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I wanted to memoize this:

def fib(n: Int) = if(n <= 1) 1 else fib(n-1) + fib(n-2)
println(fib(100)) // times out

So I wrote this and this surprisingly compiles and works (I am surprised because fib references itself in its declaration):

case class Memo[A,B](f: A => B) extends (A => B) {
  private val cache = mutable.Map.empty[A, B]
  def apply(x: A) = cache getOrElseUpdate (x, f(x))
}

val fib: Memo[Int, BigInt] = Memo {
  case 0 => 0
  case 1 => 1
  case n => fib(n-1) + fib(n-2) 
}

println(fib(100))     // prints 100th fibonacci number instantly

But when I try to declare fib inside of a def, I get a compiler error:

def foo(n: Int) = {
  val fib: Memo[Int, BigInt] = Memo {
    case 0 => 0
    case 1 => 1
    case n => fib(n-1) + fib(n-2) 
  }
  fib(n)
} 

Above fails to compile error: forward reference extends over definition of value fib case n => fib(n-1) + fib(n-2)

Why does declaring the val fib inside a def fails but outside in the class/object scope works?

To clarify, why I might want to declare the recursive memoized function in the def scope - here is my solution to the subset sum problem:

/**
   * Subset sum algorithm - can we achieve sum t using elements from s?
   *
   * @param s set of integers
   * @param t target
   * @return true iff there exists a subset of s that sums to t
   */
  def subsetSum(s: Seq[Int], t: Int): Boolean = {
    val max = s.scanLeft(0)((sum, i) => (sum + i) max sum)  //max(i) =  largest sum achievable from first i elements
    val min = s.scanLeft(0)((sum, i) => (sum + i) min sum)  //min(i) = smallest sum achievable from first i elements

    val dp: Memo[(Int, Int), Boolean] = Memo {         // dp(i,x) = can we achieve x using the first i elements?
      case (_, 0) => true        // 0 can always be achieved using empty set
      case (0, _) => false       // if empty set, non-zero cannot be achieved
      case (i, x) if min(i) <= x && x <= max(i) => dp(i-1, x - s(i-1)) || dp(i-1, x)  // try with/without s(i-1)
      case _ => false            // outside range otherwise
    }

    dp(s.length, t)
  }
share|improve this question
2  
See my blog post for another variant for memoization of recursive functions. –  michid May 1 '13 at 21:10
1  
Before I post anything to SO, I Google it and your blog post was the first result :) It is the "right" way to do this I agree - using the Y-combinator. But, I think using my style and exploiting lazy val looks cleaner than having 2 definitions (the recursive one and the Y-combined one) for each function. Looks how clean this [looks](1) [1]: github.com/pathikrit/scalgos/blob/master/src/main/scala/com/… –  wrick May 1 '13 at 21:39
    
I was confused by some of the terseness of the syntax in your problem above (specifically the case class's use of "extend (A => B)". I posted a question about it: stackoverflow.com/questions/19548103/… –  chaotic3quilibrium Oct 23 '13 at 20:23
    
Use this patten in caution with the concurrency issue brought by Map: stackoverflow.com/questions/6806123/… –  lcn Dec 8 '13 at 18:54
    
The question asked in the body and the accepted answer has nothing to do with the title of this question. Could you change the title? –  user239558 Mar 15 at 23:03

1 Answer 1

up vote 12 down vote accepted

Class/trait level val compiles to a combination of a method and a private variable. Hence a recursive definition is allowed.

Local vals on the other hand are just regular variables, and thus recursive definition is not allowed.

By the way, even if the def you defined worked, it wouldn't do what you expect. On every invocation of foo a new function object fib will be created and it will have its own backing map. What you should be doing instead is this (if you really want a def to be your public interface):

private val fib: Memo[Int, BigInt] = Memo {
  case 0 => 0
  case 1 => 1
  case n => fib(n-1) + fib(n-2) 
}

def foo(n: Int) = {
  fib(n)
} 
share|improve this answer
    
The 'foo' and 'fib' is just a simplification - in my case foo is the subset-sum problem and fib is the recursive memoization on the input set and thus I cannot simply extract my memoized function outside the method. Can you explain what you mean by "class level val compiles to combination of a method and a private variable" part? What are other differences I should be aware of between class and method vals? –  wrick Apr 27 '13 at 22:50
    
i) What prevents you from extracting it outside of the method? ii) When you write val x = N at a class/trait level, what you get is def x = _x and a private val _x = N. You should find this explanation in any Scala book. I can't recall off the top of my head any other differences between field vals and local vals. –  missingfaktor Apr 28 '13 at 6:44
7  
A work around you can use even in the local scope: Make fib a lazy val. Then you should be able to recur on it in local scope as well. –  missingfaktor Apr 28 '13 at 6:45
    
If it used mutable state and val. Does it mean that it is not thread-safe? –  ses Apr 21 '14 at 20:13
    
@ses, yes, that's right. –  missingfaktor May 3 '14 at 19:37

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