I have the next snippet of code:

Certificate[] a = myFavouriteKeystore.getCertificateChain();

but I need to pass it to a method with the following signature:

void setCertificateChain(X509Certificate[] chain);

Can I do the following?:

setCertificateChain((X509certificate[]) a);

IDE(eclipse) accepts it and I assume that compiler does also, but my guess is that I'll get a ClassCastException even in the case that all the array elements are of class X509Certificate or a subclass of it.

  • 1
    The title of this question and the body do not match. No, each element is not cast in turn. The whole array reference is cast with one checked cast. They are the one example of "reified generics" (because they predate generics) in Java; the compile-time element type of an array is made part of the array's runtime type at instantiation. An array cast is based purely off the runtime type of the array, not the runtime type of the actual runtime elements. A better title may be "When do I get a ClassCastException while casting arrays?". – HTNW May 20 at 12:17
  • I wanted to ask if there were some "magic" that allowed to cast an array and so, the whole set of elements in the array would be casted to the new type.... but I've already seen that's not true. Thank you for the clarification. The title you suggest can be good in another scenario, but not in my case, I'm afraid. – Luis Colorado May 21 at 3:32

You will get ClassCastException at runtime, yes.

The cast is like lying to the compiler, saying that you really know what you are doing and even if the compiler can't prove that the cast will work - you are instructing it to trust you.

The compiler listens to you (not in all cases, i.e. you can't tell it to cast a String to an Integer for example, since String is final and can't have sub-classes), but at the same time will inject into the byte code checkcast instructions.

  • Thanks, I've just tested, and you are right. Even in the case you have all the elements of compatible type, you need to copy to a new array of the casted to type. – Luis Colorado May 20 at 8:59
  • @LuisColorado exactly... – Eugene May 20 at 8:59

Tested, and it fails with a ClassCastException error:

package test;

public class TestClass {

    public static class A { }
    public static class B extends A { }

    public static void main(String [] args) {
        A[] a = new A[100];
        for (int i = 0; i < a.length; i++) {
            a[i] = new B();
        B[] b = (B[]) a;  /* Error: ClassCastException, even if all elements are of type B */

Thanks to @Eugene that so quick answered the question.


This agrees with the policy of casting generic containers. For a container derived of a super class only the cast applies if the parameter types match. E.g: Set<A> can be casted to SortedSet<B> only if A and B are the same type.

  • The elements don't matter, A[] is not a B[]. – matt May 20 at 9:16
  • @LuisColorado and of course if Set<A> is actually a SortedSet.. – Eugene May 20 at 9:16
  • @Eugene, nope, but SortedSet<A> is a Set<A> (in this case you can do the cast from Set<A> to SortedSet<A> ---provided the instance is indeed a SortedSet<A> referenced by a variable Set<A>---, but never if the type parameters are different) The behaviour is as if A[] would be some kind of Array<A> and B[] some kind of Array<B>. Even in case B derives from A the cast is not permitted, only if the arrays are of the same contained type. – Luis Colorado May 20 at 9:25
  • @LuisColorado well yes a SortedSet is a Set, but not in reverse, a Set can be a HashSet; you say Set<A> can be casted to SortedSet<B> only if ..., A and B can be of the same type, but the Set<A> can actually be a HashSet<A> and the case would fail – Eugene May 20 at 9:29
  • 1
    Here is an example of a Set<Integer> getting cast to a HashSet<Number>, you have to use an intermediate because the compiler catches the Set<? extends Number>, but all the casts are valid. ideone.com/NM2pYI Your array example is completely different B[] comes from Object, not from A[]. The array hierarchy is not exactly straightforward. – matt May 20 at 9:34

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