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I know that using generic in an assignment, a method can implicitly know the type of the return type by looking at the type of the left hand side variable.

Example from Google Collection:

List<String> l = Lists.newArrayList()

My question is why it doesn't work for a method or higher type of inference?


List<List<String>> ll = Lists.newArrayList();
ll.put(Lists.newArrayList()); // doesn't work

Is this specified in the JLS? If yes, why? If no, then is this a kind of improvement that I can expect from Java 7?

This annoyed me because seems that we have a problem in Java like I have problem in Delphi a long time ago where I can't do chained method call like:

C c = a.b().c();

In Delphi (IIRC), you have to do:

B b = a.b();
C c = b.c();

Looks like a 'dejavu'

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You could probably do C c = ((B) a.b()).c() instead of C c = a.b().c(); – MatrixFrog Jan 13 '10 at 8:38
No you can't... like I say... You can't do method chaining at all in Delphi (along time ago, don't know the current state of Delphi). – nanda Jan 13 '10 at 8:40
Is this question appropriate for StackOverflow? It seems subjective, and allows only for speculative answers. – Kevin Bourrillion Jan 13 '10 at 20:25

1 Answer 1

up vote 3 down vote accepted

I wouldn't like to claim particular knowledge here, but there's one obvious difference between assignment to a variable, and using the value as a method argument: there's only one possible target in the former case, whether the method is overloaded or not.

Basically it means that you don't need to worry about type inference and overloading / conversions interacting: the inference only happens in the case where you know the one and only target type you're interested in.

This is just a guess though. I've always found Java's type inference interesting - it works the exact opposite way to C# 3, where you can infer the variable's type (so long as it's a local variable).

EDIT: I believe the relevant JLS section is

If the method result occurs in a context where it will be subject to assignment conversion (§5.2) to a type S, then let R be the declared result type of the method [...]

Basically it's the "assignment conversion" bit which is important.

share|improve this answer
In case of method overloading, I agree with you that we have to explicitly specify the type. Heck... in Java you can even create one method with particular parameter R and another method that with parameter sub R and it works, so I don't believe the 'confusion' is the problem here. – nanda Jan 13 '10 at 8:52
your edit solve the question whether the JLS mentioned it, thank you. Now have you any idea 'why' such inference limited only to an assignment? – nanda Jan 13 '10 at 8:59
@nanda: The first two paragraphs are my guess at the "why" - it keeps the language simpler. Mixing type inference and overloading would be painful. Admittedly the common case would only have a single choice, but special-casing that would be painful too. (C# has a similar issue for type inference when passing method groups to a method taking a delegate, btw.) – Jon Skeet Jan 13 '10 at 9:29

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