That means that Option[Nothing] is a subtype of Option[Int] (because of covariance), right?
Option[Nothing] is an
But with B >: A we said that B has to be a supertype?! So how can we get an Int back?
It doesn't have to be a super-type. It just requires
A as a lower-bound. Which means you can still pass
But that doesn't mean you can't pass instances of a sub-class. For instance:
class B extends A
class C extends B
scala> Option(new B)
res196: Option[B] = Some(B@661f82ac)
scala> res196.getOrElse(new C)
res197: B = B@661f82ac
scala> res196.getOrElse(new A)
res198: A = B@661f82ac
res199: Object = B@661f82ac
I can still pass an instance of
C can be up-cast to
B. I can also pass a type higher up the inheritance tree, and
getOrElse will return that type, instead. If I pass a type that has nothing to do with the type contained in the
Option, then the type with the least upper-bound will be inferred. In the above case, it's
So why is the lower-bound there at all? Why not have:
def getOrElse[B <: A](default: => B): B
This won't work because
getOrElse must either return the
A that's contained in the
Option, or the default
B. But if we return the
A is not a
B, so the type-bound is invalid. Perhaps if
def getOrElse[B <: A](default: => B): A
This would work (if it were really defined that way), but you would be restricted by the type-bounds. So in my above example, you could only pass
getOrElse on an
Option[B]. In any case, this is not how it is in the standard library.
The standard library
getOrElse allows you to pass anything to it. Say you have
Option[A]. If we pass a sub-type of
A, then it is up-cast to
A. If we pass
A, obviously this is okay. And if we pass some other type, then the compiler infers the least upper-bound between the two. In all cases, the type-bound
B >: A is met.
getOrElse allows you to pass anything to it, many consider it very tricky. For example you could have:
val number = "blah"
// ... lots of code
val result = Option(1).getOrElse(number)
And this will compile. We'll just have an
Option[Any] that will probably cause an error somewhere else down the line.