2

Is it possible to use keys with wildcards for Scala Maps? For example tuples of the form (x,_)? Example:

scala> val t1 = ("x","y")
scala> val t2 = ("y","x")
scala> val m = Map(t1 -> "foo", t2 -> "foo")

scala> m(("x","y"))
res5: String = foo

scala> m(("x",_))
<console>:11: error: missing parameter type for expanded function ((x$1) => scala.Tuple2("x", x$1))
              m(("x",_))
                     ^

It would be great if there was a way to retrieve all (composite_key, value) pares where only some part of composite key is defined. Other ways to get the same functionality in Scala?

1
  • Does it even make sense in this particular example? It's not a multimap, so it has only one entry per key.
    – Ashalynd
    May 28, 2014 at 8:45

4 Answers 4

2

How about use collect

Map( 1 -> "1" -> "11", 2 -> "2" -> "22").collect { case (k@(1, _), v ) => k -> v }
4
  • Thanks! Will collect traverse all keys in this case? I mean how efficient will it be for a huge collection? O(n)?
    – DarqMoth
    May 28, 2014 at 9:15
  • Yes, collect traverses all tuples in the map exactly once. So you could argue it's O(n), BUT you could have: {case (k@(1, _), v ) if pred => ...} where pred is a boolean function with O(2^n). Then your collect would be O(n*2^n). So it depends on the collecting function.
    – Kigyo
    May 28, 2014 at 9:37
  • It is not clear how predicate function will help to reduce traverse. As I understand predicate should be tested on all keys of the map, so all elements will be traveresed anyway. Could you please give a code example? Thanks!
    – DarqMoth
    May 28, 2014 at 10:28
  • You had to traverses keys if you use one map. Or you may need the predicate of key as another map.
    – jilen
    May 29, 2014 at 9:01
1

Using comprehensions like this:

for ( a @ ((k1,k2), v) <- m  if k1 == "x" ) yield a
1

In general, you can do something like

m.filter(m => (m._1 == "x"))

but in your particular example it will still return only one result, because a Map has only one entry per key. If your key itself is composite then it will indeed make more sense:

scala>  Map((1,2)->"a", (1,3)->"b", (3,4)->"c").filter(m => (m._1._1 == 1))
res0: scala.collection.immutable.Map[(Int, Int),String] = Map((1,2) -> a, (1,3) -> b)
4
  • Is there any practical difference between collect and filter ?
    – goral
    May 28, 2014 at 8:55
  • 1
    they both do more or less the same (filtering list based on some criteria, preserving the order of the elements), but collect uses a PartialFunction which does not have to be defined on all elements of the collection (and will only run on the elements for which it is defined).
    – Ashalynd
    May 28, 2014 at 9:15
  • Will collect traverse all keys in the map? I mean how efficient will it be for a huge collection? O(n)?
    – DarqMoth
    May 28, 2014 at 9:30
  • The docs say collect runs only on the elements for which its PartialFunction is defined. But I think it's unlikely that it still does not have to traverse the whole collection.
    – Ashalynd
    May 28, 2014 at 9:59
0

Think about what is happening under the hood of the Map. The default Map in Scala is scala.collection.immutable.HashMap, which stores things based on their hash codes. Do ("x", "y") and ("x", "y2") have hash codes that relate to each other in anyway? No, they don't, and their is no efficient way to implement wildcards with this map. The other answers provide solutions, but these will iterate over key/value pair in the entire Map, which is not efficient.

If you expect you are going to want to do operations like this, use a TreeMap. This doesn't use a hash table internally, put instead puts elements into a tree based on an ordering. This is similar to the way a relational database uses B-Trees for its indices. Your wildcard query is like using a two-column index to filter on the first column in the index.

Here is an example:

import scala.collection.immutable.TreeMap

val t1 = ("x","y")
val t2 = ("x","y2")
val t3 = ("y","x")
val m = TreeMap(t1 -> "foo1", t2 -> "foo2", t3 -> "foo3")

// "" is < than all other strings
// "x\u0000" is the next > string after "x"
val submap = m.from(("x", "")).to(("x\u0000", ""))

submap.values.foreach(println) // prints foo1, foo2
1
  • i added plus one because I found the reminder to think about things in terms of hash codes was actually useful ! Feb 1, 2016 at 22:02

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.