This npm provides a Serializable
mixin to streamline the process of writing
serializable classes. Include the mixin and implement two instance methods
(::serializeParams
and ::deserializeParams
) to add serialization to your
class.
Before digging into how to implement serializable classes, let's touch on how
to use them. To serialize an object, call ::serialize
. To deserialize an
object, call .deserialize
on its class with the results of a previous call to
::serialize
.
train1 = new Train(cars: 20, hasCaboose: true)
train1State = train1.serialize()
train2 = Train.deserialize(train1State)
expect(train2.cars).toBe 20
expect(train2.hasCaboose).toBe true
You can pass .deserialize
an optional second argument containing additional
non-serializable parameters which will be merged with the deserialized
parameters when constructing the object. For example, say that trains need a
reference to a RailNetwork
instance, but that the RailNetwork
isn't
serialized as part of Train
:
train1 = new Train(cars: 20, hasCaboose: true, railNetwork: network)
train1State = train1.serialize() # does not contain a serialized RailNetwork
train2 = Train.deserialize(train1State, railNetwork: network)
The Serializable
mixin is implemented with the mixto
npm. To include it, use the .includeInto
class method or simply subclass
Serializable
.
Serializable = require 'serializable'
class Automobile extends Vehicle
Serializable.includeInto(this)
This method should return a plain JavaScript object containing the serialized version of all parameters required to reconstruct the object.
class Automobile extends Vehicle
Serializable.includeInto(this)
constructor: (@doors=4, @engine='v8') ->
serializeParams: -> {@doors, @engine}
If all your parameters are scalars, this is all that's required. When deserializing, Serializable will match up the names of the keys in the params hash with the names of your constructor parameters to reconstruct your object.
auto1 = new Automobile(2, 'v6')
auto2 = Automobile.deserialize(auto1.serialize())
expect(auto2.doors).toBe 2
expect(auto2.engine).toBe 'v6'
You can also take a params hash as your constructor argument, in which case Serializable won't attempt to match up constructor parameter names.
class Train extends Vehicle
Serializable.includeInto(this)
constructor: ({@cars, @hasCaboose}={}) ->
serializeParams: -> {@cars, @hasCaboose}
If your params hash contains nested serialized objects, you'll need to
deserialize the nested objects before they are passed to the constructor of the
parent object. You perform this deserialization in the optional
::deserializeParams
instance method.
class Plane extends Vehicle
constructor: (@engines, @pilot) ->
@pilot ?= new Pilot(name: "Bob", plane: this)
serializeParams: -> {@engines, pilot: @pilot.serialize()}
deserializeParams: (params) ->
params.pilot = Pilot.deserialize(params.pilot, plane: this)
params
Using some JS trickery, this method is called before your object's constructor, allowing you to reference the instance being deserialized when deserializing its children. You can also perform pre-initialization in this method. Note that it is safe to modify the params object that is passed into your method. This is convenient when only a subset of your params need to be deserialized.
If you can't know the specific class of the object you are deserializing ahead
of time, you can call ::registerDeserializers
on a superclass (or any
serializable class) to enable polymorphic deserialization.
Vehicle.registerDeserializers(Plane, Train)
Vehicle.registerDeserializer(Automobile)
vehicleStates = [plane, train, auto].map (vehicle) -> vehicle.serialize()
vehicles = vehicleStates.map (vehicleState) -> Vehicle.deserialize(vehicleState)