In Java an array is also an object.
You can put an object of a subtype into a variable of a supertype. For example you can put a
String object into an
Unfortunately, the array definition in Java is somehow broken.
String is considered a subtype of
Object, but that is wrong! For a more detailed explanation read about "covariance and contravariance", but the essence it this: A type should be considered a subtype of another type only if the subtype fulfills all obligations of the supertype. That means, that if you get a subtype object instead of a supertype object, you should not expect behavior contradictory to supertype contract.
Problem is that
String only supports a part of
Object contract. For example you can read
Object values from
Object. And you can also read
Object values (which happen to be
String objects) from
String. So far so good. Problem is with the other part of contract. You can put any
Object. But you cannot put any
String should not be considered a subtype of
Object, but Java specification says it is. And thus we have consequences like this.
(Note that a similar situation appeared again with the generic classes, but this time it was solved correctly.
List<String> is not a subtype of
List<Object>; and if you want to have a common supertype for these, you need
List<?>, which is read-only. This is how it should be also with arrays; but it's not. And because of the backwards compatibility, it is too late to change it.)
In your first example the
String.split function creates a
String object. You can put it into a
Object variable, but the object remains
String. This is why it rejects an
Integer value. You have to create a new
Objects array, and copy the values. You could use the
System.arraycopy function to copy the data, but you cannot avoid creating the new array.