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?

1 Answer 1


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, 2014 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, 2014 at 18:17
  • 9
    @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, 2014 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, 2014 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, 2016 at 19:53

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