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I'd like to know how to create an infinite, impure sequence of unique values in Clojure.

(def generator ...) ; def, not defn
(take 4 generator) ; => (1 2 3 4)
(take 4 generator) ; => (5 6 7 8). note the generator's impurity.

I think that such a design could be more convenient than e.g. wrapping a single integer value into a reference type and increment it from its consumers, as:

  • The proposed approach reduces the implementation details to a single point of change: the generator. Otherwise all the consumers would have to care about both the reference type (atom), and the concrete function that provides the next value (inc)
  • Sequences can take advantage many clojure.core functions. 'Manually' building a list of ids out of an atom would be a bit bulky: (take 4 (repeatedly #(swap! _ inc)))

I couldn't come up with a working implementation. Is it possible at all?

share|improve this question
up vote 5 down vote accepted

You can wrap a lazy sequence around an impure class (like a java.util.concurrent.atomic.AtomicLong) to create an id sequence:

(def id-counter (java.util.concurrent.atomic.AtomicLong.))

(defn id-gen []
   (.getAndIncrement id-counter)

This works, but only if you don't save the head of the sequence. If you create a var that captures the head:

(def id-seq (id-gen))

Then call it repeatedly, it will return ids from the beginning of the sequence, because you've held onto the head of the sequence:

(take 3 id-seq)
;; => (0 1 2)
(take 3 id-seq)
;; => (0 1 2)
(take 3 id-seq)
;; => (0 1 2)

If you re-create the sequence though, you'll get fresh values because of the impurity:

(take 3 (id-gen))
;; (3 4 5)
(take 3 (id-gen))
;; (6 7 8)
(take 3 (id-gen))
;; (9 10 11)

I only recommend doing the following for educational purposes (not production code), but you can create your own instance of ISeq which implements the impurity more directly:

(def custom-seq
     (reify clojure.lang.ISeq
            (first [this] (.getAndIncrement id-counter))
            (next  [this] (.getAndIncrement id-counter))
            (cons  [this thing]
                   (cons thing this))
            (more [this] (cons
                          (.getAndIncrement id-counter)
            (count [this] (throw (RuntimeException. "count: not supported")))
            (empty [this] (throw (RuntimeException. "empty: not supported")))
            (equiv [this obj] (throw (RuntimeException. "equiv: not supported")))
            (seq   [this] this)))

(take 3 custom-seq)
;; (12 13 14)
(take 3 custom-seq)
;; (15 16 17)
share|improve this answer
Awesome :) While I generally value immutability, I wonder in which ways could an application's correctness suffer if we opted for reifying ISeq. – vemv Jan 4 '13 at 3:14
btw next is incorrectly implemented – vemv Jan 4 '13 at 3:22

I had a fun time discovering something during answering your question. The first thing that occured to me was that perhaps, for whatever ultimate goal you need these IDs for, the gensym function might be helpful.

Then, I thought "well hey, that seems to increment some impure counter to generate new IDs" and "well hey, what's in the source code for that?" Which led me to this:

(. clojure.lang.RT (nextID))

Which seems to do what you need. Cool! If you want to use it the way you suggest, then I would probably make it a function:

(defn generate-id []
  (. clojure.lang.RT (nextID)))

Then you can do:

user> (repeatedly 5 generate-id)
=> (372 373 374 375 376)

I haven't yet tested whether this will produce always unique values "globally"--I'm not sure about terminology, but I'm talking about when you might be using this generate-id function from within different threads, but want to still be sure that it's producing unique values.

share|improve this answer
+1 for diving into the Clojure impl, I just love learning how it works. But after (def a (repeatedly generate-id)), (take 5 a) will always return the same... – vemv Jan 4 '13 at 3:05
On looking again, I see that my answer is just a different way of doing what you already said you didn't want. – Omri Bernstein Jan 4 '13 at 3:05

this is another solution, maybe:

user=> (defn positive-numbers
          ([] (positive-numbers 1))
          ([n] (cons n (lazy-seq (positive-numbers (inc n))))))
user=> (take 4 (positive-numbers))
(1 2 3 4)
user=> (take 4 (positive-numbers 5))
(5 6 7 8)
share|improve this answer
I don't think your solution (which is pretty amusing anyway) conforms to my request - it is pure! – vemv Jan 4 '13 at 2:43

A way that would be more idiomatic, thread-safe, and invites no weirdness over head references would be to use a closure over one of clojures built in mutable references. Here is a quick sample I worked up since I was having the same issue. It simply closes over a ref.

(def id-generator (let [counter (ref 0)]
                (fn [] (dosync (let [cur-val @counter] 
                         (do (alter counter + 1)

Every time you call (id-generator) you will get the next number in the sequence.

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Here's another quick way:

user> (defn make-generator [& [ii  init]]
  (let [a (atom (or ii 0 ))
        f #(swap! a inc)]
    #(repeatedly f)))
user> (def g (make-generator))
user> (take 3 (g))
(1 2 3)
user> (take 3 (g))
(4 5 6)
user> (take 3 (g))
(7 8 9)
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This is hack but it works and it is extremely simple

; there be dragons !
(defn id-gen [n] (repeatedly n (fn [] (hash #()))))
(id-gen 3) ; (2133991908 877609209 1060288067 442239263 274390974)

Basically clojure creates an 'anonymous' function but since clojure itselfs needs a name for that, it uses uniques impure ids to avoid collitions. If you hash a unique name then you should get a unique number.

Hope it helps

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