# Concatenate lists in constant time in scala?

In Scala, is there a built-in function or external library for concatenating two lists (or arrays, or vectors, or listbuffers, etc) in constant time? Such an operation would presumably destroy / mutate the two original lists. All the functions I see for concatenating lists run in linear time, as far as I can tell.

Thanks much.

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How could you possibly copy N (i.e. a variable number of) items in constant time? –  delnan Jun 11 '11 at 13:00
@delnan: He didn't ask to copy the values. For example, you can join two binary trees in constant time by creating a new root with the two trees as the child nodes. (You'd have to see 'list' with the loose meaning of 'sequence' in this case.) –  kassens Jun 11 '11 at 13:32
See if you can make of use of a DList. See stackoverflow.com/questions/3352418/what-is-a-dlist. Eventually you'll still need a linear operation to construct the final list, but it's probably the closest to something readily available. –  huynhjl Jun 11 '11 at 15:41

There is the `UnrolledBuffer` which has the `concat` method taking another `UnrolledBuffer` and returning their concatenation in `O(1)`. It is destructive to the argument buffer - the second buffer will be empty after this calling this method.

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This is exactly what I was looking for. Thanks much. –  Jeff Jun 11 '11 at 21:34

The classic (going back to at least Hughes '84) approach in functional languages to solve constant-time append in is via "difference lists", where appending to the list is encoded as function composition.

``````newtype DList a = DL { unDL :: [a] -> [a] }
``````

So a DList is a function from lists to lists. Some introduction forms:

``````-- The empty list is the identity function
empty       = DL id

-- Singletons are the compositions of the cons function
singleton   = DL . (:)

-- Appending two lists is just composition
append xs ys = DL (unDL xs . unDL ys)
``````

The full implementation is on Hackage, and should be trivial to translate to Scala.

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I believe scalaz has a DList implementation. code.google.com/p/scalaz though I can't find it on github. –  huynhjl Jun 11 '11 at 16:43

Here is a simple immutable data structure that supports constant time concatenation. It just shows that it is possible, but is not intended for practical use. The `items` implementation to retrieve the elements has a pretty bad run-time and could easily be improved by walking the tree with an iterator.

I'm wondering if there are any better data structures?

``````sealed abstract class Tree[+T] {
def items: List[T]
def append[U >: T](v: U): Tree[U] = this append Leave(v)
def append[U >: T](other: Tree[U]) = Node(this, other)
}

case class Node[+T](val left: Tree[T], val right: Tree[T]) extends Tree[T] {
def items = left.items ++ right.items
}

case class Leave[+T](val value: T) extends Tree[T] {
def items = List(value)
}

case object EmptyTree extends Tree[Nothing] {
def items = Nil
}

object ConstantTimeConcatenation {
def main(args: Array[String]) {
val first = EmptyTree append 1 append 2 append 3
val second = EmptyTree append 4 append 5
val both = first append second // runs in linear time
println(both.items)
}
}
``````
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I was thinking that a `DoubleLinkedList` could offer a constant-time append, since you could join the end of one list to the beginning of another without having to traverse either one.
However, neither the `scala.collections.mutable.DoubleLinkedList` or `java.util.List` work that way.
The reason is probably that it would mean `a.append(b)` would modify both a and b, which would be unexpected.