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I think this might be a common operation. So maybe it's inside the API but I can't find it. Also I'm interested in an efficient functional/simple solution if not.

Given a sequence of tuples ("a" -> 1, "b" ->2, "c" -> 3) I want to turn it into a map. That's easy using TraversableOnce.toMap. But I want to fail this construction if the resulting map "would contain a contradiction", i.e. different values assigned to the same key. Like in the sequence ("a" -> 1, "a" -> 2). But duplicates shall be allowed.

Currently I have this (very imperative) code:

def buildMap[A,B](in: TraversableOnce[(A,B)]): Option[Map[A,B]] = {
  val map = new HashMap[A,B]
  val it = in.toIterator
  var fail = false
    val next =
    val old = map.put(next._1, next._2)
    fail = old.isDefined && old.get != next._2

  if(fail) None else Some(map.toMap)

Side Question

Is the final toMap really necessary? I get a type error when omitting it, but I think it should work. The implementation of toMap constructs a new map which I want to avoid.

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What do you want the failure to look like? (e.g do you want a Option[Map] returned?) –  The Archetypal Paul May 11 '11 at 15:42
Option is good enough. –  ziggystar May 11 '11 at 15:49

4 Answers 4

up vote 6 down vote accepted

As always when working with Seq[A] the optimal solution performance-wise depends on the concrete collection type. A general but not very efficient solution would be to fold over an Option[Map[A,B]]:

def optMap[A,B](in: Iterable[(A,B)]): Option[Map[A,B]] = 
  in.iterator.foldLeft(Option(Map[A,B]())) {
    case (Some(m),e @ (k,v)) if m.getOrElse(k, v) == v => Some(m + e)
    case _ => None

If you restrict yourself to using List[A,B]s an optimized version would be:

def rmap[A,B](in: List[(A,B)], out: Map[A,B] = Map[A,B]()): Option[Map[A,B]] = in match {
  case (e @ (k,v)) :: tail if out.getOrElse(k,v) == v =>
    rmap(tail, out + e)
  case Nil =>
  case _ => None

Additionally a less idiomatic version using mutable maps could be implemented like this:

def mmap[A,B](in: Iterable[(A,B)]): Option[Map[A,B]] = {
  val dest = collection.mutable.Map[A,B]()

  for (e @ (k,v) <- in) {
    if (dest.getOrElse(k, v) != v) return None
    dest += e

share|improve this answer
Using getOrElseUpdate might make your third code a bit shorter I think. –  ziggystar May 11 '11 at 16:03
Your "less idiomatic" one seems significantly clearer to me. I'd be interested to hear from readers with more functional programming experience then me if they would find working out what your first one does easier than doing the same for the last one... –  The Archetypal Paul May 11 '11 at 16:05
@ziggystar, shorter, but the side-effect-in-condition means less clear (to me, anywway) –  The Archetypal Paul May 11 '11 at 16:06

Here is a fail-slowly solution (if creating the entire map and then discarding it is okay):

def uniqueMap[A,B](s: Seq[(A,B)]) = {
  val m = s.toMap
  if (m.size == s.length) Some(s) else None

Here is a mutable fail-fast solution (bail out as soon as the error is detected):

def uniqueMap[A,B](s: Seq[(A,B)]) = {
  val h = new collection.mutable.HashMap[A,B]
  val i = s.iterator.takeWhile(x => !(h contains x._1)).foreach(h += _)
  if (h.size == s.length) Some(h) else None

And here's an immutable fail-fast solution:

def uniqueMap[A,B](s: Seq[(A,B)]) = {
  def mapUniquely(i: Iterator[(A,B)], m: Map[A,B]): Option[Map[A,B]] = {
    if (i.hasNext) {
      val j =
      if (m contains j._1) None
      else mapUniquely(i, m + j)
    else Some(m)
  mapUniquely(s.iterator, Map[A,B]())

Edit: and here's a solution using put for speed (hopefully):

def uniqueMap[A,B](s: Seq[(A,B)]) = {
  val h = new collection.mutable.HashMap[A,B]
  val okay = s.iterator.forall(x => {
    val y = (h put (x._1,x._2))
    y.isEmpty || y.get == x._2 
  if (okay) Some(h) else None

Edit: now tested, and it's ~2x as fast on input that works (returns true) than Moritz' or my straightforward solution.

share|improve this answer
I want to fail only on contradicting duplicates and not on exact duplicates. Nonetheless a very nice answer and I can easily adapt it to my case. I like how you use takeWhile and foreach in a counter intuitive sequence. :) I'll stick to the second suggestion for performance reasons. –  ziggystar May 11 '11 at 15:53
@ziggystar - My mistake. Replace h contains x._1 with h.get(x._1).map(_ == x._2).getOrElse(true) or somesuch and you'll be set. –  Rex Kerr May 11 '11 at 15:56
Uh, adaption is not so easy. The problem is that I probably want to use HashMap.put which returns the old element which I can then compare to the new one. But using your solution this is impossible. I'd have to add the element and then check the condition by performing a second query to the map. –  ziggystar May 11 '11 at 15:56
@ziggystar - Picky, picky! Okay, I'll update with an answer that works there. –  Rex Kerr May 11 '11 at 15:57

Scala 2.9 is near, so why not to take advantage of the combinations method (inspired by Moritz's answer):

def optMap[A,B](in: List[(A,B)]) = {
  if (in.combinations(2).exists { 
    case List((a,b),(c,d)) => a == c && b != d
    case _ => false 
  }) None else Some(in.toMap)

scala> val in = List(1->1,2->3,3->4,4->5,2->3)
in: List[(Int, Int)] = List((1,1), (2,3), (3,4), (4,5), (2,3))

scala> optMap(in)
res29: Option[scala.collection.immutable.Map[Int,Int]] = Some(Map(1 -> 1, 2 -> 3, 3 -> 4, 4 -> 5))

scala> val in = List(1->1,2->3,3->4,4->5,2->3,1->2)
in: List[(Int, Int)] = List((1,1), (2,3), (3,4), (4,5), (2,3), (1,2))

scala> optMap(in)
res30: Option[scala.collection.immutable.Map[Int,Int]] = None
share|improve this answer
Whoa, that's astonishingly inefficient. –  ziggystar May 12 '11 at 7:20
Welcome to Scala, the language most easy to write AMAZINGLY inefficient code with the smallest footprint possible –  Yinzara Feb 21 '13 at 4:47

You can also use gourpBy as follows:

  val pList = List(1 -> "a", 1 -> "b", 2 -> "c", 3 -> "d")

  def optMap[A,B](in: Iterable[(A,B)]): Option[Map[A,B]] = {
    Option(in.groupBy(_._1).map{case(_, list) => if(list.size > 1) return None else list.head})


It's efficiency is competitive to the above solutions. In fact if you examine the gourpBy implementation you will see that it is very similar to some of the solutions suggested.

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