Is there a Java utility library that is analogous to the Unix program diff, but for Objects? I'm looking for something that can compare two objects of the same type and generate a data structure that represents the differences between them (and can recursively compare differences in instance variables). I'm not looking for a Java implementation of a text diff. I'm also not looking for help with how to use reflection to do this.

The application I'm maintaining has a fragile implementation of this functionality that had some poor design choices and that needs to be rewritten, but it would be even better if we could use something off the shelf.

Here's an example of the kind of thing I'm looking for:

SomeClass a = new SomeClass();
SomeClass b = new SomeClass();



DiffDataStructure diff = OffTheShelfUtility.diff(a, b);  // magical recursive comparison happens here

After comparison, the utility would tell me that "prop1" is different between the two objects and "prop2" is the same. I think it's most natural for DiffDataStructure to be a tree, but I'm not going to be picky if the code is reliable.

  • 9
    check this, code.google.com/p/jettison
    – denolk
    Nov 3, 2011 at 20:27
  • 1
    possible duplicate of How to test for equality of complex object graphs?
    – skaffman
    Nov 3, 2011 at 22:52
  • 18
    This isn't a duplicate of "How to test for equality of complex object graphs?" I'm looking for a library, not advice on how to do it. Furthermore, I'm interested in the delta, not if they're equal or not.
    – Kaypro II
    Nov 4, 2011 at 17:58
  • 1
    Look at github.com/jdereg/java-util which has a GraphComparator utilities. This class will generate a List of delta's between to object graphs. In addition, it has can merge (apply) a delta to a graph. Effectively it is List<Delta> = GraphComparator(rootA, rootB). As well as GraphComparator.applyDelta(rootB, List<Delta>). Jul 23, 2016 at 19:59
  • I know you don't want to use reflection, but that's definitely the easiest/simple way to implement something like this
    – RobOhRob
    May 21, 2019 at 17:44

8 Answers 8


Might be a little late, but I was in the same situation like you and ended up creating my own library for exactly your use-case. Since I was forced to come up with a solution myself, I decided to release it on Github, to spare others the hard work. You can find it here: https://github.com/SQiShER/java-object-diff

--- Edit ---

Here is a little usage example based on the OPs code:

SomeClass a = new SomeClass();
SomeClass b = new SomeClass();



DiffNode diff = ObjectDifferBuilder.buildDefault().compare(a, b);

assert diff.hasChanges();
assert diff.childCount() == 1;
assert diff.getChild('prop1').getState() == DiffNode.State.CHANGED;
  • 1
    May I point you to this post showing a use case of java-object-diff? stackoverflow.com/questions/12104969/… Thanks a lot for this helpful library! Aug 31, 2012 at 14:34
  • I had a look at your post an wrote an answer that turned out to be way too long to post as a comment, so here is the "gist" of it: gist.github.com/3555555
    – SQiShER
    Aug 31, 2012 at 16:40
  • 2
    Neat. I ended up writing my own implementation too. I'm not sure I'll get a chance to really explore your implementation, but I'm curious about how you handle Lists. I ended up handling all collection differences as differences of Maps (by defining the keys in different ways depending on if it's a list, set, or map; then using set operations on the keySet). However, that method is over-sensitive to list-index changes. I didn't solve that problem because I didn't need to for my application, but I'm curious about how you handled it (more like a text-diff, I'd assume).
    – Kaypro II
    Sep 4, 2012 at 22:51
  • 2
    You bring up a good point. Collections are really tough to deal with. Especially if you support merging, like I do. I solved the problem by using object identities to detect whether an item has been added, changed or removed (via hashCode, equals and contains). The good thing about that is, that I can treat all collections the same. The bad thing is, that I can't properly handle (for example) ArrayLists that contain the same object multiple times. I'd love to add support for that, but it seems to be pretty complicated and fortunately nobody asked for it, yet. :-)
    – SQiShER
    Sep 5, 2012 at 20:54
  • Daniel, thanks for your comment! You are right, reconstructing the original object from the diffs is difficult, but this is in my case not too important. Originally, I stored previous versions of my object in the database - as you recommend. The problem was that most parts of the large documents did not change, there was a lot of duplicated data. This is why I started searching for alternatives and I found java-object-diff. I also experienced difficulties with collections/maps and altered my "equals" methods to check for equality of the database primary (and not the whole object), this helped. Sep 10, 2012 at 6:37

http://javers.org is library that does exacly what you need: has methods like compare(Object leftGraph, Object rightGraph) returning the Diff object. Diff contains a list of changes (ReferenceChange, ValueChange, PropertyChange) e.g.

DummyUser user =  dummyUser("id").withSex(FEMALE).build();
DummyUser user2 = dummyUser("id").withSex(MALE).build();
Javers javers = JaversTestBuilder.newInstance()

Diff diff = javers.compare(user, user2)

diff.changes.size() == 1
ValueChange change = diff.changes[0]
change.leftValue == FEMALE
change.rightValue == MALE

It can handle cycles in graphs.

In addition you can get Snapshot of any graph object. Javers has JSON serializers and deserializers to snapshot, and changes so you can easily save them in database. With this library you can easily implement a module for auditing.

  • 1
    this doesn't work. how do you create a Javers instance? Jun 18, 2014 at 18:16
  • 2
    Javers has excellent documentation that explains everything: javers.org Oct 31, 2014 at 19:23
  • 2
    I tryed to use it but is only for Java >=7. Guys, there are still people working on projects on Java 6!!!
    – jesantana
    Jan 15, 2015 at 16:08
  • 2
    What if the two objects that I compare has a list of objects internally and will I be seeing those differences too? What is the level of hierarchy that javers could compare?
    – Deepak
    Jul 20, 2016 at 0:13
  • 1
    Yes you will see differences on internal objects. At the moment there is no threshold for hierarchy level. Javers will go as deep as it is possible, the limitation is stack size. Sep 1, 2016 at 11:20

You could also take a look at the solution from Apache. Most projects already have it on their classpath since its part of commons-lang.

Check difference for specific field(s):

Check difference by using reflection:

  • I get an error when using these... java.lang.NullPointerException: Cannot invoke "org.apache.commons.lang3.JavaVersion.atLeast(org.apache.commons.lang3.JavaVersion)" because "org.apache.commons.lang3.SystemUtils.JAVA_SPECIFICATION_VERSION_AS_ENUM" is null Oct 8, 2021 at 12:31

All the Javers library has support to only Java 7, I was in a situation since I want this to be used for a Java 6 project so I happened to take the source and change in a way it works for Java 6 below is the github code.


Jar link: https://github.com/sand3sh/javers-forJava6/blob/master/build/javers-forjava6.jar

I have only changed the Java 7 supported '<>' inherent cast conversions to Java 6 support I dont gurantee all the functionalities will work since I have commented few unnecessary code for me it works for all custom objects comparision.


Maybe this will help, depending on where you use this code, it could be useful or problematic. Tested this code.

 * @param firstInstance
 * @param secondInstance
protected static void findMatchingValues(SomeClass firstInstance,
        SomeClass secondInstance) {
    try {
        Class firstClass = firstInstance.getClass();
        Method[] firstClassMethodsArr = firstClass.getMethods();

        Class secondClass = firstInstance.getClass();
        Method[] secondClassMethodsArr = secondClass.getMethods();

        for (int i = 0; i < firstClassMethodsArr.length; i++) {
            Method firstClassMethod = firstClassMethodsArr[i];
            // target getter methods.
                    && ((firstClassMethod.getParameterTypes()).length == 0)
                    && (!(firstClassMethod.getName().equals("getClass")))

                Object firstValue;
                    firstValue = firstClassMethod.invoke(firstInstance, null);

                logger.info(" Value "+firstValue+" Method "+firstClassMethod.getName());

                for (int j = 0; j < secondClassMethodsArr.length; j++) {
                    Method secondClassMethod = secondClassMethodsArr[j];
                        Object secondValue = secondClassMethod.invoke(secondInstance, null);
                            logger.info(" Values do match! ");
        } catch (IllegalArgumentException e) {
        } catch (IllegalAccessException e) {
        } catch (InvocationTargetException e) {
  • 2
    Thanks, but we already have code that walks the object graph using reflection lists the changes. This questions isn't about how to do it, it's about trying to avoid re-inventing the wheel.
    – Kaypro II
    Nov 3, 2011 at 22:36
  • Reinventing the wheel isn't bad if the reinvention already happened. (IE: The reinvented wheel was already paid for.) Nov 3, 2011 at 22:43
  • 1
    I agree with you, but in this case the reinvented code is an unmaintainable mess.
    – Kaypro II
    Nov 4, 2011 at 17:54
  • 3
    I'd be checking Fields not methods. Methods could be anything, like getRandomNumber().
    – Bohemian
    Nov 4, 2011 at 20:18

A good way to compare deeply all properties of an objects is to convert them to java.util.Map. Done that, the java.util.Map#equals will deeply compare the objects and the job is done !

The only problem is to convert the object to a Map. One way to do it is to use reflexion with org.codehaus.jackson.map.ObjectMapper.

Therefore, it exist a tool from com.google.common.collect.MapDifference which describe the defferences between the two maps.

SomeClass a = new SomeClass();
SomeClass b = new SomeClass();



// Convert object to Map
ObjectMapper objectMapper = new ObjectMapper();
Map<String, Object> aMap =  objectMapper.convertValue(a, Map.class);
Map<String, Object> bMap =  objectMapper.convertValue(b, Map.class);

aMap.equals(bMap); // --> false

// Show deeply all differences
MapDifference<String, Object> diff = Maps.difference(aMap, bMap);

Firstly we have to convert our objects to map:

    public Map<String, Object> objectToMap(Object object) throws JsonProcessingException {
    var mapper = new ObjectMapper();
    final var type = new TypeReference<HashMap<String, Object>>() {

    ObjectWriter ow = new ObjectMapper().writer().withDefaultPrettyPrinter();
    return mapper.readValue(ow.writeValueAsString(object), type);

after that convert the map to flatten map:

    public Map<String, Object> flatten(Map<String, Object> map) {
    return map.entrySet().stream()
        .collect(LinkedHashMap::new, (m, e) -> m.put(camelToUnderScore("/" + e.getKey()), e.getValue()),

public Stream<Map.Entry<String, Object>> flatten(Map.Entry<String, Object> entry) {

    if (entry == null) {
        return Stream.empty();

    if (entry.getValue() instanceof Map<?, ?>) {
        return ((Map<?, ?>) entry.getValue()).entrySet().stream()
            .flatMap(e -> flatten(
                new AbstractMap.SimpleEntry<>(camelToUnderScore(entry.getKey() + "/" + e.getKey()),

    if (entry.getValue() instanceof List<?>) {
        List<?> list = (List<?>) entry.getValue();
        return IntStream.range(0, list.size())
            .mapToObj(i -> new AbstractMap.SimpleEntry<String, Object>(
                camelToUnderScore(entry.getKey() + "/" + i), list.get(i)))

    return Stream.of(entry);

and finaly call getDifferenceBetween2Maps to get the differences:

    public Map<String, Object> getDifferenceBetween2Maps(final Map<String, Object> leftFlatMap,
                                                     final Map<String, Object> rightFlatMap) {
    final MapDifference<String, Object> difference = Maps.difference(leftFlatMap, rightFlatMap);

    var differencesList = new HashMap<String, Object>();


    return differencesList;

using example :

Map<String, Object> oldObjectFlatMap = flatten(objectToMap(oldObject));
Map<String, Object> newObjectFlatMap = flatten(objectToMap(newObject));
var differencesList = getDifferenceBetween2Maps(oldObjectFlatMap , newObjectFlatMap);

A simpler approach to quickly tell you if two objects are different would be is to use the apache commons library

    BeanComparator lastNameComparator = new BeanComparator("lname");
    logger.info(" Match "+bc.compare(firstInstance, secondInstance));
  • 1
    That doesn't work for me because I need to know what changed, not just that there was a change somewhere.
    – Kaypro II
    Nov 3, 2011 at 22:34

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