The first line defines a variable
l of type
Either[String, Int]. The
Either (abstract) class is used to denote when something can hold one of two possible values. The
Right classes subclass
Either, hence the valid assignment. A convention is to use
Left to denote some sort of failure (e.g. a
String describing what went wrong), and
Right to denote some sort of successful computation/value. With this info, the second line is fairly self explanatory as well.
The 3rd and 4th line use projections on the
r variables and perform a
right methods return projections.. if you project
left on a
Left variable, you can then
map over the inside value. If you project
right on a
Left variable, you get the
Right un-altered even after the
map. Same if you do
right on a
So the 3rd line, since
l is a
Left and you
left project it, you apply the
map over the
Left("flower") value giving you
Left(6) since "flower" has length 6.
On the 4th line,
Right so it does nothing.
For your questions:
_.size is the function passed to the
map method.. the
map method "unpacks" the value inside the
Left (it does nothing to the
Right on line 4 since it's a left projection) and calls
.size on it.
r.left returns a left projection on the
Right(12) value. Mapping over this does nothing, as seen in line 4 of your code.
The same old
Since it is
Right(12) and of type
Right[_, Int], it subclasses
Either[Int, Int], so it's valid. It is just there to show the type I believe.
If you go to the REPL and type something like
val foo = Right(1234), you get a type
Right[Nothing, Int] - this "works" because the
Nothing type subclasses all types.
On a related note, once you start feeling comfortable with that and/or Scala, I recommend checkout Scalaz (a library for Scala that provides functional programming things like type classes, monads, and all that good stuff) and the
Validation class which is pretty similar to