function _interopDefault(ex) { return (ex && (typeof ex === 'object') && 'default' in ex) ? ex['default'] : ex; } var $RefParser = _interopDefault(require('json-schema-ref-parser')); var deref = _interopDefault(require('deref')); var tslib_1 = require('tslib'); // dynamic proxy for custom generators function proxy(gen) { return function (value, schema, property) { var fn = value; var args = []; // support for nested object, first-key is the generator if (typeof value === 'object') { fn = Object.keys(value)[0]; // treat the given array as arguments, if (Array.isArray(value[fn])) { // if the generator is expecting arrays they should be nested, e.g. `[[1, 2, 3], true, ...]` args = value[fn]; } else { args.push(value[fn]); } } // support for keypaths, e.g. "internet.email" var props = fn.split('.'); // retrieve a fresh dependency var ctx = gen(); while (props.length > 1) { ctx = ctx[props.shift()]; } // retrieve last value from context object value = typeof ctx === 'object' ? ctx[props[0]] : ctx; // invoke dynamic generators if (typeof value === 'function') { value = value.apply(ctx, args); } // test for pending callbacks if (Object.prototype.toString.call(value) === '[object Object]') { for (var key in value) { if (typeof value[key] === 'function') { throw new Error('Cannot resolve value for "' + property + ': ' + fn + '", given: ' + value); } } } return value; }; } /** * Container is used to wrap external generators (faker, chance, casual, etc.) and its dependencies. * * - `jsf.extend('faker')` will enhance or define the given dependency. * - `jsf.define('faker')` will provide the "faker" keyword support. * * RandExp is not longer considered an "extension". */ var Container = (function () { function Container() { // dynamic requires - handle all dependencies // they will NOT be included on the bundle this.registry = {}; this.support = {}; } /** * Override dependency given by name * @param name * @param callback */ Container.prototype.extend = function (name, callback) { var _this = this; this.registry[name] = callback(this.registry[name]); // built-in proxy (can be overridden) if (!this.support[name]) { this.support[name] = proxy(function () { return _this.registry[name]; }); } }; /** * Set keyword support by name * @param name * @param callback */ Container.prototype.define = function (name, callback) { this.support[name] = callback; }; /** * Returns dependency given by name * @param name * @returns {Dependency} */ Container.prototype.get = function (name) { if (typeof this.registry[name] === 'undefined') { throw new ReferenceError('"' + name + '" dependency doesn\'t exist.'); } return this.registry[name]; }; /** * Apply a custom keyword * @param schema */ Container.prototype.wrap = function (schema) { var keys = Object.keys(schema); var length = keys.length; while (length--) { var fn = keys[length].replace(/^x-/, ''); var gen = this.support[fn]; if (typeof gen === 'function') { schema.generate = function () { return gen(schema[keys[length]], schema, keys[length]); }; break; } } return schema; }; return Container; }()); /** * This class defines a registry for custom formats used within JSF. */ var Registry = (function () { function Registry() { // empty by default this.data = {}; } /** * Registers custom format */ Registry.prototype.register = function (name, callback) { this.data[name] = callback; }; /** * Register many formats at one shot */ Registry.prototype.registerMany = function (formats) { for (var name in formats) { this.data[name] = formats[name]; } }; /** * Returns element by registry key */ Registry.prototype.get = function (name) { var format = this.data[name]; return format; }; /** * Returns the whole registry content */ Registry.prototype.list = function () { return this.data; }; return Registry; }()); // instantiate var registry = new Registry(); /** * Custom format API * * @see https://github.com/json-schema-faker/json-schema-faker#custom-formats * @param nameOrFormatMap * @param callback * @returns {any} */ function formatAPI$1(nameOrFormatMap, callback) { if (typeof nameOrFormatMap === 'undefined') { return registry.list(); } else if (typeof nameOrFormatMap === 'string') { if (typeof callback === 'function') { registry.register(nameOrFormatMap, callback); } else { return registry.get(nameOrFormatMap); } } else { registry.registerMany(nameOrFormatMap); } } /** * This class defines a registry for custom settings used within JSF. */ var OptionRegistry = (function (_super) { tslib_1.__extends(OptionRegistry, _super); function OptionRegistry() { var _this = _super.call(this) || this; _this.data['failOnInvalidTypes'] = true; _this.data['defaultInvalidTypeProduct'] = null; _this.data['failOnInvalidFormat'] = true; _this.data['useDefaultValue'] = false; _this.data['requiredOnly'] = false; _this.data['maxItems'] = null; _this.data['maxLength'] = null; _this.data['defaultMinItems'] = 0; _this.data['defaultRandExpMax'] = 10; _this.data['alwaysFakeOptionals'] = false; _this.data['random'] = Math.random; return _this; } return OptionRegistry; }(Registry)); // instantiate var registry$1 = new OptionRegistry(); /** * Custom option API * * @param nameOrOptionMap * @returns {any} */ function optionAPI(nameOrOptionMap) { if (typeof nameOrOptionMap === 'string') { return registry$1.get(nameOrOptionMap); } else { return registry$1.registerMany(nameOrOptionMap); } } var RandExp = require('randexp'); // set maximum default, see #193 RandExp.prototype.max = 10; // same implementation as the original except using our random RandExp.prototype.randInt = function (a, b) { return a + Math.floor(optionAPI('random')() * (1 + b - a)); }; function _randexp(value) { var re = new RandExp(value); // apply given setting re.max = optionAPI('defaultRandExpMax'); return re.gen(); } function getSubAttribute(obj, dotSeparatedKey) { var keyElements = dotSeparatedKey.split('.'); while (keyElements.length) { var prop = keyElements.shift(); if (!obj[prop]) { break; } obj = obj[prop]; } return obj; } /** * Returns true/false whether the object parameter has its own properties defined * * @param obj * @param properties * @returns {boolean} */ function hasProperties(obj) { var properties = []; for (var _i = 1; _i < arguments.length; _i++) { properties[_i - 1] = arguments[_i]; } return properties.filter(function (key) { return typeof obj[key] !== 'undefined'; }).length > 0; } /** * Returns typecasted value. * External generators (faker, chance, casual) may return data in non-expected formats, such as string, when you might expect an * integer. This function is used to force the typecast. * * @param value * @param targetType * @returns {any} */ function typecast(value, schema) { // FIXME this function should cover most cases and should be reused within generators switch (schema.type) { case 'integer': return parseInt(value, 10); case 'number': return parseFloat(value); case 'string': value = String(value); var min = Math.max(schema.minLength || 0, 0); var max = Math.min(schema.maxLength || Infinity, Infinity); while (value.length < min) { value += ' ' + value; } if (value.length > max) { value = value.substr(0, max); } return value; case 'boolean': return !!value; default: return value; } } function merge(a, b) { for (var key in b) { if (typeof b[key] !== 'object' || b[key] === null) { a[key] = b[key]; } else if (Array.isArray(b[key])) { a[key] = a[key] || []; // fix #292 - skip duplicated values from merge object (b) b[key].forEach(function (value) { if (a[key].indexOf(value)) { a[key].push(value); } }); } else if (typeof a[key] !== 'object' || a[key] === null || Array.isArray(a[key])) { a[key] = merge({}, b[key]); } else { a[key] = merge(a[key], b[key]); } } return a; } function clean(obj, isArray, requiredProps) { if (!obj || typeof obj !== 'object') { return obj; } if (Array.isArray(obj)) { obj = obj .map(function (value) { return clean(value, true); }) .filter(function (value) { return typeof value !== 'undefined'; }); return obj; } Object.keys(obj).forEach(function (k) { if (!requiredProps || requiredProps.indexOf(k) === -1) { if (Array.isArray(obj[k]) && !obj[k].length) { delete obj[k]; } } else { obj[k] = clean(obj[k]); } }); if (!Object.keys(obj).length && isArray) { return undefined; } return obj; } function short(schema) { var s = JSON.stringify(schema); var l = JSON.stringify(schema, null, 2); return s.length > 400 ? l.substr(0, 400) + '...' : l; } var utils = { getSubAttribute: getSubAttribute, hasProperties: hasProperties, typecast: typecast, merge: merge, clean: clean, short: short, randexp: _randexp }; /// /** * Returns random element of a collection * * @param collection * @returns {T} */ function pick(collection) { return collection[Math.floor(optionAPI('random')() * collection.length)]; } /** * Returns shuffled collection of elements * * @param collection * @returns {T[]} */ function shuffle(collection) { var tmp, key, copy = collection.slice(), length = collection.length; for (; length > 0;) { key = Math.floor(optionAPI('random')() * length); // swap tmp = copy[--length]; copy[length] = copy[key]; copy[key] = tmp; } return copy; } /** * These values determine default range for random.number function * * @type {number} */ var MIN_NUMBER = -100; var MAX_NUMBER = 100; /** * Returns a random integer between min (inclusive) and max (inclusive) * Using Math.round() will give you a non-uniform distribution! * @see http://stackoverflow.com/a/1527820/769384 */ function getRandom(min, max) { return optionAPI('random')() * (max - min) + min; } /** * Generates random number according to parameters passed * * @param min * @param max * @param defMin * @param defMax * @param hasPrecision * @returns {number} */ function number(min, max, defMin, defMax, hasPrecision) { if (hasPrecision === void 0) { hasPrecision = false; } defMin = typeof defMin === 'undefined' ? MIN_NUMBER : defMin; defMax = typeof defMax === 'undefined' ? MAX_NUMBER : defMax; min = typeof min === 'undefined' ? defMin : min; max = typeof max === 'undefined' ? defMax : max; if (max < min) { max += min; } var result = getRandom(min, max); if (!hasPrecision) { return Math.round(result); } return result; } var random = { pick: pick, shuffle: shuffle, number: number, }; var ParseError = (function (_super) { tslib_1.__extends(ParseError, _super); function ParseError(message, path) { var _this = _super.call(this) || this; _this.path = path; if (Error.captureStackTrace) { Error.captureStackTrace(_this, _this.constructor); } _this.name = 'ParseError'; _this.message = message; _this.path = path; return _this; } return ParseError; }(Error)); var inferredProperties = { array: [ 'additionalItems', 'items', 'maxItems', 'minItems', 'uniqueItems' ], integer: [ 'exclusiveMaximum', 'exclusiveMinimum', 'maximum', 'minimum', 'multipleOf' ], object: [ 'additionalProperties', 'dependencies', 'maxProperties', 'minProperties', 'patternProperties', 'properties', 'required' ], string: [ 'maxLength', 'minLength', 'pattern' ] }; inferredProperties.number = inferredProperties.integer; var subschemaProperties = [ 'additionalItems', 'items', 'additionalProperties', 'dependencies', 'patternProperties', 'properties' ]; /** * Iterates through all keys of `obj` and: * - checks whether those keys match properties of a given inferred type * - makes sure that `obj` is not a subschema; _Do not attempt to infer properties named as subschema containers. The * reason for this is that any property name within those containers that matches one of the properties used for * inferring missing type values causes the container itself to get processed which leads to invalid output. (Issue 62)_ * * @returns {boolean} */ function matchesType(obj, lastElementInPath, inferredTypeProperties) { return Object.keys(obj).filter(function (prop) { var isSubschema = subschemaProperties.indexOf(lastElementInPath) > -1, inferredPropertyFound = inferredTypeProperties.indexOf(prop) > -1; if (inferredPropertyFound && !isSubschema) { return true; } }).length > 0; } /** * Checks whether given `obj` type might be inferred. The mechanism iterates through all inferred types definitions, * tries to match allowed properties with properties of given `obj`. Returns type name, if inferred, or null. * * @returns {string|null} */ function inferType(obj, schemaPath) { for (var typeName in inferredProperties) { var lastElementInPath = schemaPath[schemaPath.length - 1]; if (matchesType(obj, lastElementInPath, inferredProperties[typeName])) { return typeName; } } } /** * Generates randomized boolean value. * * @returns {boolean} */ function booleanGenerator() { return optionAPI('random')() > 0.5; } var booleanType = booleanGenerator; /** * Generates null value. * * @returns {null} */ function nullGenerator() { return null; } var nullType = nullGenerator; // TODO provide types function unique(path, items, value, sample, resolve, traverseCallback) { var tmp = [], seen = []; function walk(obj) { var json = JSON.stringify(obj); if (seen.indexOf(json) === -1) { seen.push(json); tmp.push(obj); } } items.forEach(walk); // TODO: find a better solution? var limit = 100; while (tmp.length !== items.length) { walk(traverseCallback(value.items || sample, path, resolve)); if (!limit--) { break; } } return tmp; } // TODO provide types var arrayType = function arrayType(value, path, resolve, traverseCallback) { var items = []; if (!(value.items || value.additionalItems)) { if (utils.hasProperties(value, 'minItems', 'maxItems', 'uniqueItems')) { throw new ParseError('missing items for ' + utils.short(value), path); } return items; } // see http://stackoverflow.com/a/38355228/769384 // after type guards support subproperties (in TS 2.0) we can simplify below to (value.items instanceof Array) // so that value.items.map becomes recognized for typescript compiler var tmpItems = value.items; if (tmpItems instanceof Array) { return Array.prototype.concat.call(items, tmpItems.map(function (item, key) { var itemSubpath = path.concat(['items', key + '']); return traverseCallback(item, itemSubpath, resolve); })); } var minItems = value.minItems; //var maxItems = value.maxItems; var maxItems = 1; if (optionAPI('defaultMinItems') && minItems === undefined) { // fix boundaries minItems = !maxItems ? optionAPI('defaultMinItems') : Math.min(optionAPI('defaultMinItems'), maxItems); } if (optionAPI('maxItems')) { // Don't allow user to set max items above our maximum if (maxItems && maxItems > optionAPI('maxItems')) { maxItems = optionAPI('maxItems'); } // Don't allow user to set min items above our maximum if (minItems && minItems > optionAPI('maxItems')) { minItems = maxItems; } } var length = (maxItems != null && optionAPI('alwaysFakeOptionals')) ? maxItems : random.number(minItems, maxItems, 1, 5), // TODO below looks bad. Should additionalItems be copied as-is? sample = typeof value.additionalItems === 'object' ? value.additionalItems : {}; for (var current = items.length; current < length; current++) { var itemSubpath = path.concat(['items', current + '']); var element = traverseCallback(value.items || sample, itemSubpath, resolve); items.push(element); } if (value.uniqueItems) { return unique(path.concat(['items']), items, value, sample, resolve, traverseCallback); } return items; }; var MIN_INTEGER = -100000000; var MAX_INTEGER = 100000000; var numberType$1 = function numberType(value) { var min = typeof value.minimum === 'undefined' ? MIN_INTEGER : value.minimum, max = typeof value.maximum === 'undefined' ? MAX_INTEGER : value.maximum, multipleOf = value.multipleOf; if (multipleOf) { max = Math.floor(max / multipleOf) * multipleOf; min = Math.ceil(min / multipleOf) * multipleOf; } if (value.exclusiveMinimum && value.minimum && min === value.minimum) { min += multipleOf || 1; } if (value.exclusiveMaximum && value.maximum && max === value.maximum) { max -= multipleOf || 1; } if (min > max) { return NaN; } if (multipleOf) { return Math.floor(random.number(min, max) / multipleOf) * multipleOf; } return random.number(min, max, undefined, undefined, true); }; // The `integer` type is just a wrapper for the `number` type. The `number` type // returns floating point numbers, and `integer` type truncates the fraction // part, leaving the result as an integer. var integerType = function integerType(value) { var generated = numberType$1(value); // whether the generated number is positive or negative, need to use either // floor (positive) or ceil (negative) function to get rid of the fraction return generated > 0 ? Math.floor(generated) : Math.ceil(generated); }; var LIPSUM_WORDS = ('Lorem ipsum dolor sit amet consectetur adipisicing elit sed do eiusmod tempor incididunt ut labore' + ' et dolore magna aliqua Ut enim ad minim veniam quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea' + ' commodo consequat Duis aute irure dolor in reprehenderit in voluptate velit esse cillum dolore eu fugiat nulla' + ' pariatur Excepteur sint occaecat cupidatat non proident sunt in culpa qui officia deserunt mollit anim id est' + ' laborum').split(' '); /** * Generates randomized array of single lorem ipsum words. * * @param length * @returns {Array.} */ function wordsGenerator$1(length) { var words = random.shuffle(LIPSUM_WORDS); return words.slice(0, length); } // fallback generator var anyType = { type: ['string', 'number', 'integer', 'boolean'] }; // TODO provide types var objectType = function objectType(value, path, resolve, traverseCallback) { var props = {}; var properties = value.properties || {}; var propertyKeys = value.required = Object.keys(properties); var patternProperties = value.patternProperties || {}; var requiredProperties = (value.required || []).slice(); var allowsAdditional = value.additionalProperties === false ? false : true; var patternPropertyKeys = Object.keys(patternProperties); var additionalProperties = allowsAdditional ? (value.additionalProperties === true ? {} : value.additionalProperties) : null; if (!allowsAdditional && propertyKeys.length === 0 && patternPropertyKeys.length === 0 && utils.hasProperties(value, 'minProperties', 'maxProperties', 'dependencies', 'required')) { throw new ParseError('missing properties for:\n' + utils.short(value), path); } if (optionAPI('requiredOnly') === true) { requiredProperties.forEach(function (key) { if (properties[key]) { props[key] = properties[key]; } }); return traverseCallback(props, path.concat(['properties']), resolve); } var min = Math.max(value.minProperties || 0, requiredProperties.length); var max = Math.max(value.maxProperties || random.number(min, min + 5)); random.shuffle(patternPropertyKeys.concat(propertyKeys)).forEach(function (_key) { if (requiredProperties.indexOf(_key) === -1) { requiredProperties.push(_key); } }); // properties are read from right-to-left var _props = optionAPI('alwaysFakeOptionals') ? requiredProperties : requiredProperties.slice(0, random.number(min, max)); _props.forEach(function (key) { // first ones are the required properies if (properties[key]) { props[key] = properties[key]; } else { var found; // then try patternProperties patternPropertyKeys.forEach(function (_key) { if (key.match(new RegExp(_key))) { found = true; props[utils.randexp(key)] = patternProperties[_key]; } }); if (!found) { // try patternProperties again, var subschema = patternProperties[key] || additionalProperties; if (subschema) { // otherwise we can use additionalProperties? props[patternProperties[key] ? utils.randexp(key) : key] = subschema; } } } }); var current = Object.keys(props).length; while (true) { if (!(patternPropertyKeys.length || allowsAdditional)) { break; } if (current >= min) { break; } if (allowsAdditional) { var word = wordsGenerator$1(1) + utils.randexp('[a-f\\d]{1,3}'); if (!props[word]) { props[word] = additionalProperties || anyType; current += 1; } } patternPropertyKeys.forEach(function (_key) { var word = utils.randexp(_key); if (!props[word]) { props[word] = patternProperties[_key]; current += 1; } }); } if (!allowsAdditional && current < min) { throw new ParseError('properties constraints were too strong to successfully generate a valid object for:\n' + utils.short(value), path); } return traverseCallback(props, path.concat(['properties']), resolve); }; /** * Helper function used by thunkGenerator to produce some words for the final result. * * @returns {string} */ function produce() { var length = random.number(1, 5); return wordsGenerator$1(length).join(' '); } /** * Generates randomized concatenated string based on words generator. * * @returns {string} */ function thunkGenerator$1(min, max) { if (min === void 0) { min = 0; } if (max === void 0) { max = 140; } var min = Math.max(0, min), max = random.number(min, max), result = produce(); // append until length is reached while (result.length < min) { result += produce(); } // cut if needed if (result.length > max) { result = result.substr(0, max); } return result; } /** * Generates randomized ipv4 address. * * @returns {string} */ function ipv4Generator() { return [0, 0, 0, 0].map(function () { return random.number(0, 255); }).join('.'); } var MOST_NEAR_DATETIME = 2524608000000; /** * Generates randomized date time ISO format string. * * @returns {string} */ function dateTimeGenerator$1() { var date = new Date(); var days = random.number(-1000, MOST_NEAR_DATETIME); date.setTime(date.getTime() - days); return date.toISOString(); } /** * Predefined core formats * @type {[key: string]: string} */ var regexps = { email: '[a-zA-Z\\d][a-zA-Z\\d-]{1,13}[a-zA-Z\\d]@{hostname}', hostname: '[a-zA-Z]{1,33}\\.[a-z]{2,4}', ipv6: '[a-f\\d]{4}(:[a-f\\d]{4}){7}', uri: '[a-zA-Z][a-zA-Z0-9+-.]*' }; /** * Generates randomized string basing on a built-in regex format * * @param coreFormat * @returns {string} */ function coreFormatGenerator(coreFormat) { return utils.randexp(regexps[coreFormat]).replace(/\{(\w+)\}/, function (match, key) { return utils.randexp(regexps[key]); }); } function generateFormat(value, invalid) { var callback = formatAPI$1(value.format); if (typeof callback === 'function') { return callback(value); } switch (value.format) { case 'date-time': return dateTimeGenerator$1(); case 'ipv4': return ipv4Generator(); case 'regex': // TODO: discuss return '.+?'; case 'email': case 'hostname': case 'ipv6': case 'uri': return coreFormatGenerator(value.format); default: if (typeof callback === 'undefined') { if (optionAPI('failOnInvalidFormat')) { throw new Error('unknown registry key ' + utils.short(value.format)); } else { return invalid(); } } throw new Error('unsupported format "' + value.format + '"'); } } var stringType = function stringType(value) { var output; var minLength = value.minLength; var maxLength = value.maxLength; if (optionAPI('maxLength')) { // Don't allow user to set max length above our maximum if (maxLength && maxLength > optionAPI('maxLength')) { maxLength = optionAPI('maxLength'); } // Don't allow user to set min length above our maximum if (minLength && minLength > optionAPI('maxLength')) { minLength = optionAPI('maxLength'); } } if (value.format) { output = generateFormat(value, function () { return thunkGenerator$1(minLength, maxLength); }); } else if (value.pattern) { output = utils.randexp(value.pattern); } else { output = thunkGenerator$1(minLength, maxLength); } while (output.length < minLength) { output += optionAPI('random')() > 0.7 ? thunkGenerator$1() : utils.randexp('.+'); } if (output.length > maxLength) { output = output.substr(0, maxLength); } return output; }; // var typeMap = { // boolean: booleanType, // null: nullType, // array: arrayType, // integer: integerType, // number: numberType$1, // object: objectType, // string: stringType // }; var typeMap = { boolean: () => '@boolean', null: nullType, array: arrayType, integer: () => '@integer', number: () => '@natural', object: objectType, string: () => '@string', }; // TODO provide types function traverse(schema, path, resolve) { schema = resolve(schema); if (!schema) { return; } if (Array.isArray(schema.enum)) { return random.pick(schema.enum); } // thunks can return sub-schemas if (typeof schema.thunk === 'function') { return traverse(schema.thunk(), path, resolve); } if (typeof schema.generate === 'function') { return utils.typecast(schema.generate(), schema); } if (optionAPI('useDefaultValue') && 'default' in schema) { return schema.default; } // TODO remove the ugly overcome var type = schema.type; if (Array.isArray(type)) { type = random.pick(type); } else if (typeof type === 'undefined') { // Attempt to infer the type type = inferType(schema, path) || type; } if (typeof type === 'string') { if (!typeMap[type]) { if (optionAPI('failOnInvalidTypes')) { throw new ParseError('unknown primitive ' + utils.short(type), path.concat(['type'])); } else { return optionAPI('defaultInvalidTypeProduct'); } } else { try { return utils.clean(typeMap[type](schema, path, resolve, traverse), null, schema.required); } catch (e) { if (typeof e.path === 'undefined') { throw new ParseError(e.message, path); } throw e; } } } var copy = {}; if (Array.isArray(schema)) { copy = []; } for (var prop in schema) { if (typeof schema[prop] === 'object' && prop !== 'definitions') { copy[prop] = traverse(schema[prop], path.concat([prop]), resolve); } else { copy[prop] = schema[prop]; } } return copy; } function isKey(prop) { return prop === 'enum' || prop === 'default' || prop === 'required' || prop === 'definitions'; } // TODO provide types function run(refs, schema, container) { try { return traverse(schema, [], function reduce(sub, maxReduceDepth) { if (typeof maxReduceDepth === 'undefined') { maxReduceDepth = random.number(1, 3); } if (!sub) { return null; } // cleanup if (sub.id && typeof sub.id === 'string') { delete sub.id; delete sub.$schema; } if (typeof sub.$ref === 'string') { if (sub.$ref.indexOf('#/') === -1) { var ref = deref.util.findByRef(sub.$ref, refs); if (!ref) { throw new Error('Reference not found: ' + sub.$ref); } return ref; } // just remove the reference delete sub.$ref; return sub; } if (Array.isArray(sub.allOf)) { var schemas = sub.allOf; delete sub.allOf; // this is the only case where all sub-schemas // must be resolved before any merge schemas.forEach(function (subSchema) { var _sub = reduce(subSchema, maxReduceDepth + 1); // call given thunks if present utils.merge(sub, typeof _sub.thunk === 'function' ? _sub.thunk() : _sub); }); } if (Array.isArray(sub.oneOf || sub.anyOf)) { var mix = sub.oneOf || sub.anyOf; delete sub.anyOf; delete sub.oneOf; return { thunk: function () { var copy = utils.merge({}, sub); utils.merge(copy, random.pick(mix)); return copy; }, }; } for (var prop in sub) { if ((Array.isArray(sub[prop]) || typeof sub[prop] === 'object') && !isKey(prop)) { sub[prop] = reduce(sub[prop], maxReduceDepth); } } return container.wrap(sub); }); } catch (e) { if (e.path) { throw new Error(e.message + ' in ' + '/' + e.path.join('/')); } else { throw e; } } } var container = new Container(); function getRefs(refs) { var $refs = {}; if (Array.isArray(refs)) { refs.map(deref.util.normalizeSchema).forEach(function (schema) { $refs[schema.id] = schema; }); } else { $refs = refs || {}; } return $refs; } var jsf = function (schema, refs) { var $ = deref(); var $refs = getRefs(refs); return run($refs, $(schema, $refs, true), container); }; jsf.resolve = function (schema, refs, cwd) { if (typeof refs === 'string') { cwd = refs; refs = {}; } // normalize basedir (browser aware) cwd = cwd || (typeof process !== 'undefined' ? process.cwd() : ''); cwd = cwd.replace(/\/+$/, '') + '/'; var $refs = getRefs(refs); // identical setup as json-schema-sequelizer var fixedRefs = { order: 300, canRead: true, read: function (file, callback) { callback(null, deref.util.findByRef(cwd !== '/' ? file.url.replace(cwd, '') : file.url, $refs)); }, }; return $RefParser .dereference(cwd, schema, { resolve: { fixedRefs: fixedRefs }, dereference: { circular: 'ignore', }, }).then(function (sub) { return jsf(sub, refs); }); }; jsf.utils = utils; jsf.format = formatAPI$1; jsf.option = optionAPI; // built-in support container.define('pattern', utils.randexp); // returns itself for chaining jsf.extend = function (name, cb) { container.extend(name, cb); return jsf; }; jsf.define = function (name, cb) { container.define(name, cb); return jsf; }; jsf.locate = function (name) { return container.get(name); }; var VERSION = "0.5.0-rc11"; jsf.version = VERSION; module.exports = jsf; var a = { "type": "array", "items": { "type": "object", "properties": { "id": { "type": "integer", "format": "int64" }, "username": { "type": "string" }, "firstName": { "type": "string" }, "lastName": { "type": "string" }, "email": { "type": "string" }, "password": { "type": "string" }, "phone": { "type": "string" }, "userStatus": { "type": "integer", "format": "int32", "description": "User Status" } }, "xml": { "name": "User" } } } console.log(jsf(a))