/* -*- Mode: Java; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set shiftwidth=2 tabstop=2 autoindent cindent expandtab: */ // Don't modify this code. Please use: // https://github.com/andreasgal/PhoneNumber.js "use strict"; this.EXPORTED_SYMBOLS = ["PhoneNumber"]; Components.utils.import("resource://gre/modules/PhoneNumberMetaData.jsm"); this.PhoneNumber = (function (dataBase) { // Use strict in our context only - users might not want it 'use strict'; const UNICODE_DIGITS = /[\uFF10-\uFF19\u0660-\u0669\u06F0-\u06F9]/g; const ALPHA_CHARS = /[a-zA-Z]/g; const NON_ALPHA_CHARS = /[^a-zA-Z]/g; const NON_DIALABLE_CHARS = /[^,#+\*\d]/g; const PLUS_CHARS = /^[+\uFF0B]+/g; const BACKSLASH = /\\/g; const SPLIT_FIRST_GROUP = /^(\d+)(.*)$/; // Format of the string encoded meta data. If the name contains "^" or "$" // we will generate a regular expression from the value, with those special // characters as prefix/suffix. const META_DATA_ENCODING = ["region", "^internationalPrefix", "nationalPrefix", "^nationalPrefixForParsing", "nationalPrefixTransformRule", "nationalPrefixFormattingRule", "^possiblePattern$", "^nationalPattern$", "formats"]; const FORMAT_ENCODING = ["^pattern$", "nationalFormat", "^leadingDigits", "nationalPrefixFormattingRule", "internationalFormat"]; var regionCache = Object.create(null); // Parse an array of strings into a convenient object. We store meta // data as arrays since thats much more compact than JSON. function ParseArray(array, encoding, obj) { for (var n = 0; n < encoding.length; ++n) { var value = array[n]; if (!value) continue; var field = encoding[n]; var fieldAlpha = field.replace(NON_ALPHA_CHARS, ""); if (field != fieldAlpha) value = new RegExp(field.replace(fieldAlpha, value)); obj[fieldAlpha] = value; } return obj; } // Parse string encoded meta data into a convenient object // representation. function ParseMetaData(countryCode, md) { var array = eval(md.replace(BACKSLASH, "\\\\")); md = ParseArray(array, META_DATA_ENCODING, { countryCode: countryCode }); regionCache[md.region] = md; return md; } // Parse string encoded format data into a convenient object // representation. function ParseFormat(md) { var formats = md.formats; // Bail if we already parsed the format definitions. if (!(Array.isArray(formats[0]))) return; for (var n = 0; n < formats.length; ++n) { formats[n] = ParseArray(formats[n], FORMAT_ENCODING, {}); } } // Search for the meta data associated with a region identifier ("US") in // our database, which is indexed by country code ("1"). Since we have // to walk the entire database for this, we cache the result of the lookup // for future reference. function FindMetaDataForRegion(region) { // Check in the region cache first. This will find all entries we have // already resolved (parsed from a string encoding). var md = regionCache[region]; if (md) return md; for (var countryCode in dataBase) { var entry = dataBase[countryCode]; // Each entry is a string encoded object of the form '["US..', or // an array of strings. We don't want to parse the string here // to save memory, so we just substring the region identifier // and compare it. For arrays, we compare against all region // identifiers with that country code. We skip entries that are // of type object, because they were already resolved (parsed into // an object), and their country code should have been in the cache. if (Array.isArray(entry)) { for (var n = 0; n < entry.length; n++) { if (typeof entry[n] == "string" && entry[n].substr(2,2) == region) { if (n > 0) { // Only the first entry has the formats field set. // Parse the main country if we haven't already and use // the formats field from the main country. if (typeof entry[0] == "string" && entry[0].substr(2,2) == region) entry[0] = ParseMetaData(countryCode, entry[0]); let formats = entry[0].formats; let current = ParseMetaData(countryCode, entry[n]); current.formats = formats; return entry[n] = current; } entry[n] = ParseMetaData(countryCode, entry[n]); return entry[n]; } } continue; } if (typeof entry == "string" && entry.substr(2,2) == region) return dataBase[countryCode] = ParseMetaData(countryCode, entry); } } // Format a national number for a given region. The boolean flag "intl" // indicates whether we want the national or international format. function FormatNumber(regionMetaData, number, intl) { // We lazily parse the format description in the meta data for the region, // so make sure to parse it now if we haven't already done so. ParseFormat(regionMetaData); var formats = regionMetaData.formats; for (var n = 0; n < formats.length; ++n) { var format = formats[n]; // The leading digits field is optional. If we don't have it, just // use the matching pattern to qualify numbers. if (format.leadingDigits && !format.leadingDigits.test(number)) continue; if (!format.pattern.test(number)) continue; if (intl) { // If there is no international format, just fall back to the national // format. var internationalFormat = format.internationalFormat; if (!internationalFormat) internationalFormat = format.nationalFormat; // Some regions have numbers that can't be dialed from outside the // country, indicated by "NA" for the international format of that // number format pattern. if (internationalFormat == "NA") return null; // Prepend "+" and the country code. number = "+" + regionMetaData.countryCode + " " + number.replace(format.pattern, internationalFormat); } else { number = number.replace(format.pattern, format.nationalFormat); // The region has a national prefix formatting rule, and it can be overwritten // by each actual number format rule. var nationalPrefixFormattingRule = regionMetaData.nationalPrefixFormattingRule; if (format.nationalPrefixFormattingRule) nationalPrefixFormattingRule = format.nationalPrefixFormattingRule; if (nationalPrefixFormattingRule) { // The prefix formatting rule contains two magic markers, "$NP" and "$FG". // "$NP" will be replaced by the national prefix, and "$FG" with the // first group of numbers. var match = number.match(SPLIT_FIRST_GROUP); var firstGroup = match[1]; var rest = match[2]; var prefix = nationalPrefixFormattingRule; prefix = prefix.replace("$NP", regionMetaData.nationalPrefix); prefix = prefix.replace("$FG", firstGroup); number = prefix + rest; } } return (number == "NA") ? null : number; } return null; } function NationalNumber(regionMetaData, number) { this.region = regionMetaData.region; this.regionMetaData = regionMetaData; this.nationalNumber = number; } // NationalNumber represents the result of parsing a phone number. We have // three getters on the prototype that format the number in national and // international format. Once called, the getters put a direct property // onto the object, caching the result. NationalNumber.prototype = { // +1 949-726-2896 get internationalFormat() { var value = FormatNumber(this.regionMetaData, this.nationalNumber, true); Object.defineProperty(this, "internationalFormat", { value: value, enumerable: true }); return value; }, // (949) 726-2896 get nationalFormat() { var value = FormatNumber(this.regionMetaData, this.nationalNumber, false); Object.defineProperty(this, "nationalFormat", { value: value, enumerable: true }); return value; }, // +19497262896 get internationalNumber() { var value = this.internationalFormat ? this.internationalFormat.replace(NON_DIALABLE_CHARS, "") : null; Object.defineProperty(this, "internationalNumber", { value: value, enumerable: true }); return value; } }; // Normalize a number by converting unicode numbers and symbols to their // ASCII equivalents and removing all non-dialable characters. function NormalizeNumber(number) { number = number.replace(UNICODE_DIGITS, function (ch) { return String.fromCharCode(48 + (ch.charCodeAt(0) & 0xf)); }); number = number.replace(ALPHA_CHARS, function (ch) { return (ch.toLowerCase().charCodeAt(0) - 97)/3+2 | 0; }); number = number.replace(PLUS_CHARS, "+"); number = number.replace(NON_DIALABLE_CHARS, ""); return number; } // Check whether the number is valid for the given region. function IsValidNumber(number, md) { return md.possiblePattern.test(number); } // Check whether the number is a valid national number for the given region. function IsNationalNumber(number, md) { return IsValidNumber(number, md) && md.nationalPattern.test(number); } // Determine the country code a number starts with, or return null if // its not a valid country code. function ParseCountryCode(number) { for (var n = 1; n <= 3; ++n) { var cc = number.substr(0,n); if (dataBase[cc]) return cc; } return null; } // Parse an international number that starts with the country code. Return // null if the number is not a valid international number. function ParseInternationalNumber(number) { var ret; // Parse and strip the country code. var countryCode = ParseCountryCode(number); if (!countryCode) return null; number = number.substr(countryCode.length); // Lookup the meta data for the region (or regions) and if the rest of // the number parses for that region, return the parsed number. var entry = dataBase[countryCode]; if (Array.isArray(entry)) { for (var n = 0; n < entry.length; ++n) { if (typeof entry[n] == "string") entry[n] = ParseMetaData(countryCode, entry[n]); ret = ParseNationalNumber(number, entry[n]) if (ret) return ret; } return null; } if (typeof entry == "string") entry = dataBase[countryCode] = ParseMetaData(countryCode, entry); return ParseNationalNumber(number, entry); } // Parse a national number for a specific region. Return null if the // number is not a valid national number (it might still be a possible // number for parts of that region). function ParseNationalNumber(number, md) { if (!md.possiblePattern.test(number) || !md.nationalPattern.test(number)) { return null; } // Success. return new NationalNumber(md, number); } // Parse a number and transform it into the national format, removing any // international dial prefixes and country codes. function ParseNumber(number, defaultRegion) { var ret; // Remove formating characters and whitespace. number = NormalizeNumber(number); // If there is no defaultRegion, we can't parse international access codes. if (!defaultRegion && number[0] !== '+') return null; // Detect and strip leading '+'. if (number[0] === '+') return ParseInternationalNumber(number.replace(PLUS_CHARS, "")); // Lookup the meta data for the given region. var md = FindMetaDataForRegion(defaultRegion.toUpperCase()); // See if the number starts with an international prefix, and if the // number resulting from stripping the code is valid, then remove the // prefix and flag the number as international. if (md.internationalPrefix.test(number)) { var possibleNumber = number.replace(md.internationalPrefix, ""); ret = ParseInternationalNumber(possibleNumber) if (ret) return ret; } // This is not an international number. See if its a national one for // the current region. National numbers can start with the national // prefix, or without. if (md.nationalPrefixForParsing) { // Some regions have specific national prefix parse rules. Apply those. var withoutPrefix = number.replace(md.nationalPrefixForParsing, md.nationalPrefixTransformRule); ret = ParseNationalNumber(withoutPrefix, md) if (ret) return ret; } else { // If there is no specific national prefix rule, just strip off the // national prefix from the beginning of the number (if there is one). var nationalPrefix = md.nationalPrefix; if (nationalPrefix && number.indexOf(nationalPrefix) == 0 && (ret = ParseNationalNumber(number.substr(nationalPrefix.length), md))) { return ret; } } ret = ParseNationalNumber(number, md) if (ret) return ret; // If the number matches the possible numbers of the current region, // return it as a possible number. if (md.possiblePattern.test(number)) return new NationalNumber(md, number); // Now lets see if maybe its an international number after all, but // without '+' or the international prefix. ret = ParseInternationalNumber(number) if (ret) return ret; // We couldn't parse the number at all. return null; } return { Parse: ParseNumber, Normalize: NormalizeNumber }; })(PHONE_NUMBER_META_DATA);