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I have a question, what algorithm can I use to generate a set of 2^21 random unique numbers in Java? is there another library in java that generates random numbers aside math.random?

Thanks in advance!

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from what sized sample space? Greater than 2^21 obviously... –  Mitch Wheat May 1 '11 at 7:59
    
If you need the set materialised and unique, then a shuffle of the numbers from 1 to 2^21 will work (gonna need plenty of memory!) –  Mitch Wheat May 1 '11 at 8:03
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If they're unique, they aren't really random, now are they? As you go through your list, you are able to predict the next number with increasing accuracy. If your range is limited by the size of the set, on the last one, you have 100% possible accuracy prediction, which REALLY isn't random! –  corsiKa May 1 '11 at 8:07
    
Cross post forums.oracle.com/forums/… The simplest solution is to shuffle 2^21 values which will ensure uniqueness. See my solution posted on the Oracle forums. –  Peter Lawrey May 1 '11 at 8:17
    
@Mitch Wheat, you need 8 MB, just over 1 cents worth. ;) –  Peter Lawrey May 1 '11 at 8:20

3 Answers 3

up vote 2 down vote accepted

Take a look at Apache Commons Math API's random pacakge http://commons.apache.org/math/userguide/random.html

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The key question is what do you meen by "numbers"?

Generally though, this problem can be solved by 'generate a list of numbers, put that into random order, take the first 2^21 of them' The first part is trivial The second part can be solved by the fisher yates algorithm The real problem is if you want to use a very large space of numbers. Then you need a lazy solution

Here is what I would do: Use a data structure to represent the list that outwardly looks like an array, but internally is represented using a hashtable based sparse array representation. Furthermore, if when attempting to read from a cell, if you don't hit something in the hash, simply return the index for that cell.

Your modified fisher yates stops at 2^21 for the index variable and uses a random variable j between index and the "length" of the array (number of integers)

This lazy approach generates a random non-repeating list of any kind of number in O(n) time and O(n) space where n is the length of the array you are trying to generate. That is the best you can do.

For an explanation of Fisher-Yates http://en.wikipedia.org/wiki/Fisher-Yates_shuffle

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You could use Format-Preserving Encryption to encrypt a counter. Your counter just goes from 0 upwards, and the encryption uses a key of your choice to turn it into a seemingly random value of whatever radix and width you want, that is guaranteed to never have collisions (because cryptographic algorithms create a 1:1 mapping).

One benefit is that this is reversible, so you could take a generated number and decrypt it to get back to the simple counter value.

Block ciphers normally have a fixed block size of e.g. 64 or 128 bits. But Format-Preserving Encryption allows you to take a standard cipher like AES and make a smaller-width cipher, of whatever radix and width you want. E.g. radix 2, width 21 for the parameters of the question. AES-FFX is one proposed standard method to achieve this.

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