/*! * Module exports class Model */ module.exports = DataAccessObject; /*! * Module dependencies */ var jutil = require('./jutil'); var validations = require('./validations.js'); var ValidationError = validations.ValidationError; var Relation = require('./relations.js'); var Inclusion = require('./include.js'); var List = require('./list.js'); var geo = require('./geo'); var mergeQuery = require('./scope.js').mergeQuery; var Memory = require('./connectors/memory').Memory; var utils = require('./utils'); var fieldsToArray = utils.fieldsToArray; var removeUndefined = utils.removeUndefined; var util = require('util'); var assert = require('assert'); /** * Base class for all persistent objects. * Provides a common API to access any database connector. * This class describes only abstract behavior. Refer to the specific connector for additional details. * * `DataAccessObject` mixes `Inclusion` classes methods. * @class DataAccessObject */ function DataAccessObject() { if (DataAccessObject._mixins) { var self = this; var args = arguments; DataAccessObject._mixins.forEach(function (m) { m.call(self, args); }); } } function idName(m) { return m.getDataSource().idName ? m.getDataSource().idName(m.modelName) : 'id'; } function getIdValue(m, data) { return data && data[m.getDataSource().idName(m.modelName)]; } function setIdValue(m, data, value) { if (data) { data[idName(m)] = value; } } DataAccessObject._forDB = function (data) { if (!(this.getDataSource().isRelational && this.getDataSource().isRelational())) { return data; } var res = {}; for (var propName in data) { var type = this.getPropertyType(propName); if (type === 'JSON' || type === 'Any' || type === 'Object' || data[propName] instanceof Array) { res[propName] = JSON.stringify(data[propName]); } else { res[propName] = data[propName]; } } return res; }; /** * Create an instance of Model with given data and save to the attached data source. Callback is optional. * Example: *```js * User.create({first: 'Joe', last: 'Bob'}, function(err, user) { * console.log(user instanceof User); // true * }); * ``` * Note: You must include a callback and use the created model provided in the callback if your code depends on your model being * saved or having an ID. * * @param {Object} data Optional data object * @param {Function} callback Callback function called with these arguments: * - err (null or Error) * - instance (null or Model) */ DataAccessObject.create = function (data, callback) { if (stillConnecting(this.getDataSource(), this, arguments)) return; var Model = this; var modelName = Model.modelName; if (typeof data === 'function') { callback = data; data = {}; } if (typeof callback !== 'function') { callback = function () { }; } if (!data) { data = {}; } if (Array.isArray(data)) { var instances = []; var errors = Array(data.length); var gotError = false; var wait = data.length; if (wait === 0) { callback(null, []); } for (var i = 0; i < data.length; i += 1) { (function (d, i) { instances.push(Model.create(d, function (err, inst) { if (err) { errors[i] = err; gotError = true; } modelCreated(); })); })(data[i], i); } return instances; function modelCreated() { if (--wait === 0) { callback(gotError ? errors : null, instances); if(!gotError) instances.forEach(Model.emit.bind('changed')); } } } var obj; // if we come from save if (data instanceof Model && !getIdValue(this, data)) { obj = data; } else { obj = new Model(data); } data = obj.toObject(true); // validation required obj.isValid(function (valid) { if (valid) { create(); } else { callback(new ValidationError(obj), obj); } }, data); function create() { obj.trigger('create', function (createDone) { obj.trigger('save', function (saveDone) { var _idName = idName(Model); this._adapter().create(modelName, this.constructor._forDB(obj.toObject(true)), function (err, id, rev) { if (id) { obj.__data[_idName] = id; defineReadonlyProp(obj, _idName, id); } if (rev) { obj._rev = rev; } if (err) { return callback(err, obj); } saveDone.call(obj, function () { createDone.call(obj, function () { callback(err, obj); if(!err) Model.emit('changed', obj); }); }); }, obj); }, obj, callback); }, obj, callback); } // for chaining return obj; }; function stillConnecting(dataSource, obj, args) { return dataSource.ready(obj, args); } /** * Update or insert a model instance: update exiting record if one is found, such that parameter `data.id` matches `id` of model instance; * otherwise, insert a new record. * * NOTE: No setters, validations, or hooks are applied when using upsert. * `updateOrCreate` is an alias * @param {Object} data The model instance data * @param {Function} callback The callback function (optional). */ // [FIXME] rfeng: This is a hack to set up 'upsert' first so that // 'upsert' will be used as the name for strong-remoting to keep it backward // compatible for angular SDK DataAccessObject.updateOrCreate = DataAccessObject.upsert = function upsert(data, callback) { if (stillConnecting(this.getDataSource(), this, arguments)) { return; } var Model = this; if (!getIdValue(this, data)) { return this.create(data, callback); } if (this.getDataSource().connector.updateOrCreate) { var update = data; var inst = data; if(!(data instanceof Model)) { inst = new Model(data); } update = inst.toObject(false); update = removeUndefined(update); this.getDataSource().connector.updateOrCreate(Model.modelName, update, function (err, data) { var obj; if (data && !(data instanceof Model)) { inst._initProperties(data); obj = inst; } else { obj = data; } callback(err, obj); if(!err) { Model.emit('changed', inst); } }); } else { this.findById(getIdValue(this, data), function (err, inst) { if (err) { return callback(err); } if (inst) { inst.updateAttributes(data, callback); } else { var obj = new Model(data); obj.save(data, callback); } }); } }; /** * Find one record that matches specified query criteria. Same as `find`, but limited to one record, and this function returns an * object, not a collection. * If the specified instance is not found, then create it using data provided as second argument. * * @param {Object} query Search conditions. See [find](#dataaccessobjectfindquery-callback) for query format. * For example: `{where: {test: 'me'}}`. * @param {Object} data Object to create. * @param {Function} cb Callback called with (err, instance) */ DataAccessObject.findOrCreate = function findOrCreate(query, data, callback) { if (query === undefined) { query = {where: {}}; } if (typeof data === 'function' || typeof data === 'undefined') { callback = data; data = query && query.where; } if (typeof callback === 'undefined') { callback = function () { }; } var t = this; this.findOne(query, function (err, record) { if (err) return callback(err); if (record) return callback(null, record); t.create(data, callback); }); }; /** * Check whether a model instance exists in database * * @param {id} id Identifier of object (primary key value) * @param {Function} cb Callback function called with (err, exists: Bool) */ DataAccessObject.exists = function exists(id, cb) { if (stillConnecting(this.getDataSource(), this, arguments)) return; if (id !== undefined && id !== null && id !== '') { this.dataSource.connector.exists(this.modelName, id, cb); } else { cb(new Error('Model::exists requires the id argument')); } }; /** * Find model instance by ID. * * Example: * ```js * User.findById(23, function(err, user) { * console.info(user.id); // 23 * }); * ``` * * @param {*} id Primary key value * @param {Function} cb Callback called with (err, instance) */ DataAccessObject.findById = function find(id, cb) { if (stillConnecting(this.getDataSource(), this, arguments)) return; this.getDataSource().connector.find(this.modelName, id, function (err, data) { var obj = null; if (data) { if (!getIdValue(this, data)) { setIdValue(this, data, id); } obj = new this(data, {applySetters: false}); } cb(err, obj); }.bind(this)); }; DataAccessObject.findByIds = function(ids, cond, cb) { if (typeof cond === 'function') { cb = cond; cond = {}; } var pk = this.dataSource.idName(this.modelName) || 'id'; if (ids.length === 0) { process.nextTick(function() { cb(null, []); }); return; } var filter = { where: {} }; filter.where[pk] = { inq: ids }; mergeQuery(filter, cond || {}); this.find(filter, function(err, results) { cb(err, err ? results : this.sortByIds(ids, results)); }.bind(this)); }; DataAccessObject.sortByIds = function(ids, results) { var pk = this.dataSource.idName(this.modelName) || 'id'; ids = ids.map(function(id) { return (typeof id === 'object') ? id.toString() : id; }); results.sort(function(x, y) { var idA = (typeof x[pk] === 'object') ? x[pk].toString() : x[pk]; var idB = (typeof y[pk] === 'object') ? y[pk].toString() : y[pk]; var a = ids.indexOf(idA); var b = ids.indexOf(idB); if (a === -1 || b === -1) return 1; // last if (a !== b) { if (a > b) return 1; if (a < b) return -1; } }); return results; }; function convertNullToNotFoundError(ctx, cb) { if (ctx.result !== null) return cb(); var modelName = ctx.method.sharedClass.name; var id = ctx.getArgByName('id'); var msg = 'Unknown "' + modelName + '" id "' + id + '".'; var error = new Error(msg); error.statusCode = error.status = 404; cb(error); } // alias function for backwards compat. DataAccessObject.all = function () { DataAccessObject.find.apply(this, arguments); }; var operators = { gt: '>', gte: '>=', lt: '<', lte: '<=', between: 'BETWEEN', inq: 'IN', nin: 'NOT IN', neq: '!=', like: 'LIKE', nlike: 'NOT LIKE' }; /* * Normalize the filter object and throw errors if invalid values are detected * @param {Object} filter The query filter object * @returns {Object} The normalized filter object * @private */ DataAccessObject._normalize = function (filter) { if (!filter) { return undefined; } var err = null; if ((typeof filter !== 'object') || Array.isArray(filter)) { err = new Error(util.format('The query filter %j is not an object', filter)); err.statusCode = 400; throw err; } if (filter.limit || filter.skip || filter.offset) { var limit = Number(filter.limit || 100); var offset = Number(filter.skip || filter.offset || 0); if (isNaN(limit) || limit <= 0 || Math.ceil(limit) !== limit) { err = new Error(util.format('The limit parameter %j is not valid', filter.limit)); err.statusCode = 400; throw err; } if (isNaN(offset) || offset < 0 || Math.ceil(offset) !== offset) { err = new Error(util.format('The offset/skip parameter %j is not valid', filter.skip || filter.offset)); err.statusCode = 400; throw err; } filter.limit = limit; filter.offset = offset; filter.skip = offset; } if (filter.order) { var order = filter.order; if (!Array.isArray(order)) { order = [order]; } var fields = []; for (var i = 0, m = order.length; i < m; i++) { if (typeof order[i] === 'string') { // Normalize 'f1 ASC, f2 DESC, f3' to ['f1 ASC', 'f2 DESC', 'f3'] var tokens = order[i].split(/(?:\s*,\s*)+/); for (var t = 0, n = tokens.length; t < n; t++) { var token = tokens[t]; if (token.length === 0) { // Skip empty token continue; } var parts = token.split(/\s+/); if (parts.length >= 2) { var dir = parts[1].toUpperCase(); if (dir === 'ASC' || dir === 'DESC') { token = parts[0] + ' ' + dir; } else { err = new Error(util.format('The order %j has invalid direction', token)); err.statusCode = 400; throw err; } } fields.push(token); } } else { err = new Error(util.format('The order %j is not valid', order[i])); err.statusCode = 400; throw err; } } if (fields.length === 1 && typeof filter.order === 'string') { filter.order = fields[0]; } else { filter.order = fields; } } // normalize fields as array of included property names if (filter.fields) { filter.fields = fieldsToArray(filter.fields, Object.keys(this.definition.properties)); } filter = removeUndefined(filter); this._coerce(filter.where); return filter; }; function DateType(arg) { return new Date(arg); } function BooleanType(val) { if (val === 'true') { return true; } else if (val === 'false') { return false; } else { return Boolean(val); } } function NumberType(val) { var num = Number(val); return !isNaN(num) ? num : val; } /* * Coerce values based the property types * @param {Object} where The where clause * @returns {Object} The coerced where clause * @private */ DataAccessObject._coerce = function (where) { var self = this; if (!where) { return where; } var err; if (typeof where !== 'object' || Array.isArray(where)) { err = new Error(util.format('The where clause %j is not an object', where)); err.statusCode = 400; throw err; } var props = self.definition.properties; for (var p in where) { // Handle logical operators if (p === 'and' || p === 'or' || p === 'nor') { var clauses = where[p]; if (Array.isArray(clauses)) { for (var k = 0; k < clauses.length; k++) { self._coerce(clauses[k]); } } else { err = new Error(util.format('The %s operator has invalid clauses %j', p, clauses)); err.statusCode = 400; throw err; } return where; } var DataType = props[p] && props[p].type; if (!DataType) { continue; } if (Array.isArray(DataType) || DataType === Array) { DataType = DataType[0]; } if (DataType === Date) { DataType = DateType; } else if (DataType === Boolean) { DataType = BooleanType; } else if (DataType === Number) { // This fixes a regression in mongodb connector // For numbers, only convert it produces a valid number // LoopBack by default injects a number id. We should fix it based // on the connector's input, for example, MongoDB should use string // while RDBs typically use number DataType = NumberType; } if (!DataType) { continue; } if (DataType === geo.GeoPoint) { // Skip the GeoPoint as the near operator breaks the assumption that // an operation has only one property // We should probably fix it based on // http://docs.mongodb.org/manual/reference/operator/query/near/ // The other option is to make operators start with $ continue; } var val = where[p]; if (val === null || val === undefined) { continue; } // Check there is an operator var operator = null; if ('object' === typeof val) { if (Object.keys(val).length !== 1) { // Skip if there are not only one properties // as the assumption for operators is not true here continue; } for (var op in operators) { if (op in val) { val = val[op]; operator = op; switch(operator) { case 'inq': case 'nin': if (!Array.isArray(val)) { err = new Error(util.format('The %s property has invalid clause %j', p, where[p])); err.statusCode = 400; throw err; } break; case 'between': if (!Array.isArray(val) || val.length !== 2) { err = new Error(util.format('The %s property has invalid clause %j', p, where[p])); err.statusCode = 400; throw err; } break; case 'like': case 'nlike': if (!(typeof val === 'string' || val instanceof RegExp)) { err = new Error(util.format('The %s property has invalid clause %j', p, where[p])); err.statusCode = 400; throw err; } break; } break; } } } // Coerce the array items if (Array.isArray(val)) { for (var i = 0; i < val.length; i++) { if (val[i] !== null && val[i] !== undefined) { val[i] = DataType(val[i]); } } } else { if (val !== null && val !== undefined) { val = DataType(val); } } // Rebuild {property: {operator: value}} if (operator) { var value = {}; value[operator] = val; val = value; } where[p] = val; } return where; }; /** * Find all instances of Model that match the specified query. * Fields used for filter and sort should be declared with `{index: true}` in model definition. * See [Querying models](http://docs.strongloop.com/display/DOC/Querying+models) for more information. * * For example, find the second page of ten users over age 21 in descending order exluding the password property. * * ```js * User.find({ * where: { * age: {gt: 21}}, * order: 'age DESC', * limit: 10, * skip: 10, * fields: {password: false} * }, * console.log * ); * ``` * * @options {Object} [query] Optional JSON object that specifies query criteria and parameters. * @property {Object} where Search criteria in JSON format `{ key: val, key2: {gt: 'val2'}}`. * Operations: * - gt: > * - gte: >= * - lt: < * - lte: <= * - between * - inq: IN * - nin: NOT IN * - neq: != * - like: LIKE * - nlike: NOT LIKE * * You can also use `and` and `or` operations. See [Querying models](http://docs.strongloop.com/display/DOC/Querying+models) for more information. * @property {String|Object|Array} include Allows you to load relations of several objects and optimize numbers of requests. * Format examples; * - `'posts'`: Load posts * - `['posts', 'passports']`: Load posts and passports * - `{'owner': 'posts'}`: Load owner and owner's posts * - `{'owner': ['posts', 'passports']}`: Load owner, owner's posts, and owner's passports * - `{'owner': [{posts: 'images'}, 'passports']}`: Load owner, owner's posts, owner's posts' images, and owner's passports * See `DataAccessObject.include()`. * @property {String} order Sort order. Format: `'key1 ASC, key2 DESC'` * @property {Number} limit Maximum number of instances to return. * @property {Number} skip Number of instances to skip. * @property {Number} offset Alias for `skip`. * @property {Object|Array|String} fields Included/excluded fields. * - `['foo']` or `'foo'` - include only the foo property * - `['foo', 'bar']` - include the foo and bar properties. Format: * - `{foo: true}` - include only foo * - `{bat: false}` - include all properties, exclude bat * * @param {Function} callback Required callback function. Call this function with two arguments: `err` (null or Error) and an array of instances. */ DataAccessObject.find = function find(query, cb) { if (stillConnecting(this.getDataSource(), this, arguments)) return; if (arguments.length === 1) { cb = query; query = null; } var self = this; query = query || {}; try { this._normalize(query); } catch (err) { return process.nextTick(function () { cb && cb(err); }); } var near = query && geo.nearFilter(query.where); var supportsGeo = !!this.getDataSource().connector.buildNearFilter; if (near) { if (supportsGeo) { // convert it this.getDataSource().connector.buildNearFilter(query, near); } else if (query.where) { // do in memory query // using all documents this.getDataSource().connector.all(this.modelName, {}, function (err, data) { var memory = new Memory(); var modelName = self.modelName; if (err) { cb(err); } else if (Array.isArray(data)) { memory.define({ properties: self.dataSource.definitions[self.modelName].properties, settings: self.dataSource.definitions[self.modelName].settings, model: self }); data.forEach(function (obj) { memory.create(modelName, obj, function () { // noop }); }); memory.all(modelName, query, cb); } else { cb(null, []); } }.bind(this)); // already handled return; } } this.getDataSource().connector.all(this.modelName, query, function (err, data) { if (data && data.forEach) { data.forEach(function (d, i) { var obj = new self(d, {fields: query.fields, applySetters: false}); if (query && query.include) { if (query.collect) { // The collect property indicates that the query is to return the // standlone items for a related model, not as child of the parent object // For example, article.tags obj = obj.__cachedRelations[query.collect]; } else { // This handles the case to return parent items including the related // models. For example, Article.find({include: 'tags'}, ...); // Try to normalize the include var includes = query.include || []; if (typeof includes === 'string') { includes = [includes]; } else if (!Array.isArray(includes) && typeof includes === 'object') { includes = Object.keys(includes); } includes.forEach(function (inc) { // Promote the included model as a direct property var data = obj.__cachedRelations[inc]; if(Array.isArray(data)) { data = new List(data, null, obj); } obj.__data[inc] = data; }); delete obj.__data.__cachedRelations; } } data[i] = obj; }); if (data && data.countBeforeLimit) { data.countBeforeLimit = data.countBeforeLimit; } if (!supportsGeo && near) { data = geo.filter(data, near); } cb(err, data); } else cb(err, []); }); }; /** * Find one record, same as `find`, but limited to one result. This function returns an object, not a collection. * * @param {Object} query Sarch conditions. See [find](#dataaccessobjectfindquery-callback) for query format. * For example: `{where: {test: 'me'}}`. * @param {Function} cb Callback function called with (err, instance) */ DataAccessObject.findOne = function findOne(query, cb) { if (stillConnecting(this.getDataSource(), this, arguments)) return; if (typeof query === 'function') { cb = query; query = {}; } query = query || {}; query.limit = 1; this.find(query, function (err, collection) { if (err || !collection || !collection.length > 0) return cb(err, null); cb(err, collection[0]); }); }; /** * Destroy all matching records. * Delete all model instances from data source. Note: destroyAll method does not destroy hooks. * Example: *````js * Product.destroyAll({price: {gt: 99}}, function(err) { // removed matching products * }); * ```` * * @param {Object} [where] Optional object that defines the criteria. This is a "where" object. Do NOT pass a filter object. * @param {Function} [cb] Callback called with (err) */ DataAccessObject.remove = DataAccessObject.deleteAll = DataAccessObject.destroyAll = function destroyAll(where, cb) { if (stillConnecting(this.getDataSource(), this, arguments)) return; var Model = this; if (!cb && 'function' === typeof where) { cb = where; where = undefined; } if (!where) { this.getDataSource().connector.destroyAll(this.modelName, function (err, data) { cb && cb(err, data); if(!err) Model.emit('deletedAll'); }.bind(this)); } else { try { // Support an optional where object where = removeUndefined(where); where = this._coerce(where); } catch (err) { return process.nextTick(function() { cb && cb(err); }); } this.getDataSource().connector.destroyAll(this.modelName, where, function (err, data) { cb && cb(err, data); if(!err) Model.emit('deletedAll', where); }.bind(this)); } }; /** * Delete the record with the specified ID. * Aliases are `destroyById` and `deleteById`. * @param {*} id The id value * @param {Function} cb Callback called with (err) */ // [FIXME] rfeng: This is a hack to set up 'deleteById' first so that // 'deleteById' will be used as the name for strong-remoting to keep it backward // compatible for angular SDK DataAccessObject.removeById = DataAccessObject.destroyById = DataAccessObject.deleteById = function deleteById(id, cb) { if (stillConnecting(this.getDataSource(), this, arguments)) return; var Model = this; this.getDataSource().connector.destroy(this.modelName, id, function (err) { if ('function' === typeof cb) { cb(err); } if(!err) Model.emit('deleted', id); }.bind(this)); }; /** * Return count of matched records. Optional query parameter allows you to count filtered set of model instances. * Example: * *```js * User.count({approved: true}, function(err, count) { * console.log(count); // 2081 * }); * ``` * * @param {Object} [where] Search conditions (optional) * @param {Function} cb Callback, called with (err, count) */ DataAccessObject.count = function (where, cb) { if (stillConnecting(this.getDataSource(), this, arguments)) return; if (typeof where === 'function') { cb = where; where = null; } try { where = removeUndefined(where); where = this._coerce(where); } catch (err) { return process.nextTick(function () { cb && cb(err); }); } this.getDataSource().connector.count(this.modelName, cb, where); }; /** * Save instance. If the instance does not have an ID, call `create` instead. * Triggers: validate, save, update or create. * @options {Object} options Optional options to use. * @property {Boolean} validate Default is true. * @property {Boolean} throws Default is false. * @param {Function} callback Callback function with err and object arguments */ DataAccessObject.prototype.save = function (options, callback) { if (stillConnecting(this.getDataSource(), this, arguments)) return; var Model = this.constructor; if (typeof options == 'function') { callback = options; options = {}; } callback = callback || function () { }; options = options || {}; if (!('validate' in options)) { options.validate = true; } if (!('throws' in options)) { options.throws = false; } var inst = this; var data = inst.toObject(true); var modelName = Model.modelName; if (!getIdValue(Model, this)) { return Model.create(this, callback); } // validate first if (!options.validate) { return save(); } inst.isValid(function (valid) { if (valid) { save(); } else { var err = new ValidationError(inst); // throws option is dangerous for async usage if (options.throws) { throw err; } callback(err, inst); } }); // then save function save() { inst.trigger('save', function (saveDone) { inst.trigger('update', function (updateDone) { data = removeUndefined(data); inst._adapter().save(modelName, inst.constructor._forDB(data), function (err) { if (err) { return callback(err, inst); } inst._initProperties(data); updateDone.call(inst, function () { saveDone.call(inst, function () { callback(err, inst); if(!err) { Model.emit('changed', inst); } }); }); }); }, data, callback); }, data, callback); } }; /** * Update multiple instances that match the where clause * * Example: * *```js * Employee.update({managerId: 'x001'}, {managerId: 'x002'}, function(err) { * ... * }); * ``` * * @param {Object} [where] Search conditions (optional) * @param {Object} data Changes to be made * @param {Function} cb Callback, called with (err, count) */ DataAccessObject.update = DataAccessObject.updateAll = function (where, data, cb) { if (stillConnecting(this.getDataSource(), this, arguments)) return; if (arguments.length === 1) { // update(data) is being called data = where; where = null; cb = null; } else if (arguments.length === 2) { if (typeof data === 'function') { // update(data, cb) is being called cb = data; data = where; where = null; } else { // update(where, data) is being called cb = null; } } assert(typeof where === 'object', 'The where argument should be an object'); assert(typeof data === 'object', 'The data argument should be an object'); assert(cb === null || typeof cb === 'function', 'The cb argument should be a function'); try { where = removeUndefined(where); where = this._coerce(where); } catch (err) { return process.nextTick(function () { cb && cb(err); }); } var connector = this.getDataSource().connector; connector.update(this.modelName, where, data, cb); }; DataAccessObject.prototype.isNewRecord = function () { return !getIdValue(this.constructor, this); }; /** * Return connector of current record * @private */ DataAccessObject.prototype._adapter = function () { return this.getDataSource().connector; }; /** * Delete object from persistence * * Triggers `destroy` hook (async) before and after destroying object */ DataAccessObject.prototype.remove = DataAccessObject.prototype.delete = DataAccessObject.prototype.destroy = function (cb) { if (stillConnecting(this.getDataSource(), this, arguments)) return; var Model = this.constructor; var id = getIdValue(this.constructor, this); this.trigger('destroy', function (destroyed) { this._adapter().destroy(this.constructor.modelName, id, function (err) { if (err) { return cb(err); } destroyed(function () { if (cb) cb(); Model.emit('deleted', id); }); }.bind(this)); }, null, cb); }; /** * Set a single attribute. * Equivalent to `setAttributes({name: value})` * * @param {String} name Name of property * @param {Mixed} value Value of property */ DataAccessObject.prototype.setAttribute = function setAttribute(name, value) { this[name] = value; }; /** * Update a single attribute. * Equivalent to `updateAttributes({name: value}, cb)` * * @param {String} name Name of property * @param {Mixed} value Value of property * @param {Function} callback Callback function called with (err, instance) */ DataAccessObject.prototype.updateAttribute = function updateAttribute(name, value, callback) { var data = {}; data[name] = value; this.updateAttributes(data, callback); }; /** * Update set of attributes. * * @trigger `change` hook * @param {Object} data Data to update */ DataAccessObject.prototype.setAttributes = function setAttributes(data) { if (typeof data !== 'object') return; var Model = this.constructor; var inst = this; // update instance's properties for (var key in data) { inst.setAttribute(key, data[key]); } Model.emit('set', inst); }; /** * Update set of attributes. * Performs validation before updating. * * @trigger `validation`, `save` and `update` hooks * @param {Object} data Data to update * @param {Function} callback Callback function called with (err, instance) */ DataAccessObject.prototype.updateAttributes = function updateAttributes(data, cb) { if (stillConnecting(this.getDataSource(), this, arguments)) return; var inst = this; var Model = this.constructor; var model = Model.modelName; if (typeof data === 'function') { cb = data; data = null; } if (!data) { data = {}; } // update instance's properties inst.setAttributes(data); inst.isValid(function (valid) { if (!valid) { if (cb) { cb(new ValidationError(inst), inst); } } else { inst.trigger('save', function (saveDone) { inst.trigger('update', function (done) { var typedData = {}; for (var key in data) { // Convert the properties by type inst[key] = data[key]; typedData[key] = inst[key]; } inst._adapter().updateAttributes(model, getIdValue(inst.constructor, inst), inst.constructor._forDB(typedData), function (err) { done.call(inst, function () { saveDone.call(inst, function () { if(cb) cb(err, inst); if(!err) Model.emit('changed', inst); }); }); }); }, data, cb); }, data, cb); } }, data); }; /** * Reload object from persistence * Requires `id` member of `object` to be able to call `find` * @param {Function} callback Called with (err, instance) arguments * @private */ DataAccessObject.prototype.reload = function reload(callback) { if (stillConnecting(this.getDataSource(), this, arguments)) { return; } this.constructor.findById(getIdValue(this.constructor, this), callback); }; /* * Define readonly property on object * * @param {Object} obj * @param {String} key * @param {Mixed} value * @private */ function defineReadonlyProp(obj, key, value) { Object.defineProperty(obj, key, { writable: false, enumerable: true, configurable: true, value: value }); } var defineScope = require('./scope.js').defineScope; /** * Define a scope for the model class. Scopes enable you to specify commonly-used * queries that you can reference as method calls on a model. * * @param {String} name The scope name * @param {Object} query The query object for DataAccessObject.find() * @param {ModelClass} [targetClass] The model class for the query, default to * the declaring model */ DataAccessObject.scope = function (name, query, targetClass) { defineScope(this, targetClass || this, name, query); }; /* * Add 'include' */ jutil.mixin(DataAccessObject, Inclusion); /* * Add 'relation' */ jutil.mixin(DataAccessObject, Relation);