This package provides support for sub-models that can be treated much like belongsTo
and hasMany
relationships are, but whose persistence is managed completely through the parent object.
This project makes extensive use of private Ember Data APIs and is therefore sensitive to minor changes in new Ember Data releases, regardless of semver guarantees. Every effort is made to maintain compatibility with the latest version, but updates always take time. See the contributing section if you'd like to help out
Use the following table to decide which version of this project to use with your app:
Ember Data | Model Fragments |
---|---|
> v1.0.0-beta.7 <= v1.0.0-beta.11 | v0.2.3 |
v1.0.0-beta.14 | v0.2.8 |
>= v1.0.0-beta.15 <= v1.0.0-beta.18 | v0.3.3 |
>= v1.13.x < v2.0.0 | v1.13.x |
>= v2.0.x < v2.1.0 | v2.0.x |
>= v2.1.x < v2.3.x | v2.1.x |
>= v2.3.x < v2.11.x | v2.3.x |
>= v2.11.x < v2.13.x | v2.11.x |
>= v2.14.x < v3.0.x | v2.14.x |
>= v3.0.x < v3.2.x | v3.0.x-beta.1 |
>= v3.2.x < v3.4.x | v3.3.x |
>= v3.5.x | v4.0.x |
- Ember Data v1.0.0-beta.12 introduced a bug that makes it incompatible with any version of this project.
- Ember Data v1.0.0-beta.15 introduced a breaking change to the serializer API with Snapshots. Since this affected fragment serialization as well, support for it was added in v0.3.0. See the serializing section below for more information.
- Ember Data v1.0.0-beta.19 refactored a large number of internal APIs this project relied on and is not officially supported. Compatibility was added in v0.4.0 and targeted at Ember Data v1.13.x.
- Ember Data 2.3 converted to a full Ember CLI addon. Removing the global
DS
namespace and switching to an import module strategy. More: Ember Data 2.3 Released. Following ember-data's lead, theMF
namespace was also removed. Import modules directly. - Ember Data 2.11 changed the implementation of their
ContainerInstanceCache
. We had to follow suite with our patches so that we could continue offering fragments their own default serializer. See #224. - Ember Data 2.14 changed
-private
import paths. See #266. - Ember Data 3.0 changed
ContainerInstanceCache
import paths. See e4749c10. - Ember Data 3.2 changed
InternalModel#fields
. See: #310. - Ember Data 3.5 added
RecordData
interfaces. See: #324, emberjs/rfcs#293, and emberjs/data#5616.
To install as an Ember CLI addon:
$ ember install ember-data-model-fragments
You may then start creating fragments with:
$ ember generate fragment foo someAttr:string anotherAttr:boolean
Which will create the module app/models/foo.js
which exports a Fragment
class with the given attributes.
You might also want to take a look at FEDITOR's Ember Data model generator, which can generate Model
and Fragment
classes based on your API's JSON response.
// app/models/person.js
import Model from 'ember-data/model';
import {
fragment,
fragmentArray,
array
} from 'ember-data-model-fragments/attributes';
export default Model.extend({
name : fragment('name'),
addresses : fragmentArray('address'),
titles : array()
});
// app/models/name.js
import attr from 'ember-data/attr';
import Fragment from 'ember-data-model-fragments/fragment';
export default Fragment.extend({
first : attr('string'),
last : attr('string')
});
// app/models/address.js
import attr from 'ember-data/attr';
import Fragment from 'ember-data-model-fragments/fragment';
export default Fragment.extend({
street : attr('string'),
city : attr('string'),
region : attr('string'),
country : attr('string')
});
With a JSON payload of:
{
"person": {
"id": "1",
"name": {
"first": "Tyrion",
"last": "Lannister"
},
"addresses": [
{
"street": "1 Sky Cell",
"city": "Eyre",
"region": "Vale of Arryn",
"country": "Westeros"
},
{
"street": "1 Tower of the Hand",
"city": "King's Landing",
"region": "Crownlands",
"country": "Westeros"
}
],
"titles": [ "Imp", "Hand of the King" ]
}
}
The name
attribute can be treated similar to a belongsTo
relationship:
let person = store.getById('person', '1');
let name = person.get('name');
person.get('isDirty'); // false
name.get('first'); // 'Tyrion'
name.set('first', 'Jamie');
person.get('isDirty'); // true
person.rollback();
name.get('first'); // 'Tyrion'
// New fragments are created through the store and assigned directly
person.set('name', store.createFragment('name', {
first : 'Hugor',
last : 'Hill'
}));
person.get('isDirty'); // true
// Fragments can also be set with hashes
person.set('name', {
'first' : 'Tyrion',
'last' : 'Lannister'
});
person.get('isDirty'); // false
The addresses
attribute can be treated similar to a hasMany
relationship:
let person = store.getById('person', '1');
let addresses = person.get('addresses');
let address = addresses.get('lastObject');
person.get('isDirty'); // false
address.get('country'); // 'Westeros'
address.set('country', 'Essos');
person.get('isDirty'); // true
person.rollback();
address.get('country'); // 'Westeros'
// Fragments can be created and added directly through the fragment array
addresses.get('length'); // 2
addresses.createFragment({
street : '1 Shy Maid',
city : 'Rhoyne River',
region : 'Free Cities',
country : 'Essos'
});
addresses.get('length'); // 3
person.get('isDirty'); // true
// Or with arrays of objects
person.set('addresses', [
{
street : '1 Great Pyramid',
city : 'Meereen',
region : 'Slaver\'s Bay',
country : 'Essos'
}
]);
The titles
attribute can be treated as an Ember.Array
:
let person = store.getById('person', '1');
let titles = person.get('titles');
person.get('isDirty'); // false
titles.get('length'); // 2
titles.pushObject('Halfman');
titles.get('length'); // 3
person.get('isDirty'); // true
person.rollback();
titles.get('length'); // 2
Ember Data attributes support a defaultValue
config option that provides a default value when a model is created through store#createRecord()
. Similarly, fragment
and fragmentArray
properties support a defaultValue
option:
// app/models/person.js
import Model from 'ember-data/model';
import {
fragment,
fragmentArray,
array
} from 'ember-data-model-fragments/attributes';
export default Model.extend({
name : fragment('name', { defaultValue: { first: 'Faceless', last: 'Man' } }),
addresses : fragmentArray('address'),
titles : array('string')
});
Since JavaScript objects and arrays are passed by reference, the value of defaultValue
is copied using Ember.copy
in order to prevent all instances sharing the same value. If a defaultValue
option is not specified, fragment
properties default to null
and fragmentArray
properties default to an empty array. Note that this may cause confusion when creating a record with a fragmentArray
property:
let person = store.createRecord('person');
let addresses = person.get('addresses'); // null
// Fails with "Cannot read property 'createFragment' of null"
addresses.createFragment({
...
});
Like attr
, the defaultValue
option can be a function that is invoked to generate the default value:
// app/models/person.js
import Model from 'ember-data/model';
import { fragment } from 'ember-data-model-fragments/attributes';
export default Model.extend({
name: fragment('name', {
defaultValue() {
return {
first: 'Unsullied',
last: Ember.uuid()
}
}
})
});
Serializing records with fragment attributes works using a special Transform
that serializes each fragment or fragment array. This results in fragments being nested in JSON as expected, and avoids the need for any custom serialization logic for most cases. This also means that model fragments can have their own custom serializers, just as normal models can:
// app/models/name.js
import attr from 'ember-data/attr';
import Fragment from 'ember-data-model-fragments/fragment';
export default Fragment.extend({
given : attr('string'),
family : attr('string')
});
// apps/serializers/name.js
// Serializers for fragments work just as with models
import JSONSerializer from 'ember-data/serializers/json';
export default JSONSerializer.extend({
attrs: {
given : 'first',
family : 'last'
}
});
Since fragment deserialization uses the value of a single attribute in the parent model, the normalizeResponse
method of the serializer is never used. And since the attribute value is not a full-fledged JSON API response, JSONAPISerializer
cannot be used with fragments. Because of this, auto-generated fragment serializers do not use the application serializer and instead use JSONSerializer
.
If common logic must be added to auto-generated fragment serializers, apps can register a custom serializer:-fragment
with the application in an initializer.
// app/serializers/fragment.js
import JSONSerializer from 'ember-data/serializers/json';
export default JSONSerializer.extend({
});
// app/initializers/fragment-serializer.js
import FragmentSerializer from '../serializers/fragment';
export function initialize(application) {
application.register('serializer:-fragment', FragmentSerializer);
}
export default {
name: 'fragment-serializer',
initialize: initialize
};
If custom serialization of the owner record is needed, fragment snapshots can be accessed using the Snapshot#attr
method. Note that this differs from how relationships are accessed on snapshots (using belongsTo
/hasMany
methods):
// apps/serializers/person.js
// Fragment snapshots are accessed using `snapshot.attr()`
import JSONSerializer from 'ember-data/serializers/json';
export default JSONSerializer.extend({
serialize(snapshot, options) {
let json = this._super(...arguments);
// Returns a `Snapshot` instance of the fragment
let nameSnapshot = snapshot.attr('name');
json.full_name = nameSnapshot.attr('given') + ' ' + nameSnapshot.attr('family');
// Returns a plain array of `Snapshot` instances
let addressSnapshots = snapshot.attr('addresses');
json.countries = addressSnapshots.map(function(addressSnapshot) {
return addressSnapshot.attr('country');
});
// Returns a plain array of primitives
let titlesSnapshot = snapshot.attr('titles');
json.title_count = titlesSnapshot.length;
return json;
}
});
Nesting of fragments is fully supported:
// app/models/user.js
import Model from 'ember-data/model';
import attr from 'ember-data/attr';
import { fragmentArray } from 'ember-data-model-fragments/attributes';
export default Model.extend({
name : attr('string'),
orders : fragmentArray('order')
});
// app/models/order.js
import attr from 'ember-data/attr';
import Fragment from 'ember-data-model-fragments/fragment';
import { fragmentArray } from 'ember-data-model-fragments/attributes';
export default Fragment.extend({
amount : attr('string'),
products : fragmentArray('product')
});
// app/models/product.js
import attr from 'ember-data/attr';
import Fragment from 'ember-data-model-fragments/fragment';
export default Fragment.extend({
name : attr('string'),
sku : attr('string'),
price : attr('string')
});
With a JSON payload of:
{
"id": "1",
"name": "Tyrion Lannister",
"orders": [
{
"amount": "799.98",
"products" : [
{
"name": "Tears of Lys",
"sku": "poison-bd-32",
"price": "499.99"
},
{
"name": "The Strangler",
"sku": "poison-md-24",
"price": "299.99"
}
]
},
{
"amount": "10999.99",
"products": [
{
"name": "Lives of Four Kings",
"sku": "old-book-32",
"price": "10999.99"
}
]
}
]
}
Dirty state propagates up to the parent record, rollback cascades down:
let user = store.getById('user', '1');
let product = user.get('orders.firstObject.products.lastObject');
user.get('isDirty'); // false
product.get('price'); // '299.99'
product.set('price', '1.99');
user.get('isDirty'); // true
user.rollback();
user.get('isDirty'); // false
product.get('price'); // '299.99'
However, note that fragments do not currently support belongsTo
or hasMany
properties. See the Limitations section below.
Ember Data: Model Fragments has support for reading polymorphic fragments. To use this feature, pass an options object to fragment
or fragmentArray
with polymorphic
set to true. In addition the typeKey
can be set, which defaults to 'type'
.
The typeKey
's value must be the lowercase name of a class that is assignment-compatible to the declared type of the fragment attribute. That is, it must be the declared type itself or a subclass. Additionally, the typeKey
's value must be a field on the parent class.
In the following example the declared type of animals
is animal
, which corresponds to the class App.Animal
. App.Animal
has two subclasses: App.Elephant
and App.Lion
,
so to typeKey
's value can be 'animal'
, 'elephant'
or 'lion'
.
// app/models/zoo.js
import Model from 'ember-data/model';
import attr from 'ember-data/attr';
import { fragmentArray } from 'ember-data-model-fragments/attributes';
export default Model.extend({
name: attr('string'),
city: attr('string'),
animals: fragmentArray('animal', { polymorphic: true, typeKey: '$type' }),
});
// app/models/animal.js
import Fragment from 'ember-data-model-fragments/fragment';
import attr from 'ember-data/attr';
App.Animal = Fragment.extend({
$type: attr('string'),
name: attr('string'),
});
// app/models/elephant.js
import Animal from './Animal';
import attr from 'ember-data/attr';
export default Animal.extend({
trunkLength: attr('number'),
});
// app/models/lion.js
import Animal from './Animal';
import attr from 'ember-data/attr';
export default Animal.extend({
hasManes: attr('boolean'),
});
The expected JSON payload is as follows:
{
"Zoo" : {
"id" : "1",
"name" : "Winterfell Zoo",
"city" : "Winterfell",
"animals" : [
{
"$type" : "lion",
"name" : "Simba",
"hasManes" : false
},
{
"$type" : "lion",
"name" : "Leonard",
"hasManes" : true
},
{
"$type" : "elephant",
"name" : "Trunky",
"trunkLength" : 10
},
{
"$type" : "elephant",
"name" : "Snuffles",
"trunkLength" : 9
}
]
}
}
Serializing the fragment type back to JSON is not currently supported out of the box. To serialize the polymorphic type, create a custom serializer to perform manual introspection:
// app/serializers/animal.js
import JSONSerializer from 'ember-data/serializers/json';
export default JSONSerializer.extend({
serialize(record, options) {
let json = this._super(...arguments);
if (record instanceof App.Elephant) {
json.$type = 'elephant';
} else if (record instanceof App.Lion) {
json.$type = 'lion';
} else {
json.$type = 'animal';
}
return json;
}
});
// app/serializers/elephant.js
import AnimalSerializer from './animal';
export default AnimalSerializer;
// app/serializers/lion.js
import AnimalSerializer from './animal';
export default AnimalSerializer;
There is a very good reason that support for id-less embedded records has not been added to Ember Data: merging conflicts is very difficult. Imagine a scenario where your app requests a record with an array of simple embedded objects, and then a minute later makes the same request again. If the array of objects has changed – for instance an object is added to the beginning – without unique identifiers there is no reliable way to map those objects onto the array of records in memory.
This plugin handles merging fragment arrays by swapping out the data of existing fragments. For example, when a record is fetched with a fragment array property, a fragment model is created for each object in the array. Then, after the record is reloaded via reload
or save
, the data received is mapped directly onto those existing fragment instances, adding or removing from the end when necessary. This means that reordering the array will cause fragment objects' data to swap, rather than simply reordering the array of fragments in memory. The biggest implication of this behavior is when a fragment in a fragment array is dirty and the parent model gets reloaded. If the record is then saved, the change will likely affect the wrong object, causing data loss. Additionally, any time a reference to a model fragment is held onto, reloading can give it a completely different semantic meaning. If your app does not persist models with fragment arrays, this is of no concern (and indeed you may wish to use the EmbeddedRecordMixin
instead).
Another consequence of id-less records is that an ID map of all fragment instances of a given type is not possible. This means no store.all('<fragment_type>')
, and no ability to display all known fragments (e.g. names or addresses) without iterating over all owner records and manually building a list.
Currently, fragments cannot have normal belongsTo
or hasMany
relationships. This is not a technical limitation, but rather due to the fact that relationship management in Ember Data is in a state of flux and would require accessing private (and changing) APIs.
Building requires Ember CLI and running tests requires Test 'Em, which can all be installed globally with:
$ yarn global add ember-cli
Then install NPM packages and start the development test server:
$ yarn
$ ember test --server
It is also possible to run the tests in a headless fashion. This requires PhantomJS 2 to be installed.
$ ember test
# Using `yarn test` will invoke `ember try:testall`.
# This will test each version of ember supported by this addon.
$ yarn test
When reporting an issue, follow the Ember guidelines. When contributing features, follow Github guidelines for forking and creating a new pull request. All existing tests must pass (or be suitably modified), and all new features must be accompanied by tests to be considered.