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Why does the following occur in Scala

scala> def f(xs: Seq[Either[Int,String]]) = 0
f: (xs: Seq[Either[Int,String]])Int

scala> val xs = List(Left(0), Right("a")).iterator.toArray
xs: Array[Product with Serializable with Either[Int,java.lang.String]] = Array(Left(0), Right(a))

scala> f(xs)
res39: Int = 0

scala> f(List(Left(0), Right("a")).iterator.toArray)
<console>:9: error: polymorphic expression cannot be instantiated to expected type;
 found   : [B >: Product with Serializable with Either[Int,java.lang.String]]Array[B]
 required: Seq[Either[Int,String]]
       f(List(Left(0), Right("a")).iterator.toArray)

Update: Debilski suggests a better example (not 100% sure this is demonstrating the same underlying phenomenon):

Seq(0).toArray : Seq[Int] // compiles
Seq(Some(0)).toArray : Seq[Option[Int]] // doesn't
share|improve this question
You can also have the following minimal example Seq(0).toArray : Seq[Int] (compiles) vs Seq(Some(0)).toArray : Seq[Option[Int]] (does not compile). – Debilski Jul 13 '11 at 8:50
Nice, thanks for the better example. Updating the question with it. – Yang Jul 13 '11 at 23:56
You can gain additional information by adding -Xlog-implicits to the startup command for Scala. It prints out some additional information on why it can't use the implicit conversion. The interesting question raised here, for me, is understanding why a val of an expression and an expression have different types. – Ross Judson Jul 17 '11 at 16:21

3 Answers 3

The best person to explain this is Adriaan Moors, and he already did that here on Stack Overflow -- lookup answers from him and you'll find it.

Anyway, the problem is that the type of List(Left(0), Right("a")).iterator.toArray cannot be inferred within the boundaries expected by f. It does not conform to Seq[Either[Int, String]] without an implicit conversion, and no implicit conversion can be applied because it (the type) cannot be determined. It's like an egg&chicken problem.

If you use <% or assign it to a val, you break the cycle in the inference.

share|improve this answer
Sure, but I'm still trying to figure out why the inference engine fails at this particular set of constraints, while, e.g., def f(xs: Seq[Int]) = 0; f(List(0,1).toArray) works (which also features an implicit conversion to Seq[Int]). – Yang Jul 14 '11 at 2:33
Another way to understand my confusion is to see my original alternative example with the two steps - the inference works in this case, from xs: Array[...] to Seq[...]. The return type of the ....toArray expression is Array[...] as well, yet the inference breaks here. – Yang Jul 14 '11 at 2:41
My first comment here should say f(List(0,1).iterator.toArray) to be analogous to my original example. – Yang Jul 14 '11 at 7:31

This has nothing to do with Either but rather with Array handling. If you convert it manually to a Seq it works:

scala> f(xs.toSeq)
res4: Int = 0

A Scala Array is not a Seq (because it is in fact a Java array). But a WappedArray is. You could also redefine your function f has:

scala> def f[A <% Seq[Either[Int,String]]](xs: A) = 0
f: [A](xs: A)(implicit evidence$1: (A) => Seq[Either[Int,String]])Int

scala> f(xs)
res5: Int = 0

BTW, no need to get an iterator before calling toArray.

share|improve this answer
But why does it work with Seq[Int] then? – Debilski Jul 13 '11 at 10:24
Because a Seq is a Seq ? Perhaps I am missing completely the point ? – paradigmatic Jul 13 '11 at 12:27
Have a look at my other comment. What I mean is: it breaks with Seq[Either[Int, String]], yet it works with Seq[Int]. – Debilski Jul 13 '11 at 13:18
Yeah, something is still missing from this explanation. It has something to do with the Eithers, since if I'm just using List(0,1) I don't see this problem. – Yang Jul 14 '11 at 2:25

I believe this is because you cannot turn an Array into an Array, but you can convert a Sequence into an Array. The method wants a Sequence that it can use to make an Array.

Bottom line is to check the method signatures and not guess what they are based on the method name.

The important part is this:

found   : [B >: Product with Serializable with Either[Int,java.lang.String]]Array[B]
 required: Seq[Either[Int,String]]
       f(List(Left(0), Right("a")).iterator.toArray)

The toArray method wants a Seq (so a List would be fine) and it returns an Array. You have passed it an Array and it does not know what to do. Either make the Array into a Seq first, or just skip the toArray method entirely.

If you go back one step it is clear that the iterator method takes your List and returns an Array. Each method invocation is a function call.

share|improve this answer
Don't think it's quite that simple, since def f(xs: Seq[Int]) = 0; f(List(0,1).toArray) works. – Yang Jul 14 '11 at 2:28
Now you are adding List to the mix, but then List is just a subclass of Seq. It makes sense to convert a List to an Array, but it does not make sense to convert an Array to an Array. – Michael Dillon Jul 14 '11 at 4:57
I should have written f(List(0,1).iterator.toArray), but it still works, so there's something more here. – Yang Jul 14 '11 at 5:04
Try just plain List(0,1).iterator and List(Left(0), Right("a")).iterator to see the difference. It looks like a Cartesian product has two dimensions and therefore is an Array instead of a List – Michael Dillon Jul 14 '11 at 5:18
Still lost. Your last comment is just my original example - f(List(Left(0),Right("a")).iterator.toArray) doesn't work, f(List(0,1).iterator.toArray) does, and I'm trying to understand why. I don't follow your explanation - how is .iterator returning an Array / how am I passing an array to .toArray? – Yang Jul 14 '11 at 7:33

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