Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I find the following code remarkable in Java:

    ArrayList<String> l1 = new ArrayList<String>();
    ArrayList<Integer> l2 = new ArrayList<Integer>();
    System.out.println(l1.getClass() == l2.getClass()); // true
    System.out.println(l2.getClass().isAssignableFrom(l1.getClass())); // true too
    //ArrayList<Integer> l3 = l1; // won't compile though

I don't quite understand the details of "isAssignableFrom". Of course, I want the compiler to stop l3 = l2, but it seems to be in contradiction to the previous line? (I'm sure there are subtle points here, that's what I'm after :-)

share|improve this question

6 Answers 6

up vote 8 down vote accepted

All of the <Blah> information is stripped away after compile time. As far as the bytecode is concerned, they're all the same class.

When it comes to during the compile, they're checked for consistency and compatibility.

So when it does the check of l2.getClass().isAssignableFrom(l1.getClass()) it's saying is ArrayList assignable from ArrayList? and the answer is yes. But because during the compile it still has type information, it's not allowed.

share|improve this answer
Specifically, this is called type erasure. The Java tutorial on generics is pretty good at explaining the pitfalls of Java generics: – Scott Sep 16 '11 at 22:53
Yeah, well, it feels a bit contradictory, because something is true at runtime but not at compile time, or, it's assignable, but you can't assign. It doesn't feel quite right :-) – Frank Sep 17 '11 at 1:45
@Frank I suppose the mentality relying on runtime correctness would be poor design; instead we should be designing our code such that errors are caught at compile time. That's not to say we succeed all the time :) – corsiKa Sep 17 '11 at 13:36
Sure, I agree with that. My main issue is that the class are equal and not equal at the same time. As for doing more stuff at compile time, I like to move as much of the runtime to compile time as I can, in C++ (no chance of being able to do that in Java). – Frank Sep 23 '11 at 15:32
You can't do much of it in Java because, honestly, Java can do it better than we can with the JIT. And to be fair, they're not both equal and not equal at the same time, but rather they're equal at one time and not equal at another. – corsiKa Sep 23 '11 at 16:54

This is caused by Java's (rather sloppy) implementation of generics, namely Type Erasure.

Basically the compiler erases type information (eg: ArrayList<String> and ArrayList<Integer> both become ArrayList) and adds casts where necessary. At runtime there's no type distinction between l1 and l2, but the compiler won't let you do the assignment - because it knows the types are different.

share|improve this answer

This is because erasure of generics.

share|improve this answer

isAssignableFrom() is testing if the classes are identical, or if the second one is a superclass or superinterface of the first.

As the other answers have stated, the generics are removed during compile time, so they have no effect on the output of that method. Only the base classes mater.

Reference: Class.isAssignableFrom()

share|improve this answer
That's back to front. It is the first class that is tested for being a superclass or superinterface of the 2nd. – EJP Sep 17 '11 at 2:15

What you wanted could have been served by a getType() method, and l1.getType() should return ArrayList<String>, and l2.getType() should return ArrayList<Integer>.

Unfortunately, Java doesn't have getType() on Object. getClass() return ArrayList in both cases.

share|improve this answer

Since you found out that l1.getClass() == l2.getClass() is true, then l2.getClass().isAssignableFrom(l1.getClass()) should be obvious (x.isAssignableFrom(x) should always be true, no?). Your real question is why l1.getClass() == l2.getClass() is true, which is due to erasure. There is just one class at runtime.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.