// Copyright IBM Corp. 2013,2019. All Rights Reserved. // Node module: loopback-datasource-juggler // This file is licensed under the MIT License. // License text available at https://opensource.org/licenses/MIT 'use strict'; /*! * Module dependencies */ const g = require('strong-globalize')(); const inflection = require('inflection'); const EventEmitter = require('events').EventEmitter; const util = require('util'); const assert = require('assert'); const deprecated = require('depd')('loopback-datasource-juggler'); const DefaultModelBaseClass = require('./model.js'); const List = require('./list.js'); const ModelDefinition = require('./model-definition.js'); const MixinProvider = require('./mixins'); const { deepMerge, deepMergeProperty, rankArrayElements, isClass, } = require('./utils'); // Set up types require('./types')(ModelBuilder); const introspect = require('./introspection')(ModelBuilder); /*! * Export public API */ exports.ModelBuilder = exports.Schema = ModelBuilder; /*! * Helpers */ const slice = Array.prototype.slice; /** * ModelBuilder - A builder to define data models. * * @property {Object} definitions Definitions of the models. * @property {Object} models Model constructors * @class */ function ModelBuilder() { // create blank models pool this.models = {}; this.definitions = {}; this.settings = {}; this.mixins = new MixinProvider(this); this.defaultModelBaseClass = DefaultModelBaseClass; } // Inherit from EventEmitter util.inherits(ModelBuilder, EventEmitter); // Create a default instance ModelBuilder.defaultInstance = new ModelBuilder(); function isModelClass(cls) { if (!cls) { return false; } return cls.prototype instanceof DefaultModelBaseClass; } /** * Get a model by name. * * @param {String} name The model name * @param {Boolean} forceCreate Whether the create a stub for the given name if a model doesn't exist. * @returns {ModelClass} The model class */ ModelBuilder.prototype.getModel = function(name, forceCreate) { let model = this.models[name]; if (!model && forceCreate) { model = this.define(name, {}, {unresolved: true}); } return model; }; /** * Get the model definition by name * @param {String} name The model name * @returns {ModelDefinition} The model definition */ ModelBuilder.prototype.getModelDefinition = function(name) { return this.definitions[name]; }; /** * Define a model class. * Simple example: * ``` * var User = modelBuilder.define('User', { * email: String, * password: String, * birthDate: Date, * activated: Boolean * }); * ``` * More advanced example: * ``` * var User = modelBuilder.define('User', { * email: { type: String, limit: 150, index: true }, * password: { type: String, limit: 50 }, * birthDate: Date, * registrationDate: {type: Date, default: function () { return new Date }}, * activated: { type: Boolean, default: false } * }); * ``` * * @param {String} className Name of class * @param {Object} properties Hash of class properties in format `{property: Type, property2: Type2, ...}` or `{property: {type: Type}, property2: {type: Type2}, ...}` * @param {Object} settings Other configuration of class * @param {Function} parent Parent model * @return {ModelClass} The class constructor. * */ ModelBuilder.prototype.define = function defineClass(className, properties, settings, parent) { const modelBuilder = this; const args = slice.call(arguments); const pluralName = (settings && settings.plural) || inflection.pluralize(className); const httpOptions = (settings && settings.http) || {}; let pathName = httpOptions.path || pluralName; if (!className) { throw new Error(g.f('Class name required')); } if (args.length === 1) { properties = {}; args.push(properties); } if (args.length === 2) { settings = {}; args.push(settings); } properties = properties || {}; settings = settings || {}; // Set the strict mode to be false by default if (settings.strict === undefined || settings.strict === null) { settings.strict = false; } // Set up the base model class let ModelBaseClass = parent || this.defaultModelBaseClass; const baseClass = settings.base || settings['super']; if (baseClass) { // Normalize base model property settings.base = baseClass; delete settings['super']; if (isModelClass(baseClass)) { ModelBaseClass = baseClass; } else { ModelBaseClass = this.models[baseClass]; assert(ModelBaseClass, 'Base model is not found: ' + baseClass); } } // Assert current model's base class provides method `getMergePolicy()`. assert(ModelBaseClass.getMergePolicy, `Base class ${ModelBaseClass.modelName} does not provide method getMergePolicy(). Most likely it is not inheriting from datasource-juggler's built-in default ModelBaseClass, which is an incorrect usage of the framework.`); // Initialize base model inheritance rank if not set already ModelBaseClass.__rank = ModelBaseClass.__rank || 1; // Make sure base properties are inherited // See https://github.com/strongloop/loopback-datasource-juggler/issues/293 if ((parent && !settings.base) || (!parent && settings.base)) { return ModelBaseClass.extend(className, properties, settings); } // Check if there is a unresolved model with the same name let ModelClass = this.models[className]; // Create the ModelClass if it doesn't exist or it's resolved (override) // TODO: [rfeng] We need to decide what names to use for built-in models such as User. if (!ModelClass || !ModelClass.settings.unresolved) { ModelClass = createModelClassCtor(className, ModelBaseClass); // mix in EventEmitter (don't inherit from) const events = new EventEmitter(); // The model can have more than 10 listeners for lazy relationship setup // See https://github.com/strongloop/loopback/issues/404 events.setMaxListeners(32); for (const f in EventEmitter.prototype) { if (typeof EventEmitter.prototype[f] === 'function') { ModelClass[f] = EventEmitter.prototype[f].bind(events); } } hiddenProperty(ModelClass, 'modelName', className); } // Iterate sub model inheritance rank over base model rank ModelClass.__rank = ModelBaseClass.__rank + 1; util.inherits(ModelClass, ModelBaseClass); // store class in model pool this.models[className] = ModelClass; // Return the unresolved model if (settings.unresolved) { ModelClass.settings = {unresolved: true}; return ModelClass; } // Add metadata to the ModelClass hiddenProperty(ModelClass, 'modelBuilder', modelBuilder); hiddenProperty(ModelClass, 'dataSource', null); // Keep for back-compatibility hiddenProperty(ModelClass, 'pluralModelName', pluralName); hiddenProperty(ModelClass, 'relations', {}); if (pathName[0] !== '/') { // Support both flavors path: 'x' and path: '/x' pathName = '/' + pathName; } hiddenProperty(ModelClass, 'http', {path: pathName}); hiddenProperty(ModelClass, 'base', ModelBaseClass); hiddenProperty(ModelClass, '_observers', {}); hiddenProperty(ModelClass, '_warned', {}); // inherit ModelBaseClass static methods for (const i in ModelBaseClass) { // We need to skip properties that are already in the subclass, for example, the event emitter methods if (i !== '_mixins' && !(i in ModelClass)) { ModelClass[i] = ModelBaseClass[i]; } } // Load and inject the model classes if (settings.models) { Object.keys(settings.models).forEach(function(m) { const model = settings.models[m]; ModelClass[m] = typeof model === 'string' ? modelBuilder.getModel(model, true) : model; }); } ModelClass.getter = {}; ModelClass.setter = {}; for (const p in properties) { // e.g excludePropertyList = ['id'] - base properties listed in excludePropertyList will be excluded from the model. // excludeBaseProperties is introduced in SOAP model generation only for now and below logic // handles excludeBaseProperties. Generated SOAP model has base as 'Model' which means 'id' property gets added // automatically and 'id' property shouldn't be there for SOAP models. idInjection = false will not work // for SOAP generator case, since base 'Model' has already id property. 'id: false' at the property level will not // work either for SOAP generator case since generators use ModelDefinition.create to create property in the model // dynamically, that execution path has strict validation where doesn't accept 'id: false' in a property. // See https://github.com/strongloop/loopback-workspace/issues/486 for some more details. const excludePropertyList = settings['excludeBaseProperties']; // Remove properties that reverted by the subclass of the property from excludePropertyList if (properties[p] === null || properties[p] === false || (excludePropertyList != null && excludePropertyList.indexOf(p) != -1)) { // Hide the base property delete properties[p]; } // Throw error for properties with unsupported names if (/\./.test(p)) { throw new Error(g.f('Property names containing dot(s) are not supported. ' + 'Model: %s, property: %s', className, p)); } // Warn if property name is 'constructor' if (p === 'constructor') { deprecated(g.f('Property name should not be "{{constructor}}" in Model: %s', className)); } } const modelDefinition = new ModelDefinition(this, className, properties, settings); this.definitions[className] = modelDefinition; // expose properties on the ModelClass ModelClass.definition = modelDefinition; // keep a pointer to settings as models can use it for configuration ModelClass.settings = modelDefinition.settings; let idInjection = settings.idInjection; if (idInjection !== false) { // Default to true if undefined idInjection = true; } let idNames = modelDefinition.idNames(); if (idNames.length > 0) { // id already exists idInjection = false; } // Add the id property if (idInjection) { // Set up the id property ModelClass.definition.defineProperty('id', {type: Number, id: 1, generated: true}); } idNames = modelDefinition.idNames(); // Reload it after rebuild // Create a virtual property 'id' if (idNames.length === 1) { const idProp = idNames[0]; if (idProp !== 'id') { Object.defineProperty(ModelClass.prototype, 'id', { get: function() { const idProp = ModelClass.definition.idNames()[0]; return this.__data[idProp]; }, configurable: true, enumerable: false, }); } } else { // Now the id property is an object that consists of multiple keys Object.defineProperty(ModelClass.prototype, 'id', { get: function() { const compositeId = {}; const idNames = ModelClass.definition.idNames(); for (let i = 0, p; i < idNames.length; i++) { p = idNames[i]; compositeId[p] = this.__data[p]; } return compositeId; }, configurable: true, enumerable: false, }); } // updateOnly property is added to indicate that this property will appear in // the model for update/updateorcreate operations but and not for create operation. let forceId = ModelClass.settings.forceId; if (idNames.length > 0) { const idName = modelDefinition.idName(); const idProp = ModelClass.definition.rawProperties[idName]; if (idProp.generated && forceId !== false) { forceId = 'auto'; } else if (!idProp.generated && forceId === 'auto') { // One of our parent models has enabled forceId because // it uses an auto-generated id property. However, // this particular model does not use auto-generated id, // therefore we need to disable `forceId`. forceId = false; } if (forceId) { ModelClass.validatesAbsenceOf(idName, {if: 'isNewRecord'}); } ModelClass.definition.properties[idName].updateOnly = !!forceId; ModelClass.definition.rawProperties[idName].updateOnly = !!forceId; ModelClass.settings.forceId = forceId; } // A function to loop through the properties ModelClass.forEachProperty = function(cb) { const props = ModelClass.definition.properties; const keys = Object.keys(props); for (let i = 0, n = keys.length; i < n; i++) { cb(keys[i], props[keys[i]]); } }; // A function to attach the model class to a data source ModelClass.attachTo = function(dataSource) { dataSource.attach(this); }; /** Extend the model with the specified model, properties, and other settings. * For example, to extend an existing model, for example, a built-in model: * * ```js * var Customer = User.extend('customer', { * accountId: String, * vip: Boolean * }); * ``` * * To extend the base model, essentially creating a new model: * ```js * var user = loopback.Model.extend('user', properties, options); * ``` * * @param {String} className Name of the new model being defined. * @options {Object} subClassProperties child model properties, added to base model * properties. * @options {Object} subClassSettings child model settings such as relations and acls, * merged with base model settings. */ ModelClass.extend = function(className, subClassProperties, subClassSettings) { const baseClassProperties = ModelClass.definition.properties; const baseClassSettings = ModelClass.definition.settings; subClassProperties = subClassProperties || {}; subClassSettings = subClassSettings || {}; // Check if subclass redefines the ids let idFound = false; for (const k in subClassProperties) { if (subClassProperties[k] && subClassProperties[k].id) { idFound = true; break; } } // Merging the properties const keys = Object.keys(baseClassProperties); for (let i = 0, n = keys.length; i < n; i++) { const key = keys[i]; if (idFound && baseClassProperties[key].id) { // don't inherit id properties continue; } if (subClassProperties[key] === undefined) { const baseProp = baseClassProperties[key]; let basePropCopy = baseProp; if (baseProp && typeof baseProp === 'object') { // Deep clone the base properties basePropCopy = deepMerge(baseProp); } subClassProperties[key] = basePropCopy; } } // Merging the settings const originalSubclassSettings = subClassSettings; const mergePolicy = ModelClass.getMergePolicy(subClassSettings); subClassSettings = mergeSettings(baseClassSettings, subClassSettings, mergePolicy); // Ensure 'base' is not inherited. Note we don't have to delete 'super' // as that is removed from settings by modelBuilder.define and thus // it is never inherited if (!originalSubclassSettings.base) { subClassSettings.base = ModelClass; } // Define the subclass const subClass = modelBuilder.define(className, subClassProperties, subClassSettings, ModelClass); // Calling the setup function if (typeof subClass.setup === 'function') { subClass.setup.call(subClass); } return subClass; }; /* * Merge parent and child model settings according to the provided merge policy. * * Below is presented the expected merge behaviour for each option of the policy. * NOTE: This applies to top-level settings properties * * - Any * - `{replace: true}` (default): child replaces the value from parent * - assigning `null` on child setting deletes the inherited setting * * - Arrays: * - `{replace: false}`: unique elements of parent and child cumulate * - `{rank: true}` adds the model inheritance rank to array * elements of type Object {} as internal property `__rank` * * - Object {}: * - `{replace: false}`: deep merges parent and child objects * - `{patch: true}`: child replaces inner properties from parent * * Here is an example of merge policy: * ``` * { * description: {replace: true}, // string or array * properties: {patch: true}, // object * hidden: {replace: false}, // array * protected: {replace: false}, // array * relations: {acls: true}, // object * acls: {rank: true}, // array * } * ``` * * @param {Object} baseClassSettings parent model settings. * @param {Object} subClassSettings child model settings. * @param {Object} mergePolicy merge policy, as defined in `ModelClass.getMergePolicy()` * @return {Object} mergedSettings merged parent and child models settings. */ function mergeSettings(baseClassSettings, subClassSettings, mergePolicy) { // deep clone base class settings const mergedSettings = deepMerge(baseClassSettings); Object.keys(baseClassSettings).forEach(function(key) { // rank base class settings arrays elements where required if (mergePolicy[key] && mergePolicy[key].rank) { baseClassSettings[key] = rankArrayElements(baseClassSettings[key], ModelBaseClass.__rank); } }); Object.keys(subClassSettings).forEach(function(key) { // assign default merge policy to unknown settings if specified // if none specified, a deep merge will be applied eventually if (mergePolicy[key] == null) { // undefined or null mergePolicy[key] = mergePolicy.__default || {}; } // allow null value to remove unwanted settings from base class settings if (subClassSettings[key] === mergePolicy.__delete) { delete mergedSettings[key]; return; } // rank sub class settings arrays elements where required if (mergePolicy[key].rank) { subClassSettings[key] = rankArrayElements(subClassSettings[key], ModelBaseClass.__rank + 1); } // replace base class settings where required if (mergePolicy[key].replace) { mergedSettings[key] = subClassSettings[key]; return; } // patch inner properties of base class settings where required if (mergePolicy[key].patch) { // mergedSettings[key] might not be initialized mergedSettings[key] = mergedSettings[key] || {}; Object.keys(subClassSettings[key]).forEach(function(innerKey) { mergedSettings[key][innerKey] = subClassSettings[key][innerKey]; }); return; } // in case no merge policy matched, apply a deep merge // this for example handles {replace: false} and {rank: true} mergedSettings[key] = deepMergeProperty(baseClassSettings[key], subClassSettings[key]); }); return mergedSettings; } /** * Register a property for the model class * @param {String} propertyName Name of the property. */ ModelClass.registerProperty = function(propertyName) { const properties = modelDefinition.build(); const prop = properties[propertyName]; const DataType = prop.type; if (!DataType) { throw new Error(g.f('Invalid type for property %s', propertyName)); } if (prop.required) { const requiredOptions = typeof prop.required === 'object' ? prop.required : undefined; ModelClass.validatesPresenceOf(propertyName, requiredOptions); } if (DataType === Date) ModelClass.validatesDateOf(propertyName); Object.defineProperty(ModelClass.prototype, propertyName, { get: function() { if (ModelClass.getter[propertyName]) { return ModelClass.getter[propertyName].call(this); // Try getter first } else { return this.__data && this.__data[propertyName]; // Try __data } }, set: function(value) { let DataType = ModelClass.definition.properties[propertyName].type; if (Array.isArray(DataType) || DataType === Array) { DataType = List; } else if (DataType === Date) { DataType = DateType; } else if (DataType === Boolean) { DataType = BooleanType; } else if (typeof DataType === 'string') { DataType = modelBuilder.resolveType(DataType); } const persistUndefinedAsNull = ModelClass.definition.settings.persistUndefinedAsNull; if (value === undefined && persistUndefinedAsNull) { value = null; } if (ModelClass.setter[propertyName]) { ModelClass.setter[propertyName].call(this, value); // Try setter first } else { this.__data = this.__data || {}; if (value === null || value === undefined) { this.__data[propertyName] = value; } else { if (DataType === List) { this.__data[propertyName] = isClass(DataType) ? new DataType(value, properties[propertyName].type, this.__data) : DataType(value, properties[propertyName].type, this.__data); } else { // Assume the type constructor handles Constructor() call // If not, we should call new DataType(value).valueOf(); this.__data[propertyName] = (value instanceof DataType) ? value : isClass(DataType) ? new DataType(value) : DataType(value); } } } }, configurable: true, enumerable: true, }); // FIXME: [rfeng] Do we need to keep the raw data? // Use $ as the prefix to avoid conflicts with properties such as _id Object.defineProperty(ModelClass.prototype, '$' + propertyName, { get: function() { return this.__data && this.__data[propertyName]; }, set: function(value) { if (!this.__data) { this.__data = {}; } this.__data[propertyName] = value; }, configurable: true, enumerable: false, }); }; const props = ModelClass.definition.properties; let keys = Object.keys(props); let size = keys.length; for (let i = 0; i < size; i++) { const propertyName = keys[i]; ModelClass.registerProperty(propertyName); } const mixinSettings = settings.mixins || {}; keys = Object.keys(mixinSettings); size = keys.length; for (let i = 0; i < size; i++) { const name = keys[i]; let mixin = mixinSettings[name]; if (mixin === true) { mixin = {}; } if (Array.isArray(mixin)) { mixin.forEach(function(m) { if (m === true) m = {}; if (typeof m === 'object') { modelBuilder.mixins.applyMixin(ModelClass, name, m); } }); } else if (typeof mixin === 'object') { modelBuilder.mixins.applyMixin(ModelClass, name, mixin); } } ModelClass.emit('defined', ModelClass); return ModelClass; }; function createModelClassCtor(name, ModelBaseClass) { // A simple sanitization to handle most common characters // that are used in model names but cannot be used as a function/class name. // Note that the rules for valid JS indentifiers are way too complex, // implementing a fully spec-compliant sanitization is not worth the effort. // See https://mathiasbynens.be/notes/javascript-identifiers-es6 name = name.replace(/[-.:]/g, '_'); try { // It is not possible to access closure variables like "ModelBaseClass" // from a dynamically defined function. The solution is to // create a dynamically defined factory function that accepts // closure variables as arguments. const factory = new Function('ModelBaseClass', ` // every class can receive hash of data as optional param return function ${name}(data, options) { if (!(this instanceof ${name})) { return new ${name}(data, options); } if (${name}.settings.unresolved) { throw new Error(g.f('Model %s is not defined.', ${JSON.stringify(name)})); } ModelBaseClass.apply(this, arguments); };`); return factory(ModelBaseClass); } catch (err) { // modelName is not a valid function/class name, e.g. 'grand-child' // and our simple sanitization was not good enough. // Falling back to legacy 'ModelConstructor' name. if (err.name === 'SyntaxError') { return createModelClassCtor('ModelConstructor', ModelBaseClass); } else { throw err; } } } // DataType for Date function DateType(arg) { if (arg === null) return null; const d = new Date(arg); return d; } // Relax the Boolean coercision function BooleanType(arg) { if (typeof arg === 'string') { switch (arg) { case 'true': case '1': return true; case 'false': case '0': return false; } } if (arg == null) { return null; } return Boolean(arg); } /** * Define single property named `propertyName` on `model` * * @param {String} model Name of model * @param {String} propertyName Name of property * @param {Object} propertyDefinition Property settings */ ModelBuilder.prototype.defineProperty = function(model, propertyName, propertyDefinition) { this.definitions[model].defineProperty(propertyName, propertyDefinition); this.models[model].registerProperty(propertyName); }; /** * Define a new value type that can be used in model schemas as a property type. * @param {function()} type Type constructor. * @param {string[]=} aliases Optional list of alternative names for this type. */ ModelBuilder.prototype.defineValueType = function(type, aliases) { ModelBuilder.registerType(type, aliases); }; /** * Extend existing model with specified properties * * Example: * Instead of extending a model with attributes like this (for example): * * ```js * db.defineProperty('Content', 'competitionType', * { type: String }); * db.defineProperty('Content', 'expiryDate', * { type: Date, index: true }); * db.defineProperty('Content', 'isExpired', * { type: Boolean, index: true }); *``` * This method enables you to extend a model as follows (for example): * ```js * db.extendModel('Content', { * competitionType: String, * expiryDate: { type: Date, index: true }, * isExpired: { type: Boolean, index: true } * }); *``` * * @param {String} model Name of model * @options {Object} properties JSON object specifying properties. Each property is a key whos value is * either the [type](http://docs.strongloop.com/display/LB/LoopBack+types) or `propertyName: {options}` * where the options are described below. * @property {String} type Datatype of property: Must be an [LDL type](http://docs.strongloop.com/display/LB/LoopBack+types). * @property {Boolean} index True if the property is an index; false otherwise. */ ModelBuilder.prototype.extendModel = function(model, props) { const t = this; const keys = Object.keys(props); for (let i = 0; i < keys.length; i++) { const definition = props[keys[i]]; t.defineProperty(model, keys[i], definition); } }; ModelBuilder.prototype.copyModel = function copyModel(Master) { const modelBuilder = this; const className = Master.modelName; const md = Master.modelBuilder.definitions[className]; const Slave = function SlaveModel() { Master.apply(this, [].slice.call(arguments)); }; util.inherits(Slave, Master); Slave.__proto__ = Master; hiddenProperty(Slave, 'modelBuilder', modelBuilder); hiddenProperty(Slave, 'modelName', className); hiddenProperty(Slave, 'relations', Master.relations); if (!(className in modelBuilder.models)) { // store class in model pool modelBuilder.models[className] = Slave; modelBuilder.definitions[className] = { properties: md.properties, settings: md.settings, }; } return Slave; }; /** * Remove a model from the registry. * * @param {String} modelName */ ModelBuilder.prototype.deleteModelByName = function(modelName) { delete this.models[modelName]; delete this.definitions[modelName]; }; /*! * Define hidden property */ function hiddenProperty(where, property, value) { Object.defineProperty(where, property, { writable: true, enumerable: false, configurable: true, value: value, }); } /** * Get the schema name. If no parameter is given, then an anonymous model name * is generated and returned. * @param {string=} name The optional name parameter. * @returns {string} The schema name. */ ModelBuilder.prototype.getSchemaName = function(name) { if (name) { return name; } if (typeof this._nameCount !== 'number') { this._nameCount = 0; } else { this._nameCount++; } return 'AnonymousModel_' + this._nameCount; }; /** * Resolve the type string to be a function, for example, 'String' to String. * Returns {Function} if the type is resolved * @param {String | Object | Array} prop The object whose type is to be resolved */ ModelBuilder.prototype.resolveType = function(prop, isSubProperty) { if (!prop) { return prop; } if (Array.isArray(prop) && prop.length > 0) { // For array types, the first item should be the type string const itemType = this.resolveType(prop[0]); if (typeof itemType === 'function') { return [itemType]; } else { return itemType; // Not resolved, return the type string } } if (typeof prop === 'string') { const schemaType = ModelBuilder.schemaTypes[prop.toLowerCase()] || this.models[prop]; if (schemaType) { return schemaType; } else { // The type cannot be resolved, let's create a place holder prop = this.define(prop, {}, {unresolved: true}); return prop; } } else if (prop.constructor.name === 'Object') { // We also support the syntax {type: 'string', ...} if (!isSubProperty && prop.type) { return this.resolveType(prop.type, true); } else { return this.define(this.getSchemaName(null), prop, { anonymous: true, idInjection: false, strict: this.settings.strictEmbeddedModels || false, }); } } else if ('function' === typeof prop) { return prop; } return prop; }; /** * Build models from schema definitions * * `schemas` can be one of the following: * * 1. An array of named schema definition JSON objects * 2. A schema definition JSON object * 3. A list of property definitions (anonymous) * * @param {*} schemas The schemas * @returns {Object.} A map of model constructors keyed by * model name. */ ModelBuilder.prototype.buildModels = function(schemas, createModel) { const models = {}; // Normalize the schemas to be an array of the schema objects {name: , properties: {}, options: {}} if (!Array.isArray(schemas)) { if (schemas.properties && schemas.name) { // Only one item schemas = [schemas]; } else { // Anonymous schema schemas = [ { name: this.getSchemaName(), properties: schemas, options: {anonymous: true}, }, ]; } } let relations = []; for (let s = 0, n = schemas.length; s < n; s++) { const name = this.getSchemaName(schemas[s].name); schemas[s].name = name; const model = typeof createModel === 'function' ? createModel(schemas[s].name, schemas[s].properties, schemas[s].options) : this.define(schemas[s].name, schemas[s].properties, schemas[s].options); models[name] = model; relations = relations.concat(model.definition.relations); } // Connect the models based on the relations for (let i = 0; i < relations.length; i++) { const relation = relations[i]; const sourceModel = models[relation.source]; const targetModel = models[relation.target]; if (sourceModel && targetModel) { if (typeof sourceModel[relation.type] === 'function') { sourceModel[relation.type](targetModel, {as: relation.as}); } } } return models; }; /** * Introspect the JSON document to build a corresponding model. * @param {String} name The model name * @param {Object} json The JSON object * @param {Object} options The options * @returns {ModelClass} The generated model class constructor. */ ModelBuilder.prototype.buildModelFromInstance = function(name, json, options) { // Introspect the JSON document to generate a schema const schema = introspect(json); // Create a model for the generated schema return this.define(name, schema, options); };