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In the way of learning Java Generics, I got stuck at a point.
It was written "Java Generics works only with Objects and not the primitive types".


 Gen<Integer> gen=new Gen<Integer>(88);     // Works Fine ..  

But, with the primitive types like int,char etc ...

 Gen<int> gen=new Gen<int>(88) ;    // Why this results in compile time error 

I mean to say, since java generics does have the auto-boxing & unboxing feature, then why this feature cannot be applied when we declare a specific type for our class ?

I mean, why Gen<int> doesn't automatically get converted to Gen<Integer> ?

Please help me clearing this doubt.

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possible duplicate of Generics syntax: classes versus primitive data types –  RC. Feb 15 '11 at 6:30
If you really need to use the primitives, Use Trove. –  st0le Feb 15 '11 at 6:53

4 Answers 4

up vote 9 down vote accepted

Autoboxing doesn't say that you can use int instead of Integer. Autoboxing automates the process of boxing and unboxing. E.g. If I need to store some primitive int to a collection, I don't need to create the wrpper object manually. Its been taken care by Java compiler. In the above example you are instantiating an generic object which is of Integer type. This generic object will still work fine with int but declaring int as a generic type is wrong. Generics allow only object references not the primitives.

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If I'm not mistaken, this is actually taken care of by the compiler, not the JVM. –  Alain Pannetier Feb 15 '11 at 6:54
@Alain Pannetier - True, but that's hardly the contention here. (I did up your comment though!) –  user183037 Feb 15 '11 at 7:27

As you have discovered, you can't mention a primitive type as a type parameter in Java generics. Why is this the case? It is discussed at length in many places, including Java bug 4487555.

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Woohoo. The Java bugs database is back! –  Stephen C Feb 15 '11 at 6:31
omg! 2001 - 2010, 10 years long thread! –  Nishant Feb 15 '11 at 7:17
I should have set "at serious length" :P –  sjr Feb 15 '11 at 7:19

The simple explanation: Generics are defined that way.

A good reason from the Java perspective: It simplifies type erasure and translation to byte code for the compiler. All the compiler needs to do is some casting.

With non-primitives the compiler would have to decide whether to cast or to inbox/outbox, it would to need to have additional validating rules (extends and & wouldn't make sense with primitives, should a ? include primitives, yes or no? and so on) and have to handle type conversions (assume you parametize a collection with long and add an int...?)

A good reason from a programmers perspective: operations with a bad performance are kept visible! Allowing primitves as Type Arguments would require hidden autoboxing (inboxing for store, outboxing for read operations. Inboxing may create new objects which is expensive. People would expect fast operations if they parametize a generic class with primitives but the opposite would be true.

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That's a very good question.

As you suspected, the abstraction could surely be extended to the type parameters, and made them trasparent to the programmer. In fact, that is what most modern JVM languages do (statically typed ones, of course). Examples include Scala, Ceylon, Kotlin etc.

This is what your example would look like in Scala:

val gen: Gen[Int] = new Gen[Int](80)

Int is just a regular class, just like other classes. There is no primitive-object distinction whatsoever.

As to why Java people did not do it... I don't actually know the reason, but I imagine such an abstraction would not fit with the existing Java specification without overcomplicating the semantics (or without sacrificing the backward compatibility, which is certainly not a viable option).

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