# Generating random integers in a range with Java

I am trying to generate a random integer 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 integer value in the range of 0 (inclusive) and n (exclusive). I couldn't find a method, which returns a random integer 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.

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If you get the answer please accept the answer meta.stackexchange.com/questions/5234/… –  Sumit Singh Nov 30 '12 at 10:20
You may find this article useful How to generate a range of random integers in Java –  evaipar Dec 28 '14 at 14:59

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) {

// NOTE: Usually this should be a field rather than a method
// variable so that it is not re-seeded every call.
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.

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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
For calls where max value is Integer.MAX_VALUE it is possible to overflow ,resulting into a java.lang.IllegalArgumentException. You can try with : randInt(0, Integer.MAX_VALUE). Also, if nextInt((max-min) + 1) returns the most high value (quite rare, I assume) won't it overflow again( supposing min and max are high enough values)? How to deal with this kind of situations? –  Daniel Aug 12 '14 at 10:34
@Daniel - I did try to address this in the comment preceding the method: "difference must be at most MAX_VALUE - 1". I didn't think it was worth making the example that much more complex to handle an edge case, but it shouldn't be too challenging to create a version of the example which handles such cases if that's in your problem space. The answer from Joel Sjöstrand gives a potential implementation that handles the more broad inputs at the cost of being much less efficient. –  Greg Case Aug 21 '14 at 17:26

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), where 'Max-Min' is not included.

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), where 5 is not included.

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))

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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

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.

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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

You can edit your second code example to:

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

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Use:

minimum + rn.nextInt(maxValue - minvalue + 1)

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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.

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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)

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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.

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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);

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Try

rand.nextInt((max+1) - min) + min;

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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;
}
}

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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;

}

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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);
}

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

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Just use the Random class:

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

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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.

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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).

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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.

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int random = minimum + Double.valueOf(Math.random()*(maximum-minimun)).intValue();


Or take a look to RandomUtils from Apache Commons.

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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));
}
}


It is just clean and simple.

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Let us take an example.

Suppose I wish to generate a number between 5-10.

    int max=10;
int min=5;
int diff=max-min;
Random rn = new Random();
int i = rn.nextInt(diff+1);
i+=min;
System.out.print("The Random Number is " + i);


Let us understand this...

Initialize max with highest value and min with the lowest value.

Now, we need to determine how many possible values can be obtained. For this example, it would be

5, 6, 7, 8, 9, 10

So, count of this would be max-min+1.

i.e. 10-5+1=6

The random number will generate a number between 0-5.

i.e. 0, 1, 2, 3, 4, 5

Adding the min value to the random number would produce

5, 6, 7, 8, 9, 10

Hence we obtain the desired range.

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Here is a simple sample that shows how to generate random number from closed [min, max] range, while min <= max is true

You can reuse it as field in hole class, also having all Random.class methods in one place

Results example:

RandomUtils random = new RandomUtils();
random.nextInt(0, 0); // returns 0
random.nextInt(10, 10); // returns 10
random.nextInt(-10, 10); // returns numbers from -10 to 10 (-10, -9....9, 10)
random.nextInt(10, -10); // throws assert


Sources:

import junit.framework.Assert;
import java.util.Random;

public class RandomUtils extends Random {

/**
* @param min generated value. Can't be > then max
* @param max generated value
* @return values in closed range [min, max].
*/
public int nextInt(int min, int max) {
Assert.assertFalse("min can't be > then max; values:[" + min + ", " + max + "]", min > max);
if (min == max) {
return max;
}

return nextInt(max - min + 1) + min;
}
}

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rand.nextInt((max+1) - min) + min;


This is working fine.

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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);

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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));

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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);
}

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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.

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import java.util.Random;

public class RandomUtil {
// Declare as class variable so that it is not re-seeded every call
private static Random random = new Random();

/**
* Returns a psuedo-random number between min and max (both inclusive)
* @param min Minimim value
* @param max Maximim value. Must be greater than min.
* @return Integer between min and max (both inclusive)
* @see java.util.Random#nextInt(int)
*/
public static int nextInt(int min, int max) {
// nextInt is normally exclusive of the top value,
// so add 1 to make it inclusive
return random.nextInt((max - min) + 1) + min;
}
}

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With they introduced the method ints(int randomNumberOrigin, int randomNumberBound) in the Random class.

For example if you want to generate five random integers (or a single one) in the range [0, 10], just do:

Random r = new Random();
int[] fiveRandomNumbers = r.ints(5, 0, 11).toArray();
int randomNumber = r.ints(1, 0, 11).findFirst().getAsInt();


The first parameter indicates just the size of the IntStream generated (which is the overloaded method of the one that produces an unlimited IntStream).

You can also do it for double and long values.

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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).

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## protected by Robert Harvey♦Feb 3 '11 at 20:16

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