My question is: why do primitive types have to be wrapped in an object, when it is also a possibility to have the compiler set things right for you?
- calls to a primitive value x's methods can be translated from x.call() to X.call(x) - this is what I try to illustrate below.
- generics aren't kept around at runtime (right?), so it isn't the case that you need to access class information at runtime - you could simply replace every instance of Integer by int and rewrite method calls as above, and end up with executable code.
So basically, what I'm asking is: what am I missing here?
I've been wondering about this for some time: Why can't the Java compiler translate...
int a = 482; int b = 12; System.out.println((a + b).toHexString());
...to the following code...
int a = 482; int b = 12; System.out.prinln(Ints.toHexString(a + b));
...and thus remove the entire need for boxing and unboxing?
(Thus, compile method calls to (static) function calls, and keep a single instance of Int.class around in case it's needed - e.g. after a call of Ints.getClass(_)?)
Comment added for clarity:
@Adam: No, I do not think it causes boxing/unboxing. The example attempts to illustrate how primitives could be treated as objects in the language, but as primitives by the compiler. This would remove the (slight) overhead in runtime, and a confusing thing in the language. Therefore the intended question was exactly: why didn't the extremely talented compiler developers pick this solution? Because if they didn't, there must be a clear impossibility that I'm not seeing. And I'd like to know what it is. – Pepijn