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# why scala doesn't make tail call optimization?

Just playing with continuations. The goal is to create function which will receive another function as parameter, and execution amount - and return function which will apply parameter given amount times.

The implementation looks pretty obvious

``````def n_times[T](func:T=>T,count:Int):T=>T = {
@tailrec
def n_times_cont(cnt:Int, continuation:T=>T):T=>T= cnt match {
case _ if cnt < 1 => throw new IllegalArgumentException(s"count was wrong \$count")
case 1 => continuation
case _ => n_times_cont(cnt-1,i=>continuation(func(i)))
}
n_times_cont(count, func)
}

def inc (x:Int) = x+1

val res1 = n_times(inc,1000)(1)  // Works OK, returns 1001

val res = n_times(inc,10000000)(1) // FAILS
``````

But there is no problem - this code fails with StackOverflow error. Why there is no tail-call optimization here?

p.s.

F# code, which is almost direct translation, is working without any issues

``````let n_times_cnt func count =
let rec n_times_impl count' continuation =
match count' with
| _ when count'<1 -> failwith "wrong count"
| 1 -> continuation
| _ -> n_times_impl (count'-1) (func >> continuation)
n_times_impl count func

let inc x = x+1
let res = (n_times_cnt inc 10000000) 1

printfn "%o" res
``````
-
possible duplicate of Does the JVM prevent tail call optimizations? – n.m. May 14 '13 at 9:29

The Scala standard library has an implementation of trampolines in `scala.util.control.TailCalls`. So revisiting your implementation... When you build up the nested calls with `continuation(func(t))`, those are tail calls, just not optimized by the compiler. So, let's build up a `T => TailRec[T]`, where the stack frames will be replaced with objects in the heap. Then return a function that will take the argument and pass it to that trampolined function:

``````import util.control.TailCalls._
def n_times_trampolined[T](func: T => T, count: Int): T => T = {
@annotation.tailrec
def n_times_cont(cnt: Int, continuation: T => TailRec[T]): T => TailRec[T] = cnt match {
case _ if cnt < 1 => throw new IllegalArgumentException(s"count was wrong \$count")
case 1 => continuation
case _ => n_times_cont(cnt - 1, t => tailcall(continuation(func(t))))
}
val lifted : T => TailRec[T] = t => done(func(t))
t => n_times_cont(count, lifted)(t).result
}
``````
-

I could be wrong here but I suspect that the `n_times_cont` inner function is properly converted to use tail recursion; the culprit's not there.

The stack is blown up by the collected `continuation` closures (i.e. the `i=>continuation(func(i))`) which make 10000000 nested calls to your `inc` method, once you apply the result of the main function.

in fact you can try

``````scala> val rs = n_times(inc, 1000000)
rs: Int => Int = <function1> //<- we're happy here

scala> rs(1) //<- this blows up the stack!
``````

As an aside, you can rewrite

`i=>continuation(func(i))`

as

`continuation compose func`

for the sake of greater readability

-
As I understand the whole idea of CPS is this collection of closures. But it looks like Scala just cannot make such construct working. stackoverflow.com/questions/8549433/… p.s. Thanks for compose trick, I didn't know about that – galkk May 14 '13 at 14:35
Yeah, you want that `i => ...` lambda to make a tail call to `continuation`, which `@tailrec` isn't going to do for you and nor is anything else in Scala land. You can build your own trampoline, I guess :) – Mysterious Dan May 14 '13 at 17:50
@MyseriousDan, well, "anything else in Scala land" may be a strong statement. The standard library has `util.control.TailCalls`... – huynhjl Jul 4 '13 at 3:58
@huynhjl hah, that's more or less what I meant by build your own trampoline :) – Mysterious Dan Jul 4 '13 at 14:57