/* __ *\ ** ________ ___ / / ___ Scala API ** ** / __/ __// _ | / / / _ | (c) 2003-2009, LAMP/EPFL ** ** __\ \/ /__/ __ |/ /__/ __ | http://scala-lang.org/ ** ** /____/\___/_/ |_/____/_/ | | ** ** |/ ** \* */ // $Id: TreeMap.scala 18387 2009-07-24 15:28:37Z odersky $ package scala.collection.immutable import scala.collection.generic._ /** The canonical factory of <a href="TreeMap.html">TreeMap</a>'s. */ object TreeMap extends ImmutableSortedMapFactory[TreeMap] { def empty[A, B](implicit ord: Ordering[A]) = new TreeMap[A, B]()(ord) implicit def builderFactory[A, B](implicit ord: Ordering[A]): BuilderFactory[(A, B), TreeMap[A, B], Coll] = new SortedMapBuilderFactory[A, B] private def make[A, B](s: Int, t: RedBlack[A]#Tree[B])(implicit ord: Ordering[A]) = new TreeMap[A, B](s, t)(ord) } /** This class implements immutable maps using a tree. * * @author Erik Stenman * @author Matthias Zenger * @version 1.1, 03/05/2004 */ @serializable class TreeMap[A, +B](override val size: Int, t: RedBlack[A]#Tree[B])(implicit val ordering: Ordering[A]) extends RedBlack[A] with SortedMap[A, B] with SortedMapTemplate[A, B, TreeMap[A, B]] with ImmutableMapTemplate[A, B, TreeMap[A, B]] { def isSmaller(x: A, y: A) = ordering.lt(x, y) override protected[this] def newBuilder : Builder[(A, B), TreeMap[A, B]] = TreeMap.newBuilder[A, B] def this()(implicit ordering: Ordering[A]) = this(0, null)(ordering) protected val tree: RedBlack[A]#Tree[B] = if (size == 0) Empty else t override def rangeImpl(from : Option[A], until : Option[A]): TreeMap[A,B] = { val ntree = tree.range(from,until) new TreeMap[A,B](ntree.count, ntree) } override def firstKey = t.first override def lastKey = t.last override def compare(k0: A, k1: A): Int = ordering.compare(k0, k1) /** A factory to create empty maps of the same type of keys. */ override def empty: TreeMap[A, B] = TreeMap.empty[A, B](ordering) /** A new TreeMap with the entry added is returned, * if key is <em>not</em> in the TreeMap, otherwise * the key is updated with the new entry. * * @param key ... * @param value ... * @return ... */ override def updated [B1 >: B](key: A, value: B1): TreeMap[A, B1] = { val newsize = if (tree.lookup(key).isEmpty) size + 1 else size TreeMap.make(newsize, tree.update(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 */ override def + [B1 >: B] (kv: (A, B1)): TreeMap[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) *): TreeMap[A, B1] = this + elem1 + elem2 ++ elems /** A new TreeMap with the entry added is returned, * assuming that key is <em>not</em> in the TreeMap. */ def insert [B1 >: B](key: A, value: B1): TreeMap[A, B1] = { assert(tree.lookup(key).isEmpty) TreeMap.make(size + 1, tree.update(key, value)) } def - (key:A): TreeMap[A, B] = if (tree.lookup(key).isEmpty) this else TreeMap.make(size - 1, tree.delete(key)) /** Check if this map maps <code>key</code> 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 */ override def get(key: A): Option[B] = tree.lookup(key) match { case n: NonEmpty[b] => Some(n.value) case _ => None } /** Creates a new iterator over all elements contained in this * object. * * @return the new iterator */ def iterator: Iterator[(A, B)] = tree.toStream.iterator override def toStream: Stream[(A, B)] = tree.toStream override def foreach[U](f : ((A,B)) => U) = tree foreach { case (x, y) => f(x, y) } }