function _extends() { _extends = Object.assign || function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; }; return _extends.apply(this, arguments); } function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; subClass.__proto__ = superClass; } function _getPrototypeOf(o) { _getPrototypeOf = Object.setPrototypeOf ? Object.getPrototypeOf : function _getPrototypeOf(o) { return o.__proto__ || Object.getPrototypeOf(o); }; return _getPrototypeOf(o); } function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf || function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); } function _isNativeReflectConstruct() { if (typeof Reflect === "undefined" || !Reflect.construct) return false; if (Reflect.construct.sham) return false; if (typeof Proxy === "function") return true; try { Date.prototype.toString.call(Reflect.construct(Date, [], function () {})); return true; } catch (e) { return false; } } function _construct(Parent, args, Class) { if (_isNativeReflectConstruct()) { _construct = Reflect.construct; } else { _construct = function _construct(Parent, args, Class) { var a = [null]; a.push.apply(a, args); var Constructor = Function.bind.apply(Parent, a); var instance = new Constructor(); if (Class) _setPrototypeOf(instance, Class.prototype); return instance; }; } return _construct.apply(null, arguments); } function _isNativeFunction(fn) { return Function.toString.call(fn).indexOf("[native code]") !== -1; } function _wrapNativeSuper(Class) { var _cache = typeof Map === "function" ? new Map() : undefined; _wrapNativeSuper = function _wrapNativeSuper(Class) { if (Class === null || !_isNativeFunction(Class)) return Class; if (typeof Class !== "function") { throw new TypeError("Super expression must either be null or a function"); } if (typeof _cache !== "undefined") { if (_cache.has(Class)) return _cache.get(Class); _cache.set(Class, Wrapper); } function Wrapper() { return _construct(Class, arguments, _getPrototypeOf(this).constructor); } Wrapper.prototype = Object.create(Class.prototype, { constructor: { value: Wrapper, enumerable: false, writable: true, configurable: true } }); return _setPrototypeOf(Wrapper, Class); }; return _wrapNativeSuper(Class); } /* eslint no-console:0 */ var formatRegExp = /%[sdj%]/g; var warning = function warning() {}; // don't print warning message when in production env or node runtime if (typeof process !== 'undefined' && process.env && process.env.NODE_ENV !== 'production' && typeof window !== 'undefined' && typeof document !== 'undefined') { warning = function warning(type, errors) { if (typeof console !== 'undefined' && console.warn) { if (errors.every(function (e) { return typeof e === 'string'; })) { console.warn(type, errors); } } }; } function convertFieldsError(errors) { if (!errors || !errors.length) return null; var fields = {}; errors.forEach(function (error) { var field = error.field; fields[field] = fields[field] || []; fields[field].push(error); }); return fields; } function format() { for (var _len = arguments.length, args = new Array(_len), _key = 0; _key < _len; _key++) { args[_key] = arguments[_key]; } var i = 1; var f = args[0]; var len = args.length; if (typeof f === 'function') { return f.apply(null, args.slice(1)); } if (typeof f === 'string') { var str = String(f).replace(formatRegExp, function (x) { if (x === '%%') { return '%'; } if (i >= len) { return x; } switch (x) { case '%s': return String(args[i++]); case '%d': return Number(args[i++]); case '%j': try { return JSON.stringify(args[i++]); } catch (_) { return '[Circular]'; } break; default: return x; } }); return str; } return f; } function isNativeStringType(type) { return type === 'string' || type === 'url' || type === 'hex' || type === 'email' || type === 'date' || type === 'pattern'; } function isEmptyValue(value, type) { if (value === undefined || value === null) { return true; } if (type === 'array' && Array.isArray(value) && !value.length) { return true; } if (isNativeStringType(type) && typeof value === 'string' && !value) { return true; } return false; } function asyncParallelArray(arr, func, callback) { var results = []; var total = 0; var arrLength = arr.length; function count(errors) { results.push.apply(results, errors); total++; if (total === arrLength) { callback(results); } } arr.forEach(function (a) { func(a, count); }); } function asyncSerialArray(arr, func, callback) { var index = 0; var arrLength = arr.length; function next(errors) { if (errors && errors.length) { callback(errors); return; } var original = index; index = index + 1; if (original < arrLength) { func(arr[original], next); } else { callback([]); } } next([]); } function flattenObjArr(objArr) { var ret = []; Object.keys(objArr).forEach(function (k) { ret.push.apply(ret, objArr[k]); }); return ret; } var AsyncValidationError = /*#__PURE__*/function (_Error) { _inheritsLoose(AsyncValidationError, _Error); function AsyncValidationError(errors, fields) { var _this; _this = _Error.call(this, 'Async Validation Error') || this; _this.errors = errors; _this.fields = fields; return _this; } return AsyncValidationError; }( /*#__PURE__*/_wrapNativeSuper(Error)); function asyncMap(objArr, option, func, callback) { if (option.first) { var _pending = new Promise(function (resolve, reject) { var next = function next(errors) { callback(errors); return errors.length ? reject(new AsyncValidationError(errors, convertFieldsError(errors))) : resolve(); }; var flattenArr = flattenObjArr(objArr); asyncSerialArray(flattenArr, func, next); }); _pending["catch"](function (e) { return e; }); return _pending; } var firstFields = option.firstFields || []; if (firstFields === true) { firstFields = Object.keys(objArr); } var objArrKeys = Object.keys(objArr); var objArrLength = objArrKeys.length; var total = 0; var results = []; var pending = new Promise(function (resolve, reject) { var next = function next(errors) { results.push.apply(results, errors); total++; if (total === objArrLength) { callback(results); return results.length ? reject(new AsyncValidationError(results, convertFieldsError(results))) : resolve(); } }; if (!objArrKeys.length) { callback(results); resolve(); } objArrKeys.forEach(function (key) { var arr = objArr[key]; if (firstFields.indexOf(key) !== -1) { asyncSerialArray(arr, func, next); } else { asyncParallelArray(arr, func, next); } }); }); pending["catch"](function (e) { return e; }); return pending; } function complementError(rule) { return function (oe) { if (oe && oe.message) { oe.field = oe.field || rule.fullField; return oe; } return { message: typeof oe === 'function' ? oe() : oe, field: oe.field || rule.fullField }; }; } function deepMerge(target, source) { if (source) { for (var s in source) { if (source.hasOwnProperty(s)) { var value = source[s]; if (typeof value === 'object' && typeof target[s] === 'object') { target[s] = _extends(_extends({}, target[s]), value); } else { target[s] = value; } } } } return target; } /** * Rule for validating required fields. * * @param rule The validation rule. * @param value The value of the field on the source object. * @param source The source object being validated. * @param errors An array of errors that this rule may add * validation errors to. * @param options The validation options. * @param options.messages The validation messages. */ function required(rule, value, source, errors, options, type) { if (rule.required && (!source.hasOwnProperty(rule.field) || isEmptyValue(value, type || rule.type))) { errors.push(format(options.messages.required, rule.fullField)); } } /** * Rule for validating whitespace. * * @param rule The validation rule. * @param value The value of the field on the source object. * @param source The source object being validated. * @param errors An array of errors that this rule may add * validation errors to. * @param options The validation options. * @param options.messages The validation messages. */ function whitespace(rule, value, source, errors, options) { if (/^\s+$/.test(value) || value === '') { errors.push(format(options.messages.whitespace, rule.fullField)); } } /* eslint max-len:0 */ var pattern = { // http://emailregex.com/ email: /^(([^<>()\[\]\\.,;:\s@"]+(\.[^<>()\[\]\\.,;:\s@"]+)*)|(".+"))@((\[[0-9]{1,3}\.[0-9]{1,3}\.[0-9]{1,3}\.[0-9]{1,3}])|(([a-zA-Z\-0-9]+\.)+[a-zA-Z]{2,}))$/, url: new RegExp("^(?!mailto:)(?:(?:http|https|ftp)://|//)(?:\\S+(?::\\S*)?@)?(?:(?:(?:[1-9]\\d?|1\\d\\d|2[01]\\d|22[0-3])(?:\\.(?:1?\\d{1,2}|2[0-4]\\d|25[0-5])){2}(?:\\.(?:[0-9]\\d?|1\\d\\d|2[0-4]\\d|25[0-4]))|(?:(?:[a-z\\u00a1-\\uffff0-9]+-*)*[a-z\\u00a1-\\uffff0-9]+)(?:\\.(?:[a-z\\u00a1-\\uffff0-9]+-*)*[a-z\\u00a1-\\uffff0-9]+)*(?:\\.(?:[a-z\\u00a1-\\uffff]{2,})))|localhost)(?::\\d{2,5})?(?:(/|\\?|#)[^\\s]*)?$", 'i'), hex: /^#?([a-f0-9]{6}|[a-f0-9]{3})$/i }; var types = { integer: function integer(value) { return types.number(value) && parseInt(value, 10) === value; }, "float": function float(value) { return types.number(value) && !types.integer(value); }, array: function array(value) { return Array.isArray(value); }, regexp: function regexp(value) { if (value instanceof RegExp) { return true; } try { return !!new RegExp(value); } catch (e) { return false; } }, date: function date(value) { return typeof value.getTime === 'function' && typeof value.getMonth === 'function' && typeof value.getYear === 'function' && !isNaN(value.getTime()); }, number: function number(value) { if (isNaN(value)) { return false; } return typeof value === 'number'; }, object: function object(value) { return typeof value === 'object' && !types.array(value); }, method: function method(value) { return typeof value === 'function'; }, email: function email(value) { return typeof value === 'string' && !!value.match(pattern.email) && value.length < 255; }, url: function url(value) { return typeof value === 'string' && !!value.match(pattern.url); }, hex: function hex(value) { return typeof value === 'string' && !!value.match(pattern.hex); } }; /** * Rule for validating the type of a value. * * @param rule The validation rule. * @param value The value of the field on the source object. * @param source The source object being validated. * @param errors An array of errors that this rule may add * validation errors to. * @param options The validation options. * @param options.messages The validation messages. */ function type(rule, value, source, errors, options) { if (rule.required && value === undefined) { required(rule, value, source, errors, options); return; } var custom = ['integer', 'float', 'array', 'regexp', 'object', 'method', 'email', 'number', 'date', 'url', 'hex']; var ruleType = rule.type; if (custom.indexOf(ruleType) > -1) { if (!types[ruleType](value)) { errors.push(format(options.messages.types[ruleType], rule.fullField, rule.type)); } // straight typeof check } else if (ruleType && typeof value !== rule.type) { errors.push(format(options.messages.types[ruleType], rule.fullField, rule.type)); } } /** * Rule for validating minimum and maximum allowed values. * * @param rule The validation rule. * @param value The value of the field on the source object. * @param source The source object being validated. * @param errors An array of errors that this rule may add * validation errors to. * @param options The validation options. * @param options.messages The validation messages. */ function range(rule, value, source, errors, options) { var len = typeof rule.len === 'number'; var min = typeof rule.min === 'number'; var max = typeof rule.max === 'number'; // 正则匹配码点范围从U+010000一直到U+10FFFF的文字(补充平面Supplementary Plane) var spRegexp = /[\uD800-\uDBFF][\uDC00-\uDFFF]/g; var val = value; var key = null; var num = typeof value === 'number'; var str = typeof value === 'string'; var arr = Array.isArray(value); if (num) { key = 'number'; } else if (str) { key = 'string'; } else if (arr) { key = 'array'; } // if the value is not of a supported type for range validation // the validation rule rule should use the // type property to also test for a particular type if (!key) { return false; } if (arr) { val = value.length; } if (str) { // 处理码点大于U+010000的文字length属性不准确的bug,如"𠮷𠮷𠮷".lenght !== 3 val = value.replace(spRegexp, '_').length; } if (len) { if (val !== rule.len) { errors.push(format(options.messages[key].len, rule.fullField, rule.len)); } } else if (min && !max && val < rule.min) { errors.push(format(options.messages[key].min, rule.fullField, rule.min)); } else if (max && !min && val > rule.max) { errors.push(format(options.messages[key].max, rule.fullField, rule.max)); } else if (min && max && (val < rule.min || val > rule.max)) { errors.push(format(options.messages[key].range, rule.fullField, rule.min, rule.max)); } } var ENUM = 'enum'; /** * Rule for validating a value exists in an enumerable list. * * @param rule The validation rule. * @param value The value of the field on the source object. * @param source The source object being validated. * @param errors An array of errors that this rule may add * validation errors to. * @param options The validation options. * @param options.messages The validation messages. */ function enumerable(rule, value, source, errors, options) { rule[ENUM] = Array.isArray(rule[ENUM]) ? rule[ENUM] : []; if (rule[ENUM].indexOf(value) === -1) { errors.push(format(options.messages[ENUM], rule.fullField, rule[ENUM].join(', '))); } } /** * Rule for validating a regular expression pattern. * * @param rule The validation rule. * @param value The value of the field on the source object. * @param source The source object being validated. * @param errors An array of errors that this rule may add * validation errors to. * @param options The validation options. * @param options.messages The validation messages. */ function pattern$1(rule, value, source, errors, options) { if (rule.pattern) { if (rule.pattern instanceof RegExp) { // if a RegExp instance is passed, reset `lastIndex` in case its `global` // flag is accidentally set to `true`, which in a validation scenario // is not necessary and the result might be misleading rule.pattern.lastIndex = 0; if (!rule.pattern.test(value)) { errors.push(format(options.messages.pattern.mismatch, rule.fullField, value, rule.pattern)); } } else if (typeof rule.pattern === 'string') { var _pattern = new RegExp(rule.pattern); if (!_pattern.test(value)) { errors.push(format(options.messages.pattern.mismatch, rule.fullField, value, rule.pattern)); } } } } var rules = { required: required, whitespace: whitespace, type: type, range: range, "enum": enumerable, pattern: pattern$1 }; /** * Performs validation for string types. * * @param rule The validation rule. * @param value The value of the field on the source object. * @param callback The callback function. * @param source The source object being validated. * @param options The validation options. * @param options.messages The validation messages. */ function string(rule, value, callback, source, options) { var errors = []; var validate = rule.required || !rule.required && source.hasOwnProperty(rule.field); if (validate) { if (isEmptyValue(value, 'string') && !rule.required) { return callback(); } rules.required(rule, value, source, errors, options, 'string'); if (!isEmptyValue(value, 'string')) { rules.type(rule, value, source, errors, options); rules.range(rule, value, source, errors, options); rules.pattern(rule, value, source, errors, options); if (rule.whitespace === true) { rules.whitespace(rule, value, source, errors, options); } } } callback(errors); } /** * Validates a function. * * @param rule The validation rule. * @param value The value of the field on the source object. * @param callback The callback function. * @param source The source object being validated. * @param options The validation options. * @param options.messages The validation messages. */ function method(rule, value, callback, source, options) { var errors = []; var validate = rule.required || !rule.required && source.hasOwnProperty(rule.field); if (validate) { if (isEmptyValue(value) && !rule.required) { return callback(); } rules.required(rule, value, source, errors, options); if (value !== undefined) { rules.type(rule, value, source, errors, options); } } callback(errors); } /** * Validates a number. * * @param rule The validation rule. * @param value The value of the field on the source object. * @param callback The callback function. * @param source The source object being validated. * @param options The validation options. * @param options.messages The validation messages. */ function number(rule, value, callback, source, options) { var errors = []; var validate = rule.required || !rule.required && source.hasOwnProperty(rule.field); if (validate) { if (value === '') { value = undefined; } if (isEmptyValue(value) && !rule.required) { return callback(); } rules.required(rule, value, source, errors, options); if (value !== undefined) { rules.type(rule, value, source, errors, options); rules.range(rule, value, source, errors, options); } } callback(errors); } /** * Validates a boolean. * * @param rule The validation rule. * @param value The value of the field on the source object. * @param callback The callback function. * @param source The source object being validated. * @param options The validation options. * @param options.messages The validation messages. */ function _boolean(rule, value, callback, source, options) { var errors = []; var validate = rule.required || !rule.required && source.hasOwnProperty(rule.field); if (validate) { if (isEmptyValue(value) && !rule.required) { return callback(); } rules.required(rule, value, source, errors, options); if (value !== undefined) { rules.type(rule, value, source, errors, options); } } callback(errors); } /** * Validates the regular expression type. * * @param rule The validation rule. * @param value The value of the field on the source object. * @param callback The callback function. * @param source The source object being validated. * @param options The validation options. * @param options.messages The validation messages. */ function regexp(rule, value, callback, source, options) { var errors = []; var validate = rule.required || !rule.required && source.hasOwnProperty(rule.field); if (validate) { if (isEmptyValue(value) && !rule.required) { return callback(); } rules.required(rule, value, source, errors, options); if (!isEmptyValue(value)) { rules.type(rule, value, source, errors, options); } } callback(errors); } /** * Validates a number is an integer. * * @param rule The validation rule. * @param value The value of the field on the source object. * @param callback The callback function. * @param source The source object being validated. * @param options The validation options. * @param options.messages The validation messages. */ function integer(rule, value, callback, source, options) { var errors = []; var validate = rule.required || !rule.required && source.hasOwnProperty(rule.field); if (validate) { if (isEmptyValue(value) && !rule.required) { return callback(); } rules.required(rule, value, source, errors, options); if (value !== undefined) { rules.type(rule, value, source, errors, options); rules.range(rule, value, source, errors, options); } } callback(errors); } /** * Validates a number is a floating point number. * * @param rule The validation rule. * @param value The value of the field on the source object. * @param callback The callback function. * @param source The source object being validated. * @param options The validation options. * @param options.messages The validation messages. */ function floatFn(rule, value, callback, source, options) { var errors = []; var validate = rule.required || !rule.required && source.hasOwnProperty(rule.field); if (validate) { if (isEmptyValue(value) && !rule.required) { return callback(); } rules.required(rule, value, source, errors, options); if (value !== undefined) { rules.type(rule, value, source, errors, options); rules.range(rule, value, source, errors, options); } } callback(errors); } /** * Validates an array. * * @param rule The validation rule. * @param value The value of the field on the source object. * @param callback The callback function. * @param source The source object being validated. * @param options The validation options. * @param options.messages The validation messages. */ function array(rule, value, callback, source, options) { var errors = []; var validate = rule.required || !rule.required && source.hasOwnProperty(rule.field); if (validate) { if ((value === undefined || value === null) && !rule.required) { return callback(); } rules.required(rule, value, source, errors, options, 'array'); if (value !== undefined && value !== null) { rules.type(rule, value, source, errors, options); rules.range(rule, value, source, errors, options); } } callback(errors); } /** * Validates an object. * * @param rule The validation rule. * @param value The value of the field on the source object. * @param callback The callback function. * @param source The source object being validated. * @param options The validation options. * @param options.messages The validation messages. */ function object(rule, value, callback, source, options) { var errors = []; var validate = rule.required || !rule.required && source.hasOwnProperty(rule.field); if (validate) { if (isEmptyValue(value) && !rule.required) { return callback(); } rules.required(rule, value, source, errors, options); if (value !== undefined) { rules.type(rule, value, source, errors, options); } } callback(errors); } var ENUM$1 = 'enum'; /** * Validates an enumerable list. * * @param rule The validation rule. * @param value The value of the field on the source object. * @param callback The callback function. * @param source The source object being validated. * @param options The validation options. * @param options.messages The validation messages. */ function enumerable$1(rule, value, callback, source, options) { var errors = []; var validate = rule.required || !rule.required && source.hasOwnProperty(rule.field); if (validate) { if (isEmptyValue(value) && !rule.required) { return callback(); } rules.required(rule, value, source, errors, options); if (value !== undefined) { rules[ENUM$1](rule, value, source, errors, options); } } callback(errors); } /** * Validates a regular expression pattern. * * Performs validation when a rule only contains * a pattern property but is not declared as a string type. * * @param rule The validation rule. * @param value The value of the field on the source object. * @param callback The callback function. * @param source The source object being validated. * @param options The validation options. * @param options.messages The validation messages. */ function pattern$2(rule, value, callback, source, options) { var errors = []; var validate = rule.required || !rule.required && source.hasOwnProperty(rule.field); if (validate) { if (isEmptyValue(value, 'string') && !rule.required) { return callback(); } rules.required(rule, value, source, errors, options); if (!isEmptyValue(value, 'string')) { rules.pattern(rule, value, source, errors, options); } } callback(errors); } function date(rule, value, callback, source, options) { // console.log('integer rule called %j', rule); var errors = []; var validate = rule.required || !rule.required && source.hasOwnProperty(rule.field); // console.log('validate on %s value', value); if (validate) { if (isEmptyValue(value, 'date') && !rule.required) { return callback(); } rules.required(rule, value, source, errors, options); if (!isEmptyValue(value, 'date')) { var dateObject; if (value instanceof Date) { dateObject = value; } else { dateObject = new Date(value); } rules.type(rule, dateObject, source, errors, options); if (dateObject) { rules.range(rule, dateObject.getTime(), source, errors, options); } } } callback(errors); } function required$1(rule, value, callback, source, options) { var errors = []; var type = Array.isArray(value) ? 'array' : typeof value; rules.required(rule, value, source, errors, options, type); callback(errors); } function type$1(rule, value, callback, source, options) { var ruleType = rule.type; var errors = []; var validate = rule.required || !rule.required && source.hasOwnProperty(rule.field); if (validate) { if (isEmptyValue(value, ruleType) && !rule.required) { return callback(); } rules.required(rule, value, source, errors, options, ruleType); if (!isEmptyValue(value, ruleType)) { rules.type(rule, value, source, errors, options); } } callback(errors); } /** * Performs validation for any type. * * @param rule The validation rule. * @param value The value of the field on the source object. * @param callback The callback function. * @param source The source object being validated. * @param options The validation options. * @param options.messages The validation messages. */ function any(rule, value, callback, source, options) { var errors = []; var validate = rule.required || !rule.required && source.hasOwnProperty(rule.field); if (validate) { if (isEmptyValue(value) && !rule.required) { return callback(); } rules.required(rule, value, source, errors, options); } callback(errors); } var validators = { string: string, method: method, number: number, "boolean": _boolean, regexp: regexp, integer: integer, "float": floatFn, array: array, object: object, "enum": enumerable$1, pattern: pattern$2, date: date, url: type$1, hex: type$1, email: type$1, required: required$1, any: any }; function newMessages() { return { "default": 'Validation error on field %s', required: '%s is required', "enum": '%s must be one of %s', whitespace: '%s cannot be empty', date: { format: '%s date %s is invalid for format %s', parse: '%s date could not be parsed, %s is invalid ', invalid: '%s date %s is invalid' }, types: { string: '%s is not a %s', method: '%s is not a %s (function)', array: '%s is not an %s', object: '%s is not an %s', number: '%s is not a %s', date: '%s is not a %s', "boolean": '%s is not a %s', integer: '%s is not an %s', "float": '%s is not a %s', regexp: '%s is not a valid %s', email: '%s is not a valid %s', url: '%s is not a valid %s', hex: '%s is not a valid %s' }, string: { len: '%s must be exactly %s characters', min: '%s must be at least %s characters', max: '%s cannot be longer than %s characters', range: '%s must be between %s and %s characters' }, number: { len: '%s must equal %s', min: '%s cannot be less than %s', max: '%s cannot be greater than %s', range: '%s must be between %s and %s' }, array: { len: '%s must be exactly %s in length', min: '%s cannot be less than %s in length', max: '%s cannot be greater than %s in length', range: '%s must be between %s and %s in length' }, pattern: { mismatch: '%s value %s does not match pattern %s' }, clone: function clone() { var cloned = JSON.parse(JSON.stringify(this)); cloned.clone = this.clone; return cloned; } }; } var messages = newMessages(); /** * Encapsulates a validation schema. * * @param descriptor An object declaring validation rules * for this schema. */ function Schema(descriptor) { this.rules = null; this._messages = messages; this.define(descriptor); } Schema.prototype = { messages: function messages(_messages) { if (_messages) { this._messages = deepMerge(newMessages(), _messages); } return this._messages; }, define: function define(rules) { if (!rules) { throw new Error('Cannot configure a schema with no rules'); } if (typeof rules !== 'object' || Array.isArray(rules)) { throw new Error('Rules must be an object'); } this.rules = {}; var z; var item; for (z in rules) { if (rules.hasOwnProperty(z)) { item = rules[z]; this.rules[z] = Array.isArray(item) ? item : [item]; } } }, validate: function validate(source_, o, oc) { var _this = this; if (o === void 0) { o = {}; } if (oc === void 0) { oc = function oc() {}; } var source = source_; var options = o; var callback = oc; if (typeof options === 'function') { callback = options; options = {}; } if (!this.rules || Object.keys(this.rules).length === 0) { if (callback) { callback(); } return Promise.resolve(); } function complete(results) { var i; var errors = []; var fields = {}; function add(e) { if (Array.isArray(e)) { var _errors; errors = (_errors = errors).concat.apply(_errors, e); } else { errors.push(e); } } for (i = 0; i < results.length; i++) { add(results[i]); } if (!errors.length) { errors = null; fields = null; } else { fields = convertFieldsError(errors); } callback(errors, fields); } if (options.messages) { var messages$1 = this.messages(); if (messages$1 === messages) { messages$1 = newMessages(); } deepMerge(messages$1, options.messages); options.messages = messages$1; } else { options.messages = this.messages(); } var arr; var value; var series = {}; var keys = options.keys || Object.keys(this.rules); keys.forEach(function (z) { arr = _this.rules[z]; value = source[z]; arr.forEach(function (r) { var rule = r; if (typeof rule.transform === 'function') { if (source === source_) { source = _extends({}, source); } value = source[z] = rule.transform(value); } if (typeof rule === 'function') { rule = { validator: rule }; } else { rule = _extends({}, rule); } rule.validator = _this.getValidationMethod(rule); rule.field = z; rule.fullField = rule.fullField || z; rule.type = _this.getType(rule); if (!rule.validator) { return; } series[z] = series[z] || []; series[z].push({ rule: rule, value: value, source: source, field: z }); }); }); var errorFields = {}; return asyncMap(series, options, function (data, doIt) { var rule = data.rule; var deep = (rule.type === 'object' || rule.type === 'array') && (typeof rule.fields === 'object' || typeof rule.defaultField === 'object'); deep = deep && (rule.required || !rule.required && data.value); rule.field = data.field; function addFullfield(key, schema) { return _extends(_extends({}, schema), {}, { fullField: rule.fullField + "." + key }); } function cb(e) { if (e === void 0) { e = []; } var errors = e; if (!Array.isArray(errors)) { errors = [errors]; } if (!options.suppressWarning && errors.length) { Schema.warning('async-validator:', errors); } if (errors.length && rule.message !== undefined) { errors = [].concat(rule.message); } errors = errors.map(complementError(rule)); if (options.first && errors.length) { errorFields[rule.field] = 1; return doIt(errors); } if (!deep) { doIt(errors); } else { // if rule is required but the target object // does not exist fail at the rule level and don't // go deeper if (rule.required && !data.value) { if (rule.message !== undefined) { errors = [].concat(rule.message).map(complementError(rule)); } else if (options.error) { errors = [options.error(rule, format(options.messages.required, rule.field))]; } return doIt(errors); } var fieldsSchema = {}; if (rule.defaultField) { for (var k in data.value) { if (data.value.hasOwnProperty(k)) { fieldsSchema[k] = rule.defaultField; } } } fieldsSchema = _extends(_extends({}, fieldsSchema), data.rule.fields); for (var f in fieldsSchema) { if (fieldsSchema.hasOwnProperty(f)) { var fieldSchema = Array.isArray(fieldsSchema[f]) ? fieldsSchema[f] : [fieldsSchema[f]]; fieldsSchema[f] = fieldSchema.map(addFullfield.bind(null, f)); } } var schema = new Schema(fieldsSchema); schema.messages(options.messages); if (data.rule.options) { data.rule.options.messages = options.messages; data.rule.options.error = options.error; } schema.validate(data.value, data.rule.options || options, function (errs) { var finalErrors = []; if (errors && errors.length) { finalErrors.push.apply(finalErrors, errors); } if (errs && errs.length) { finalErrors.push.apply(finalErrors, errs); } doIt(finalErrors.length ? finalErrors : null); }); } } var res; if (rule.asyncValidator) { res = rule.asyncValidator(rule, data.value, cb, data.source, options); } else if (rule.validator) { res = rule.validator(rule, data.value, cb, data.source, options); if (res === true) { cb(); } else if (res === false) { cb(rule.message || rule.field + " fails"); } else if (res instanceof Array) { cb(res); } else if (res instanceof Error) { cb(res.message); } } if (res && res.then) { res.then(function () { return cb(); }, function (e) { return cb(e); }); } }, function (results) { complete(results); }); }, getType: function getType(rule) { if (rule.type === undefined && rule.pattern instanceof RegExp) { rule.type = 'pattern'; } if (typeof rule.validator !== 'function' && rule.type && !validators.hasOwnProperty(rule.type)) { throw new Error(format('Unknown rule type %s', rule.type)); } return rule.type || 'string'; }, getValidationMethod: function getValidationMethod(rule) { if (typeof rule.validator === 'function') { return rule.validator; } var keys = Object.keys(rule); var messageIndex = keys.indexOf('message'); if (messageIndex !== -1) { keys.splice(messageIndex, 1); } if (keys.length === 1 && keys[0] === 'required') { return validators.required; } return validators[this.getType(rule)] || false; } }; Schema.register = function register(type, validator) { if (typeof validator !== 'function') { throw new Error('Cannot register a validator by type, validator is not a function'); } validators[type] = validator; }; Schema.warning = warning; Schema.messages = messages; Schema.validators = validators; export default Schema; //# sourceMappingURL=index.js.map