# Is the ordering of members of a map, seeming to be by addition, reliable?

When I create an immutable map with a standard call to Map() or by concatenating the existing maps created that way, in all my tests I get that traversing its members provides them in the order of addition. That's exactly the way I need them to be sorted, but there's not a word in the documentation about the reliability of the ordering of the members of the map.

So I was wondering whether it is safe to expect the standard Map to return its items in the order of addition or I should look for some other implementations and which ones in that case.

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It's generally not advisable to rely on implementation details. That said, scala.collection.immutable.Map[A,B] implements Iterable[(A,B)] and not Seq[(A,B)], which would guarantee an order. –  ziggystar May 21 '12 at 8:48
Instead of using a Map[K,V] you could use a Map[K,(V, Int)] where the Int its insertion index. Then call toSeq and sort on that field if you need to extract all the pairs as a sequence. –  Luigi Plinge May 21 '12 at 22:54

I don't think it's safe, the order is not preserved starting from 5 elements (Scala 2.9.1):

scala> Map(1 -> 1, 2 -> 2, 3 -> 3, 4 -> 4, 5 -> 5)
res9: scala.collection.immutable.Map[Int,Int] =
Map(5 -> 5, 1 -> 1, 2 -> 2, 3 -> 3, 4 -> 4)


With bigger maps the order is completely "random", try Map((1 to 100) zip (1 to 100): _*).

Try LinkedHashMap for ordered entries and TreeMap to achieve sorted entries.

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Yikes! The same is reproducable in 2.10.0-M3. Ok, so to the second part of the question: which implementation would you recommend in my case? –  Nikita Volkov May 21 '12 at 7:13
@NikitaVolkov: try LinkedHashMap for ordered entries and TreeMap to achieve sorted entries. –  Tomasz Nurkiewicz May 21 '12 at 7:59
Thanks, but although LinkedHashMap does order the items correctly it is mutable. I know of the immutable ListMap which also does the trick but according to this it performs awfully. So it looks like I've gotta deal with it or make a custom implementation - right? –  Nikita Volkov May 21 '12 at 8:28

There is no promise about the order of Map. There is an OrderedMap in scalas collection package. The values in that package are ordered by an implicit Ordering. As quickfix I recommend you to use a list of keys for the ordering of your Map.

var keyOrdering = List[Int]()
var unorderedMap = Map[Int, String]()

unorderedMap += (1 -> "one")
keyOrdering :+= 1


Edit

You could implement your own Ordering and pass it to a SortedMap as well.

Edit #2

A simple example would be the following:

scala> import scala.collection.SortedMap
import scala.collection.SortedMap

scala> implicit object IntOrdering extends Ordering[Int]
| def compare(a: Int, b: Int) = b - a
| }
defined module IntOrdering

scala> var sm = SortedMap[Int, String]()
sm: scala.collection.SortedMap[Int,String] = Map()

scala> sm += (1 -> "one")

scala> sm += (2 -> "two")

scala> println(sm)
Map(2 -> two, 1 -> one)


The implicit Ordering is applied to the keys, so IntOrdering might be applied to a SortedMap[Int, Any].

Edit #3

A self ordering DataType like in my comment might look this way:

case class DataType[T](t: T, index: Int)
object DataType{
private var index = -1
def apply[T](t: T) = { index += 1 ; new DataType[T](t, index)
}


Now we need to change the Ordering:

implicit object DataTypeOrdering extends Ordering[DataType[_]] {
def compare(a: DataType[_], b: DataType[_]) = a.index - b.index
}


I hope this is the way you expected my answer.

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Could you elaborate on the Ordering and SortedMap a little more? –  Nikita Volkov May 21 '12 at 7:17
I updated my answer with a simple example. –  T.Grottker May 21 '12 at 7:59
Thanks but it's incorrect: you sort the map by keys not by addition order in both examples –  Nikita Volkov May 21 '12 at 8:08
Yes, I said this is a simple example. You have to override the compare function with a suiting implemetation to do so. For example could you create an own DataType with an automatically increasing index. That index you need to compare. –  T.Grottker May 21 '12 at 8:23

After digging I've found out that there exists an immutable ListMap that behaves exactly as I want it, but according to this table its performance is just awfull. So I wrote a custom immutable implementation that should perform effectively on all operations except removal, where it performs linearly. It does require a bit more memory as it's backed by a standard Map and a Queue, which itself utilizes a List twice, but in the current age it's not an issue, right.

import collection.immutable.Queue

object OrderedMap {
def apply[A, B](elems: (A, B)*) =
new OrderedMap(Map(elems: _*), Queue(elems: _*))
}
class OrderedMap[A, B](
map: Map[A, B] = Map[A, B](),
protected val queue: Queue[(A, B)] = Queue()
) extends Map[A, B] {
def get(key: A) =
map.get(key)
def iterator =
queue.iterator
def +[B1 >: B](kv: (A, B1)) =
new OrderedMap(
map + kv,
queue enqueue kv
)
def -(key: A) =
new OrderedMap(
map - key,
queue filter (_._1 != key)
)
override def hashCode() =
queue.hashCode
override def equals(that: Any) =
that match {
case that: OrderedMap[A, B] =>
queue.equals(that.queue)
case _ =>
super.equals(that)
}
}

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