Could anyone explain what is difference between: Seq[Any] and Seq[_ <: Any] ?
To my eye, I can put everything in both cases as everything extends Any.

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    Any is a symptom of bad design – cchantep Oct 18 at 19:48
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    @user You can. Try it: val seq1: Seq[_ <: Any] = Seq(1, 2, 3); val seq2 = seq1 :+ "". – Alexey Romanov Oct 18 at 19:51
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    @cchantep Generally yes, but for covariant F, F[Any] is the same as existential type F[_] and existential types are not necessarily a symptom of bad design :) – Dmytro Mitin Oct 18 at 19:57
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    @AlexeyRomanov Huh, that's weird. I guess I was thinking about Java's wildcards. – user Oct 18 at 19:59
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    @user The difference is not because of existential types vs wildcards, but because of different signatures of :+ (and similar Scala methods) and mutating add in Java. – Alexey Romanov Oct 19 at 10:38

Here there's no difference because Seq is covariant. So:

  1. Seq[Any] is a subtype of Seq[_ <: Any] because that _ could be Any;

  2. Seq[_ <: Any] is a subtype of Seq[Any] because whatever you put instead of _ you'll get a subtype of Seq[Any].

If you replace Seq by some invariant F (e.g. Set), Set[Any] is a subtype of Set[_ <: Any] but not vice versa. Set[_ <: Any] is the common supertype of Set[Any], Set[String], Set[Int] etc.

In more detail:

  1. Set[_ <: Any] is a shorthand for Set[T] forSome { T <: Any }.

  2. Set[T] forSome { T <: Any } is the supertype of all Set[T] for types T which satisfy T <: Any. The specification says

    The set of values denoted by the existential type T forSome {Q} is the union of the set of values of all its type instances.

    but that's the same thing.

So code like

val set1: Set[String] = ??? 
val set2: Set[_ <: Any] = set1

will compile (try it!). And it still will if you replace String by any other type (_ <: ... is not a type). But

val set1: Set[String] = ??? 
val set2: Set[Any] = set1


| improve this answer | |
  • Thanks for your answer. Let's consider java.util.map<K,V>I understand that in case of such map I should use: java.util.map<String, _ <: Any> instead of java.util.map<String, Any> ? – tomek.xyz Oct 19 at 10:27
  • And second question: but not vice versa. Why? After all, everything extends (is) scala is Any – tomek.xyz Oct 19 at 10:28
  • "I understand that in case of such map I should use" It very much depends on what you want to do with it. – Alexey Romanov Oct 19 at 10:29
  • "Why? After all, everything extends (is) scala is Any". Because e.g. Set[String] is not a subtype of Set[Any]. And Set[_ <: Any] is the common supertype of Set[Any], Set[String], Set[Int] etc. – Alexey Romanov Oct 19 at 10:32
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    @tomek.xyz _ <: A, _ >: A are ways to transform invariant types into co/contravariant: type Foo[A] type CoFoo[+A] = Foo[_ <: A] type ContraFoo[-A] = Foo[_ >: A]. But Foo is still invariant. – Dmytro Mitin Oct 19 at 19:39

I'll just add to @AlexeyRomanov's answer a quote of specific place in Scala spec:

3.2.12 Existential Types

Simplification Rules

4.An existential type 𝑇 forSome { 𝑄 } where 𝑄 contains a clause type 𝑑[tps]>:𝐿<:π‘ˆ is equivalent to the type 𝑇′ forSome { 𝑄 } where 𝑇′ results from 𝑇 by replacing every covariant occurrence of 𝑑 in 𝑇 by π‘ˆ and by replacing every contravariant occurrence of 𝑑 in 𝑇 by 𝐿.


Seq[_ <: Any] is Seq[T] forSome { type T <: Any}, the occurrence of T in Seq[T] is covariant because Seq is covariant, so Seq[T] forSome { type T <: Any} =:= Seq[Any] forSome { type T <: Any} =:= Seq[Any] (the last step also uses simplification rule #2).

| improve this answer | |
  • 1
    Strictly speaking this rule only gives you Seq[Any] forSome { type T <: Any }. You need to include the "Unused quantifications can be dropped" part as well. – Alexey Romanov Oct 18 at 20:12
  • Yeah, you're right :) – Dmytro Mitin Oct 18 at 20:14

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