I expect the following code output with Seq(0), instead it returns a function ?

@ Seq(0).orElse(Seq(1))
res2: PartialFunction[Int, Int] = <function1>

I suspected at first that via syntax sugar it orElse on apply function, but it didn't since by trying:

@ Seq(0).apply.orElse(Seq(1))
cmd3.sc:1: missing argument list for method apply in trait SeqLike

I checked in IntellJ that there's no implicit conversion.
What happens?

EDIT: what I wish is:
Seq.empty.orElse(Seq(1)) == Seq(1)
Seq(0).orElse(Seq(1)) == Seq(0)

thanks @AndreyTyukin answer.
In one line, orElse has different semantic in different type , now Seq inherits PartialFunction not Option, so does the orElse behavior.

  • Apply has an mandatory argument that you missed, to use apply explicitly the index should be passed: Seq.apply(0).orElse(Seq(1)) Apr 13, 2018 at 14:33
  • @AlexEvseenko That's the same as Seq(0).orElse(Seq(1)). If you meant Seq(0).apply(0).orElse(Seq(1)), then it's invalid, because Int has no method orElse. Apr 13, 2018 at 14:47
  • I meant statement from the original post: @ Seq(0).apply.orElse(Seq(1)) cmd3.sc:1: missing argument list for method apply in trait SeqLike Apr 13, 2018 at 14:50
  • On EDIT: For this to be type-safe, the PartialFunction would have to be F-polymorphically bounded by the return type of the orElse-method. Given how deeply PartialFunction is embedded in the standard API and the compiler, this will probably never happen. If you don't need this type-safely, it would theoretically be possible to implement the orElse in this way, but it would be more of a hack... May I ask why you need this? Wouldn't your own "pimp-my-library"-pattern do the trick? Apr 14, 2018 at 1:28

1 Answer 1


The Seq(0) is treated as a PartialFunction that is defined only at index 0, and produces as result the constant value 0 if it is given the only valid input 0.

When you invoke orElse with Seq(1), a new partial function is constructed, that first tries to apply Seq(0), and if it finds nothing in the domain of definition of Seq(0), it falls back to Seq(1). Since the domain of Seq(1) is the same as the domain of Seq(0) (namely just the {0}), the orElse does essentially nothing in this case, and returns a partial function equivalent to Seq(0).

So, the result is again a partial function defined at 0 that gives 0 if it is passed the only valid input 0.

Here is a non-degenerate example with sequences of different length, which hopefully makes it easier to understand what the orElse method is for:

val f = Seq(1,2,3).orElse(Seq(10, 20, 30, 40, 50))

is a partial function:

f: PartialFunction[Int,Int] = <function1>

Here is how it maps values 0 to 4:

0 to 4 map f

// Output: Vector(1, 2, 3, 40, 50)

That is, it uses first three values from the first sequence, and falls back to the second sequence passed to orElse for inputs 3 and 4.

This also works with arbitrary partial functions, not only sequences:

scala> val g = Seq(42,43,44).orElse[Int, Int]{ case n => n * n }
g: PartialFunction[Int,Int] = <function1>

scala> 0 to 10 map g
res7 = Vector(42, 43, 44, 9, 16, 25, 36, 49, 64, 81, 100)

If you wanted to select between two sequences without treating them as partial functions, you might consider using


This will return Seq(0), if this is what you wanted.

  • 1
    I think the wording of the second sentence is misleading. When pfA.orElse(pfB) is applied to x, pfB will only be invoked if pfA is undefined at x. So, it is confusing to say that "you override the returned value" because there is no returned value—if there were, it would not be overridden.
    – Joe Pallas
    Apr 13, 2018 at 18:42
  • @JoePallas You are right. This statement was just plain wrong. I updated the answer. Thank you! Apr 13, 2018 at 18:48
  • in console Seq(0); res46: Seq[Int] = List(0) Seq(0) is List now ? Apr 14, 2018 at 0:43
  • so that the type of Seq is dynamic between List and PartialFunction ? Apr 14, 2018 at 0:44
  • 1
    thankyou, I thought it would behave as Option. I should have first saw what it does from looking at type hierarchy. Apr 14, 2018 at 1:42

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