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I found this code on the Internet, and would love for someone to explain it to me...

public class Foo {
    static int fubar = 42;

    public static void main(String[] args) {
        System.out.println(((Foo) null).fubar);

This code compiles and works correctly, outputting the result 42.

How is it possible that the variable fubar is accessed from a null without throwing a NullPointerException?

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marked as duplicate by Raedwald, user987339, greg-449, WilQu, karthik Nov 27 '14 at 11:36

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

I love this question. It's short, to-the-point, and highlights how a particular language feature might work in ways that seem counterintuitive. – templatetypedef Jul 21 '11 at 20:30
That's a good find! – adarshr Jul 21 '11 at 20:30
up vote 4 down vote accepted

Because the field fubar is declared static, there is only one field anywhere actually named Foo.fubar. Each instance of Foo shares this one copy. When you access this field out of a Foo object, Java doesn't try following the object reference to find it. Instead, it looks up the object in a specially-defined location that can be accessed independently of any reference. Consequently, if you try looking up this field of the null object, you can do so without causing any sort of NullPointerException, since the object is never referenced.

EDIT: Bytecode is definitely in order! Given this source file:

public class Foo {
    static int fubar;
    public Foo() {
        ((Foo)null).fubar = 137;

Here's the generated bytecode:

0:  aload_0
1:  invokespecial   #1; //Method Object."<init>":()V
4:  aconst_null
5:  checkcast   #2; //class Foo
8:  pop
9:  sipush  137
12: putstatic   #3; //Field fubar:I
15: return

Notice that line 12 uses the putstatic opcode, which stores a value into a static field. It doesn't reference a receiver object of any sort. In fact, if you'll notice, the generated bytecode (lines 4-8) does a cast of null to Foo, but then immediately issues a pop opcode to pop it off the stack. It's never referenced anywhere else in the bytecode.

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True (+1). Bonus points if showing some byte-code for Foo.fubar and ((Foo)null).fubar to show the implicit compiler transformation more clearly.... – user166390 Jul 21 '11 at 20:37
@pst- That's a great idea. Answer updated. – templatetypedef Jul 21 '11 at 20:48

It's not actually looking for the field on null, because static methods and fields don't require an instance. The cast makes the type of the expression Foo, and fubar is a known static field on Foo, so the compiler and JVM have no issue.

Normally, you'd access the field by saying Foo.fubar. However, Java is nice enough to provide a shortcut: if you try to access a static field or method on an instance expression of a given type, it will treat it as if you had said [SomeType].theField. That's what's occurring here.

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+1 Yes :) The compiler should (at least it has in my experience) also issue a nice warning indicating that a static field should be accessed directly off the type and not an instance of said type. – user166390 Jul 21 '11 at 20:35

fubar is a static member this cast of null just highlights the allocation of static variables at compile time rather than runtime. A much more common and equivalent way of accessing the static variable is this Foo.fubar

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