Let's make a couple observations and experiment with a few ways of letting the compiler to decide on your return type:
1) Notice the statement
if (value) List[T]() else List[Option[String]]() returns 2 different specific types but the
if statement must return the same type from its then and else clauses. So when this statement returns a value, the compiler will need to infer the most general type for the 2 clauses to bring in a consistent constraint.
2) Notice that type variable
T is dependent on the exact type you pass in when you call
a(), for example
a[scala.io.Source](). In the method declaration you gave
T an upper bound
T <: AnyRef, which means the compiler has to find the most general type that is the union of any type that is a subtype of AnyRef and Option[String].
3) Notice the return type that is inferred by the compiler by removing the return type declaration. i.e.
def a[T <: AnyRef]() = if (true) List[T]() else List[Option[T]]().
The compiler gave
a() a return type
List[AnyRef]. This sort of make sense because that is the only possibility for the most general type between anything
T that is a subtype of
Option[of that anything T].
4) Now try
def a[T <: AnyRef]() = if (true) List[T]() else List[Option[String]](). The return type inferred is now
List[java.lang.Object]. The reason is the
String class in Scala 2.8 is actually
java.lang.String, so according to my best guess, now the most general type has to escape the
scala.* hierarchy and end up in
java.lang.Object for unknown reasons.
AnyRef is really just alias of
java.lang.Object, you can do
def a[T <: AnyRef](): List[AnyRef] = if (true) List[T]() else List[Option[String]]() to force a return type of
If you just want to return any subtype of AnyRef, you basically have to do this:
def a(): List[AnyRef] = ...
which basically returns the super class, and you have to cast the returned
List[AnyRef] down using
def a[T <: AnyRef](): List[T] = List[T]()
will gives you a specific type T, but you can't return 2 different types in an
if statement like in your example, where one may be more specific and the other, and expect it to always return the more specific type supplied by you when you call the method. Because the compiler has no way to guarantee the type in your
if statement will always be List[T] just by doing type checking. Did I make it clearer?