# What's the reason of marking a recursive function as rec in F#?

I am not sure if this is a stupid question but I was going through the tutorial that comes with VS 2010 and there is a function like this:

``````let rec factorial n = if n=0 then 1 else n * factorial (n-1)
``````

What's the reason of this recursive function to be marked with the rec keyword?

Is it so that the compiler is assured of it being recursive so can do certain optimizations?

What happens if you exclude it?

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Maybe duplicate? stackoverflow.com/questions/900585/… –  Stringer Sep 17 '10 at 23:09
Thanks they seem similar, will read that too. –  Joan Venge Sep 17 '10 at 23:14

This might be instructive:

``````let Main() =
let f(x) =
printfn "original f: %d" x
let f(x) =
//let rec f(x) =
printfn "entered new f: %d" x
if x > 0 then
f(x-1)
else
printfn "done"
f(3)
Main()
``````

That prints

``````entered new f: 3
original f: 2
``````

Now if we comment out `let` and uncomment `let rec`, then it prints

``````entered new f: 3
entered new f: 2
entered new f: 1
entered new f: 0
done
``````

So from that point of view, it's just about name binding; `let rec` puts the identifier in scope immediately (in this example, shadowing the previous `f`), whereas `let` puts the identifier in scope only after its body is defined.

The motivation for the rule does stem from interactions with type inference.

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That's a very educative example on binding, shadowing, and scoping :-). –  Edgar Sánchez Sep 18 '10 at 20:19
+1 but "The motivation for the rule does stem from interactions with type inference" could do with some clarification. –  Jon Harrop Dec 30 '10 at 2:00

According to Chris Smith (works on the F# team) -

It's to inform the type inference system to allow the function to be used as part of the type inference process. rec allows you to call the function before the type inference system has determined the function's type

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Otherwise the type inference system would go into an infinite loop? If that's why, then makes sense. –  Joan Venge Sep 17 '10 at 23:13
Really, is that all? Taking this point in, I wonder if I can write a recursive function without `rec` if I explicitly define all of the types... experiment time! –  sholsapp Sep 17 '10 at 23:27
Without `rec`, you'd also have to define the function itself beforehand. But you'd have to define the function first, since it wouldn't be available within its own scope. But first, you'd have to define the function. After you defined the function. Once the function was defined. Which would require defining the function. ad infinitum. –  cHao Sep 17 '10 at 23:31
Baiscally it allows you to use it at the same time it is defined –  BlackTigerX Sep 17 '10 at 23:52
@gnucom, cHao - all you need is the fix point function! –  SoftMemes Sep 23 '10 at 20:11
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According to the MSDN, it's only a syntatic necessity:

Recursive functions, functions that call themselves, are identified explicitly in the F# language. This makes the identifer that is being defined available in the scope of the function.

http://msdn.microsoft.com/en-us/library/dd233232.aspx

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+1 for being the only answer here to get this correct. –  Jon Harrop Mar 22 '11 at 23:43

It's necessary so that the function can be recursive. A non-`rec` function only knows about bindings at the place where it's defined, not after (so it doesn't know about itself).

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Thanks Chuck. What do you mean by bindings? Is it like scoping? –  Joan Venge Sep 17 '10 at 23:20
@Joan Venge: a binding is basically a variable name and its associated value. In this case it means that you cannot use the function inside of itself, because it only gets bound to the name after the `let`. `let rec` makes the names that are being bound available inside the binding expression itself. –  Jörg W Mittag Sep 17 '10 at 23:53
@Jorg, thanks that makes sense. –  Joan Venge Sep 18 '10 at 0:41

What's the reason of this recursive function to be marked with the rec keyword?

To tell the compiler that any uses of the function name inside the body of the function refer to it recursively rather than to a previously-defined value of the same name.

Is it so that the compiler is assured of it being recursive so can do certain optimizations?

No.

What happens if you exclude it?

You lose the ability for the function you are defining to refer to itself in its function body and gain the ability to refer to previously-defined values of the same name.

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