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If I have a collection c of type T and there is a property p on T (of type P, say), what is the best way to do a map-by-extracting-key?

val c: Collection[T]
val m: Map[P, T]

One way is the following:

m = new HashMap[P, T]
c foreach { t => m add (t.getP, t) }

But now I need a mutable map. Is there a better way of doing this so that it's in 1 line and I end up with an immutable Map? (Obviously I could turn the above into a simple library utility, as I would in Java, but I suspect that in Scala there is no need)

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up vote 126 down vote accepted
c map (t => t.getP -> t) toMap

but be aware that this needs 2 traversals. To get away with one use => t.getP -> t)(collection.breakOut): Map[P, T]

breakOut instructs .map to immediately create a collection of the expected type.

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I still prefer my suggestions in trac of a Traversable[K].mapTo( K => V) and Traversable[V].mapBy( V => K) were better! – oxbow_lakes Jul 14 '10 at 21:17
Be aware that this is a quadratic operation, but the same goes for most other variants given here. Looking at the source code of scala.collection.mutable.MapBuilder etc, it seems to me that for each tuple, a new immutable map is created to which the tuple is added. – Jona Christopher Sahnwaldt Mar 3 '12 at 2:17
On my machine for a list with 500,000 elements, this Scala code is about 20 times slower than the straight-forward Java approach (create HashMap with appropriate size, loop over list, put elements into map). For 5,000 elements, Scala ist about 8 times slower. The loop approach written in Scala is roughly 3 times faster than the toMap variant, but still between 2 and 7 times slower than Java. – Jona Christopher Sahnwaldt Mar 11 '12 at 2:13
Would you please provide the test sources to the SO community? Thx. – user573215 Sep 23 '13 at 9:11
Replace c with c.iterator to avoid creation of intermediate collection. – ghik Aug 16 '14 at 11:14

You can construct a Map with a variable number of tuples. So use the map method on the collection to convert it into a collection of tuples and then use the : _* trick to convert the result into a variable argument.

scala> val list = List("this", "maps", "string", "to", "length") map {s => (s, s.length)}
list: List[(java.lang.String, Int)] = List((this,4), (maps,4), (string,6), (to,2), (length,6))

scala> val list = List("this", "is", "a", "bunch", "of", "strings")
list: List[java.lang.String] = List(this, is, a, bunch, of, strings)

scala> val string2Length = Map(list map {s => (s, s.length)} : _*)
string2Length: scala.collection.immutable.Map[java.lang.String,Int] = Map(strings -> 7, of -> 2, bunch -> 5, a -> 1, is -> 2, this -> 4)
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I've been reading about Scala for >2 weeks and working through examples and not once had I seen this ": _ *" notation! Thanks very much for your help – oxbow_lakes Mar 23 '09 at 21:15
Just for the record, i wonder why we need to precise that this is a sequence with _. map still convert return a list of tuple here. So why the _ ? I mean it works but i would like to understand the type ascription here – MaatDeamon Jul 9 '15 at 20:18
Is this more efficient than the other methods? – Jus12 Aug 22 '15 at 8:14

In addition to @James Iry's solution, it is also possible to accomplish this using a fold. I suspect that this solution is slightly faster than the tuple method (fewer garbage objects are created):

val list = List("this", "maps", "string", "to", "length")
val map = list.foldLeft(Map[String, Int]()) { (m, s) => m(s) = s.length }
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I will try this out (I'm sure it works :-). What is going on with the "(m,s)=>m(s) = s.length" function? I have seen the typical foldLeft example with a sum and a function "_ + _"; this is much more confusing! The function seems to assume that I already have a tuple (m,s), which I don't really get – oxbow_lakes Mar 24 '09 at 22:33
Is this right? According to the scaladoc of foldLeft: "foldLeft [B](z : B)(op : (B, A) => B) : B" B in this case must be a Map[String, Int], so I don't really understand the function in your example at all! It should return a Map for a start, shouldn't it? – oxbow_lakes Mar 24 '09 at 22:50
OK - so I've got this! "m(s) = s.length" (where m is a map) returns a new map with the mapping "s -> s.length". How was I supposed to know this? I can't find it anywhere in the programming in scala sections on maps! – oxbow_lakes Mar 25 '09 at 9:52
That is scala's syntactic sugar for update: An assignment f(args) = e with a function application to the left of the '=' operator is interpreted as f.update(args, e), i.e. the invocation of an update function defined by f. [The Scala Language Specification Version 2.7, 6.15 Assignments] – Palimondo Mar 18 '10 at 1:15
@Daniel I try your code, but appear following error: "value update is not a member of scala.collection.immutable.Map[String,Int]". Please explain your code how to working this code? – mr.boyfox Feb 18 '14 at 15:15

Another solution (might not work for all types)

import scala.collection.breakOut
val m:Map[P, T] = => (t.getP, t))(breakOut)

this avoids the creation of the intermediary list, more info here: Scala 2.8 breakout

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What you're trying to achieve is a bit undefined.
What if two or more items in c share the same p? Which item will be mapped to that p in the map?

The more accurate way of looking at this is yielding a map between p and all c items that have it:

val m: Map[P, Collection[T]]

This could be easily achieved with groupBy:

val m: Map[P, Collection[T]] = c.groupBy(t => t.p)

If you still want the original map, you can, for instance, map p to the first t that has it:

val m: Map[P, T] = c.groupBy(t => t.p) map { case (p, ts) =>  p -> ts.head }
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One handy tweak on this is to use collect instead of map. Eg: => t.p) collect { case (Some(p), ts) => p -> ts.head }. This way you can do things like flatten maps when you key is an Option[_]. – healsjnr Feb 16 at 4:54
@healsjnr Sure, this could be said for any map. It isn't the core issue here, though. – errr Feb 16 at 10:39

For what it's worth, here are two pointless ways of doing it:

scala> case class Foo(bar: Int)
defined class Foo

scala> import scalaz._, Scalaz._
import scalaz._
import Scalaz._

scala> val c = Vector(Foo(9), Foo(11))
c: scala.collection.immutable.Vector[Foo] = Vector(Foo(9), Foo(11))

scala> Foo).bar) &&& identity).toMap
res30: scala.collection.immutable.Map[Int,Foo] = Map(9 -> Foo(9), 11 -> Foo(11))

scala> Foo).bar) >>= (Pair.apply[Int, Foo] _).curried).toMap
res31: scala.collection.immutable.Map[Int,Foo] = Map(9 -> Foo(9), 11 -> Foo(11))
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Also, fwiw, this is how those two would look in Haskell: Map.fromList $ map (bar &&& id) c, Map.fromList $ map (bar >>= (,)) c. – missingfaktor Feb 4 '12 at 10:08

This is probably not the most efficient way to turn a list to map, but it makes the calling code more readable. I used implicit conversions to add a mapBy method to List:

implicit def list2ListWithMapBy[T](list: List[T]): ListWithMapBy[T] = {
  new ListWithMapBy(list)

class ListWithMapBy[V](list: List[V]){
  def mapBy[K](keyFunc: V => K) = { => keyFunc(a) -> a).toMap

Calling code example:

val list = List("A", "AA", "AAA")
list.mapBy(_.length)                  //Map(1 -> A, 2 -> AA, 3 -> AAA)

Note that because of the implicit conversion, the caller code needs to import scala's implicitConversions.

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c map (_.getP) zip c

Works well and is very intuitiv

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Please add more details. – Syeda Zunairah Dec 4 '14 at 10:57
I'm sorry. But, this IS an answer to the question "Scala best way of turning a Collection into a Map-by-key?" as Ben Lings is. – Jörg Bächtiger Dec 15 '14 at 15:55

This works for me:

val personsMap = persons.foldLeft(scala.collection.mutable.Map[Int, PersonDTO]()) {
    (m, p) => m( = p; m

The Map has to be mutable and the Map has to be return since adding to a mutable Map does not return a map.

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