import { PromiseObject } from "../promise-proxies"; import Errors from "../model/errors"; import isEnabled from '../../features'; import RootState from '../model/states'; import { relationshipsByNameDescriptor, relatedTypesDescriptor, relationshipsDescriptor } from '../relationships/ext'; /** @module ember-data */ function findPossibleInverses(type, inverseType, name, relationshipsSoFar) { var possibleRelationships = relationshipsSoFar || []; var relationshipMap = Ember.get(inverseType, 'relationships'); if (!relationshipMap) { return possibleRelationships; } var relationships = relationshipMap.get(type.modelName).filter(function (relationship) { var optionsForRelationship = inverseType.metaForProperty(relationship.name).options; if (!optionsForRelationship.inverse) { return true; } return name === optionsForRelationship.inverse; }); if (relationships) { possibleRelationships.push.apply(possibleRelationships, relationships); } //Recurse to support polymorphism if (type.superclass) { findPossibleInverses(type.superclass, inverseType, name, possibleRelationships); } return possibleRelationships; } function intersection(array1, array2) { var result = []; array1.forEach(function (element) { if (array2.indexOf(element) >= 0) { result.push(element); } }); return result; } var RESERVED_MODEL_PROPS = ['currentState', 'data', 'store']; var retrieveFromCurrentState = Ember.computed('currentState', function (key) { return Ember.get(this._internalModel.currentState, key); }).readOnly(); /** The model class that all Ember Data records descend from. This is the public API of Ember Data models. If you are using Ember Data in your application, this is the class you should use. If you are working on Ember Data internals, you most likely want to be dealing with `InternalModel` @class Model @namespace DS @extends Ember.Object @uses Ember.Evented */ var Model = Ember.Object.extend(Ember.Evented, { _internalModel: null, store: null, __defineNonEnumerable: function __defineNonEnumerable(property) { this[property.name] = property.descriptor.value; }, /** If this property is `true` the record is in the `empty` state. Empty is the first state all records enter after they have been created. Most records created by the store will quickly transition to the `loading` state if data needs to be fetched from the server or the `created` state if the record is created on the client. A record can also enter the empty state if the adapter is unable to locate the record. @property isEmpty @type {Boolean} @readOnly */ isEmpty: retrieveFromCurrentState, /** If this property is `true` the record is in the `loading` state. A record enters this state when the store asks the adapter for its data. It remains in this state until the adapter provides the requested data. @property isLoading @type {Boolean} @readOnly */ isLoading: retrieveFromCurrentState, /** If this property is `true` the record is in the `loaded` state. A record enters this state when its data is populated. Most of a record's lifecycle is spent inside substates of the `loaded` state. Example ```javascript let record = store.createRecord('model'); record.get('isLoaded'); // true store.findRecord('model', 1).then(function(model) { model.get('isLoaded'); // true }); ``` @property isLoaded @type {Boolean} @readOnly */ isLoaded: retrieveFromCurrentState, /** If this property is `true` the record is in the `dirty` state. The record has local changes that have not yet been saved by the adapter. This includes records that have been created (but not yet saved) or deleted. Example ```javascript let record = store.createRecord('model'); record.get('hasDirtyAttributes'); // true store.findRecord('model', 1).then(function(model) { model.get('hasDirtyAttributes'); // false model.set('foo', 'some value'); model.get('hasDirtyAttributes'); // true }); ``` @since 1.13.0 @property hasDirtyAttributes @type {Boolean} @readOnly */ hasDirtyAttributes: Ember.computed('currentState.isDirty', function () { return this.get('currentState.isDirty'); }), /** If this property is `true` the record is in the `saving` state. A record enters the saving state when `save` is called, but the adapter has not yet acknowledged that the changes have been persisted to the backend. Example ```javascript let record = store.createRecord('model'); record.get('isSaving'); // false let promise = record.save(); record.get('isSaving'); // true promise.then(function() { record.get('isSaving'); // false }); ``` @property isSaving @type {Boolean} @readOnly */ isSaving: retrieveFromCurrentState, /** If this property is `true` the record is in the `deleted` state and has been marked for deletion. When `isDeleted` is true and `hasDirtyAttributes` is true, the record is deleted locally but the deletion was not yet persisted. When `isSaving` is true, the change is in-flight. When both `hasDirtyAttributes` and `isSaving` are false, the change has persisted. Example ```javascript let record = store.createRecord('model'); record.get('isDeleted'); // false record.deleteRecord(); // Locally deleted record.get('isDeleted'); // true record.get('hasDirtyAttributes'); // true record.get('isSaving'); // false // Persisting the deletion let promise = record.save(); record.get('isDeleted'); // true record.get('isSaving'); // true // Deletion Persisted promise.then(function() { record.get('isDeleted'); // true record.get('isSaving'); // false record.get('hasDirtyAttributes'); // false }); ``` @property isDeleted @type {Boolean} @readOnly */ isDeleted: retrieveFromCurrentState, /** If this property is `true` the record is in the `new` state. A record will be in the `new` state when it has been created on the client and the adapter has not yet report that it was successfully saved. Example ```javascript let record = store.createRecord('model'); record.get('isNew'); // true record.save().then(function(model) { model.get('isNew'); // false }); ``` @property isNew @type {Boolean} @readOnly */ isNew: retrieveFromCurrentState, /** If this property is `true` the record is in the `valid` state. A record will be in the `valid` state when the adapter did not report any server-side validation failures. @property isValid @type {Boolean} @readOnly */ isValid: retrieveFromCurrentState, /** If the record is in the dirty state this property will report what kind of change has caused it to move into the dirty state. Possible values are: - `created` The record has been created by the client and not yet saved to the adapter. - `updated` The record has been updated by the client and not yet saved to the adapter. - `deleted` The record has been deleted by the client and not yet saved to the adapter. Example ```javascript let record = store.createRecord('model'); record.get('dirtyType'); // 'created' ``` @property dirtyType @type {String} @readOnly */ dirtyType: retrieveFromCurrentState, /** If `true` the adapter reported that it was unable to save local changes to the backend for any reason other than a server-side validation error. Example ```javascript record.get('isError'); // false record.set('foo', 'valid value'); record.save().then(null, function() { record.get('isError'); // true }); ``` @property isError @type {Boolean} @readOnly */ isError: false, /** If `true` the store is attempting to reload the record from the adapter. Example ```javascript record.get('isReloading'); // false record.reload(); record.get('isReloading'); // true ``` @property isReloading @type {Boolean} @readOnly */ isReloading: false, /** All ember models have an id property. This is an identifier managed by an external source. These are always coerced to be strings before being used internally. Note when declaring the attributes for a model it is an error to declare an id attribute. ```javascript let record = store.createRecord('model'); record.get('id'); // null store.findRecord('model', 1).then(function(model) { model.get('id'); // '1' }); ``` @property id @type {String} */ id: null, /** @property currentState @private @type {Object} */ currentState: RootState.empty, /** When the record is in the `invalid` state this object will contain any errors returned by the adapter. When present the errors hash contains keys corresponding to the invalid property names and values which are arrays of Javascript objects with two keys: - `message` A string containing the error message from the backend - `attribute` The name of the property associated with this error message ```javascript record.get('errors.length'); // 0 record.set('foo', 'invalid value'); record.save().catch(function() { record.get('errors').get('foo'); // [{message: 'foo should be a number.', attribute: 'foo'}] }); ``` The `errors` property us useful for displaying error messages to the user. ```handlebars <label>Username: {{input value=username}} </label> {{#each model.errors.username as |error|}} <div class="error"> {{error.message}} </div> {{/each}} <label>Email: {{input value=email}} </label> {{#each model.errors.email as |error|}} <div class="error"> {{error.message}} </div> {{/each}} ``` You can also access the special `messages` property on the error object to get an array of all the error strings. ```handlebars {{#each model.errors.messages as |message|}} <div class="error"> {{message}} </div> {{/each}} ``` @property errors @type {DS.Errors} */ errors: Ember.computed(function () { var errors = Errors.create(); errors._registerHandlers(this._internalModel, function () { this.send('becameInvalid'); }, function () { this.send('becameValid'); }); return errors; }).readOnly(), /** This property holds the `DS.AdapterError` object with which last adapter operation was rejected. @property adapterError @type {DS.AdapterError} */ adapterError: null, /** Create a JSON representation of the record, using the serialization strategy of the store's adapter. `serialize` takes an optional hash as a parameter, currently supported options are: - `includeId`: `true` if the record's ID should be included in the JSON representation. @method serialize @param {Object} options @return {Object} an object whose values are primitive JSON values only */ serialize: function serialize(options) { return this._internalModel.createSnapshot().serialize(options); }, /** Use [DS.JSONSerializer](DS.JSONSerializer.html) to get the JSON representation of a record. `toJSON` takes an optional hash as a parameter, currently supported options are: - `includeId`: `true` if the record's ID should be included in the JSON representation. @method toJSON @param {Object} options @return {Object} A JSON representation of the object. */ toJSON: function toJSON(options) { // container is for lazy transform lookups var serializer = this.store.serializerFor('-default'); var snapshot = this._internalModel.createSnapshot(); return serializer.serialize(snapshot, options); }, /** Fired when the record is ready to be interacted with, that is either loaded from the server or created locally. @event ready */ ready: null, /** Fired when the record is loaded from the server. @event didLoad */ didLoad: null, /** Fired when the record is updated. @event didUpdate */ didUpdate: null, /** Fired when a new record is commited to the server. @event didCreate */ didCreate: null, /** Fired when the record is deleted. @event didDelete */ didDelete: null, /** Fired when the record becomes invalid. @event becameInvalid */ becameInvalid: null, /** Fired when the record enters the error state. @event becameError */ becameError: null, /** Fired when the record is rolled back. @event rolledBack */ rolledBack: null, //TODO Do we want to deprecate these? /** @method send @private @param {String} name @param {Object} context */ send: function send(name, context) { return this._internalModel.send(name, context); }, /** @method transitionTo @private @param {String} name */ transitionTo: function transitionTo(name) { return this._internalModel.transitionTo(name); }, /** Marks the record as deleted but does not save it. You must call `save` afterwards if you want to persist it. You might use this method if you want to allow the user to still `rollbackAttributes()` after a delete was made. Example ```app/routes/model/delete.js import Route from '@ember/routing/route'; export default Route.extend({ actions: { softDelete() { this.get('controller.model').deleteRecord(); }, confirm() { this.get('controller.model').save(); }, undo() { this.get('controller.model').rollbackAttributes(); } } }); ``` @method deleteRecord */ deleteRecord: function deleteRecord() { this._internalModel.deleteRecord(); }, /** Same as `deleteRecord`, but saves the record immediately. Example ```app/routes/model/delete.js import Route from '@ember/routing/route'; export default Route.extend({ actions: { delete() { this.get('controller.model').destroyRecord().then(function() { controller.transitionToRoute('model.index'); }); } } }); ``` If you pass an object on the `adapterOptions` property of the options argument it will be passed to your adapter via the snapshot ```js record.destroyRecord({ adapterOptions: { subscribe: false } }); ``` ```app/adapters/post.js import MyCustomAdapter from './custom-adapter'; export default MyCustomAdapter.extend({ deleteRecord(store, type, snapshot) { if (snapshot.adapterOptions.subscribe) { // ... } // ... } }); ``` @method destroyRecord @param {Object} options @return {Promise} a promise that will be resolved when the adapter returns successfully or rejected if the adapter returns with an error. */ destroyRecord: function destroyRecord(options) { this.deleteRecord(); return this.save(options); }, /** Unloads the record from the store. This will cause the record to be destroyed and freed up for garbage collection. @method unloadRecord */ unloadRecord: function unloadRecord() { if (this.isDestroyed) { return; } this._internalModel.unloadRecord(); }, /** @method _notifyProperties @private */ _notifyProperties: function _notifyProperties(keys) { Ember.beginPropertyChanges(); var key = void 0; for (var i = 0, length = keys.length; i < length; i++) { key = keys[i]; this.notifyPropertyChange(key); } Ember.endPropertyChanges(); }, /** Returns an object, whose keys are changed properties, and value is an [oldProp, newProp] array. The array represents the diff of the canonical state with the local state of the model. Note: if the model is created locally, the canonical state is empty since the adapter hasn't acknowledged the attributes yet: Example ```app/models/mascot.js import DS from 'ember-data'; export default DS.Model.extend({ name: DS.attr('string'), isAdmin: DS.attr('boolean', { defaultValue: false }) }); ``` ```javascript let mascot = store.createRecord('mascot'); mascot.changedAttributes(); // {} mascot.set('name', 'Tomster'); mascot.changedAttributes(); // { name: [undefined, 'Tomster'] } mascot.set('isAdmin', true); mascot.changedAttributes(); // { isAdmin: [undefined, true], name: [undefined, 'Tomster'] } mascot.save().then(function() { mascot.changedAttributes(); // {} mascot.set('isAdmin', false); mascot.changedAttributes(); // { isAdmin: [true, false] } }); ``` @method changedAttributes @return {Object} an object, whose keys are changed properties, and value is an [oldProp, newProp] array. */ changedAttributes: function changedAttributes() { return this._internalModel.changedAttributes(); }, //TODO discuss with tomhuda about events/hooks //Bring back as hooks? /** @method adapterWillCommit @private adapterWillCommit: function() { this.send('willCommit'); }, /** @method adapterDidDirty @private adapterDidDirty: function() { this.send('becomeDirty'); this.updateRecordArraysLater(); }, */ /** If the model `hasDirtyAttributes` this function will discard any unsaved changes. If the model `isNew` it will be removed from the store. Example ```javascript record.get('name'); // 'Untitled Document' record.set('name', 'Doc 1'); record.get('name'); // 'Doc 1' record.rollbackAttributes(); record.get('name'); // 'Untitled Document' ``` @since 1.13.0 @method rollbackAttributes */ rollbackAttributes: function rollbackAttributes() { this._internalModel.rollbackAttributes(); }, /* @method _createSnapshot @private */ _createSnapshot: function _createSnapshot() { return this._internalModel.createSnapshot(); }, toStringExtension: function toStringExtension() { return Ember.get(this, 'id'); }, /** Save the record and persist any changes to the record to an external source via the adapter. Example ```javascript record.set('name', 'Tomster'); record.save().then(function() { // Success callback }, function() { // Error callback }); ``` If you pass an object using the `adapterOptions` property of the options argument it will be passed to your adapter via the snapshot. ```js record.save({ adapterOptions: { subscribe: false } }); ``` ```app/adapters/post.js import MyCustomAdapter from './custom-adapter'; export default MyCustomAdapter.extend({ updateRecord(store, type, snapshot) { if (snapshot.adapterOptions.subscribe) { // ... } // ... } }); ``` @method save @param {Object} options @return {Promise} a promise that will be resolved when the adapter returns successfully or rejected if the adapter returns with an error. */ save: function save(options) { var _this = this; return PromiseObject.create({ promise: this._internalModel.save(options).then(function () { return _this; }) }); }, /** Reload the record from the adapter. This will only work if the record has already finished loading. Example ```app/routes/model/view.js import Route from '@ember/routing/route'; export default Route.extend({ actions: { reload() { this.controller.get('model').reload().then(function(model) { // do something with the reloaded model }); } } }); ``` @method reload @return {Promise} a promise that will be resolved with the record when the adapter returns successfully or rejected if the adapter returns with an error. */ reload: function reload() { var _this2 = this; return PromiseObject.create({ promise: this._internalModel.reload().then(function () { return _this2; }) }); }, /** Override the default event firing from Ember.Evented to also call methods with the given name. @method trigger @private @param {String} name */ trigger: function trigger(name) { var fn = this[name]; if (typeof fn === 'function') { var length = arguments.length; var args = new Array(length - 1); for (var i = 1; i < length; i++) { args[i - 1] = arguments[i]; } fn.apply(this, args); } this._super.apply(this, arguments); }, attr: function attr() { (true && !(false) && Ember.assert("The `attr` method is not available on DS.Model, a DS.Snapshot was probably expected. Are you passing a DS.Model instead of a DS.Snapshot to your serializer?", false)); }, /** Get the reference for the specified belongsTo relationship. Example ```app/models/blog.js export default DS.Model.extend({ user: DS.belongsTo({ async: true }) }); ``` ```javascript let blog = store.push({ data: { type: 'blog', id: 1, relationships: { user: { data: { type: 'user', id: 1 } } } } }); let userRef = blog.belongsTo('user'); // check if the user relationship is loaded let isLoaded = userRef.value() !== null; // get the record of the reference (null if not yet available) let user = userRef.value(); // get the identifier of the reference if (userRef.remoteType() === "id") { let id = userRef.id(); } else if (userRef.remoteType() === "link") { let link = userRef.link(); } // load user (via store.findRecord or store.findBelongsTo) userRef.load().then(...) // or trigger a reload userRef.reload().then(...) // provide data for reference userRef.push({ type: 'user', id: 1, attributes: { username: "@user" } }).then(function(user) { userRef.value() === user; }); ``` @method belongsTo @param {String} name of the relationship @since 2.5.0 @return {BelongsToReference} reference for this relationship */ belongsTo: function belongsTo(name) { return this._internalModel.referenceFor('belongsTo', name); }, /** Get the reference for the specified hasMany relationship. Example ```javascript // models/blog.js export default DS.Model.extend({ comments: DS.hasMany({ async: true }) }); let blog = store.push({ data: { type: 'blog', id: 1, relationships: { comments: { data: [ { type: 'comment', id: 1 }, { type: 'comment', id: 2 } ] } } } }); let commentsRef = blog.hasMany('comments'); // check if the comments are loaded already let isLoaded = commentsRef.value() !== null; // get the records of the reference (null if not yet available) let comments = commentsRef.value(); // get the identifier of the reference if (commentsRef.remoteType() === "ids") { let ids = commentsRef.ids(); } else if (commentsRef.remoteType() === "link") { let link = commentsRef.link(); } // load comments (via store.findMany or store.findHasMany) commentsRef.load().then(...) // or trigger a reload commentsRef.reload().then(...) // provide data for reference commentsRef.push([{ type: 'comment', id: 1 }, { type: 'comment', id: 2 }]).then(function(comments) { commentsRef.value() === comments; }); ``` @method hasMany @param {String} name of the relationship @since 2.5.0 @return {HasManyReference} reference for this relationship */ hasMany: function hasMany(name) { return this._internalModel.referenceFor('hasMany', name); }, setId: Ember.observer('id', function () { this._internalModel.setId(this.get('id')); }), /** Provides info about the model for debugging purposes by grouping the properties into more semantic groups. Meant to be used by debugging tools such as the Chrome Ember Extension. - Groups all attributes in "Attributes" group. - Groups all belongsTo relationships in "Belongs To" group. - Groups all hasMany relationships in "Has Many" group. - Groups all flags in "Flags" group. - Flags relationship CPs as expensive properties. @method _debugInfo @for DS.Model @private */ _debugInfo: function _debugInfo() { var attributes = ['id']; var relationships = {}; var expensiveProperties = []; this.eachAttribute(function (name, meta) { return attributes.push(name); }); var groups = [{ name: 'Attributes', properties: attributes, expand: true }]; this.eachRelationship(function (name, relationship) { var properties = relationships[relationship.kind]; if (properties === undefined) { properties = relationships[relationship.kind] = []; groups.push({ name: relationship.name, properties: properties, expand: true }); } properties.push(name); expensiveProperties.push(name); }); groups.push({ name: 'Flags', properties: ['isLoaded', 'hasDirtyAttributes', 'isSaving', 'isDeleted', 'isError', 'isNew', 'isValid'] }); return { propertyInfo: { // include all other mixins / properties (not just the grouped ones) includeOtherProperties: true, groups: groups, // don't pre-calculate unless cached expensiveProperties: expensiveProperties } }; }, notifyBelongsToChanged: function notifyBelongsToChanged(key) { this.notifyPropertyChange(key); }, /** Given a callback, iterates over each of the relationships in the model, invoking the callback with the name of each relationship and its relationship descriptor. The callback method you provide should have the following signature (all parameters are optional): ```javascript function(name, descriptor); ``` - `name` the name of the current property in the iteration - `descriptor` the meta object that describes this relationship The relationship descriptor argument is an object with the following properties. - **key** <span class="type">String</span> the name of this relationship on the Model - **kind** <span class="type">String</span> "hasMany" or "belongsTo" - **options** <span class="type">Object</span> the original options hash passed when the relationship was declared - **parentType** <span class="type">DS.Model</span> the type of the Model that owns this relationship - **type** <span class="type">String</span> the type name of the related Model Note that in addition to a callback, you can also pass an optional target object that will be set as `this` on the context. Example ```app/serializers/application.js import DS from 'ember-data'; export default DS.JSONSerializer.extend({ serialize: function(record, options) { let json = {}; record.eachRelationship(function(name, descriptor) { if (descriptor.kind === 'hasMany') { let serializedHasManyName = name.toUpperCase() + '_IDS'; json[serializedHasManyName] = record.get(name).mapBy('id'); } }); return json; } }); ``` @method eachRelationship @param {Function} callback the callback to invoke @param {any} binding the value to which the callback's `this` should be bound */ eachRelationship: function eachRelationship(callback, binding) { this.constructor.eachRelationship(callback, binding); }, relationshipFor: function relationshipFor(name) { return Ember.get(this.constructor, 'relationshipsByName').get(name); }, inverseFor: function inverseFor(key) { return this.constructor.inverseFor(key, this.store); }, notifyHasManyAdded: function notifyHasManyAdded(key) { //We need to notifyPropertyChange in the adding case because we need to make sure //we fetch the newly added record in case it is unloaded //TODO(Igor): Consider whether we could do this only if the record state is unloaded //Goes away once hasMany is double promisified this.notifyPropertyChange(key); }, eachAttribute: function eachAttribute(callback, binding) { this.constructor.eachAttribute(callback, binding); } }); /** @property data @private @type {Object} */ Object.defineProperty(Model.prototype, 'data', { get: function get() { return this._internalModel._data; } }); if (true) { Model.reopen({ init: function init() { this._super.apply(this, arguments); if (!this._internalModel) { throw new Ember.Error('You should not call `create` on a model. Instead, call `store.createRecord` with the attributes you would like to set.'); } } }); } Model.reopenClass({ isModel: true, /** Override the class' `create()` method to raise an error. This prevents end users from inadvertently calling `create()` instead of `createRecord()`. The store is still able to create instances by calling the `_create()` method. To create an instance of a `DS.Model` use [store.createRecord](DS.Store.html#method_createRecord). @method create @private @static */ /** Represents the model's class name as a string. This can be used to look up the model's class name through `DS.Store`'s modelFor method. `modelName` is generated for you by Ember Data. It will be a lowercased, dasherized string. For example: ```javascript store.modelFor('post').modelName; // 'post' store.modelFor('blog-post').modelName; // 'blog-post' ``` The most common place you'll want to access `modelName` is in your serializer's `payloadKeyFromModelName` method. For example, to change payload keys to underscore (instead of dasherized), you might use the following code: ```javascript import { underscore } from '@ember/string'; export default const PostSerializer = DS.RESTSerializer.extend({ payloadKeyFromModelName(modelName) { return underscore(modelName); } }); ``` @property modelName @type String @readonly @static */ modelName: null, /* These class methods below provide relationship introspection abilities about relationships. A note about the computed properties contained here: **These properties are effectively sealed once called for the first time.** To avoid repeatedly doing expensive iteration over a model's fields, these values are computed once and then cached for the remainder of the runtime of your application. If your application needs to modify a class after its initial definition (for example, using `reopen()` to add additional attributes), make sure you do it before using your model with the store, which uses these properties extensively. */ /** For a given relationship name, returns the model type of the relationship. For example, if you define a model like this: ```app/models/post.js import DS from 'ember-data'; export default DS.Model.extend({ comments: DS.hasMany('comment') }); ``` Calling `store.modelFor('post').typeForRelationship('comments', store)` will return `Comment`. @method typeForRelationship @static @param {String} name the name of the relationship @param {store} store an instance of DS.Store @return {DS.Model} the type of the relationship, or undefined */ typeForRelationship: function typeForRelationship(name, store) { var relationship = Ember.get(this, 'relationshipsByName').get(name); return relationship && store.modelFor(relationship.type); }, inverseMap: Ember.computed(function () { return Object.create(null); }), /** Find the relationship which is the inverse of the one asked for. For example, if you define models like this: ```app/models/post.js import DS from 'ember-data'; export default DS.Model.extend({ comments: DS.hasMany('message') }); ``` ```app/models/message.js import DS from 'ember-data'; export default DS.Model.extend({ owner: DS.belongsTo('post') }); ``` ``` js store.modelFor('post').inverseFor('comments', store) // { type: App.Message, name: 'owner', kind: 'belongsTo' } store.modelFor('message').inverseFor('owner', store) // { type: App.Post, name: 'comments', kind: 'hasMany' } ``` @method inverseFor @static @param {String} name the name of the relationship @param {DS.Store} store @return {Object} the inverse relationship, or null */ inverseFor: function inverseFor(name, store) { var inverseMap = Ember.get(this, 'inverseMap'); if (inverseMap[name] !== undefined) { return inverseMap[name]; } else { var relationship = Ember.get(this, 'relationshipsByName').get(name); if (!relationship) { inverseMap[name] = null; return null; } var options = relationship.options; if (options && options.inverse === null) { // populate the cache with a miss entry so we can skip getting and going // through `relationshipsByName` inverseMap[name] = null; return null; } return inverseMap[name] = this._findInverseFor(name, store); } }, //Calculate the inverse, ignoring the cache _findInverseFor: function _findInverseFor(name, store) { var inverseType = this.typeForRelationship(name, store); if (!inverseType) { return null; } var propertyMeta = this.metaForProperty(name); //If inverse is manually specified to be null, like `comments: DS.hasMany('message', { inverse: null })` var options = propertyMeta.options; if (options.inverse === null) { return null; } var inverseName = void 0, inverseKind = void 0, inverse = void 0; //If inverse is specified manually, return the inverse if (options.inverse) { inverseName = options.inverse; inverse = Ember.get(inverseType, 'relationshipsByName').get(inverseName); (true && !(!Ember.isNone(inverse)) && Ember.assert("We found no inverse relationships by the name of '" + inverseName + "' on the '" + inverseType.modelName + "' model. This is most likely due to a missing attribute on your model definition.", !Ember.isNone(inverse))); inverseKind = inverse.kind; } else { //No inverse was specified manually, we need to use a heuristic to guess one if (propertyMeta.parentType && propertyMeta.type === propertyMeta.parentType.modelName) { (true && Ember.warn('Detected a reflexive relationship by the name of \'' + name + '\' without an inverse option. Look at https://guides.emberjs.com/current/models/relationships/#toc_reflexive-relations for how to explicitly specify inverses.', false, { id: 'ds.model.reflexive-relationship-without-inverse' })); } var possibleRelationships = findPossibleInverses(this, inverseType, name); if (possibleRelationships.length === 0) { return null; } var filteredRelationships = possibleRelationships.filter(function (possibleRelationship) { var optionsForRelationship = inverseType.metaForProperty(possibleRelationship.name).options; return name === optionsForRelationship.inverse; }); (true && !(filteredRelationships.length < 2) && Ember.assert("You defined the '" + name + "' relationship on " + this + ", but you defined the inverse relationships of type " + inverseType.toString() + " multiple times. Look at https://guides.emberjs.com/current/models/relationships/#toc_explicit-inverses for how to explicitly specify inverses", filteredRelationships.length < 2)); if (filteredRelationships.length === 1) { possibleRelationships = filteredRelationships; } (true && !(possibleRelationships.length === 1) && Ember.assert("You defined the '" + name + "' relationship on " + this + ", but multiple possible inverse relationships of type " + this + " were found on " + inverseType + ". Look at https://guides.emberjs.com/current/models/relationships/#toc_explicit-inverses for how to explicitly specify inverses", possibleRelationships.length === 1)); inverseName = possibleRelationships[0].name; inverseKind = possibleRelationships[0].kind; } return { type: inverseType, name: inverseName, kind: inverseKind }; }, /** The model's relationships as a map, keyed on the type of the relationship. The value of each entry is an array containing a descriptor for each relationship with that type, describing the name of the relationship as well as the type. For example, given the following model definition: ```app/models/blog.js import DS from 'ember-data'; export default DS.Model.extend({ users: DS.hasMany('user'), owner: DS.belongsTo('user'), posts: DS.hasMany('post') }); ``` This computed property would return a map describing these relationships, like this: ```javascript import Ember from 'ember'; import Blog from 'app/models/blog'; import User from 'app/models/user'; import Post from 'app/models/post'; let relationships = Ember.get(Blog, 'relationships'); relationships.get(User); //=> [ { name: 'users', kind: 'hasMany' }, // { name: 'owner', kind: 'belongsTo' } ] relationships.get(Post); //=> [ { name: 'posts', kind: 'hasMany' } ] ``` @property relationships @static @type Ember.Map @readOnly */ relationships: relationshipsDescriptor, /** A hash containing lists of the model's relationships, grouped by the relationship kind. For example, given a model with this definition: ```app/models/blog.js import DS from 'ember-data'; export default DS.Model.extend({ users: DS.hasMany('user'), owner: DS.belongsTo('user'), posts: DS.hasMany('post') }); ``` This property would contain the following: ```javascript import Ember from 'ember'; import Blog from 'app/models/blog'; let relationshipNames = Ember.get(Blog, 'relationshipNames'); relationshipNames.hasMany; //=> ['users', 'posts'] relationshipNames.belongsTo; //=> ['owner'] ``` @property relationshipNames @static @type Object @readOnly */ relationshipNames: Ember.computed(function () { var names = { hasMany: [], belongsTo: [] }; this.eachComputedProperty(function (name, meta) { if (meta.isRelationship) { names[meta.kind].push(name); } }); return names; }), /** An array of types directly related to a model. Each type will be included once, regardless of the number of relationships it has with the model. For example, given a model with this definition: ```app/models/blog.js import DS from 'ember-data'; export default DS.Model.extend({ users: DS.hasMany('user'), owner: DS.belongsTo('user'), posts: DS.hasMany('post') }); ``` This property would contain the following: ```javascript import Ember from 'ember'; import Blog from 'app/models/blog'; let relatedTypes = Ember.get(Blog, 'relatedTypes'); //=> [ User, Post ] ``` @property relatedTypes @static @type Ember.Array @readOnly */ relatedTypes: relatedTypesDescriptor, /** A map whose keys are the relationships of a model and whose values are relationship descriptors. For example, given a model with this definition: ```app/models/blog.js import DS from 'ember-data'; export default DS.Model.extend({ users: DS.hasMany('user'), owner: DS.belongsTo('user'), posts: DS.hasMany('post') }); ``` This property would contain the following: ```javascript import Ember from 'ember'; import Blog from 'app/models/blog'; let relationshipsByName = Ember.get(Blog, 'relationshipsByName'); relationshipsByName.get('users'); //=> { key: 'users', kind: 'hasMany', type: 'user', options: Object, isRelationship: true } relationshipsByName.get('owner'); //=> { key: 'owner', kind: 'belongsTo', type: 'user', options: Object, isRelationship: true } ``` @property relationshipsByName @static @type Ember.Map @readOnly */ relationshipsByName: relationshipsByNameDescriptor, /** A map whose keys are the fields of the model and whose values are strings describing the kind of the field. A model's fields are the union of all of its attributes and relationships. For example: ```app/models/blog.js import DS from 'ember-data'; export default DS.Model.extend({ users: DS.hasMany('user'), owner: DS.belongsTo('user'), posts: DS.hasMany('post'), title: DS.attr('string') }); ``` ```js import Ember from 'ember'; import Blog from 'app/models/blog'; let fields = Ember.get(Blog, 'fields'); fields.forEach(function(kind, field) { console.log(field, kind); }); // prints: // users, hasMany // owner, belongsTo // posts, hasMany // title, attribute ``` @property fields @static @type Ember.Map @readOnly */ fields: Ember.computed(function () { var map = Ember.Map.create(); this.eachComputedProperty(function (name, meta) { if (meta.isRelationship) { map.set(name, meta.kind); } else if (meta.isAttribute) { map.set(name, 'attribute'); } }); return map; }).readOnly(), /** Given a callback, iterates over each of the relationships in the model, invoking the callback with the name of each relationship and its relationship descriptor. @method eachRelationship @static @param {Function} callback the callback to invoke @param {any} binding the value to which the callback's `this` should be bound */ eachRelationship: function eachRelationship(callback, binding) { Ember.get(this, 'relationshipsByName').forEach(function (relationship, name) { callback.call(binding, name, relationship); }); }, /** Given a callback, iterates over each of the types related to a model, invoking the callback with the related type's class. Each type will be returned just once, regardless of how many different relationships it has with a model. @method eachRelatedType @static @param {Function} callback the callback to invoke @param {any} binding the value to which the callback's `this` should be bound */ eachRelatedType: function eachRelatedType(callback, binding) { var relationshipTypes = Ember.get(this, 'relatedTypes'); for (var i = 0; i < relationshipTypes.length; i++) { var type = relationshipTypes[i]; callback.call(binding, type); } }, determineRelationshipType: function determineRelationshipType(knownSide, store) { var knownKey = knownSide.key; var knownKind = knownSide.kind; var inverse = this.inverseFor(knownKey, store); // let key; var otherKind = void 0; if (!inverse) { return knownKind === 'belongsTo' ? 'oneToNone' : 'manyToNone'; } // key = inverse.name; otherKind = inverse.kind; if (otherKind === 'belongsTo') { return knownKind === 'belongsTo' ? 'oneToOne' : 'manyToOne'; } else { return knownKind === 'belongsTo' ? 'oneToMany' : 'manyToMany'; } }, /** A map whose keys are the attributes of the model (properties described by DS.attr) and whose values are the meta object for the property. Example ```app/models/person.js import DS from 'ember-data'; export default DS.Model.extend({ firstName: DS.attr('string'), lastName: DS.attr('string'), birthday: DS.attr('date') }); ``` ```javascript import Ember from 'ember'; import Person from 'app/models/person'; let attributes = Ember.get(Person, 'attributes') attributes.forEach(function(meta, name) { console.log(name, meta); }); // prints: // firstName {type: "string", isAttribute: true, options: Object, parentType: function, name: "firstName"} // lastName {type: "string", isAttribute: true, options: Object, parentType: function, name: "lastName"} // birthday {type: "date", isAttribute: true, options: Object, parentType: function, name: "birthday"} ``` @property attributes @static @type {Ember.Map} @readOnly */ attributes: Ember.computed(function () { var _this3 = this; var map = Ember.Map.create(); this.eachComputedProperty(function (name, meta) { if (meta.isAttribute) { (true && !(name !== 'id') && Ember.assert("You may not set `id` as an attribute on your model. Please remove any lines that look like: `id: DS.attr('<type>')` from " + _this3.toString(), name !== 'id')); meta.name = name; map.set(name, meta); } }); return map; }).readOnly(), /** A map whose keys are the attributes of the model (properties described by DS.attr) and whose values are type of transformation applied to each attribute. This map does not include any attributes that do not have an transformation type. Example ```app/models/person.js import DS from 'ember-data'; export default DS.Model.extend({ firstName: DS.attr(), lastName: DS.attr('string'), birthday: DS.attr('date') }); ``` ```javascript import Ember from 'ember'; import Person from 'app/models/person'; let transformedAttributes = Ember.get(Person, 'transformedAttributes') transformedAttributes.forEach(function(field, type) { console.log(field, type); }); // prints: // lastName string // birthday date ``` @property transformedAttributes @static @type {Ember.Map} @readOnly */ transformedAttributes: Ember.computed(function () { var map = Ember.Map.create(); this.eachAttribute(function (key, meta) { if (meta.type) { map.set(key, meta.type); } }); return map; }).readOnly(), /** Iterates through the attributes of the model, calling the passed function on each attribute. The callback method you provide should have the following signature (all parameters are optional): ```javascript function(name, meta); ``` - `name` the name of the current property in the iteration - `meta` the meta object for the attribute property in the iteration Note that in addition to a callback, you can also pass an optional target object that will be set as `this` on the context. Example ```javascript import DS from 'ember-data'; let Person = DS.Model.extend({ firstName: DS.attr('string'), lastName: DS.attr('string'), birthday: DS.attr('date') }); Person.eachAttribute(function(name, meta) { console.log(name, meta); }); // prints: // firstName {type: "string", isAttribute: true, options: Object, parentType: function, name: "firstName"} // lastName {type: "string", isAttribute: true, options: Object, parentType: function, name: "lastName"} // birthday {type: "date", isAttribute: true, options: Object, parentType: function, name: "birthday"} ``` @method eachAttribute @param {Function} callback The callback to execute @param {Object} [binding] the value to which the callback's `this` should be bound @static */ eachAttribute: function eachAttribute(callback, binding) { Ember.get(this, 'attributes').forEach(function (meta, name) { callback.call(binding, name, meta); }); }, /** Iterates through the transformedAttributes of the model, calling the passed function on each attribute. Note the callback will not be called for any attributes that do not have an transformation type. The callback method you provide should have the following signature (all parameters are optional): ```javascript function(name, type); ``` - `name` the name of the current property in the iteration - `type` a string containing the name of the type of transformed applied to the attribute Note that in addition to a callback, you can also pass an optional target object that will be set as `this` on the context. Example ```javascript import DS from 'ember-data'; let Person = DS.Model.extend({ firstName: DS.attr(), lastName: DS.attr('string'), birthday: DS.attr('date') }); Person.eachTransformedAttribute(function(name, type) { console.log(name, type); }); // prints: // lastName string // birthday date ``` @method eachTransformedAttribute @param {Function} callback The callback to execute @param {Object} [binding] the value to which the callback's `this` should be bound @static */ eachTransformedAttribute: function eachTransformedAttribute(callback, binding) { Ember.get(this, 'transformedAttributes').forEach(function (type, name) { callback.call(binding, name, type); }); } }); // if `Ember.setOwner` is defined, accessing `this.container` is // deprecated (but functional). In "standard" Ember usage, this // deprecation is actually created via an `.extend` of the factory // inside the container itself, but that only happens on models // with MODEL_FACTORY_INJECTIONS enabled :( if (Ember.setOwner) { Object.defineProperty(Model.prototype, 'container', { configurable: true, enumerable: false, get: function get() { (true && !(false) && Ember.deprecate('Using the injected `container` is deprecated. Please use the `getOwner` helper instead to access the owner of this object.', false, { id: 'ember-application.injected-container', until: '3.0.0' })); return this.store.container; } }); } if (isEnabled('ds-rollback-attribute')) { Model.reopen({ /** Discards any unsaved changes to the given attribute. This feature is not enabled by default. You must enable `ds-rollback-attribute` and be running a canary build. Example ```javascript record.get('name'); // 'Untitled Document' record.set('name', 'Doc 1'); record.get('name'); // 'Doc 1' record.rollbackAttribute('name'); record.get('name'); // 'Untitled Document' ``` @method rollbackAttribute */ rollbackAttribute: function rollbackAttribute(attributeName) { if (attributeName in this._internalModel._attributes) { this.set(attributeName, this._internalModel.lastAcknowledgedValue(attributeName)); } } }); } if (true) { Model.reopen({ // This is a temporary solution until we refactor DS.Model to not // rely on the data property. willMergeMixin: function willMergeMixin(props) { var constructor = this.constructor; (true && !(!intersection(Object.keys(props), RESERVED_MODEL_PROPS)[0]) && Ember.assert('`' + intersection(Object.keys(props), RESERVED_MODEL_PROPS)[0] + '` is a reserved property name on DS.Model objects. Please choose a different property name for ' + constructor.toString(), !intersection(Object.keys(props), RESERVED_MODEL_PROPS)[0])); (true && !(Object.keys(props).indexOf('id') === -1) && Ember.assert("You may not set `id` as an attribute on your model. Please remove any lines that look like: `id: DS.attr('<type>')` from " + constructor.toString(), Object.keys(props).indexOf('id') === -1)); }, /** This Ember.js hook allows an object to be notified when a property is defined. In this case, we use it to be notified when an Ember Data user defines a belongs-to relationship. In that case, we need to set up observers for each one, allowing us to track relationship changes and automatically reflect changes in the inverse has-many array. This hook passes the class being set up, as well as the key and value being defined. So, for example, when the user does this: ```javascript DS.Model.extend({ parent: DS.belongsTo('user') }); ``` This hook would be called with "parent" as the key and the computed property returned by `DS.belongsTo` as the value. @method didDefineProperty @param {Object} proto @param {String} key @param {Ember.ComputedProperty} value */ didDefineProperty: function didDefineProperty(proto, key, value) { // Check if the value being set is a computed property. if (value instanceof Ember.ComputedProperty) { // If it is, get the metadata for the relationship. This is // populated by the `DS.belongsTo` helper when it is creating // the computed property. var meta = value.meta(); meta.parentType = proto.constructor; } } }); } export default Model;