- Where are teamA and teamB typed? Or aren't they (like some weird form of generics)?
Lambda's use target typing, much like generic method calls (since 1.5) and the diamond [not an] operator (since 1.7). Roughly, where the type the result applied to is stated (or can be inferred) that is used to supply the type of the Single Abstract Method (SAM) base type and hence the method parameter types.
As an example of generic method inference in 1.5:
Set<Team> noTeams = Collections.emptySet();
And diamond operator in 1.7:
Set<Team> aTeams = new HashSet<>();
Team, team, team, team, team, team. I even love saying the word team.
- Is a lambda a type of closure, or is it the other way around?
A lambda is a limited form of closure in almost exactly the same way as anonymous inner classes, but with some random differences to catch you out:
this is not hidden by an inner
this. This means that the same text in a lambda and an anonymous inner class can mean subtly but completely different things. That should keep Stack Overflow busy with odd questions.
To make up for the lack of inner
this, if assigned directly to a local variable, then that value is accessible within the lambda. IIRC (I could check, but wont), in an anonymous inner class the local will be in scope and hide variables in an outer scope but you can't use it. I believe the lack of an instance initialiser makes this much easier to specify.
Local fields that do not happen to be marked
final but could be, are treated as if they are
final. So not are they in scope, but you can actually read (though not write) them.
- What benefits will this give me over a typical anonymous function?
A briefer syntax. That's about it.
Of course the rest of the Java syntax is just as hopelessly bad as ever.
I don't believe this is in the initial implementation, but instead of being implemented as [inner] classes, lambdas can use method handles. The performance of method handles falls somewhat short of earlier predictions. Doing away with classes, should reduce bytecode footprint, possibly runtime footprint and certainly class loading time. There could be an implementation where most anonymous inner classes (not
Serializable, trivial static initialiser) didn't go through the poorly conceived class loading mechanism without any particularly noticeable incompatibilities.
(Hope I've got the terminology wrt hiding correct.)