# clojure lazy function - Clojure Koan

"Iteration provides an infinite lazy sequence"

`````` (= (range 20) (take 20 (iterate inc 0)))
``````

So my question is why it start from 0 instead of 1 ? How to understand the laziness here ?

-
`(iterate inc 0)` is an infinite sequence, but it is lazy in the sense that it will not generate more elements, than you asked for (20) –  denis.solonenko Feb 14 at 3:24

clojure.core/iterate takes two arguments:

1. the `fn` to apply to the last element in the sequence. When applied, it should produce the next element in the sequence

2. the initial value of the sequence

`(iterate inc 0)` has `0` as the initial element of the sequence.

``````(take 1 (iterate inc 0)) ;; (0)
``````
-
Yes, but still find strange to use it. Is there any thing I need to know about laziness ? e.g. Consequence of misuse. –  CodeFarmer Feb 14 at 3:07
In your example, if you `(take 3 ...)`, `inc` will be executed 2 times. The first element is provided by you, `0`, and `inc` is executed the remaining 2 times; each time the previous element as it's argument. –  Kyle Feb 14 at 3:09

The koan asks for the iteration to begin at zero because `range` starts at 0 by default, and that makes for nice looking statement. It is typical and useful in programming to start counting at 0 rather than 1. But, The koan could have been written to start at 1 (or any other number for that matter)

``````(= (range 1 21) (take 20 (iterate inc 1)))
``````

Here's how iterate is defined

``````user=> (source iterate)
(defn iterate
"Returns a lazy sequence of x, (f x), (f (f x)) etc. f must be free of side-effects"
:static true}
[f x] (cons x (lazy-seq (iterate f (f x)))))
``````

So, here's how `(iterate inc 0)` looks at first

``````(cons 0, (lazy-seq (iterate inc (inc 0))))
``````

Now when the special lazy-seq element at position 1 (that is, the second position since we count from 0) is first accessed, it is in effect replaced by its expansion.

`````` -- (iterate inc (inc 0))
-> (iterate inc 1)
-> (cons 1, (lazy-seq (iterate inc (inc 1))))
``````

So, the sequence now looks like

``````-- (cons 0, (lazy-seq (iterate inc (inc 0))))
-> (cons 0, (cons 1 (lazy-seq (iterate inc (inc 1)))))
``````

When the special lazy-seq element at position 2 is first accessed, it is in effect replaced by its expansion.

`````` -- (iterate inc (inc 1))
-> (iterate inc 2)
-> (cons 2, (lazy-seq (iterate inc (inc 2))))
``````

So, the sequence now looks like

`````` -- (cons 0, (cons 1 (lazy-seq (iterate inc (inc 1)))))
-> (cons 0, (cons 1, (cons 2, (lazy-seq (iterate inc (inc 2))))))
``````

Some consequences to be aware, but not typically anything to worry about as a new user

• Any side effects in the body are not executed until accessed, and then only once
• Because you can return a lazy sequence that is not fully realized, beware dependance on dynamic scope, e.g. returning within a `with-` block.
• If you hold a reference to a long/infinite lazy sequence, e.g. `(def numbers (iterate inc 0))` and realize a bunch of them, they will remain in memory. Avoid "holding the head" if this is to be a problem.
-