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)
```

`(defn stuff [] (lazy-seq (stuff)))`

`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)`

`primes`

works and wrote about it in a blog post: phillippe.siclait.com/blog/primes-lazy-sequence4more comments