# Generate Random Integer from Min to Max?

I want to generate a random Integer that is:

1. Inside the range [Min, Max] `inclusive`
2. The range can be [5,20], [-29, -3] or [-13, 13] (It can be in any range, positive or negative or in between)
3. The code is working fine in Android

What I got so far is this, but it seems not working with negative ranges !

``````1 + (int)(Math.random() * ((Max - Min) + 1));
``````
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You [-3,-29] is on wrong position if you say [Min,Max], –  doNotCheckMyBlog Aug 28 '11 at 4:38
I didn't down-vote, but the code still isn't correct with this fixed. Also, `[5, -13]` is wrong too. –  Merlyn Morgan-Graham Aug 28 '11 at 4:42
possible duplicate of Java: generating random number in a range –  Stephen C Aug 28 '11 at 4:59

I'm pretty sure you want

``````Min+(int)(Math.random()*((Max-Min) + 1));
``````

However, I should point out that the range [-3,-29] has its min and max reversed. (And the same with [5,-13] as was pointed out by Merlyn.)

If you want to just put in any two numbers for the range, a and b then use the code

``````int Min = Math.min(a,b);
int Max = Math.max(a,b);
``````

That way you won't have to worry about the order. This will even work for a==b.

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Same with `[5, -13]` –  Merlyn Morgan-Graham Aug 28 '11 at 4:41
Good catch. I didn't notice that. –  Keith Irwin Aug 28 '11 at 4:43
updated !...... –  iturki Aug 28 '11 at 4:46
You're right. Replacing 1 with Min solved it. Thanks :) –  iturki Aug 28 '11 at 4:51

Try this

``````int min = -100;
int max = 100;
Random rand = new Random();
return rand.nextInt(max - min + 1) + min;
``````
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Has anyone mentioned that his min and max are reversed? Because that's what is screwing up his code.

EDIT

The other thing that's messing up his code: it should be `Min +` not `1 +`

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Assume it is not –  iturki Aug 28 '11 at 4:43
It has been mentioned, but no, that's not what's screwing up his code. –  Keith Irwin Aug 28 '11 at 4:48
edited to add actual helpful suggestion instead of just snark. Because it's the weekend. –  Malvolio Aug 28 '11 at 4:48
Thanks for this bro :) –  iturki Aug 28 '11 at 4:55
``````/**
* @param bound1 an inclusive upper or lower bound
* @param bound2 an inclusive lower or upper bound
* @return a uniformly distributed pseudo-random number in the range.
*/
public static int randomInRange(int bound1, int bound2) {
int min = Math.min(bound1, bound2);
int max = Math.max(bound1, bound2);
return min + (int)(Math.random() * (max - min + 1));
}
``````

If the caller can guarantee that `bound1` will be less or equal to `bound2` than you can skip the step of figuring out the minimum and maximum bounds; e.g.

``````/**
* @param min the inclusive lower bound
* @param max the inclusive upper bound
* @return a uniformly distributed pseudo-random number in the range.
*/
public static int randomInRange(int min, int max) {
return min + (int)(Math.random() * (max - min + 1));
}
``````

I haven't tested this on Android, but it should work on any Java or Java-like platform that supports those methods in conformance to the standard (Sun) Java SE specifications.

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You would simply calculate the difference between min and max example -30 and 30 to get: delta <-- absolute value of (30 - (-30)) then find a random number between 0 and delta.

There is a post related to this already. afterwards translate the number along the number-line by your constant min.

If using the Random class: 1) is added to the equation here for Random.nextInt(someInt) because nextInt returns: someVal < someInt so you need to be sure to include the boundaries in the functions output.

``````return min +
(int)(Math.random() * (max - min + 1));
}
``````

When casting rounding doubles to cast to ints:

``````int someRandomDoubleRoundedToInteger = (int)(someDouble + 0.5)
``````

Does it work? This is for my benefit, maybe some other newbies will be amused, or maybe I made a blunder so:

lets choose 1 and 10 to begin with. Pick a number between 1 and 10 (Inclusive) I pick 10

Math.Random Excludes 0 and 1. so 0.9999999999999999 * (10 - 1 + 1) = 9.999999999999999 cast to int, so lob off everything after the decimal produces 9 the we add 1 to 9 to return 10. (using random anything from (.9 to .999999999999) also will produce 10

I want to choose 1 from between 1 and 10.

In this case the random method puts out it's closest value to zero say: 0.00000000000000001 * (10 - 1 + 1) cast to int is zero 0 We return 1+0. So that works.

Huh, seems to work. Looks like a very, very, very minor bias against 1 since we are never including "0" as a possibility but it should be acceptable.

The method works, If the random generator evenly covers the entire area between 0 and 1. How many different numbers can be represented between the {0,1} interval, are they evenly spaced?

I think it works.

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