In Ember Data, serializers format the data sent to and received from the backend store. By default, Ember Data serializes data using the JSON:API format. If your backend uses a different format, Ember Data allows you to customize the serializer or use a different serializer entirely.
Ember Data ships with 3 serializers. The
JSONAPISerializer
is the default serializer and works with JSON:API backends. The
JSONSerializer
is a simple serializer for working with single JSON object or arrays of records. The
RESTSerializer
is a more complex serializer that supports sideloading and was the default
serializer before 2.0.
JSONAPISerializer Conventions
When requesting a record, the JSONAPISerializer
expects your server
to return a JSON representation of the record that conforms to the
following conventions.
JSON:API Document
The JSONAPISerializer
expects the backend to return a JSON:API
Document that follows the JSON:API specification and the conventions
of the examples found in the JSON:API spec. This means all
type names should be pluralized and attribute and relationship names
should be dash-cased. For example, if you request a record from
/people/123
, the response should look like this:
{
"data": {
"type": "people",
"id": "123",
"attributes": {
"given-name": "Jeff",
"family-name": "Atwood"
}
}
}
A response that contains multiple records may have an array in its
data
property.
{
"data": [{
"type": "people",
"id": "123",
"attributes": {
"given-name": "Jeff",
"family-name": "Atwood"
}
}, {
"type": "people",
"id": "124",
"attributes": {
"given-name": "Yehuda",
"family-name": "Katz
}
}]
}
Sideloaded Data
Data that is not a part of the primary request but includes linked
relationships should be placed in an array under the included
key. For example, if you request /articles/1
and the backend also
returned any comments associated with that person the response
should look like this:
{
"data": {
"type": "articles",
"id": "1",
"attributes": {
"title": "JSON:API paints my bikeshed!"
},
"links": {
"self": "http://example.com/articles/1"
},
"relationships": {
"comments": {
"data": [
{ "type": "comments", "id": "5" },
{ "type": "comments", "id": "12" }
]
}
}
},
"included": [{
"type": "comments",
"id": "5",
"attributes": {
"body": "First!"
},
"links": {
"self": "http://example.com/comments/5"
}
}, {
"type": "comments",
"id": "12",
"attributes": {
"body": "I like XML better"
},
"links": {
"self": "http://example.com/comments/12"
}
}]
}
Customizing Serializers
Ember Data uses the JSONAPISerializer
by default, but you can
override this default by defining a custom serializer. There are two
ways to define a custom serializer. First, you can define a custom
serializer for your entire application by defining an "application"
serializer.
import JSONAPISerializer from '@ember-data/serializer/json-api';
export default class ApplicationSerializer extends JSONAPISerializer {
}
You can also define a serializer for a specific model. For example, if
you had a post
model you could also define a post
serializer:
import JSONAPISerializer from '@ember-data/serializer/json-api';
export default class PostSerializer extends JSONAPISerializer {
}
To change the format of the data that is sent to the backend store, you can use
the serialize()
hook. Let's say that we have this JSON:API response from Ember Data:
{
"data": {
"id": "1",
"type": "product",
"attributes": {
"name": "My Product",
"amount": 100,
"currency": "SEK"
}
}
}
But our server expects data in this format:
{
"data": {
"id": "1",
"type": "product",
"attributes": {
"name": "My Product",
"cost": {
"amount": 100,
"currency": "SEK"
}
}
}
}
Here's how you can change the data:
import JSONAPISerializer from '@ember-data/serializer/json-api';
export default class ApplicationSerializer extends JSONAPISerializer {
serialize(snapshot, options) {
let json = super.serialize(...arguments);
json.data.attributes.cost = {
amount: json.data.attributes.amount,
currency: json.data.attributes.currency
};
delete json.data.attributes.amount;
delete json.data.attributes.currency;
return json;
}
}
Similarly, if your backend store provides data in a format other than JSON:API,
you can use the
normalizeResponse()
hook. Using the same example as above, if the server provides data that looks
like:
{
"data": {
"id": "1",
"type": "product",
"attributes": {
"name": "My Product",
"cost": {
"amount": 100,
"currency": "SEK"
}
}
}
}
And so we need to change it to look like:
{
"data": {
"id": "1",
"type": "product",
"attributes": {
"name": "My Product",
"amount": 100,
"currency": "SEK"
}
}
}
Here's how we could do it:
import JSONAPISerializer from '@ember-data/serializer/json-api';
export default class ApplicationSerializer extends JSONAPISerializer {
normalizeResponse(store, primaryModelClass, payload, id, requestType) {
payload.data.attributes.amount = payload.data.attributes.cost.amount;
payload.data.attributes.currency = payload.data.attributes.cost.currency;
delete payload.data.attributes.cost;
return super.normalizeResponse(...arguments);
}
}
To normalize only a single model, you can use the
normalize()
hook similarly.
For more hooks to customize the serializer with, see the Ember Data serializer API documentation.
IDs
In order to keep track of unique records in the store Ember Data
expects every record to have an id
property in the payload. Ids
should be unique for every unique record of a specific type. If your
backend uses a key other than id
you can use the
serializer's primaryKey
property to correctly transform the id
property to id
when serializing and deserializing data.
import JSONAPISerializer from '@ember-data/serializer/json-api';
export default class ApplicationSerializer extends JSONAPISerializer {
primaryKey = '_id';
}
Attribute Names
In Ember Data the convention is to camelize attribute names on a model. For example:
import Model, { attr } from '@ember-data/model';
export default class PersonModel extends Model {
@attr('string') givenName;
@attr('string') familyName;
@attr('boolean') isPersonOfTheYear;
}
However, the JSONAPISerializer
expects attributes to be dasherized
in the document payload returned by your server:
{
"data": {
"id": "44",
"type": "people",
"attributes": {
"given-name": "Zaphod",
"family-name": "Beeblebrox",
"is-person-of-the-year": true
}
}
}
If the attributes returned by your server use a different convention
you can use the serializer's
keyForAttribute()
method to convert an attribute name in your model to a key in your JSON
payload. For example, if your backend returned attributes that are
under_scored
instead of dash-cased
you could override the keyForAttribute
method like this.
import { underscore } from '@ember/string';
import JSONAPISerializer from '@ember-data/serializer/json-api';
export default class ApplicationSerializer extends JSONAPISerializer {
keyForAttribute(attr) {
return underscore(attr);
}
}
Irregular keys can be mapped with a custom serializer. The attrs
object can be used to declare a simple mapping between property names
on Model
records and payload keys in the serialized JSON object
representing the record. An object with the property key can also be
used to designate the attribute's key on the response payload.
If the JSON for person
has a key of familyNameOfPerson
, and the
desired attribute name is simply familyName
, then create a custom
Serializer for the model and override the attrs
property.
import Model, { attr } from '@ember-data/model';
export default class PersonModel extends Model {
@attr('string') familyName;
}
import JSONAPISerializer from '@ember-data/serializer/json-api';
export default class PersonSerializer extends JSONAPISerializer {
attrs = {
familyName: 'familyNameOfPerson'
};
}
Relationships
References to other records should be done by ID. For example, if you
have a model with a hasMany
relationship:
import Model, { hasMany } from '@ember-data/model';
export default class PostModel extends Model {
@hasMany('comment', { async: true }) comments;
}
The JSON should encode the relationship as an array of IDs and types:
{
"data": {
"type": "posts",
"id": "1",
"relationships": {
"comments": {
"data": [
{ "type": "comments", "id": "1" },
{ "type": "comments", "id": "2" },
{ "type": "comments", "id": "3" }
]
}
}
}
}
Comments
for a post
can be loaded by post.get('comments')
. The
JSON:API adapter will send 3 GET
requests to /comments/1/
,
/comments/2/
and /comments/3/
.
Any belongsTo
relationships in the JSON representation should be the
dasherized version of the property's name. For example, if you have
a model:
import Model, { belongsTo } from '@ember-data/model';
export default class CommentModel extends Model {
@belongsTo('post') originalPost
}
The JSON should encode the relationship as an ID to another record:
{
"data": {
"type": "comment",
"id": "1",
"relationships": {
"original-post": {
"data": { "type": "post", "id": "5" },
}
}
}
}
If needed these naming conventions can be overwritten by implementing
the
keyForRelationship()
method.
import JSONAPISerializer from '@ember-data/serializer/json-api';
export default class ApplicationSerializer extends JSONAPISerializer {
keyForRelationship(key, relationship) {
return key + 'Ids';
}
}
Creating Custom Transformations
In some circumstances, the built-in attribute types of string
,
number
, boolean
, and date
may be inadequate. For example, a
server may return a non-standard date format.
Ember Data can have new JSON transforms registered for use as attributes:
import Transform from '@ember-data/serializer/transform';
import EmberObject from '@ember/object';
export default class CoordinatePointTransform extends Transform {
serialize(value) {
return [value.get('x'), value.get('y')];
}
deserialize(value) {
return EmberObject.create({ x: value[0], y: value[1] });
}
}
import Model, { attr } from '@ember-data/model';
export default class Cursor extends Model {
@attr('coordinate-point') position;
}
When coordinatePoint
is received from the API, it is
expected to be an array:
{
cursor: {
position: [4,9]
}
}
But once loaded on a model instance, it will behave as an object:
let cursor = store.findRecord('cursor', 1);
cursor.get('position.x'); //=> 4
cursor.get('position.y'); //=> 9
If position
is modified and saved, it will pass through the
serialize
function in the transform and again be presented as
an array in JSON.
JSONSerializer
Not all APIs follow the conventions that the JSONAPISerializer
uses
with a data namespace and sideloaded relationship records. Some
legacy APIs may return a simple JSON payload that is just the requested
resource or an array of serialized records. The JSONSerializer
is a
serializer that ships with Ember Data that can be used alongside the
RESTAdapter
to serialize these simpler APIs.
To use it in your application you will need to define a
serializer:application
that extends the JSONSerializer
.
import JSONSerializer from '@ember-data/serializer/json';
export default class ApplicationSerializer extends JSONSerializer {
// ...
}
For requests that are only expected to return 1 record
(e.g. store.findRecord('post', 1)
) the JSONSerializer
expects the response
to be a JSON object that looks similar to this:
{
"id": "1",
"title": "Rails is omakase",
"tag": "rails",
"comments": ["1", "2"]
}
For requests that are only expected to return 0 or more records
(e.g. store.findAll('post')
or store.query('post', { filter: { status: 'draft' } })
)
the JSONSerializer
expects the response to be a JSON array that
looks similar to this:
[{
"id": "1",
"title": "Rails is omakase",
"tag": "rails",
"comments": ["1", "2"]
}, {
"id": "2",
"title": "I'm Running to Reform the W3C's Tag",
"tag": "w3c",
"comments": ["3"]
}]
The JSONAPISerializer
is built on top of the JSONSerializer
so they share
many of the same hooks for customizing the behavior of the
serialization process. Be sure to check out the
API docs
for a full list of methods and properties.
EmbeddedRecordMixin
Although Ember Data encourages you to sideload your relationships,
sometimes when working with legacy APIs you may discover you need to
deal with JSON that contains relationships embedded inside other
records. The EmbeddedRecordsMixin
is meant to help with this problem.
To set up embedded records, include the mixin when extending a serializer then define and configure embedded relationships.
For example, if your post
model contained an embedded author
record
that looks similar to this:
{
"id": "1",
"title": "Rails is omakase",
"tag": "rails",
"authors": [
{
"id": "2",
"name": "Steve"
}
]
}
You would define your relationship like this:
import JSONSerializer from '@ember-data/serializer/json';
import { EmbeddedRecordsMixin } from '@ember-data/serializer/rest';
export default class PostSerializer extends JSONSerializer.extend(EmbeddedRecordsMixin) {
attrs = {
authors: {
serialize: 'records',
deserialize: 'records'
}
};
}
If you find yourself needing to both serialize and deserialize the
embedded relationship you can use the shorthand option of { embedded:
'always' }
. The example above could therefore be expressed as such:
import JSONSerializer from '@ember-data/serializer/json';
import { EmbeddedRecordsMixin } from '@ember-data/serializer/rest';
export default class PostSerializer extends JSONSerializer.extend(EmbeddedRecordsMixin) {
attrs = {
authors: { embedded: 'always' }
};
}
The serialize
and deserialize
keys support 3 values:
records
is used to signal that the entire record is expectedids
is used to signal that only the id of the record is expectedfalse
is used to signal that the record is not expected
For example you may find that you want to read an embedded record when
extracting a JSON payload but only include the relationship's id when
serializing the record. This is possible by using the serialize:
'ids'
option. You can also opt out of serializing a relationship by
setting serialize: false
.
import JSONSerializer from '@ember-data/serializer/json';
import { EmbeddedRecordsMixin } from '@ember-data/serializer/rest';
export default class PostSerializer extends JSONSerializer.extend(EmbeddedRecordsMixin) {
attrs = {
author: {
serialize: false,
deserialize: 'records'
},
comments: {
deserialize: 'records',
serialize: 'ids'
}
};
}
EmbeddedRecordsMixin Defaults
If you do not overwrite attrs
for a specific relationship, the
EmbeddedRecordsMixin
will behave in the following way:
belongsTo: { serialize: 'id', deserialize: 'id' }
hasMany { serialize: false, deserialize: 'ids' }
There is an option of not embedding JSON in the serialized payload by
using serialize: 'ids'. If you do not want the relationship sent at
all, you can use serialize: false
.
Authoring Serializers
If you would like to create a custom serializer, it is recommended that you
start with the JSONAPISerializer
or JSONSerializer
and extend one of
those to match your needs.
However, if your payload is extremely different from one of these
serializers you can create your own by extending the Serializer
base class.
A serializer has two main roles in Ember Data. First, it is responsible for taking a response from an adapter and serializing it into the normalized JSON format that Ember Data understands. Secondly, it transforms snapshots of records into a payload the adapter will send to the server when creating, updating, or deleting a record.
Ember Data's Normalized JSON Format
The normalized JSON format that Ember Data expects is a JSON:API document with a couple of additional restrictions.
First, it is important to make sure that the type
name of a record
in the normalized JSON object exactly matches the filename of the
model defined for this record type.
By convention Model names are singular in Ember Data, however, the
example type names shown in the
JSON:API spec are pluralized.
The JSON:API spec itself is agnostic about inflection rules, however,
Ember Data's own JSONAPISerializer
assumes types are plural and it
will automatically singularize the types.
Second, attribute and relationship names in the JSON:API document
should exactly match the name and casing of the @attr
,
@belongsTo
and @hasMany
, properties defined on the
Model.
By convention these property names are camelCase in Ember Data models.
As with the type
names, this is different from the example attribute
and relationship names shown in the
JSON:API spec.
The examples in the spec use dash-case for attribute and relationship
names. However, the spec does not require attribute or relationship
names to follow any specific casing convention.
If you are using Ember Data's own JSONAPISerializer
it will assume
the attribute and relationship names from your API are dash-case and
automatically transform them to camelCase when it creates the
normalized JSON object.
Other than these two restrictions, Ember Data's normalized JSON object follows the JSON:API specification.
Example: given this post
model.
import Model, { attr, hasMany } from '@ember-data/model';
export default class Post extends Model {
@attr('string') title;
@attr('string') tag;
@hasMany('comment', { async: false }) comments;
@hasMany('post') relatedPosts;
}
The normalized JSON object that Ember Data expects a serializer to return looks like this:
{
data: {
id: "1",
type: "post",
attributes: {
title: "Rails is omakase",
tag: "rails",
},
relationships: {
comments: {
data: [{ id: "1", type: "comment" },
{ id: "2", type: "comment" }],
},
relatedPosts: {
links: {
related: "/api/v1/posts/1/related-posts/"
}
}
}
}
Note that the type is "post"
to match the post model and the
relatedPosts
relationship in the document matches the
relatedPosts: hasMany('post')
on the model.
Normalizing adapter responses
When creating a custom serializer you will need to define a normalizeResponse method to transform the response from the adapter into the normalized JSON object described above.
This method receives the store
, the Model class for the request, the
payload, the id of the record request (or null
if there is
no id associated with the request), and the request type (a string with
the possible values of: 'findRecord'
, 'queryRecord'
, 'findAll'
,
'findBelongsTo'
, 'findHasMany'
, 'findMany'
, 'query'
,
'createRecord'
, 'deleteRecord'
, and 'updateRecord'
) as arguments.
A custom serializer will also need to define a
normalize
method.
This method is called by store.normalize(type, payload)
and is often
used for normalizing requests made outside of Ember Data because they
do not fall into the normal CRUD flow that the adapter provides.
Serializing records
Finally a serializer will need to implement a serialize method. Ember Data will provide a record snapshot and an options hash and this method should return an object that the adapter will send to the server when creating, updating or deleting a record.
Community Serializers
If none of the built-in Ember Data Serializers work for your backend, be sure to check out some of the community maintained Ember Data Adapters and Serializers. A good place to search for them is Ember Observer.