I managed to get it working, after some learning of how lambda's work:
.forEach(pArray -> Arrays.parallelSetAll(pArray, i -> new Patch()));
First I'll explain a simpler version:
Object test = new Object;
Arrays.parallelSetAll(test, i -> new Object());
What the last version does is first allocate a
Object, an array of ten
Objects. Then it uses one of the new
Arrays.parallelSetAll methods which has the following signature:
public static <T> void parallelSetAll(T array,
IntFunction<? extends T> generator)
And in this case I have used for
IntFunction<? extends T> generator a lambda expression:
i -> new Patch(), which generates a
new Patch(), for every
i: In this case we do not need the
i though, but we do need it to construct a correct lambda expression.
Also note that
Object::new cannot be used (as far as I know), it then gives the message:
incompatible types: cannot infer type-variable(s) T
(argument mismatch; bad return type in lambda expression
Object is not a functional interface)
where T is a type-variable:
T extends Object declared in method <T>parallelSetAll(T,IntFunction<? extends T>)
To come back on the actual answer on my question: What I do there is pretty similar to what I have just explained, except that I have a
Patch as input, and I first need to loop over that, which I accomplish via:
Arrays.stream(patches).forEach(), which has as signature:
void forEach(Consumer<? super T> action).
Here I then use the lambda expression
pArray -> Arrays.parallelSetAll(pArray, i -> new Patch()).
So effectively this first loops over all
Patch arrays, and then parallel sets all elements of
Patch to be
Whether or not it is actually easier than a double for-loop is debatable, but I can argue that the amount of code is atleast the same and possibly easier to type due to no need for enters, extra curly braces, etc.
This maybe also can be written even easier, so comments on that are welcome.