According to the Java Language Specification, java.lang.Object is the root of Java's inheritance hierarchy. Unlike C++ or Objective-C, programmers cannot specify their own root superclasses. Because of this, I figured it was impossible to actually define java.lang.Object in Java itself. To my surprise, I found that OpenJDK indeed has a concrete implementation of java.lang.Object.

I wanted to see if it was possible to compile and run my own version of java.lang.Object with JDK/JRE 1.8, so I wrote this as Object.java:

package java.lang;
public class Object {
    public static void main(String[] args) {
        System.out.println("Hello world from custom java.lang.Object!");

It compiled just fine with javac, but if I try to execute the classfile via java -cp . java.lang.Object, the JVM errors out with this message:

Error: Main method not found in class java.lang.Object, please define the main method as:
   public static void main(String[] args)

which suggests that the JVM is using the stock java.lang.Object instead of the Object.class in the classpath.

Is it possible to define java.lang.Object in Java as an end user? What is going on under the hood? I see two possibilities:

  • The JVM loads a real Object.class file that was compiled from the OpenJDK's Object.java. If this is the case, does the compiler do something special to prevent the classfile from specifying itself as the superclass?
  • java.lang.Object's implementation is intrinsic to the JVM. If this is the case, why is there an Object.java in OpenJDK?
  • 6
    There is a bootstrap class loader written in native code which loads classes such as Object and ClassLoader. Your java.lang.Object class is visible to a descendant class loader so the one visible to the bootstrap class loader (i.e. the real java.lang.Object) is always chosen first (they have the same FQN). This is due to parent-first delegation.
    – Slaw
    Commented Jul 10, 2020 at 17:06
  • 1
    When I tried to run my own java.lang.Object in JDK 11, I got error: package exists in another module: java.base Commented Jul 10, 2020 at 17:09
  • 1
    Bootstrapping. It's the same general concept that allows Java to be compiled by a compiler which itself is written in Java—the first compiler could not be written in Java. The JVM is written in native (i.e non-Java) code and can thus bootstrap classes such as java.lang.Object.
    – Slaw
    Commented Jul 10, 2020 at 17:19
  • 1
    Yes, there's a real Object.class file. When you compile your code it is using the compiled classes of the JDK as a library (i.e. you have a reference to Object.class not Object.java). And the compiler is running on an already compiled JDK, so it has access to Object.class as well. And both the JVM and the compiler are aware of the specification they respectively implement.
    – Slaw
    Commented Jul 10, 2020 at 19:30
  • 3
    I would particularly listen to apangin and Holger in their answers. The former knows a lot about the JVM (at least the HotSpot implementation). And the latter is quite knowledgeable about Java as well. I at least consider them two of the leading experts on Java and the JVM who are active on Stack Overflow.
    – Slaw
    Commented Jul 10, 2020 at 19:38

3 Answers 3


You can implement java.lang.Object in Java and the actual class you’re using has been indeed created from the Object.java file that ships with the JDK.

The Java® Language Specification says in Chapter 8. Classes:

Each class except Object is an extension of (that is, a subclass of) a single existing class (§8.1.4) and may implement interfaces (§8.1.5).

So the absence of supertypes for Object is fixed in the language.

You can use the source code of your experiment and try to add an extends or implements clause and see that the compiler will reject it.

When you compile the class java.lang.Object, the resulting class file will be the only one that has no supertype. See The Java® Virtual Machine Specification, §4.1., The ClassFile Structure:


For a class, the value of the super_class item either must be zero or must be a valid index into the constant_pool table. If the value of the super_class item is nonzero, the constant_pool entry at that index must be a CONSTANT_Class_info structure representing the direct superclass of the class defined by this class file. Neither the direct superclass nor any of its superclasses may have the ACC_FINAL flag set in the access_flags item of its ClassFile structure.

If the value of the super_class item is zero, then this class file must represent the class Object, the only class or interface without a direct superclass.

For an interface, the value of the super_class item must always be a valid index into the constant_pool table. The constant_pool entry at that index must be a CONSTANT_Class_info structure representing the class Object.

So even interfaces have an entry for the superclass in the class file (pointing to Object) and the class file for java.lang.Object is the only one with a zero entry for the super class.

When you try to load your version of the Object class at runtime, you stumble across the fact that you can’t load classes of the java.lang package (or any class whose qualified name starts with java.) through the class path in general.

Prior to Java 9, you would have to set up the bootstrap class path to include your version. Starting with Java 9, the class java.lang.Object must belong to the java.base module, which is loaded in an implementation specific manner. You’d have to use the --patch-module option to inject your own version.

But you have to be careful with what you write into your own version. There are a lot of expectations by other classes and the environment and not meeting them can break it (badly).

JLS, §4.3.2. The Class Object lists the expected methods and links to other chapters that define special language semantics for some of them.


You can modify java.lang.Object (e.g. by adding public static void main() method), but in order to be loaded and used by the JVM, the modified class needs to be added to the bootstrap class path.

On JDK 8 this can be done with

java -Xbootclasspath/p:<path>

On JDK 9+ this requires patching java.base module:

java --patch-module java.base=<path>

When the JVM starts, it loads java.lang.Object by the bootstrap class loader just like any other class, so java.lang.Object with the added main method can be actually executed:

$ java -Xbootclasspath/p:. java.lang.Object
Hello world from custom java.lang.Object!

However, if you try to remove existing java.lang.Object methods, add new virtual methods, add fields or otherwise change the existing layout - this won't work. Most likely, the JVM will just crash with the fatal error.

This is because the JVM expects java.lang.Object to have the known layout. There are hard-coded offsets in the JVM source code, references to the exiting methods, etc. The same is true for other intrinsic classes like java.lang.String, java.lang.Class, java.lang.ref.Reference and similar.

As to Object's superclass, there is an exception explicitly described in JVM Specification:

If the value of the super_class item is zero, then this class file must represent the class Object, the only class or interface without a direct superclass.

Both Java compiler and the JVM know about this exception, and enforce this rule when compiling Object.java and when loading Object.class.


That's a really cool experiment. But this is how Java works

  1. Since every class in Java has to extend java.lang.Object, your custom Object class also extends that.
  2. To load any class, Java needs to load it's parent classes. So when Java tries to run the main() method inside your custom Object class, it loads the real java.lang.Object class.
  3. As soon as real java.lang.Object class is loaded, JVM tries to run the main() method of that class. Since it doesn't exist, your application fails with.
  • 1
    I figured that is what was going on, but this doesn't answer my question. I don't understand how the "real" java.lang.Object works. Does the JVM load a real Object.class file that was compiled from the OpenJDK's Object.java, or is the implementation built into the JVM? If a real classfile is used, how does that classfile specify no superclass? Do the compiler and JVM have special support for just that class somehow? Commented Jul 10, 2020 at 17:30

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