# Is there a generic way to memoize in Scala?

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)
}
``````
-
See my blog post for another variant for memoization of recursive functions. –  michid May 1 '13 at 21:10
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

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

Local `val`s 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)
}
``````
-
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 `val`s? –  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 `val`s and local `val`s. –  missingfaktor Apr 28 '13 at 6:44
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