# coin change algorithm in scala using recursion

I am trying to program the coin change problem in Scala using recursion. The code that i have written is as follows.

def countChange(money: Int, coins: List[Int]): Int = {
def ways(change: List[Int], size: Int, capacity: Int): Int = {
if(capacity == 0) 1
if((capacity < 0) || (size <= 0)) 0

//println and readLine to check and control each recursive call.

println("calling ways(",change, change.length-1, capacity,") + ways(",change,   change.length, capacity - change(change.length - 1),")")
//

ways(change, change.length-1, capacity) + ways(change, change.length, capacity - change(change.length - 1))
}
ways(coins, coins.length, money)
}


On running the code, it does not terminate and keeps on calling the first recursive call. Where am I going wrong?

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Duplicate of stackoverflow.com/q/15859432/1305344 – Jacek Laskowski Apr 8 '13 at 7:15
Isn't this a violation of coursera honor code?! – ducin Oct 6 '14 at 7:18
@ducin says you who arrived here searching for it ;-D – Iain Sep 23 '15 at 21:42
@iain trolling isn't welcome here – ducin Sep 24 '15 at 7:39
@ducin Did not intend any insult, just a friendly joke. Perhaps cultural diff. – Iain Oct 6 '15 at 3:46

Simply stating a value does not make Scala return it; you either need an explicit return, or it has to be the last item stated. Thus:

if (capacity == 0) return 1


or

if (capacity == 0) 1
else if (...)
else { ... }

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are you sure it works? i'm still having the same problem as stated earlier – Muavia Sep 27 '12 at 21:22
@user1050258 - Well, that wasn't the only problem--you also use change.length-1 instead of size-1 in various places. You don't update change itself in your solution! (Hint: if you did update change, then you would have avoided this bug and wouldn't need the size argument....) – Rex Kerr Sep 27 '12 at 21:37

Here is my implementation: I have tested it and it works fine

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

def count(capacity: Int, changes: List[Int]): Int = {
if(capacity == 0)
1
else if(capacity < 0)
0
else if(changes.isEmpty && capacity>=1 )
0
else
count(capacity, changes.tail) + count(capacity - changes.head, changes)
}

count(money, coins.sortWith(_.compareTo(_) < 0))
}

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Nice! Although, I think changing names (money -> capacity, coins -> changes) makes it harder to understand. – Filip Spiridonov Nov 8 '13 at 12:29
is the sorting really needed? – Verneri Åberg Mar 10 '14 at 21:53
I have a question am new to scala : how does the compiler reads this line : count(capacity, changes.tail) + count(capacity - changes.head, changes) ? I know how the recursion works but am having problem understanding how the compiler executes the last line – moe May 13 '14 at 10:01
@moe you may choose to watch week 1 lecture of this course by Martin Odersky class.coursera.org/progfun-004/lecture/4 – Sutikshan Dubey Jun 30 '14 at 12:48

Nice and simple

def countChange(money: Int, coins: List[Int]): Int = {
if(money == 0)
1
else if(money > 0 && !coins.isEmpty)
countChange(money - coins.head, coins) + countChange(money, coins.tail)
else
0
}

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Hey I just thought it would be better to see not only the amount but also the list of them, so put on top of the above example like :

  def moneyChanges(money: Int, coins: List[Int]) : Option[List[Seq[Int]]]= {
var listOfChange=List[Seq[Int]]()
def changeMoney(capacity: Int, changes: List[Int], listOfCoins: Option[Seq[Int]]): Int = {
if (capacity == 0) {
listOfChange = listOfCoins.get :: listOfChange
1
} else if (capacity < 0)
0
else if (changes.isEmpty && capacity >= 1)
0
else {
changeMoney(capacity, changes.tail, listOfCoins) +
changeMoney(capacity - changes.head, changes,
}
}

changeMoney(money, coins.sortWith(_.compareTo(_) < 0), None)
Some(listOfChange)


}

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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

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