/* vim: set tabstop=4 softtabstop=4 shiftwidth=4 noexpandtab: */ /** * Backbone-relational.js 0.8.8 * (c) 2011-2013 Paul Uithol and contributors (https://github.com/PaulUithol/Backbone-relational/graphs/contributors) * * Backbone-relational may be freely distributed under the MIT license; see the accompanying LICENSE.txt. * For details and documentation: https://github.com/PaulUithol/Backbone-relational. * Depends on Backbone (and thus on Underscore as well): https://github.com/documentcloud/backbone. * * Example: * Zoo = Backbone.RelationalModel.extend({ relations: [ { type: Backbone.HasMany, key: 'animals', relatedModel: 'Animal', reverseRelation: { key: 'livesIn', includeInJSON: 'id' // 'relatedModel' is automatically set to 'Zoo'; the 'relationType' to 'HasOne'. } } ], toString: function() { return this.get( 'name' ); } }); Animal = Backbone.RelationalModel.extend({ toString: function() { return this.get( 'species' ); } }); // Creating the zoo will give it a collection with one animal in it: the monkey. // The animal created after that has a relation `livesIn` that points to the zoo it's currently associated with. // If you instantiate (or fetch) the zebra later, it will automatically be added. var zoo = new Zoo({ name: 'Artis', animals: [ { id: 'monkey-1', species: 'Chimp' }, 'lion-1', 'zebra-1' ] }); var lion = new Animal( { id: 'lion-1', species: 'Lion' } ), monkey = zoo.get( 'animals' ).first(), sameZoo = lion.get( 'livesIn' ); */ ( function( root, factory ) { // Set up Backbone-relational for the environment. Start with AMD. if ( typeof define === 'function' && define.amd ) { define( [ 'exports', 'backbone', 'underscore' ], factory ); } // Next for Node.js or CommonJS. else if ( typeof exports !== 'undefined' ) { factory( exports, require( 'backbone' ), require( 'underscore' ) ); } // Finally, as a browser global. Use `root` here as it references `window`. else { factory( root, root.Backbone, root._ ); } }( this, function( exports, Backbone, _ ) { "use strict"; Backbone.Relational = { showWarnings: true }; /** * Semaphore mixin; can be used as both binary and counting. **/ Backbone.Semaphore = { _permitsAvailable: null, _permitsUsed: 0, acquire: function() { if ( this._permitsAvailable && this._permitsUsed >= this._permitsAvailable ) { throw new Error( 'Max permits acquired' ); } else { this._permitsUsed++; } }, release: function() { if ( this._permitsUsed === 0 ) { throw new Error( 'All permits released' ); } else { this._permitsUsed--; } }, isLocked: function() { return this._permitsUsed > 0; }, setAvailablePermits: function( amount ) { if ( this._permitsUsed > amount ) { throw new Error( 'Available permits cannot be less than used permits' ); } this._permitsAvailable = amount; } }; /** * A BlockingQueue that accumulates items while blocked (via 'block'), * and processes them when unblocked (via 'unblock'). * Process can also be called manually (via 'process'). */ Backbone.BlockingQueue = function() { this._queue = []; }; _.extend( Backbone.BlockingQueue.prototype, Backbone.Semaphore, { _queue: null, add: function( func ) { if ( this.isBlocked() ) { this._queue.push( func ); } else { func(); } }, // Some of the queued events may trigger other blocking events. By // copying the queue here it allows queued events to process closer to // the natural order. // // queue events [ 'A', 'B', 'C' ] // A handler of 'B' triggers 'D' and 'E' // By copying `this._queue` this executes: // [ 'A', 'B', 'D', 'E', 'C' ] // The same order the would have executed if they didn't have to be // delayed and queued. process: function() { var queue = this._queue; this._queue = []; while ( queue && queue.length ) { queue.shift()(); } }, block: function() { this.acquire(); }, unblock: function() { this.release(); if ( !this.isBlocked() ) { this.process(); } }, isBlocked: function() { return this.isLocked(); } }); /** * Global event queue. Accumulates external events ('add:', 'remove:' and 'change:') * until the top-level object is fully initialized (see 'Backbone.RelationalModel'). */ Backbone.Relational.eventQueue = new Backbone.BlockingQueue(); /** * Backbone.Store keeps track of all created (and destruction of) Backbone.RelationalModel. * Handles lookup for relations. */ Backbone.Store = function() { this._collections = []; this._reverseRelations = []; this._orphanRelations = []; this._subModels = []; this._modelScopes = [ exports ]; }; _.extend( Backbone.Store.prototype, Backbone.Events, { /** * Create a new `Relation`. * @param {Backbone.RelationalModel} [model] * @param {Object} relation * @param {Object} [options] */ initializeRelation: function( model, relation, options ) { var type = !_.isString( relation.type ) ? relation.type : Backbone[ relation.type ] || this.getObjectByName( relation.type ); if ( type && type.prototype instanceof Backbone.Relation ) { new type( model, relation, options ); // Also pushes the new Relation into `model._relations` } else { Backbone.Relational.showWarnings && typeof console !== 'undefined' && console.warn( 'Relation=%o; missing or invalid relation type!', relation ); } }, /** * Add a scope for `getObjectByName` to look for model types by name. * @param {Object} scope */ addModelScope: function( scope ) { this._modelScopes.push( scope ); }, /** * Remove a scope. * @param {Object} scope */ removeModelScope: function( scope ) { this._modelScopes = _.without( this._modelScopes, scope ); }, /** * Add a set of subModelTypes to the store, that can be used to resolve the '_superModel' * for a model later in 'setupSuperModel'. * * @param {Backbone.RelationalModel} subModelTypes * @param {Backbone.RelationalModel} superModelType */ addSubModels: function( subModelTypes, superModelType ) { this._subModels.push({ 'superModelType': superModelType, 'subModels': subModelTypes }); }, /** * Check if the given modelType is registered as another model's subModel. If so, add it to the super model's * '_subModels', and set the modelType's '_superModel', '_subModelTypeName', and '_subModelTypeAttribute'. * * @param {Backbone.RelationalModel} modelType */ setupSuperModel: function( modelType ) { _.find( this._subModels, function( subModelDef ) { return _.filter( subModelDef.subModels || [], function( subModelTypeName, typeValue ) { var subModelType = this.getObjectByName( subModelTypeName ); if ( modelType === subModelType ) { // Set 'modelType' as a child of the found superModel subModelDef.superModelType._subModels[ typeValue ] = modelType; // Set '_superModel', '_subModelTypeValue', and '_subModelTypeAttribute' on 'modelType'. modelType._superModel = subModelDef.superModelType; modelType._subModelTypeValue = typeValue; modelType._subModelTypeAttribute = subModelDef.superModelType.prototype.subModelTypeAttribute; return true; } }, this ).length; }, this ); }, /** * Add a reverse relation. Is added to the 'relations' property on model's prototype, and to * existing instances of 'model' in the store as well. * @param {Object} relation * @param {Backbone.RelationalModel} relation.model * @param {String} relation.type * @param {String} relation.key * @param {String|Object} relation.relatedModel */ addReverseRelation: function( relation ) { var exists = _.any( this._reverseRelations, function( rel ) { return _.all( relation || [], function( val, key ) { return val === rel[ key ]; }); }); if ( !exists && relation.model && relation.type ) { this._reverseRelations.push( relation ); this._addRelation( relation.model, relation ); this.retroFitRelation( relation ); } }, /** * Deposit a `relation` for which the `relatedModel` can't be resolved at the moment. * * @param {Object} relation */ addOrphanRelation: function( relation ) { var exists = _.any( this._orphanRelations, function( rel ) { return _.all( relation || [], function( val, key ) { return val === rel[ key ]; }); }); if ( !exists && relation.model && relation.type ) { this._orphanRelations.push( relation ); } }, /** * Try to initialize any `_orphanRelation`s */ processOrphanRelations: function() { // Make sure to operate on a copy since we're removing while iterating _.each( this._orphanRelations.slice( 0 ), function( rel ) { var relatedModel = Backbone.Relational.store.getObjectByName( rel.relatedModel ); if ( relatedModel ) { this.initializeRelation( null, rel ); this._orphanRelations = _.without( this._orphanRelations, rel ); } }, this ); }, /** * * @param {Backbone.RelationalModel.constructor} type * @param {Object} relation * @private */ _addRelation: function( type, relation ) { if ( !type.prototype.relations ) { type.prototype.relations = []; } type.prototype.relations.push( relation ); _.each( type._subModels || [], function( subModel ) { this._addRelation( subModel, relation ); }, this ); }, /** * Add a 'relation' to all existing instances of 'relation.model' in the store * @param {Object} relation */ retroFitRelation: function( relation ) { var coll = this.getCollection( relation.model, false ); coll && coll.each( function( model ) { if ( !( model instanceof relation.model ) ) { return; } new relation.type( model, relation ); }, this ); }, /** * Find the Store's collection for a certain type of model. * @param {Backbone.RelationalModel} type * @param {Boolean} [create=true] Should a collection be created if none is found? * @return {Backbone.Collection} A collection if found (or applicable for 'model'), or null */ getCollection: function( type, create ) { if ( type instanceof Backbone.RelationalModel ) { type = type.constructor; } var rootModel = type; while ( rootModel._superModel ) { rootModel = rootModel._superModel; } var coll = _.find( this._collections, function( item ) { return item.model === rootModel; }); if ( !coll && create !== false ) { coll = this._createCollection( rootModel ); } return coll; }, /** * Find a model type on one of the modelScopes by name. Names are split on dots. * @param {String} name * @return {Object} */ getObjectByName: function( name ) { var parts = name.split( '.' ), type = null; _.find( this._modelScopes, function( scope ) { type = _.reduce( parts || [], function( memo, val ) { return memo ? memo[ val ] : undefined; }, scope ); if ( type && type !== scope ) { return true; } }, this ); return type; }, _createCollection: function( type ) { var coll; // If 'type' is an instance, take its constructor if ( type instanceof Backbone.RelationalModel ) { type = type.constructor; } // Type should inherit from Backbone.RelationalModel. if ( type.prototype instanceof Backbone.RelationalModel ) { coll = new Backbone.Collection(); coll.model = type; this._collections.push( coll ); } return coll; }, /** * Find the attribute that is to be used as the `id` on a given object * @param type * @param {String|Number|Object|Backbone.RelationalModel} item * @return {String|Number} */ resolveIdForItem: function( type, item ) { var id = _.isString( item ) || _.isNumber( item ) ? item : null; if ( id === null ) { if ( item instanceof Backbone.RelationalModel ) { id = item.id; } else if ( _.isObject( item ) ) { id = item[ type.prototype.idAttribute ]; } } // Make all falsy values `null` (except for 0, which could be an id.. see '/issues/179') if ( !id && id !== 0 ) { id = null; } return id; }, /** * Find a specific model of a certain `type` in the store * @param type * @param {String|Number|Object|Backbone.RelationalModel} item */ find: function( type, item ) { var id = this.resolveIdForItem( type, item ), coll = this.getCollection( type ); // Because the found object could be of any of the type's superModel // types, only return it if it's actually of the type asked for. if ( coll ) { var obj = coll.get( id ); if ( obj instanceof type ) { return obj; } } return null; }, /** * Add a 'model' to its appropriate collection. Retain the original contents of 'model.collection'. * @param {Backbone.RelationalModel} model */ register: function( model ) { var coll = this.getCollection( model ); if ( coll ) { var modelColl = model.collection; coll.add( model ); model.collection = modelColl; } }, /** * Check if the given model may use the given `id` * @param model * @param [id] */ checkId: function( model, id ) { var coll = this.getCollection( model ), duplicate = coll && coll.get( id ); if ( duplicate && model !== duplicate ) { if ( Backbone.Relational.showWarnings && typeof console !== 'undefined' ) { console.warn( 'Duplicate id! Old RelationalModel=%o, new RelationalModel=%o', duplicate, model ); } throw new Error( "Cannot instantiate more than one Backbone.RelationalModel with the same id per type!" ); } }, /** * Explicitly update a model's id in its store collection * @param {Backbone.RelationalModel} model */ update: function( model ) { var coll = this.getCollection( model ); // Register a model if it isn't yet (which happens if it was created without an id). if ( !coll.contains( model ) ) { this.register( model ); } // This triggers updating the lookup indices kept in a collection coll._onModelEvent( 'change:' + model.idAttribute, model, coll ); // Trigger an event on model so related models (having the model's new id in their keyContents) can add it. model.trigger( 'relational:change:id', model, coll ); }, /** * Unregister from the store: a specific model, a collection, or a model type. * @param {Backbone.RelationalModel|Backbone.RelationalModel.constructor|Backbone.Collection} type */ unregister: function( type ) { var coll, models; if ( type instanceof Backbone.Model ) { coll = this.getCollection( type ); models = [ type ]; } else if ( type instanceof Backbone.Collection ) { coll = this.getCollection( type.model ); models = _.clone( type.models ); } else { coll = this.getCollection( type ); models = _.clone( coll.models ); } _.each( models, function( model ) { this.stopListening( model ); _.invoke( model.getRelations(), 'stopListening' ); }, this ); // If we've unregistered an entire store collection, reset the collection (which is much faster). // Otherwise, remove each model one by one. if ( _.contains( this._collections, type ) ) { coll.reset( [] ); } else { _.each( models, function( model ) { if ( coll.get( model ) ) { coll.remove( model ); } else { coll.trigger( 'relational:remove', model, coll ); } }, this ); } }, /** * Reset the `store` to it's original state. The `reverseRelations` are kept though, since attempting to * re-initialize these on models would lead to a large amount of warnings. */ reset: function() { this.stopListening(); // Unregister each collection to remove event listeners _.each( this._collections, function( coll ) { this.unregister( coll ); }, this ); this._collections = []; this._subModels = []; this._modelScopes = [ exports ]; } }); Backbone.Relational.store = new Backbone.Store(); /** * The main Relation class, from which 'HasOne' and 'HasMany' inherit. Internally, 'relational:' events * are used to regulate addition and removal of models from relations. * * @param {Backbone.RelationalModel} [instance] Model that this relation is created for. If no model is supplied, * Relation just tries to instantiate it's `reverseRelation` if specified, and bails out after that. * @param {Object} options * @param {string} options.key * @param {Backbone.RelationalModel.constructor} options.relatedModel * @param {Boolean|String} [options.includeInJSON=true] Serialize the given attribute for related model(s)' in toJSON, or just their ids. * @param {Boolean} [options.createModels=true] Create objects from the contents of keys if the object is not found in Backbone.store. * @param {Object} [options.reverseRelation] Specify a bi-directional relation. If provided, Relation will reciprocate * the relation to the 'relatedModel'. Required and optional properties match 'options', except that it also needs * {Backbone.Relation|String} type ('HasOne' or 'HasMany'). * @param {Object} opts */ Backbone.Relation = function( instance, options, opts ) { this.instance = instance; // Make sure 'options' is sane, and fill with defaults from subclasses and this object's prototype options = _.isObject( options ) ? options : {}; this.reverseRelation = _.defaults( options.reverseRelation || {}, this.options.reverseRelation ); this.options = _.defaults( options, this.options, Backbone.Relation.prototype.options ); this.reverseRelation.type = !_.isString( this.reverseRelation.type ) ? this.reverseRelation.type : Backbone[ this.reverseRelation.type ] || Backbone.Relational.store.getObjectByName( this.reverseRelation.type ); this.key = this.options.key; this.keySource = this.options.keySource || this.key; this.keyDestination = this.options.keyDestination || this.keySource || this.key; this.model = this.options.model || this.instance.constructor; this.relatedModel = this.options.relatedModel; if ( _.isFunction( this.relatedModel ) && !( this.relatedModel.prototype instanceof Backbone.RelationalModel ) ) { this.relatedModel = _.result( this, 'relatedModel' ); } if ( _.isString( this.relatedModel ) ) { this.relatedModel = Backbone.Relational.store.getObjectByName( this.relatedModel ); } if ( !this.checkPreconditions() ) { return; } // Add the reverse relation on 'relatedModel' to the store's reverseRelations if ( !this.options.isAutoRelation && this.reverseRelation.type && this.reverseRelation.key ) { Backbone.Relational.store.addReverseRelation( _.defaults( { isAutoRelation: true, model: this.relatedModel, relatedModel: this.model, reverseRelation: this.options // current relation is the 'reverseRelation' for its own reverseRelation }, this.reverseRelation // Take further properties from this.reverseRelation (type, key, etc.) ) ); } if ( instance ) { var contentKey = this.keySource; if ( contentKey !== this.key && typeof this.instance.get( this.key ) === 'object' ) { contentKey = this.key; } this.setKeyContents( this.instance.get( contentKey ) ); this.relatedCollection = Backbone.Relational.store.getCollection( this.relatedModel ); // Explicitly clear 'keySource', to prevent a leaky abstraction if 'keySource' differs from 'key'. if ( this.keySource !== this.key ) { delete this.instance.attributes[ this.keySource ]; } // Add this Relation to instance._relations this.instance._relations[ this.key ] = this; this.initialize( opts ); if ( this.options.autoFetch ) { this.instance.fetchRelated( this.key, _.isObject( this.options.autoFetch ) ? this.options.autoFetch : {} ); } // When 'relatedModel' are created or destroyed, check if it affects this relation. this.listenTo( this.instance, 'destroy', this.destroy ) .listenTo( this.relatedCollection, 'relational:add relational:change:id', this.tryAddRelated ) .listenTo( this.relatedCollection, 'relational:remove', this.removeRelated ) } }; // Fix inheritance :\ Backbone.Relation.extend = Backbone.Model.extend; // Set up all inheritable **Backbone.Relation** properties and methods. _.extend( Backbone.Relation.prototype, Backbone.Events, Backbone.Semaphore, { options: { createModels: true, includeInJSON: true, isAutoRelation: false, autoFetch: false, parse: false }, instance: null, key: null, keyContents: null, relatedModel: null, relatedCollection: null, reverseRelation: null, related: null, /** * Check several pre-conditions. * @return {Boolean} True if pre-conditions are satisfied, false if they're not. */ checkPreconditions: function() { var i = this.instance, k = this.key, m = this.model, rm = this.relatedModel, warn = Backbone.Relational.showWarnings && typeof console !== 'undefined'; if ( !m || !k || !rm ) { warn && console.warn( 'Relation=%o: missing model, key or relatedModel (%o, %o, %o).', this, m, k, rm ); return false; } // Check if the type in 'model' inherits from Backbone.RelationalModel if ( !( m.prototype instanceof Backbone.RelationalModel ) ) { warn && console.warn( 'Relation=%o: model does not inherit from Backbone.RelationalModel (%o).', this, i ); return false; } // Check if the type in 'relatedModel' inherits from Backbone.RelationalModel if ( !( rm.prototype instanceof Backbone.RelationalModel ) ) { warn && console.warn( 'Relation=%o: relatedModel does not inherit from Backbone.RelationalModel (%o).', this, rm ); return false; } // Check if this is not a HasMany, and the reverse relation is HasMany as well if ( this instanceof Backbone.HasMany && this.reverseRelation.type === Backbone.HasMany ) { warn && console.warn( 'Relation=%o: relation is a HasMany, and the reverseRelation is HasMany as well.', this ); return false; } // Check if we're not attempting to create a relationship on a `key` that's already used. if ( i && _.keys( i._relations ).length ) { var existing = _.find( i._relations, function( rel ) { return rel.key === k; }, this ); if ( existing ) { warn && console.warn( 'Cannot create relation=%o on %o for model=%o: already taken by relation=%o.', this, k, i, existing ); return false; } } return true; }, /** * Set the related model(s) for this relation * @param {Backbone.Model|Backbone.Collection} related */ setRelated: function( related ) { this.related = related; this.instance.attributes[ this.key ] = related; }, /** * Determine if a relation (on a different RelationalModel) is the reverse * relation of the current one. * @param {Backbone.Relation} relation * @return {Boolean} */ _isReverseRelation: function( relation ) { return relation.instance instanceof this.relatedModel && this.reverseRelation.key === relation.key && this.key === relation.reverseRelation.key; }, /** * Get the reverse relations (pointing back to 'this.key' on 'this.instance') for the currently related model(s). * @param {Backbone.RelationalModel} [model] Get the reverse relations for a specific model. * If not specified, 'this.related' is used. * @return {Backbone.Relation[]} */ getReverseRelations: function( model ) { var reverseRelations = []; // Iterate over 'model', 'this.related.models' (if this.related is a Backbone.Collection), or wrap 'this.related' in an array. var models = !_.isUndefined( model ) ? [ model ] : this.related && ( this.related.models || [ this.related ] ); _.each( models || [], function( related ) { _.each( related.getRelations() || [], function( relation ) { if ( this._isReverseRelation( relation ) ) { reverseRelations.push( relation ); } }, this ); }, this ); return reverseRelations; }, /** * When `this.instance` is destroyed, cleanup our relations. * Get reverse relation, call removeRelated on each. */ destroy: function() { this.stopListening(); if ( this instanceof Backbone.HasOne ) { this.setRelated( null ); } else if ( this instanceof Backbone.HasMany ) { this.setRelated( this._prepareCollection() ); } _.each( this.getReverseRelations(), function( relation ) { relation.removeRelated( this.instance ); }, this ); } }); Backbone.HasOne = Backbone.Relation.extend({ options: { reverseRelation: { type: 'HasMany' } }, initialize: function( opts ) { this.listenTo( this.instance, 'relational:change:' + this.key, this.onChange ); var related = this.findRelated( opts ); this.setRelated( related ); // Notify new 'related' object of the new relation. _.each( this.getReverseRelations(), function( relation ) { relation.addRelated( this.instance, opts ); }, this ); }, /** * Find related Models. * @param {Object} [options] * @return {Backbone.Model} */ findRelated: function( options ) { var related = null; options = _.defaults( { parse: this.options.parse }, options ); if ( this.keyContents instanceof this.relatedModel ) { related = this.keyContents; } else if ( this.keyContents || this.keyContents === 0 ) { // since 0 can be a valid `id` as well var opts = _.defaults( { create: this.options.createModels }, options ); related = this.relatedModel.findOrCreate( this.keyContents, opts ); } // Nullify `keyId` if we have a related model; in case it was already part of the relation if ( related ) { this.keyId = null; } return related; }, /** * Normalize and reduce `keyContents` to an `id`, for easier comparison * @param {String|Number|Backbone.Model} keyContents */ setKeyContents: function( keyContents ) { this.keyContents = keyContents; this.keyId = Backbone.Relational.store.resolveIdForItem( this.relatedModel, this.keyContents ); }, /** * Event handler for `change:`. * If the key is changed, notify old & new reverse relations and initialize the new relation. */ onChange: function( model, attr, options ) { // Don't accept recursive calls to onChange (like onChange->findRelated->findOrCreate->initializeRelations->addRelated->onChange) if ( this.isLocked() ) { return; } this.acquire(); options = options ? _.clone( options ) : {}; // 'options.__related' is set by 'addRelated'/'removeRelated'. If it is set, the change // is the result of a call from a relation. If it's not, the change is the result of // a 'set' call on this.instance. var changed = _.isUndefined( options.__related ), oldRelated = changed ? this.related : options.__related; if ( changed ) { this.setKeyContents( attr ); var related = this.findRelated( options ); this.setRelated( related ); } // Notify old 'related' object of the terminated relation if ( oldRelated && this.related !== oldRelated ) { _.each( this.getReverseRelations( oldRelated ), function( relation ) { relation.removeRelated( this.instance, null, options ); }, this ); } // Notify new 'related' object of the new relation. Note we do re-apply even if this.related is oldRelated; // that can be necessary for bi-directional relations if 'this.instance' was created after 'this.related'. // In that case, 'this.instance' will already know 'this.related', but the reverse might not exist yet. _.each( this.getReverseRelations(), function( relation ) { relation.addRelated( this.instance, options ); }, this ); // Fire the 'change:' event if 'related' was updated if ( !options.silent && this.related !== oldRelated ) { var dit = this; this.changed = true; Backbone.Relational.eventQueue.add( function() { dit.instance.trigger( 'change:' + dit.key, dit.instance, dit.related, options, true ); dit.changed = false; }); } this.release(); }, /** * If a new 'this.relatedModel' appears in the 'store', try to match it to the last set 'keyContents' */ tryAddRelated: function( model, coll, options ) { if ( ( this.keyId || this.keyId === 0 ) && model.id === this.keyId ) { // since 0 can be a valid `id` as well this.addRelated( model, options ); this.keyId = null; } }, addRelated: function( model, options ) { // Allow 'model' to set up its relations before proceeding. // (which can result in a call to 'addRelated' from a relation of 'model') var dit = this; model.queue( function() { if ( model !== dit.related ) { var oldRelated = dit.related || null; dit.setRelated( model ); dit.onChange( dit.instance, model, _.defaults( { __related: oldRelated }, options ) ); } }); }, removeRelated: function( model, coll, options ) { if ( !this.related ) { return; } if ( model === this.related ) { var oldRelated = this.related || null; this.setRelated( null ); this.onChange( this.instance, model, _.defaults( { __related: oldRelated }, options ) ); } } }); Backbone.HasMany = Backbone.Relation.extend({ collectionType: null, options: { reverseRelation: { type: 'HasOne' }, collectionType: Backbone.Collection, collectionKey: true, collectionOptions: {} }, initialize: function( opts ) { this.listenTo( this.instance, 'relational:change:' + this.key, this.onChange ); // Handle a custom 'collectionType' this.collectionType = this.options.collectionType; if ( _.isFunction( this.collectionType ) && this.collectionType !== Backbone.Collection && !( this.collectionType.prototype instanceof Backbone.Collection ) ) { this.collectionType = _.result( this, 'collectionType' ); } if ( _.isString( this.collectionType ) ) { this.collectionType = Backbone.Relational.store.getObjectByName( this.collectionType ); } if ( this.collectionType !== Backbone.Collection && !( this.collectionType.prototype instanceof Backbone.Collection ) ) { throw new Error( '`collectionType` must inherit from Backbone.Collection' ); } var related = this.findRelated( opts ); this.setRelated( related ); }, /** * Bind events and setup collectionKeys for a collection that is to be used as the backing store for a HasMany. * If no 'collection' is supplied, a new collection will be created of the specified 'collectionType' option. * @param {Backbone.Collection} [collection] * @return {Backbone.Collection} */ _prepareCollection: function( collection ) { if ( this.related ) { this.stopListening( this.related ); } if ( !collection || !( collection instanceof Backbone.Collection ) ) { var options = _.isFunction( this.options.collectionOptions ) ? this.options.collectionOptions( this.instance ) : this.options.collectionOptions; collection = new this.collectionType( null, options ); } collection.model = this.relatedModel; if ( this.options.collectionKey ) { var key = this.options.collectionKey === true ? this.options.reverseRelation.key : this.options.collectionKey; if ( collection[ key ] && collection[ key ] !== this.instance ) { if ( Backbone.Relational.showWarnings && typeof console !== 'undefined' ) { console.warn( 'Relation=%o; collectionKey=%s already exists on collection=%o', this, key, this.options.collectionKey ); } } else if ( key ) { collection[ key ] = this.instance; } } this.listenTo( collection, 'relational:add', this.handleAddition ) .listenTo( collection, 'relational:remove', this.handleRemoval ) .listenTo( collection, 'relational:reset', this.handleReset ); return collection; }, /** * Find related Models. * @param {Object} [options] * @return {Backbone.Collection} */ findRelated: function( options ) { var related = null; options = _.defaults( { parse: this.options.parse }, options ); // Replace 'this.related' by 'this.keyContents' if it is a Backbone.Collection if ( this.keyContents instanceof Backbone.Collection ) { this._prepareCollection( this.keyContents ); related = this.keyContents; } // Otherwise, 'this.keyContents' should be an array of related object ids. // Re-use the current 'this.related' if it is a Backbone.Collection; otherwise, create a new collection. else { var toAdd = []; _.each( this.keyContents, function( attributes ) { if ( attributes instanceof this.relatedModel ) { var model = attributes; } else { // If `merge` is true, update models here, instead of during update. model = this.relatedModel.findOrCreate( attributes, _.extend( { merge: true }, options, { create: this.options.createModels } ) ); } model && toAdd.push( model ); }, this ); if ( this.related instanceof Backbone.Collection ) { related = this.related; } else { related = this._prepareCollection(); } // By now, both `merge` and `parse` will already have been executed for models if they were specified. // Disable them to prevent additional calls. related.set( toAdd, _.defaults( { merge: false, parse: false }, options ) ); } // Remove entries from `keyIds` that were already part of the relation (and are thus 'unchanged') this.keyIds = _.difference( this.keyIds, _.pluck( related.models, 'id' ) ); return related; }, /** * Normalize and reduce `keyContents` to a list of `ids`, for easier comparison * @param {String|Number|String[]|Number[]|Backbone.Collection} keyContents */ setKeyContents: function( keyContents ) { this.keyContents = keyContents instanceof Backbone.Collection ? keyContents : null; this.keyIds = []; if ( !this.keyContents && ( keyContents || keyContents === 0 ) ) { // since 0 can be a valid `id` as well // Handle cases the an API/user supplies just an Object/id instead of an Array this.keyContents = _.isArray( keyContents ) ? keyContents : [ keyContents ]; _.each( this.keyContents, function( item ) { var itemId = Backbone.Relational.store.resolveIdForItem( this.relatedModel, item ); if ( itemId || itemId === 0 ) { this.keyIds.push( itemId ); } }, this ); } }, /** * Event handler for `change:`. * If the contents of the key are changed, notify old & new reverse relations and initialize the new relation. */ onChange: function( model, attr, options ) { options = options ? _.clone( options ) : {}; this.setKeyContents( attr ); this.changed = false; var related = this.findRelated( options ); this.setRelated( related ); if ( !options.silent ) { var dit = this; Backbone.Relational.eventQueue.add( function() { // The `changed` flag can be set in `handleAddition` or `handleRemoval` if ( dit.changed ) { dit.instance.trigger( 'change:' + dit.key, dit.instance, dit.related, options, true ); dit.changed = false; } }); } }, /** * When a model is added to a 'HasMany', trigger 'add' on 'this.instance' and notify reverse relations. * (should be 'HasOne', must set 'this.instance' as their related). */ handleAddition: function( model, coll, options ) { //console.debug('handleAddition called; args=%o', arguments); options = options ? _.clone( options ) : {}; this.changed = true; _.each( this.getReverseRelations( model ), function( relation ) { relation.addRelated( this.instance, options ); }, this ); // Only trigger 'add' once the newly added model is initialized (so, has its relations set up) var dit = this; !options.silent && Backbone.Relational.eventQueue.add( function() { dit.instance.trigger( 'add:' + dit.key, model, dit.related, options ); }); }, /** * When a model is removed from a 'HasMany', trigger 'remove' on 'this.instance' and notify reverse relations. * (should be 'HasOne', which should be nullified) */ handleRemoval: function( model, coll, options ) { //console.debug('handleRemoval called; args=%o', arguments); options = options ? _.clone( options ) : {}; this.changed = true; _.each( this.getReverseRelations( model ), function( relation ) { relation.removeRelated( this.instance, null, options ); }, this ); var dit = this; !options.silent && Backbone.Relational.eventQueue.add( function() { dit.instance.trigger( 'remove:' + dit.key, model, dit.related, options ); }); }, handleReset: function( coll, options ) { var dit = this; options = options ? _.clone( options ) : {}; !options.silent && Backbone.Relational.eventQueue.add( function() { dit.instance.trigger( 'reset:' + dit.key, dit.related, options ); }); }, tryAddRelated: function( model, coll, options ) { var item = _.contains( this.keyIds, model.id ); if ( item ) { this.addRelated( model, options ); this.keyIds = _.without( this.keyIds, model.id ); } }, addRelated: function( model, options ) { // Allow 'model' to set up its relations before proceeding. // (which can result in a call to 'addRelated' from a relation of 'model') var dit = this; model.queue( function() { if ( dit.related && !dit.related.get( model ) ) { dit.related.add( model, _.defaults( { parse: false }, options ) ); } }); }, removeRelated: function( model, coll, options ) { if ( this.related.get( model ) ) { this.related.remove( model, options ); } } }); /** * A type of Backbone.Model that also maintains relations to other models and collections. * New events when compared to the original: * - 'add:' (model, related collection, options) * - 'remove:' (model, related collection, options) * - 'change:' (model, related model or collection, options) */ Backbone.RelationalModel = Backbone.Model.extend({ relations: null, // Relation descriptions on the prototype _relations: null, // Relation instances _isInitialized: false, _deferProcessing: false, _queue: null, _attributeChangeFired: false, // Keeps track of `change` event firing under some conditions (like nested `set`s) subModelTypeAttribute: 'type', subModelTypes: null, constructor: function( attributes, options ) { // Nasty hack, for cases like 'model.get( ).add( item )'. // Defer 'processQueue', so that when 'Relation.createModels' is used we trigger 'HasMany' // collection events only after the model is really fully set up. // Example: event for "p.on( 'add:jobs' )" -> "p.get('jobs').add( { company: c.id, person: p.id } )". if ( options && options.collection ) { var dit = this, collection = this.collection = options.collection; // Prevent `collection` from cascading down to nested models; they shouldn't go into this `if` clause. delete options.collection; this._deferProcessing = true; var processQueue = function( model ) { if ( model === dit ) { dit._deferProcessing = false; dit.processQueue(); collection.off( 'relational:add', processQueue ); } }; collection.on( 'relational:add', processQueue ); // So we do process the queue eventually, regardless of whether this model actually gets added to 'options.collection'. _.defer( function() { processQueue( dit ); }); } Backbone.Relational.store.processOrphanRelations(); Backbone.Relational.store.listenTo( this, 'relational:unregister', Backbone.Relational.store.unregister ); this._queue = new Backbone.BlockingQueue(); this._queue.block(); Backbone.Relational.eventQueue.block(); try { Backbone.Model.apply( this, arguments ); } finally { // Try to run the global queue holding external events Backbone.Relational.eventQueue.unblock(); } }, /** * Override 'trigger' to queue 'change' and 'change:*' events */ trigger: function( eventName ) { if ( eventName.length > 5 && eventName.indexOf( 'change' ) === 0 ) { var dit = this, args = arguments; if ( !Backbone.Relational.eventQueue.isLocked() ) { // If we're not in a more complicated nested scenario, fire the change event right away Backbone.Model.prototype.trigger.apply( dit, args ); } else { Backbone.Relational.eventQueue.add( function() { // Determine if the `change` event is still valid, now that all relations are populated var changed = true; if ( eventName === 'change' ) { // `hasChanged` may have gotten reset by nested calls to `set`. changed = dit.hasChanged() || dit._attributeChangeFired; dit._attributeChangeFired = false; } else { var attr = eventName.slice( 7 ), rel = dit.getRelation( attr ); if ( rel ) { // If `attr` is a relation, `change:attr` get triggered from `Relation.onChange`. // These take precedence over `change:attr` events triggered by `Model.set`. // The relation sets a fourth attribute to `true`. If this attribute is present, // continue triggering this event; otherwise, it's from `Model.set` and should be stopped. changed = ( args[ 4 ] === true ); // If this event was triggered by a relation, set the right value in `this.changed` // (a Collection or Model instead of raw data). if ( changed ) { dit.changed[ attr ] = args[ 2 ]; } // Otherwise, this event is from `Model.set`. If the relation doesn't report a change, // remove attr from `dit.changed` so `hasChanged` doesn't take it into account. else if ( !rel.changed ) { delete dit.changed[ attr ]; } } else if ( changed ) { dit._attributeChangeFired = true; } } changed && Backbone.Model.prototype.trigger.apply( dit, args ); }); } } else if ( eventName === 'destroy' ) { Backbone.Model.prototype.trigger.apply( this, arguments ); Backbone.Relational.store.unregister( this ); } else { Backbone.Model.prototype.trigger.apply( this, arguments ); } return this; }, /** * Initialize Relations present in this.relations; determine the type (HasOne/HasMany), then creates a new instance. * Invoked in the first call so 'set' (which is made from the Backbone.Model constructor). */ initializeRelations: function( options ) { this.acquire(); // Setting up relations often also involve calls to 'set', and we only want to enter this function once this._relations = {}; _.each( this.relations || [], function( rel ) { Backbone.Relational.store.initializeRelation( this, rel, options ); }, this ); this._isInitialized = true; this.release(); this.processQueue(); }, /** * When new values are set, notify this model's relations (also if options.silent is set). * (called from `set`; Relation.setRelated locks this model before calling 'set' on it to prevent loops) * @param {Object} [changedAttrs] * @param {Object} [options] */ updateRelations: function( changedAttrs, options ) { if ( this._isInitialized && !this.isLocked() ) { _.each( this._relations, function( rel ) { if ( !changedAttrs || ( rel.keySource in changedAttrs || rel.key in changedAttrs ) ) { // Fetch data in `rel.keySource` if data got set in there, or `rel.key` otherwise var value = this.attributes[ rel.keySource ] || this.attributes[ rel.key ], attr = changedAttrs && ( changedAttrs[ rel.keySource ] || changedAttrs[ rel.key ] ); // Update a relation if its value differs from this model's attributes, or it's been explicitly nullified. // Which can also happen before the originally intended related model has been found (`val` is null). if ( rel.related !== value || ( value === null && attr === null ) ) { this.trigger( 'relational:change:' + rel.key, this, value, options || {} ); } } // Explicitly clear 'keySource', to prevent a leaky abstraction if 'keySource' differs from 'key'. if ( rel.keySource !== rel.key ) { delete this.attributes[ rel.keySource ]; } }, this ); } }, /** * Either add to the queue (if we're not initialized yet), or execute right away. */ queue: function( func ) { this._queue.add( func ); }, /** * Process _queue */ processQueue: function() { if ( this._isInitialized && !this._deferProcessing && this._queue.isBlocked() ) { this._queue.unblock(); } }, /** * Get a specific relation. * @param {string} key The relation key to look for. * @return {Backbone.Relation} An instance of 'Backbone.Relation', if a relation was found for 'key', or null. */ getRelation: function( key ) { return this._relations[ key ]; }, /** * Get all of the created relations. * @return {Backbone.Relation[]} */ getRelations: function() { return _.values( this._relations ); }, /** * Retrieve related objects. * @param {string} key The relation key to fetch models for. * @param {Object} [options] Options for 'Backbone.Model.fetch' and 'Backbone.sync'. * @param {Boolean} [refresh=false] Fetch existing models from the server as well (in order to update them). * @return {jQuery.when[]} An array of request objects */ fetchRelated: function( key, options, refresh ) { // Set default `options` for fetch options = _.extend( { update: true, remove: false }, options ); var models, setUrl, requests = [], rel = this.getRelation( key ), idsToFetch = rel && ( ( rel.keyIds && rel.keyIds.slice( 0 ) ) || ( ( rel.keyId || rel.keyId === 0 ) ? [ rel.keyId ] : [] ) ); // On `refresh`, add the ids for current models in the relation to `idsToFetch` if ( refresh ) { models = rel.related instanceof Backbone.Collection ? rel.related.models : [ rel.related ]; _.each( models, function( model ) { if ( model.id || model.id === 0 ) { idsToFetch.push( model.id ); } }); } if ( idsToFetch && idsToFetch.length ) { // Find (or create) a model for each one that is to be fetched var created = []; models = _.map( idsToFetch, function( id ) { var model = rel.relatedModel.findModel( id ); if ( !model ) { var attrs = {}; attrs[ rel.relatedModel.prototype.idAttribute ] = id; model = rel.relatedModel.findOrCreate( attrs, options ); created.push( model ); } return model; }, this ); // Try if the 'collection' can provide a url to fetch a set of models in one request. if ( rel.related instanceof Backbone.Collection && _.isFunction( rel.related.url ) ) { setUrl = rel.related.url( models ); } // An assumption is that when 'Backbone.Collection.url' is a function, it can handle building of set urls. // To make sure it can, test if the url we got by supplying a list of models to fetch is different from // the one supplied for the default fetch action (without args to 'url'). if ( setUrl && setUrl !== rel.related.url() ) { var opts = _.defaults( { error: function() { var args = arguments; _.each( created, function( model ) { model.trigger( 'destroy', model, model.collection, options ); options.error && options.error.apply( model, args ); }); }, url: setUrl }, options ); requests = [ rel.related.fetch( opts ) ]; } else { requests = _.map( models, function( model ) { var opts = _.defaults( { error: function() { if ( _.contains( created, model ) ) { model.trigger( 'destroy', model, model.collection, options ); options.error && options.error.apply( model, arguments ); } } }, options ); return model.fetch( opts ); }, this ); } } return requests; }, get: function( attr ) { var originalResult = Backbone.Model.prototype.get.call( this, attr ); // Use `originalResult` get if dotNotation not enabled or not required because no dot is in `attr` if ( !this.dotNotation || attr.indexOf( '.' ) === -1 ) { return originalResult; } // Go through all splits and return the final result var splits = attr.split( '.' ); var result = _.reduce( splits, function( model, split ) { if ( _.isNull( model ) || _.isUndefined( model ) ) { // Return undefined if the path cannot be expanded return undefined; } else if ( model instanceof Backbone.Model ) { return Backbone.Model.prototype.get.call( model, split ); } else if ( model instanceof Backbone.Collection ) { return Backbone.Collection.prototype.at.call( model, split ) } else { throw new Error( 'Attribute must be an instanceof Backbone.Model or Backbone.Collection. Is: ' + model + ', currentSplit: ' + split ); } }, this ); if ( originalResult !== undefined && result !== undefined ) { throw new Error( "Ambiguous result for '" + attr + "'. direct result: " + originalResult + ", dotNotation: " + result ); } return originalResult || result; }, set: function( key, value, options ) { Backbone.Relational.eventQueue.block(); // Duplicate backbone's behavior to allow separate key/value parameters, instead of a single 'attributes' object var attributes; if ( _.isObject( key ) || key == null ) { attributes = key; options = value; } else { attributes = {}; attributes[ key ] = value; } try { var id = this.id, newId = attributes && this.idAttribute in attributes && attributes[ this.idAttribute ]; // Check if we're not setting a duplicate id before actually calling `set`. Backbone.Relational.store.checkId( this, newId ); var result = Backbone.Model.prototype.set.apply( this, arguments ); // Ideal place to set up relations, if this is the first time we're here for this model if ( !this._isInitialized && !this.isLocked() ) { this.constructor.initializeModelHierarchy(); // Only register models that have an id. A model will be registered when/if it gets an id later on. if ( newId || newId === 0 ) { Backbone.Relational.store.register( this ); } this.initializeRelations( options ); } // The store should know about an `id` update asap else if ( newId && newId !== id ) { Backbone.Relational.store.update( this ); } if ( attributes ) { this.updateRelations( attributes, options ); } } finally { // Try to run the global queue holding external events Backbone.Relational.eventQueue.unblock(); } return result; }, clone: function() { var attributes = _.clone( this.attributes ); if ( !_.isUndefined( attributes[ this.idAttribute ] ) ) { attributes[ this.idAttribute ] = null; } _.each( this.getRelations(), function( rel ) { delete attributes[ rel.key ]; }); return new this.constructor( attributes ); }, /** * Convert relations to JSON, omits them when required */ toJSON: function( options ) { // If this Model has already been fully serialized in this branch once, return to avoid loops if ( this.isLocked() ) { return this.id; } this.acquire(); var json = Backbone.Model.prototype.toJSON.call( this, options ); if ( this.constructor._superModel && !( this.constructor._subModelTypeAttribute in json ) ) { json[ this.constructor._subModelTypeAttribute ] = this.constructor._subModelTypeValue; } _.each( this._relations, function( rel ) { var related = json[ rel.key ], includeInJSON = rel.options.includeInJSON, value = null; if ( includeInJSON === true ) { if ( related && _.isFunction( related.toJSON ) ) { value = related.toJSON( options ); } } else if ( _.isString( includeInJSON ) ) { if ( related instanceof Backbone.Collection ) { value = related.pluck( includeInJSON ); } else if ( related instanceof Backbone.Model ) { value = related.get( includeInJSON ); } // Add ids for 'unfound' models if includeInJSON is equal to (only) the relatedModel's `idAttribute` if ( includeInJSON === rel.relatedModel.prototype.idAttribute ) { if ( rel instanceof Backbone.HasMany ) { value = value.concat( rel.keyIds ); } else if ( rel instanceof Backbone.HasOne ) { value = value || rel.keyId; if ( !value && !_.isObject( rel.keyContents ) ) { value = rel.keyContents || null; } } } } else if ( _.isArray( includeInJSON ) ) { if ( related instanceof Backbone.Collection ) { value = []; related.each( function( model ) { var curJson = {}; _.each( includeInJSON, function( key ) { curJson[ key ] = model.get( key ); }); value.push( curJson ); }); } else if ( related instanceof Backbone.Model ) { value = {}; _.each( includeInJSON, function( key ) { value[ key ] = related.get( key ); }); } } else { delete json[ rel.key ]; } if ( includeInJSON ) { json[ rel.keyDestination ] = value; } if ( rel.keyDestination !== rel.key ) { delete json[ rel.key ]; } }); this.release(); return json; } }, { /** * * @param superModel * @returns {Backbone.RelationalModel.constructor} */ setup: function( superModel ) { // We don't want to share a relations array with a parent, as this will cause problems with reverse // relations. Since `relations` may also be a property or function, only use slice if we have an array. this.prototype.relations = ( this.prototype.relations || [] ).slice( 0 ); this._subModels = {}; this._superModel = null; // If this model has 'subModelTypes' itself, remember them in the store if ( this.prototype.hasOwnProperty( 'subModelTypes' ) ) { Backbone.Relational.store.addSubModels( this.prototype.subModelTypes, this ); } // The 'subModelTypes' property should not be inherited, so reset it. else { this.prototype.subModelTypes = null; } // Initialize all reverseRelations that belong to this new model. _.each( this.prototype.relations || [], function( rel ) { if ( !rel.model ) { rel.model = this; } if ( rel.reverseRelation && rel.model === this ) { var preInitialize = true; if ( _.isString( rel.relatedModel ) ) { /** * The related model might not be defined for two reasons * 1. it is related to itself * 2. it never gets defined, e.g. a typo * 3. the model hasn't been defined yet, but will be later * In neither of these cases do we need to pre-initialize reverse relations. * However, for 3. (which is, to us, indistinguishable from 2.), we do need to attempt * setting up this relation again later, in case the related model is defined later. */ var relatedModel = Backbone.Relational.store.getObjectByName( rel.relatedModel ); preInitialize = relatedModel && ( relatedModel.prototype instanceof Backbone.RelationalModel ); } if ( preInitialize ) { Backbone.Relational.store.initializeRelation( null, rel ); } else if ( _.isString( rel.relatedModel ) ) { Backbone.Relational.store.addOrphanRelation( rel ); } } }, this ); return this; }, /** * Create a 'Backbone.Model' instance based on 'attributes'. * @param {Object} attributes * @param {Object} [options] * @return {Backbone.Model} */ build: function( attributes, options ) { // 'build' is a possible entrypoint; it's possible no model hierarchy has been determined yet. this.initializeModelHierarchy(); // Determine what type of (sub)model should be built if applicable. var model = this._findSubModelType( this, attributes ) || this; return new model( attributes, options ); }, /** * Determines what type of (sub)model should be built if applicable. * Looks up the proper subModelType in 'this._subModels', recursing into * types until a match is found. Returns the applicable 'Backbone.Model' * or null if no match is found. * @param {Backbone.Model} type * @param {Object} attributes * @return {Backbone.Model} */ _findSubModelType: function( type, attributes ) { if ( type._subModels && type.prototype.subModelTypeAttribute in attributes ) { var subModelTypeAttribute = attributes[ type.prototype.subModelTypeAttribute ]; var subModelType = type._subModels[ subModelTypeAttribute ]; if ( subModelType ) { return subModelType; } else { // Recurse into subModelTypes to find a match for ( subModelTypeAttribute in type._subModels ) { subModelType = this._findSubModelType( type._subModels[ subModelTypeAttribute ], attributes ); if ( subModelType ) { return subModelType; } } } } return null; }, /** * */ initializeModelHierarchy: function() { // Inherit any relations that have been defined in the parent model. this.inheritRelations(); // If we came here through 'build' for a model that has 'subModelTypes' then try to initialize the ones that // haven't been resolved yet. if ( this.prototype.subModelTypes ) { var resolvedSubModels = _.keys( this._subModels ); var unresolvedSubModels = _.omit( this.prototype.subModelTypes, resolvedSubModels ); _.each( unresolvedSubModels, function( subModelTypeName ) { var subModelType = Backbone.Relational.store.getObjectByName( subModelTypeName ); subModelType && subModelType.initializeModelHierarchy(); }); } }, inheritRelations: function() { // Bail out if we've been here before. if ( !_.isUndefined( this._superModel ) && !_.isNull( this._superModel ) ) { return; } // Try to initialize the _superModel. Backbone.Relational.store.setupSuperModel( this ); // If a superModel has been found, copy relations from the _superModel if they haven't been inherited automatically // (due to a redefinition of 'relations'). if ( this._superModel ) { // The _superModel needs a chance to initialize its own inherited relations before we attempt to inherit relations // from the _superModel. You don't want to call 'initializeModelHierarchy' because that could cause sub-models of // this class to inherit their relations before this class has had chance to inherit it's relations. this._superModel.inheritRelations(); if ( this._superModel.prototype.relations ) { // Find relations that exist on the '_superModel', but not yet on this model. var inheritedRelations = _.filter( this._superModel.prototype.relations || [], function( superRel ) { return !_.any( this.prototype.relations || [], function( rel ) { return superRel.relatedModel === rel.relatedModel && superRel.key === rel.key; }, this ); }, this ); this.prototype.relations = inheritedRelations.concat( this.prototype.relations ); } } // Otherwise, make sure we don't get here again for this type by making '_superModel' false so we fail the // isUndefined/isNull check next time. else { this._superModel = false; } }, /** * Find an instance of `this` type in 'Backbone.Relational.store'. * A new model is created if no matching model is found, `attributes` is an object, and `options.create` is true. * - If `attributes` is a string or a number, `findOrCreate` will query the `store` and return a model if found. * - If `attributes` is an object and is found in the store, the model will be updated with `attributes` unless `options.update` is `false`. * @param {Object|String|Number} attributes Either a model's id, or the attributes used to create or update a model. * @param {Object} [options] * @param {Boolean} [options.create=true] * @param {Boolean} [options.merge=true] * @param {Boolean} [options.parse=false] * @return {Backbone.RelationalModel} */ findOrCreate: function( attributes, options ) { options || ( options = {} ); var parsedAttributes = ( _.isObject( attributes ) && options.parse && this.prototype.parse ) ? this.prototype.parse( _.clone( attributes ) ) : attributes; // If specified, use a custom `find` function to match up existing models to the given attributes. // Otherwise, try to find an instance of 'this' model type in the store var model = this.findModel( parsedAttributes ); // If we found an instance, update it with the data in 'item' (unless 'options.merge' is false). // If not, create an instance (unless 'options.create' is false). if ( _.isObject( attributes ) ) { if ( model && options.merge !== false ) { // Make sure `options.collection` and `options.url` doesn't cascade to nested models delete options.collection; delete options.url; model.set( parsedAttributes, options ); } else if ( !model && options.create !== false ) { model = this.build( parsedAttributes, _.defaults( { parse: false }, options ) ); } } return model; }, /** * Find an instance of `this` type in 'Backbone.Relational.store'. * - If `attributes` is a string or a number, `find` will query the `store` and return a model if found. * - If `attributes` is an object and is found in the store, the model will be updated with `attributes` unless `options.update` is `false`. * @param {Object|String|Number} attributes Either a model's id, or the attributes used to create or update a model. * @param {Object} [options] * @param {Boolean} [options.merge=true] * @param {Boolean} [options.parse=false] * @return {Backbone.RelationalModel} */ find: function( attributes, options ) { options || ( options = {} ); options.create = false; return this.findOrCreate( attributes, options ); }, /** * A hook to override the matching when updating (or creating) a model. * The default implementation is to look up the model by id in the store. * @param {Object} attributes * @returns {Backbone.RelationalModel} */ findModel: function( attributes ) { return Backbone.Relational.store.find( this, attributes ); } }); _.extend( Backbone.RelationalModel.prototype, Backbone.Semaphore ); /** * Override Backbone.Collection._prepareModel, so objects will be built using the correct type * if the collection.model has subModels. * Attempts to find a model for `attrs` in Backbone.store through `findOrCreate` * (which sets the new properties on it if found), or instantiates a new model. */ Backbone.Collection.prototype.__prepareModel = Backbone.Collection.prototype._prepareModel; Backbone.Collection.prototype._prepareModel = function( attrs, options ) { var model; if ( attrs instanceof Backbone.Model ) { if ( !attrs.collection ) { attrs.collection = this; } model = attrs; } else { options = options ? _.clone( options ) : {}; options.collection = this; if ( typeof this.model.findOrCreate !== 'undefined' ) { model = this.model.findOrCreate( attrs, options ); } else { model = new this.model( attrs, options ); } if ( model && model.validationError ) { this.trigger( 'invalid', this, attrs, options ); model = false; } } return model; }; /** * Override Backbone.Collection.set, so we'll create objects from attributes where required, * and update the existing models. Also, trigger 'relational:add'. */ var set = Backbone.Collection.prototype.__set = Backbone.Collection.prototype.set; Backbone.Collection.prototype.set = function( models, options ) { // Short-circuit if this Collection doesn't hold RelationalModels if ( !( this.model.prototype instanceof Backbone.RelationalModel ) ) { return set.apply( this, arguments ); } if ( options && options.parse ) { models = this.parse( models, options ); } var singular = !_.isArray( models ), newModels = [], toAdd = []; models = singular ? ( models ? [ models ] : [] ) : _.clone( models ); //console.debug( 'calling add on coll=%o; model=%o, options=%o', this, models, options ); _.each( models, function( model ) { if ( !( model instanceof Backbone.Model ) ) { model = Backbone.Collection.prototype._prepareModel.call( this, model, options ); } if ( model ) { toAdd.push( model ); if ( !( this.get( model ) || this.get( model.cid ) ) ) { newModels.push( model ); } // If we arrive in `add` while performing a `set` (after a create, so the model gains an `id`), // we may get here before `_onModelEvent` has had the chance to update `_byId`. else if ( model.id != null ) { this._byId[ model.id ] = model; } } }, this ); // Add 'models' in a single batch, so the original add will only be called once (and thus 'sort', etc). // If `parse` was specified, the collection and contained models have been parsed now. toAdd = singular ? ( toAdd.length ? toAdd[ 0 ] : null ) : toAdd; var result = set.call( this, toAdd, _.defaults( { parse: false }, options ) ); _.each( newModels, function( model ) { // Fire a `relational:add` event for any model in `newModels` that has actually been added to the collection. if ( this.get( model ) || this.get( model.cid ) ) { this.trigger( 'relational:add', model, this, options ); } }, this ); return result; }; /** * Override 'Backbone.Collection.remove' to trigger 'relational:remove'. */ var remove = Backbone.Collection.prototype.__remove = Backbone.Collection.prototype.remove; Backbone.Collection.prototype.remove = function( models, options ) { // Short-circuit if this Collection doesn't hold RelationalModels if ( !( this.model.prototype instanceof Backbone.RelationalModel ) ) { return remove.apply( this, arguments ); } var singular = !_.isArray( models ), toRemove = []; models = singular ? ( models ? [ models ] : [] ) : _.clone( models ); options || ( options = {} ); //console.debug('calling remove on coll=%o; models=%o, options=%o', this, models, options ); _.each( models, function( model ) { model = this.get( model ) || ( model && this.get( model.cid ) ); model && toRemove.push( model ); }, this ); var result = remove.call( this, singular ? ( toRemove.length ? toRemove[ 0 ] : null ) : toRemove, options ); _.each( toRemove, function( model ) { this.trigger( 'relational:remove', model, this, options ); }, this ); return result; }; /** * Override 'Backbone.Collection.reset' to trigger 'relational:reset'. */ var reset = Backbone.Collection.prototype.__reset = Backbone.Collection.prototype.reset; Backbone.Collection.prototype.reset = function( models, options ) { options = _.extend( { merge: true }, options ); var result = reset.call( this, models, options ); if ( this.model.prototype instanceof Backbone.RelationalModel ) { this.trigger( 'relational:reset', this, options ); } return result; }; /** * Override 'Backbone.Collection.sort' to trigger 'relational:reset'. */ var sort = Backbone.Collection.prototype.__sort = Backbone.Collection.prototype.sort; Backbone.Collection.prototype.sort = function( options ) { var result = sort.call( this, options ); if ( this.model.prototype instanceof Backbone.RelationalModel ) { this.trigger( 'relational:reset', this, options ); } return result; }; /** * Override 'Backbone.Collection.trigger' so 'add', 'remove' and 'reset' events are queued until relations * are ready. */ var trigger = Backbone.Collection.prototype.__trigger = Backbone.Collection.prototype.trigger; Backbone.Collection.prototype.trigger = function( eventName ) { // Short-circuit if this Collection doesn't hold RelationalModels if ( !( this.model.prototype instanceof Backbone.RelationalModel ) ) { return trigger.apply( this, arguments ); } if ( eventName === 'add' || eventName === 'remove' || eventName === 'reset' || eventName === 'sort' ) { var dit = this, args = arguments; if ( _.isObject( args[ 3 ] ) ) { args = _.toArray( args ); // the fourth argument is the option object. // we need to clone it, as it could be modified while we wait on the eventQueue to be unblocked args[ 3 ] = _.clone( args[ 3 ] ); } Backbone.Relational.eventQueue.add( function() { trigger.apply( dit, args ); }); } else { trigger.apply( this, arguments ); } return this; }; // Override .extend() to automatically call .setup() Backbone.RelationalModel.extend = function( protoProps, classProps ) { var child = Backbone.Model.extend.apply( this, arguments ); child.setup( this ); return child; }; }));