Edit: I discovered a partial answer to my own question in the process of writing this, but I think it can easily be improved upon so I will post it anyway. Maybe there's a better solution out there?
I am looking for an easy way to define recursive functions in a
let form without resorting to
letfn. This is probably an unreasonable request, but the reason I am looking for this technique is because I have a mix of data and recursive functions that depend on each other in a way requires a lot of nested
I wanted to write the recursive functions that generate lazy sequences like this (using the Fibonacci sequence as an example):
(let [fibs (lazy-cat [0 1] (map + fibs (rest fibs)))] (take 10 fibs))
But it seems in clojure that
fibs cannot use it's own symbol during binding. The obvious way around it is using
(letfn [(fibo  (lazy-cat [0 1] (map + (fibo) (rest (fibo)))))] (take 10 (fibo)))
But as I said earlier this leads to a lot of cumbersome nesting and alternating
To do this without
letfn and using just
let, I started by writing something that uses what I think is the U-combinator (just heard of the concept today):
(let [fibs (fn [fi] (lazy-cat [0 1] (map + (fi fi) (rest (fi fi)))))] (take 10 (fibs fibs)))
But how to get rid of the redundance of
It was at this point when I discovered the answer to my own question after an hour of struggling and incrementally adding bits to the combinator Q.
(let [Q (fn [r] ((fn [f] (f f)) (fn [y] (r (fn  (y y)))))) fibs (Q (fn [fi] (lazy-cat [0 1] (map + (fi) (rest (fi))))))] (take 10 fibs))
What is this
Q combinator called that I am using to define a recursive sequence? It looks like the Y combinator with no arguments
x. Is it the same?
(defn Y [r] ((fn [f] (f f)) (fn [y] (r (fn [x] ((y y) x))))))
Is there another function in clojure.core or clojure.contrib that provides the functionality of Y or Q? I can't imagine what I just did was idiomatic...