# Applying the Y-Combinator to a recursive function with two arguments in Clojure?

Doing the Y-Combinator for a single argument function such as factorial or fibonacci in Clojure is well documented: http://rosettacode.org/wiki/Y_combinator#Clojure

My question is - how do you do it for a two argument function such as this getter for example?

(Assumption here is that I want to solve this problem recursively and this non-idiomatic clojure code is there deliberately for another reason)

[non y-combinator version]

``````(defn get_ [n lat]
(cond
(empty? lat) ()
(= 0 (- n 1)) (first lat)
true (get_ (- n 1) (rest lat))))

(get_ 3 '(a b c d e f g h i j))
``````
-
`(= 0 (- n 1))` is really an elaborate way to say `(= n 1)`. Why are the fourth and fifth line indented more than the third, by the way? –  Svante Aug 14 '10 at 12:59
Is there any specific reason to make this getter 1-based? –  Svante Aug 14 '10 at 13:01

The number of args doesn't change anything since the `args` are `apply`'d. You just need to change the structure of `get_`:

```(defn get_ [f]
(fn [n lat]
(cond
(empty? lat) ()
(= 1 n) (first lat)
:else (f (dec n) (next lat)))))

(defn Y [f]
((fn [x] (x x))
(fn [x]
(f (fn [& args]
(apply (x x) args))))))
```
```user=> ((Y getf) 3 '(a b c d e f g h i j))
c
```
-

It'd be pretty straight forward.

Say you've got a function H:

``````(def H
(fn [x]
(fn [x y]
(stuff happens))))
``````

Then you apply the same ol' Y-Combinator:

``````((Y H) 4 5)
``````

Where `4` and `5` are arguments you want to pass to H.

The combinator is essentially "dealing with" the top-level function in H, not the one that's doing the hard work (the one with arity 2, here).

-