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Shouldn't an Object and its clone (correctly done) byte representations be same?

ByteArrayOutputStream bos = new ByteArrayOutputStream();
ObjectOutputStream oos = new ObjectOutputStream(bos);
byte[] byteArr1 = bos.toByteArray();

bos = new ByteArrayOutputStream();
oos = new ObjectOutputStream(bos);
byte[] byteArr2 = bos.toByteArray();

Arrays.equals(byteArr1, byteArr2) == true ?

Trying to see if there are any alternatives to not implementing equals method when comparing an object and its clone. Yes sure, these are not the best practices but I am just trying to understand the byte stream representation of a Serializable Object.

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What is "correctly done" ? –  alfa64 Jan 9 '14 at 7:13
Nothing special, by correctly, I meant same values on all properties in the clone. @user2864740 makes sense, that makes this another dumb question! –  user469718 Jan 9 '14 at 7:18
What is the p object? –  Kayaman Jan 9 '14 at 7:18
Sorry about that, p here is just a regular java object –  user469718 Jan 9 '14 at 7:34

2 Answers 2

Yes they are equal. Serialization depends on class and object fields. As soon as both class and fields are the same serialized data will be the same.

public class Test implements Cloneable, Serializable {
    int i = 1;

    protected Object clone() throws CloneNotSupportedException {
        return super.clone();

    public static void main(String[] args) throws Exception {
        Test t = new Test();
        ByteArrayOutputStream bos = new ByteArrayOutputStream();
        ObjectOutputStream oos = new ObjectOutputStream(bos);
        byte[] byteArr1 = bos.toByteArray();

        bos = new ByteArrayOutputStream();
        oos = new ObjectOutputStream(bos);
        byte[] byteArr2 = bos.toByteArray();

        System.out.println(Arrays.equals(byteArr1, byteArr2));

prints true

Also take a look at common-lang EqualsBuilder.reflectionEquals(obj1, obj2) it can test any objects for equality by analizing their fields

share|improve this answer
I see there is an option to customize serialization writeObject(ObjectOutputStream out), readObject(ObjectInputStream in) but that defeats my purpose. Again, I was just playing around to see if we can implement another equivalent of equals() method without actually implementing it. As @user2864740 mentioned, I tried comparing a serialized object with no collections and it still failed, so it won't work on any object for that matter unless you customize serialization. Let me test by overriding serialization –  user469718 Jan 9 '14 at 7:32
OK, I added a test, try it –  Evgeniy Dorofeev Jan 9 '14 at 7:36
But the test checks serilized bytes, true means bytes are same –  Evgeniy Dorofeev Jan 9 '14 at 7:45
@Evgeniy, add an arraylist or a map and see it fails. private List<String> strs = new ArrayList<String>(); protected Object clone() throws CloneNotSupportedException { ...clone.setStrs(new ArrayList<String>(this.strs)); Again as other user mentioned, we don't know how serialization works. –  user469718 Jan 9 '14 at 7:47
Cannot use equals builder, it does not enforce clone does not point to a different reference, correct clone creates a different object and does not point to the same reference. ""I am trying to unit test my clone implementation"". I also needed a default value initializer on my object (almost done writing) so I don't miss a new field and make sure none of them are nulls. –  user469718 Jan 9 '14 at 8:01

Not necessarily: the serialized version of two different objects does not need to be byte-equals for the two objects to be equals.

There is nothing in the Serializable contract that makes any relationship between equals and the result of writeObject. Furthermore, from the Serialized Form (writeObject) documentation for Hashtable:

.. [and Hashtable serializes] the key (Object) and value (Object) for each key-value mapping represented by the Hashtable The key-value mappings are emitted in no particular order.

While, when I say two different objects above I mean "created independently", because I think it makes a better case overall, let's consider the contract for Object.clone to ascertain that it adds no additional restrictions (in fact, clone loses the equals restriction):

Creates and returns a copy of this object. The precise meaning of "copy" may depend on the class of the object. The general intent is that, for any object x, the expression:

x.clone() != x

will be true, and that the expression:

x.clone().getClass() == x.getClass()

will be true, but these are not absolute requirements. While it is typically the case that:


will be true, this is not an absolute requirement.

As a further counter-example of clone implying an object which has the exact same serialized representation, consider an object that implements clone using serialization (which is perfectly valid and done in some languages): since serialization has no such requirement of byte-equality (e.g. ordering, as in the case of Hastable.writeObject), then the restored order of such serialization/deserialization (and later serialization) is not guaranteed either.

Just because such a rule works on all the types/implementations used in practice (and it very likely will), does not imply that types for which byteEquals(serialize(a), serialize(clone(a)) is not true violate any stated contract or are otherwise implemented incorrectly.

Here is some code using a Hashtable (I choose this type because it does implement Serializable and I did find documentation as per above) which may exhibit the issue of "equals" while not "byte-equals when serialized":

import java.util.*;
import java.lang.*;

class Ideone
    public static byte[] serialize(Object v) throws java.lang.Exception {
        ByteArrayOutputStream bos = new ByteArrayOutputStream();
        ObjectOutputStream oos = new ObjectOutputStream(bos);
        return bos.toByteArray();

    public static void main (String[] args) throws java.lang.Exception
        Hashtable v1 = new Hashtable();
        Hashtable v2 = new Hashtable();

        int r = 1000;
        for (int x = 0; x <= r; x++) {
            v1.put(x, 0);
            v2.put(r - x, 0);

        byte[] byteArr1 = serialize(v1);
        byte[] byteArr2 = serialize(v2);

        System.out.println(Arrays.equals(byteArr1, byteArr2));

And, while on Ideone it always is true/true for me, according to the OpenJDK implementation (and previous documentation excerpt), this need not be the case as the order of entries (in the case of collision and chaining) is not well-defined:

933     private void More ...writeObject( s)
934             throws IOException {
935         Entry<K, V> entryStack = null;
937         synchronized (this) {
938             // Write out the length, threshold, loadfactor
939             s.defaultWriteObject();
941             // Write out length, count of elements
942             s.writeInt(table.length);
943             s.writeInt(count);
945             // Stack copies of the entries in the table
946             for (int index = 0; index < table.length; index++) {
947                 Entry<K,V> entry = table[index];
                    /* order of chained entries is not well defined!! */
949                 while (entry != null) {
950                     entryStack =
951                         new Entry<>(0, entry.key, entry.value, entryStack);
952                     entry =;
953                 }
954             }
955         }
957         // Write out the key/value objects from the stacked entries
958         while (entryStack != null) {
959             s.writeObject(entryStack.key);
960             s.writeObject(entryStack.value);
961             entryStack =;
962         }
963     }

(The OpenJDK implementation's Hashtable.clone does maintains ordering of entries, but I'm omitting it as it does not support the case outlined in the code above; it is trivial to create a custom type conforming to Clonable/Serializable that violates the initial question proposed while not violating any contractual requirements.)

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Is there any particular value to suggesting that x.clone() != x? It would seem a better requirement would be that given y=x.clone(), nothing done to x should affect y, and nothing done to y should affect x. For mutable types, that would imply that x!=y, but for immutable types it would not. Except in those rare cases where immutable object references are used to encapsulate identity (i.e. a relationship with other extant references to the same object) rather than value, I can't see why an immutable object shouldn't simply have clone() return this. –  supercat Jan 10 '14 at 0:37
@supercat I think that returning this for immutable objects is probably fine for most purposes (maybe there is a question already dealing with this?) - and doing so does not violate that loose clone contract (e.g. "depend on the class .. general intent .. not absolute requirements"). The exact semantics should probably be specified in the applicable implementation documentation. –  user2864740 Jan 10 '14 at 4:11

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