'use strict'; /*! * Module dependencies. */ const EventEmitter = require('events').EventEmitter; const InternalCache = require('./internal'); const MongooseError = require('./error'); const MixedSchema = require('./schema/mixed'); const ObjectExpectedError = require('./error/objectExpected'); const ObjectParameterError = require('./error/objectParameter'); const StrictModeError = require('./error/strict'); const ValidatorError = require('./schematype').ValidatorError; const VirtualType = require('./virtualtype'); const cleanModifiedSubpaths = require('./helpers/document/cleanModifiedSubpaths'); const compile = require('./helpers/document/compile').compile; const defineKey = require('./helpers/document/compile').defineKey; const flatten = require('./helpers/common').flatten; const get = require('./helpers/get'); const getEmbeddedDiscriminatorPath = require('./helpers/document/getEmbeddedDiscriminatorPath'); const idGetter = require('./plugins/idGetter'); const isDefiningProjection = require('./helpers/projection/isDefiningProjection'); const isExclusive = require('./helpers/projection/isExclusive'); const inspect = require('util').inspect; const internalToObjectOptions = require('./options').internalToObjectOptions; const mpath = require('mpath'); const utils = require('./utils'); const ValidationError = MongooseError.ValidationError; const clone = utils.clone; const deepEqual = utils.deepEqual; const isMongooseObject = utils.isMongooseObject; const documentArrayParent = require('./helpers/symbols').documentArrayParent; const getSymbol = require('./helpers/symbols').getSymbol; let DocumentArray; let MongooseArray; let Embedded; const specialProperties = utils.specialProperties; /** * The core Mongoose document constructor. You should not call this directly, * the Mongoose [Model constructor](./api.html#Model) calls this for you. * * @param {Object} obj the values to set * @param {Object} [fields] optional object containing the fields which were selected in the query returning this document and any populated paths data * @param {Boolean} [skipId] bool, should we auto create an ObjectId _id * @inherits NodeJS EventEmitter http://nodejs.org/api/events.html#events_class_events_eventemitter * @event `init`: Emitted on a document after it has was retreived from the db and fully hydrated by Mongoose. * @event `save`: Emitted when the document is successfully saved * @api private */ function Document(obj, fields, skipId, options) { if (typeof skipId === 'object' && skipId != null) { options = skipId; skipId = options.skipId; } options = options || {}; this.$__ = new InternalCache; this.$__.emitter = new EventEmitter(); this.isNew = 'isNew' in options ? options.isNew : true; this.errors = undefined; this.$__.$options = options || {}; if (obj != null && typeof obj !== 'object') { throw new ObjectParameterError(obj, 'obj', 'Document'); } const schema = this.schema; if (typeof fields === 'boolean') { this.$__.strictMode = fields; fields = undefined; } else { this.$__.strictMode = schema.options.strict; this.$__.selected = fields; } const required = schema.requiredPaths(true); for (let i = 0; i < required.length; ++i) { this.$__.activePaths.require(required[i]); } this.$__.emitter.setMaxListeners(0); let exclude = null; // determine if this doc is a result of a query with // excluded fields if (fields && utils.getFunctionName(fields.constructor) === 'Object') { exclude = isExclusive(fields); } const hasIncludedChildren = exclude === false && fields ? $__hasIncludedChildren(fields) : {}; this.$__buildDoc(obj, fields, skipId, exclude, hasIncludedChildren, false); // By default, defaults get applied **before** setting initial values // Re: gh-6155 $__applyDefaults(this, fields, skipId, exclude, hasIncludedChildren, true, { isNew: this.isNew }); if (obj) { if (obj instanceof Document) { this.isNew = obj.isNew; } // Skip set hooks if (this.$__original_set) { this.$__original_set(obj, undefined, true); } else { this.$set(obj, undefined, true); } } // Function defaults get applied **after** setting initial values so they // see the full doc rather than an empty one, unless they opt out. // Re: gh-3781, gh-6155 if (options.willInit) { this.once('init', () => { $__applyDefaults(this, fields, skipId, exclude, hasIncludedChildren, false, options.skipDefaults, { isNew: this.isNew }); }); } else { $__applyDefaults(this, fields, skipId, exclude, hasIncludedChildren, false, options.skipDefaults, { isNew: this.isNew }); } this.$__._id = this._id; if (!schema.options.strict && obj) { const _this = this; const keys = Object.keys(this._doc); keys.forEach(function(key) { if (!(key in schema.tree)) { defineKey(key, null, _this); } }); } applyQueue(this); } /*! * Document exposes the NodeJS event emitter API, so you can use * `on`, `once`, etc. */ utils.each( ['on', 'once', 'emit', 'listeners', 'removeListener', 'setMaxListeners', 'removeAllListeners', 'addListener'], function(emitterFn) { Document.prototype[emitterFn] = function() { return this.$__.emitter[emitterFn].apply(this.$__.emitter, arguments); }; }); Document.prototype.constructor = Document; /** * The documents schema. * * @api public * @property schema * @memberOf Document * @instance */ Document.prototype.schema; /** * Boolean flag specifying if the document is new. * * @api public * @property isNew * @memberOf Document * @instance */ Document.prototype.isNew; /** * The string version of this documents _id. * * ####Note: * * This getter exists on all documents by default. The getter can be disabled by setting the `id` [option](/docs/guide.html#id) of its `Schema` to false at construction time. * * new Schema({ name: String }, { id: false }); * * @api public * @see Schema options /docs/guide.html#options * @property id * @memberOf Document * @instance */ Document.prototype.id; /** * Hash containing current validation errors. * * @api public * @property errors * @memberOf Document * @instance */ Document.prototype.errors; /*! * ignore */ function $__hasIncludedChildren(fields) { const hasIncludedChildren = {}; const keys = Object.keys(fields); for (let j = 0; j < keys.length; ++j) { const parts = keys[j].split('.'); const c = []; for (let k = 0; k < parts.length; ++k) { c.push(parts[k]); hasIncludedChildren[c.join('.')] = 1; } } return hasIncludedChildren; } /*! * ignore */ function $__applyDefaults(doc, fields, skipId, exclude, hasIncludedChildren, isBeforeSetters, pathsToSkip) { const paths = Object.keys(doc.schema.paths); const plen = paths.length; for (let i = 0; i < plen; ++i) { let def; let curPath = ''; const p = paths[i]; if (p === '_id' && skipId) { continue; } const type = doc.schema.paths[p]; const path = p.split('.'); const len = path.length; let included = false; let doc_ = doc._doc; for (let j = 0; j < len; ++j) { if (doc_ == null) { break; } const piece = path[j]; curPath += (!curPath.length ? '' : '.') + piece; if (exclude === true) { if (curPath in fields) { break; } } else if (exclude === false && fields && !included) { if (curPath in fields) { included = true; } else if (!hasIncludedChildren[curPath]) { break; } } if (j === len - 1) { if (doc_[piece] !== void 0) { break; } if (typeof type.defaultValue === 'function') { if (!type.defaultValue.$runBeforeSetters && isBeforeSetters) { break; } if (type.defaultValue.$runBeforeSetters && !isBeforeSetters) { break; } } else if (!isBeforeSetters) { // Non-function defaults should always run **before** setters continue; } if (pathsToSkip && pathsToSkip[curPath]) { break; } if (fields && exclude !== null) { if (exclude === true) { // apply defaults to all non-excluded fields if (p in fields) { continue; } def = type.getDefault(doc, false); if (typeof def !== 'undefined') { doc_[piece] = def; doc.$__.activePaths.default(p); } } else if (included) { // selected field def = type.getDefault(doc, false); if (typeof def !== 'undefined') { doc_[piece] = def; doc.$__.activePaths.default(p); } } } else { def = type.getDefault(doc, false); if (typeof def !== 'undefined') { doc_[piece] = def; doc.$__.activePaths.default(p); } } } else { doc_ = doc_[piece]; } } } } /** * Builds the default doc structure * * @param {Object} obj * @param {Object} [fields] * @param {Boolean} [skipId] * @api private * @method $__buildDoc * @memberOf Document * @instance */ Document.prototype.$__buildDoc = function(obj, fields, skipId, exclude, hasIncludedChildren) { const doc = {}; const paths = Object.keys(this.schema.paths). // Don't build up any paths that are underneath a map, we don't know // what the keys will be filter(p => !p.includes('$*')); const plen = paths.length; let ii = 0; for (; ii < plen; ++ii) { const p = paths[ii]; if (p === '_id') { if (skipId) { continue; } if (obj && '_id' in obj) { continue; } } const path = p.split('.'); const len = path.length; const last = len - 1; let curPath = ''; let doc_ = doc; let included = false; for (let i = 0; i < len; ++i) { const piece = path[i]; curPath += (!curPath.length ? '' : '.') + piece; // support excluding intermediary levels if (exclude === true) { if (curPath in fields) { break; } } else if (exclude === false && fields && !included) { if (curPath in fields) { included = true; } else if (!hasIncludedChildren[curPath]) { break; } } if (i < last) { doc_ = doc_[piece] || (doc_[piece] = {}); } } } this._doc = doc; }; /*! * Converts to POJO when you use the document for querying */ Document.prototype.toBSON = function() { return this.toObject(internalToObjectOptions); }; /** * Initializes the document without setters or marking anything modified. * * Called internally after a document is returned from mongodb. Normally, * you do **not** need to call this function on your own. * * This function triggers `init` [middleware](/docs/middleware.html). * Note that `init` hooks are [synchronous](/docs/middleware.html#synchronous). * * @param {Object} doc document returned by mongo * @api public * @memberOf Document * @instance */ Document.prototype.init = function(doc, opts, fn) { if (typeof opts === 'function') { fn = opts; opts = null; } this.$__init(doc, opts); if (fn) { fn(null, this); } return this; }; /*! * ignore */ Document.prototype.$__init = function(doc, opts) { this.isNew = false; this.$init = true; // handle docs with populated paths // If doc._id is not null or undefined if (doc._id !== null && doc._id !== undefined && opts && opts.populated && opts.populated.length) { const id = String(doc._id); for (let i = 0; i < opts.populated.length; ++i) { const item = opts.populated[i]; if (item.isVirtual) { this.populated(item.path, utils.getValue(item.path, doc), item); } else { this.populated(item.path, item._docs[id], item); } } } init(this, doc, this._doc); this.emit('init', this); this.constructor.emit('init', this); this.$__._id = this._id; return this; }; /*! * Init helper. * * @param {Object} self document instance * @param {Object} obj raw mongodb doc * @param {Object} doc object we are initializing * @api private */ function init(self, obj, doc, prefix) { prefix = prefix || ''; const keys = Object.keys(obj); const len = keys.length; let schema; let path; let i; let index = 0; while (index < len) { _init(index++); } function _init(index) { i = keys[index]; path = prefix + i; schema = self.schema.path(path); // Should still work if not a model-level discriminator, but should not be // necessary. This is *only* to catch the case where we queried using the // base model and the discriminated model has a projection if (self.schema.$isRootDiscriminator && !self.isSelected(path)) { return; } if (!schema && utils.isObject(obj[i]) && (!obj[i].constructor || utils.getFunctionName(obj[i].constructor) === 'Object')) { // assume nested object if (!doc[i]) { doc[i] = {}; } init(self, obj[i], doc[i], path + '.'); } else if (!schema) { doc[i] = obj[i]; } else { if (obj[i] === null) { doc[i] = null; } else if (obj[i] !== undefined) { const intCache = obj[i].$__ || {}; const wasPopulated = intCache.wasPopulated || null; if (schema && !wasPopulated) { try { doc[i] = schema.cast(obj[i], self, true); } catch (e) { self.invalidate(e.path, new ValidatorError({ path: e.path, message: e.message, type: 'cast', value: e.value })); } } else { doc[i] = obj[i]; } } // mark as hydrated if (!self.isModified(path)) { self.$__.activePaths.init(path); } } } } /** * Sends an update command with this document `_id` as the query selector. * * ####Example: * * weirdCar.update({$inc: {wheels:1}}, { w: 1 }, callback); * * ####Valid options: * * - same as in [Model.update](#model_Model.update) * * @see Model.update #model_Model.update * @param {Object} doc * @param {Object} options * @param {Function} callback * @return {Query} * @api public * @memberOf Document * @instance */ Document.prototype.update = function update() { const args = utils.args(arguments); args.unshift({_id: this._id}); const query = this.constructor.update.apply(this.constructor, args); if (this.$session() != null) { if (!('session' in query.options)) { query.options.session = this.$session(); } } return query; }; /** * Sends an updateOne command with this document `_id` as the query selector. * * ####Example: * * weirdCar.updateOne({$inc: {wheels:1}}, { w: 1 }, callback); * * ####Valid options: * * - same as in [Model.updateOne](#model_Model.updateOne) * * @see Model.updateOne #model_Model.updateOne * @param {Object} doc * @param {Object} options * @param {Function} callback * @return {Query} * @api public * @memberOf Document * @instance */ Document.prototype.updateOne = function updateOne(doc, options, callback) { const query = this.constructor.updateOne({_id: this._id}, doc, options); query._pre(cb => { this.constructor._middleware.execPre('updateOne', this, [], cb); }); query._post(cb => { this.constructor._middleware.execPost('updateOne', this, [], {}, cb); }); if (this.$session() != null) { if (!('session' in query.options)) { query.options.session = this.$session(); } } if (callback != null) { return query.exec(callback); } return query; }; /** * Sends a replaceOne command with this document `_id` as the query selector. * * ####Valid options: * * - same as in [Model.replaceOne](#model_Model.replaceOne) * * @see Model.replaceOne #model_Model.replaceOne * @param {Object} doc * @param {Object} options * @param {Function} callback * @return {Query} * @api public * @memberOf Document * @instance */ Document.prototype.replaceOne = function replaceOne() { const args = utils.args(arguments); args.unshift({ _id: this._id }); return this.constructor.replaceOne.apply(this.constructor, args); }; /** * Getter/setter around the session associated with this document. Used to * automatically set `session` if you `save()` a doc that you got from a * query with an associated session. * * ####Example: * * const session = MyModel.startSession(); * const doc = await MyModel.findOne().session(session); * doc.$session() === session; // true * doc.$session(null); * doc.$session() === null; // true * * If this is a top-level document, setting the session propagates to all child * docs. * * @param {ClientSession} [session] overwrite the current session * @return {ClientSession} * @method $session * @api public * @memberOf Document */ Document.prototype.$session = function $session(session) { if (arguments.length === 0) { return this.$__.session; } this.$__.session = session; if (!this.ownerDocument) { const subdocs = this.$__getAllSubdocs(); for (const child of subdocs) { child.$session(session); } } return session; }; /** * Alias for `set()`, used internally to avoid conflicts * * @param {String|Object} path path or object of key/vals to set * @param {Any} val the value to set * @param {Schema|String|Number|Buffer|*} [type] optionally specify a type for "on-the-fly" attributes * @param {Object} [options] optionally specify options that modify the behavior of the set * @method $set * @name $set * @memberOf Document * @instance * @api public */ Document.prototype.$set = function $set(path, val, type, options) { if (type && utils.getFunctionName(type.constructor) === 'Object') { options = type; type = undefined; } options = options || {}; const merge = options.merge; const adhoc = type && type !== true; const constructing = type === true; let adhocs; let keys; let i = 0; let pathtype; let key; let prefix; const strict = 'strict' in options ? options.strict : this.$__.strictMode; if (adhoc) { adhocs = this.$__.adhocPaths || (this.$__.adhocPaths = {}); adhocs[path] = this.schema.interpretAsType(path, type, this.schema.options); } if (typeof path !== 'string') { // new Document({ key: val }) if (path === null || path === void 0) { const _ = path; path = val; val = _; } else { prefix = val ? val + '.' : ''; if (path instanceof Document) { if (path.$__isNested) { path = path.toObject(); } else { path = path._doc; } } keys = Object.keys(path); const len = keys.length; if (len === 0 && !this.schema.options.minimize) { if (val) { this.$set(val, {}); } return this; } while (i < len) { _handleIndex.call(this, i++); } return this; } } function _handleIndex(i) { key = keys[i]; const pathName = prefix + key; pathtype = this.schema.pathType(pathName); // On initial set, delete any nested keys if we're going to overwrite // them to ensure we keep the user's key order. if (type === true && !prefix && path[key] != null && pathtype === 'nested' && this._doc[key] != null && Object.keys(this._doc[key]).length === 0) { delete this._doc[key]; } if (path[key] !== null && path[key] !== void 0 && // need to know if plain object - no Buffer, ObjectId, ref, etc utils.isObject(path[key]) && (!path[key].constructor || utils.getFunctionName(path[key].constructor) === 'Object') && pathtype !== 'virtual' && pathtype !== 'real' && !(this.$__path(pathName) instanceof MixedSchema) && !(this.schema.paths[pathName] && this.schema.paths[pathName].options && this.schema.paths[pathName].options.ref)) { this.$set(path[key], prefix + key, constructing); } else if (strict) { // Don't overwrite defaults with undefined keys (gh-3981) if (constructing && path[key] === void 0 && this.get(key) !== void 0) { return; } if (pathtype === 'adhocOrUndefined') { pathtype = getEmbeddedDiscriminatorPath(this, pathName, { typeOnly: true }); } if (pathtype === 'real' || pathtype === 'virtual') { // Check for setting single embedded schema to document (gh-3535) let p = path[key]; if (this.schema.paths[pathName] && this.schema.paths[pathName].$isSingleNested && path[key] instanceof Document) { p = p.toObject({ virtuals: false, transform: false }); } this.$set(prefix + key, p, constructing); } else if (pathtype === 'nested' && path[key] instanceof Document) { this.$set(prefix + key, path[key].toObject({transform: false}), constructing); } else if (strict === 'throw') { if (pathtype === 'nested') { throw new ObjectExpectedError(key, path[key]); } else { throw new StrictModeError(key); } } } else if (path[key] !== void 0) { this.$set(prefix + key, path[key], constructing); } } const pathType = this.schema.pathType(path); if (pathType === 'nested' && val) { if (utils.isObject(val) && (!val.constructor || utils.getFunctionName(val.constructor) === 'Object')) { if (!merge) { this.setValue(path, null); cleanModifiedSubpaths(this, path); } else { return this.$set(val, path, constructing); } const keys = Object.keys(val); this.setValue(path, {}); for (const key of keys) { this.$set(path + '.' + key, val[key], constructing); } this.markModified(path); cleanModifiedSubpaths(this, path, { skipDocArrays: true }); return this; } this.invalidate(path, new MongooseError.CastError('Object', val, path)); return this; } let schema; const parts = path.split('.'); if (pathType === 'adhocOrUndefined' && strict) { // check for roots that are Mixed types let mixed; for (i = 0; i < parts.length; ++i) { const subpath = parts.slice(0, i + 1).join('.'); // If path is underneath a virtual, bypass everything and just set it. if (i + 1 < parts.length && this.schema.pathType(subpath) === 'virtual') { mpath.set(path, val, this); return this; } schema = this.schema.path(subpath); if (schema == null) { continue; } if (schema instanceof MixedSchema) { // allow changes to sub paths of mixed types mixed = true; break; } } if (schema == null) { // Check for embedded discriminators schema = getEmbeddedDiscriminatorPath(this, path); } if (!mixed && !schema) { if (strict === 'throw') { throw new StrictModeError(path); } return this; } } else if (pathType === 'virtual') { schema = this.schema.virtualpath(path); schema.applySetters(val, this); return this; } else { schema = this.$__path(path); } // gh-4578, if setting a deeply nested path that doesn't exist yet, create it let cur = this._doc; let curPath = ''; for (i = 0; i < parts.length - 1; ++i) { cur = cur[parts[i]]; curPath += (curPath.length > 0 ? '.' : '') + parts[i]; if (!cur) { this.$set(curPath, {}); // Hack re: gh-5800. If nested field is not selected, it probably exists // so `MongoError: cannot use the part (nested of nested.num) to // traverse the element ({nested: null})` is not likely. If user gets // that error, its their fault for now. We should reconsider disallowing // modifying not selected paths for 6.x if (!this.isSelected(curPath)) { this.unmarkModified(curPath); } cur = this.getValue(curPath); } } let pathToMark; // When using the $set operator the path to the field must already exist. // Else mongodb throws: "LEFT_SUBFIELD only supports Object" if (parts.length <= 1) { pathToMark = path; } else { for (i = 0; i < parts.length; ++i) { const subpath = parts.slice(0, i + 1).join('.'); if (this.get(subpath) === null) { pathToMark = subpath; break; } } if (!pathToMark) { pathToMark = path; } } // if this doc is being constructed we should not trigger getters const priorVal = (() => { if (this.$__.$options.priorDoc != null) { return this.$__.$options.priorDoc.getValue(path); } if (constructing) { return void 0; } return this.getValue(path); })(); if (!schema) { this.$__set(pathToMark, path, constructing, parts, schema, val, priorVal); return this; } let shouldSet = true; try { // If the user is trying to set a ref path to a document with // the correct model name, treat it as populated const refMatches = (() => { if (schema.options == null) { return false; } if (!(val instanceof Document)) { return false; } const model = val.constructor; // Check ref const ref = schema.options.ref; if (ref != null && (ref === model.modelName || ref === model.baseModelName)) { return true; } // Check refPath const refPath = schema.options.refPath; if (refPath == null) { return false; } const modelName = val.get(refPath); if (modelName === model.modelName || modelName === model.baseModelName) { return true; } return false; })(); let didPopulate = false; if (refMatches && val instanceof Document) { if (this.ownerDocument) { this.ownerDocument().populated(this.$__fullPath(path), val._id, {model: val.constructor}); } else { this.populated(path, val._id, {model: val.constructor}); } didPopulate = true; } let popOpts; if (schema.options && Array.isArray(schema.options[this.schema.options.typeKey]) && schema.options[this.schema.options.typeKey].length && schema.options[this.schema.options.typeKey][0].ref && Array.isArray(val) && val.length > 0 && val[0] instanceof Document && val[0].constructor.modelName && (schema.options[this.schema.options.typeKey][0].ref === val[0].constructor.baseModelName || schema.options[this.schema.options.typeKey][0].ref === val[0].constructor.modelName)) { if (this.ownerDocument) { popOpts = { model: val[0].constructor }; this.ownerDocument().populated(this.$__fullPath(path), val.map(function(v) { return v._id; }), popOpts); } else { popOpts = { model: val[0].constructor }; this.populated(path, val.map(function(v) { return v._id; }), popOpts); } didPopulate = true; } // If this path is underneath a single nested schema, we'll call the setter // later in `$__set()` because we don't take `_doc` when we iterate through // a single nested doc. That's to make sure we get the correct context. // Otherwise we would double-call the setter, see gh-7196. if (this.schema.singleNestedPaths[path] == null) { const setterContext = constructing && this.$__.$options.priorDoc ? this.$__.$options.priorDoc : this; val = schema.applySetters(val, setterContext, false, priorVal); } if (!didPopulate && this.$__.populated) { delete this.$__.populated[path]; } this.$markValid(path); } catch (e) { this.invalidate(path, new MongooseError.CastError(schema.instance, val, path, e)); shouldSet = false; } if (shouldSet) { this.$__set(pathToMark, path, constructing, parts, schema, val, priorVal); } if (schema.$isSingleNested && (this.isDirectModified(path) || val == null)) { cleanModifiedSubpaths(this, path); } return this; }; /** * Sets the value of a path, or many paths. * * ####Example: * * // path, value * doc.set(path, value) * * // object * doc.set({ * path : value * , path2 : { * path : value * } * }) * * // on-the-fly cast to number * doc.set(path, value, Number) * * // on-the-fly cast to string * doc.set(path, value, String) * * // changing strict mode behavior * doc.set(path, value, { strict: false }); * * @param {String|Object} path path or object of key/vals to set * @param {Any} val the value to set * @param {Schema|String|Number|Buffer|*} [type] optionally specify a type for "on-the-fly" attributes * @param {Object} [options] optionally specify options that modify the behavior of the set * @api public * @method set * @memberOf Document * @instance */ Document.prototype.set = Document.prototype.$set; /** * Determine if we should mark this change as modified. * * @return {Boolean} * @api private * @method $__shouldModify * @memberOf Document * @instance */ Document.prototype.$__shouldModify = function(pathToMark, path, constructing, parts, schema, val, priorVal) { if (this.isNew) { return true; } // Re: the note about gh-7196, `val` is the raw value without casting or // setters if the full path is under a single nested subdoc because we don't // want to double run setters. So don't set it as modified. See gh-7264. if (this.schema.singleNestedPaths[path] != null) { return false; } if (val === void 0 && !this.isSelected(path)) { // when a path is not selected in a query, its initial // value will be undefined. return true; } if (val === void 0 && path in this.$__.activePaths.states.default) { // we're just unsetting the default value which was never saved return false; } // gh-3992: if setting a populated field to a doc, don't mark modified // if they have the same _id if (this.populated(path) && val instanceof Document && deepEqual(val._id, priorVal)) { return false; } if (!deepEqual(val, priorVal || this.get(path))) { return true; } if (!constructing && val !== null && val !== undefined && path in this.$__.activePaths.states.default && deepEqual(val, schema.getDefault(this, constructing))) { // a path with a default was $unset on the server // and the user is setting it to the same value again return true; } return false; }; /** * Handles the actual setting of the value and marking the path modified if appropriate. * * @api private * @method $__set * @memberOf Document * @instance */ Document.prototype.$__set = function(pathToMark, path, constructing, parts, schema, val, priorVal) { Embedded = Embedded || require('./types/embedded'); const shouldModify = this.$__shouldModify(pathToMark, path, constructing, parts, schema, val, priorVal); const _this = this; if (shouldModify) { this.markModified(pathToMark); // handle directly setting arrays (gh-1126) MongooseArray || (MongooseArray = require('./types/array')); if (val && val.isMongooseArray) { val._registerAtomic('$set', val); // Update embedded document parent references (gh-5189) if (val.isMongooseDocumentArray) { val.forEach(function(item) { item && item.__parentArray && (item.__parentArray = val); }); } // Small hack for gh-1638: if we're overwriting the entire array, ignore // paths that were modified before the array overwrite this.$__.activePaths.forEach(function(modifiedPath) { if (modifiedPath.indexOf(path + '.') === 0) { _this.$__.activePaths.ignore(modifiedPath); } }); } } let obj = this._doc; let i = 0; const l = parts.length; let cur = ''; for (; i < l; i++) { const next = i + 1; const last = next === l; cur += (cur ? '.' + parts[i] : parts[i]); if (specialProperties.has(parts[i])) { return; } if (last) { if (obj instanceof Map) { obj.set(parts[i], val); } else { obj[parts[i]] = val; } } else { if (obj[parts[i]] && utils.getFunctionName(obj[parts[i]].constructor) === 'Object') { obj = obj[parts[i]]; } else if (obj[parts[i]] && obj[parts[i]] instanceof Embedded) { obj = obj[parts[i]]; } else if (obj[parts[i]] && obj[parts[i]].$isSingleNested) { obj = obj[parts[i]]; } else if (obj[parts[i]] && Array.isArray(obj[parts[i]])) { obj = obj[parts[i]]; } else { obj[parts[i]] = obj[parts[i]] || {}; obj = obj[parts[i]]; } } } }; /** * Gets a raw value from a path (no getters) * * @param {String} path * @api private */ Document.prototype.getValue = function(path) { return utils.getValue(path, this._doc); }; /** * Sets a raw value for a path (no casting, setters, transformations) * * @param {String} path * @param {Object} value * @api private */ Document.prototype.setValue = function(path, val) { utils.setValue(path, val, this._doc); return this; }; /** * Returns the value of a path. * * ####Example * * // path * doc.get('age') // 47 * * // dynamic casting to a string * doc.get('age', String) // "47" * * @param {String} path * @param {Schema|String|Number|Buffer|*} [type] optionally specify a type for on-the-fly attributes * @api public */ Document.prototype.get = function(path, type, options) { let adhoc; options = options || {}; if (type) { adhoc = this.schema.interpretAsType(path, type, this.schema.options); } const schema = this.$__path(path) || this.schema.virtualpath(path); const pieces = path.split('.'); let obj = this._doc; if (schema instanceof VirtualType) { if (schema.getters.length === 0) { return void 0; } return schema.applyGetters(null, this); } for (let i = 0, l = pieces.length; i < l; i++) { if (obj && obj._doc) { obj = obj._doc; } if (obj == null) { obj = void 0; } else if (obj instanceof Map) { obj = obj.get(pieces[i]); } else if (i === l - 1) { obj = utils.getValue(pieces[i], obj); } else { obj = obj[pieces[i]]; } } if (adhoc) { obj = adhoc.cast(obj); } if (schema != null) { obj = schema.applyGetters(obj, this); } else if (this.schema.nested[path] && options.virtuals) { // Might need to apply virtuals if this is a nested path return applyGetters(this, utils.clone(obj), 'virtuals', { path: path }); } return obj; }; /*! * ignore */ Document.prototype[getSymbol] = Document.prototype.get; /** * Returns the schematype for the given `path`. * * @param {String} path * @api private * @method $__path * @memberOf Document * @instance */ Document.prototype.$__path = function(path) { const adhocs = this.$__.adhocPaths; const adhocType = adhocs && adhocs.hasOwnProperty(path) ? adhocs[path] : null; if (adhocType) { return adhocType; } return this.schema.path(path); }; /** * Marks the path as having pending changes to write to the db. * * _Very helpful when using [Mixed](./schematypes.html#mixed) types._ * * ####Example: * * doc.mixed.type = 'changed'; * doc.markModified('mixed.type'); * doc.save() // changes to mixed.type are now persisted * * @param {String} path the path to mark modified * @param {Document} [scope] the scope to run validators with * @api public */ Document.prototype.markModified = function(path, scope) { this.$__.activePaths.modify(path); if (scope != null && !this.ownerDocument) { this.$__.pathsToScopes[path] = scope; } }; /** * Clears the modified state on the specified path. * * ####Example: * * doc.foo = 'bar'; * doc.unmarkModified('foo'); * doc.save(); // changes to foo will not be persisted * * @param {String} path the path to unmark modified * @api public */ Document.prototype.unmarkModified = function(path) { this.$__.activePaths.init(path); delete this.$__.pathsToScopes[path]; }; /** * Don't run validation on this path or persist changes to this path. * * ####Example: * * doc.foo = null; * doc.$ignore('foo'); * doc.save(); // changes to foo will not be persisted and validators won't be run * * @memberOf Document * @instance * @method $ignore * @param {String} path the path to ignore * @api public */ Document.prototype.$ignore = function(path) { this.$__.activePaths.ignore(path); }; /** * Returns the list of paths that have been modified. * * @param {Object} [options] * @param {Boolean} [options.includeChildren=false] if true, returns children of modified paths as well. For example, if false, the list of modified paths for `doc.colors = { primary: 'blue' };` will **not** contain `colors.primary`. If true, `modifiedPaths()` will return an array that contains `colors.primary`. * @return {Array} * @api public */ Document.prototype.modifiedPaths = function(options) { options = options || {}; const directModifiedPaths = Object.keys(this.$__.activePaths.states.modify); const _this = this; return directModifiedPaths.reduce(function(list, path) { const parts = path.split('.'); list = list.concat(parts.reduce(function(chains, part, i) { return chains.concat(parts.slice(0, i).concat(part).join('.')); }, []).filter(function(chain) { return (list.indexOf(chain) === -1); })); if (!options.includeChildren) { return list; } let cur = _this.get(path); if (cur != null && typeof cur === 'object') { if (cur._doc) { cur = cur._doc; } if (Array.isArray(cur)) { const len = cur.length; for (let i = 0; i < len; ++i) { if (list.indexOf(path + '.' + i) === -1) { list.push(path + '.' + i); if (cur[i] != null && cur[i].$__) { const modified = cur[i].modifiedPaths(); for (const childPath of modified) { list.push(path + '.' + i + '.' + childPath); } } } } } else { Object.keys(cur). filter(function(key) { return list.indexOf(path + '.' + key) === -1; }). forEach(function(key) { list.push(path + '.' + key); }); } } return list; }, []); }; /** * Returns true if this document was modified, else false. * * If `path` is given, checks if a path or any full path containing `path` as part of its path chain has been modified. * * ####Example * * doc.set('documents.0.title', 'changed'); * doc.isModified() // true * doc.isModified('documents') // true * doc.isModified('documents.0.title') // true * doc.isModified('documents otherProp') // true * doc.isDirectModified('documents') // false * * @param {String} [path] optional * @return {Boolean} * @api public */ Document.prototype.isModified = function(paths, modifiedPaths) { if (paths) { if (!Array.isArray(paths)) { paths = paths.split(' '); } const modified = modifiedPaths || this.modifiedPaths(); const directModifiedPaths = Object.keys(this.$__.activePaths.states.modify); const isModifiedChild = paths.some(function(path) { return !!~modified.indexOf(path); }); return isModifiedChild || paths.some(function(path) { return directModifiedPaths.some(function(mod) { return mod === path || path.indexOf(mod + '.') === 0; }); }); } return this.$__.activePaths.some('modify'); }; /** * Checks if a path is set to its default. * * ####Example * * MyModel = mongoose.model('test', { name: { type: String, default: 'Val '} }); * var m = new MyModel(); * m.$isDefault('name'); // true * * @memberOf Document * @instance * @method $isDefault * @param {String} [path] * @return {Boolean} * @api public */ Document.prototype.$isDefault = function(path) { return (path in this.$__.activePaths.states.default); }; /** * Getter/setter, determines whether the document was removed or not. * * ####Example: * product.remove(function (err, product) { * product.$isDeleted(); // true * product.remove(); // no-op, doesn't send anything to the db * * product.$isDeleted(false); * product.$isDeleted(); // false * product.remove(); // will execute a remove against the db * }) * * @param {Boolean} [val] optional, overrides whether mongoose thinks the doc is deleted * @return {Boolean} whether mongoose thinks this doc is deleted. * @method $isDeleted * @memberOf Document * @instance * @api public */ Document.prototype.$isDeleted = function(val) { if (arguments.length === 0) { return !!this.$__.isDeleted; } this.$__.isDeleted = !!val; return this; }; /** * Returns true if `path` was directly set and modified, else false. * * ####Example * * doc.set('documents.0.title', 'changed'); * doc.isDirectModified('documents.0.title') // true * doc.isDirectModified('documents') // false * * @param {String} path * @return {Boolean} * @api public */ Document.prototype.isDirectModified = function(path) { return (path in this.$__.activePaths.states.modify); }; /** * Checks if `path` was initialized. * * @param {String} path * @return {Boolean} * @api public */ Document.prototype.isInit = function(path) { return (path in this.$__.activePaths.states.init); }; /** * Checks if `path` was selected in the source query which initialized this document. * * ####Example * * Thing.findOne().select('name').exec(function (err, doc) { * doc.isSelected('name') // true * doc.isSelected('age') // false * }) * * @param {String} path * @return {Boolean} * @api public */ Document.prototype.isSelected = function isSelected(path) { if (this.$__.selected) { if (path === '_id') { return this.$__.selected._id !== 0; } const paths = Object.keys(this.$__.selected); let i = paths.length; let inclusive = null; let cur; if (i === 1 && paths[0] === '_id') { // only _id was selected. return this.$__.selected._id === 0; } while (i--) { cur = paths[i]; if (cur === '_id') { continue; } if (!isDefiningProjection(this.$__.selected[cur])) { continue; } inclusive = !!this.$__.selected[cur]; break; } if (inclusive === null) { return true; } if (path in this.$__.selected) { return inclusive; } i = paths.length; const pathDot = path + '.'; while (i--) { cur = paths[i]; if (cur === '_id') { continue; } if (cur.indexOf(pathDot) === 0) { return inclusive || cur !== pathDot; } if (pathDot.indexOf(cur + '.') === 0) { return inclusive; } } return !inclusive; } return true; }; /** * Checks if `path` was explicitly selected. If no projection, always returns * true. * * ####Example * * Thing.findOne().select('nested.name').exec(function (err, doc) { * doc.isDirectSelected('nested.name') // true * doc.isDirectSelected('nested.otherName') // false * doc.isDirectSelected('nested') // false * }) * * @param {String} path * @return {Boolean} * @api public */ Document.prototype.isDirectSelected = function isDirectSelected(path) { if (this.$__.selected) { if (path === '_id') { return this.$__.selected._id !== 0; } const paths = Object.keys(this.$__.selected); let i = paths.length; let inclusive = null; let cur; if (i === 1 && paths[0] === '_id') { // only _id was selected. return this.$__.selected._id === 0; } while (i--) { cur = paths[i]; if (cur === '_id') { continue; } if (!isDefiningProjection(this.$__.selected[cur])) { continue; } inclusive = !!this.$__.selected[cur]; break; } if (inclusive === null) { return true; } if (path in this.$__.selected) { return inclusive; } return !inclusive; } return true; }; /** * Executes registered validation rules for this document. * * ####Note: * * This method is called `pre` save and if a validation rule is violated, [save](#model_Model-save) is aborted and the error is returned to your `callback`. * * ####Example: * * doc.validate(function (err) { * if (err) handleError(err); * else // validation passed * }); * * @param {Object} optional options internal options * @param {Function} callback optional callback called after validation completes, passing an error if one occurred * @return {Promise} Promise * @api public */ Document.prototype.validate = function(options, callback) { if (typeof options === 'function') { callback = options; options = null; } return utils.promiseOrCallback(callback, cb => this.$__validate(function(error) { cb(error); }), this.constructor.events); }; /*! * ignore */ function _evaluateRequiredFunctions(doc) { Object.keys(doc.$__.activePaths.states.require).forEach(path => { const p = doc.schema.path(path); if (p != null && typeof p.originalRequiredValue === 'function') { doc.$__.cachedRequired[path] = p.originalRequiredValue.call(doc); } }); } /*! * ignore */ function _getPathsToValidate(doc) { let i; let len; const skipSchemaValidators = {}; _evaluateRequiredFunctions(doc); // only validate required fields when necessary let paths = Object.keys(doc.$__.activePaths.states.require).filter(function(path) { if (!doc.isSelected(path) && !doc.isModified(path)) { return false; } if (path in doc.$__.cachedRequired) { return doc.$__.cachedRequired[path]; } return true; }); paths = paths.concat(Object.keys(doc.$__.activePaths.states.init)); paths = paths.concat(Object.keys(doc.$__.activePaths.states.modify)); paths = paths.concat(Object.keys(doc.$__.activePaths.states.default)); if (!doc.ownerDocument) { const subdocs = doc.$__getAllSubdocs(); let subdoc; len = subdocs.length; const modifiedPaths = doc.modifiedPaths(); for (i = 0; i < len; ++i) { subdoc = subdocs[i]; if (doc.isModified(subdoc.$basePath, modifiedPaths) && !doc.isDirectModified(subdoc.$basePath)) { // Remove child paths for now, because we'll be validating the whole // subdoc paths = paths.filter(function(p) { return p != null && p.indexOf(subdoc.$basePath + '.') !== 0; }); paths.push(subdoc.$basePath); skipSchemaValidators[subdoc.$basePath] = true; } } } // gh-661: if a whole array is modified, make sure to run validation on all // the children as well len = paths.length; for (i = 0; i < len; ++i) { const path = paths[i]; const _pathType = doc.schema.path(path); if (!_pathType || !_pathType.$isMongooseArray || // To avoid potential performance issues, skip doc arrays whose children // are not required. `getPositionalPathType()` may be slow, so avoid // it unless we have a case of #6364 (_pathType.$isMongooseDocumentArray && !get(_pathType, 'schemaOptions.required'))) { continue; } const val = doc.getValue(path); if (val) { const numElements = val.length; for (let j = 0; j < numElements; ++j) { paths.push(path + '.' + j); } } } const flattenOptions = { skipArrays: true }; len = paths.length; for (i = 0; i < len; ++i) { const pathToCheck = paths[i]; if (doc.schema.nested[pathToCheck]) { let _v = doc.getValue(pathToCheck); if (isMongooseObject(_v)) { _v = _v.toObject({ transform: false }); } const flat = flatten(_v, '', flattenOptions); const _subpaths = Object.keys(flat).map(function(p) { return pathToCheck + '.' + p; }); paths = paths.concat(_subpaths); } } len = paths.length; for (i = 0; i < len; ++i) { const path = paths[i]; const _pathType = doc.schema.path(path); if (!_pathType || !_pathType.$isSchemaMap) { continue; } const val = doc.getValue(path); if (val == null) { continue; } for (const key of val.keys()) { paths.push(path + '.' + key); } } return [paths, skipSchemaValidators]; } /*! * ignore */ Document.prototype.$__validate = function(callback) { const _this = this; const _complete = () => { const err = this.$__.validationError; this.$__.validationError = undefined; this.$__.cachedRequired = {}; this.emit('validate', _this); this.constructor.emit('validate', _this); if (err) { for (const key in err.errors) { // Make sure cast errors persist if (!this[documentArrayParent] && err.errors[key] instanceof MongooseError.CastError) { this.invalidate(key, err.errors[key]); } } return err; } }; // only validate required fields when necessary const pathDetails = _getPathsToValidate(this); const paths = pathDetails[0]; const skipSchemaValidators = pathDetails[1]; if (paths.length === 0) { return process.nextTick(function() { const error = _complete(); if (error) { return _this.schema.s.hooks.execPost('validate:error', _this, [ _this], { error: error }, function(error) { callback(error); }); } callback(null, _this); }); } const validated = {}; let total = 0; const complete = function() { const error = _complete(); if (error) { return _this.schema.s.hooks.execPost('validate:error', _this, [ _this], { error: error }, function(error) { callback(error); }); } callback(null, _this); }; const validatePath = function(path) { if (path == null || validated[path]) { return; } validated[path] = true; total++; process.nextTick(function() { const p = _this.schema.path(path); if (!p) { return --total || complete(); } // If user marked as invalid or there was a cast error, don't validate if (!_this.$isValid(path)) { --total || complete(); return; } const val = _this.getValue(path); const scope = path in _this.$__.pathsToScopes ? _this.$__.pathsToScopes[path] : _this; p.doValidate(val, function(err) { if (err && (!p.$isMongooseDocumentArray || err.$isArrayValidatorError)) { if (p.$isSingleNested && err.name === 'ValidationError' && p.schema.options.storeSubdocValidationError === false) { return --total || complete(); } _this.invalidate(path, err, undefined, true); } --total || complete(); }, scope, { skipSchemaValidators: skipSchemaValidators[path] }); }); }; const numPaths = paths.length; for (let i = 0; i < numPaths; ++i) { validatePath(paths[i]); } }; /** * Executes registered validation rules (skipping asynchronous validators) for this document. * * ####Note: * * This method is useful if you need synchronous validation. * * ####Example: * * var err = doc.validateSync(); * if ( err ){ * handleError( err ); * } else { * // validation passed * } * * @param {Array|string} pathsToValidate only validate the given paths * @return {MongooseError|undefined} MongooseError if there are errors during validation, or undefined if there is no error. * @api public */ Document.prototype.validateSync = function(pathsToValidate) { const _this = this; if (typeof pathsToValidate === 'string') { pathsToValidate = pathsToValidate.split(' '); } // only validate required fields when necessary const pathDetails = _getPathsToValidate(this); let paths = pathDetails[0]; const skipSchemaValidators = pathDetails[1]; if (pathsToValidate && pathsToValidate.length) { const tmp = []; for (let i = 0; i < paths.length; ++i) { if (pathsToValidate.indexOf(paths[i]) !== -1) { tmp.push(paths[i]); } } paths = tmp; } const validating = {}; paths.forEach(function(path) { if (validating[path]) { return; } validating[path] = true; const p = _this.schema.path(path); if (!p) { return; } if (!_this.$isValid(path)) { return; } const val = _this.getValue(path); const err = p.doValidateSync(val, _this, { skipSchemaValidators: skipSchemaValidators[path] }); if (err && (!p.$isMongooseDocumentArray || err.$isArrayValidatorError)) { if (p.$isSingleNested && err.name === 'ValidationError' && p.schema.options.storeSubdocValidationError === false) { return; } _this.invalidate(path, err, undefined, true); } }); const err = _this.$__.validationError; _this.$__.validationError = undefined; _this.emit('validate', _this); _this.constructor.emit('validate', _this); if (err) { for (const key in err.errors) { // Make sure cast errors persist if (err.errors[key] instanceof MongooseError.CastError) { _this.invalidate(key, err.errors[key]); } } } return err; }; /** * Marks a path as invalid, causing validation to fail. * * The `errorMsg` argument will become the message of the `ValidationError`. * * The `value` argument (if passed) will be available through the `ValidationError.value` property. * * doc.invalidate('size', 'must be less than 20', 14); * doc.validate(function (err) { * console.log(err) * // prints * { message: 'Validation failed', * name: 'ValidationError', * errors: * { size: * { message: 'must be less than 20', * name: 'ValidatorError', * path: 'size', * type: 'user defined', * value: 14 } } } * }) * * @param {String} path the field to invalidate * @param {String|Error} errorMsg the error which states the reason `path` was invalid * @param {Object|String|Number|any} value optional invalid value * @param {String} [kind] optional `kind` property for the error * @return {ValidationError} the current ValidationError, with all currently invalidated paths * @api public */ Document.prototype.invalidate = function(path, err, val, kind) { if (!this.$__.validationError) { this.$__.validationError = new ValidationError(this); } if (this.$__.validationError.errors[path]) { return; } if (!err || typeof err === 'string') { err = new ValidatorError({ path: path, message: err, type: kind || 'user defined', value: val }); } if (this.$__.validationError === err) { return this.$__.validationError; } this.$__.validationError.addError(path, err); return this.$__.validationError; }; /** * Marks a path as valid, removing existing validation errors. * * @param {String} path the field to mark as valid * @api public * @memberOf Document * @instance * @method $markValid */ Document.prototype.$markValid = function(path) { if (!this.$__.validationError || !this.$__.validationError.errors[path]) { return; } delete this.$__.validationError.errors[path]; if (Object.keys(this.$__.validationError.errors).length === 0) { this.$__.validationError = null; } }; /** * Saves this document. * * ####Example: * * product.sold = Date.now(); * product.save(function (err, product) { * if (err) .. * }) * * The callback will receive two parameters * * 1. `err` if an error occurred * 2. `product` which is the saved `product` * * As an extra measure of flow control, save will return a Promise. * ####Example: * product.save().then(function(product) { * ... * }); * * @param {Object} [options] options optional options * @param {Object} [options.safe] (DEPRECATED) overrides [schema's safe option](http://mongoosejs.com//docs/guide.html#safe) * @param {Boolean} [options.validateBeforeSave] set to false to save without validating. * @param {Function} [fn] optional callback * @method save * @memberOf Document * @instance * @return {Promise|undefined} Returns undefined if used with callback or a Promise otherwise. * @api public * @see middleware http://mongoosejs.com/docs/middleware.html */ /** * Checks if a path is invalid * * @param {String} path the field to check * @method $isValid * @memberOf Document * @instance * @api private */ Document.prototype.$isValid = function(path) { return !this.$__.validationError || !this.$__.validationError.errors[path]; }; /** * Resets the internal modified state of this document. * * @api private * @return {Document} * @method $__reset * @memberOf Document * @instance */ Document.prototype.$__reset = function reset() { let _this = this; DocumentArray || (DocumentArray = require('./types/documentarray')); this.$__.activePaths .map('init', 'modify', function(i) { return _this.getValue(i); }) .filter(function(val) { return val && val instanceof Array && val.isMongooseDocumentArray && val.length; }) .forEach(function(array) { let i = array.length; while (i--) { const doc = array[i]; if (!doc) { continue; } doc.$__reset(); } _this.$__.activePaths.init(array._path); array._atomics = {}; }); this.$__.activePaths. map('init', 'modify', function(i) { return _this.getValue(i); }). filter(function(val) { return val && val.$isSingleNested; }). forEach(function(doc) { doc.$__reset(); _this.$__.activePaths.init(doc.$basePath); }); // clear atomics this.$__dirty().forEach(function(dirt) { const type = dirt.value; if (type && type._atomics) { type._atomics = {}; } }); // Clear 'dirty' cache this.$__.activePaths.clear('modify'); this.$__.activePaths.clear('default'); this.$__.validationError = undefined; this.errors = undefined; _this = this; this.schema.requiredPaths().forEach(function(path) { _this.$__.activePaths.require(path); }); return this; }; /** * Returns this documents dirty paths / vals. * * @api private * @method $__dirty * @memberOf Document * @instance */ Document.prototype.$__dirty = function() { const _this = this; let all = this.$__.activePaths.map('modify', function(path) { return { path: path, value: _this.getValue(path), schema: _this.$__path(path) }; }); // gh-2558: if we had to set a default and the value is not undefined, // we have to save as well all = all.concat(this.$__.activePaths.map('default', function(path) { if (path === '_id' || _this.getValue(path) == null) { return; } return { path: path, value: _this.getValue(path), schema: _this.$__path(path) }; })); // Sort dirty paths in a flat hierarchy. all.sort(function(a, b) { return (a.path < b.path ? -1 : (a.path > b.path ? 1 : 0)); }); // Ignore "foo.a" if "foo" is dirty already. const minimal = []; let lastPath; let top; all.forEach(function(item) { if (!item) { return; } if (item.path.indexOf(lastPath) !== 0) { lastPath = item.path + '.'; minimal.push(item); top = item; } else { // special case for top level MongooseArrays if (top.value && top.value._atomics && top.value.hasAtomics()) { // the `top` array itself and a sub path of `top` are being modified. // the only way to honor all of both modifications is through a $set // of entire array. top.value._atomics = {}; top.value._atomics.$set = top.value; } } }); top = lastPath = null; return minimal; }; /** * Assigns/compiles `schema` into this documents prototype. * * @param {Schema} schema * @api private * @method $__setSchema * @memberOf Document * @instance */ Document.prototype.$__setSchema = function(schema) { schema.plugin(idGetter, { deduplicate: true }); compile(schema.tree, this, undefined, schema.options); // Apply default getters if virtual doesn't have any (gh-6262) for (const key of Object.keys(schema.virtuals)) { schema.virtuals[key]._applyDefaultGetters(); } this.schema = schema; }; /** * Get active path that were changed and are arrays * * @api private * @method $__getArrayPathsToValidate * @memberOf Document * @instance */ Document.prototype.$__getArrayPathsToValidate = function() { DocumentArray || (DocumentArray = require('./types/documentarray')); // validate all document arrays. return this.$__.activePaths .map('init', 'modify', function(i) { return this.getValue(i); }.bind(this)) .filter(function(val) { return val && val instanceof Array && val.isMongooseDocumentArray && val.length; }).reduce(function(seed, array) { return seed.concat(array); }, []) .filter(function(doc) { return doc; }); }; /** * Get all subdocs (by bfs) * * @api private * @method $__getAllSubdocs * @memberOf Document * @instance */ Document.prototype.$__getAllSubdocs = function() { DocumentArray || (DocumentArray = require('./types/documentarray')); Embedded = Embedded || require('./types/embedded'); function docReducer(doc, seed, path) { const val = path ? doc[path] : doc; if (val instanceof Embedded) { seed.push(val); } else if (val instanceof Map) { seed = Array.from(val.keys()).reduce(function(seed, path) { return docReducer(val.get(path), seed, null); }, seed); } else if (val && val.$isSingleNested) { seed = Object.keys(val._doc).reduce(function(seed, path) { return docReducer(val._doc, seed, path); }, seed); seed.push(val); } else if (val && val.isMongooseDocumentArray) { val.forEach(function _docReduce(doc) { if (!doc || !doc._doc) { return; } if (doc instanceof Embedded) { seed.push(doc); } seed = Object.keys(doc._doc).reduce(function(seed, path) { return docReducer(doc._doc, seed, path); }, seed); }); } else if (val instanceof Document && val.$__isNested) { if (val) { seed = Object.keys(val).reduce(function(seed, path) { return docReducer(val, seed, path); }, seed); } } return seed; } const _this = this; const subDocs = Object.keys(this._doc).reduce(function(seed, path) { return docReducer(_this, seed, path); }, []); return subDocs; }; /*! * Runs queued functions */ function applyQueue(doc) { const q = doc.schema && doc.schema.callQueue; if (!q.length) { return; } let pair; for (let i = 0; i < q.length; ++i) { pair = q[i]; if (pair[0] !== 'pre' && pair[0] !== 'post' && pair[0] !== 'on') { doc[pair[0]].apply(doc, pair[1]); } } } /*! * ignore */ Document.prototype.$__handleReject = function handleReject(err) { // emit on the Model if listening if (this.listeners('error').length) { this.emit('error', err); } else if (this.constructor.listeners && this.constructor.listeners('error').length) { this.constructor.emit('error', err); } else if (this.listeners && this.listeners('error').length) { this.emit('error', err); } }; /** * Internal helper for toObject() and toJSON() that doesn't manipulate options * * @api private * @method $toObject * @memberOf Document * @instance */ Document.prototype.$toObject = function(options, json) { let defaultOptions = { transform: true, flattenDecimals: true }; const path = json ? 'toJSON' : 'toObject'; const baseOptions = get(this, 'constructor.base.options.' + path, {}); const schemaOptions = get(this, 'schema.options', {}); // merge base default options with Schema's set default options if available. // `clone` is necessary here because `utils.options` directly modifies the second input. defaultOptions = utils.options(defaultOptions, clone(baseOptions)); defaultOptions = utils.options(defaultOptions, clone(schemaOptions[path] || {})); // If options do not exist or is not an object, set it to empty object options = options && utils.getFunctionName(options.constructor) === 'Object' ? clone(options) : {}; if (!('flattenMaps' in options)) { options.flattenMaps = defaultOptions.flattenMaps; } let _minimize; if (options.minimize != null) { _minimize = options.minimize; } else if (defaultOptions.minimize != null) { _minimize = defaultOptions.minimize; } else { _minimize = schemaOptions.minimize; } // The original options that will be passed to `clone()`. Important because // `clone()` will recursively call `$toObject()` on embedded docs, so we // need the original options the user passed in, plus `_isNested` and // `_parentOptions` for checking whether we need to depopulate. const cloneOptions = Object.assign(utils.clone(options), { _isNested: true, json: json, minimize: _minimize }); const depopulate = options.depopulate || get(options, '_parentOptions.depopulate', false); // _isNested will only be true if this is not the top level document, we // should never depopulate if (depopulate && options._isNested && this.$__.wasPopulated) { // populated paths that we set to a document return clone(this._id, cloneOptions); } // merge default options with input options. options = utils.options(defaultOptions, options); options._isNested = true; options.json = json; options.minimize = _minimize; cloneOptions._parentOptions = options; // remember the root transform function // to save it from being overwritten by sub-transform functions const originalTransform = options.transform; let ret = clone(this._doc, cloneOptions) || {}; if (options.getters) { applyGetters(this, ret, 'paths', cloneOptions); // applyGetters for paths will add nested empty objects; // if minimize is set, we need to remove them. if (options.minimize) { ret = minimize(ret) || {}; } } if (options.virtuals || options.getters && options.virtuals !== false) { applyGetters(this, ret, 'virtuals', cloneOptions); } if (options.versionKey === false && this.schema.options.versionKey) { delete ret[this.schema.options.versionKey]; } let transform = options.transform; // In the case where a subdocument has its own transform function, we need to // check and see if the parent has a transform (options.transform) and if the // child schema has a transform (this.schema.options.toObject) In this case, // we need to adjust options.transform to be the child schema's transform and // not the parent schema's if (transform === true || (schemaOptions.toObject && transform)) { const opts = options.json ? schemaOptions.toJSON : schemaOptions.toObject; if (opts) { transform = (typeof options.transform === 'function' ? options.transform : opts.transform); } } else { options.transform = originalTransform; } if (typeof transform === 'function') { const xformed = transform(this, ret, options); if (typeof xformed !== 'undefined') { ret = xformed; } } return ret; }; /** * Converts this document into a plain javascript object, ready for storage in MongoDB. * * Buffers are converted to instances of [mongodb.Binary](http://mongodb.github.com/node-mongodb-native/api-bson-generated/binary.html) for proper storage. * * ####Options: * * - `getters` apply all getters (path and virtual getters), defaults to false * - `virtuals` apply virtual getters (can override `getters` option), defaults to false * - `minimize` remove empty objects (defaults to true) * - `transform` a transform function to apply to the resulting document before returning * - `depopulate` depopulate any populated paths, replacing them with their original refs (defaults to false) * - `versionKey` whether to include the version key (defaults to true) * * ####Getters/Virtuals * * Example of only applying path getters * * doc.toObject({ getters: true, virtuals: false }) * * Example of only applying virtual getters * * doc.toObject({ virtuals: true }) * * Example of applying both path and virtual getters * * doc.toObject({ getters: true }) * * To apply these options to every document of your schema by default, set your [schemas](#schema_Schema) `toObject` option to the same argument. * * schema.set('toObject', { virtuals: true }) * * ####Transform * * We may need to perform a transformation of the resulting object based on some criteria, say to remove some sensitive information or return a custom object. In this case we set the optional `transform` function. * * Transform functions receive three arguments * * function (doc, ret, options) {} * * - `doc` The mongoose document which is being converted * - `ret` The plain object representation which has been converted * - `options` The options in use (either schema options or the options passed inline) * * ####Example * * // specify the transform schema option * if (!schema.options.toObject) schema.options.toObject = {}; * schema.options.toObject.transform = function (doc, ret, options) { * // remove the _id of every document before returning the result * delete ret._id; * return ret; * } * * // without the transformation in the schema * doc.toObject(); // { _id: 'anId', name: 'Wreck-it Ralph' } * * // with the transformation * doc.toObject(); // { name: 'Wreck-it Ralph' } * * With transformations we can do a lot more than remove properties. We can even return completely new customized objects: * * if (!schema.options.toObject) schema.options.toObject = {}; * schema.options.toObject.transform = function (doc, ret, options) { * return { movie: ret.name } * } * * // without the transformation in the schema * doc.toObject(); // { _id: 'anId', name: 'Wreck-it Ralph' } * * // with the transformation * doc.toObject(); // { movie: 'Wreck-it Ralph' } * * _Note: if a transform function returns `undefined`, the return value will be ignored._ * * Transformations may also be applied inline, overridding any transform set in the options: * * function xform (doc, ret, options) { * return { inline: ret.name, custom: true } * } * * // pass the transform as an inline option * doc.toObject({ transform: xform }); // { inline: 'Wreck-it Ralph', custom: true } * * If you want to skip transformations, use `transform: false`: * * if (!schema.options.toObject) schema.options.toObject = {}; * schema.options.toObject.hide = '_id'; * schema.options.toObject.transform = function (doc, ret, options) { * if (options.hide) { * options.hide.split(' ').forEach(function (prop) { * delete ret[prop]; * }); * } * return ret; * } * * var doc = new Doc({ _id: 'anId', secret: 47, name: 'Wreck-it Ralph' }); * doc.toObject(); // { secret: 47, name: 'Wreck-it Ralph' } * doc.toObject({ hide: 'secret _id', transform: false });// { _id: 'anId', secret: 47, name: 'Wreck-it Ralph' } * doc.toObject({ hide: 'secret _id', transform: true }); // { name: 'Wreck-it Ralph' } * * Transforms are applied _only to the document and are not applied to sub-documents_. * * Transforms, like all of these options, are also available for `toJSON`. * * See [schema options](/docs/guide.html#toObject) for some more details. * * _During save, no custom options are applied to the document before being sent to the database._ * * @param {Object} [options] * @param {Boolean} [options.getters=false] if true, apply all getters, including virtuals * @param {Boolean} [options.virtuals=false] if true, apply virtuals. Use `{ getters: true, virtuals: false }` to just apply getters, not virtuals * @param {Boolean} [options.minimize=true] if true, omit any empty objects from the output * @param {Function|null} [options.transform=null] if set, mongoose will call this function to allow you to transform the returned object * @param {Boolean} [options.depopulate=false] if true, replace any conventionally populated paths with the original id in the output. Has no affect on virtual populated paths. * @param {Boolean} [options.versionKey=true] if false, exclude the version key (`__v` by default) from the output * @param {Boolean} [options.flattenMaps=false] if true, convert Maps to POJOs. Useful if you want to `JSON.stringify()` the result of `toObject()`. * @return {Object} js object * @see mongodb.Binary http://mongodb.github.com/node-mongodb-native/api-bson-generated/binary.html * @api public * @memberOf Document * @instance */ Document.prototype.toObject = function(options) { return this.$toObject(options); }; /*! * Minimizes an object, removing undefined values and empty objects * * @param {Object} object to minimize * @return {Object} */ function minimize(obj) { const keys = Object.keys(obj); let i = keys.length; let hasKeys; let key; let val; while (i--) { key = keys[i]; val = obj[key]; if (utils.isObject(val) && !Buffer.isBuffer(val)) { obj[key] = minimize(val); } if (undefined === obj[key]) { delete obj[key]; continue; } hasKeys = true; } return hasKeys ? obj : undefined; } /*! * Applies virtuals properties to `json`. * * @param {Document} self * @param {Object} json * @param {String} type either `virtuals` or `paths` * @return {Object} `json` */ function applyGetters(self, json, type, options) { const schema = self.schema; const paths = Object.keys(schema[type]); let i = paths.length; const numPaths = i; let path; let assignPath; let cur = self._doc; let v; if (!cur) { return json; } if (type === 'virtuals') { options = options || {}; for (i = 0; i < numPaths; ++i) { path = paths[i]; // We may be applying virtuals to a nested object, for example if calling // `doc.nestedProp.toJSON()`. If so, the path we assign to, `assignPath`, // will be a trailing substring of the `path`. assignPath = path; if (options.path != null) { if (!path.startsWith(options.path + '.')) { continue; } assignPath = path.substr(options.path.length + 1); } const parts = assignPath.split('.'); v = clone(self.get(path), options); if (v === void 0) { continue; } const plen = parts.length; cur = json; for (let j = 0; j < plen - 1; ++j) { cur[parts[j]] = cur[parts[j]] || {}; cur = cur[parts[j]]; } cur[parts[plen - 1]] = v; } return json; } while (i--) { path = paths[i]; const parts = path.split('.'); const plen = parts.length; const last = plen - 1; let branch = json; let part; cur = self._doc; for (let ii = 0; ii < plen; ++ii) { part = parts[ii]; v = cur[part]; if (ii === last) { const val = self.get(path); // Ignore single nested docs: getters will run because of `clone()` // before `applyGetters()` in `$toObject()`. Quirk because single // nested subdocs are hydrated docs in `_doc` as opposed to POJOs. if (val != null && val.$__ == null) { branch[part] = clone(val, options); } } else if (v == null) { if (part in cur) { branch[part] = v; } break; } else { branch = branch[part] || (branch[part] = {}); } cur = v; } } return json; } /** * The return value of this method is used in calls to JSON.stringify(doc). * * This method accepts the same options as [Document#toObject](#document_Document-toObject). To apply the options to every document of your schema by default, set your [schemas](#schema_Schema) `toJSON` option to the same argument. * * schema.set('toJSON', { virtuals: true }) * * See [schema options](/docs/guide.html#toJSON) for details. * * @param {Object} options * @return {Object} * @see Document#toObject #document_Document-toObject * @api public * @memberOf Document * @instance */ Document.prototype.toJSON = function(options) { return this.$toObject(options, true); }; /** * Helper for console.log * * @api public * @method inspect * @memberOf Document * @instance */ Document.prototype.inspect = function(options) { const isPOJO = options && utils.getFunctionName(options.constructor) === 'Object'; let opts; if (isPOJO) { opts = options; opts.minimize = false; } return this.toObject(opts); }; if (inspect.custom) { /*! * Avoid Node deprecation warning DEP0079 */ Document.prototype[inspect.custom] = Document.prototype.inspect; } /** * Helper for console.log * * @api public * @method toString * @memberOf Document * @instance */ Document.prototype.toString = function() { return inspect(this.inspect()); }; /** * Returns true if the Document stores the same data as doc. * * Documents are considered equal when they have matching `_id`s, unless neither * document has an `_id`, in which case this function falls back to using * `deepEqual()`. * * @param {Document} doc a document to compare * @return {Boolean} * @api public * @memberOf Document * @instance */ Document.prototype.equals = function(doc) { if (!doc) { return false; } const tid = this.get('_id'); const docid = doc.get ? doc.get('_id') : doc; if (!tid && !docid) { return deepEqual(this, doc); } return tid && tid.equals ? tid.equals(docid) : tid === docid; }; /** * Populates document references, executing the `callback` when complete. * If you want to use promises instead, use this function with * [`execPopulate()`](#document_Document-execPopulate) * * ####Example: * * doc * .populate('company') * .populate({ * path: 'notes', * match: /airline/, * select: 'text', * model: 'modelName' * options: opts * }, function (err, user) { * assert(doc._id === user._id) // the document itself is passed * }) * * // summary * doc.populate(path) // not executed * doc.populate(options); // not executed * doc.populate(path, callback) // executed * doc.populate(options, callback); // executed * doc.populate(callback); // executed * doc.populate(options).execPopulate() // executed, returns promise * * * ####NOTE: * * Population does not occur unless a `callback` is passed *or* you explicitly * call `execPopulate()`. * Passing the same path a second time will overwrite the previous path options. * See [Model.populate()](#model_Model.populate) for explaination of options. * * @see Model.populate #model_Model.populate * @see Document.execPopulate #document_Document-execPopulate * @param {String|Object} [path] The path to populate or an options object * @param {Function} [callback] When passed, population is invoked * @api public * @return {Document} this * @memberOf Document * @instance */ Document.prototype.populate = function populate() { if (arguments.length === 0) { return this; } const pop = this.$__.populate || (this.$__.populate = {}); const args = utils.args(arguments); let fn; if (typeof args[args.length - 1] === 'function') { fn = args.pop(); } // allow `doc.populate(callback)` if (args.length) { // use hash to remove duplicate paths const res = utils.populate.apply(null, args); for (let i = 0; i < res.length; ++i) { pop[res[i].path] = res[i]; } } if (fn) { const paths = utils.object.vals(pop); this.$__.populate = undefined; let topLevelModel = this.constructor; if (this.$__isNested) { topLevelModel = this.$__.scope.constructor; const nestedPath = this.$__.nestedPath; paths.forEach(function(populateOptions) { populateOptions.path = nestedPath + '.' + populateOptions.path; }); } // Use `$session()` by default if the document has an associated session // See gh-6754 if (this.$session() != null) { const session = this.$session(); paths.forEach(path => { if (path.options == null) { path.options = { session: session }; return; } if (!('session' in path.options)) { path.options.session = session; } }); } topLevelModel.populate(this, paths, fn); } return this; }; /** * Explicitly executes population and returns a promise. Useful for ES2015 * integration. * * ####Example: * * var promise = doc. * populate('company'). * populate({ * path: 'notes', * match: /airline/, * select: 'text', * model: 'modelName' * options: opts * }). * execPopulate(); * * // summary * doc.execPopulate().then(resolve, reject); * * * @see Document.populate #document_Document-populate * @api public * @param {Function} [callback] optional callback. If specified, a promise will **not** be returned * @return {Promise} promise that resolves to the document when population is done * @memberOf Document * @instance */ Document.prototype.execPopulate = function(callback) { return utils.promiseOrCallback(callback, cb => { this.populate(cb); }, this.constructor.events); }; /** * Gets _id(s) used during population of the given `path`. * * ####Example: * * Model.findOne().populate('author').exec(function (err, doc) { * console.log(doc.author.name) // Dr.Seuss * console.log(doc.populated('author')) // '5144cf8050f071d979c118a7' * }) * * If the path was not populated, undefined is returned. * * @param {String} path * @return {Array|ObjectId|Number|Buffer|String|undefined} * @memberOf Document * @instance * @api public */ Document.prototype.populated = function(path, val, options) { // val and options are internal if (val === null || val === void 0) { if (!this.$__.populated) { return undefined; } const v = this.$__.populated[path]; if (v) { return v.value; } return undefined; } // internal if (val === true) { if (!this.$__.populated) { return undefined; } return this.$__.populated[path]; } this.$__.populated || (this.$__.populated = {}); this.$__.populated[path] = {value: val, options: options}; return val; }; /** * Takes a populated field and returns it to its unpopulated state. * * ####Example: * * Model.findOne().populate('author').exec(function (err, doc) { * console.log(doc.author.name); // Dr.Seuss * console.log(doc.depopulate('author')); * console.log(doc.author); // '5144cf8050f071d979c118a7' * }) * * If the path was not populated, this is a no-op. * * @param {String} path * @return {Document} this * @see Document.populate #document_Document-populate * @api public * @memberOf Document * @instance */ Document.prototype.depopulate = function(path) { if (typeof path === 'string') { path = path.split(' '); } let populatedIds; const virtualKeys = this.$$populatedVirtuals ? Object.keys(this.$$populatedVirtuals) : []; const populated = get(this, '$__.populated', {}); if (arguments.length === 0) { // Depopulate all for (let i = 0; i < virtualKeys.length; i++) { delete this.$$populatedVirtuals[virtualKeys[i]]; delete this._doc[virtualKeys[i]]; delete populated[virtualKeys[i]]; } const keys = Object.keys(populated); for (let i = 0; i < keys.length; i++) { populatedIds = this.populated(keys[i]); if (!populatedIds) { continue; } delete populated[keys[i]]; this.$set(keys[i], populatedIds); } return this; } for (let i = 0; i < path.length; i++) { populatedIds = this.populated(path[i]); delete populated[path[i]]; if (virtualKeys.indexOf(path[i]) !== -1) { delete this.$$populatedVirtuals[path[i]]; delete this._doc[path[i]]; } else { this.$set(path[i], populatedIds); } } return this; }; /** * Returns the full path to this document. * * @param {String} [path] * @return {String} * @api private * @method $__fullPath * @memberOf Document * @instance */ Document.prototype.$__fullPath = function(path) { // overridden in SubDocuments return path || ''; }; /*! * Module exports. */ Document.ValidationError = ValidationError; module.exports = exports = Document;