I want to return the number as long as it falls within a limit, else return the maximum or minimum value of the limit. I can do this with a combination of Math.min and Math.max.

public int limit(int value) {
    return Math.max(0, Math.min(value, 10));

I'm wondering if there's an existing limit or range function I'm overlooking.
3rd party libraries welcome if they are pretty common (eg: Commons or Guava)

  • 5
    That is the appropriate pattern. If you do this in a lot of places, just define your own method in a helper class. Jul 29, 2013 at 20:24
  • 4
    If this code seems too long, just wrap it in your own function. Jul 29, 2013 at 20:24
  • 4
    I'm coming to the community to see if such a function already exists. Just a question.. I don't think it's a bad question? Jul 29, 2013 at 20:28
  • 1
    Not a bad question. You show what have done so far and you ask specifically if there is a one method solution. No one wants to appear ignorant by reinventing the wheel when a simpler solution exists. Not sure why it was downvoted, but I +1'ed to help counter it. Jul 29, 2013 at 20:43
  • 1
    @RobertHarvey I was wondering the same thing. It seems really straightforward. I guess it's a just something mathematicians would expect to be already built in the math library. May 13, 2014 at 17:31

8 Answers 8


OP asks for this implementation in a standard library:

int ensureRange(int value, int min, int max) {
   return Math.min(Math.max(value, min), max);

boolean inRange(int value, int min, int max) {
   return (value>= min) && (value<= max);

A pity the standard Math library lacks these

  • 2
    Also, the C-based languages lack the obvious idiom (min <= value <= max), much to the consternation of newbies.
    – Hot Licks
    May 13, 2014 at 18:24
  • 2
    I think that ensureRange should be other way around: int ensureRange(int value, int min, int max) { return Math.min(Math.max(value, min), max); } That's a good reason to have it in a library. So you can have it wrong only once ;-) May 14, 2014 at 16:45
  • @RensoLohuis Trivial: I wanted min executed before max. Read order != Execution order. May 15, 2014 at 7:21
  • 1
    @BarryStaes I am not talking about execution order. You have Math.min(value, min), this will not help you to ensure the range. if the value = 3 and min = 5, Math.min will return 3, so it will not stay inside range. The same goes for Math.max(value, max). So this function will not ensure range. Jun 30, 2014 at 13:20
  • @RensoLohuis thanks good catch! Pardon my brainfart, fixed now. Jun 30, 2014 at 13:30

I understand this was asked for Java. In Android world, it's common to use Kotlin and Java combined. In case some Kotlin user reached here (just like me), then they can use coerceIn extension function:

Kotlin Code:

println(10.coerceIn(1, 100)) // 10
println(10.coerceIn(1..100)) // 10
println(0.coerceIn(1, 100)) // 1
println(500.coerceIn(1, 100)) // 100

Read more on official Kotlin Documentation.


As of version 21, Guava includes Ints.constrainToRange() (and equivalent methods for the other primitives). From the release notes:

added constrainToRange([type] value, [type] min, [type] max) methods which constrain the given value to the closed range defined by the min and max values. They return the value itself if it's within the range, the min if it's below the range and the max if it's above the range.

Copied from https://stackoverflow.com/a/42968254/122441 by @dimo414.

Unfortunately this version is quite recent as of July 2017, and in some projects (see https://stackoverflow.com/a/40691831/122441) Guava had broken backwards compatibility that required me to stay on version 19 for now. I'm also shocked that neither Commons Lang nor Commons Math has it! :(


If you're on Android, use the MathUtils (in support library), it has only one function which specifically does this called clamp.

This method takes a numerical value and ensures it fits in a given numerical range. If the number is smaller than the minimum required by the range, then the minimum of the range will be returned. If the number is higher than the maximum allowed by the range then the maximum of the range will be returned.

  • 2
    great. just for the record, a usage example: MathUtils.clamp( value, min, max )
    – davee44
    Feb 10, 2019 at 10:09

The Math.max(int a, int b) function is defined as:

public static int min(int a, int b) {
    return (a <= b) ? a : b;

So you can make a combination of the max and min functions as follows:

private static int MAX=10;
private static int MIN=0;

public int limit(int a) {
    return (a > MAX) ? MAX : (a < MIN ? MIN: a );

Generic method for any class implementing Comparable (including Number and its sub-classes):

public static <T extends Comparable<? super T>> T limit(T o, T min, T max){
    if (o.compareTo(min) < 0) return min;
    if (o.compareTo(max) > 0) return max;
    return o;

The only requirement is that all arguments must be of the same class. It prevents possible type conversion loss. In fact it is incorrect to compare float with double of long with int etc. For example (double) 0.1 != (float) 0.1.


double x = 13.000000001;
x = limit(x, 12.0, 13.0);
System.out.println("x = " + x); //x = 13.0

Unfortunately it is impossible to change the first argument directly by just limit(x, 12.0, 13.0) because primitive types are immutable.


There is new Math.clamp method (with multiple overloads) added in Java 21 to conveniently clamp the numeric value between the specified minimum and maximum values:

int valueToClamp = 0;

System.out.println(Math.clamp(valueToClamp, 1, 10)); // 1

public static int clamp(long value, int min, int max)

  • value - value to clamp
  • min - minimal allowed value
  • max - maximal allowed value

You do not need an external library for this, try this test case:

public class RandomNumber {

    public static void main(String[] Args) {
        System.out.println("random = " + randomInRange(5,10));
    public static double randomInRange(double arg1, double arg2) {
        double my_number = Math.ceil(Math.random() * (arg1 - arg2) + arg2);
        return my_number;


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