but I cannot understand why the cast should be checked
A checked cast is something that results in a checkcast
bytecode instruction. For example:
String s = (String) someObject;
In the case of generics, a checkcast
instruction can't be inserted, because there is no known type at that point in the code: the type checked by a checkcast
is statically written into the bytecode; but your method has to work for all types. As such, no checkcast
can be added here.
A warning is the compiler's way of saying "I can't be sure, but something looks a bit fishy here". And, indeed, there is something fishy, but the problem just doesn't occur in this code.
Let's say you call this method something like so:
Integer[] ints = toArray(iterableOfInts);
There would actually be a checked cast inserted at the call site (inserted by the compiler):
Integer[] ints = (Integer[]) toArray(iterableOfInts);
This will fail at runtime because Object[]
can't be cast to Integer[]
. But the failure occurs here, rather than in the toArray
method.
The correct approach to fix this would be to provide something to create the T[]
:
public static <T> T[] toArray(Iterable<? extends T> iterable, IntFunction<T[]> arraySupplier) {
return StreamSupport.stream(iterable.spliterator(), false).toArray(arraySupplier);
}
Iterable<? extends T>
is an appropriate parameter type, because it lets you create an array of a supertype:
Integer[] integers = toArray(iterableOfInts, Integer[]::new);
Object[] objects = toArray(iterableOfInts, Object[]::new);
<? extends T>
instead of just<T>
?? extends T
does? What happens if you call this method with forAnimal[] as = toArray(some Iterable<Dog>)
orDog[] as = toArray(some Iterable<Animal>)
orDog[] as = toArray(some Iterable<Dog>)
? Which of them work, why and is that desired?Animal[] animals = toArray(dogs)
, wheredogs
is, for example aList<Dog>
. Which can make sense, However, it is not needed because arrays are covariant. So if you leave it asT
you get back anDog[]
, which can be assigned to anAnimal[]
as well because it is covariant. So the wildcard? extends T
is unecessary in this case.