An instance of a class, in Java, can access private fields of a different instance of its own type, such as in the following listing:

public class Foo {
  private int secret;
  public void bar(final Foo foo) {
    foo.secret = 100;

What would be the argument for such semantics (when designing a language)?

  • Well, it's all one class, so you can access your own private members. If you don't want to update secret for example, just don't. Coding can't protect you from yourself.
    – markspace
    Commented Jun 2, 2015 at 19:03
  • 7
    The definition of private says only instances of Foo can access it. Since you are in Foo you can access it. Commented Jun 2, 2015 at 19:03
  • 4
    The semantics of the language allow this, I am asking why. Commented Jun 2, 2015 at 19:04
  • Lets maybe ask different question: why shout it not be allowed for Foo class to have access to private fields of different Foo instances than referenced by this?
    – Pshemo
    Commented Jun 2, 2015 at 19:06
  • 1
    Without this, how would you implement an equals(Foo other) method?
    – Thilo
    Commented May 23, 2020 at 10:21

4 Answers 4


First you have to ask "why have private fields at all?"

Private fields are primarily for encapsulation: a consumer of a class shouldn't have to know the internals of that class' implementation, and in fact those internals should be actively hidden from the consumer. Otherwise, if a user relied on those internals, then the implementer would be forced to support them or break backwards compatibility. In other words, it protects both the user and designer of the class:

  • users are protected from implementation changes breaking their code
  • the designer is protected from having to keep implementation details features unchanged forever

But a class doesn't need to be protected from itself; it doesn't need to worry about the case where one bit of its code changes, but another bit (that uses the first bit) can't change. Backwards compatibility is not a concern, because the class is developed and deployed as a single, atomic chunk of code. In other words, neither of the above protections are needed.

Since there's no need to protect the fields, and since it's often necessary to see them (for instance, to compare if two objects are equal), they're visible within the class.

  • Why can't a class' code change within versions? (I probably just didn't understand you.) I'd say: "Changes inside the class, can easily be modified by the designer to support any changes. Public fields can not, since it can break code outside the authers scope."
    – Mordechai
    Commented Jun 2, 2015 at 19:11
  • @MouseEvent because internals are subject to change. Imagine you were relying on internal fields of the FileInputStream class and all the sudden NIO comes out were FileInputStream is completely changed to take advantage of native io operations. Now all the sudden the field your code reads is no longer there as it is implemented in native code. Commented Aug 19, 2016 at 22:19

The private field is meant to tell other programmers not to mess with it.

Presumably, everyone working in a single class knows what all the variables do. The private field doesn't hide your own code from you, just from outside.


You can copy/compare values without additional getters and change field without setters. Don't know if in the JVM such simple methods invocations are optimized in any way, but if not, then it produces some overhead.

One may think that keeping such "open" access may lead to some security issues, but when implemeting a class you provide all methods for manipulation of these variables. No one can change them from classes extending this class. As a matter of fact, they are still private - accessible only from your code.

Keep also in mind that logically a class often is destined to do one job. It can be beneficial to share some information and ease access, especially in cases when large amounts of instances are produced. When dealing with cases when more control is needed one can always use package access modifier (which is more "private" in a sense...) or limit instance count with a singleton/factory pattern.


To add to the other correct and accepted answers, this page has useful information on exactly this topic/question:

New Java programmers might ask if one Alpha object can access the private members of another Alpha object. This is illustrated by the following example. Suppose the Alpha class contained an instance method that compared the current Alpha object (this) to another object based on their iamprivate variables:

class Alpha {
    private int iamprivate;
    boolean isEqualTo(Alpha anotherAlpha) {
        if (this.iamprivate == anotherAlpha.iamprivate)
            return true;
            return false;

This is perfectly legal. Objects of the same type have access to one another's private members. This is because access restrictions apply at the class or type level (all instances of a class) rather than at the object level (this particular instance of a class).

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