# How to do recursion in anonymous fn, without tail recursion

How do I do recursion in an anonymous function, without using tail recursion?

For example (from Vanderhart 2010, p 38):

``````(defn power
[number exponent]
(if (zero? exponent)
1
(* number (power number (- exponent 1)))))
``````

Let's say I wanted to do this as an anonymous function. And for some reason I didn't want to use tail recursion. How would I do it? For example:

``````( (fn [number exponent] ......))))) 5 3)
125
``````

Can I use loop for this, or can loop only be used with recur?

-

The `fn` special form gives you the option to provide a name that can be used internally for recursion.

``````(doc fn)
;=> (fn name? [params*] exprs*)
``````

``````(fn power [n e]
(if (zero? e)
1
(* n (power n (dec e)))))
``````

Even if the recursion happened in the tail position, it will not be optimized to replace the current stack frame. Clojure enforces you to be explicit about it with `loop`/`recur` and `trampoline`.

-
Thanks Jeremy, I didn't know about the name option. I'm working through the 4clojure questions and they don't allow defn. Tail recursion is obviously better, but I want to walk before I run :) –  Sonia Hamilton May 8 '12 at 6:40

I know that in Clojure there's syntactic support for "naming" an anonymous function, as other answers have pointed out. However, I want to show a first-principles approach to solve the question, one that does not depend on the existence of special syntax on the programming language and that would work on any language with first-order procedures (lambdas).

In principle, if you want to do a recursive function call, you need to refer to the name of the function so "anonymous" (i.e. nameless functions) can not be used for performing a recursion ... unless you use the Y-Combinator. Here's an explanation of how it works in Clojure.

Let me show you how it's used with an example. First, a `Y-Combinator` that works for functions with a variable number of arguments:

``````(defn Y [f]
((fn [x] (x x))
(fn [x]
(f (fn [& args]
(apply (x x) args))))))
``````

Now, the anonymous function that implements the `power` procedure as defined in the question. Clearly, it doesn't have a name, `power` is only a parameter to the outermost function:

``````(fn [power]
(fn [number exponent]
(if (zero? exponent)
1
(* number (power number (- exponent 1))))))
``````

Finally, here's how to apply the `Y-Combinator` to the anonymous `power` procedure, passing as parameters `number=5` and `exponent=3` (it's not tail-recursive BTW):

``````((Y
(fn [power]
(fn [number exponent]
(if (zero? exponent)
1
(* number (power number (- exponent 1)))))))
5 3)

> 125
``````
-
Gracias Óscar. The Y-Combinator looks very interesting - I'm going to study it more! –  Sonia Hamilton May 8 '12 at 6:44

`fn` takes an optional name argument that can be used to call the function recursively.

E.g.:

``````user> ((fn fact [x]
(if (= x 0)
1
(* x (fact (dec x)))))
5)
;; ==> 120
``````
-
Thanks Greg, it seems the name option is the way to go. –  Sonia Hamilton May 8 '12 at 6:48

Yes you can use `loop` for this. `recur` works in both `loop`s and `fn`s

``````user> (loop [result 5 x 1] (if (= x 3) result (recur (* result 5) (inc x))))
125
``````

an idomatic clojure solution looks like this:

``````user> (reduce * (take 3 (repeat 5)))
125
``````

or uses Math.pow() ;-)

``````user> (java.lang.Math/pow 5 3)
125.0
``````
-
But the question was "without doing tail recursion" :-) –  Sonia Hamilton May 8 '12 at 6:46

loop can be a recur target, so you could do it with that too.

-
But the question was "without doing tail recursion" :-) –  Sonia Hamilton May 8 '12 at 6:46
:-) I kknow, but recur does not do recursion, the compiler will fixup a loop for you (even in the tail recursion situation). So sort of not. –  Bill May 8 '12 at 12:07