You get this error because Object
does not implement Comparable
and thus Object[]
is not a sub-type of Comparable[]
(which, because of type erasure, is the runtime type of your genericArray
).
The underlying problem is that you want to create a generic array. This is not possible in Java. The reason is, that unlike generics, the type of the elements of an array is known at runtime. If you write new T[]
, it is not known which type of array must be created.
You try to circumvent this by creating an array of some supertype. But this is also not correct (and you should get a warning if you do it). If you create a an array with new Comparable[size]
, you create a an array of Comparable
s, not an array of some subtype of Comparable
. A T[]
might be a String[]
or a Long[]
, and String[]
and Long[]
are different types than Comparable[]
(also at runtime).
To demonstrate the problem, consider the following program:
public class Foo<T extends Comparable> {
T[] createArray() {
return (T[])new Comparable[1];
}
public static void main(String... args) {
Foo<String> foo = new Foo<>();
String[] ss = foo.createArray(); // here
}
}
It might look perfectly okay at first sight, but when your run it, you get a ClassCastException
, because in the marked line a Object[]
is cast to a String[]
.
The solution is to use Class<T>
objects as so-called type tokens. These let you store the type so that you can access it at run-time. Now you can create an array with the correct type by using Array.newInstance(Class<T>, int...)
. For example:
public class Foo<T extends Comparable> {
private Class<T> type;
public Foo(Class<T> type) {
this.type = type;
}
T[] createArray() {
return (T[])Array.newInstance(type, 1);
}
public static void main(String... args) {
Foo<String> foo = new Foo<>(String.class);
String[] ss = foo.createArray();
}
}
(You may still get a warning from the compiler, because newInstance
's return type is Object
. You can ignore it because the object it returns is an array of the correct type.)
T[]
?T[]
when all you want to do isarray[…] = …;
. An array of typeObject[]
will support this too. For all other operations, a collection, most likely anArrayList
will serve much better.