```
def rndCombi [T] (a: Seq[T], b: Seq[T]): Seq[T] = {
if (a.size != b.size) sys.error ("sizes don't match: a:" + a.size + " != b: " + b.size)
val rnd = util.Random
val max = (math.pow (2, a.size)).toInt
val r = rnd.nextInt (max)
def pick (a: Seq[T], b: Seq[T], r: Int) : List[T] = {
if (a.size == 0) Nil else
if (r % 2 == 0) a.head :: pick (a.tail , b.tail, r/2) else
b.head :: pick (a.tail , b.tail, r/2)
}
// print all combinations for testing:
// (0 until max).map (i => println (pick (a, b, i).mkString ("-")))
pick (a, b, r).toSeq
}
// I choosed different values for easy testing:
val a = IndexedSeq (7, 8, 9)
val b = IndexedSeq (1, 2, 3)
println (rndCombi (a, b).mkString (" "))
println (rndCombi (a, b.tail).mkString (" "))
```

Initializing util.Random each time is of course not very clever, if done frequently. So for production code you would rearrange the code.

If you don't restrict the input to 2 sequences, it get's more interesting. Here we go:

```
def rndCombi [T] (s: Seq[Seq[T]]): Seq[T] = {
val outer = s.size
val inner = s(0).size
val rnd = util.Random
val max = (math.pow (outer, inner)).toInt
val r = rnd.nextInt (max)
def pick (s: Seq[Seq[T]], r: Int, pos: Int = 0) : List[T] =
if (pos == inner) Nil
else s(r % inner)(pos) :: pick (s, r/inner, pos + 1)
// print all combinations for testing:
(0 until max).map (i => println (pick (s, i).mkString ("-")))
println ()
pick (s, r).toSeq
}
val a = IndexedSeq (1, 2, 3)
val b = IndexedSeq (4, 5, 6)
val c = IndexedSeq (7, 8, 9)
println (rndCombi (Seq (a, b, c)).mkString (" "))
```

The second solution can, of course, be used for 2 sequences as well.

permutationsyou mean randomly swapping elements between lists? – om-nom-nom Nov 29 '11 at 16:08