I have an abstract class called Instance and then two implementations of that, UserInstance and HardwareInstance. The issue I am having is that when I call the rest endpoint for a @POST into the database, I ideally wanted it to be like .../rest/soexample/instance/create where the instance is passed to the REST endpoint. If Instance wasn't abstract with more than one implementation it would be fine, but since I have 2 I am getting a Jackson.databind error.

" problem: abstract types either need to be mapped to concrete types, have custom deserializer, or be instantiated with additional type information"

After looking up a solution to this I found a SO answer that said I could use something like:


But it seem's like that isonly useful if there is one implementation of the abstract class. Assuming I can't call it twice since there would be no way for it to decide which type of instance it would be.

So I am wondering what is the best way to handle this situation? Should I create different endpoints? Like:

.../rest/soexample/userinstance/create & .../rest/soexample/hardwareinstance/create

I am not too sure as I am a noobie @ REST related things, though actively trying to learn. Thanks!

  • You could write a custom deserializer for that abstract class, which would have to programmatically parse the JSON depending on the fields and parse the body as whatever concrete class you had in mind. – IanGabes Sep 24 '15 at 17:02
  • Thanks for the suggestion. I have never done that before. Where would I place the custom deserializer? Like would I call it from inside the endpoint for .../rest/soexample/instance/create? – erp Sep 24 '15 at 17:05
  • REST is a non-specific type of application, it doesn't tell me much about what server/client technology you are using. I found a SO question similiar to yours with the solution that i had in mind: stackoverflow.com/questions/8210538/… I would generally put the deserializer as a public static inner class of the object you are trying to deserialize. – IanGabes Sep 24 '15 at 18:03

Here is what I did in your same case:

@JsonDeserialize(using = InstanceDeserializer.class)
public abstract class Instance {
    //.. methods

@JsonDeserialize(as = UserInstance.class)
public class UserInstance extends Instance {
    //.. methods

@JsonDeserialize(as = HardwareInstance.class)
public class HardwareInstance extends Instance {
    //.. methods

public class InstanceDeserializer extends JsonDeserializer<Instance> {
    public Instance deserialize(JsonParser jp,  DeserializationContext ctxt) throws IOException, JsonProcessingException {
        ObjectMapper mapper = (ObjectMapper) jp.getCodec();
        ObjectNode root = (ObjectNode) mapper.readTree(jp);
        Class<? extends Instance> instanceClass = null;
        if(checkConditionsForUserInstance()) {
            instanceClass = UserInstance.class;
        } else { 
            instanceClass = HardwareInstance.class;
        if (instanceClass == null){
            return null;
        return mapper.readValue(root, instanceClass );

You annotate Instance with @JsonDeserialize(using = InstanceDeserializer.class) to indicate the class to be used to deserialize the abstract class. You need then to indicate that each child class will be deserialized as themselves, otherwise they will use the parent class deserializer and you will get a StackOverflowError.

Finally, inside the InstanceDeserializer you put the logic to deserialize into one or another child class (checkConditionsForUserInstance() for example).

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    What should be the logic in checkConditionsForUserInstance() method? Do we get this instance information in ctxt? – Pankaj Dwivedi Sep 21 '16 at 8:24
  • 1
    No, it's just a method that you do yourself to differentiate into which class you want to deserialize de Json. – carcaret Sep 21 '16 at 8:49
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    At this point, you must have some mechanism to differentiate the concrete class associated with the Json. If child classes are out of your control like you say, maybe you should add an extra mandatory parameter to the Json that tells you the concrete class you need. You can also check the @JsonTypeInfo annotation as well, but I think it won't fit in your scenario. Ultimately, although quite complex, you can scan all implementing classes of your interface using reflection, and match which one has the same fields as the Json, and then deserialize into that one. I can't think of anything else. – carcaret Sep 22 '16 at 8:39
  • 3
    Thanks a lot!! I did resolve this issue by using @JsonTypeInfo(use = JsonTypeInfo.Id.CLASS, include = JsonTypeInfo.As.PROPERTY, property = "type") on top of my interface. It adds a type field in the json its saving and while deserializing it makes use of that value. So it is doing exactly what you have suggested. – Pankaj Dwivedi Sep 22 '16 at 8:50
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    Shouldn't the last line be return mapper.convertValue(root, instanceClass); – Conor Svensson Nov 3 '16 at 4:00

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