** Adds two or more elements to this collection and returns
* either the collection itself (if it is mutable), or a new collection
* with the added elements.
*
* @param elem1 the first element to add.
* @param elem2 the second element to add.
* @param elems the remaining elements to add.
*/
override def + [B1 >: B] (elem1: (A, B1), elem2: (A, B1), elems: (A, B1) *): ListMap[A, B1] =
this + elem1 + elem2 ++ elems
/** Adds a number of elements provided by a traversable object
* and returns a new collection with the added elements.
*
* @param xs the traversable object.
*/
override def ++[B1 >: B](xs: GenTraversableOnce[(A, B1)]): ListMap[A, B1] =
((repr: ListMap[A, B1]) /: xs.seq) (_ + _)
/** This creates a new mapping without the given `key`.
* If the map does not contain a mapping for the given key, the
* method returns the same map.
*
* @param key a map without a mapping for the given key.
*/
def - (key: A): ListMap[A, B] = this
/** Returns an iterator over key-value pairs.
*/
def iterator: Iterator[(A,B)] =
new AbstractIterator[(A,B)] {
var self: ListMap[A,B] = ListMap.this
def hasNext = !self.isEmpty
def next(): (A,B) =
if (!hasNext) throw new NoSuchElementException("next on empty iterator")
else { val res = (self.key, self.value); self = self.tail; res }
}.toList.reverseIterator
protected def key: A = throw new NoSuchElementException("empty map")
protected def value: B = throw new NoSuchElementException("empty map")
override def tail: ListMap[A, B] = throw new NoSuchElementException("empty map")
/** This class represents an entry in the `ListMap`.
*/
@SerialVersionUID(-6453056603889598734L)
protected class Node[B1 >: B](override protected val key: A,
override protected val value: B1) extends ListMap[A, B1] with Serializable {
/** Returns the number of mappings in this map.
*
* @return number of mappings.
*/
override def size: Int = size0(this, 0)
// to allow tail recursion and prevent stack overflows
@tailrec private def size0(cur: ListMap[A, B1], acc: Int): Int = if (cur.isEmpty) acc else size0(cur.tail, acc + 1)
/** Is this an empty map?
*
* @return true, iff the map is empty.
*/
override def isEmpty: Boolean = false
/** Retrieves the value which is associated with the given key. This
* method throws an exception if there is no mapping from the given
* key to a value.
*
* @param k the key
* @return the value associated with the given key.
*/
override def apply(k: A): B1 = apply0(this, k)
@tailrec private def apply0(cur: ListMap[A, B1], k: A): B1 = if (k == cur.key) cur.value else apply0(cur.tail, k)
/** Checks if this map maps `key` to a value and return the
* value if it exists.
*
* @param k the key of the mapping of interest
* @return the value of the mapping, if it exists
*/
override def get(k: A): Option[B1] = get0(this, k)
@tailrec private def get0(cur: ListMap[A, B1], k: A): Option[B1] =
if (k == cur.key) Some(cur.value)
else if (cur.tail.nonEmpty) get0(cur.tail, k) else None
/** This method allows one to create a new map with an additional mapping
* from `key` to `value`. If the map contains already a mapping for `key`,
* it will be overridden by this function.
*/
override def updated [B2 >: B1](k: A, v: B2): ListMap[A, B2] = {
val m = if (contains(k)) this - k else this
new m.Node[B2](k, v)
}
/** Creates a new mapping without the given `key`.
* If the map does not contain a mapping for the given key, the
* method returns the same map.
*/
override def - (k: A): ListMap[A, B1] = {
// This definition used to result in stack overflows
// if (k == key)
// next
// else {
// val tail = next - k
// if (tail eq next) this
// else new tail.Node(key, value)
// }
// we use an imperative one instead (and use an auxiliary list to preserve order!):
var cur: ListMap[A, B1] = this
var lst: List[(A, B1)] = Nil
while (cur.nonEmpty) {
if (k != cur.key) lst ::= ((cur.key, cur.value))
cur = cur.tail
}
var acc = ListMap[A, B1]()
while (lst != Nil) {
val elem = lst.head
val stbl = acc
acc = new stbl.Node(elem._1, elem._2)
lst = lst.tail
}
acc
}
override def tail: ListMap[A, B1] = ListMap.this
}
}