/* __ *\ ** ________ ___ / / ___ Scala API ** ** / __/ __// _ | / / / _ | (c) 2003-2013, LAMP/EPFL ** ** __\ \/ /__/ __ |/ /__/ __ | http://scala-lang.org/ ** ** /____/\___/_/ |_/____/_/ | | ** ** |/ ** \* */ package scala.collection package mutable import generic._ import scala.annotation.{migration, bridge} import parallel.mutable.ParMap /** A template trait for mutable maps. * $mapNote * $mapTags * @since 2.8 * * @define mapNote * '''Implementation note:''' * This trait provides most of the operations of a mutable `Map` * independently of its representation. It is typically inherited by * concrete implementations of maps. * * To implement a concrete mutable map, you need to provide * implementations of the following methods: * {{{ * def get(key: A): Option[B] * def iterator: Iterator[(A, B)] * def += (kv: (A, B)): This * def -= (key: A): This * }}} * If you wish that methods like `take`, `drop`, `filter` also return the same kind of map * you should also override: * {{{ * def empty: This * }}} * It is also good idea to override methods `foreach` and * `size` for efficiency. */ trait MapLike[A, B, +This <: MapLike[A, B, This] with Map[A, B]] extends scala.collection.MapLike[A, B, This] with Builder[(A, B), This] with Growable[(A, B)] with Shrinkable[A] with Cloneable[This] with Parallelizable[(A, B), ParMap[A, B]] { self => import scala.collection.Traversable /** A common implementation of `newBuilder` for all mutable maps * in terms of `empty`. * * Overrides `MapLike` implementation for better efficiency. */ override protected[this] def newBuilder: Builder[(A, B), This] = empty protected[this] override def parCombiner = ParMap.newCombiner[A, B] /** Adds a new key/value pair to this map and optionally returns previously bound value. * If the map already contains a * mapping for the key, it will be overridden by the new value. * * @param key the key to update * @param value the new value * @return an option value containing the value associated with the key * before the `put` operation was executed, or `None` if `key` * was not defined in the map before. */ def put(key: A, value: B): Option[B] = { val r = get(key) update(key, value) r } /** Adds a new key/value pair to this map. * If the map already contains a * mapping for the key, it will be overridden by the new value. * * @param key The key to update * @param value The new value */ def update(key: A, value: B) { this += ((key, value)) } /** Adds a new key/value pair to this map. * If the map already contains a * mapping for the key, it will be overridden by the new value. * @param kv the key/value pair. * @return the map itself */ def += (kv: (A, B)): this.type /** Creates a new map consisting of all key/value pairs of the current map * plus a new pair of a given key and value. * * @param key The key to add * @param value The new value * @return A fresh immutable map with the binding from `key` to * `value` added to this map. */ override def updated[B1 >: B](key: A, value: B1): Map[A, B1] = this + ((key, value)) /** Creates a new map containing a new key/value mapping and all the key/value mappings * of this map. * * Mapping `kv` will override existing mappings from this map with the same key. * * @param kv the key/value mapping to be added * @return a new map containing mappings of this map and the mapping `kv`. */ @migration("`+` creates a new map. Use `+=` to add an element to this map and return that map itself.", "2.8.0") def + [B1 >: B] (kv: (A, B1)): Map[A, B1] = clone().asInstanceOf[Map[A, B1]] += kv /** Creates a new map containing two or more key/value mappings and all the key/value * mappings of this map. * * Specified mappings will override existing mappings from this map with the same keys. * * @param elem1 the first element to add. * @param elem2 the second element to add. * @param elems the remaining elements to add. * @return a new map containing mappings of this map and two or more specified mappings. */ @migration("`+` creates a new map. Use `+=` to add an element to this map and return that map itself.", "2.8.0") override def + [B1 >: B] (elem1: (A, B1), elem2: (A, B1), elems: (A, B1) *): Map[A, B1] = clone().asInstanceOf[Map[A, B1]] += elem1 += elem2 ++= elems /** Creates a new map containing the key/value mappings provided by the specified traversable object * and all the key/value mappings of this map. * * Note that existing mappings from this map with the same key as those in `xs` will be overriden. * * @param xs the traversable object. * @return a new map containing mappings of this map and those provided by `xs`. */ @migration("`++` creates a new map. Use `++=` to add an element to this map and return that map itself.", "2.8.0") override def ++[B1 >: B](xs: GenTraversableOnce[(A, B1)]): Map[A, B1] = clone().asInstanceOf[Map[A, B1]] ++= xs.seq /** Removes a key from this map, returning the value associated previously * with that key as an option. * @param key the key to be removed * @return an option value containing the value associated previously with `key`, * or `None` if `key` was not defined in the map before. */ def remove(key: A): Option[B] = { val r = get(key) this -= key r } /** Removes a key from this map. * @param key the key to be removed * @return the map itself. */ def -= (key: A): this.type /** Creates a new map with all the key/value mappings of this map except the key/value mapping * with the specified key. * * @param key the key to be removed * @return a new map with all the mappings of this map except that with a key `key`. */ @migration("`-` creates a new map. Use `-=` to remove an element from this map and return that map itself.", "2.8.0") override def -(key: A): This = clone() -= key /** Removes all bindings from the map. After this operation has completed, * the map will be empty. */ def clear() { keysIterator foreach -= } /** If given key is already in this map, returns associated value. * * Otherwise, computes value from given expression `op`, stores with key * in map and returns that value. * @param key the key to test * @param op the computation yielding the value to associate with `key`, if * `key` is previously unbound. * @return the value associated with key (either previously or as a result * of executing the method). */ def getOrElseUpdate(key: A, op: => B): B = get(key) match { case Some(v) => v case None => val d = op; this(key) = d; d } /** Applies a transformation function to all values contained in this map. * The transformation function produces new values from existing keys * associated values. * * @param f the transformation to apply * @return the map itself. */ def transform(f: (A, B) => B): this.type = { this.iterator foreach { case (key, value) => update(key, f(key, value)) } this } /** Retains only those mappings for which the predicate * `p` returns `true`. * * @param p The test predicate */ def retain(p: (A, B) => Boolean): this.type = { for ((k, v) <- this.seq ; if !p(k, v)) this -= k this } override def clone(): This = empty ++= repr /** The result when this map is used as a builder * @return the map representation itself. */ def result: This = repr /** Creates a new map with all the key/value mappings of this map except mappings with keys * equal to any of the two or more specified keys. * * @param elem1 the first element to remove. * @param elem2 the second element to remove. * @param elems the remaining elements to remove. * @return a new map containing all the mappings of this map except mappings * with a key equal to `elem1`, `elem2` or any of `elems`. */ @migration("`-` creates a new map. Use `-=` to remove an element from this map and return that map itself.", "2.8.0") override def -(elem1: A, elem2: A, elems: A*): This = clone() -= elem1 -= elem2 --= elems /** Creates a new map with all the key/value mappings of this map except mappings with keys * equal to any of those provided by the specified traversable object. * * @param xs the traversable object. * @return a new map with all the key/value mappings of this map except mappings * with a key equal to a key from `xs`. */ @migration("`--` creates a new map. Use `--=` to remove an element from this map and return that map itself.", "2.8.0") override def --(xs: GenTraversableOnce[A]): This = clone() --= xs.seq }