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dykj-football/uni_modules/uview-plus/libs/util/async-validator.js
sundongyu 3661827a9f ’初始化项目‘
2024-04-17 15:27:43 +08:00

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JavaScript
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This file contains ambiguous Unicode characters

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function _extends() {
_extends = Object.assign || function (target) {
for (let i = 1; i < arguments.length; i++) {
const source = arguments[i]
for (const key in source) {
if (Object.prototype.hasOwnProperty.call(source, key)) {
target[key] = source[key]
}
}
}
return target
}
return _extends.apply(this, arguments)
}
/* eslint no-console:0 */
const formatRegExp = /%[sdj%]/g
let 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((e) => typeof e === 'string')) {
console.warn(type, errors)
}
}
}
}
function convertFieldsError(errors) {
if (!errors || !errors.length) return null
const fields = {}
errors.forEach((error) => {
const { field } = error
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]
}
let i = 1
const f = args[0]
const len = args.length
if (typeof f === 'function') {
return f.apply(null, args.slice(1))
}
if (typeof f === 'string') {
let str = String(f).replace(formatRegExp, (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
}
})
for (let arg = args[i]; i < len; arg = args[++i]) {
str += ` ${arg}`
}
return str
}
return f
}
function isNativeStringType(type) {
return type === 'string' || type === 'url' || type === 'hex' || type === 'email' || 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) {
const results = []
let total = 0
const arrLength = arr.length
function count(errors) {
results.push.apply(results, errors)
total++
if (total === arrLength) {
callback(results)
}
}
arr.forEach((a) => {
func(a, count)
})
}
function asyncSerialArray(arr, func, callback) {
let index = 0
const arrLength = arr.length
function next(errors) {
if (errors && errors.length) {
callback(errors)
return
}
const original = index
index += 1
if (original < arrLength) {
func(arr[original], next)
} else {
callback([])
}
}
next([])
}
function flattenObjArr(objArr) {
const ret = []
Object.keys(objArr).forEach((k) => {
ret.push.apply(ret, objArr[k])
})
return ret
}
function asyncMap(objArr, option, func, callback) {
if (option.first) {
const _pending = new Promise((resolve, reject) => {
const next = function next(errors) {
callback(errors)
return errors.length ? reject({
errors,
fields: convertFieldsError(errors)
}) : resolve()
}
const flattenArr = flattenObjArr(objArr)
asyncSerialArray(flattenArr, func, next)
})
_pending.catch((e) => e)
return _pending
}
let firstFields = option.firstFields || []
if (firstFields === true) {
firstFields = Object.keys(objArr)
}
const objArrKeys = Object.keys(objArr)
const objArrLength = objArrKeys.length
let total = 0
const results = []
const pending = new Promise((resolve, reject) => {
const next = function next(errors) {
results.push.apply(results, errors)
total++
if (total === objArrLength) {
callback(results)
return results.length ? reject({
errors: results,
fields: convertFieldsError(results)
}) : resolve()
}
}
if (!objArrKeys.length) {
callback(results)
resolve()
}
objArrKeys.forEach((key) => {
const arr = objArr[key]
if (firstFields.indexOf(key) !== -1) {
asyncSerialArray(arr, func, next)
} else {
asyncParallelArray(arr, func, next)
}
})
})
pending.catch((e) => 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 (const s in source) {
if (source.hasOwnProperty(s)) {
const value = source[s]
if (typeof value === 'object' && typeof target[s] === 'object') {
target[s] = { ...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 */
const 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})$/i
}
var types = {
integer: function integer(value) {
return /^(-)?\d+$/.test(value);
},
float: function float(value) {
return /^(-)?\d+(\.\d+)?$/.test(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'
},
number: function number(value) {
if (isNaN(value)) {
return false
}
// 修改源码,将字符串数值先转为数值
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
}
const custom = ['integer', 'float', 'array', 'regexp', 'object', 'method', 'email', 'number', 'date', 'url', 'hex']
const 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) {
const len = typeof rule.len === 'number'
const min = typeof rule.min === 'number'
const 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
const spRegexp = /[\uD800-\uDBFF][\uDC00-\uDFFF]/g
let val = value
let key = null
const num = typeof value === 'number'
const str = typeof value === 'string'
const 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))
}
}
const 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') {
const _pattern = new RegExp(rule.pattern)
if (!_pattern.test(value)) {
errors.push(format(options.messages.pattern.mismatch, rule.fullField, value, rule.pattern))
}
}
}
}
const rules = {
required,
whitespace,
type,
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) {
const errors = []
const 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) {
const errors = []
const 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) {
const errors = []
const 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) {
const errors = []
const 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) {
const errors = []
const 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) {
const errors = []
const 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) {
const errors = []
const 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) {
const errors = []
const validate = rule.required || !rule.required && source.hasOwnProperty(rule.field)
if (validate) {
if (isEmptyValue(value, 'array') && !rule.required) {
return callback()
}
rules.required(rule, value, source, errors, options, 'array')
if (!isEmptyValue(value, 'array')) {
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) {
const errors = []
const 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)
}
const 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) {
const errors = []
const 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) {
const errors = []
const 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) {
const errors = []
const 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)) {
let dateObject
if (typeof value === 'number') {
dateObject = new Date(value)
} else {
dateObject = 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) {
const errors = []
const 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) {
const ruleType = rule.type
const errors = []
const 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) {
const errors = []
const 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)
}
const validators = {
string,
method,
number,
boolean: _boolean,
regexp,
integer,
float: floatFn,
array,
object,
enum: enumerable$1,
pattern: pattern$2,
date,
url: type$1,
hex: type$1,
email: type$1,
required: required$1,
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() {
const cloned = JSON.parse(JSON.stringify(this))
cloned.clone = this.clone
return cloned
}
}
}
const 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 = {}
let z
let 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) {
const _this = this
if (o === void 0) {
o = {}
}
if (oc === void 0) {
oc = function oc() {}
}
let source = source_
let options = o
let 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) {
let i
let errors = []
let fields = {}
function add(e) {
if (Array.isArray(e)) {
let _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) {
let messages$1 = this.messages()
if (messages$1 === messages) {
messages$1 = newMessages()
}
deepMerge(messages$1, options.messages)
options.messages = messages$1
} else {
options.messages = this.messages()
}
let arr
let value
const series = {}
const keys = options.keys || Object.keys(this.rules)
keys.forEach((z) => {
arr = _this.rules[z]
value = source[z]
arr.forEach((r) => {
let rule = r
if (typeof rule.transform === 'function') {
if (source === source_) {
source = { ...source }
}
value = source[z] = rule.transform(value)
}
if (typeof rule === 'function') {
rule = {
validator: rule
}
} else {
rule = { ...rule }
}
rule.validator = _this.getValidationMethod(rule)
rule.field = z
rule.fullField = rule.fullField || z
rule.type = _this.getType(rule)
if (!rule.validator) {
return
}
series[z] = series[z] || []
series[z].push({
rule,
value,
source,
field: z
})
})
})
const errorFields = {}
return asyncMap(series, options, (data, doIt) => {
const { rule } = data
let deep = (rule.type === 'object' || rule.type === 'array') && (typeof rule.fields === 'object' || typeof rule.defaultField
=== 'object')
deep = deep && (rule.required || !rule.required && data.value)
rule.field = data.field
function addFullfield(key, schema) {
return { ...schema, fullField: `${rule.fullField}.${key}` }
}
function cb(e) {
if (e === void 0) {
e = []
}
let errors = e
if (!Array.isArray(errors)) {
errors = [errors]
}
if (!options.suppressWarning && errors.length) {
Schema.warning('async-validator:', errors)
}
if (errors.length && rule.message) {
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) {
errors = [].concat(rule.message).map(complementError(rule))
} else if (options.error) {
errors = [options.error(rule, format(options.messages.required, rule.field))]
} else {
errors = []
}
return doIt(errors)
}
let fieldsSchema = {}
if (rule.defaultField) {
for (const k in data.value) {
if (data.value.hasOwnProperty(k)) {
fieldsSchema[k] = rule.defaultField
}
}
}
fieldsSchema = { ...fieldsSchema, ...data.rule.fields }
for (const f in fieldsSchema) {
if (fieldsSchema.hasOwnProperty(f)) {
const fieldSchema = Array.isArray(fieldsSchema[f]) ? fieldsSchema[f] : [fieldsSchema[f]]
fieldsSchema[f] = fieldSchema.map(addFullfield.bind(null, f))
}
}
const 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, (errs) => {
const finalErrors = []
if (errors && errors.length) {
finalErrors.push.apply(finalErrors, errors)
}
if (errs && errs.length) {
finalErrors.push.apply(finalErrors, errs)
}
doIt(finalErrors.length ? finalErrors : null)
})
}
}
let 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(() => cb(), (e) => cb(e))
}
}, (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
}
const keys = Object.keys(rule)
const 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
export default Schema
// # sourceMappingURL=index.js.map
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