Josh Sobel Josh Sobel - 1 month ago 4x
Java Question

Accessing non-visible classes with reflection

I am trying to get an instance of a non-visible class, AKA package private class, using reflection. I was wondering if there was a way to switch the modifiers to make it public and then access it using

. When I try that now it stops me saying I can't do it. Unfortunately there is no
method of the


I am using definitions from
nested class - class defined within other class (includes static and non-static classes)
inner class - non-static nested class (instance of inner class need instance of outer class to exist)

non-nested (top level) classes

Based on your question we know that constructor you want to access is not public. So your class may look like this (A class is in some package different than ours)

package package1;

public class A {
        System.out.println("this is non-public constructor");

To create instance of this class we need to get to constructor we want to invoke, and make it accessible. When it is done we can use Constructor#newInstance(arguments) to create instance.

Class<?> c = Class.forName("package1.A");
//full package name --------^^^^^^^^^^
//or simpler without Class.forName:
//Class<package1.A> c = package1.A.class;

//In our case we need to use
Constructor<?> constructor = c.getDeclaredConstructor();
//note: getConstructor() can return only public constructors
//so we needed to search for any Declared constructor

//now we need to make this constructor accessible

Object o = constructor.newInstance();

nested and inner classes

If you want to access nested (static and non-static) Class with Class.forName you need to use syntax:

Class<?> clazz = Class.forName("package1.Outer$Nested");

Outer$Nested says that Nested class is declared within Outer class. Nested classes are very similar to methods, they have access to all members of its outer class (including private ones).

But we need to remember that instance of inner class to exists requires instance of its outer class. Normally we create them via:

Outer outer = new Outer();
Outer.Inner inner = Inner();

so as you see each instance of Inner class have some information about its outer class (reference to that outer instance is stored in this$0 field, more info: What does it mean if a variable has the name "this$0" in IntelliJ IDEA while debugging Java?)

So while creating instance of Inner class with Constructor#newInstance() you need to pass as first argument reference to instance of Outer class (to simulate Inner() behavior).

Here is an example.

in package1

package package1;

public class Outer {
    class Inner{
            System.out.println("non-public constructor of inner class");

in package2

package package2;

import package1.Outer;
import java.lang.reflect.Constructor;

public class Test {
    public static void main(String[] args) throws Exception {

        Outer outerObject = new Outer();

        Class<?> innerClazz = Class.forName("package1.Outer$Inner");

        // constructor of inner class as first argument need instance of
        // Outer class, so we need to select such constructor
        Constructor<?> constructor = innerClazz.getDeclaredConstructor(Outer.class);

        //we need to make constructor accessible 

        //and pass instance of Outer class as first argument
        Object o = constructor.newInstance(outerObject);

        System.out.println("we created object of class: "+o.getClass().getName());


static-nested classes

Instances of static-nested classes don't require instance of Outer class (since they are static). So in their case we don't need to look for constructor with Outer.class as first argument. And we don't need to pass instance of outer class as first argument. In other words code will be same as for non-nested (top-level) class (maybe except fact that you would need to add $Nested syntax in Class.forName()).