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I know there are another questions about random in a range but none of their answers accomplishes what I am trying to do. Actually they have the same error I have. I wrote this simple function to generate random with range.

Random m_random = new Random();
public int RandomWithRange(int min, int max) {
    return m_random.nextInt(max - min + 1) + min;

If range is bigger than Integer.MAX_VALUE, it throws an IllegalArgumentException: n must be positive. I know it overflows and turn to a negative number. My question is how to handle that?

Example ranges;

  • [0, Integer.MAX_VALUE]
  • [Integer.MIN_VALUE, Integer.MAX_VALUE]
  • [-100, Integer.MAX_VALUE]

Note: min and max must be inclusive.

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up vote 4 down vote accepted

The problem you have is that (max - min) overflows and gives you a negative value.

You can use a long instead.

public int randomWithRange(int min, int max) {
    return (int) ((m_random.nextLong() & Long.MAX_VALUE) % (1L + max - min)) + min;
share|improve this answer
I think that is the best solution. I'll delete my answer – alaster May 27 '12 at 11:53
This doesn't give a correct uniform distribution. (Effective Java item 47 actually mentions this incorrect approach specifically.) – Louis Wasserman May 27 '12 at 11:59
@LouisWasserman This is better than nextInt(int) (but more expensive) What did you have in mind? – Peter Lawrey May 27 '12 at 12:02
If you look at the Javadoc of Random.nextInt, it discusses how you have to use a loop, rejecting values that would result in an incorrect distribution. (I was hoping that that technique could be borrowed somehow.) – Louis Wasserman May 27 '12 at 12:05
The reason for the incorrect distribution is as follows: suppose we were working with four-bit numbers, max were 2, and min were 0. But there are four 4-bit values that are 0 mod 3, but only three values that are 1 mod 3, and three values that are 2 mod 3. So 0 is actually 33% more likely than 1 or 2 in this case. The problem occurs (for any number of bits) whenever max - min + 1 isn't a power of two. – Louis Wasserman May 27 '12 at 12:07

You cannot use int in this case. You need to go with BigInteger. The following constructor does what you want (need some tweaking for your needs of course):

BigInteger(int numBits, Random rnd) 

Constructs a randomly generated BigInteger, uniformly distributed over the range 0 to (2numBits - 1), inclusive.

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There's a lot of genuinely nontrivial implementation detail missing here. Even once you've determined the right number of bits (which isn't obvious), you also have to check that the result remains in range, and repeat if it isn't, to get a correct uniform distribution. – Louis Wasserman May 27 '12 at 11:57

Have you considered getting a random double and then casting back to int

return (int)(m_random.nextDouble() * ((double)max - (double)min) + min);
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Are you sure this works? It seems to me that (max - min) is going to give you an integer overflow; so the result won't be what you expect. – David Wallace May 27 '12 at 11:38
You can cast min and max to doubles to avoid the overflow. If we consider the edge case of INT_MAX - INT_MIN you get about 2*INT_MAX if that then gets multiplied with 1 from the prng you still end by adding(subtracting) INT_MIN to it after the cast. So you could simply move the + min into the cast to make sure that you don't overflow. – Asgeir May 27 '12 at 11:44
I agree that you can do that. Perhaps you could edit your answer accordingly? – David Wallace May 27 '12 at 11:56
Sure. It has been updated. – Asgeir May 27 '12 at 12:02
nextDouble() is [0.0, 1.0), so even if I choose max as Integer.MAX_VALUE, there is no possibility to return it. Sorry if i mislead, question updated. – m_poorUser May 27 '12 at 13:08

The most "dumb but definitely correct" solution I can think of:

if (max - min + 1 > 0) // no overflow
  return delta + random.nextInt(max - min + 1);
else {
  int result;
  do {
    result = random.nextInt();
  } while (result < min || result > max);
  // finishes in <= 2 iterations on average
  return result;
share|improve this answer
This sounds reasonable. Does its "dumbness" arise from its continually choosing nextInt() from the full set of 2^32? How might we augment this approach to narrow the choices on each random choice to increase the likelihood of falling between min and max, while maintaining the uniformity of the distribution? – pholser Dec 11 '12 at 16:34

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