Beyond Primitives, Lists, and Maps

jsonx is an extended JSON library that supports the encoding and decoding of arbitrary objects. jsonx can decode a JSON string into a strongly typed object which gets type checking and code autocompletion support, or encode an arbitrary object into a JSON string.

Decode a JSON String

decode(String text, {reviver(key, value), Type type});

Decodes the JSON string text given the optional type type.

The optional reviver function is called once for each object or list property that has been parsed during decoding. The key argument is either the integer list index for a list property, the map string for object properties, or null for the final result.

The default reviver (when not provided) is the identity function.

The optional type parameter specifies the type to which text should be decoded. Since Dart doesn't allow passing a generic type as an argument, one must create an instance of that generic type and pass the instance's runtimeType as the value of type.

If type is omitted, this method is equivalent to JSON.decode in dart:convert library.

Example:

// Members from superclasses are decoded also.
class KeyedItem {
  String key;
}

class Person extends KeyedItem {
  String name;
  int age;
}

Person p = decode('{ "key": "1", "name": "Tom", "age": 5 }', type: Person);
print(p.key);   // 1
print(p.name);  // Tom

List<int> list = decode('[1,2,3]', type: <int>[].runtimeType);
print(list[1]); // 2

Encode an Object

String encode(object)

Encodes object as a JSON string.

The encoding happens as below:

  1. Tries to encode object directly
  2. If (1) fails, tries to call object.toJson() to convert object into an encodable value

  3. If (2) fails, tries to use mirrors to convert object into en encodable value

Example:

// Members from superclasses are encoded also.
class KeyedItem {
  String key;
}

class Person extends KeyedItem {
  String name;
  int age;
}

var p = new Person()
    ..key = '2'
    ..name = 'Jerry'
    ..age = 5;
print(encode(p)); // {"key":"2","name":"Jerry","age":5}

Using the Codec API

The top level methods decode and encode provide a quick and handy way to do decoding and encoding. However, when there is a lot of encoding/decoding for a specific type, the following Codec API may be a better choice.

/**
 * This class converts JSON strings into objects of type [T].
 */
class JsonxDecoder<T> extends Converter<String, T> {

  T convert(String input);
}

/**
 * This class converts objects of type [T] into JSON strings.
 */
class JsonxEncoder<T> extends Converter<T, String> {

  String convert(T input);
}

/**
 * [JsonxCodec] encodes objects of type [T] to JSON strings and decodes JSON
 * strings to objects of type [T].
 */
class JsonxCodec<T> extends Codec<T, String> {

  String encode(T input);
    T decode(String encoded);

    JsonxDecoder<T> get decoder;
    JsonxEncoder<T> get encoder;
}

Example:

var codec = new JsonxCodec<Person>();
var p = codec.decode('{ "key": "1", "name": "Tom", "age": 5 }');
var s = codec.encode(p);

Libraries

jsonx

An extended JSON library that supports the encoding and decoding of arbitrary objects.