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I was under the impression that private non-static variables could only be accessed by methods called on the object that the variables reside in, but this is not the case. Could someone please explain the reasoning behind why the following compiles and runs?

public class Sandbox {
    private String _privateString = "unmodified";
    public static void setPrivateString(String str, Sandbox s) {
        s._privateString = str;
    public String toString()
        return _privateString;

    public static void main(String[] args) {
        Sandbox s = new Sandbox();
        setPrivateString("modified", s);



EDIT: The same is true in C#.

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You could have modified the _privateString directly from the main() as its in the same class. –  Peter Lawrey Feb 26 '11 at 19:15

4 Answers 4

up vote 15 down vote accepted

Private member variables of class A can be accessed (i.e. read/written to) by any method of class A (static or non-static), so in your example, since the method changing the string is a method of the same class the member belongs to, it is granted access to the variable.

The reason is because a class is considered a self-contained body of logic (i.e. a specific implementation), so it makes sense that privacy is contained within a class, although there is no reason to exclude static methods from that access right, since they too are part of the specific implementation the class provides.

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So any instance of a class has access to all private variables of all other instances of that class? –  T.K. Feb 26 '11 at 19:17
Exactly! Which at first might seem strange, although makes sense when you think about it in terms of a class being one single implementation. –  davin Feb 26 '11 at 19:19
@T.K. So for example, public void changeOther(String changeTo, Sandbox s) { s._privateString=changeTo; } can be executed on another instance altogether: s1.changeOther("blah", s2); –  davin Feb 26 '11 at 19:21
Okay. Is there a design pattern that would enforce the rule of only the instance to which a variable a belongs can access a? Or should I ask that in another question, rather than in a comment, and open it up for more people to answer? –  T.K. Feb 26 '11 at 19:23
@T.K. Probably a good idea –  davin Feb 26 '11 at 19:27

As mentioned in some other posts, Java's visibility system is class-based, not an object-based one.

Note that this is utilized in the compiler: When you have nested classes and you access a private field of the outer class, a public synthetic static method is generated to allow the access. It is usually named "access$0" etc. You can create a bytecode that violates encaplulation without the Reflection API by using these synthetic methods. You can also access them from the Reflection API without enabling access to private members. Many crazy things can be done...

If there was not such visibility system, compiler probably would need to compile it elsehow.

... Hoewver, the end-programmer usually don't need to know this detail. IDEs don't include synthetic methods in code completion and I hope that compilers (except Jasmin) don't allow you to use it. So if you don't generate bytecode and don't use Reflection API and you ignore these methods in the stacktrace, you probably don't need to know this detail.

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You seem to be confusing visibility with scope. The instance variables are in the scope of an instance, so they cannot be accessed in a static method directly, but only with an instance reference qualifier: s._privateString in your case.

However, this does not mean that instance variables are not visible for a static method inside the same class, as private means visible inside the class (for any member with any scope).

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The rule is simple. Member methods of a class can acesss and modify private members of the same class regardless of their visibility modifiers.

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