generic timer high-order function in OCaml

I am trying to implement a generic timer function in OCaml which will take as input a function of arbitrary arity and return type 'r and returns a function with:

• the same arity and types of input parameters , and
• return type `float * 'r` where the float would be a metric of the time spent in the function (e.g. reported by `Sys.time()`)

The problem is I can't implement it in such a way that it can handle functions of any arity. E.g. the following code:

```let timer f =
let timerf x y =
let t0 = Sys.time ()
in let result = f x y
in let diff = Sys.time() -. t0
in diff, result
in timerf
```

works only with functions of input arity 2. It is not obvious to me how to generalize it to handle functions of any arity. I was hoping the partial function applications would somehow magically solve the conundrum but I can't get it to work.

-

I understand your intention of making a timer function with arbitrary arity. But you cannot do it in an easy way in OCaml.

Moreover, a timer function with only one param is enough for use in practice:

``````let timer f x =
let t0 = Sys.time()
in let result = f x
in let diff = Sys.time() -. t0
in diff, result
``````

Since any function `g` with any arity can be passed to `timer` easily by:

``````let diff, result = timer (fun () -> g x1 x2 x3 ... xN) ()
``````

or better by using partial application (as suggested by @Andreas):

``````let diff, result = timer (g x1 x2 x3 ... xN-1) xN
``````
-
If you know that the function doesn't do anything interesting when partially applied (like most functions) then you don't even need the abstraction. It is sufficient to call `timer (g x1 x2 ... xN-1) xN`. – Andreas Rossberg Apr 5 '12 at 14:54

A remark on pad's solution that was too verbose to fit a comment.

In practice I found it was a better design to enforce `f : unit -> 'a` by passing `()` instead of a delayed argument.

``````let timer f =
let t0 = Sys.time() in
let result = f () in
let t1 = Sys.time() in
t1 -. t0, result
``````

The reason why is that I tend to use the following pattern quite often:

``````let fun_to_test = match some_configuration with ... in
timer fun_to_test
``````

pad's design, which is more appealing at first because more general, encourages you to instead write:

``````let fun_to_test, arg = match some_configuration with .... in
timer fun_to_test arg
``````

The problem with this choice is that it seems fine at first, and after adding a few options you encounter a case where the arguments to the different functions to test are not of the same type. And you have a type error. Example of wrong code:

``````let fun_to_test, arg =
if Random.bool ()
then (foo, 3)
else (bar, 3.2)
in timer fun_to_test arg
``````

By forcing a closure with parameters pre-passed, I get "an existential type" for free here: the type of the last function argument does not appear in the type of `timer` application. I found this to be better in practice.

Of course, you can also delay the full call and use `()` as argument in pad's design. But I prefer a choice that forces me to do this, because otherwise I'm too tempted not to do it, and I pay it later.

-
my experience seconds this – ygrek Apr 5 '12 at 14:58