'use strict'; /*! * Module dependencies. */ const $exists = require('./operators/exists'); const $type = require('./operators/type'); const MongooseError = require('../error/mongooseError'); const SchemaType = require('../schematype'); const CastError = SchemaType.CastError; const Types = { Array: SchemaArray, Boolean: require('./boolean'), Date: require('./date'), Number: require('./number'), String: require('./string'), ObjectId: require('./objectid'), Buffer: require('./buffer'), Map: require('./map') }; const Mixed = require('./mixed'); const cast = require('../cast'); const get = require('../helpers/get'); const util = require('util'); const utils = require('../utils'); const castToNumber = require('./operators/helpers').castToNumber; const geospatial = require('./operators/geospatial'); const getDiscriminatorByValue = require('../queryhelpers').getDiscriminatorByValue; let MongooseArray; let EmbeddedDoc; /** * Array SchemaType constructor * * @param {String} key * @param {SchemaType} cast * @param {Object} options * @inherits SchemaType * @api public */ function SchemaArray(key, cast, options, schemaOptions) { // lazy load EmbeddedDoc || (EmbeddedDoc = require('../types').Embedded); let typeKey = 'type'; if (schemaOptions && schemaOptions.typeKey) { typeKey = schemaOptions.typeKey; } if (cast) { let castOptions = {}; if (utils.getFunctionName(cast.constructor) === 'Object') { if (cast[typeKey]) { // support { type: Woot } castOptions = utils.clone(cast); // do not alter user arguments delete castOptions[typeKey]; cast = cast[typeKey]; } else { cast = Mixed; } } if (cast === Object) { cast = Mixed; } // support { type: 'String' } const name = typeof cast === 'string' ? cast : utils.getFunctionName(cast); const caster = name in Types ? Types[name] : cast; this.casterConstructor = caster; if (typeof caster === 'function' && !caster.$isArraySubdocument && !caster.$isSchemaMap) { this.caster = new caster(null, castOptions); } else { this.caster = caster; } if (!(this.caster instanceof EmbeddedDoc)) { this.caster.path = key; } } this.$isMongooseArray = true; SchemaType.call(this, key, options, 'Array'); let defaultArr; let fn; if (this.defaultValue != null) { defaultArr = this.defaultValue; fn = typeof defaultArr === 'function'; } if (!('defaultValue' in this) || this.defaultValue !== void 0) { const defaultFn = function() { let arr = []; if (fn) { arr = defaultArr.call(this); } else if (defaultArr != null) { arr = arr.concat(defaultArr); } // Leave it up to `cast()` to convert the array return arr; }; defaultFn.$runBeforeSetters = true; this.default(defaultFn); } } /** * This schema type's name, to defend against minifiers that mangle * function names. * * @api public */ SchemaArray.schemaName = 'Array'; /** * Options for all arrays. * * - `castNonArrays`: `true` by default. If `false`, Mongoose will throw a CastError when a value isn't an array. If `true`, Mongoose will wrap the provided value in an array before casting. * * @static options * @api public */ SchemaArray.options = { castNonArrays: true }; /*! * Inherits from SchemaType. */ SchemaArray.prototype = Object.create(SchemaType.prototype); SchemaArray.prototype.constructor = SchemaArray; /** * Adds an enum validator if this is an array of strings. Equivalent to * `SchemaString.prototype.enum()` * * @param {String|Object} [args...] enumeration values * @return {SchemaType} this */ SchemaArray.prototype.enum = function() { const instance = get(this, 'caster.instance'); if (instance !== 'String') { throw new Error('`enum` can only be set on an array of strings, not ' + instance); } this.caster.enum.apply(this.caster, arguments); return this; }; /** * Overrides the getters application for the population special-case * * @param {Object} value * @param {Object} scope * @api private */ SchemaArray.prototype.applyGetters = function(value, scope) { if (this.caster.options && this.caster.options.ref) { // means the object id was populated return value; } return SchemaType.prototype.applyGetters.call(this, value, scope); }; /** * Casts values for set(). * * @param {Object} value * @param {Document} doc document that triggers the casting * @param {Boolean} init whether this is an initialization cast * @api private */ SchemaArray.prototype.cast = function(value, doc, init) { // lazy load MongooseArray || (MongooseArray = require('../types').Array); let i; let l; if (Array.isArray(value)) { if (!value.length && doc) { const indexes = doc.schema.indexedPaths(); for (i = 0, l = indexes.length; i < l; ++i) { const pathIndex = indexes[i][0][this.path]; if (pathIndex === '2dsphere' || pathIndex === '2d') { return; } } } if (!(value && value.isMongooseArray)) { value = new MongooseArray(value, this.path, doc); } else if (value && value.isMongooseArray) { // We need to create a new array, otherwise change tracking will // update the old doc (gh-4449) value = new MongooseArray(value, this.path, doc); } if (this.caster && this.casterConstructor !== Mixed) { try { for (i = 0, l = value.length; i < l; i++) { value[i] = this.caster.cast(value[i], doc, init); } } catch (e) { // rethrow throw new CastError('[' + e.kind + ']', util.inspect(value), this.path, e); } } return value; } if (init || SchemaArray.options.castNonArrays) { // gh-2442: if we're loading this from the db and its not an array, mark // the whole array as modified. if (!!doc && !!init) { doc.markModified(this.path); } return this.cast([value], doc, init); } throw new CastError('Array', util.inspect(value), this.path); }; /*! * Ignore */ SchemaArray.prototype.discriminator = function(name, schema) { let arr = this; // eslint-disable-line consistent-this while (arr.$isMongooseArray && !arr.$isMongooseDocumentArray) { arr = arr.casterConstructor; if (arr == null || typeof arr === 'function') { throw new MongooseError('You can only add an embedded discriminator on ' + 'a document array, ' + this.path + ' is a plain array'); } } return arr.discriminator(name, schema); }; /** * Casts values for queries. * * @param {String} $conditional * @param {any} [value] * @api private */ SchemaArray.prototype.castForQuery = function($conditional, value) { let handler; let val; if (arguments.length === 2) { handler = this.$conditionalHandlers[$conditional]; if (!handler) { throw new Error('Can\'t use ' + $conditional + ' with Array.'); } val = handler.call(this, value); } else { val = $conditional; let Constructor = this.casterConstructor; if (val && Constructor.discriminators && Constructor.schema && Constructor.schema.options && Constructor.schema.options.discriminatorKey) { if (typeof val[Constructor.schema.options.discriminatorKey] === 'string' && Constructor.discriminators[val[Constructor.schema.options.discriminatorKey]]) { Constructor = Constructor.discriminators[val[Constructor.schema.options.discriminatorKey]]; } else { const constructorByValue = getDiscriminatorByValue(Constructor, val[Constructor.schema.options.discriminatorKey]); if (constructorByValue) { Constructor = constructorByValue; } } } const proto = this.casterConstructor.prototype; let method = proto && (proto.castForQuery || proto.cast); if (!method && Constructor.castForQuery) { method = Constructor.castForQuery; } const caster = this.caster; if (Array.isArray(val)) { this.setters.reverse().forEach(setter => { val = setter.call(this, val, this); }); val = val.map(function(v) { if (utils.isObject(v) && v.$elemMatch) { return v; } if (method) { v = method.call(caster, v); return v; } if (v != null) { v = new Constructor(v); return v; } return v; }); } else if (method) { val = method.call(caster, val); } else if (val != null) { val = new Constructor(val); } } return val; }; function cast$all(val) { if (!Array.isArray(val)) { val = [val]; } val = val.map(function(v) { if (utils.isObject(v)) { const o = {}; o[this.path] = v; return cast(this.casterConstructor.schema, o)[this.path]; } return v; }, this); return this.castForQuery(val); } function cast$elemMatch(val) { const keys = Object.keys(val); const numKeys = keys.length; for (let i = 0; i < numKeys; ++i) { const key = keys[i]; const value = val[key]; if (key.indexOf('$') === 0 && value) { val[key] = this.castForQuery(key, value); } } // Is this an embedded discriminator and is the discriminator key set? // If so, use the discriminator schema. See gh-7449 const discriminatorKey = get(this, 'casterConstructor.schema.options.discriminatorKey'); const discriminators = get(this, 'casterConstructor.schema.discriminators', {}); if (discriminatorKey != null && val[discriminatorKey] != null && discriminators[val[discriminatorKey]] != null) { return cast(discriminators[val[discriminatorKey]], val); } return cast(this.casterConstructor.schema, val); } const handle = SchemaArray.prototype.$conditionalHandlers = {}; handle.$all = cast$all; handle.$options = String; handle.$elemMatch = cast$elemMatch; handle.$geoIntersects = geospatial.cast$geoIntersects; handle.$or = handle.$and = function(val) { if (!Array.isArray(val)) { throw new TypeError('conditional $or/$and require array'); } const ret = []; for (let i = 0; i < val.length; ++i) { ret.push(cast(this.casterConstructor.schema, val[i])); } return ret; }; handle.$near = handle.$nearSphere = geospatial.cast$near; handle.$within = handle.$geoWithin = geospatial.cast$within; handle.$size = handle.$minDistance = handle.$maxDistance = castToNumber; handle.$exists = $exists; handle.$type = $type; handle.$eq = handle.$gt = handle.$gte = handle.$lt = handle.$lte = handle.$ne = handle.$nin = handle.$regex = SchemaArray.prototype.castForQuery; // `$in` is special because you can also include an empty array in the query // like `$in: [1, []]`, see gh-5913 handle.$in = SchemaType.prototype.$conditionalHandlers.$in; /*! * Module exports. */ module.exports = SchemaArray;