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Sometimes there are needs to create tuples from small collections(for example scalding framework).

def toTuple(list:List[Any]):scala.Product = ...
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5 Answers 5

up vote 6 down vote accepted

If you don't know the arity up front and want to do a terrible terrible hack, you can do this:

def toTuple[A <: Object](as:List[A]):Product = {
  val tupleClass = Class.forName("scala.Tuple" + as.size)
toTuple: [A <: java.lang.Object](as: List[A])Product

scala> toTuple(List("hello", "world"))
res15: Product = (hello,world)
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+1 Very useful for cleaning up assignment from strings. It doesn't work for var (a, b, c) = toTuple(myIter.toList) - Any ideas? –  Brent Foust Feb 28 '13 at 0:28
Rubistro: for that purpose you can use var List(a,b,c) = myIter.toList –  Kim Stebel Sep 10 '13 at 10:51

If, as @dhg observed, you know the expected arity up front you can do something useful here. Using shapeless you could write,

scala> import shapeless._
import shapeless._

scala> import Traversables._
import Traversables._

scala> import Tuples._
import Tuples._

scala> List(1, 2, 3).toHList[Int :: Int :: Int :: HNil] map tupled
res0: Option[(Int, Int, Int)] = Some((1,2,3))
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You really don't want your method to return Product since this is uselessly vague. If you want to be able to used the returned object as a tuple, then you'll have to know its arity. So what you can do is have a series of toTupleN methods for different arities. For convenience, you can add these as implicit methods on Seq.

How about this:

class EnrichedWithToTuple[A](elements: Seq[A]) {
  def toTuple2 = elements match { case Seq(a, b) => (a, b) }
  def toTuple3 = elements match { case Seq(a, b, c) => (a, b, c) }
  def toTuple4 = elements match { case Seq(a, b, c, d) => (a, b, c, d) }
  def toTuple5 = elements match { case Seq(a, b, c, d, e) => (a, b, c, d, e) }
implicit def enrichWithToTuple[A](elements: Seq[A]) = new EnrichedWithToTuple(elements)

and use it like:

scala> List(1,2,3).toTuple3
res0: (Int, Int, Int) = (1,2,3)
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Do you want a Tuple or just a Product. Because for the latter:

case class SeqProduct[A](elems: A*) {
  override def productArity: Int = elems.size
  override def productElement(i: Int) = elems(i)

SeqProduct(List(1, 2, 3): _*)
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Also wishing for Tuple, so I could use FunctionX.tupled, which indeed requires a TupleX, not Product (note even ProductX). –  Simeon Fitch Apr 29 '14 at 17:08

Based on @Kim Stebel's idea, I wrote a simple utility that creates tuple from seq.

import java.lang.reflect.Constructor

 * Created by Bowen Cai on 1/24/2015.
sealed trait Product0 extends Any with Product {

  def productArity = 0
  def productElement(n: Int) = throw new IllegalStateException("No element")
  def canEqual(that: Any) = false
object Tuple0 extends Product0 {
  override def toString() = "()"

case class SeqProduct(elems: Any*) extends Product {
  override def productArity: Int = elems.size
  override def productElement(i: Int) = elems(i)
  override def toString() = elems.addString(new StringBuilder(elems.size * 8 + 10), "(" , ",", ")").toString()

object Tuples {

  private[this] val ctors = {
    val ab = Array.newBuilder[Constructor[_]]
    for (i <- 1 to 22) {
      val tupleClass = Class.forName("scala.Tuple" + i)
      ab += tupleClass.getConstructors.apply(0)

  def toTuple(elems: Seq[AnyRef]): Product = elems.length match {
    case 0 => Tuple0
    case size if size <= 22 =>
      ctors(size - 1).newInstance(elems: _*).asInstanceOf[Product]
    case size if size > 22 => new SeqProduct(elems: _*)

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