Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm confused as to how def and let bind variables differently. Can someone explain to me why this works:

(def leven  
  (memoize (fn [x y]
  (cond (empty? x) (count y)
      (empty? y) (count x)
       :else (min (+ (leven (rest x) y) 1)
                  (+ (leven x (rest y)) 1)
                  (+ (leven (rest x) (rest y)) (if (= (first x) (first y)) 0 1))

But when I try to declare the function as let it fails to compile:

(def leven  
    (let [l (memoize (fn [x y]
    (cond (empty? x) (count y)
          (empty? y) (count x)
           :else (min (+ (l (rest x) y) 1)
                      (+ (l x (rest y)) 1)
                      (+ (l (rest x) (rest y)) (if (= (first x) (first y)) 0 1))
    (l x y)

EDIT: This works, using the technique showed by Ankur.

(defn leven [x y] 
(let [l (memoize (fn [f x y]
(cond (empty? x) (count y)
      (empty? y) (count x)
       :else (min (+ (f f (rest x) y) 1)
                  (+ (f f x (rest y)) 1)
                  (+ (f f (rest x) (rest y)) (if (= (first x) (first y)) 0 1))
magic (partial l l)]
(magic x y)
share|improve this question

2 Answers 2

up vote 5 down vote accepted

Below is such an example to do what you have asked for. I am using factorial just for the sake of simplicity and added println in factorial to make sure the memoization is working fine

(let [fact (memoize (fn [f x] 
                       (println (str "Called for " x))
                       (if (<= x 1) 1 (* x  (f f (- x 1))))))
      magic (partial fact fact)] 
     (magic 10)
     (magic 11))

First calculate factorial of 10 and then 11 in which case it should not again call factorial for 10 till 1 as that has been memoized.

Called for 10
Called for 9
Called for 8
Called for 7
Called for 6
Called for 5
Called for 4
Called for 3
Called for 2
Called for 1
Called for 11
share|improve this answer
Very interesting. So you are basically just passing in the function as an argument so the compiler doesn't get confused about it not being defined. I can't try this out now, but I'm going to try this approach later. –  onit Oct 18 '12 at 17:57

The let form binds names sequentially so in your second function definition the name l doesn't exist when you try to refer to it. You can either use letfn (with some minor mods) or give the defined function a name and instead refer to that instead, like so:

(def leven  
  (let [l (memoize (fn SOME-NAME [x y]
      (empty? x) (count y)
      (empty? y) (count x)
      :else (min (+ (SOME-NAME (rest x) y) 1)
                 (+ (SOME-NAME x (rest y)) 1)
                 (+ (SOME-NAME (rest x) (rest y)) (if (= (first x) (first y)) 0 1))))))]

As you might notice I change the return from the let to be l itself since that is what you want leven bound to. The (l x y) was problematic because it referred to bindings only local to the function and not accessible to the let.

share|improve this answer
Doesn't the function SOME-NAME lose the benefits of memoize when used like that? Don't you need to call the function memoize returns, or is it not possible to have a recursive memoized function in a let statement? –  onit Oct 18 '12 at 13:38
@onit The definition leven can be revised to gain the benefits of memoization by moving SOME-NAME in as the first argument: (fn [SOME-NAME x y], and then by also replacing calls to SOME-NAME to (SOME-NAME SOME-NAME ...) and finally by replacing the return value l to be (partial l l). –  Mike Fikes Dec 12 '14 at 14:05

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.