17

Consider the following code fragment

String strings[] = {"test"};
final List<String> collect = java.util.Arrays.stream(strings).collect(java.util.stream.Collectors.toList());
final Double[] array = java.util.Arrays.stream(strings).toArray(Double[]::new);

Why can Java guarantee the correct type in the collect-case (changing the generic type of collect to e.g. Double leads to a compile time error), but not in the array case (compiles fine, despite apply(int) of Double[]::new gives a Double[], not an Object[], but throws ArrayStoreException if used incorrectly as above)?

What would be the best way to generate a compile time error in case I change the type of the stream without changing the given IntFunction in the toArray call?

12

The signature of the method Stream::toArray looks as follows. Please note that the type parameters T and A are completely unrelated.

public interface Stream<T> {
    <A> A[] toArray(IntFunction<A[]> generator);
}

In the source of ReferencePipeline.java, you can find the following comment:

Since A has no relation to U (not possible to declare that A is an upper bound of U) there will be no static type checking. Therefore use a raw type and assume A == U rather than propagating the separation of A and U throughout the code-base. The runtime type of U is never checked for equality with the component type of the runtime type of A[]. Runtime checking will be performed when an element is stored in A[], thus if A is not a super type of U an ArrayStoreException will be thrown.

  • Is this one of the cases where A super T would help? If so, then it is quite interesting that they haven't fixed it for this as it seems like a "must" to me if it's in such an API. – skiwi May 21 '14 at 17:57
  • Well, I am looking for the reason that they are completely unrelated, as you pointed out. Putting an <A super T> would seem easy enough. Thus I would expect some problem entailed in the implementations of the Stream interface or something like that. – muued May 21 '14 at 18:17
  • 8
    @muued Please note that <A super T> is syntactically not possible in type declarations. You can only have ? super T as a type, but you can not capture the ?. This is as opposed to X extends T that can capture ? extends T. It was omitted from Java at the time generics were created because it was deemed not useful enough. – skiwi May 21 '14 at 19:08
  • @skiwi ah, that perfectly explains it, thanks. So the missing super you mentioned and the fact, that one cannot distinguish methods by generic types preventing them from adding a T[] toArray(IntFunction<T[]> generator); leads to the misery we have now – muued May 21 '14 at 19:59
  • 2
    @skiwi The problem is not unique to the streams API. Collection.toArray(T[]) is an equally valid use case, so if that wasn't compelling enough to support super, no reason why this would be. – shmosel Aug 23 '16 at 19:53

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.