# Immutable Scala Map implementation that preserves insertion order [duplicate]

I know that `LinkedHashMap` is used to preserve insertion order in the map but this only works for mutable maps. Which is the immutable `Map` implementation that preserves insertion order?

Thanks

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## marked as duplicate by Suma, seniaApr 9 at 12:27

ListMap implements an immutable map using a list-based data structure, and thus preserves insertion order.

``````scala> import collection.immutable.ListMap
import collection.immutable.ListMap

scala> ListMap(1 -> 2) + (3 -> 4)
res31: scala.collection.immutable.ListMap[Int,Int] = Map(1 -> 2, 3 -> 4)

scala> res31 + (6 -> 9)
res32: scala.collection.immutable.ListMap[Int,Int] = Map(1 -> 2, 3 -> 4, 6 -> 9)
``````

The following extension method - `Seq#toListMap` can be quite useful when working with `ListMap`s.

``````scala> import scalaz._, Scalaz._, Liskov._
import scalaz._
import Scalaz._
import Liskov._

scala> :paste
// Entering paste mode (ctrl-D to finish)

implicit def seqW[A](xs: Seq[A]) = new SeqW(xs)
class SeqW[A](xs: Seq[A]) {
def toListMap[B, C](implicit ev: A <~< (B, C)): ListMap[B, C] = {
ListMap(co[Seq, A, (B, C)](ev)(xs) : _*)
}
}

// Exiting paste mode, now interpreting.

seqW: [A](xs: Seq[A])SeqW[A]
defined class SeqW

scala> Seq((2, 4), (11, 89)).toListMap
res33: scala.collection.immutable.ListMap[Int,Int] = Map(2 -> 4, 11 -> 89)
``````
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While `ListMap` will preserve insertion order, it is not very efficient - e.g. lookup time is linear. I suggest you create a new collection class which wraps both the `immutable.HashMap` and the `immutable.TreeMap`. The immutable map should be parametrized as `immutable.HashMap[Key, (Value, Long)]`, where the `Long` in the tuple gives you the pointer to the corresponding entry in the `TreeMap[Long, Key]`. You then keep an entry counter on the side. This tree map will sort the entries according to the insertion order.

You implement insertion and lookup in the straightforward way - increment the counter, insert into the hash map and insert to the the counter-key pair into the treemap. You use the hash map for the lookup.

You implement iteration by using the tree map.

To implement remove, you have to remove the key-value pair from the hash map and use the index from the tuple to remove the corresponding entry from the tree map.

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+1. Any chance of having such a collection in stdlib in near future? –  missingfaktor Feb 16 '12 at 15:59
Would you care to elaborate why? –  axel22 Nov 6 '12 at 19:23
Because the index you store in your tuple can change over time when you remove elements from the vector. It's the perfect example of why different collections with different trade-offs exist. Compared to a classic Linked-List map, your implementation lost the ability to remove keys in constant time (log n at best). –  AlexG Mar 21 '13 at 9:34
Of course. I've edited my answer. –  axel22 Mar 21 '13 at 9:50
Read the part of the answer about the `TreeMap` using `Long` keys that reflect when an element was inserted. If your comparator is on the insertion order, the tree will preserve the insertion order. –  axel22 Dec 16 '14 at 22:14