# StackOverflowError for coin change in Scala?

I'm writing a recursive function for the Coin (change) problem in Scala.

My implementation breaks with StackOverflowError and I can't figure out why it happens.

``````Exception in thread "main" java.lang.StackOverflowError
at scala.collection.immutable.\$colon\$colon.tail(List.scala:358)
at scala.collection.immutable.\$colon\$colon.tail(List.scala:356)
at recfun.Main\$.recurs\$1(Main.scala:58) // repeat this line over and over
``````

this is my call:

``````  println(countChange(20, List(1,5,10)))
``````

this is my definition:

``````def countChange(money: Int, coins: List[Int]): Int =  {

def recurs(money: Int, coins: List[Int], combos: Int): Int =
{
if (coins.isEmpty)
combos
else if (money==0)
combos + 1
else

}
recurs(money, coins, 0)
}
``````

Edit: I just added the else if statement in the mix:

``````else if(money<0)
combos
``````

it got rid of the error but my output is 1500 something :( what is wrong with my logic?

-
You're second call to `recurs` (`recurs(money-coins.head,coins,combos+1)`) introduce an infinite loop. – Nicolas Apr 7 '13 at 6:21

Here is the correct solution based on your codes:

``````def countChange(money: Int, coins: List[Int]): Int = {
def recurs(m: Int, cs: List[Int], cnt: Int): Int =
if(m < 0) cnt  //Not a change, keep cnt
else if(cs.isEmpty) {
if(m == 0) cnt + 1 else cnt // plus cnt if find a change
}
else recurs(m, cs.tail, cnt) + recurs(m-cs.head, cs, cnt)
recurs(money, coins, 0)
}
``````

Anyway, there is a short solution(But not efficient, you can cache the middle result to make it efficient.)

``````def countChange(m: Int, cs: List[Int]): Int = cs match {
case Nil => if(m == 0) 1 else 0
case c::rs => (0 to m/c) map (k => countChange(m-k*c,rs)) sum
}
``````
-

here is a DP approach to reduce a lot of re-calculation in recursive approach

``````object DP {
implicit val possibleCoins = List(1, 5, 10, 25, 100)
import collection.mutable.Map

def countChange(amount: Int)(implicit possibleCoins: List[Int]) = {
val min = Map((1 to amount).map (_->Int.MaxValue): _*)
min(0) = 0
for {
i <- 1 to amount
coin <- possibleCoins
if coin <= i && min(i - coin) + 1 < min(i)
} min(i) = min(i-coin) + 1
min(amount)
}

def main(args: Array[String]) = println(countChange(97))
}
``````

see DP from novice to advanced for algorithm

-

The first solution in the accepted answer has a redundant last parameter as noted by Paaro so I wanted to get rid of it. The second solution uses `map` which I wanted to avoid since it wasn't covered yet in the Week 1 or the Scala course I assume you're taking. Also, the second solution, as rightly noted by the author, would be way slower, unless it uses some memoization. Finally, Paaro's solution seems to have an unnecessary nested function.

So here's what I ended up with:

``````def countChange(money: Int, coins: List[Int]): Int =
if (money < 0)
0
else if (coins.isEmpty)
if (money == 0) 1 else 0
else
countChange(money, coins.tail) + countChange(money - coins.head, coins)
``````

There is no need for braces here, as you can see.

I wonder if it could be further simplified.

-

One can omit the cnt parameter, which is, in fact, never accumulated. The recurs function always returns either 0 or 1, so the optimized algorithm would be:

``````def countChange(money: Int, coins: List[Int]): Int = {
def recurs(m: Int, cs: List[Int]): Int =
if(m < 0) 0  //Not a change, return 0
else if(cs.isEmpty) {
if(m == 0) 1 else 0 // 1 if change found, otherwise 0
}
else recurs(m, cs.tail) + recurs(m-cs.head, cs)
if(money>0) recurs(money, coins) else 0
}
``````
-

The @Eastsun solution is good but it fails when money=0 due to it returns 1 instead of 0, but you can fix it easily:

``````def countChange(money: Int, coins: List[Int]): Int = {
def recurs(m: Int, cs: List[Int], cnt: Int): Int =
if(m < 0) cnt  //Not a change, keep cnt
else if(cs.isEmpty) {
if(m == 0) cnt + 1 else cnt // plus cnt if find a change
}
else recurs(m, cs.tail, cnt) + recurs(m-cs.head, cs, cnt)
if(money>0) recurs(money, coins, 0) else 0
}
``````
-
I think it is reasonable to return 1 rather than 0 when money=0, since there is exact one way to change 0. Think about 0！=1 and 0-combinations is 1. – Eastsun Sep 29 '13 at 7:57
Well..in my exercise I was asked to return 0 in that scenario :) – Ivan Guardado Oct 8 '13 at 16:56