Rounding up a number to nearest multiple of 5

Does anyone know how to round up a number to its nearest multiple of 5? I found an algorithm to round it to the nearest multiple of 10 but I can't find this one.

This does it for ten.

``````double number = Math.round((len + 5)/ 10.0) * 10.0;
``````
• What's the code you have for 10 look like? It should be reasonably straightforward to change 10 to 5. Feb 16, 2012 at 0:07
• What's the type of `len`? Is that an `int` or `double`? Feb 16, 2012 at 0:09
• it's a double. if i didn't initialize it as a double it would give me an error i think Feb 16, 2012 at 0:10
• `double number = Math.round((len + 2.5)/ 5.0) * 5.0;` ?? Feb 16, 2012 at 0:11
• @bestsss The question doesn't say to round integers, does it? Feb 16, 2012 at 1:13

To round to the nearest of any value:

``````int round(double value, int nearest) {
return (int) Math.round(value / nearest) * nearest;
}
``````

You can also replace `Math.round()` with either `Math.floor()` or `Math.ceil()` to make it always round down or always round up.

• This is by far the best answer. It is universal, it will work for rounding to the nearest of any whole number (e.g. 2 or 5) or any fraction (e.g. 0.1 or 0.05).
– mils
Apr 1, 2016 at 2:57
• But it must be edited to take and return doubles in order to work for fractional numbers
– mils
Apr 1, 2016 at 3:03
• I'm not sure why this has so many votes when it doesn't actually compile Oct 20, 2017 at 10:21
• @SamJakob When I compile it with Java 1.8.0_152 I get `error: incompatible types: possible lossy conversion from long to int`. In order to get it to compile you need to either cast the result of `Math.round` or change the return type to `long`. Nov 13, 2017 at 14:30
• Props for giving the correct answer. Zero props for using unreadable variable names (double i , double v). Mar 9, 2018 at 14:43
``````int roundUp(int n) {
return (n + 4) / 5 * 5;
}
``````

Note - YankeeWhiskey's answer is rounding to the closest multiple, this is rounding up. Needs a modification if you need it to work for negative numbers. Note that integer division followed by integer multiplication of the same number is the way to round down.

• Why are we adding 4 to the number? Jul 29, 2020 at 13:48
• 4 === n-1 So you can replace it with "return (n + n - 1) / n * n;" Jun 20, 2022 at 20:07

I think I have it, thanks to Amir

``````double round( double num, int multipleOf) {
return Math.floor((num + multipleOf/2) / multipleOf) * multipleOf;
}
``````

Here's the code I ran

``````class Round {
public static void main(String[] args){
System.out.println("3.5 round to 5: " + Round.round(3.5, 5));
System.out.println("12 round to 6: " + Round.round(12, 6));
System.out.println("11 round to 7: "+ Round.round(11, 7));
System.out.println("5 round to 2: " + Round.round(5, 2));
System.out.println("6.2 round to 2: " + Round.round(6.2, 2));
}

public static double round(double num, int multipleOf) {
return Math.floor((num +  (double)multipleOf / 2) / multipleOf) * multipleOf;
}
}
``````

And here's the output

``````3.5 round to 5: 5.0
12 round to 6: 12.0
11 round to 7: 14.0
5 round to 2: 6.0
6.2 round to 2: 6.0
``````
• multipleOf is an int, so dividing it by 2 can cause problems. Feb 16, 2012 at 0:20
• if multipleOf == 5 then multipleOf/2 == 2 Feb 16, 2012 at 0:20
• @AmirPashazadeh: That's correct, I also needed to use floor, instead of round since I'm already adding `multipleOf/2`. See any other problems? Feb 16, 2012 at 0:36
``````int roundUp(int num) {
return (int) (Math.ceil(num / 5d) * 5);
}
``````
• Tested this with my examples and it works. Even for any kind of multiples `public static int roundUp(double num, int multipleOf) { return (int) (Math.ceil(num / (double)multipleOf) * multipleOf); }` Feb 16, 2012 at 0:42
``````int roundUp(int num) {
return ((num / 5) + (num % 5 > 0 ? 1 : 0)) * 5;
}
``````
``````int round(int num) {
int temp = num%5;
if (temp<3)
return num-temp;
else
return num+5-temp;
}
``````
``````int getNextMultiple(int num , int multipleOf) {
int nextDiff = multipleOf - (num % multipleOf);
int total = num + nextDiff;
}
``````
`````` int roundToNearestMultiple(int num, int multipleOf){
int floorNearest = ((int) Math.floor(num * 1.0/multipleOf)) * multipleOf;
int ceilNearest = ((int) Math.ceil(num  * 1.0/multipleOf)) * multipleOf;
int floorNearestDiff = Math.abs(floorNearest - num);
int ceilNearestDiff = Math.abs(ceilNearest - num);
if(floorNearestDiff <= ceilNearestDiff) {
return floorNearest;
} else {
return ceilNearest;
}
}
``````

This Kotlin function rounds a given value 'x' to the closest multiple of 'n'

``````fun roundXN(x: Long, n: Long): Long {
require(n > 0) { "n(\${n}) is not greater than 0."}

return if (x >= 0)
((x + (n / 2.0)) / n).toLong() * n
else
((x - (n / 2.0)) / n).toLong() * n
}

fun main() {
println(roundXN(121,4))
}
``````

Output: 120

Kotlin with extension function.

Possible run on play.kotlinlang.org

``````import kotlin.math.roundToLong

fun Float.roundTo(roundToNearest: Float): Float = (this / roundToNearest).roundToLong() * roundToNearest

fun main() {
println(1.02F.roundTo(1F)) // 1.0
println(1.9F.roundTo(1F)) // 2.0
println(1.5F.roundTo(1F)) // 2.0

println(1.02F.roundTo(0.5F)) // 1.0
println(1.19F.roundTo(0.5F)) // 1.0
println(1.6F.roundTo(0.5F)) // 1.5

println(1.02F.roundTo(0.1F)) // 1.0
println(1.19F.roundTo(0.1F)) // 1.2
println(1.51F.roundTo(0.1F)) // 1.5
}
``````

Possible to use floor/ceil like this: `fun Float.floorTo(roundToNearest: Float): Float = floor(this / roundToNearest) * roundToNearest`

Some people are saying something like

``````int n = [some number]
int rounded = (n + 5) / 5 * 5;
``````

This will round, say, 5 to 10, as well as 6, 7, 8, and 9 (all to 10). You don't want 5 to round to 10 though. When dealing with just integers, you want to instead add 4 to n instead of 5. So take that code and replace the 5 with a 4:

``````int n = [some number]
int rounded = (n + 4) / 5 * 5;
``````

Of course, when dealing with doubles, just put something like 4.99999, or if you want to account for all cases (if you might be dealing with even more precise doubles), add a condition statement:

``````int n = [some number]
int rounded = n % 5 == 0 ? n : (n + 4) / 5 * 5;
``````

Another Method or logic to rounding up a number to nearest multiple of 5

``````double num = 18.0;
if (num % 5 == 0)
System.out.println("No need to roundoff");
else if (num % 5 < 2.5)
num = num - num % 5;
else
num = num + (5 - num % 5);
System.out.println("Rounding up to nearest 5------" + num);
``````

output :

``````Rounding up to nearest 5------20.0
``````

I've created a method that can convert a number to the nearest that will be passed in, maybe it will help to someone, because i saw a lot of ways here and it did not worked for me but this one did:

``````/**
* The method is rounding a number per the number and the nearest that will be passed in.
* If the nearest is 5 - (63->65) | 10 - (124->120).
* @param num - The number to round
* @param nearest - The nearest number to round to (If the nearest is 5 -> (0 - 2.49 will round down) || (2.5-4.99 will round up))
* @return Double - The rounded number
*/
private Double round (double num, int nearest) {
if (num % nearest >= nearest / 2) {
num = num + ((num % nearest - nearest) * -1);
} else if (num % nearest < nearest / 2) {
num = num - (num % nearest);
}
return num;
}
``````
• Does not work for 31.428 => 31 , but does 32 when nearest =1 Oct 16, 2019 at 14:07

In case you only need to round whole numbers you can use this function:

``````public static long roundTo(long value, long roundTo) {
if (roundTo <= 0) {
throw new IllegalArgumentException("Parameter 'roundTo' must be larger than 0");
}
long remainder = value % roundTo;
if (Math.abs(remainder) < (roundTo / 2d)) {
return value - remainder;
} else {
if (value > 0) {
return value + (roundTo - Math.abs(remainder));
} else {
return value - (roundTo - Math.abs(remainder));
}
}
}
``````

The advantage is that it uses integer arithmetics and works even for large long numbers where the floating point division will cause you problems.

``````int roundUp(int n, int multipleOf)
{
int a = (n / multipleOf) * multipleOf;
int b = a + multipleOf;
return (n - a > b - n)? b : a;
}
``````

Praveen Kumars question elsewhere in this Thread

"Why are we adding 4 to the number?"

is very relevant. And it is why I prefer to code it like this:

``````int roundUpToMultipleOf5(final int n) {
return (n + 5 - 1) / 5 * 5;
}
``````

or, passing the value as an argument:

``````int roundUpToMultiple(final int n, final int multipleOf) {
return (n + multipleOf - 1) / multipleOf * multipleOf;
}
``````

By adding 1 less than the multiple you're looking for, you've added just enough to make sure that a value of `n` which is an exact multiple will not round up, and any value of `n` which is not an exact multiple will be rounded up to the next multiple.

Recursive:

``````public static int round(int n){
return (n%5==0) ? n : round(++n);
}
``````
• the formula is (x+y-1)/y, dunno if recursive is just to look cool, imagine it was few thousands - bam StackOverflow. Feb 16, 2012 at 1:05
• you caught me. I often float around stack overflow trying to look cool. It was an alternative suggestion. There are numerous approaches. Feb 16, 2012 at 1:09
• @TimmyO'Mahony recursion is unnecessary and completely inefficient in this
– user14248283
Sep 7, 2020 at 12:42

Just pass your number to this function as a double, it will return you rounding the decimal value up to the nearest value of 5;

if 4.25, Output 4.25

if 4.20, Output 4.20

if 4.24, Output 4.20

if 4.26, Output 4.30

if you want to round upto 2 decimal places,then use

``````DecimalFormat df = new DecimalFormat("#.##");
roundToMultipleOfFive(Double.valueOf(df.format(number)));
``````

if up to 3 places, new DecimalFormat("#.###")

if up to n places, new DecimalFormat("#.nTimes #")

`````` public double roundToMultipleOfFive(double x)
{

x=input.nextDouble();
String str=String.valueOf(x);
int pos=0;
for(int i=0;i<str.length();i++)
{
if(str.charAt(i)=='.')
{
pos=i;
break;
}
}

int after=Integer.parseInt(str.substring(pos+1,str.length()));
int Q=after/5;
int R =after%5;

if((Q%2)==0)
{
after=after-R;
}
else
{
after=after+(5-R);
}

return Double.parseDouble(str.substring(0,pos+1).concat(String.valueOf(after))));

}
``````

Here's what I use for rounding to multiples of a number:

``````private int roundToMultipleOf(int current, int multipleOf, Direction direction){
if (current % multipleOf == 0){
return ((current / multipleOf) + (direction == Direction.UP ? 1 : -1)) * multipleOf;
}
return (direction == Direction.UP ? (int) Math.ceil((double) current / multipleOf) : (direction == Direction.DOWN ? (int) Math.floor((double) current / multipleOf) : current)) * multipleOf;
}
``````

The variable `current` is the number you're rounding, `multipleOf` is whatever you're wanting a multiple of (i.e. round to nearest 20, nearest 10, etc), and `direction` is an enum I made to either round up or down.

Good luck!

Round a given number to the nearest multiple of 5.

``````public static int round(int n)
while (n % 5 != 0) n++;
return n;
}
``````
• this is one of the worst way because it needs to do a slow division multiple times Jul 13, 2018 at 1:59

You can use this method `Math.round(38/5) * 5` to get multiple of 5

It can be replace with `Math.ceil` or `Math.floor` based on how you want to round off the number

Use this method to get nearest multiple of 5.

``````private int giveNearestMul5(int givenValue){
int roundedNum = 0;
int prevMul5, nextMul5;
prevMul5 = givenValue - givenValue%5;
nextMul5 = prevMul5 + 5;
if ((givenValue%5!=0)){
if ( (givenValue-prevMul5) < (nextMul5-givenValue) ){
roundedNum = prevMul5;
} else {
roundedNum = nextMul5;
}
} else{
roundedNum = givenValue;
}

return roundedNum;
}
``````
``````if (n % 5 == 1){
n -= 1;
} else if (n % 5 == 2) {
n -= 2;
} else if (n % 5 == 3) {
n += 2;
} else if (n % 5 == 4) {
n += 1;
}
``````
• YandereDev, is that you? Aug 14, 2020 at 13:23

CODE:

```    public class MyMath
{
public static void main(String[] args) {
runTests();
}
public static double myFloor(double num, double multipleOf) {
return ( Math.floor(num / multipleOf) * multipleOf );
}
public static double myCeil (double num, double multipleOf) {
return ( Math.ceil (num / multipleOf) * multipleOf );
}

private static void runTests() {
System.out.println("myFloor (57.3,  0.1) : " + myFloor(57.3, 0.1));
System.out.println("myCeil  (57.3,  0.1) : " + myCeil (57.3, 0.1));
System.out.println("");
System.out.println("myFloor (57.3,  1.0) : " + myFloor(57.3, 1.0));
System.out.println("myCeil  (57.3,  1.0) : " + myCeil (57.3, 1.0));
System.out.println("");
System.out.println("myFloor (57.3,  5.0) : " + myFloor(57.3, 5.0));
System.out.println("myCeil  (57.3,  5.0) : " + myCeil (57.3, 5.0));
System.out.println("");
System.out.println("myFloor (57.3, 10.0) : " + myFloor(57.3,10.0));
System.out.println("myCeil  (57.3, 10.0) : " + myCeil (57.3,10.0));
}
}
```

OUTPUT:There is a bug in the myCeil for multiples of 0.1 too ... no idea why.

```    myFloor (57.3,  0.1) : 57.2
myCeil  (57.3,  0.1) : 57.300000000000004

myFloor (57.3,  1.0) : 57.0
myCeil  (57.3,  1.0) : 58.0

myFloor (57.3,  5.0) : 55.0
myCeil  (57.3,  5.0) : 60.0

myFloor (57.3, 10.0) : 50.0
myCeil  (57.3, 10.0) : 60.0
```