зеркало из https://github.com/mozilla/gecko-dev.git
410 строки
15 KiB
JavaScript
410 строки
15 KiB
JavaScript
/* -*- Mode: Java; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim: set shiftwidth=2 tabstop=2 autoindent cindent expandtab: */
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// Don't modify this code. Please use:
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// https://github.com/andreasgal/PhoneNumber.js
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"use strict";
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this.EXPORTED_SYMBOLS = ["PhoneNumber"];
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Components.utils.import("resource://gre/modules/PhoneNumberMetaData.jsm");
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this.PhoneNumber = (function (dataBase) {
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// Use strict in our context only - users might not want it
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'use strict';
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const MAX_PHONE_NUMBER_LENGTH = 50;
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const UNICODE_DIGITS = /[\uFF10-\uFF19\u0660-\u0669\u06F0-\u06F9]/g;
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const NON_ALPHA_CHARS = /[^a-zA-Z]/g;
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const NON_DIALABLE_CHARS = /[^,#+\*\d]/g;
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const NON_DIALABLE_CHARS_ONCE = new RegExp(NON_DIALABLE_CHARS.source);
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const BACKSLASH = /\\/g;
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const SPLIT_FIRST_GROUP = /^(\d+)(.*)$/;
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const VALID_ALPHA_PATTERN = /[a-zA-Z]/g;
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const LEADING_PLUS_CHARS_PATTERN = /^[+\uFF0B]+/g;
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// Format of the string encoded meta data. If the name contains "^" or "$"
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// we will generate a regular expression from the value, with those special
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// characters as prefix/suffix.
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const META_DATA_ENCODING = ["region",
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"^(?:internationalPrefix)",
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"nationalPrefix",
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"^(?:nationalPrefixForParsing)",
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"nationalPrefixTransformRule",
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"nationalPrefixFormattingRule",
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"^possiblePattern$",
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"^nationalPattern$",
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"formats"];
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const FORMAT_ENCODING = ["^pattern$",
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"nationalFormat",
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"^leadingDigits",
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"nationalPrefixFormattingRule",
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"internationalFormat"];
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var regionCache = Object.create(null);
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// Parse an array of strings into a convenient object. We store meta
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// data as arrays since thats much more compact than JSON.
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function ParseArray(array, encoding, obj) {
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for (var n = 0; n < encoding.length; ++n) {
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var value = array[n];
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if (!value)
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continue;
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var field = encoding[n];
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var fieldAlpha = field.replace(NON_ALPHA_CHARS, "");
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if (field != fieldAlpha)
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value = new RegExp(field.replace(fieldAlpha, value));
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obj[fieldAlpha] = value;
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}
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return obj;
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}
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// Parse string encoded meta data into a convenient object
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// representation.
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function ParseMetaData(countryCode, md) {
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var array = eval(md.replace(BACKSLASH, "\\\\"));
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md = ParseArray(array,
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META_DATA_ENCODING,
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{ countryCode: countryCode });
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regionCache[md.region] = md;
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return md;
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}
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// Parse string encoded format data into a convenient object
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// representation.
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function ParseFormat(md) {
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var formats = md.formats;
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if (!formats) {
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return null;
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}
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// Bail if we already parsed the format definitions.
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if (!(Array.isArray(formats[0])))
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return;
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for (var n = 0; n < formats.length; ++n) {
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formats[n] = ParseArray(formats[n],
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FORMAT_ENCODING,
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{});
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}
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}
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// Search for the meta data associated with a region identifier ("US") in
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// our database, which is indexed by country code ("1"). Since we have
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// to walk the entire database for this, we cache the result of the lookup
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// for future reference.
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function FindMetaDataForRegion(region) {
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// Check in the region cache first. This will find all entries we have
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// already resolved (parsed from a string encoding).
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var md = regionCache[region];
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if (md)
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return md;
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for (var countryCode in dataBase) {
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var entry = dataBase[countryCode];
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// Each entry is a string encoded object of the form '["US..', or
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// an array of strings. We don't want to parse the string here
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// to save memory, so we just substring the region identifier
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// and compare it. For arrays, we compare against all region
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// identifiers with that country code. We skip entries that are
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// of type object, because they were already resolved (parsed into
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// an object), and their country code should have been in the cache.
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if (Array.isArray(entry)) {
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for (var n = 0; n < entry.length; n++) {
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if (typeof entry[n] == "string" && entry[n].substr(2,2) == region) {
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if (n > 0) {
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// Only the first entry has the formats field set.
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// Parse the main country if we haven't already and use
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// the formats field from the main country.
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if (typeof entry[0] == "string")
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entry[0] = ParseMetaData(countryCode, entry[0]);
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let formats = entry[0].formats;
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let current = ParseMetaData(countryCode, entry[n]);
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current.formats = formats;
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return entry[n] = current;
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}
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entry[n] = ParseMetaData(countryCode, entry[n]);
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return entry[n];
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}
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}
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continue;
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}
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if (typeof entry == "string" && entry.substr(2,2) == region)
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return dataBase[countryCode] = ParseMetaData(countryCode, entry);
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}
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}
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// Format a national number for a given region. The boolean flag "intl"
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// indicates whether we want the national or international format.
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function FormatNumber(regionMetaData, number, intl) {
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// We lazily parse the format description in the meta data for the region,
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// so make sure to parse it now if we haven't already done so.
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ParseFormat(regionMetaData);
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var formats = regionMetaData.formats;
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if (!formats) {
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return null;
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}
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for (var n = 0; n < formats.length; ++n) {
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var format = formats[n];
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// The leading digits field is optional. If we don't have it, just
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// use the matching pattern to qualify numbers.
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if (format.leadingDigits && !format.leadingDigits.test(number))
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continue;
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if (!format.pattern.test(number))
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continue;
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if (intl) {
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// If there is no international format, just fall back to the national
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// format.
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var internationalFormat = format.internationalFormat;
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if (!internationalFormat)
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internationalFormat = format.nationalFormat;
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// Some regions have numbers that can't be dialed from outside the
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// country, indicated by "NA" for the international format of that
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// number format pattern.
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if (internationalFormat == "NA")
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return null;
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// Prepend "+" and the country code.
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number = "+" + regionMetaData.countryCode + " " +
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number.replace(format.pattern, internationalFormat);
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} else {
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number = number.replace(format.pattern, format.nationalFormat);
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// The region has a national prefix formatting rule, and it can be overwritten
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// by each actual number format rule.
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var nationalPrefixFormattingRule = regionMetaData.nationalPrefixFormattingRule;
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if (format.nationalPrefixFormattingRule)
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nationalPrefixFormattingRule = format.nationalPrefixFormattingRule;
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if (nationalPrefixFormattingRule) {
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// The prefix formatting rule contains two magic markers, "$NP" and "$FG".
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// "$NP" will be replaced by the national prefix, and "$FG" with the
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// first group of numbers.
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var match = number.match(SPLIT_FIRST_GROUP);
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if (match) {
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var firstGroup = match[1];
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var rest = match[2];
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var prefix = nationalPrefixFormattingRule;
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prefix = prefix.replace("$NP", regionMetaData.nationalPrefix);
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prefix = prefix.replace("$FG", firstGroup);
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number = prefix + rest;
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}
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}
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}
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return (number == "NA") ? null : number;
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}
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return null;
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}
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function NationalNumber(regionMetaData, number) {
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this.region = regionMetaData.region;
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this.regionMetaData = regionMetaData;
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this.nationalNumber = number;
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}
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// NationalNumber represents the result of parsing a phone number. We have
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// three getters on the prototype that format the number in national and
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// international format. Once called, the getters put a direct property
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// onto the object, caching the result.
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NationalNumber.prototype = {
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// +1 949-726-2896
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get internationalFormat() {
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var value = FormatNumber(this.regionMetaData, this.nationalNumber, true);
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Object.defineProperty(this, "internationalFormat", { value: value, enumerable: true });
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return value;
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},
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// (949) 726-2896
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get nationalFormat() {
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var value = FormatNumber(this.regionMetaData, this.nationalNumber, false);
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Object.defineProperty(this, "nationalFormat", { value: value, enumerable: true });
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return value;
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},
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// +19497262896
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get internationalNumber() {
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var value = this.internationalFormat ? this.internationalFormat.replace(NON_DIALABLE_CHARS, "")
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: null;
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Object.defineProperty(this, "internationalNumber", { value: value, enumerable: true });
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return value;
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}
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};
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// Map letters to numbers according to the ITU E.161 standard
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var E161 = {
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'a': 2, 'b': 2, 'c': 2,
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'd': 3, 'e': 3, 'f': 3,
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'g': 4, 'h': 4, 'i': 4,
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'j': 5, 'k': 5, 'l': 5,
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'm': 6, 'n': 6, 'o': 6,
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'p': 7, 'q': 7, 'r': 7, 's': 7,
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't': 8, 'u': 8, 'v': 8,
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'w': 9, 'x': 9, 'y': 9, 'z': 9
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};
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// Normalize a number by converting unicode numbers and symbols to their
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// ASCII equivalents and removing all non-dialable characters.
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function NormalizeNumber(number, numbersOnly) {
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if (typeof number !== 'string') {
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return '';
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}
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number = number.replace(UNICODE_DIGITS,
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function (ch) {
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return String.fromCharCode(48 + (ch.charCodeAt(0) & 0xf));
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});
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if (!numbersOnly) {
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number = number.replace(VALID_ALPHA_PATTERN,
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function (ch) {
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return String(E161[ch.toLowerCase()] || 0);
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});
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}
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number = number.replace(LEADING_PLUS_CHARS_PATTERN, "+");
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number = number.replace(NON_DIALABLE_CHARS, "");
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return number;
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}
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// Check whether the number is valid for the given region.
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function IsValidNumber(number, md) {
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return md.possiblePattern.test(number);
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}
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// Check whether the number is a valid national number for the given region.
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function IsNationalNumber(number, md) {
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return IsValidNumber(number, md) && md.nationalPattern.test(number);
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}
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// Determine the country code a number starts with, or return null if
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// its not a valid country code.
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function ParseCountryCode(number) {
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for (var n = 1; n <= 3; ++n) {
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var cc = number.substr(0,n);
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if (dataBase[cc])
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return cc;
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}
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return null;
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}
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// Parse an international number that starts with the country code. Return
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// null if the number is not a valid international number.
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function ParseInternationalNumber(number) {
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var ret;
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// Parse and strip the country code.
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var countryCode = ParseCountryCode(number);
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if (!countryCode)
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return null;
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number = number.substr(countryCode.length);
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// Lookup the meta data for the region (or regions) and if the rest of
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// the number parses for that region, return the parsed number.
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var entry = dataBase[countryCode];
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if (Array.isArray(entry)) {
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for (var n = 0; n < entry.length; ++n) {
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if (typeof entry[n] == "string")
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entry[n] = ParseMetaData(countryCode, entry[n]);
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if (n > 0)
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entry[n].formats = entry[0].formats;
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ret = ParseNationalNumber(number, entry[n])
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if (ret)
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return ret;
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}
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return null;
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}
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if (typeof entry == "string")
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entry = dataBase[countryCode] = ParseMetaData(countryCode, entry);
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return ParseNationalNumber(number, entry);
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}
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// Parse a national number for a specific region. Return null if the
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// number is not a valid national number (it might still be a possible
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// number for parts of that region).
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function ParseNationalNumber(number, md) {
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if (!md.possiblePattern.test(number) ||
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!md.nationalPattern.test(number)) {
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return null;
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}
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// Success.
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return new NationalNumber(md, number);
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}
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// Parse a number and transform it into the national format, removing any
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// international dial prefixes and country codes.
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function ParseNumber(number, defaultRegion) {
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var ret;
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// Remove formating characters and whitespace.
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number = NormalizeNumber(number);
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// If there is no defaultRegion, we can't parse international access codes.
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if (!defaultRegion && number[0] !== '+')
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return null;
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// Detect and strip leading '+'.
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if (number[0] === '+')
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return ParseInternationalNumber(number.replace(LEADING_PLUS_CHARS_PATTERN, ""));
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// Lookup the meta data for the given region.
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var md = FindMetaDataForRegion(defaultRegion.toUpperCase());
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// See if the number starts with an international prefix, and if the
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// number resulting from stripping the code is valid, then remove the
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// prefix and flag the number as international.
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if (md.internationalPrefix.test(number)) {
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var possibleNumber = number.replace(md.internationalPrefix, "");
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ret = ParseInternationalNumber(possibleNumber)
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if (ret)
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return ret;
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}
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// This is not an international number. See if its a national one for
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// the current region. National numbers can start with the national
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// prefix, or without.
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if (md.nationalPrefixForParsing) {
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// Some regions have specific national prefix parse rules. Apply those.
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var withoutPrefix = number.replace(md.nationalPrefixForParsing,
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md.nationalPrefixTransformRule || '');
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ret = ParseNationalNumber(withoutPrefix, md)
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if (ret)
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return ret;
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} else {
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// If there is no specific national prefix rule, just strip off the
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// national prefix from the beginning of the number (if there is one).
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var nationalPrefix = md.nationalPrefix;
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if (nationalPrefix && number.indexOf(nationalPrefix) == 0 &&
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(ret = ParseNationalNumber(number.substr(nationalPrefix.length), md))) {
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return ret;
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}
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}
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ret = ParseNationalNumber(number, md)
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if (ret)
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return ret;
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// Now lets see if maybe its an international number after all, but
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// without '+' or the international prefix.
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ret = ParseInternationalNumber(number)
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if (ret)
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return ret;
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// If the number matches the possible numbers of the current region,
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// return it as a possible number.
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if (md.possiblePattern.test(number))
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return new NationalNumber(md, number);
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// We couldn't parse the number at all.
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return null;
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}
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function IsPlainPhoneNumber(number) {
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if (typeof number !== 'string') {
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return false;
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}
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var length = number.length;
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var isTooLong = (length > MAX_PHONE_NUMBER_LENGTH);
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var isEmpty = (length === 0);
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return !(isTooLong || isEmpty || NON_DIALABLE_CHARS_ONCE.test(number));
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}
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return {
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IsPlain: IsPlainPhoneNumber,
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Parse: ParseNumber,
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Normalize: NormalizeNumber
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};
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})(PHONE_NUMBER_META_DATA);
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