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I wrote some code using generics and I got into the following situation I didn't manage to understand:

I have the interface IpRange, and the following class:

public class Scope<IpRange<T extends IP>> {
     List<IpRange<T>> rangesList;
     public List<IpRange<T>> getRangesList() {return rangesList;}

Now from some test class if i write the following:

Scope<Ipv4> myScope = new Scope<Ipv4>(); 

I'm getting object of IpRange type, but if I'm using a raw type and doing this:

Scope myScope = new Scope();

I'm getting Object, and I can't use the ipRange methods unless i explicitly cast it to Range.

If it would have been List<T> i get it, since i used raw type the compiler has no way to know what is the actual type of the list items, but in this case it will be always IpRange type, so why I'm not getting Object?

The thing is that when I'm creating the scope I don't necessarily know the actual range type. Consider this constructor: public Scope(String rangeStringList); for all I know, the string could be "" or "fe80::10d9:159:f:fffa%". But what I do know is that I passed some IpRange object to the compiler and I would expect to be able to use this interface whether this is ipv4 or ipv6. And since the compiler can know for sure that this is ipRange even if I used row type, i wonder why java chose to do it this way

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Generics are just syntactic sugar. All that stuff is just for type checking before you compile. During compilation, it is translated to type casts. Since you are not specifying the type in your second example, the compiler doesn't cast for you. – styfle Nov 21 '12 at 20:23
Yeah I get it, but no matter what I'll put as T, it will always be of IpRange type, so I would expect to get IpRange object anyway. That's what I don't understand. – axelrod Nov 21 '12 at 20:25
@axelrod My guess is the answer is "because that's what the designers of Java chose to do". The design choice was that raw types cause generic constraints like yours to be ignored completely, as opposed to making the algorithm to find the right erasure more clever. – millimoose Nov 21 '12 at 20:31
Basically, raw types are only there for backwards compatibility. The correct way to write your declaration would be something like Scope<? extends IpRange<?>> myScope = new Scope<Ipv4>();. (There should be absolutely no reason to ever instantiate raw types.) – millimoose Nov 21 '12 at 20:42
Ah right, but you still don't need the generics. You only need public class Scope { and public List<IpRange<IP>> getRangesList() {return rangesList;} because you're not using the value of T at compile time. EDIT: and the appropriate removal of generics from the field obviously... – Jeff Nov 21 '12 at 21:49
up vote 2 down vote accepted

People have pointed out that all generic type information is stripped when using raw types, and hinted that this is to do with backwards compatibility. I imagine this might not be satisfactory without an explanation, so I'll try to explain how such a problem might be encountered with code like yours.

First of all, imagine the code you have written there is part of an old library, and you're in the process of upgrading the library by adding generics. Perhaps it's a popular library and lots of people have used the old code.

Someone may have done something like this using the classes from your library:

private void someMethod(Scope scope, Object object) {

Now, looking at this we know that Object might not be of the type IpRange, but this is a private method, so let's assume that type checking is effectively performed by whatever methods call someMethod. This might not be good code, but without generics it does compile and it might work just fine.

Imagine that the person who wrote this upgraded to the new version of your library for some new features or unrealted bug fixes, along with this they now have access to more type safety with your generic classes. They might not want to use it, though, too much legacy like the extract above code using raw types.

What you are effectively suggesting is that even though 'scope' is a raw type, the List returned from getRangesList() must always be of type List<IpRange<? extends IP>>, so the compiler should notice this.

If this were the case though, the legacy code above which adds an Object to the list will no longer compile without being edited. This is one way backwards compatibility would be broken without disregarding all available generic type information for raw types.

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Yes, if you use raw types, all generics are "turned off" in the rest of that method, and all generic types become raw types instead, even if they would otherwise not be affected by the missing generic parameter of the raw type.

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If you use a raw type, all generic type information is stripped from the class, including static methods if called on the instance.

The reason this was done was for backward compatibility with java 1.4.

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can you elaborate how it would harm backward compatibility if the return value was IpRange as I described – axelrod Nov 22 '12 at 7:43
@axelrod Yes - The API of 1.4 returned a type of Object - it's just being consistent with that. 1.4 code used only what we now call raw types. The thing to remember is that at run time, there is no generics - the return type is actually Object. Generics is there only at compile time and at runtime an implicit cast is made to the generic type. – Bohemian Nov 22 '12 at 11:45

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