# How can I obtain a negative random integer in common lisp?

How can I obtain a negative random integer in common lisp? Is there some function in standard lib?

---- updated on 2012/06/15 ---- Perhaps I did not descript my question correctly. What I actually want is to get random integer between n and -n.

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Apply negation directly.

``````(- (random x))
``````

An Edit for the revised question. This is less of a common lisp thing and more of a general programming thing.

``````(defun random-n (n)
(- (random (1+ (* 2 n))) n))
``````

Read up on `random` in CLHS.

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Perhaps I did not descript my question correctly. What I actually want is to get random integer between n and -n. I wrote a little function to obtain one, like this. (defun random-new (n) (if (= (random 2) 0) (- (random n)) (random n))) But still thank you for your answer. – snake Jun 15 '12 at 0:20
Added to my answer above. Save you a call to random. – mhb Jun 17 '12 at 11:01
This method is so simple, I like it. But I will improve it. When we call function 'random', we get a integer in range of [0, n). So when I define a new random function, I want to get a integer in range of (-n, n). Follow your way, I define a new random funcion like this. (defun random-new (n) (- (random (- (* 2 n) 1)) (- n 1))) – snake Jun 17 '12 at 15:07

if you want random number from `-n` to `n` :

### Edited, should be `2n+1` because random is from 0 to n (exclude n)

``````(defun my-random (n)
(- (random (1+ (* 2 n))) n))
``````
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Since there's already a good answer in here, I'll just add one more funny answer (also, mind you, it might be even more efficient then the correct answer!)

``````(boole boole-c1 (random (1- n)) 0)
``````

Will provide you with what you seek!

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As you'd expect, `(- -1 (random n))`, will give you a random integer between -n and -1 with (approximately) uniform probability, where n is any integer.

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I'm not sure why this was downvoted. The question was for negative random numbers, and this does the job, doesn't it? Zero is not negative. – Gene Jun 13 '12 at 21:00