3

Suppose I wrote:

(def stuff
  (lazy-seq stuff))

When I ask for the value of stuff in REPL, I would expect it to be stuck in an infinite loop, since I'm defining stuff as itself(which pretty much says nothing about this sequence at all).

However, I got an empty sequence instead.

> stuff
()

Why?

Edit: By "recursive" I meant recursive data, not recursive functions.

I'm still confused about why the sequence terminated. As a comparison, the following code is stuck in infinite loop(and blows the stack).

(def stuff
  (lazy-seq (cons (first stuff) [])))

Some background: This question arises from me trying to implement a prime number generator using the sieve of Eratosthenes. My first attempt was:

(def primes
  (lazy-seq (cons 2
                  (remove (fn [x]
                            (let [ps (take-while #(< % x) primes)]
                              (some #(zero? (mod x %)) ps)))
                          (range 3 inf))))) ;; My customized range function that returns an infinite sequence

I figured that it would never work, since take-while would keep asking for more primes even if they could not be calculated yet. So it surprised me when it worked pretty well.

> (take 20 primes)
(2 3 5 7 11 13 17 19 23 29 31 37 41 43 47 53 59 61 67 71)
9
  • You need to be more specific. You may wish to read these documentation sources, esp Getting Clojure and Brave Clojure: github.com/io-tupelo/clj-template#documentation
    – Alan Thompson
    May 25 '20 at 18:50
  • it couldn't produce infinite loop, since there is no function call there. what would produce an infinite loop as expected is (defn stuff [] (lazy-seq (stuff)))
    – leetwinski
    May 25 '20 at 19:39
  • @leetwinski It is possible to produce an infinite loop with only lazy sequences. See my edits.
    – Yizhe Sun
    May 26 '20 at 3:57
  • take-while is limited by x, and x is a current primes 'cap', so it will never ask for more primes over the ones that are already generated. Also range already produces infinite seq, no need to customize it. (drop 3 (range)), or (iterate inc 3)
    – leetwinski
    May 26 '20 at 4:55
  • 1
    @YizheSun I looked into why @leetwinski's definition for primes works and wrote about it in a blog post: phillippe.siclait.com/blog/primes-lazy-sequence
    – Phillippe Siclait
    Jun 3 '20 at 20:43
6

First, each lazy seq can only be realized once. Second, your definition of stuff doesn't use recursion — stuff isn't a function. If you look at the definition of lazy-seq, you can see that your definition of stuff expands to

(def stuff (new clojure.lang.LazySeq (fn* [] stuff)))

When the fn arg to the clojure.lang.LazySeq constructor is invoked, it returns the same lazy seq that has already been realized. So, when you attempt to print the lazy seq to the REPL, iteration immediately terminates and returns nil.

You can verify that the type of stuff is clojure.lang.LazySeq

user=> (type stuff)
clojure.lang.LazySeq

and that after printing stuff to the REPL, stuff has been realized

user=> (realized? stuff)
false
user=> stuff
()
user=> (realized? stuff)
true

You can use recursion to get the effect that you expected

user=> (defn stuff
         []
         (lazy-seq (stuff)))
#'user/stuff
user=> (stuff) ;; Hangs forever.
2
  • When was stuff realized for the first time? And what was the value? Also see my edits.
    – Yizhe Sun
    May 26 '20 at 4:20
  • stuff is realized when you send the symbol to the REPL, because to print the LazySeq, its seq method is called. The value of stuff is an instance of clojure.lang.LazySeq. If you look at the source for LazySeq, you can trace the logic. After seq is called, all of the Java object’s fields are null. It appears as an empty sequence in the REPL because that's how print-method is defined for objects x which implement ISeq where (seq x) is nil.
    – Phillippe Siclait
    May 26 '20 at 17:56

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