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Why do Generics in Java work with objects but not with primitive types?

For example

Gen<Integer> inum = new Gen<Integer>(100); // works fine, but  
Gen<int> inums = new Gen<int>(100); // is not allowed.   
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4 Answers 4

up vote 85 down vote accepted

Generics in Java are an entirely compile-time construct - the compiler turns all generic uses into casts to the right type. This is to maintain backwards compatibility with previous JVM runtimes.

This:

List<ClassA> list = new ArrayList<ClassA>();
list.add(new ClassA());
ClassA a = list.get(0);

gets turned into (roughly):

List list = new ArrayList();
list.add(new ClassA());
ClassA a = (ClassA)list.get(0);

So, anything that is used as generics has to be convertable to Object (in this example get(0) returns an Object), and the primitive types aren't. So they can't be used in generics.

C# is a separate matter - generics are implemented directly as part of the runtime, so primitive types can be used - the CLR generates new versions of generic classes for primitives and structs as they are used. The only disadvantage is (until .NET 4) no generic covariance or contravariance was allowed, unlike Java (see the super and extends keywords in generic definitions)

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Make it clear that this is for Java only. –  ChaosPandion Apr 27 '10 at 13:27
10  
In C# there is no problem with primitive types. –  Danvil Apr 27 '10 at 13:28
    
@ChaosPandion: done –  thecoop Apr 27 '10 at 13:29
1  
@danyal: Nope - the same class implementation is used for all generic uses. It is all implemented using direct casts to/from the right types in the right places. –  thecoop Apr 27 '10 at 13:52
1  
Why can't the Java compiler also box the primitive type before it gets used? This should be possible right? –  vrwim Jan 3 at 14:10

In Java, generics work the way that they do ... at least in part ... because they were added to the language a number of years after the language was designed. The language designers were constrained in their options for generics by having to come up with a design that was backwards compatible with the existing language and the Java class library.

Other programming languages (e.g. C++, C#, Ada) do allow primitive types to be used as parameter types for generics. But the flip side of doing this is that such languages' implementations of generics (or template types) typically entail generation of a distinct copy of the generic type for each type parameterization.

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THe collections are defined to require a type which derives from java.lang.Object. The basetypes simply don't do that.

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2  
I think the question here is "why". Why do generics require Objects? The consensus appears to be that it's less of a design choice and more caving in to backward compatibility. In my eyes, if generics can't handle primitives, that's a functionality deficit. As it stands, everything involving primitives has to be written for each primitive: instead of Comparator<t,t>, we have Integer.compare(int a, int b), Byte.compare(byte a, byte b), etc. That's not a solution! –  John P Jun 27 at 18:00

Previously when there were no generics, there was no problem casting primitives implicitly or explicitly (Yes there would be certain loss of information).

But the problem occurred when the objects of different classes are being caste (Unlike primitives we cannot judge of what amount of information should be deprecated depending up on the type of casting), So generics were created to maintain strict type safety and catch all the classcastException error at compile time itself.

Primitives are way flexible than objects that's probably the reason.

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