# Using for comprehension in Scala

``````def combinations(occurrences: List[(Char,Int)]): List[List[(Char,Int)]] = occurrences match {
case Nil => Nil
case x :: xs => for(z <- combinations(xs); y <- occ(x)) yield (y :: z)
}

def occ(e: (Char, Int)): List[(Char, Int)] = (for(i <- 0 to e._2) yield (e._1, i)).toList
``````

Hi,

I can't find any flaw in the above snippet but it still giving me List() for any input.

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You're first for comprehension will always yield a `Nil` at the end of your recursion which will force the rest of your recursion to be `Nil`. Here's a slightly modified version that works, though it gives a `List[(Char, Int)]` instead of a `List[List[(Char, Int)]]`:

``````def combinations(occurrences: List[(Char,Int)]): List[(Char,Int)] = occurrences match {
case Nil => Nil
case x :: xs => (for { z <- combinations(xs) } yield z) ::: occ(x)
}
``````

If the first part of your for comprehension returns `Nil`, then it won't evaluate the rest of it and will just return `Nil`. I've changed things around a bit, so now even if it does evaluate to `Nil`, it will be combined with the results of `occ`.

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Thanks Noah for the hint!!! –  arpanchaudhury May 10 '13 at 21:17
``````def combinations(occurrences: List[(Char,Int)]): List[List[(Char,Int)]] = occurrences match {
case Nil => List(List())
case x :: xs => for(z <- combinations(xs); y <- occ(x)) yield (y :: z)
}

def occ(e: (Char, Int)): List[(Char, Int)] = (for(i <- 0 to e._2) yield (e._1, i)).toList
``````

This has solved my problem!!!

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Well, I think you are pretty close to the answer. The most important thing is to consider what is the right return value in case of Nil.

``````  def combinations(occurrences: Occurrences): List[Occurrences] = occurrences match {
case Nil => List(List())
case x :: xs =>
for {
z <- combinations(xs)
n <- 0 to x._2
} yield (if (n == 0) z else (x._1, n) :: z)
}
``````
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