16

I found a weird situation when casting generics. I run this code:

class A { }

class B { }

public class Program {

    @SuppressWarnings("unchecked")
    public static void main(String[] args) {
        List<A> listA = new ArrayList<A>();
        List<?> list = listA;
        ((List<B>)list).add(new B());

        for (Object item : listA) {
            System.out.println(item.toString());
        }
    }
}

It compiles very well (only with warning but without error) and run without any exception and the output was:

B@88140ed

How did I do that? I mean why Java allow me to do such thing? I added an instance of B class to list of As?

It is very bad behaviour of generics. Why it is happening?

BTW, I tried it with Java 7.

EDIT:
What surprised me is that Java only notify the problem with warning that every programmer can ignore it. I know that SuppressWarnings is bad idea, but why Java didn't denied such behavior with error or exception?

In addition, this warning showed always, if you think that your casting is correct you have no choice but to ignore it. But if you think that is good casting and ignore it but it isn't?

  • 15
    "It compiles very well" - well yes, because you've explicitly suppressed a warning... You should only do that when you understand the warning you're suppressing, which it looks like you don't in this case. – Jon Skeet Jun 1 '15 at 8:19
  • I meant without fatal error :). Yes, I know that what the warning tells, but I tried it anyway. I expected to get exception or something like that. – nrofis Jun 1 '15 at 8:20
  • 3
    I think "compiles with warnings (which you've disabled)" is pretty different to "compiles very well". If you only disable warnings you understand, and always make sure you understand any warnings you do get, you won't have a problem. – Jon Skeet Jun 1 '15 at 8:21
  • If you try to use it when object class is not that must be - ClassCastException will be thrown – cybersoft Jun 1 '15 at 8:22
  • 2
    Well ... Maybe you should add a line A item = listA.get(0) (at the end) and see what happens when you run it. Maybe you then understand the warning better. – Seelenvirtuose Jun 1 '15 at 8:28
19

Every programming language allows you to shoot yourself into the foot.

In this case, Java is in a dilemma: It could keep the generics information in the bytecode and break millions of lines of existing code or silently drop the generics information after the compiler has do it's utmost to check and keep backward compatibility.

The Java team decided for the latter and introduced Type Erasure - which has its flaws. But if they had broken millions of perfectly fine (if type-wise incomplete) lines of Java code, people would have shown up with pitchforks and burning torches ...

  • 2
    "people would have shown up with pitchforks and burning torches"... Then why didn't they show up when firmly type-safe generics were added to C#? =) – Mints97 Jun 1 '15 at 10:01
  • 2
    @Mints97: I'm not sure. My guess is that they didn't have the same amount of legacy code, or maybe they didn't care. And let's not forget that software developers on Windows are more ma...um...lenient on average ;-) – Aaron Digulla Jun 1 '15 at 10:14
  • 2
    @Mints97: They could have done it this way, if loosing Java’s biggest value, the amount of available 3rd party libraries, doesn’t matter. The way Generics were introduced allowed to use existing (not adapted) libraries even inside application that use Generics. You are assuming that C#’s solution is better by looking at a single, possibly overrated, property. Not having full variance might hurt much more. Further, having a real enforced Generic type system would imply that even simple things like Collections.emptyList() don’t work; it would require a new instance for each type parameter. – Holger Jun 1 '15 at 11:54
  • 1
    @Mints97 C# didn't add generics to existing classes, so it's got a whole pile of classes that nobody uses anymore (i.e. the old collections like ArrayList). – Random832 Jun 1 '15 at 12:21
  • 1
    @Holger and Aaron - I don't buy this argument, although it's written in JLS and repeated by Bloch etc. We can have both reification and raw type. I don't see how adding generic type info in an object hurts binary compatibility with older libraries. My conspiracy theory is that Sun didn't have enough resource and time to push out Java5; so they find PR excuses to justify erasure as a feature instead of a flaw. – ZhongYu Jun 1 '15 at 14:12
7

You've defeated the Java compile-time checks through your casting and suppression of warnings.

Note that thanks to type-erasure the list you've created is (under the covers) a simple type-unaware list, and contains no run-time checks or assertions as to what you're putting into it.

3

It is very bad behaviour of generics. Why it is happening?

Because you forced it to happen with the cast, and then made sure that the warnings would be ignored too with your @SuppressWarnings("unchecked").

It's your fault, not the generics mechanism's.

  • 4
    Well, erasure is a pretty nasty limitation of Java generics, and one which I wish didn't exist. I agree that the OP shouldn't suppress warnings without understanding them though. – Jon Skeet Jun 1 '15 at 8:20
3

As others have said, you have circumvented java's type safety.

I will add that your code doesn't explode because your code doesn't require the elements to be anything in particular (just Object). However, had you coded this:

for (A item : listA) { /* whatever */ }

It would have compiled, but would have thrown a ClassCastException at runtime.

  • true that happens .... Message error : B cannot be cast to A – user813853 Jun 1 '15 at 8:38
2

You can modify the code for safer:

for (A item : listA) {/* your code here */}

Or

for (Object item : listA) {
                if (item instanceof A) {for (A item : listA) {/* your code here*/}
}

Even if you modify the code as given below, you will get the ClassCastException:

for (Object item : listA) {
   System.out.println(((A)item).toString()); // Here you will get ClassCastException
}

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