Currently I write some ugly code like

    def div(dividend: Int, divisor: Int) = {
        val q = dividend / divisor
        val mod = dividend % divisor
        (q, mod)

Is it specified in standard library?


A bit late to the game, but since Scala 2.8 this works:

import scala.math.Integral.Implicits._

val (quotient, remainder) = 5 /% 2
  • 3
    Looking at the source (Integral.scala), this is just syntactic sugar for doing two separate operations in one go.
    – Luciano
    Nov 28 '18 at 12:22
  • 1
    While it is substantially slower because it forces the use of a Tuple2 for the return value (unless there is a Tuple2[Int, Int] operation of which I am unfamiliar), it does mean that if the implementation is upgraded at some point to efficiently perform both operations at once (say an enhancement in the JVM itself), your code won't have to change to gain the efficiency. I plan to explicitly test the performance difference involving the Tuple2 overhead. I'll come back here and post a link to the results when I finish. Jun 13 '20 at 16:51

No (except for BigInt, as mentioned in other answers), but you can add it:

implicit class QuotRem[T: Integral](x: T) {
  def /%(y: T) = (x / y, x % y)

will work for all integral types. You can improve performance by making separate classes for each type such as

implicit class QuotRemInt(x: Int) extends AnyVal {
  def /%(y: Int) = (x / y, x % y)
  • 1
    In terms of optimization both divison and mod are expensive operation, and we performing them both. Is there a way to take both results with one process?
    – vvg
    Sep 11 '16 at 21:12
  • One which works for all Integral T (Int, Long, BigInt, etc.)? No. Whether it can be done for Int or for Long specifically, should be asked in a separate question; but if it can, I wouldn't be surprised if the compiler does it automatically. Sep 11 '16 at 22:09
  • 2
    You can of course do val z = x / y; (z, x - z * y) to avoid mod, but it may well end up being slower. Sep 11 '16 at 22:10

In BigInt, note /% operation which delivers a pair with the division and the reminder (see API). Note for instance

scala> BigInt(3) /% BigInt(2)
(scala.math.BigInt, scala.math.BigInt) = (1,1)

scala> BigInt(3) /% 2
(scala.math.BigInt, scala.math.BigInt) = (1,1)

where the second example involves an implicit conversion from Int to BigInt.

  • 1
    Ow. Do NOT consider doing that with integers unless you can tolerate math being 60x slower than usual (separate invocation of % and /)!
    – Rex Kerr
    Dec 5 '15 at 20:06
  • There is a rather better implicit-based solution. This one gives a wrong result type, performs horribly, and allows calling other undesired methods on Int as well. Dec 5 '15 at 20:38

BigInt does it

def /%(that: BigInt): (BigInt, BigInt)

Division and Remainder - returns tuple containing the result of divideToIntegralValue and the remainder.

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