In the process of doing some reflection on Java types, I came across an oddity that I do not understand.

Inspecting int for its modifiers returns public, abstract, and final. I understand public and final, but the presence of abstract on a primitive type is non-obvious to me. Why is this the case?

Edit: I am not reflecting on Integer but on int:

import java.lang.reflect.Modifier;

public class IntegerReflection {
    public static void main(final String[] args) {
        System.out.println(String.format("int.class == Integer.class -> %b", int.class == Integer.class));
        System.out.println(String.format("int.class modifiers: %s", Modifier.toString(int.class.getModifiers())));
        System.out.println(String.format("Integer.class modifiers: %s", Modifier.toString(Integer.class.getModifiers())));

The output when run:

int.class == Integer.class -> false
int.class modifiers: public abstract final
Integer.class modifiers: public final
  • 1
    Because you cannot instantiate perhaps?
    – OscarRyz
    Commented Nov 1, 2012 at 15:48
  • 1
    How exactly are you getting these values? It's not int you're inspecting, but Integer Commented Nov 1, 2012 at 15:49
  • Integer is not abstract... Commented Nov 1, 2012 at 15:50
  • 1
    Primitive types are not classes. However classes for those types are provided to be able to get information for class fields that are primitive types via reflection. Abstract just means these cannot be instantiated.
    – Axel
    Commented Nov 1, 2012 at 16:10
  • 1
    @oconnor0: See my answer. I think it makes the most sense and is comprehensive! Very cool question, by the way. Very intriguing stuff.
    – asteri
    Commented Nov 1, 2012 at 16:26

7 Answers 7


According to the JLS - Abstract Classes:

An abstract class is a class that is incomplete, or to be considered incomplete.

By definition, there can be no instances of int.class. You can't compile this kind of code:

int a = new int();

There are no constructors for int. There are no objects created. int.class does not even extend Object. If you run the following line of code, you will get null as the result.


So because you can never have a true instance of the int.class, it is by definition abstract. Also, according to the Integer API, the Integer.TYPE field (which holds int.class) is a class which only represents the primitive type.

This is proven by the following code:

int a = 4;

This returns false.

As such, int.class is likely just used in the system for representation purposes, as said in the Integer API. The fact that there is also a void.class type but no null.class type makes me think that this is used primarily with Reflection. This is just conjecture, though.

If anyone is interested, the int.class essentially contains nothing that the reflection package recognizes and is likely just a dummy class. If you run the following code, you will see that it has no constructors, no fields, and no methods.

Method[] intMethods = int.class.getMethods();

if(intMethods.length == 0) {
    System.out.println("No methods.");
else {
    for(Method method : intMethods) {

Constructor[] intConstructors = int.class.getConstructors();

if(intConstructors.length == 0) {
    System.out.println("No constructors.");
else {
    for(Constructor constructor: intConstructors) {

Field[] intFields = int.class.getFields();

if(intFields.length == 0) {
    System.out.println("No fields.");
else {
    for(Field field: intFields) {

If you run


you get

public abstract final

possibly because you can't sub-class it - i.e. final, and you can't instantiate it - i.e. abstract.

From Oracle's Abstract Methods and Classes

Abstract classes cannot be instantiated, but they can be subclassed.

The fact is its also final means it cannot be sub-classes.

  • Hmmm... seems like the only correct answer so far and got a downvote without explanation. I will give it +1.
    – Axel
    Commented Nov 1, 2012 at 16:07
  • 1
    if you try to debug int.class.newinstance, you'll see creation of NoSuchMethodException("int.<init>()"), that is this class is not instantiable because it has no constructors. I think the fact it is abstract means nothing. Commented Nov 1, 2012 at 16:24
  • @AlexeiKaigorodov It means primitives cannot be instantiated. Commented Nov 1, 2012 at 16:33
  • @Peter Lawrey yes abstract class cannot be instantiated but the int.class, specifically, cannot be instantiated because it has no constructors. The property "is abstract" is not checked, that's why I said it means nothing. Of course it is related to the Sun (Oracle) implementation, other JVM could check "is abstract" first. Commented Nov 1, 2012 at 16:46
  • As far as i can tell the question was Why .
    – Stefan
    Commented Nov 1, 2012 at 17:03

From JVM Specifications:

An abstract class is a class that is incomplete, or considered incomplete. Only abstract classes may have abstract methods, that is, methods that are declared but not yet implemented.

A class can be declared final if its definition is complete and no subclasses are desired or > required. Because a final class never has any subclasses, the methods of a final class cannot be overridden in a subclass. A class cannot be both final and abstract, because the implementation of such a class could never be completed.

According to specifications a class cannot be both Abstract and Final. But however, it seems like JVM does not treat primitive types as classes, which is technically correct since primitive types are not classes and are supplied to the language runtime by the JVM(using Class getPrimitiveClass(const char *name)).

So int, and every other primitive type,

> a. Should be accessible from within the language: Make it `public` 
> b. Should not be extensible                     : Make it `final` 
> c. Should not be instantiated with `new`        : Make it `abstract`.

My theory from the JVM specification for why primitive types are abstract is because, they're considered incomplete.

  • Should not be instantiated with new : Make it abstract. > Actually you can create anonymous classes with a new AbstractClass(){...}
    – NeeL
    Commented Oct 7, 2016 at 12:31

int.class is also accessible as Integer.TYPE and is the Class instance representing the primitive type int.

Given that you cannot instantiate an object of this class (because ints are not instances, they are primitive types), I think it makes sense to have the type marked abstract.

At the moment I can't find a reference to that in the JLS though.


Maybe this is just a special mark for primitive class different from normal class.

JVM code implementation:

mirror::Class* ClassLinker::InitializePrimitiveClass(ObjPtr<mirror::Class> primitive_class,
                                                     Primitive::Type type) {

  Handle<mirror::Class> h_class(hs.NewHandle(primitive_class));
  // public final static
  h_class->SetAccessFlags(kAccPublic | kAccFinal | kAccAbstract);

  // ...
  return h_class.Get();

Why are Java primitive types' modifiers public, abstract, and final?

The Java 11 javadoc for Class.getModifiers() states:

If the underlying class is an array class, then its public, private and protected modifiers are the same as those of its component type. If this Class represents a primitive type or void, its public modifier is always true, and its protected and private modifiers are always false. If this object represents an array class, a primitive type or void, then its final modifier is always true and its interface modifier is always false. The values of its other modifiers are not determined by this specification.

So the javadoc is specifying that primitive types are public and final. This makes intuitive sense. That will be the reason for the choice in those two cases.

Technically, abstract on a primitive type make no sense. A primitive type is not a class, and is not instantiable using new. However, given the way that other Java APIs work (e.g. reflective method lookup), it is necessary to have Class objects that represent all Java types. Therefore, Integer.TYPE == int.class and similar need to exist.

Anyway, for whatever reason, the spec is saying "unspecified" for the abstract modifier on a Class that represents a primitive type.

However, the Class modifiers are represented as bits in an integer, and JVM implementation has to return a value for the "abstract" bit position in that integer. While neither choice (1 or 0) has any meaning according to the spec, it was / is better1 for one of the Java engineers (probably back in the 1990's) to choose2 a specific value for the bit in the primitive type case than to (say) randomly return 1 or 0 at runtime.

So the bottom line is:

  • The choice for abstract is (or could be) entirely arbitrary, so don't ascribe any meaning to it.
  • If you rely on the current behavior for the abstract but, there is a theoretical risk that your code will break in a future version of Java ... if they change the behavior.

1 - In my opinion it is better because it is easier for users of the Class API to have deterministic behavior than non-deterministic behavior. And it is most likely simpler to implement it this way.
2 - We most likely will never know for sure why the specific choice was made. Maybe someone tossed a coin? It doesn't matter.


if you reflected into a class that inherited from an abstract class, and then tried to dig into the base class for that instance, a property defined as abstract in the abstract class would have no value, but it is part of the class definition.

Heres an example:

public class absBase{

    private string name;
    private int ID;

    public abstract int GetID();

public class concreteClass:absBase{
    public int GetID(){
        return ID + 1;

so if you were reflecting absBase, and looked at GetID, it would have to be abstract by definition, if you looked at concreteClass.GetID() however it would be public. hope that helps.


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