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I'm trying to write a scala function which will recursively sum the values in a list. Here is what I have so far :

  def sum(xs: List[Int]): Int = {
    val num = List(xs.head)   
    if(!xs.isEmpty) {
      sum(xs.tail)
    }
    0
   }

I dont know how to sum the individual Int values as part of the function. I am considering defining a new function within the function sum and have using a local variable which sums values as List is beuing iterated upon. But this seems like an imperative approach. Is there an alternative method ?

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12  
Doing the progfun course? –  Noel M Sep 19 '12 at 14:40
1  
@NoelM Yes, that ok ? –  user701254 Sep 19 '12 at 14:56
2  
Might want to tag "homework" then... –  themel Sep 19 '12 at 15:10
2  
@themel I was going to but 'homework' tag is no longer recommended (according to tag description) –  user701254 Sep 19 '12 at 15:13
2  
Also note List.sum for when you don't need to write your own sum function. –  Brian Sep 19 '12 at 17:26

5 Answers 5

up vote 18 down vote accepted

Here's the the "standard" recursive approach:

def sum(xs: List[Int]): Int = {
  xs match {
    case x :: tail => x + sum(tail) // if there is an element, add it to the sum of the tail
    case Nil => 0 // if there are no elements, then the sum is 0
  }
}

And, here's a tail-recursive function. It will be more efficient than a non-tail-recursive function because the compiler turns it into a while loop that doesn't require pushing a new frame on the stack for every recursive call:

def sum(xs: List[Int]): Int = {
  @tailrec
  def inner(xs: List[Int], accum: Int): Int = {
    xs match {
      case x :: tail => inner(tail, accum + x)
      case Nil => accum
    }
  }
  inner(xs, 0)
}
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2  
Reading Odersky's "Programming in Scala 2nd edition", it seems that Scala (now) detects tail-recursion automatically. @tailrec shouldn't be necessary. Quote: Functions which call themselves as their last action, are called tail recursive. The Scala compiler detects tail recursion and replaces it with a jump back to the beginning of the function, after updating the function parameters with the new values. (p 203). So as long as the last thing you do is calling yourself, it's automatically tail-recursive (ie. optimized). –  kornfridge Jan 10 '13 at 11:16
    
In other words, your first code sample should be as efficient as the second. –  kornfridge Jan 10 '13 at 11:19
2  
@kornfridge, No, that is not correct. The first example, regardless of whether it has the annotation, is not tail-recursive since the last thing is does is add x to sum(tail); the second-to-last thing is does is make a recursive call to itself. See how that differs from the second example where the call to inner happens after the addition. –  dhg Jan 10 '13 at 17:06
3  
\@kornfridge, If i remember correct the @tailrec annotation at least checks that your function is tail recursive and generates an error otherwise. At least thats how i understood it. –  sveri Aug 8 '13 at 10:32

Also you can avoid using recursion directly and use some basic abstractions instead:

val l = List(1, 3, 5, 11, -1, -3, -5)
l.foldLeft(0)(_ + _) // same as l.foldLeft(0)((a,b) => a + b)

foldLeft is as reduce() in python. Also there is foldRight which is also known as accumulate (e.g. in SICP).

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very nice answer. –  Saeed Zarinfam Sep 15 '14 at 15:34

With recursion I often find it worthwhile to think about how you'd describe the process in English, as that often translates to code without too much complication. So...

"How do I calculate the sum of a list of integers recursively?"

"Well, what's the sum of a list, 3 :: restOfList?

"What's restOfList?

"It could be anything, you don't know. But remember, we're being recursive - and don't you have a function to calculate the sum of a list?"

"Oh right! Well then the sum would be 3 + sum(restOfList).

"That's right. But now your only problem is that every sum is defined in terms of another call to sum(), so you'll never be able to get an actual value out. You'll need some sort of base case that everything will actually reach, and that you can provide a value for."

"Hmm, you're right." Thinks...

"Well, since your lists are getting shorter and shorter, what's the shortest possible list?"

"The empty list?"

"Right! And what's the sum of an empty list of ints?"

"Zero - I get it now. So putting it together, the sum of an empty list is zero, and the sum of any other list is its first element added to the sum of the rest of it.

And indeed, the code could read almost exactly like that last sentence:

def sumList(xs: List[Int]) = {
    if (xs.isEmpty) 0
    else xs.head + sumList(xs.tail)
}

(The pattern matching versions, such as that proposed by Kim Stebel, are essentially identical to this, they just express the conditions in a more "functional" way.)

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The canonical implementation with pattern matching:

def sum(xs:List[Int]) = xs match {
  case Nil => 0
  case x::xs => x + sum(xs)
}

This isn't tail recursive, but it's easy to understand.

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Your code is good but you don't need the temporary value num. In Scala [If] is an expression and returns a value, this will be returned as the value of the sum function. So your code will be refactored to:

def sum(xs: List[Int]): Int = {
    if(xs.isEmpty) 0
    else xs.head + sum(xs.tail)

}

If list is empty return 0 else you add the to the head number the rest of the list

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hmm I just saw that @andrzej-doyle posted the same code before me –  Makis Arvanitis Sep 19 '12 at 15:22

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