Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I have a recursive function fact, which can be called from either an expression inside it or an expression outside it.

I would like to associate fact with a variable v, such that each time fact is called from outside (another function), v is initialized, and its value can be changed inside fact, but never can be initialized when fact is called from inside.

The following code suits my need, but one problem is that v is defined as a global variable, and I have to do v := init before calling fact from outside, which I do not find beautiful.

let init = 100
let v = ref init

let rec fact (n: int) : int =
  v := !v + 1;
  if n <= 0 then 1 else n * fact (n - 1)

let rec fib (n: int) : int =
  if n <= 0 then 0 
  else if n = 1 then (v := !v + 50; 1)
  else fib (n-1) + fib (n-2)

let main =
  v := init;
  print_int (fact 3);
  print_int !v; (* 104 is expected *)

  v := init;
  print_int (fib 3);
  print_int !v;; (* 200 is expected *)

Could anyone think of a better implementation?

share|improve this question
While the variable v has a larger scope than the fact function, I wouldn't call it static. – huitseeker Dec 28 '11 at 20:24
@huitseeker: I guess the terminology comes from C, where if you define a local function variable as static, it is only initialized at first call, and the same value is reused at later call. This is quite often used to propagate internal information across function calls. (There are even languages such as early Fortrans where all function variables were static, that is the compiler had no concept of dynamic frame allocation on the stack, everything was allocated at compile-time, and in particular you could not have two calls of the same function live at the same time; no recursion.) – gasche Dec 28 '11 at 23:26
up vote 2 down vote accepted

You can adapt Martin's solution so that data is shared across various calls:

let fact =
  let counter = ref 0 in
  fun n ->
    let rec fact = ... in     
    fact n

The idea is to transform let fact = fun n -> let counter = ... in ... into let fact = let counter = ... in fun n -> ...: counter is initialized once, instead of at each call of fact.

A classical example of this style is:

let counter =
  let count = ref (-1) in
  fun () ->
    incr count;

Beware however that you may get into typing trouble if the function was meant to be polymorphic: let foo = fun n -> ... is always generalized into a polymorphic function, let foo = (let x = ref ... in fun n -> ...) is not, as that would be unsound, so foo won't have a polymorphic type.

You can even generalize the counter example above to a counter factory:

let make_counter () =
  let count = ref (-1) in
  fun () ->
    incr count;

For each call to make_counter (), you get a new counter, that is a function that shares state across call, but whose state is independent from previous make_counter () counter creations.

share|improve this answer

You can hide the function and value definitions within the body of a containing function as follows:

open Printf

let init = 100

let fact n =
  let rec fact counter n =
    incr counter;
    if n <= 0 then 1 else n * fact counter (n - 1)
  let counter = ref init in
  let result = fact counter n in
  (result, !counter)

let main () =
  let x, count = fact 3 in
  printf "%i\n" x;
  printf "counter: %i\n" count (* 104 is expected *)

let () = main ()
share|improve this answer
Thanks for your comment... I have one remark about your code: If the inner fact contains two calls of fact inside, the values of their counter are independent with each other, that is not exactly what I want : ... and its value can be changed inside fact ... – SoftTimur Dec 28 '11 at 19:43
Or let fact n = let counter = ref init in let rec fact n = ... – Pascal Cuoq Dec 28 '11 at 19:44
I have added fib in my OP to illustrate what I want... – SoftTimur Dec 28 '11 at 19:57

With Ocaml's objects, you can do:

class type fact_counter = object ('self)
  method get : int
  method set : int -> unit
  method inc : unit
  method fact : int -> int

class myCounter init : fact_counter = object (self)
  val mutable count = init
  method get = count
  method set n = count <- n
  method inc = count <- count + 1
  method fact n =
    if n <= 0 then 1 else n * self#fact (n - 1)

Then you can obtain:

# let c = new myCounter 0;;
val c : myCounter = <obj>
# c#fact 10;;              
- : int = 3628800
# c#get;;                  
- : int = 11
# c#set 42;;               
- : unit = ()
# c#fact 10;;              
- : int = 3628800
# c#get;;    
- : int = 53

I hope you can easily see how to adapt myCounter to include fib ...

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.