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Morph is a mirror based serializer and deserializer of Dart objects.

Morph is format agnostic, as it uses Maps of simple objects as a serialization format. That means that you can take objects, transform them into Maps and then use an encoder, like the JsonEncoder on dart:convert, to produce your output. Likewise, you can take an input, decode it and extract objects out of it. This is interesting because it lets you choose the serialization format on runtime, having only to switch between codecs.

Morph is a heavily modified fork of Dan Parnham's ModelMap. It has a different focus but was a great starting point. Thanks Dan!

Getting Started

Using Morph is really straightforward:

void main() {
  var morph = new Morph();
  var someObject = new SomeClass();
  var serializedMap = morph.serialize(someObject);
  var deserializedObject = morph.deserialize(SomeClass, serializedMap);

Wow, that's all? What just happend?

Well, first we created a Morph instance. We have to do that because Morph is configurable and we want you to be able to have as many configurations as you need. After that, we took an arbitrary object and serialized it using morph.serialize(someObject). That method call returns a serialized map with the state stored by someObject. Last, just to cover all the basic API, we took that serialized map and deserialized it back to a new instance of SomeClass by calling morph.deserialize(SomeClass, serializedMap). Notice that the first argument is the Type of the instance that we want deserialized. We have to pass it because it is impossible for Morph to guess what type of object it needs to create just by looking at the map.

Nice! What else can I do?

To help you with your serialization/deserialization work, Morph provides a set of features that might come in handy.

Codec support

As we have said earlier, Morph uses a Map of simple objects as a serialization format, but that won't be much helpful unless you encode into a format that you can pass around and everybody (not only Dart) understands. For that purpose Morph allows you to pass an encoder/decoder as an optional argument to its serialize and deserialize methods. Here is an example using the JSON codec from dart:convert :

var jsonString = morph.serialize(someObject, JSON.encoder);

var deserializedObject = morph.deserialize(SomeClass, jsonString, JSON.decoder);

Custom serializer/deserializer

Sometimes you may need to apply a custom behavior to the serialization of objects of an specific class. In such cases you can register type adapters. A type adapter can be a Serializer, defining only the serialization behavior, a Deserializer, defining only the deserialization behavior, or a TypeAdapter, defining both.

void main() {
  var morph = new Morph();
  morph.registerTypeAdapter(CustomModel, new CustomModelSerializer());
  morph.registerTypeAdapter(CustomModel, new CustomModelDeserializer());

class CustomModel {
  final String partA, partB;
  CustomModel(this.partA, this.partB);


class CustomModelSerializer extends Serializer<CustomModel> {
  Map serialize(CustomModel obj) {
    var map = {};
    map["string"] = "${obj.partA}-${obj.partB}";
    return map;

class CustomModelDeserializer extends Deserializer<CustomModel> {
  CustomModel deserialize(value, Type targetType) {
    if (value is Map) {
      var string = value["string"];
      if (string is String) {
        var parts = string.split("-");
        if (parts.length == 2) {
          return new CustomModel(parts[0], parts[1]);
    throw new ArgumentError("$value cannot be deserialized into CustomModel");

This feature is useful when your communication protocol differs from your internal interface.

Instance provider

Morph cannot deserialize instances of a classe that do not have a no-args constructor all by itself, you need to give it a hand. To do so, you need to register an instance provider. All an instance provider has to do is build a fresh and clean instance of such class.

void main() {
  var morph = new Morph();
                                 new CustomInstanceProvider());

class ProvidedModel {
  final String finalString;



class CustomInstanceProvider implements InstanceProvider<ProvidedModel> {
  Provided createInstance(Type instanceType) {
    if (instanceType == ProvidedModel) {
      return new Provided("someString");
    } else {
      throw new ArgumentError("CustomInstanceProvider can't provide "
                               "instances of type $instanceType");


Ignore annotation

If you want to hide a field from serialization or preserve the default value of field on deserialization, the @Ignore annotation should be used. It also works with getters and setters!

class IgnoreModel {
  String someString;
  String ignoredString;
  String _hiddenString;
  @Ignore String get hiddenString => _hiddenString;
                 set hiddenString (String value) => _hiddenString = value;
  String _preservedString = "Initial value";
  String get preservedString => _preservedString;
         set preservedString (String value) => _preservedString = value;


Property annotation

The name of a property may differ from the name of your field. To solve this problem we have the @Property annotation, that takes the property name as argument.

class PropertyModel {
  String someString;
  String named;