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Is it a design flaw to have a static final variable in a generic class? Consider the class below, all references to Node.SOIL give rise to warnings. What is a good way of going about solving this problem?

public class Node<E> {

    private static int nodeCounter = 0;

    @SuppressWarnings({ "unchecked", "rawtypes" })  
    public static final Node SOIL = new Node(null, null); // <-- HERE
    public static void resetSOIL(){
        SOIL.children = null; // <-- HERE

    private Node<E> parent;
    private Set<Node<E>> children;

    protected Set<Node<E>> isomorphs;
    private E data;
    private int id;

    public Node(Node<E> parent, E data){
        this.parent = parent; = data; = ++nodeCounter;


    public boolean isRoot(){
        return (this.getParent() == SOIL);

    // utility methods
share|improve this question
Do you really need SOIL to be static? resetSOIL is going to have an impact on all your Node instances, is that the expected behaviour? – assylias Aug 16 '12 at 12:44
It's a design flaw to have global state (a mutable static). – Tom Hawtin - tackline Aug 16 '12 at 12:56
@assylias well, the idea is to have a mother-of-all type node, which I believe is what SOIL is good for? resetSOIL() exists to avoid annoying problems when running unit tests (all nodes from the previous tests remain in SOIL otherwise) – posdef Aug 16 '12 at 12:57
@TomHawtin-tackline even if it's finalized? hmm on a second thought, the fact that SOIL is final doesn't mean that it cannot be mutated, as a matter of fact it does mutate (gets children)... – posdef Aug 16 '12 at 12:57
@posdef Yeah, quite. Global state often sneaks under the radar by the initial static reference being final and then that points to something mutable. – Tom Hawtin - tackline Aug 16 '12 at 13:13

3 Answers 3

up vote 2 down vote accepted

You've defined a type Node<E> which represents a node in a tree of E's. For example, Node<Integer> is a node in a tree of Integers, and Node<String> is a node in a tree of Strings.

Now you want a variable SOIL that contains all the roots of these various trees of different types (hehe, soil, I get it now). Set aside the static field issue for now. What should the class of SOIL be? In other words, how do we declare and create the SOIL instance?

Node</*something1*/> SOIL = new Node</*something2*/>(null, null);

Since SOIL is going to have children that are Node<Integer> and Node<String> then it has to be something like Node<?> or Node<Object>. You can't instantiate an object using a wildcard type argument, so the best you can do is something like this:

Node<?> SOIL = new Node<Object>(null, null);

(If you use the Java 7 diamond construct new Node<>(...) it ends up using Object in this case anyway.)

The problem is, this still doesn't work. The way the Node<E> type is defined is as a homogeneous tree of E's. But one subtree of SOIL is a tree of Integers and another subtree is a tree of Strings, so SOIL wants to be a heterogeneous tree. Therefore, SOIL cannot be a Node<E> for any E.

At least, not in a type-safe fashion. You could write the code to do this, but you'd have to add some casts, and you'd get unchecked warnings. These warnings would tell you that this approach isn't working. For example, consider some code that takes a Node<E> and operates on all of its siblings (that is, the other children of its parent). Some code that took a Node<Integer> could call this and end up with a bunch of instances of Node<String> and start throwing ClassCastExceptions.

You might consider making SOIL a Set<Node<?>> and not making it be the parent of all the roots. You could make it a static field somewhere, but make it private.

share|improve this answer

You could use this to avoid suppressWarnings and it works well:

private static final Node<Object> SOIL = new Node<Object>(null, null);

To answer to your other question:

Is it a design flaw to have a static final variable in a generic class?

No itsnt, it is even a good common practice to use it as default for null variables of type Node, aka the NULL object in Effective Java Programming

share|improve this answer

It's not a design flaw to have a static final variable. The warning appears because you are declaring an instance of a generic type without providing a type parameter:

public static final Node SOIL = new Node(null, null); // <-- HERE

when the compiler is expecting something like:

public static final Node<SomeType> SOIL = new Node<SomeType>(null, null);
share|improve this answer
THe problem is that in the Node<E> class I don't know what E will be at runtime, which is why I bothered with generics in the first place. So I can't really declare SOIL with SomeType. Or have I misunderstood your suggestion? – posdef Aug 16 '12 at 12:59
@posdef: So what do you want to do with this Node instance if it cannot take any type parameter? – Tudor Aug 16 '12 at 13:16
as I mentioned above in a comment, the idea is to have a mother-of-all type node, regardless of the actual data type that's carried in the hierarchy of nodes. – posdef Aug 16 '12 at 13:43
@posdef: I guess you could use Node<Object> to avoid the warning. Don't know it this is what you need though. – Tudor Aug 16 '12 at 13:55

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