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I want to be able to generate repeatable numbers using rand in Clojure. (Specifically, I want results of calls to rand-nth or Incanter's sample to be repeatable, and these call rand-int which in turn calls rand).

I figured out from this question that if I use clojure.data.generators, I can reset the random state:

(require '[clojure.data.generators :as gen])
(alter-var-root #'gen/*rnd* (constantly (java.util.Random. 437)))
(gen/reservoir-sample 5 (range 1000)) ; => [940 591 636 12 755]
(gen/reservoir-sample 5 (range 1000)) ; => [376 540 827 307 463]
; reset random state:
(alter-var-root #'gen/*rnd* (constantly (java.util.Random. 437)))
; now the same results are generated again:
(gen/reservoir-sample 5 (range 1000)) ; => [940 591 636 12 755]
(gen/reservoir-sample 5 (range 1000)) ; => [376 540 827 307 463]

However, that method only seems to affect functions in clojure.data.generators, which isn't surprising:

(alter-var-root #'gen/*rnd* (constantly (java.util.Random. 437)))
(rand) ; => 0.9372552374760151
(rand) ; => 0.2712729314667742
; reset random state:
(alter-var-root #'gen/*rnd* (constantly (java.util.Random. 437)))
; not same results as before:
(rand) ; => 0.630238593767316
(rand) ; => 0.426744420572015

How can I restore the random state in such as way as to get repeatable results from rand? So far I haven't found any documentation about this.

(Another question sounds as if it might be the same issue, but it's asking about something completely different.)

share|improve this question
    
When you say repeatable sequences, do you want an actual Clojure seq? That's fairly easy. Otherwise, you will probably want your own random number generator function that can be created with a specific seed (or no seed at all) that wraps either java.util.Random or java.secure.Random. –  Bill Jun 3 '14 at 14:51
    
@Bill, thanks--No, I don't need Clojure sequences. I just want to preserve the order of results of calls to rand. I couldn't think of another brief way to express this in the question title. –  Mars Jun 3 '14 at 15:00
    
I posted an example of what I was talking about. In some ways it doesn't answer your question. I don't think that they really design in a hook for you to muck about with core.rand, so I wouldn't approach it that way. If you're stuck because there's a lot of code that's out of your control that calls core/rand, then maybe something like roberthooke might help. github.com/technomancy/robert-hooke –  Bill Jun 3 '14 at 20:29

5 Answers 5

Here's how you might define the function generator that you can seed that I described in the comments.

If you don't want doubles, see the Javadoc.

user=> (defn randfn
  #_=>   ([] (randfn (java.util.Random.)))
  #_=>   ([r] #(.nextDouble r)))
#'user/randfn
user=> (def source1 (randfn))
#'user/source1
user=> (source1)
0.6270662940925175
user=> (source1)
0.23351789802762046

Here's how you might create it with a seeded Random number generator.

user=> (def source2 (randfn (java.util.Random. 37)))
#'user/source2
user=> (take 3 (repeatedly #(source2)))
(0.7276532767062343 0.5136790759391296 0.7384220244718898)

user=> (def source3 (randfn (java.util.Random. 37)))
#'user/source3
user=> (take 3 (repeatedly #(source3)))
(0.7276532767062343 0.5136790759391296 0.7384220244718898

As a bonus, you could also use the newish ThreadLocalRandom or the not very new at all SecureRandom as your random number generators.

user=> (def secure-source (randfn (java.security.SecureRandom.)))
#'user/secure-source
user=> (take 3 (repeatedly #(secure-source)))
(0.9987555822097023 0.48452119609266475 0.443029180668418)
share|improve this answer

Probably not the cleanest way, but you can make it work by redefining clojure.core/rand:

(ns clojure.core)

(def r (java.util.Random. 1))

(defn rand
  ([] (.nextDouble r))
  ([n] (.nextInt r n)))

(take 10 (repeatedly #(rand-int 10)))

This produces (5 8 7 3 4 4 4 6 8 8) every time I run it.

share|improve this answer
    
Your answer and @Bill's comment suggest that Clojure really hasn't addressed this common need at the Clojure level, and that in the end one is expected to descend to Java for this kind of thing. rand, etc. are just convenience functions, then. Kind of surprising to me. Maybe Clojure has been used more in business processes than in science, where the need for repeatable random behavior is commonplace. –  Mars Jun 3 '14 at 15:03
1  
The philosophy of Clojure is to not attempt to hide the fact that it's running on a host, in this case the JVM. "Descending to Java" is not a bad thing, especially because Java interop is so easy. Also, Clojure is a relatively young language. If a use case becomes common enough, someone will write a pure Clojure library to do what you need. I agree that Incanter should support repeatability directly, and I'd file an issue. –  Diego Basch Jun 3 '14 at 16:00
1  
Thanks Diego. I agree. One of the things that's great about Clojure is that it's so easy to use Java from it. I'll go ahead and file an issue with Incanter, and will bring it up for discussion on on the Clojure Google group. –  Mars Jun 3 '14 at 16:43
    
This answer would be improved by adding a mechanism to set the random number seed. –  David James Nov 29 '14 at 17:13

In the original question, two things are misunderstood:

  • How to use dynamic vars
  • How to use clojure.data.generators

First, dynamic vars should be managed via the binding macro. Second rand is not a function of clojure.data.generators, but of clojure.core itself and thus resetting the *rnd* var doesn't have effect. So here is how you should do it:

(require '[clojure.data.generators :as gen])

(binding [gen/*rnd* (java.util.Random. 437)]
  (println (gen/double)) ;=> 0.7634858067742888
  (println (gen/double)) ;=> 0.6959205688388975
  )

(binding [gen/*rnd* (java.util.Random. 437)]
  (println (gen/double)) ;=> 0.7634858067742888
  (println (gen/double)) ;=> 0.6959205688388975
  )
share|improve this answer
    
Thanks Jeroen. I used alter-var-root rather than bind because I was using the RNG in a few different places in the code, in different files. It wouldn't have made sense to use different RNGs for each of them; I'd have to store multiple seeds. (Though I guess could generate the RNGs from seeds generated by an RNG, which I did, later, in other parts of the code.) I eventually used one of Sean Luke's Java versions of the Mersenne Twister algorithm, so no need for bind. –  Mars Oct 9 '14 at 3:03

A clean way:

(ns designed.ly.rand)

(def ^:dynamic *rand* clojure.core/rand)

(defn rand-1
 ([]
   (*rand* 1))
 ([n]
   (*rand* n)))

(defmacro with-rand-seed
 "Sets seed for calls to random in body. Beware of lazy seqs!"
 [seed & body]
  `(let [g# (java.util.Random. ~seed)]
     (binding [*rand* #(* % (.nextFloat g#))]
      (with-redefs [rand rand-1]
        ~@body))))

It redefines rand within the scope. Example:

(with-rand-seed 9
  (rand 4)       ; => 2.9206461906433105
  (rand-int 10)) ; => 2

BTW. Beware of lazy seqs: http://kotka.de/blog/2009/11/Taming_the_Bound_Seq.html (Apparently, this link redirects to https without a trusted certificate so here's a link to a version at Web Archive: https://web.archive.org/web/20120505012701/http://kotka.de/blog/2009/11/Taming_the_Bound_Seq.html).

share|improve this answer
    
Probably not suitable for my need, but it's interesting, and might be useful for someone else. Why does the function this combination of let, binding, and with-redefs? (:use emotion.examples doesn't seem to be needed, btw.) (Why is kotka.de redirecting to the same url with "https" substituted? That makes browsers complain the the connection is untrusted.) –  Mars Jul 26 '14 at 4:06
    
Thanks for the heads up; I edited the post. The let isn't necessary, this is a leftover from the more complicated version of the macro I actually use (along with 'emotion.examples' which I use for inline specs lol). The redef is there to wrap the dynamic var in a function because clojure.core/rand has multiple arities so I couldn't use *rand* directly. –  Marcin Bilski Jul 27 '14 at 5:45

Clojure's rand relies on the random method in java.lang.Math:

user=> (source rand)
(defn rand
  "Returns a random floating point number between 0 (inclusive) and
  n (default 1) (exclusive)."
  {:added "1.0"
   :static true}
  ([] (. Math (random)))
  ([n] (* n (rand))))

According to the Oracle Java 7 documentation at https://docs.oracle.com/javase/7/docs/api/java/lang/Math.html#random()

public static double random()

Returns a double value with a positive sign, greater than or equal to 0.0 and less than 1.0. Returned values are chosen pseudorandomly with (approximately) uniform distribution from that range.

When this method is first called, it creates a single new pseudorandom-number generator, exactly as if by the expression

new java.util.Random()

This new pseudorandom-number generator is used thereafter for all calls to this method and is used nowhere else.

This method is properly synchronized to allow correct use by more than one thread. However, if many threads need to generate pseudorandom numbers at a great rate, it may reduce contention for each thread to have its own pseudorandom-number generator.

Returns:

a pseudorandom double greater than or equal to 0.0 and less than 1.0.

If you browse the java.lang.Math documentation, you will see that it does not have an API to allow setting of a random number generator seed. Code using the random() API does not get the ability to set the seed or hold onto different copies of the random number generator.

The original question was:

I want to be able to generate repeatable numbers using rand in Clojure. [e.g. clojure.core/rand]

This is not possible, unless you use your own rand function. So, instead of clojure.core/rand, I suggesting using clojure.data.generators which exposes the random number generator as a dynamic var *rnd*:

(def ^:dynamic ^java.util.Random
     *rnd*
     "Random instance for use in generators. By consistently using this
instance you can get a repeatable basis for tests."
     (java.util.Random. 42))

Use gen/*rnd* as shown in this example:

(require '[clojure.data.generators :as gen])
(binding [gen/*rnd* (java.util.Random. 12345)]
  (gen/int))

This always returns -593551136.

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