I am trying to set up a reader that will take in JSON objects from various websites (think information scraping) and translate them into C# objects. I am currently using JSON.NET for the deserialization process. The problem I am running into is that it does not know how to handle interface-level properties in a class. So something of the nature:

public IThingy Thing

Will produce the error:

Could not create an instance of type IThingy. Type is an interface or abstract class and cannot be instantiated.

It is relatively important to have it be an IThingy as opposed to a Thingy since the code I am working on is considered sensitive and unit testing is highly important. Mocking of objects for atomic test scripts is not possible with fully-fledged objects like Thingy. They must be an interface.

I've been poring over JSON.NET's documentation for a while now, and the questions I could find on this site related to this are all from over a year ago. Any help?

Also, if it matters, my app is written in .NET 4.0.

15 Answers 15

up vote 91 down vote accepted

@SamualDavis provided a great solution in a related question, which I'll summarize here.

If you have to deserialize a JSON stream into a concrete class that has interface properties, you can include the concrete classes as parameters to a constructor for the class! The NewtonSoft deserializer is smart enough to figure out that it needs to use those concrete classes to deserialize the properties.

Here is an example:

public class Visit : IVisit
{
    /// <summary>
    /// This constructor is required for the JSON deserializer to be able
    /// to identify concrete classes to use when deserializing the interface properties.
    /// </summary>
    public Visit(MyLocation location, Guest guest)
    {
        Location = location;
        Guest = guest;
    }
    public long VisitId { get; set; }
    public ILocation Location { get;  set; }
    public DateTime VisitDate { get; set; }
    public IGuest Guest { get; set; }
}
  • 13
    How would this work with an ICollection? ICollection<IGuest> Guests{get;set;} – DrSammyD Jan 30 '14 at 16:43
  • 11
    It works with ICollection<ConcreteClass>, so ICollection<Guest> works. Just as an FYI, you can put the attribute [JsonConstructor] on your constructor so that it will use that by default if you happen to have multiple constructors – DrSammyD Feb 3 '14 at 17:33
  • 5
    I am stuck to the same problem, in my case i have several implementation of the interface ( in your example the interface is ILocation ) so what if there are classes like MyLocation, VIPLocation, OrdinaryLocation. How to map these to Location property ? If you just have one implementation like MyLocation its easy, but how to do it if there are multiple implementations of ILocation ? – ATHER Oct 9 '15 at 23:09
  • 9
    If you have more than one constructor, you can mark up your special constructor with the [JsonConstructor] attribute. – Dr Rob Lang May 23 '16 at 12:49
  • 8
    This is not fine at all. The point of using interfaces is to use dependency injection, but doing this with an object typed parameter required by your constructor you totally screw up the point of having an interface as a property. – Jérôme MEVEL Aug 29 '16 at 9:34

(Copied from this question)

In cases where I have not had control over the incoming JSON (and so cannot ensure that it includes a $type property) I have written a custom converter that just allows you to explicitly specify the concrete type:

public class Model
{
    [JsonConverter(typeof(ConcreteTypeConverter<Something>))]
    public ISomething TheThing { get; set; }
}

This just uses the default serializer implementation from Json.Net whilst explicitly specifying the concrete type.

An overview are available on this blog post. Source code is below:

public class ConcreteTypeConverter<TConcrete> : JsonConverter
{
    public override bool CanConvert(Type objectType)
    {
        //assume we can convert to anything for now
        return true;
    }

    public override object ReadJson(JsonReader reader, Type objectType, object existingValue, JsonSerializer serializer)
    {
        //explicitly specify the concrete type we want to create
        return serializer.Deserialize<TConcrete>(reader);
    }

    public override void WriteJson(JsonWriter writer, object value, JsonSerializer serializer)
    {
        //use the default serialization - it works fine
        serializer.Serialize(writer, value);
    }
}
  • 10
    I really like this approach and applied it to our own project. I even added a ConcreteListTypeConverter<TInterface, TImplementation> to handle class members of type IList<TInterface>. – Oliver Dec 6 '12 at 12:45
  • 3
    That's a great bit of code. It might be nicer to have the actual code for concreteTypeConverter in the question though. – Chris Aug 27 '15 at 10:16
  • 1
    @Oliver - Can you post your ConcreteListTypeConverter<TInterface, TImplementation> implementation? – Michael Oct 18 '17 at 21:16

To enable deserialization of multiple implementations of interfaces, you can use JsonConverter, but not through an attribute:

Newtonsoft.Json.JsonSerializer serializer = new Newtonsoft.Json.JsonSerializer();
serializer.Converters.Add(new DTOJsonConverter());
Interfaces.IEntity entity = serializer.Deserialize(jsonReader);

DTOJsonConverter maps each interface with a concrete implementation:

class DTOJsonConverter : Newtonsoft.Json.JsonConverter
{
    private static readonly string ISCALAR_FULLNAME = typeof(Interfaces.IScalar).FullName;
    private static readonly string IENTITY_FULLNAME = typeof(Interfaces.IEntity).FullName;


    public override bool CanConvert(Type objectType)
    {
        if (objectType.FullName == ISCALAR_FULLNAME
            || objectType.FullName == IENTITY_FULLNAME)
        {
            return true;
        }
        return false;
    }

    public override object ReadJson(Newtonsoft.Json.JsonReader reader, Type objectType, object existingValue, Newtonsoft.Json.JsonSerializer serializer)
    {
        if (objectType.FullName == ISCALAR_FULLNAME)
            return serializer.Deserialize(reader, typeof(DTO.ClientScalar));
        else if (objectType.FullName == IENTITY_FULLNAME)
            return serializer.Deserialize(reader, typeof(DTO.ClientEntity));

        throw new NotSupportedException(string.Format("Type {0} unexpected.", objectType));
    }

    public override void WriteJson(Newtonsoft.Json.JsonWriter writer, object value, Newtonsoft.Json.JsonSerializer serializer)
    {
        serializer.Serialize(writer, value);
    }
}

DTOJsonConverter is required only for the deserializer. The serialization process is unchanged. The Json object do not need to embed concrete types names.

This SO post offers the same solution one step further with a generic JsonConverter.

  • Wouldn't that WriteJson method's call to serializer.Serialize cause a stack overflow, since calling serialize on the value being serialized by the converter would cause the converter's WriteJson method to be called again recursively? – Triynko Dec 2 '13 at 7:09
  • It should not, if the CanConvert () method returns a consistent result. – Eric Boumendil Jan 10 '14 at 13:38
  • 1
    Why are you comparing FullNames when you may just compare types directly? – Alex Zhukovskiy Aug 1 '16 at 12:41
  • Just comparing types also is fine. – Eric Boumendil Aug 1 '16 at 12:46

Why use a converter? There is a native functionality in Newtonsoft.Json to solve this exact problem:

Set TypeNameHandling in the JsonSerializerSettings to TypeNameHandling.Auto

JsonConvert.SerializeObject(
        toSerialize,
        new JsonSerializerSettings()
        {
          TypeNameHandling = TypeNameHandling.Auto
        });

This will put every type into the json, that is not held as a concrete instance of a type but as an interface or an abstract class.

I tested it, and it works like a charm, even with lists.

Source and an alternative manual implementation: Code Inside Blog

  • 1
    Perfect, this helped me for a quick & dirty deep clone ( stackoverflow.com/questions/78536/deep-cloning-objects ) – Compufreak Mar 24 '17 at 10:53
  • 1
    @Shimmy Objects: "Include the .NET type name when serializing into a JSON object structure." Auto: Include the .NET type name when the type of the object being serialized is not the same as its declared type. Note that this doesn't include the root serialized object by default. To include the root object's type name in JSON you must specify a root type object with SerializeObject(Object, Type, JsonSerializerSettings) or Serialize(JsonWriter, Object, Type)." Source: newtonsoft.com/json/help/html/… – Mafii May 21 '17 at 19:34
  • 1
    I just tried this on Deserialization and it doesn't work. The subject line of this Stack Overflow question is, "Casting interfaces for deserialization in JSON.NET" – Justin Russo Sep 13 '17 at 13:38
  • 1
    @JustinRusso it only works when the json has been serialized with the same setting – Mafii Sep 13 '17 at 13:40
  • 2
    Upvote for the quick, if not dirty, solution. If you are just serializing configurations, this works. Beats stopping development to build converters and certainly beats decorating every injected property. serializer.TypeNameHandling = TypeNameHandling.Auto; JsonConvert.DefaultSettings().TypeNameHandling = TypeNameHandling.Auto; – Sean Anderson Dec 20 '17 at 3:32

I found this useful. You might too.

Example Usage

public class Parent
{
    [JsonConverter(typeof(InterfaceConverter<IChildModel, ChildModel>))]
    IChildModel Child { get; set; }
}

Custom Creation Converter

public class InterfaceConverter<TInterface, TConcrete> : CustomCreationConverter<TInterface>
    where TConcrete : TInterface, new()
{
    public override TInterface Create(Type objectType)
    {
        return new TConcrete();
    }
}

Json.NET documentation

  • 1
    Not a workable solution. Does not address Lists and leads to sprinkling decorators/annotations everywhere. – Sean Anderson Dec 20 '17 at 3:34

Two things you might try:

Implement a try/parse model:

public class Organisation {
  public string Name { get; set; }

  [JsonConverter(typeof(RichDudeConverter))]
  public IPerson Owner { get; set; }
}

public interface IPerson {
  string Name { get; set; }
}

public class Tycoon : IPerson {
  public string Name { get; set; }
}

public class Magnate : IPerson {
  public string Name { get; set; }
  public string IndustryName { get; set; }
}

public class Heir: IPerson {
  public string Name { get; set; }
  public IPerson Benefactor { get; set; }
}

public class RichDudeConverter : JsonConverter
{
  public override bool CanConvert(Type objectType)
  {
    return (objectType == typeof(IPerson));
  }

  public override object ReadJson(JsonReader reader, Type objectType, object existingValue, JsonSerializer serializer)
  {
    // pseudo-code
    object richDude = serializer.Deserialize<Heir>(reader);

    if (richDude == null)
    {
        richDude = serializer.Deserialize<Magnate>(reader);
    }

    if (richDude == null)
    {
        richDude = serializer.Deserialize<Tycoon>(reader);
    }

    return richDude;
  }

  public override void WriteJson(JsonWriter writer, object value, JsonSerializer serializer)
  {
    // Left as an exercise to the reader :)
    throw new NotImplementedException();
  }
}

Or, if you can do so in your object model, implement a concrete base class between IPerson and your leaf objects, and deserialize to it.

The first can potentially fail at runtime, the second requires changes to your object model and homogenizes the output to the lowest common denominator.

  • A try/parse model isn't feasible due to the scale I have to work with. I have to consider a scope of hundreds of base objects with even more hundreds of stub/helper objects to represent embedded JSON objects that happen a lot. It's not out of the question to change the object model, but wouldn't using a concrete base class in the properties make us unable to mock items for unit testing? Or am I getting that backward somehow? – tmesser Apr 25 '11 at 18:28
  • You could still implement a mock from IPerson - note that the type of the Organisation.Owner property is still IPerson. But for deserialization of an arbitrary target you have to return a concrete type. If you don't own the type definition and you can't define the minimum set of properties that your code will require, then your last resort is something like a key/value bag. Using your facebook example comment - can you post in an answer what your (one or multiple) implementations of ILocation look like? That may help move things forward. – mcw0933 Apr 25 '11 at 19:09
  • Since the primary hope is mocking, the ILocation interface is, really, merely a facade for the Location concrete object. A quick example I just worked up would be something like this (pastebin.com/mWQtqGnB) for the interface and this (pastebin.com/TdJ6cqWV) for the concrete object. – tmesser Apr 26 '11 at 14:56
  • And to go the next step, this is an example of what IPage would look like (pastebin.com/iuGifQXp) and Page (pastebin.com/ebqLxzvm). The problem, of course, being that while the deserialization of Page would generally work fine, it'll choke when it gets to the ILocation property. – tmesser Apr 26 '11 at 15:02
  • Ok, so thinking about the objects that you're actually scraping and deserializing - is it generally the case that the JSON data is consistent with a single concrete class definition? Meaning (hypothetically) you wouldn't encounter "locations" with additional properties that would make Location unsuitable to use as the concrete type for the deserialized object? If so, attributing the ILocation property of Page with a "LocationConverter" should work. If not, and it's because the JSON data doesn't always conform to a rigid or consistent structure (like ILocation), then (... continued) – mcw0933 Apr 26 '11 at 20:22

For those that might be curious about the ConcreteListTypeConverter that was referenced by Oliver, here is my attempt:

public class ConcreteListTypeConverter<TInterface, TImplementation> : JsonConverter where TImplementation : TInterface 
{
    public override bool CanConvert(Type objectType)
    {
        return true;
    }

    public override object ReadJson(JsonReader reader, Type objectType, object existingValue, JsonSerializer serializer)
    {
        var res = serializer.Deserialize<List<TImplementation>>(reader);
        return res.ConvertAll(x => (TInterface) x);
    }

    public override void WriteJson(JsonWriter writer, object value, JsonSerializer serializer)
    {
        serializer.Serialize(writer, value);
    }
}
  • 1
    I'm confused with the overridden CanConvert(Type objectType) { return true;}. It seems hacky, how exactly is this helpful? I may be wrong but isn't that like telling a smaller inexperienced fighter that they're going to win the fight no matter the opponent? – Chef_Code May 4 '17 at 20:23

Suppose an autofac setting like the following:

public class AutofacContractResolver : DefaultContractResolver
{
    private readonly IContainer _container;

    public AutofacContractResolver(IContainer container)
    {
        _container = container;
    }

    protected override JsonObjectContract CreateObjectContract(Type objectType)
    {
        JsonObjectContract contract = base.CreateObjectContract(objectType);

        // use Autofac to create types that have been registered with it
        if (_container.IsRegistered(objectType))
        {
           contract.DefaultCreator = () => _container.Resolve(objectType);
        }  

        return contract;
    }
}

Then, suppose your class is like this:

public class TaskController
{
    private readonly ITaskRepository _repository;
    private readonly ILogger _logger;

    public TaskController(ITaskRepository repository, ILogger logger)
    {
        _repository = repository;
        _logger = logger;
    }

    public ITaskRepository Repository
    {
        get { return _repository; }
    }

    public ILogger Logger
    {
        get { return _logger; }
    }
}

Therefore, the usage of the resolver in deserialization could be like:

ContainerBuilder builder = new ContainerBuilder();
builder.RegisterType<TaskRepository>().As<ITaskRepository>();
builder.RegisterType<TaskController>();
builder.Register(c => new LogService(new DateTime(2000, 12, 12))).As<ILogger>();

IContainer container = builder.Build();

AutofacContractResolver contractResolver = new AutofacContractResolver(container);

string json = @"{
      'Logger': {
        'Level':'Debug'
      }
}";

// ITaskRespository and ILogger constructor parameters are injected by Autofac 
TaskController controller = JsonConvert.DeserializeObject<TaskController>(json, new JsonSerializerSettings
{
    ContractResolver = contractResolver
});

Console.WriteLine(controller.Repository.GetType().Name);

You can see more details in http://www.newtonsoft.com/json/help/html/DeserializeWithDependencyInjection.htm

  • I will up-vote this as the best solution. DI has been so widely used this days by c# web devs, and this fit nicely as a centralized place to handle those type conversion by the resolver. – appletwo Jul 26 '17 at 23:56

Use this class, for mapping abstract type to real type:

public class AbstractConverter<TReal, TAbstract> : JsonConverter
{
    public override Boolean CanConvert(Type objectType) 
        => objectType == typeof(TAbstract);

    public override Object ReadJson(JsonReader reader, Type type, Object value, JsonSerializer jser) 
        => jser.Deserialize<TReal>(reader);

    public override void WriteJson(JsonWriter writer, Object value, JsonSerializer jser) 
        => jser.Serialize(writer, value);
}

...and when deserialize:

        var settings = new JsonSerializerSettings
        {
            Converters = {
                new AbstractConverter<Thing, IThingy>(),
                new AbstractConverter<Thing2, IThingy2>()
            },
        };

        JsonConvert.DeserializeObject(json, type, settings);
  • 1
    I really like a nice concise answer that solves my problem. No need for autofac or anything! – Ben Power Jun 12 at 1:26
  • 1
    I think is good and clear answer for my case. – dotnetstep Aug 10 at 16:18
  • It's worth putting this to the converter class declaration: where TReal : TAbstract to make sure it can cast to the type – Artemious Oct 30 at 21:33

For what it's worth, I ended up having to handle this myself for the most part. Each object has a Deserialize(string jsonStream) method. A few snippets of it:

JObject parsedJson = this.ParseJson(jsonStream);
object thingyObjectJson = (object)parsedJson["thing"];
this.Thing = new Thingy(Convert.ToString(thingyObjectJson));

In this case, new Thingy(string) is a constructor that will call the Deserialize(string jsonStream) method of the appropriate concrete type. This scheme will continue to go downward and downward until you get to the base points that json.NET can just handle.

this.Name = (string)parsedJson["name"];
this.CreatedTime = DateTime.Parse((string)parsedJson["created_time"]);

So on and so forth. This setup allowed me to give json.NET setups it can handle without having to refactor a large part of the library itself or using unwieldy try/parse models that would have bogged down our entire library due to the number of objects involved. It also means that I can effectively handle any json changes on a specific object, and I do not need to worry about everything that object touches. It's by no means the ideal solution, but it works quite well from our unit and integration testing.

Several years on and I had a similar issue. In my case there were heavily nested interfaces and a preference for generating the concrete classes at runtime so that It would work with a generic class.

I decided to create a proxy class at run time that wraps the object returned by Newtonsoft.

The advantage of this approach is that it does not require a concrete implementation of the class and can handle any depth of nested interfaces automatically. You can see more about it on my blog.

using Castle.DynamicProxy;
using Newtonsoft.Json.Linq;
using System;
using System.Reflection;

namespace LL.Utilities.Std.Json
{
    public static class JObjectExtension
    {
        private static ProxyGenerator _generator = new ProxyGenerator();

        public static dynamic toProxy(this JObject targetObject, Type interfaceType) 
        {
            return _generator.CreateInterfaceProxyWithoutTarget(interfaceType, new JObjectInterceptor(targetObject));
        }

        public static InterfaceType toProxy<InterfaceType>(this JObject targetObject)
        {

            return toProxy(targetObject, typeof(InterfaceType));
        }
    }

    [Serializable]
    public class JObjectInterceptor : IInterceptor
    {
        private JObject _target;

        public JObjectInterceptor(JObject target)
        {
            _target = target;
        }
        public void Intercept(IInvocation invocation)
        {

            var methodName = invocation.Method.Name;
            if(invocation.Method.IsSpecialName && methodName.StartsWith("get_"))
            {
                var returnType = invocation.Method.ReturnType;
                methodName = methodName.Substring(4);

                if (_target == null || _target[methodName] == null)
                {
                    if (returnType.GetTypeInfo().IsPrimitive || returnType.Equals(typeof(string)))
                    {

                        invocation.ReturnValue = null;
                        return;
                    }

                }

                if (returnType.GetTypeInfo().IsPrimitive || returnType.Equals(typeof(string)))
                {
                    invocation.ReturnValue = _target[methodName].ToObject(returnType);
                }
                else
                {
                    invocation.ReturnValue = ((JObject)_target[methodName]).toProxy(returnType);
                }
            }
            else
            {
                throw new NotImplementedException("Only get accessors are implemented in proxy");
            }

        }
    }



}

Usage:

var jObj = JObject.Parse(input);
InterfaceType proxyObject = jObj.toProxy<InterfaceType>();
  • Thanks! This is the only answer the properly supports dynamic typing (duck typing) without forcing restrictions on the incoming json. – Philip Pittle Sep 26 '17 at 0:49
  • No problem. I was a bit surprised to see there was nothing out there. It has moved on a bit since that original example so I decided to share the code. github.com/sudsy/JsonDuckTyper . I also published it on nuget as JsonDuckTyper. If you find you want to enhance it, just send me a PR and I'll be happy to oblige. – Sudsy Sep 26 '17 at 20:39
  • When I was looking for a solution in this area I came across github.com/ekonbenefits/impromptu-interface also. It doesn't work in my case as it does not support dotnet core 1.0 but it might work for you. – Sudsy Sep 27 '17 at 10:15
  • I did try with Impromptu Interface, but Json.Net wasn't happy doing a PopulateObject on the proxy generated by Impromptu Interface. I unfortunately gave up going for Duck Typing - it was just easier to create a custom Json Contract Serializer that used reflection to find an existing implementation of the requested interface and using that. – Philip Pittle Sep 28 '17 at 22:03

Nicholas Westby provided a great solution in a awesome article.

If you want Deserializing JSON to one of many possible classes that implement an interface like that:

public class Person
{
    public IProfession Profession { get; set; }
}

public interface IProfession
{
    string JobTitle { get; }
}

public class Programming : IProfession
{
    public string JobTitle => "Software Developer";
    public string FavoriteLanguage { get; set; }
}

public class Writing : IProfession
{
    public string JobTitle => "Copywriter";
    public string FavoriteWord { get; set; }
}

public class Samples
{
    public static Person GetProgrammer()
    {
        return new Person()
        {
            Profession = new Programming()
            {
                FavoriteLanguage = "C#"
            }
        };
    }
}

You can use a custom JSON converter:

public class ProfessionConverter : JsonConverter
{
    public override bool CanWrite => false;
    public override bool CanRead => true;
    public override bool CanConvert(Type objectType)
    {
        return objectType == typeof(IProfession);
    }
    public override void WriteJson(JsonWriter writer,
        object value, JsonSerializer serializer)
    {
        throw new InvalidOperationException("Use default serialization.");
    }

    public override object ReadJson(JsonReader reader,
        Type objectType, object existingValue,
        JsonSerializer serializer)
    {
        var jsonObject = JObject.Load(reader);
        var profession = default(IProfession);
        switch (jsonObject["JobTitle"].Value())
        {
            case "Software Developer":
                profession = new Programming();
                break;
            case "Copywriter":
                profession = new Writing();
                break;
        }
        serializer.Populate(jsonObject.CreateReader(), profession);
        return profession;
    }
}

And you will need to decorate the "Profession" property with a JsonConverter attribute to let it know to use your custom converter:

    public class Person
    {
        [JsonConverter(typeof(ProfessionConverter))]
        public IProfession Profession { get; set; }
    }

And then, you can cast your class with an Interface:

Person person = JsonConvert.DeserializeObject<Person>(jsonString);

No object will ever be an IThingy as interfaces are all abstract by definition.

The object you have that was first serialized was of some concrete type, implementing the abstract interface. You need to have this same concrete class revive the serialized data.

The resulting object will then be of some type that implements the abstract interface you are looking for.

From the documentation it follows that you can use

(Thingy)JsonConvert.DeserializeObject(jsonString, typeof(Thingy));

when deserializing to inform JSON.NET about the concrete type.

  • That is precisely the post from over a year ago that I was referring to. The only major suggestion (writing custom converters) is not terribly feasible with the scale I am forced to consider. JSON.NET has changed a lot in the intervening year. I perfectly understand the distinction between a class and an interface, but C# also supports implicit conversions from an interface to an object that implements the interface with regard to typing. I am essentially asking if there is a way to tell JSON.NET which object will implement this interface. – tmesser Apr 25 '11 at 17:41
  • It was all there in the answer I pointed you to. Make sure there's a _type property that signals the concrete type to use. – Sean Kinsey Apr 25 '11 at 17:44
  • And I strongly doubt that C# supports any kind of 'implicit' typecasting from a variable declared as an interface to a concrete type without any sort of hints. – Sean Kinsey Apr 25 '11 at 17:46
  • Unless I read it wrong, the _type property was supposed to be in the JSON to be serialized. That works fine if you're only deserializing what you already serialized, but that's not what's going on here. I am pulling JSON from a number of sites that are not going to be following that standard. – tmesser Apr 25 '11 at 17:49
  • @YYY - Do you control both the serialization to and deserialization from the source JSON? Because ultimately you'll need to either embed the concrete type in the serialized JSON as a hint to use when deserializing or you'll need to use some kind of try/parse model that detects/attempts-to-detect the concrete type at runtime and invoke the appropriate deserializer. – mcw0933 Apr 25 '11 at 17:50

My solution to this one, which I like because it is nicely general, is as follows:

/// <summary>
/// Automagically convert known interfaces to (specific) concrete classes on deserialisation
/// </summary>
public class WithMocksJsonConverter : JsonConverter
{
    /// <summary>
    /// The interfaces I know how to instantiate mapped to the classes with which I shall instantiate them, as a Dictionary.
    /// </summary>
    private readonly Dictionary<Type,Type> conversions = new Dictionary<Type,Type>() { 
        { typeof(IOne), typeof(MockOne) },
        { typeof(ITwo), typeof(MockTwo) },
        { typeof(IThree), typeof(MockThree) },
        { typeof(IFour), typeof(MockFour) }
    };

    /// <summary>
    /// Can I convert an object of this type?
    /// </summary>
    /// <param name="objectType">The type under consideration</param>
    /// <returns>True if I can convert the type under consideration, else false.</returns>
    public override bool CanConvert(Type objectType)
    {
        return conversions.Keys.Contains(objectType);
    }

    /// <summary>
    /// Attempt to read an object of the specified type from this reader.
    /// </summary>
    /// <param name="reader">The reader from which I read.</param>
    /// <param name="objectType">The type of object I'm trying to read, anticipated to be one I can convert.</param>
    /// <param name="existingValue">The existing value of the object being read.</param>
    /// <param name="serializer">The serializer invoking this request.</param>
    /// <returns>An object of the type into which I convert the specified objectType.</returns>
    public override object ReadJson(JsonReader reader, Type objectType, object existingValue, JsonSerializer serializer)
    {
        try
        {
            return serializer.Deserialize(reader, this.conversions[objectType]);
        }
        catch (Exception)
        {
            throw new NotSupportedException(string.Format("Type {0} unexpected.", objectType));
        }
    }

    /// <summary>
    /// Not yet implemented.
    /// </summary>
    /// <param name="writer">The writer to which I would write.</param>
    /// <param name="value">The value I am attempting to write.</param>
    /// <param name="serializer">the serializer invoking this request.</param>
    public override void WriteJson(JsonWriter writer, object value, JsonSerializer serializer)
    {
        throw new NotImplementedException();
    }
}

}

You could obviously and trivially convert it into an even more general converter by adding a constructor which took an argument of type Dictionary<Type,Type> with which to instantiate the conversions instance variable.

My solution was added the interface elements in the constructor.

public class Customer: ICustomer{
     public Customer(Details details){
          Details = details;
     }

     [JsonProperty("Details",NullValueHnadling = NullValueHandling.Ignore)]
     public IDetails Details {get; set;}
}

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