Is there a function that can truncate or round a Double? At one point in my code I would like a number like: 1.23456789
to be rounded to 1.23
15 Answers
You can use scala.math.BigDecimal
:
BigDecimal(1.23456789).setScale(2, BigDecimal.RoundingMode.HALF_UP).toDouble
There are a number of other rounding modes, which unfortunately aren't very well documented at present (although their Java equivalents are).

5Fairly likely, I'd say. Anything involving grids or finance can require rounding and also performance.– Rex KerrCommented Jun 19, 2012 at 20:33

31I suppose there are people for whom a long call to a clunky library is more comprehensible than simple mathematics. I'd recommend
"%.2f".format(x).toDouble
in that case. Only 2x slower, and you only have to use a library that you already know.– Rex KerrCommented Jun 19, 2012 at 20:52 
7@RexKerr, you are not rounding in this case.. simply truncating. Commented Sep 27, 2012 at 6:59

19@JoséLeal  Huh?
scala> "%.2f".format(0.714999999999).toDouble
res13: Double = 0.71
butscala> "%.2f".format(0.715).toDouble
res14: Double = 0.72
.– Rex KerrCommented Apr 20, 2013 at 18:37 
5@RexKerr I prefer your string.format way, but in locales s.a. mine (Finnish), care must be taken to fix to ROOT locale. E.g. "%.2f".formatLocal(java.util.Locale.ROOT,x).toDouble . It seems, format uses ',' because of the locale whereas toDouble is not able to take it in and throws a NumberFormatException. This of course is based on where your code is being run, not where it's developed.– akauppiCommented Sep 19, 2014 at 10:02
Here's another solution without BigDecimals
Truncate:
(math floor 1.23456789 * 100) / 100
Round (see rint
):
(math rint 1.23456789 * 100) / 100
Or for any double n and precision p:
def truncateAt(n: Double, p: Int): Double = { val s = math pow (10, p); (math floor n * s) / s }
Similar can be done for the rounding function, this time using currying:
def roundAt(p: Int)(n: Double): Double = { val s = math pow (10, p); (math round n * s) / s }
which is more reusable, e.g. when rounding money amounts the following could be used:
def roundAt2(n: Double) = roundAt(2)(n)

8roundAt2 should be def roundAt2(n: Double) = roundAt(2)(n) no ?– C4storCommented Sep 8, 2014 at 13:38

this seems to return incorrect result for
NaN
, isn't it? Commented Jul 18, 2016 at 23:42 
the problem with
floor
is thattruncateAt(1.23456789, 8)
will return1.23456788
whileroundAt(1.23456789, 8)
will return the correct value of1.23456789
Commented Apr 23, 2017 at 21:25
Since noone mentioned the %
operator yet, here comes. It only does truncation, and you cannot rely on the return value not to have floating point inaccuracies, but sometimes it's handy:
scala> 1.23456789  (1.23456789 % 0.01)
res4: Double = 1.23

2Wouldn't recommend this though it's my own answer: the same inaccuracy issues as mentioned by @ryryguy in another answer's comment affect here as well. Use string.format with the Java ROOT locale (I'll comment about that there).– akauppiCommented Sep 19, 2014 at 9:59

this is perfect if you just need to render the value and never use it in subsequent operations. thanks Commented Dec 3, 2014 at 21:20

4here is something funny:
26.257391515826225  0.057391515826223094 = 26.200000000000003
– kubudiCommented Jul 9, 2015 at 14:37
How about :
val value = 1.4142135623730951
//3 decimal places
println((value * 1000).round / 1000.toDouble)
//4 decimal places
println((value * 10000).round / 10000.toDouble)

pretty clean solution. Here is mine for truncation:
((1.949 * 1000).toInt  ((1.949 * 1000).toInt % 10)) / 1000.toDouble
didn't test it too much though. This code would do 2 decimal places.– robertCommented Mar 30, 2016 at 7:45 
This solution works but if I need zeros in the the decimal places e.g. to keep 4 decimal places it won't. But the format works correctly in this:
"%.4f".format(myDoubleNumber)
Examples:"%.4f".format(1.99999) will return 2.0000
"%.4f".format(1.23499) will return 1.2350
Of course the result is String so good for rendering only.– NKMCommented May 12, 2022 at 11:54
It's actually very easy to handle using Scala f
interpolator  https://docs.scalalang.org/overviews/core/stringinterpolation.html
Suppose we want to round till 2 decimal places:
scala> val sum = 1 + 1/4D + 1/7D + 1/10D + 1/13D
sum: Double = 1.5697802197802198
scala> println(f"$sum%1.2f")
1.57

1What if the X decimal places were a variable instead of predetermined? I've tried things like
f"$y$xf"
but no bueno. Commented Sep 3, 2020 at 20:52
Edit: fixed the problem that @ryryguy pointed out. (Thanks!)
If you want it to be fast, Kaito has the right idea. math.pow
is slow, though. For any standard use you're better off with a recursive function:
def trunc(x: Double, n: Int) = {
def p10(n: Int, pow: Long = 10): Long = if (n==0) pow else p10(n1,pow*10)
if (n < 0) {
val m = p10(n).toDouble
math.round(x/m) * m
}
else {
val m = p10(n).toDouble
math.round(x*m) / m
}
}
This is about 10x faster if you're within the range of Long
(i.e 18 digits), so you can round at anywhere between 10^18 and 10^18.

3Watch out, multiplying by the reciprocal doesn't work reliably, because it may not be reliably representable as a double:
scala> def r5(x:Double) = math.round(x*100000)*0.000001; r5(0.23515)
==>res12: Double = 0.023514999999999998
. Divide by the significance instead:math.round(x*100000)/100000.0
– ryryguyCommented Apr 19, 2013 at 22:37 
It may also be useful to replace the recursive
p10
function with an array lookup: the array will increase memory consumption by about 200 bytes but likely save several iterations per call. Commented Dec 31, 2018 at 19:44
For those how are interested, here are some times for the suggested solutions...
Rounding
Java Formatter: Elapsed Time: 105
Scala Formatter: Elapsed Time: 167
BigDecimal Formatter: Elapsed Time: 27
Truncation
Scala custom Formatter: Elapsed Time: 3
Truncation is the fastest, followed by BigDecimal. Keep in mind these test were done running norma scala execution, not using any benchmarking tools.
object TestFormatters {
val r = scala.util.Random
def textFormatter(x: Double) = new java.text.DecimalFormat("0.##").format(x)
def scalaFormatter(x: Double) = "$pi%1.2f".format(x)
def bigDecimalFormatter(x: Double) = BigDecimal(x).setScale(2, BigDecimal.RoundingMode.HALF_UP).toDouble
def scalaCustom(x: Double) = {
val roundBy = 2
val w = math.pow(10, roundBy)
(x * w).toLong.toDouble / w
}
def timed(f: => Unit) = {
val start = System.currentTimeMillis()
f
val end = System.currentTimeMillis()
println("Elapsed Time: " + (end  start))
}
def main(args: Array[String]): Unit = {
print("Java Formatter: ")
val iters = 10000
timed {
(0 until iters) foreach { _ =>
textFormatter(r.nextDouble())
}
}
print("Scala Formatter: ")
timed {
(0 until iters) foreach { _ =>
scalaFormatter(r.nextDouble())
}
}
print("BigDecimal Formatter: ")
timed {
(0 until iters) foreach { _ =>
bigDecimalFormatter(r.nextDouble())
}
}
print("Scala custom Formatter (truncation): ")
timed {
(0 until iters) foreach { _ =>
scalaCustom(r.nextDouble())
}
}
}
}

1Dear scalaCustom is not rounding off, it's just truncating Commented Jan 5, 2018 at 13:37

hmm, OP was not specific to rounding or truncating;
...truncate or round a Double
.– cevarisCommented Jan 8, 2018 at 18:19 
But in my opinion comparing the speed / execution time of truncating function of with rounding functions is inadequate. That's why I asked you to clarify it to the reader that the custom feature only truncate. And truncate / custom function mentioned by you can be simplified further. val doubleParts = double. toString.split(".") Now get the first two chars of
doubleParts.tail
and concat with strings "." anddoubleParts. head
and parse to double. Commented Jan 9, 2018 at 3:56 
1updated, look better? also your suggestion
toString.split(".")
anddoubleParts.head/tail
suggestion may suffer from extra array allocation plus string concatenation. would need to test to be sure though.– cevarisCommented Jan 10, 2018 at 21:27 
@OldGaurd01 Your idea of "simplification" on a truncate/rounding function FOR NUMBERS, is to use a
String
??? In what universe is that a simplification?? At least 2 extra casts from Double > String and String > Double (potentially 2x for each part...). Commented Feb 27, 2021 at 13:39
You may use implicit classes:
import scala.math._
object ExtNumber extends App {
implicit class ExtendedDouble(n: Double) {
def rounded(x: Int) = {
val w = pow(10, x)
(n * w).toLong.toDouble / w
}
}
// usage
val a = 1.23456789
println(a.rounded(2))
}

1Please specify that this method is for truncating only and not properly rounding.– bobo32Commented May 25, 2017 at 16:10
Recently, I faced similar problem and I solved it using following approach
def round(value: Either[Double, Float], places: Int) = {
if (places < 0) 0
else {
val factor = Math.pow(10, places)
value match {
case Left(d) => (Math.round(d * factor) / factor)
case Right(f) => (Math.round(f * factor) / factor)
}
}
}
def round(value: Double): Double = round(Left(value), 0)
def round(value: Double, places: Int): Double = round(Left(value), places)
def round(value: Float): Double = round(Right(value), 0)
def round(value: Float, places: Int): Double = round(Right(value), places)
I used this SO issue. I have couple of overloaded functions for both Float\Double and implicit\explicit options. Note that, you need to explicitly mention the return type in case of overloaded functions.

Also, you may use @rexkerr 's approach for the power instead of Math.pow Commented May 18, 2013 at 4:22
Those are great answers in this thread. In order to better show the difference, here is just an example. The reason I put it here b/c during my work the numbers are required to be NOT halfup :
import org.apache.spark.sql.types._
val values = List(1.2345,2.9998,3.4567,4.0099,5.1231)
val df = values.toDF
df.show()
++
 value
++
1.2345
2.9998
3.4567
4.0099
5.1231
++
val df2 = df.withColumn("floor_val", floor(col("value"))).
withColumn("dec_val", col("value").cast(DecimalType(26,2))).
withColumn("floor2", (floor(col("value") * 100.0)/100.0).cast(DecimalType(26,2)))
df2.show()
+++++
 valuefloor_valdec_valfloor2
+++++
1.2345 1 1.23 1.23
2.9998 2 3.00 2.99
3.4567 3 3.46 3.45
4.0099 4 4.01 4.00
5.1231 5 5.12 5.12
+++++
floor
function floors to the largest interger less than current value. DecimalType
by default will enable HALF_UP
mode, not just cut to precision you want. If you want to cut to a certain precision without using HALF_UP
mode, you can use above solution instead ( or use scala.math.BigDecimal
(where you have to explicitly define rounding modes).
Since the question specified rounding for doubles specifically, this seems way simpler than dealing with big integer or excessive string or numerical operations.
"%.2f".format(0.714999999999).toDouble
I wouldn't use BigDecimal if you care about performance. BigDecimal converts numbers to string and then parses it back again:
/** Constructs a `BigDecimal` using the decimal text representation of `Double` value `d`, rounding if necessary. */
def decimal(d: Double, mc: MathContext): BigDecimal = new BigDecimal(new BigDec(java.lang.Double.toString(d), mc), mc)
I'm going to stick to math manipulations as Kaito suggested.
You can do:Math.round(<double precision value> * 100.0) / 100.0
But Math.round is fastest but it breaks down badly in corner cases with either a very high number of decimal places (e.g. round(1000.0d, 17)) or large integer part (e.g. round(90080070060.1d, 9)).
Use Bigdecimal it is bit inefficient as it converts the values to string but more reliable:
BigDecimal(<value>).setScale(<places>, RoundingMode.HALF_UP).doubleValue()
use your preference of Rounding mode.
If you are curious and want to know more detail why this happens you can read this:
A bit strange but nice. I use String and not BigDecimal
def round(x: Double)(p: Int): Double = {
var A = x.toString().split('.')
(A(0) + "." + A(1).substring(0, if (p > A(1).length()) A(1).length() else p)).toDouble
}
I think previous answers are:
 Plain wrong: using math.floor for example doesn't work for negative values..
 Unnecessary complicated.
Here is a suggestion based on @kaito's answer (i can't comment yet):
def truncateAt(x: Double, p: Int): Double = {
val s = math.pow(10, p)
(x * s).toInt / s
}
toInt will work for positive and negative values.
1.24
if we start from the end?