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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

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7 Answers 7

up vote 19 down vote accepted

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).

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Note that this is a very expensive operation--100x slower than mult/round/mult all with floats. It's not even more compact. –  Rex Kerr Jun 19 '12 at 19:23
Fairly likely, I'd say. Anything involving grids or finance can require rounding and also performance. –  Rex Kerr Jun 19 '12 at 20:33
I 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 Kerr Jun 19 '12 at 20:52
@RexKerr, you are not rounding in this case.. simply truncating. –  José Leal Sep 27 '12 at 6:59
@JoséLeal - Huh? scala> "%.2f".format(0.714999999999).toDouble res13: Double = 0.71 but scala> "%.2f".format(0.715).toDouble res14: Double = 0.72. –  Rex Kerr Apr 20 '13 at 18:37

Here's another solution without BigDecimals


(math floor 1.23456789 * 100) / 100


(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(p: Int) = roundAt(2)(p)
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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
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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(n-1,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.

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Watch 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 –  ryryguy Apr 19 '13 at 22:37

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.

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Also, you may use @rex-kerr 's approach for the power instead of Math.pow –  Khalid Saifullah May 18 '13 at 4:22

How about :

 val value = 1.4142135623730951

//3 decimal places
println((value * 1000).round / 1000.toDouble)

//4 decimal places
println((value * 10000).round / 10000.toDouble)
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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
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