# Generating random numbers in a range with Java

I am trying to generate a random number with Java, but random in a specific range. For example, my range is 5-10, meaning that 5 is the smallest possible value the random number can take, and 10 is the biggest. Any other number in between these numbers is possible to be a value, too.

In Java, there is a method `random()` in the `Math` class, which returns a `double` value between 0.0 and 1.0. In the class `Random` there is a method `nextInt(int n)`, which returns a random value in the range of 0 (inclusive) and n (exclusive). I couldn't find a method, which returns a random value between two numbers.

I have tried the following things, but I still have problems: (minimum and maximum are the smallest and biggest numbers).

Solution 1:

``````randomNum = minimum + (int)(Math.random()*maximum);
``````

Problem: `randomNum` is assinged values numbers bigger than `maximum`.

Solution 2:

``````Random rn = new Random();
int n = maximum - minimum + 1;
int i = rn.nextInt() % n;
randomNum =  minimum + i;
``````

Problem: `randomNum` is assigned values smaller than `minimum`.

How do I solve this problem?

I have tried also browsing through the archive and found:

But I couldn't solve the problem.

-
IN SQL if you ever need it: PRINT CAST(@Smallest + Rand() * (@Largest -1 ) as INT) –  jvelez Sep 25 '11 at 23:10
If you get the answer please accept the answer meta.stackoverflow.com/questions/5234/… –  Sumit Singh Nov 30 '12 at 10:20
If you +1 to the range and discard the decimals, you'll (very slightly) skew the distribution away from completely uniform. –  DavidJ Feb 24 '13 at 0:08
I can't believe that most of those answers do not consider that `max - min` might easily produce overflows. –  math Nov 12 '13 at 8:15
Possible duplicate of Generate a random number between two given values in Java. –  Peter Mortensen Jan 18 at 12:52
show 2 more comments

One standard pattern for accomplishing this is:

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

The Java Math library function Math.random() generates a double value in the range `[0,1)`. Notice this range does not include the 1.

In order to get a specific range of values first, you need to multiply by the magnitude of the range of values you want covered.

``````Math.random() * ( Max - Min )
``````

This returns a value in the range `[0,Max-Min]`.

For example, if you want `[5,10]`, you need to cover five integer values so you use

``````Math.random() * 5
``````

This would return a value in the range `[0,5]`.

Now you need to shift this range up to the range that you are targeting. You do this by adding the Min value.

``````Min + (Math.random() * (Max - Min))
``````

You now will get a value in the range `[Min,Max)`. Following our example, that means `[5,10]`:

``````5 + (Math.random() * (10 - 5))
``````

But, this is still doesn't include `Max` and you are getting a double value. In order to get the `Max` value included, you need to add 1 to your range parameter `(Max - Min)` and then truncate the decimal part by casting to an int. This is accomplished via:

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

And there you have it. A random integer value in the range `[Min,Max]`, or per the example `[5,10]`:

``````5 + (int)(Math.random() * ((10 - 5) + 1))
``````
-
The `Random.nextInt(n)`-based answer is much better than this. –  polygenelubricants Jul 23 '10 at 19:47
The Sun documentation explicitly says that you should better use Random() if you need an int instead of Math.random() which produces a double. –  Lilian A. Moraru Feb 23 '12 at 23:26
Math.random() * 5 This would return a value in the range [0,5) Actually it's 0,4 –  bentech May 13 '13 at 15:57
Worth bearing in mind this will produce strange results if `Max = Integer.MAX_VALUE` and `Min = 0` (or any negative number). –  Duncan Jun 15 '13 at 13:45
Why the `nextInt(n)` version is better: 1. it is easier to implement as you do not have to worry about rounding errors. 2. `Math.random()` calls `Random.nextDouble()` anyways, so its just a slower implementation. 3. Random is easily upward-compatible to SecureRandom and ThreadLocalRandom. –  TwoThe Nov 25 '13 at 10:59
show 3 more comments

The standard way to do this is as follows:

``````/**
* Returns a pseudo-random number between min and max, inclusive.
* The difference between min and max can be at most
* <code>Integer.MAX_VALUE - 1</code>.
*
* @param min Minimum value
* @param max Maximum value.  Must be greater than min.
* @return Integer between min and max, inclusive.
* @see java.util.Random#nextInt(int)
*/
public static int randInt(int min, int max) {

// Usually this can be a field rather than a method variable
Random rand = new Random();

// nextInt is normally exclusive of the top value,
// so add 1 to make it inclusive
int randomNum = rand.nextInt((max - min) + 1) + min;

return randomNum;
}
``````

See the relevant JavaDoc. In practice, the java.util.Random class is often preferable to java.lang.Math.random().

In particular, there is no need to reinvent the random integer generation wheel when there is a straightforward API within the standard library to accomplish the task.

-
Minor note - you have to say "rand = new Random()" at some point, otherwise you'll get an NPE. –  Adam Rosenfield Dec 12 '08 at 18:36
I use the declarations at the top simply to state that the variables exist and what their types are, since exactly how they're initialized in unimportant to the question being asked. –  Greg Case Dec 12 '08 at 18:39
True, which is why it's only a minor note. I usually add a ... in my code snippets to indicate something like that. –  Adam Rosenfield Dec 12 '08 at 18:40
I've rolled back the change, but clarified the assumption within the example so it is more clear. –  Greg Case Dec 12 '08 at 19:44
Matt - can you add a little more detail? The above snippet does not use any arrays. –  Greg Case Jan 9 '09 at 0:03
show 10 more comments

Use:

``````Random ran = new Random();
int x = ran.nextInt(6) + 5;
``````

The integer x is now the random number that has a possible outcome of 5-10.

-
Setting the max number to 6 instead of 5 makes the answer valid "int x = ran.nextInt(6) + 5;". –  anna Oct 26 '12 at 22:52
This is the right answer. I don't understand why people complicate things so much. Even worst most people up voted the over complicated useless answers instead of this one. –  rciafardone Mar 3 at 1:31
@rciafardone this is essentially the same answer as Greg Case's, both use `Random.nextInt(int)`. Greg's is more useful though since it works with different number ranges, rather than just [5,10] –  donturner Mar 5 at 16:05

You can edit your second code example to:

``````Random rn = new Random();
int range = maximum - minimum + 1;
int randomNum =  rn.nextInt(range) + minimum;
``````
-

How about `minimum + rn.nextInt(maxValue - minvalue + 1)` ?

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Side note - this generator is exclusive of maxValue. Simple to fix, though. –  Greg Case Dec 12 '08 at 18:26
That should be maxValue - minvalue + 1. –  Robert Gamble Dec 12 '08 at 18:30
Thanks a lot! Yes, this works fine if I add +1: minimum + rn.nextInt(maximum - minimum + 1) –  user42155 Dec 12 '08 at 18:34

Forgive me for being fastidious, but the solution suggested by the majority, i.e., `min + rng.nextInt(max - min + 1))`, seems perilous due to the fact that:

• rng.nextInt(n) cannot reach Integer.MAX_VALUE.
• (max - min) may cause overflow when min is negative.

A foolproof solution would return correct results for any min <= max within [Integer.MIN_VALUE, Integer.MAX_VALUE]. Consider the following naïve implementation:

``````int nextIntInRange(int min, int max, Random rng) {
if (min > max) {
throw new IllegalArgumentException("Cannot draw random int from invalid range [" + min + ", " + max + "].");
}
int diff = max - min;
if (diff >= 0 && diff != Integer.MAX_VALUE) {
return (min + rng.nextInt(diff + 1));
}
int i;
do {
i = rng.nextInt();
} while (i < min || i > max);
return i;
}
``````

Although inefficient, note that the probability of success in the while-loop will always be 50% or higher.

-

The Math.Random class in Java is 0-based. So, if you write something like

``````Random rand = new Random();
int x = rand.nextInt(10);
``````

x will be between 0-9 inclusive.

So given the following array of 25 items, the code to generate a random number between 0 (the base of the array) and `array.length` would be:

``````String[] i = new String[25];
Random rand = new Random();
int index = 0;

index = rand.nextInt(i.Length)
``````

Since `i.Length` will return 25, the `nextInt(i.Length)` will return a number between the range of 0-24. The other option is going with `Math.Random` which works in the same way.

``````   index = (int)Math.floor(Math.random()*i.length);
``````

For a better understanding, check out forum post Random Intervals.

-

ThreadLocalRandom equivalent of class java.util.Random for multithreaded environment. Generating a random number is carried out locally in each of the threads. So we have a better performance by reducing the conflicts.

``````int rand = ThreadLocalRandom.current().nextInt(x,y);
``````

x,y - intervals e.g. (1,10)

-
This is new in Java 7. docs.oracle.com/javase/7/docs/api/java/util/concurrent/… –  Evgeni Sergeev Dec 5 '13 at 6:15

In case of rolling a dice it would be random number between 1 to 6 (not 0 to 6), so:

``````face = 1 + randomNumbers.nextInt(6);
``````
-

I wonder if any of the random number generating methods provided by an Apache Commons library would fit the bill.

For example: nextInt or nextLong

-
I wonder if Guava now provides something like this, too. (Given that it has (cleaner, better) replacements for many things in Commons, especially Commons IO and Collections.) –  Jonik Nov 21 '11 at 14:28

This methods might be convenient to use:

This method will return a random number between the provided min and max value:

``````public static int getRandomNumberBetween(int min, int max) {
Random foo = new Random();
int randomNumber = foo.nextInt(max - min) + min;
if(randomNumber == min) {
// Since the random number is between the min and max values, simply add 1
return min + 1;
}
else {
return randomNumber;
}

}
``````

and this method will return a random number from the provided min and max value (so the generated number could also be the min or max number):

``````public static int getRandomNumberFrom(int min, int max) {
Random foo = new Random();
int randomNumber = foo.nextInt((max + 1) - min) + min;

return randomNumber;

}
``````
-
``````public static Random RANDOM = new Random(System.nanoTime());

public static final float random(final float pMin, final float pMax) {
return pMin + RANDOM.nextFloat() * (pMax - pMin);
}
``````
-

Try

``````rand.nextInt((max+1) - min) + min;
``````
-
Off by one---you never get "max" as an output. –  erickson Dec 12 '08 at 18:27
Ah, that explains why Greg Case's answer had a strange +1 in it. I should read the question more closely. Fixed now. –  Michael Myers Dec 12 '08 at 18:29
Y'know, I almost put a comment in the example to explain the +1... –  Greg Case Dec 12 '08 at 18:31

Here's a helpful class to generate random `ints` in a range with any combination of inclusive/exclusive bounds:

``````import java.util.Random;

public class RandomRange extends Random {
public int nextIncInc(int min, int max) {
return nextInt(max - min + 1) + min;
}

public int nextExcInc(int min, int max) {
return nextInt(max - min) + 1 + min;
}

public int nextExcExc(int min, int max) {
return nextInt(max - min - 1) + 1 + min;
}

public int nextIncExc(int min, int max) {
return nextInt(max - min) + min;
}
}
``````
-

I found this example on http://www.javapractices.com/topic/TopicAction.do?Id=62:

This example generates random integers in a specific range.

``````import java.util.Random;

/** Generate random integers in a certain range. */
public final class RandomRange {

public static final void main(String... aArgs){
log("Generating random integers in the range 1..10.");

int START = 1;
int END = 10;
Random random = new Random();
for (int idx = 1; idx <= 10; ++idx){
showRandomInteger(START, END, random);
}

log("Done.");
}

private static void showRandomInteger(int aStart, int aEnd, Random aRandom){
if ( aStart > aEnd ) {
throw new IllegalArgumentException("Start cannot exceed End.");
}
//get the range, casting to long to avoid overflow problems
long range = (long)aEnd - (long)aStart + 1;
// compute a fraction of the range, 0 <= frac < range
long fraction = (long)(range * aRandom.nextDouble());
int randomNumber =  (int)(fraction + aStart);
log("Generated : " + randomNumber);
}

private static void log(String aMessage){
System.out.println(aMessage);
}
}
``````

An example run of this class :
Generating random integers in the range 1..10.
Generated : 9
Generated : 3
Generated : 3
Generated : 9
Generated : 4
Generated : 1
Generated : 3
Generated : 9
Generated : 10
Generated : 10
Done.

-

You can use this code snippet which will resolve your problem:

``````Random r = new Random();
int myRandomNumber = 0;
myRandomNumber = r.nextInt(maxValue-minValue+1)+minValue;
``````

Use myRandomNumber (which will give you a number within a range).

-

When you need a lot of random numbers, I do not recommend the Random class in the API. It has just a too small period. Try the Mersenne twister instead. There is a Java implementation.

-

Just use the Random class:

``````Random ran = new Random();
// Assumes max and min are non-negative.
int randomInt = min + ran.nextInt(max - min + 1);
``````
-

I will simply state what is wrong with the solutions provided by the question and why the errors.

Solution 1:

``````randomNum = minimum + (int)(Math.random()*maximum);
``````

Problem: randomNum is assigned values numbers bigger than maximum.

Explanation: Suppose our minimum is 5, and your maximum is 10. Any value from `Math.random()` greater than 0.6 will make the expression evaluate to 6 or greater, and adding 5 makes it greater than 10 (your maximum). The problem is you are multiplying the random number by the maximum (which generates a number almost as big as the maximum) and then adding the minimum. Unless the minimum is 1, it's not correct. You have to switch to, as mentioned in other answers

``````randomNum = minimum + (int)(Math.random()*(maximum-minimum+1))
``````

The +1 is because `Math.random()` will never return 1.0.

Solution 2:

``````Random rn = new Random();
int n = maximum - minimum + 1;
int i = rn.nextInt() % n;
randomNum =  minimum + i;
``````

Your problem here is that '%' may return a negative number if the first term is smaller than 0. Since `rn.nextInt()` returns negative values with ~50% chance, you will also not get the expected result.

This, was, however, almost perfect. You just had to look a bit further down the Javadoc, nextInt(int n). With that method available, doing

``````Random rn = new Random();
int n = maximum - minimum + 1;
int i = rn.nextInt(n);
randomNum =  minimum + i;
``````

Would also return the desired result.

-

Another option is just using Apache Commons:

``````import org.apache.commons.math.random.RandomData;
import org.apache.commons.math.random.RandomDataImpl;

public void method( ) {
RandomData randomData = new RandomDataImpl( );
int number = randomData.nextInt(5,10);
``````
-

One of my friends had asked me this same question in university today (his requirements was to generate a random number between 1 & -1). So I wrote this, and it works fine so far with my testing. There are ideally a lot of ways to generate random numbers given a range. Try this:

Function:

``````private static float getRandomNumberBetween(float numberOne, float numberTwo) throws Exception{

if (numberOne == numberTwo){
throw new Exception("Both the numbers can not be equal");
}

float rand = (float) Math.random();
float highRange = Math.max(numberOne, numberTwo);
float lowRange = Math.min(numberOne, numberTwo);

float lowRand = (float) Math.floor(rand-1);
float highRand = (float) Math.ceil(rand+1);

float genRand = (highRange-lowRange)*((rand-lowRand)/(highRand-lowRand))+lowRange;

return genRand;
}
``````

Execute like this:

``````System.out.println( getRandomNumberBetween(1,-1));
``````
-

I am thinking to linearly normalize the generated random numbers into desired range by using the following. Let `x` be a random number, let `a` and `b` be the minimum and maximum range of desired normalized number.

Then below is just a very simple code snipplet to test the range produced by the linear mapping.

``````public static void main(String[] args) {
int a = 100;
int b = 1000;
int lowest = b;
int highest = a;
int count = 100000;
Random random = new Random();
for (int i = 0; i < count; i++) {
int nextNumber = (int) ((Math.abs(random.nextDouble()) * (b - a))) + a;
if (nextNumber < a || nextNumber > b) {
System.err.println("number not in range :" + nextNumber);
}
else {
System.out.println(nextNumber);
}
if (nextNumber < lowest) {
lowest = nextNumber;
}
if (nextNumber > highest) {
highest = nextNumber;
}
}
System.out.println("Produced " + count + " numbers from " + lowest
+ " to " + highest);
}
``````
-
``````rand.nextInt((max+1) - min) + min;
``````

This is working fine.

-

I think this code will work for it. Please try this:

``````import java.util.Random;
public final class RandomNumber {

public static final void main(String... aArgs) {
log("Generating 10 random integers in range 1..10.");
int START = 1;
int END = 10;
Random randomGenerator = new Random();
for (int idx=1; idx<=10; ++idx) {

// int randomInt=randomGenerator.nextInt(100);
// log("Generated : " + randomInt);
showRandomInteger(START,END,randomGenerator);
}
log("Done");
}

private static void log(String aMessage) {
System.out.println(aMessage);
}

private static void showRandomInteger(int aStart, int aEnd, Random aRandom) {
if (aStart > aEnd) {
throw new IllegalArgumentException("Start cannot exceed End.");
}
long range = (long)aEnd - (long)aStart + 1;
long fraction = (long) (range * aRandom.nextDouble());
int randomNumber = (int) (fraction + aStart);
log("Generated" + randomNumber);
}
}
``````
-
``````int random = minimum + Double.valueOf(Math.random()*(maximum-minimun)).intValue();
``````

Or take a look to RandomUtils from apache commons

http://commons.apache.org/lang

-
I wouldn't use Apache Commons to generate random numbers. RandomUtils is extremely poorly implemented (see blog.uncommons.org/2007/06/29/…) –  Dan Dyer Dec 18 '08 at 12:53

Try using `org.apache.commons.lang.RandomStringUtils` class. Yes, it sometimes give a repeated number adjacently, but it will give the value between 5 and 15:

``````    while (true)
{
int abc = Integer.valueOf(RandomStringUtils.randomNumeric(1));
int cd = Integer.valueOf(RandomStringUtils.randomNumeric(2));
if ((cd-abc) >= 5 && (cd-abc) <= 15)
{
System.out.println(cd-abc);
break;
}
}
``````
-

If you want to try the answer with the most votes above, you can simply use this code

``````public class Randomizer
{
public static int generate(int min,int max)
{
return min + (int)(Math.random() * ((max - min) + 1));
}
public static void main(String[] args)
{
System.out.println(Randomizer.generate(0,10));
}
}
``````

Just clean and simple

-

This is what I do:

I just generate a random number using Math.random() and multiply it by a big number, let's say 10000. So, I get a number between 0 to 10,000 and call this number `i`. Now, if I need numbers between (x, y), then do the following:

``````i = x + (i % (y - x));
``````

So, all `i`'s are numbers between x and y.

To remove the bias as pointed out in the comments, rather than multiplying it by 10000 (or the big number), multiply it by (y-x).

-
That leads to bias. Suppose you're generating numbers 0 to 7500, your 0-10,000 covers the whole range once, then wraps around to cover the first third a second time, Making 0-2500 twice as likely as 2500-7500. –  davenpcj Jan 6 '13 at 5:54
oops...thanks davenpjc...point understood...i never had an extensive use of Random numbers so didn't think much about the numbers being biased or not..but yes you pointed out correctly...thanks. –  jatin3893 Jan 6 '13 at 18:49