7

(I'll use T to refer to a generic argument here, used in a parameterized class.)

I read that the reason that T... is a potential source of heap pollution when used as an argument is that the compiler is making an exception to the normal (no T[] arrays allowed) rule, and allowing T... (which is varargs, and so would normally translate by varargs rules internally to T[], except that this isn't allowed with generics) as a parameter by implementing it internally as though it were a raw type, converting it to an array of Object[] instead.

So I wrote some code to verify this, to cement the concept into my memory.

I took T...t as an argument to a method, and then System.out.println'd t.getClass[]. I expected to get the class of Object[], but instead, I got T[]'s class.

So, it appears that the compiler is converting T...t to T[] internally, and not to Object[].

e.g.

 public class MyClass<T>{
 public void method(T...t)
 {
    System.out.println(t.getClass().getName());  //for MyClass<String>, this gives me  
                                                 //[Ljava.lang.String

 }

What am I missing here? And if the compiler's not converting the generic varargs parameter internally to Object[], how is it losing type safety and acting as a potential source of heap pollution?

  • how did you call the method? method("string", "another");? – Thilo Sep 4 '14 at 0:47
  • Yes. MyClass<String> mc = new MyClass<String>(); mc.method("what","the","something"); – Mer Sep 4 '14 at 0:48
  • If you remove the type annotation (just MyClass mc) will it become Object[] then? – Thilo Sep 4 '14 at 0:51
10
void method(T... t)

gets converted to

void method(Object[] t)

so what you have heard is correct. But:

Integer a = 1, b = 2, c = 3;
method(a, b, c);

gets converted into:

Integer a = 1, b = 2, c = 3;
method(new Integer[] {a, b, c});

so the runtime type of t is Integer[], even though its declared type (after compilation) is Object[].

  • I suppose the component type is taken from the generic type annotation by the compiler? Or is it inferred from the actual arguments? – Thilo Sep 4 '14 at 0:52
  • Thank you! Though, if the compiled type is void method(Object[] t), why does the compiler still reject the method call MyClass<String> mc = new MyClass<String>(); mc.method("what","the","something",4); With compiler message: "The method method(String...) in the type GenericsReview<String> is not applicable for the arguments (String, String, String, int)" (The rejection of int isn't an autoboxing failure, since mc.method("what","the","something",new Integer(4)); is also rejected.) – Mer Sep 4 '14 at 0:54
  • @Thilo I would guess (I don't know for certain) that it's inferred from the actual arguments. Maybe try replacing T with Object and see if t instanceof Integer[] is true. – immibis Sep 4 '14 at 0:54
  • 4
    @Mer generics are discarded after compiling, because the JVM doesn't need to care about them. That doesn't mean they don't do anything. In particular, the compiler checks that you didn't mess up the generics. – immibis Sep 4 '14 at 0:55
  • 2
    @Mer: Imagine you have a method that takes T... args (args has type T[]) and simply returns args, as type T[]. Now by passing to this varargs function and getting the result, you have accomplished new T[...], which is not allowed in Java. If you understand why new T[...] is not allowed, and why you cannot safely replace it with (T[])new Object[...], you will understand why this is unsafe. – newacct Sep 4 '14 at 4:39

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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