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 using QuickCheck to do generative testing in Clojure.

However I don't know it well and often I end up doing convoluted things. One thing that I need to do quite often is something like that:

  • generate a first prime number from a list of prime-numbers (so far so good)
  • generate a second prime number which is smaller than the first one
  • generate a third prime number which is smaller than the first one

However I have no idea as to how to do that cleanly using QuickCheck.

Here's an even simpler, silly, example which doesn't work:

(prop/for-all [a (gen/choose 1 10)
               b (gen/such-that #(= a %) (gen/choose 1 10))]
                (= a b))

It doesn't work because a cannot be resolved (prop/for-all isn't like a let statement).

So how can I generate the three primes, with the condition that the two latter ones are inferior to the first one?

share|improve this question

1 Answer 1

up vote 2 down vote accepted

In test.check we can use gen/bind as the bind operator in the generator monad, so we can use this to make generators which depend on other generators.

For example, to generate pairs [a b] where we must have (>= a b) we can use this generator:

(def pair-gen (gen/bind (gen/choose 1 10)
                        (fn [a]
                          (gen/bind (gen/choose 1 a)
                                    (fn [b]
                                      (gen/return [a b]))))))

To satisfy ourselves:

(c/quick-check 10000
               (prop/for-all [[a b] pair-gen]
                 (>= a b)))

gen/bind takes a generator g and a function f. It generates a value from g, let's call it x. gen/bind then returns the value of (f x), which must be a new generator. gen/return is a generator which only generates its argument (so above I used it to return the pairs).

share|improve this answer

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.