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I think I'm missing something basic here. Any explanation or pointers to previously asked questions will be very helpful.

import java.util.Arrays;
import java.util.List;

public class St {

    public static void bla(Object[] gaga) {
            gaga[0] = new Date(); // throws ArrayStoreException

    public static void bla(List<Object> gaga) {

    public static void main(String[] args) {
            String[] nana = { "bla" };
        bla(nana); // Works fine

        List<String> bla1 = Arrays.asList(args);
        bla(bla1); // Wont compile

            System.out.println(new String[0] instanceof Object[]); // prints true
            System.out.println(nana.getClass().getSuperclass().getSimpleName()); // prints Object


So, it seems like a List<String> is not a subclass of a List<Object> but a String[] is a subclass of Object[].

Is this a valid assumption? If so, why? If not, why?


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5 Answers 5

up vote 9 down vote accepted

Java arrays are covariant, i.e. they allow Object[] foo = new String[2];. But this doesn't mean they are subclasses. String[] is a subclass of Object (although instanceof returns true, String[].class.getSuperclass() returns Object)

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From @maerics comment below -- the new String[0] instanceof Object[] returns true. So, String[] is a type of Object and a type of Object[] and a type of CharSequence[] etc. Correct? –  Kal Jan 11 '12 at 19:39
@Kal that appears to be a special case to cover the covariance. See my update –  Bozho Jan 11 '12 at 19:39
Thanks .. Just saw your edit. –  Kal Jan 11 '12 at 19:40
String[] >1 Object seems to be a bug, I cannot get getSuperClass to return an Array for any other type either. But java.sun.com/docs/books/jls/third_edition/html/… seems to say that is what it should be –  Miserable Variable Jan 12 '12 at 18:14

Yes, your assumption is valid. As said by @Bozho arrays are covariant, whereas generic collections (such as generic List) are not covariant.

Covariance in arrays is risky:

String[] strings = new String[] { "a", "b" }
Object[] objects = strings;
objects[0] = new Date();  // <-- Runtime error here 
String s = strings[0];
s.substring(5, 3);        // ????!! s is not a String 

The third line fires a runtime exception. If it weren't firing this exception then you could get a String variable, s, that references a value that is not a String (nor a subtype thereof): a Date.

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Thanks .. I have never seen the ArrayStoreException before. –  Kal Jan 11 '12 at 19:43
(new String[0] instanceof Object[]) // => true
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You are correct. Array types are covariant in Java by design, but a Foo<Sub> is-not-a Foo<Super>.

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String[] is a subclass of Object[]

Correct, see 4.10.3 Subtyping among Array Types:

If S and T are both reference types, then S[] >1 T[] iff S >1 T.

Since String >1 Object so String[] >1 Object[]

That is, String[] is a direct subtype of Object[]

Object >1 Object[]

Therefor Object > String[]; String[] is a (indirect?) subtype of Object

No such relationship exists for generics, so List<String> > List<Object> is not true.

Now, consider the following simple example:

import java.util.*;

class G {
    interface I {
    void f();
    class C implements I {
    public void f() {}

    void allF(List<I> li) {
    for (I i : li) { i.f(); }

    void x(List<C> lc) {

It does not compile, because x is invoking allF with a List<C> which is not a List<I>. To be able to use List<C> the signature has to change slightly:

void allF(List<? extends I> li) {

Now it compiles. Informally, li is a List of some type that extends/implements I. So List<C> is assignable to List<? extends I>. What you can do with such a list is limited. Essentially, you can read/access it but cannot write/modify it.

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Umm ... subtype and subclass mean different things. –  Stephen C Mar 15 '12 at 2:17
@StephenC, for classes subtyping is same as subclassing, if I am reading 4.10.2‌​. I guess the correct response would be "Arrays are not classes so they cannot have subclass relationship but String[] is a sybtype of Object[]". Is that what you are hinting? –  Miserable Variable Mar 15 '12 at 22:54

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