Please take a look at the picture below. When we create an object in java with the new keyword, we are getting a memory address from the OS.

When we write out.println(objName) we can see a "special" string as output. My questions are:

  1. What is this output?
  2. If it is memory address which given by OS to us:

    a) How can I convert this string to binary?

    b) How can I get one integer variables address?

alt text

  • 6
    well I'm not voting down because the question is clear enough, just a suggestion that you should have made it in text so people can search for it
    – phunehehe
    Dec 25, 2009 at 13:16
  • 2
    Using the sun.misc.Unsafe it is possible to get the address of a java object. For program listing refer: javapapers.com/core-java/address-of-a-java-object
    – Joseph
    Jul 16, 2010 at 10:30
  • the pointed value is hexadecimal representation of the hashcode of the object a1 & a2
    – Naveen
    Apr 29, 2015 at 6:26

9 Answers 9


That is the class name and System.identityHashCode() separated by the '@' character. What the identity hash code represents is implementation-specific. It often is the initial memory address of the object, but the object can be moved in memory by the VM over time. So (briefly) you can't rely on it being anything.

Getting the memory addresses of variables is meaningless within Java, since the JVM is at liberty to implement objects and move them as it seems fit (your objects may/will move around during garbage collection etc.)

Integer.toBinaryString() will give you an integer in binary form.

  • 42
    Another interesting point is that identity hash codes are not guaranteed to be unique. For instance on 64-bit JVM there are 2^32 identity hash codes but 2^64 memory addresses. Dec 25, 2009 at 14:42
  • 16
    Actually, the identity hash code cannot change, otherwise the contract of hashCode() would be violated. Jun 28, 2013 at 18:36
  • 3
    I'm using this for logging/debugging for determining in logs when objects are pointing to the same object instead of equivalent ones. For these purposes the identityHashcode is not meaningless, it's just not foolproof. :)
    – Sled
    Feb 26, 2016 at 20:53
  • 1
    @VedPrakash the object hashcode allows objects to be stored in hashed collections. If you want to differentiate two different objects, you could simply use reference equality Jun 8, 2018 at 16:48
  • 1
    Getting the memory address of an object is not meaningless if you try to find it out in Eclipse Memory analyzer...
    – 99Sono
    Nov 20, 2019 at 8:41

It is possible using sun.misc.Unsafe : see this great answer from @Peter Lawrey -> Is there a way to get a reference address?

Using its code for printAddresses() :

    public static void printAddresses(String label, Object... objects) {
    System.out.print(label + ": 0x");
    long last = 0;
    int offset = unsafe.arrayBaseOffset(objects.getClass());
    int scale = unsafe.arrayIndexScale(objects.getClass());
    switch (scale) {
    case 4:
        long factor = is64bit ? 8 : 1;
        final long i1 = (unsafe.getInt(objects, offset) & 0xFFFFFFFFL) * factor;
        last = i1;
        for (int i = 1; i < objects.length; i++) {
            final long i2 = (unsafe.getInt(objects, offset + i * 4) & 0xFFFFFFFFL) * factor;
            if (i2 > last)
                System.out.print(", +" + Long.toHexString(i2 - last));
                System.out.print(", -" + Long.toHexString( last - i2));
            last = i2;
    case 8:
        throw new AssertionError("Not supported");

I set up this test :

    System.out.println("Hashcode :       "+myObject.hashCode());
    System.out.println("Hashcode :       "+System.identityHashCode(myObject));
    System.out.println("Hashcode (HEX) : "+Integer.toHexString(myObject.hashCode()));

    System.out.println("toString :       "+String.valueOf(myObject));

    printAddresses("Address", myObject);

Here is the output :

Hashcode :       125665513
Hashcode :       125665513
Hashcode (HEX) : 77d80e9
toString :       java.lang.Object@77d80e9
Address: 0x7aae62270

Conclusion :

  • hashcode != address
  • toString = class@HEX(hashcode)
  • (probably off-topic but I'm curious) Is there a limitation of maximum 32GB for the entire heap or something? Jun 24, 2021 at 7:49

That is the output of Object's "toString()" implementation. If your class overrides toString(), it will print something entirely different.


This is not memory address This is classname@hashcode
Which is the default implementation of Object.toString()

public String toString() {
    return getClass().getName() + "@" + Integer.toHexString(hashCode());


Class name = full qualified name or absolute name (ie package name followed by class name) hashcode = hexadecimal format (System.identityHashCode(obj) or obj.hashCode() will give you hashcode in decimal format).

The confusion root cause is that the default implementation of Object.hashCode() use the internal address of the object into an integer

This is typically implemented by converting the internal address of the object into an integer, but this implementation technique is not required by the Java™ programming language.

And of course, some classes can override both default implementations either for toString() or hashCode()

If you need the default implementation value of hashcode() for a object which overriding it,
You can use the following method System.identityHashCode(Object x)


Like Sunil said, this is not memory address.This is just the hashcode

To get the same @ content, you can:

If hashCode is not overridden in that class:

"@" + Integer.toHexString(obj.hashCode())

If hashCode is overridden, you get the original value with:

"@" + Integer.toHexString(System.identityHashCode(obj)) 

This is often confused with memory address because if you don't override hashCode(), the memory address is used to calculate the hash.


What you are getting is the result of the toString() method of the Object class or, more precisely, the identityHashCode() as uzay95 has pointed out.

"When we create an object in java with new keyword, we are getting a memory address from the OS."

It is important to realize that everything you do in Java is handled by the Java Virtual Machine. It is the JVM that is giving this information. What actually happens in the RAM of the host operating system depends entirely on the implementation of the JRE.


this is useful to know about hashcode in java :



In Java when you are making an object from a class like Person p = new Person();, p is actually an address of a memory location which is pointing to a type of Person.

When use a statemenet to print p you will see an address. The new key word makes a new memory location containing all the instance variables and methods which are included in class Person and p is the reference variable pointing to that memory location.

  • in your picture a1 and a2 are two different memory addresses.that is the reason behind of getting two different values. Jan 1, 2016 at 5:37

According to Javadoc, Printing object reference, it'll return a string representation of the object because internally it'll invoke the toString() method from the Object class.

default toString() method

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