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Если Вы хотите достоверно проверить email адрес на backend, то можете использовать данные классы.

Первый класс EmailVerify:

<?php

namespace classes;

class EmailVerify {
# Comprehensive list of domain name extensions from http://data.iana.org/TLD/tlds-alpha-by-domain.txt
# http://www.icann.org/en/resources/registries/tlds
#
# Does not include domains with non-latin characters
public $list_domain_extensions = array(
'ac',
'academy',
'actor',
'ad',
'ae',
'aero',
'af',
'ag',
'agency',
'ai',
'al',
'am',
'an',
'ao',
'aq',
'ar',
'arpa',
'as',
'asia',
'at',
'au',
'aw',
'ax',
'az',
'ba',
'bar',
'bargains',
'bb',
'bd',
'be',
'berlin',
'best',
'bf',
'bg',
'bh',
'bi',
'bid',
'bike',
'biz',
'bj',
'blue',
'bm',
'bn',
'bo',
'boutique',
'br',
'bs',
'bt',
'build',
'builders',
'buzz',
'bv',
'bw',
'by',
'bz',
'ca',
'cab',
'camera',
'camp',
'cards',
'careers',
'cat',
'catering',
'cc',
'cd',
'center',
'ceo',
'cf',
'cg',
'ch',
'cheap',
'christmas',
'ci',
'ck',
'cl',
'cleaning',
'clothing',
'club',
'cm',
'cn',
'co',
'codes',
'coffee',
'com',
'community',
'company',
'computer',
'condos',
'construction',
'contractors',
'cool',
'coop',
'cr',
'cruises',
'cu',
'cv',
'cw',
'cx',
'cy',
'cz',
'dance',
'dating',
'de',
'democrat',
'diamonds',
'directory',
'dj',
'dk',
'dm',
'do',
'domains',
'dz',
'ec',
'edu',
'education',
'ee',
'eg',
'email',
'enterprises',
'equipment',
'er',
'es',
'estate',
'et',
'eu',
'events',
'expert',
'exposed',
'farm',
'fi',
'fish',
'fj',
'fk',
'flights',
'florist',
'fm',
'fo',
'foundation',
'fr',
'futbol',
'ga',
'gallery',
'gb',
'gd',
'ge',
'gf',
'gg',
'gh',
'gi',
'gift',
'gl',
'glass',
'gm',
'gn',
'gov',
'gp',
'gq',
'gr',
'graphics',
'gs',
'gt',
'gu',
'guitars',
'guru',
'gw',
'gy',
'hk',
'hm',
'hn',
'holdings',
'holiday',
'house',
'hr',
'ht',
'hu',
'id',
'ie',
'il',
'im',
'immobilien',
'in',
'industries',
'info',
'institute',
'int',
'international',
'io',
'iq',
'ir',
'is',
'it',
'je',
'jm',
'jo',
'jobs',
'jp',
'kaufen',
'ke',
'kg',
'kh',
'ki',
'kim',
'kitchen',
'kiwi',
'km',
'kn',
'koeln',
'kp',
'kr',
'kred',
'kw',
'ky',
'kz',
'la',
'land',
'lb',
'lc',
'li',
'lighting',
'limo',
'link',
'lk',
'lr',
'ls',
'lt',
'lu',
'luxury',
'lv',
'ly',
'ma',
'maison',
'management',
'mango',
'marketing',
'mc',
'md',
'me',
'menu',
'mg',
'mh',
'mil',
'mk',
'ml',
'mm',
'mn',
'mo',
'mobi',
'moda',
'monash',
'mp',
'mq',
'mr',
'ms',
'mt',
'mu',
'museum',
'mv',
'mw',
'mx',
'my',
'mz',
'na',
'nagoya',
'name',
'nc',
'ne',
'net',
'neustar',
'nf',
'ng',
'ni',
'ninja',
'nl',
'no',
'np',
'nr',
'nu',
'nz',
'okinawa',
'om',
'onl',
'org',
'pa',
'partners',
'parts',
'pe',
'pf',
'pg',
'ph',
'photo',
'photography',
'photos',
'pics',
'pink',
'pk',
'pl',
'plumbing',
'pm',
'pn',
'post',
'pr',
'pro',
'productions',
'properties',
'ps',
'pt',
'pub',
'pw',
'py',
'qa',
'qpon',
're',
'recipes',
'red',
'rentals',
'repair',
'report',
'reviews',
'rich',
'ro',
'rs',
'ru',
'ruhr',
'rw',
'sa',
'sb',
'sc',
'sd',
'se',
'sexy',
'sg',
'sh',
'shiksha',
'shoes',
'si',
'singles',
'sj',
'sk',
'sl',
'sm',
'sn',
'so',
'social',
'solar',
'solutions',
'sr',
'st',
'su',
'supplies',
'supply',
'support',
'sv',
'sx',
'sy',
'systems',
'sz',
'tattoo',
'tc',
'td',
'technology',
'tel',
'tf',
'tg',
'th',
'tienda',
'tips',
'tj',
'tk',
'tl',
'tm',
'tn',
'to',
'today',
'tokyo',
'tools',
'tp',
'tr',
'training',
'travel',
'tt',
'tv',
'tw',
'tz',
'ua',
'ug',
'uk',
'uno',
'us',
'uy',
'uz',
'va',
'vacations',
'vc',
've',
'ventures',
'vg',
'vi',
'viajes',
'villas',
'vision',
'vn',
'vote',
'voting',
'voto',
'voyage',
'vu',
'wang',
'watch',
'wed',
'wf',
'wien',
'wiki',
'works',
'ws',
'xxx',
'xyz',
'ye',
'yt',
'za',
'zm',
'zone',
'zw',
'рф',
'рус',
'xn--p1acf',//рус
'xn--p1ai',//рф
);

public function __construct(){
}

# Verify the DNS records according to the domain name given in the email address
public function verify_domain($address_to_verify, $verbose=FALSE){
$record = 'MX'; # <-- Can be changed to check for other records like A records or CNAME records as well
if(filter_var($address_to_verify, FILTER_VALIDATE_EMAIL)===false){return false;}
list($user, $domain) = explode('@', $address_to_verify);
return checkdnsrr($domain, $record);
}

# Verify that the email address is formatted as an email address should be
public function verify_formatting($address_to_verify, $verbose=FALSE){
if(mb_substr($address_to_verify, 0, 1)==='.'){
return false;
}
if($this->verify_domain($address_to_verify)==false) {
return false;
}
# Check to make sure the @ symbol is included
if(strstr($address_to_verify, "@") == FALSE){
if($verbose){
return 'Ampersand not present.';
}else{
return false;
}
}else{

# Bust up the address so that we have the name and the domain name
list($user, $domain) = explode('@', $address_to_verify);

if(preg_match("/^[^а-яё]+$/", $user) === 0){
return false;
}

# Verify the domain name has a period like all good domain names should
if(strstr($domain, '.') == FALSE){
if($verbose){
return 'Period not present.';
}else{
return false;
}
}else{
# Bust up the domain name
$domain_check = explode(".", $domain);
$domain_extension = end($domain_check);
if(strlen($domain_extension) < 2){
if($verbose){
return 'Domain name extension is too short.';
}else{
return false;
}
}else{
if(!in_array($domain_extension, $this->list_domain_extensions)){
if($verbose){
return 'Domain name extension could not be verified.';
}else{
return false;
}
}else{
return true;
}
}
}
}
}

# Take the code from an HTML email and convert it to plain text
# This is commonly used when sending HTML emails as a backup for email clients who can only view, or who choose to only view,
# plain text emails
public function convert_html_to_plain_txt($content, $remove_links=FALSE){
# Replace HTML line breaks with text line breaks
$content = preg_replace('%[^a-zа-яё\d\-.@_]+%ui', '', mb_strtolower($content));
$contentAr=explode('@',$content);
if(count($contentAr)>2){
echo 'err @ > 1';
exit;
}
$plain_text = str_ireplace(array("<br>","<br />"), "\n\r", $content);

# Remove the content between the tags that wouldn't normally get removed with the strip_tags function
$plain_text = preg_replace(array('@<head[^>]*?>.*?</head>@siu',
'@<style[^>]*?>.*?</style>@siu',
'@<script[^>]*?.*?</script>@siu',
'@<noscript[^>]*?.*?</noscript>@siu',
), "", $plain_text); # Remove everything from between the tags that doesn't get removed with strip_tags function

# If the user has chosen to preserve the addresses from links
if(!$remove_links){
$plain_text = strip_tags(preg_replace('/<a href="/(.*)">/', ' $1 ', $plain_text));
}

# Remove HTML spaces
$plain_text = str_replace("&nbsp;", "", $plain_text);

# Replace multiple line breaks with a single line break
$plain_text = preg_replace("/(\s){3,}/","\r\n\r\n",trim($plain_text));

return $plain_text;
}
}

Второй класс IdnaConvert:

<?php
namespace classes;

// {{{ license

/* vim: set expandtab tabstop=4 shiftwidth=4 softtabstop=4 foldmethod=marker: */
//
// +----------------------------------------------------------------------+
// | This library is free software; you can redistribute it and/or modify |
// | it under the terms of the GNU Lesser General Public License as |
// | published by the Free Software Foundation; either version 2.1 of the |
// | License, or (at your option) any later version. |
// | |
// | This library is distributed in the hope that it will be useful, but |
// | WITHOUT ANY WARRANTY; without even the implied warranty of |
// | MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU |
// | Lesser General Public License for more details. |
// | |
// | You should have received a copy of the GNU Lesser General Public |
// | License along with this library; if not, write to the Free Software |
// | Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 |
// | USA. |
// +----------------------------------------------------------------------+
//

// }}}

/**
* Encode/decode Internationalized Domain Names.
*
* The class allows to convert internationalized domain names
* (see RFC 3490 for details) as they can be used with various registries worldwide
* to be translated between their original (localized) form and their encoded form
* as it will be used in the DNS (Domain Name System).
*
* The class provides two public methods, encode() and decode(), which do exactly
* what you would expect them to do. You are allowed to use complete domain names,
* simple strings and complete email addresses as well. That means, that you might
* use any of the following notations:
*
* - www.n�rgler.com
* - xn--nrgler-wxa
* - xn--brse-5qa.xn--knrz-1ra.info
*
* Unicode input might be given as either UTF-8 string, UCS-4 string or UCS-4 array.
* Unicode output is available in the same formats.
* You can select your preferred format via {@link set_paramter()}.
*
* ACE input and output is always expected to be ASCII.
*
* @author Matthias Sommerfeld <mso@phlylabs.de>
* @copyright 2004-2011 phlyLabs Berlin, http://phlylabs.de
* @version 0.8.0 2011-03-11
*/
class IdnaConvert
{
// NP See below

// Internal settings, do not mess with them
protected $_punycode_prefix = 'xn--';
protected $_invalid_ucs = 0x80000000;
protected $_max_ucs = 0x10FFFF;
protected $_base = 36;
protected $_tmin = 1;
protected $_tmax = 26;
protected $_skew = 38;
protected $_damp = 700;
protected $_initial_bias = 72;
protected $_initial_n = 0x80;
protected $_sbase = 0xAC00;
protected $_lbase = 0x1100;
protected $_vbase = 0x1161;
protected $_tbase = 0x11A7;
protected $_lcount = 19;
protected $_vcount = 21;
protected $_tcount = 28;
protected $_ncount = 588; // _vcount * _tcount
protected $_scount = 11172; // _lcount * _tcount * _vcount
protected $_error = false;

protected static $_mb_string_overload = null;

// See {@link set_paramter()} for details of how to change the following
// settings from within your script / application
protected $_api_encoding = 'utf8'; // Default input charset is UTF-8
protected $_allow_overlong = false; // Overlong UTF-8 encodings are forbidden
protected $_strict_mode = false; // Behave strict or not
protected $_idn_version = 2003; // Can be either 2003 (old, default) or 2008

/**
* the constructor
*
* @param array $options
* @return boolean
* @since 0.5.2
*/
public function __construct($options = false)
{
$this->slast = $this->_sbase + $this->_lcount * $this->_vcount * $this->_tcount;
// If parameters are given, pass these to the respective method
if (is_array($options)) {
$this->set_parameter($options);
}

// populate mbstring overloading cache if not set
if (self::$_mb_string_overload === null) {
self::$_mb_string_overload = (extension_loaded('mbstring')
&& (ini_get('mbstring.func_overload') & 0x02) === 0x02);
}
}

/**
* Sets a new option value. Available options and values:
* [encoding - Use either UTF-8, UCS4 as array or UCS4 as string as input ('utf8' for UTF-8,
* 'ucs4_string' and 'ucs4_array' respectively for UCS4); The output is always UTF-8]
* [overlong - Unicode does not allow unnecessarily long encodings of chars,
* to allow this, set this parameter to true, else to false;
* default is false.]
* [strict - true: strict mode, good for registration purposes - Causes errors
* on failures; false: loose mode, ideal for "wildlife" applications
* by silently ignoring errors and returning the original input instead
*
* @param mixed Parameter to set (string: single parameter; array of Parameter => Value pairs)
* @param string Value to use (if parameter 1 is a string)
* @return boolean true on success, false otherwise
*/
public function set_parameter($option, $value = false)
{
if (!is_array($option)) {
$option = array($option => $value);
}
foreach ($option as $k => $v) {
switch ($k) {
case 'encoding':
switch ($v) {
case 'utf8':
case 'ucs4_string':
case 'ucs4_array':
$this->_api_encoding = $v;
break;
default:
$this->_error('Set Parameter: Unknown parameter '.$v.' for option '.$k);
return false;
}
break;
case 'overlong':
$this->_allow_overlong = ($v) ? true : false;
break;
case 'strict':
$this->_strict_mode = ($v) ? true : false;
break;
case 'idn_version':
if (in_array($v, array('2003', '2008'))) {
$this->_idn_version = $v;
} else {
$this->_error('Set Parameter: Unknown parameter '.$v.' for option '.$k);
}
break;
case 'encode_german_sz': // Deprecated
if (!$v) {
self::$NP['replacemaps'][0xDF] = array(0x73, 0x73);
} else {
unset(self::$NP['replacemaps'][0xDF]);
}
break;
default:
$this->_error('Set Parameter: Unknown option '.$k);
return false;
}
}
return true;
}

/**
* Decode a given ACE domain name
* @param string Domain name (ACE string)
* [@param string Desired output encoding, see {@link set_parameter}]
* @return string Decoded Domain name (UTF-8 or UCS-4)
*/
public function decode($input, $one_time_encoding = false)
{
// Optionally set
if ($one_time_encoding) {
switch ($one_time_encoding) {
case 'utf8':
case 'ucs4_string':
case 'ucs4_array':
break;
default:
$this->_error('Unknown encoding '.$one_time_encoding);
return false;
}
}
// Make sure to drop any newline characters around
$input = trim($input);

// Negotiate input and try to determine, whether it is a plain string,
// an email address or something like a complete URL
if (strpos($input, '@')) { // Maybe it is an email address
// No no in strict mode
if ($this->_strict_mode) {
$this->_error('Only simple domain name parts can be handled in strict mode');
return false;
}
list ($email_pref, $input) = explode('@', $input, 2);
$arr = explode('.', $input);
foreach ($arr as $k => $v) {
if (preg_match('!^'.preg_quote($this->_punycode_prefix, '!').'!', $v)) {
$conv = $this->_decode($v);
if ($conv) $arr[$k] = $conv;
}
}
$input = join('.', $arr);
$arr = explode('.', $email_pref);
foreach ($arr as $k => $v) {
if (preg_match('!^'.preg_quote($this->_punycode_prefix, '!').'!', $v)) {
$conv = $this->_decode($v);
if ($conv) $arr[$k] = $conv;
}
}
$email_pref = join('.', $arr);
$return = $email_pref . '@' . $input;
} elseif (preg_match('![:\./]!', $input)) { // Or a complete domain name (with or without paths / parameters)
// No no in strict mode
if ($this->_strict_mode) {
$this->_error('Only simple domain name parts can be handled in strict mode');
return false;
}
$parsed = parse_url($input);
if (isset($parsed['host'])) {
$arr = explode('.', $parsed['host']);
foreach ($arr as $k => $v) {
$conv = $this->_decode($v);
if ($conv) $arr[$k] = $conv;
}
$parsed['host'] = join('.', $arr);
$return =
(empty($parsed['scheme']) ? '' : $parsed['scheme'].(strtolower($parsed['scheme']) == 'mailto' ? ':' : '://'))
.(empty($parsed['user']) ? '' : $parsed['user'].(empty($parsed['pass']) ? '' : ':'.$parsed['pass']).'@')
.$parsed['host']
.(empty($parsed['port']) ? '' : ':'.$parsed['port'])
.(empty($parsed['path']) ? '' : $parsed['path'])
.(empty($parsed['query']) ? '' : '?'.$parsed['query'])
.(empty($parsed['fragment']) ? '' : '#'.$parsed['fragment']);
} else { // parse_url seems to have failed, try without it
$arr = explode('.', $input);
foreach ($arr as $k => $v) {
$conv = $this->_decode($v);
$arr[$k] = ($conv) ? $conv : $v;
}
$return = join('.', $arr);
}
} else { // Otherwise we consider it being a pure domain name string
$return = $this->_decode($input);
if (!$return) $return = $input;
}
// The output is UTF-8 by default, other output formats need conversion here
// If one time encoding is given, use this, else the objects property
switch (($one_time_encoding) ? $one_time_encoding : $this->_api_encoding) {
case 'utf8':
return $return;
break;
case 'ucs4_string':
return $this->_ucs4_to_ucs4_string($this->_utf8_to_ucs4($return));
break;
case 'ucs4_array':
return $this->_utf8_to_ucs4($return);
break;
default:
$this->_error('Unsupported output format');
return false;
}
}

/**
* Encode a given UTF-8 domain name
* @param string Domain name (UTF-8 or UCS-4)
* [@param string Desired input encoding, see {@link set_parameter}]
* @return string Encoded Domain name (ACE string)
*/
public function encode($decoded, $one_time_encoding = false)
{
// Forcing conversion of input to UCS4 array
// If one time encoding is given, use this, else the objects property
switch ($one_time_encoding ? $one_time_encoding : $this->_api_encoding) {
case 'utf8':
$decoded = $this->_utf8_to_ucs4($decoded);
break;
case 'ucs4_string':
$decoded = $this->_ucs4_string_to_ucs4($decoded);
case 'ucs4_array':
break;
default:
$this->_error('Unsupported input format: '.($one_time_encoding ? $one_time_encoding : $this->_api_encoding));
return false;
}

// No input, no output, what else did you expect?
if (empty($decoded)) return '';

// Anchors for iteration
$last_begin = 0;
// Output string
$output = '';
foreach ($decoded as $k => $v) {
// Make sure to use just the plain dot
switch($v) {
case 0x3002:
case 0xFF0E:
case 0xFF61:
$decoded[$k] = 0x2E;
// Right, no break here, the above are converted to dots anyway
// Stumbling across an anchoring character
case 0x2E:
case 0x2F:
case 0x3A:
case 0x3F:
case 0x40:
// Neither email addresses nor URLs allowed in strict mode
if ($this->_strict_mode) {
$this->_error('Neither email addresses nor URLs are allowed in strict mode.');
return false;
} else {
// Skip first char
if ($k) {
$encoded = '';
$encoded = $this->_encode(array_slice($decoded, $last_begin, (($k)-$last_begin)));
if ($encoded) {
$output .= $encoded;
} else {
$output .= $this->_ucs4_to_utf8(array_slice($decoded, $last_begin, (($k)-$last_begin)));
}
$output .= chr($decoded[$k]);
}
$last_begin = $k + 1;
}
}
}
// Catch the rest of the string
if ($last_begin) {
$inp_len = sizeof($decoded);
$encoded = '';
$encoded = $this->_encode(array_slice($decoded, $last_begin, (($inp_len)-$last_begin)));
if ($encoded) {
$output .= $encoded;
} else {
$output .= $this->_ucs4_to_utf8(array_slice($decoded, $last_begin, (($inp_len)-$last_begin)));
}
return $output;
} else {
if ($output = $this->_encode($decoded)) {
return $output;
} else {
return $this->_ucs4_to_utf8($decoded);
}
}
}

/**
* Removes a weakness of encode(), which cannot properly handle URIs but instead encodes their
* path or query components, too.
* @param string $uri Expects the URI as a UTF-8 (or ASCII) string
* @return string The URI encoded to Punycode, everything but the host component is left alone
* @since 0.6.4
*/
public function encode_uri($uri)
{
$parsed = parse_url($uri);
if (!isset($parsed['host'])) {
$this->_error('The given string does not look like a URI');
return false;
}
$arr = explode('.', $parsed['host']);
foreach ($arr as $k => $v) {
$conv = $this->encode($v, 'utf8');
if ($conv) $arr[$k] = $conv;
}
$parsed['host'] = join('.', $arr);
$return =
(empty($parsed['scheme']) ? '' : $parsed['scheme'].(strtolower($parsed['scheme']) == 'mailto' ? ':' : '://'))
.(empty($parsed['user']) ? '' : $parsed['user'].(empty($parsed['pass']) ? '' : ':'.$parsed['pass']).'@')
.$parsed['host']
.(empty($parsed['port']) ? '' : ':'.$parsed['port'])
.(empty($parsed['path']) ? '' : $parsed['path'])
.(empty($parsed['query']) ? '' : '?'.$parsed['query'])
.(empty($parsed['fragment']) ? '' : '#'.$parsed['fragment']);
return $return;
}

/**
* Use this method to get the last error ocurred
* @param void
* @return string The last error, that occured
*/
public function get_last_error()
{
return $this->_error;
}

/**
* The actual decoding algorithm
* @param string
* @return mixed
*/
protected function _decode($encoded)
{
$decoded = array();
// find the Punycode prefix
if (!preg_match('!^'.preg_quote($this->_punycode_prefix, '!').'!', $encoded)) {
$this->_error('This is not a punycode string');
return false;
}
$encode_test = preg_replace('!^'.preg_quote($this->_punycode_prefix, '!').'!', '', $encoded);
// If nothing left after removing the prefix, it is hopeless
if (!$encode_test) {
$this->_error('The given encoded string was empty');
return false;
}
// Find last occurence of the delimiter
$delim_pos = strrpos($encoded, '-');
if ($delim_pos > self::byteLength($this->_punycode_prefix)) {
for ($k = self::byteLength($this->_punycode_prefix); $k < $delim_pos; ++$k) {
$decoded[] = ord($encoded[$k]);
}
}
$deco_len = count($decoded);
$enco_len = self::byteLength($encoded);

// Wandering through the strings; init
$is_first = true;
$bias = $this->_initial_bias;
$idx = 0;
$char = $this->_initial_n;

for ($enco_idx = ($delim_pos) ? ($delim_pos + 1) : 0; $enco_idx < $enco_len; ++$deco_len) {
for ($old_idx = $idx, $w = 1, $k = $this->_base; 1 ; $k += $this->_base) {
$digit = $this->_decode_digit($encoded[$enco_idx++]);
$idx += $digit * $w;
$t = ($k <= $bias) ? $this->_tmin :
(($k >= $bias + $this->_tmax) ? $this->_tmax : ($k - $bias));
if ($digit < $t) break;
$w = (int) ($w * ($this->_base - $t));
}
$bias = $this->_adapt($idx - $old_idx, $deco_len + 1, $is_first);
$is_first = false;
$char += (int) ($idx / ($deco_len + 1));
$idx %= ($deco_len + 1);
if ($deco_len > 0) {
// Make room for the decoded char
for ($i = $deco_len; $i > $idx; $i--) $decoded[$i] = $decoded[($i - 1)];
}
$decoded[$idx++] = $char;
}
return $this->_ucs4_to_utf8($decoded);
}

/**
* The actual encoding algorithm
* @param string
* @return mixed
*/
protected function _encode($decoded)
{
// We cannot encode a domain name containing the Punycode prefix
$extract = self::byteLength($this->_punycode_prefix);
$check_pref = $this->_utf8_to_ucs4($this->_punycode_prefix);
$check_deco = array_slice($decoded, 0, $extract);

if ($check_pref == $check_deco) {
$this->_error('This is already a punycode string');
return false;
}
// We will not try to encode strings consisting of basic code points only
$encodable = false;
foreach ($decoded as $k => $v) {
if ($v > 0x7a) {
$encodable = true;
break;
}
}
if (!$encodable) {
$this->_error('The given string does not contain encodable chars');
return false;
}
// Do NAMEPREP
$decoded = $this->_nameprep($decoded);
if (!$decoded || !is_array($decoded)) return false; // NAMEPREP failed
$deco_len = count($decoded);
if (!$deco_len) return false; // Empty array
$codecount = 0; // How many chars have been consumed
$encoded = '';
// Copy all basic code points to output
for ($i = 0; $i < $deco_len; ++$i) {
$test = $decoded[$i];
// Will match [-0-9a-zA-Z]
if ((0x2F < $test && $test < 0x40) || (0x40 < $test && $test < 0x5B)
|| (0x60 < $test && $test <= 0x7B) || (0x2D == $test)) {
$encoded .= chr($decoded[$i]);
$codecount++;
}
}
if ($codecount == $deco_len) return $encoded; // All codepoints were basic ones

// Start with the prefix; copy it to output
$encoded = $this->_punycode_prefix.$encoded;
// If we have basic code points in output, add an hyphen to the end
if ($codecount) $encoded .= '-';
// Now find and encode all non-basic code points
$is_first = true;
$cur_code = $this->_initial_n;
$bias = $this->_initial_bias;
$delta = 0;
while ($codecount < $deco_len) {
// Find the smallest code point >= the current code point and
// remember the last ouccrence of it in the input
for ($i = 0, $next_code = $this->_max_ucs; $i < $deco_len; $i++) {
if ($decoded[$i] >= $cur_code && $decoded[$i] <= $next_code) {
$next_code = $decoded[$i];
}
}
$delta += ($next_code - $cur_code) * ($codecount + 1);
$cur_code = $next_code;

// Scan input again and encode all characters whose code point is $cur_code
for ($i = 0; $i < $deco_len; $i++) {
if ($decoded[$i] < $cur_code) {
$delta++;
} elseif ($decoded[$i] == $cur_code) {
for ($q = $delta, $k = $this->_base; 1; $k += $this->_base) {
$t = ($k <= $bias) ? $this->_tmin :
(($k >= $bias + $this->_tmax) ? $this->_tmax : $k - $bias);
if ($q < $t) break;
$encoded .= $this->_encode_digit(intval($t + (($q - $t) % ($this->_base - $t)))); //v0.4.5 Changed from ceil() to intval()
$q = (int) (($q - $t) / ($this->_base - $t));
}
$encoded .= $this->_encode_digit($q);
$bias = $this->_adapt($delta, $codecount+1, $is_first);
$codecount++;
$delta = 0;
$is_first = false;
}
}
$delta++;
$cur_code++;
}
return $encoded;
}

/**
* Adapt the bias according to the current code point and position
* @param int $delta
* @param int $npoints
* @param int $is_first
* @return int
*/
protected function _adapt($delta, $npoints, $is_first)
{
$delta = intval($is_first ? ($delta / $this->_damp) : ($delta / 2));
$delta += intval($delta / $npoints);
for ($k = 0; $delta > (($this->_base - $this->_tmin) * $this->_tmax) / 2; $k += $this->_base) {
$delta = intval($delta / ($this->_base - $this->_tmin));
}
return intval($k + ($this->_base - $this->_tmin + 1) * $delta / ($delta + $this->_skew));
}

/**
* Encoding a certain digit
* @param int $d
* @return string
*/
protected function _encode_digit($d)
{
return chr($d + 22 + 75 * ($d < 26));
}

/**
* Decode a certain digit
* @param int $cp
* @return int
*/
protected function _decode_digit($cp)
{
$cp = ord($cp);
return ($cp - 48 < 10) ? $cp - 22 : (($cp - 65 < 26) ? $cp - 65 : (($cp - 97 < 26) ? $cp - 97 : $this->_base));
}

/**
* Internal error handling method
* @param string $error
*/
protected function _error($error = '')
{
$this->_error = $error;
}

/**
* Do Nameprep according to RFC3491 and RFC3454
* @param array Unicode Characters
* @return string Unicode Characters, Nameprep'd
*/
protected function _nameprep($input)
{
$output = array();
$error = false;
//
// Mapping
// Walking through the input array, performing the required steps on each of
// the input chars and putting the result into the output array
// While mapping required chars we apply the cannonical ordering
foreach ($input as $v) {
// Map to nothing == skip that code point
if (in_array($v, self::$NP['map_nothing'])) continue;
// Try to find prohibited input
if (in_array($v, self::$NP['prohibit']) || in_array($v, self::$NP['general_prohibited'])) {
$this->_error('NAMEPREP: Prohibited input U+'.sprintf('%08X', $v));
return false;
}
foreach (self::$NP['prohibit_ranges'] as $range) {
if ($range[0] <= $v && $v <= $range[1]) {
$this->_error('NAMEPREP: Prohibited input U+'.sprintf('%08X', $v));
return false;
}
}

if (0xAC00 <= $v && $v <= 0xD7AF) {
// Hangul syllable decomposition
foreach ($this->_hangul_decompose($v) as $out) {
$output[] = (int) $out;
}
} elseif (($this->_idn_version == '2003') && isset(self::$NP['replacemaps'][$v])) {
// There's a decomposition mapping for that code point
// Decompositions only in version 2003 (original) of IDNA
foreach ($this->_apply_cannonical_ordering(self::$NP['replacemaps'][$v]) as $out) {
$output[] = (int) $out;
}
} else {
$output[] = (int) $v;
}
}
// Before applying any Combining, try to rearrange any Hangul syllables
$output = $this->_hangul_compose($output);
//
// Combine code points
//
$last_class = 0;
$last_starter = 0;
$out_len = count($output);
for ($i = 0; $i < $out_len; ++$i) {
$class = $this->_get_combining_class($output[$i]);
if ((!$last_class || $last_class > $class) && $class) {
// Try to match
$seq_len = $i - $last_starter;
$out = $this->_combine(array_slice($output, $last_starter, $seq_len));
// On match: Replace the last starter with the composed character and remove
// the now redundant non-starter(s)
if ($out) {
$output[$last_starter] = $out;
if (count($out) != $seq_len) {
for ($j = $i+1; $j < $out_len; ++$j) $output[$j-1] = $output[$j];
unset($output[$out_len]);
}
// Rewind the for loop by one, since there can be more possible compositions
$i--;
$out_len--;
$last_class = ($i == $last_starter) ? 0 : $this->_get_combining_class($output[$i-1]);
continue;
}
}
// The current class is 0
if (!$class) $last_starter = $i;
$last_class = $class;
}
return $output;
}

/**
* Decomposes a Hangul syllable
* (see http://www.unicode.org/unicode/reports/tr15/#Hangul
* @param integer 32bit UCS4 code point
* @return array Either Hangul Syllable decomposed or original 32bit value as one value array
*/
protected function _hangul_decompose($char)
{
$sindex = (int) $char - $this->_sbase;
if ($sindex < 0 || $sindex >= $this->_scount) return array($char);
$result = array();
$result[] = (int) $this->_lbase + $sindex / $this->_ncount;
$result[] = (int) $this->_vbase + ($sindex % $this->_ncount) / $this->_tcount;
$T = intval($this->_tbase + $sindex % $this->_tcount);
if ($T != $this->_tbase) $result[] = $T;
return $result;
}
/**
* Ccomposes a Hangul syllable
* (see http://www.unicode.org/unicode/reports/tr15/#Hangul
* @param array Decomposed UCS4 sequence
* @return array UCS4 sequence with syllables composed
*/
protected function _hangul_compose($input)
{
$inp_len = count($input);
if (!$inp_len) return array();
$result = array();
$last = (int) $input[0];
$result[] = $last; // copy first char from input to output

for ($i = 1; $i < $inp_len; ++$i) {
$char = (int) $input[$i];
$sindex = $last - $this->_sbase;
$lindex = $last - $this->_lbase;
$vindex = $char - $this->_vbase;
$tindex = $char - $this->_tbase;
// Find out, whether two current characters are LV and T
if (0 <= $sindex && $sindex < $this->_scount && ($sindex % $this->_tcount == 0)
&& 0 <= $tindex && $tindex <= $this->_tcount) {
// create syllable of form LVT
$last += $tindex;
$result[(count($result) - 1)] = $last; // reset last
continue; // discard char
}
// Find out, whether two current characters form L and V
if (0 <= $lindex && $lindex < $this->_lcount && 0 <= $vindex && $vindex < $this->_vcount) {
// create syllable of form LV
$last = (int) $this->_sbase + ($lindex * $this->_vcount + $vindex) * $this->_tcount;
$result[(count($result) - 1)] = $last; // reset last
continue; // discard char
}
// if neither case was true, just add the character
$last = $char;
$result[] = $char;
}
return $result;
}

/**
* Returns the combining class of a certain wide char
* @param integer Wide char to check (32bit integer)
* @return integer Combining class if found, else 0
*/
protected function _get_combining_class($char)
{
return isset(self::$NP['norm_combcls'][$char]) ? self::$NP['norm_combcls'][$char] : 0;
}

/**
* Applies the cannonical ordering of a decomposed UCS4 sequence
* @param array Decomposed UCS4 sequence
* @return array Ordered USC4 sequence
*/
protected function _apply_cannonical_ordering($input)
{
$swap = true;
$size = count($input);
while ($swap) {
$swap = false;
$last = $this->_get_combining_class(intval($input[0]));
for ($i = 0; $i < $size-1; ++$i) {
$next = $this->_get_combining_class(intval($input[$i+1]));
if ($next != 0 && $last > $next) {
// Move item leftward until it fits
for ($j = $i + 1; $j > 0; --$j) {
if ($this->_get_combining_class(intval($input[$j-1])) <= $next) break;
$t = intval($input[$j]);
$input[$j] = intval($input[$j-1]);
$input[$j-1] = $t;
$swap = true;
}
// Reentering the loop looking at the old character again
$next = $last;
}
$last = $next;
}
}
return $input;
}

/**
* Do composition of a sequence of starter and non-starter
* @param array UCS4 Decomposed sequence
* @return array Ordered USC4 sequence
*/
protected function _combine($input)
{
$inp_len = count($input);
foreach (self::$NP['replacemaps'] as $np_src => $np_target) {
if ($np_target[0] != $input[0]) continue;
if (count($np_target) != $inp_len) continue;
$hit = false;
foreach ($input as $k2 => $v2) {
if ($v2 == $np_target[$k2]) {
$hit = true;
} else {
$hit = false;
break;
}
}
if ($hit) return $np_src;
}
return false;
}

/**
* This converts an UTF-8 encoded string to its UCS-4 representation
* By talking about UCS-4 "strings" we mean arrays of 32bit integers representing
* each of the "chars". This is due to PHP not being able to handle strings with
* bit depth different from 8. This apllies to the reverse method _ucs4_to_utf8(), too.
* The following UTF-8 encodings are supported:
* bytes bits representation
* 1 7 0xxxxxxx
* 2 11 110xxxxx 10xxxxxx
* 3 16 1110xxxx 10xxxxxx 10xxxxxx
* 4 21 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx
* 5 26 111110xx 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx
* 6 31 1111110x 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx
* Each x represents a bit that can be used to store character data.
* The five and six byte sequences are part of Annex D of ISO/IEC 10646-1:2000
* @param string $input
* @return string
*/
protected function _utf8_to_ucs4($input)
{
$output = array();
$out_len = 0;
$inp_len = self::byteLength($input);
$mode = 'next';
$test = 'none';
for ($k = 0; $k < $inp_len; ++$k) {
$v = ord($input[$k]); // Extract byte from input string
if ($v < 128) { // We found an ASCII char - put into stirng as is
$output[$out_len] = $v;
++$out_len;
if ('add' == $mode) {
$this->_error('Conversion from UTF-8 to UCS-4 failed: malformed input at byte '.$k);
return false;
}
continue;
}
if ('next' == $mode) { // Try to find the next start byte; determine the width of the Unicode char
$start_byte = $v;
$mode = 'add';
$test = 'range';
if ($v >> 5 == 6) { // &110xxxxx 10xxxxx
$next_byte = 0; // Tells, how many times subsequent bitmasks must rotate 6bits to the left
$v = ($v - 192) << 6;
} elseif ($v >> 4 == 14) { // &1110xxxx 10xxxxxx 10xxxxxx
$next_byte = 1;
$v = ($v - 224) << 12;
} elseif ($v >> 3 == 30) { // &11110xxx 10xxxxxx 10xxxxxx 10xxxxxx
$next_byte = 2;
$v = ($v - 240) << 18;
} elseif ($v >> 2 == 62) { // &111110xx 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx
$next_byte = 3;
$v = ($v - 248) << 24;
} elseif ($v >> 1 == 126) { // &1111110x 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx
$next_byte = 4;
$v = ($v - 252) << 30;
} else {
$this->_error('This might be UTF-8, but I don\'t understand it at byte '.$k);
return false;
}
if ('add' == $mode) {
$output[$out_len] = (int) $v;
++$out_len;
continue;
}
}
if ('add' == $mode) {
if (!$this->_allow_overlong && $test == 'range') {
$test = 'none';
if (($v < 0xA0 && $start_byte == 0xE0) || ($v < 0x90 && $start_byte == 0xF0) || ($v > 0x8F && $start_byte == 0xF4)) {
$this->_error('Bogus UTF-8 character detected (out of legal range) at byte '.$k);
return false;
}
}
if ($v >> 6 == 2) { // Bit mask must be 10xxxxxx
$v = ($v - 128) << ($next_byte * 6);
$output[($out_len - 1)] += $v;
--$next_byte;
} else {
$this->_error('Conversion from UTF-8 to UCS-4 failed: malformed input at byte '.$k);
return false;
}
if ($next_byte < 0) {
$mode = 'next';
}
}
} // for
return $output;
}

/**
* Convert UCS-4 string into UTF-8 string
* See _utf8_to_ucs4() for details
* @param string $input
* @return string
*/
protected function _ucs4_to_utf8($input)
{
$output = '';
foreach ($input as $k => $v) {
if ($v < 128) { // 7bit are transferred literally
$output .= chr($v);
} elseif ($v < (1 << 11)) { // 2 bytes
$output .= chr(192+($v >> 6)).chr(128+($v & 63));
} elseif ($v < (1 << 16)) { // 3 bytes
$output .= chr(224+($v >> 12)).chr(128+(($v >> 6) & 63)).chr(128+($v & 63));
} elseif ($v < (1 << 21)) { // 4 bytes
$output .= chr(240+($v >> 18)).chr(128+(($v >> 12) & 63)).chr(128+(($v >> 6) & 63)).chr(128+($v & 63));
} elseif (self::$safe_mode) {
$output .= self::$safe_char;
} else {
$this->_error('Conversion from UCS-4 to UTF-8 failed: malformed input at byte '.$k);
return false;
}
}
return $output;
}

/**
* Convert UCS-4 array into UCS-4 string
*
* @param array $input
* @return string
*/
protected function _ucs4_to_ucs4_string($input)
{
$output = '';
// Take array values and split output to 4 bytes per value
// The bit mask is 255, which reads &11111111
foreach ($input as $v) {
$output .= chr(($v >> 24) & 255).chr(($v >> 16) & 255).chr(($v >> 8) & 255).chr($v & 255);
}
return $output;
}

/**
* Convert UCS-4 strin into UCS-4 garray
*
* @param string $input
* @return array
*/
protected function _ucs4_string_to_ucs4($input)
{
$output = array();
$inp_len = self::byteLength($input);
// Input length must be dividable by 4
if ($inp_len % 4) {
$this->_error('Input UCS4 string is broken');
return false;
}
// Empty input - return empty output
if (!$inp_len) return $output;
for ($i = 0, $out_len = -1; $i < $inp_len; ++$i) {
// Increment output position every 4 input bytes
if (!($i % 4)) {
$out_len++;
$output[$out_len] = 0;
}
$output[$out_len] += ord($input[$i]) << (8 * (3 - ($i % 4) ) );
}
return $output;
}

/**
* Gets the length of a string in bytes even if mbstring function
* overloading is turned on
*
* @param string $string the string for which to get the length.
* @return integer the length of the string in bytes.
*/
protected static function byteLength($string)
{
if (self::$_mb_string_overload) {
return mb_strlen($string, '8bit');
}
return strlen((binary) $string);
}

/**
* Attempts to return a concrete IDNA instance.
*
* @param array $params Set of paramaters
* @return idna_convert
* @access public
*/
public function getInstance($params = array())
{
return new idna_convert($params);
}

/**
* Attempts to return a concrete IDNA instance for either php4 or php5,
* only creating a new instance if no IDNA instance with the same
* parameters currently exists.
*
* @param array $params Set of paramaters
*
* @return object idna_convert
* @access public
*/
public function singleton($params = array())
{
static $instances;
if (!isset($instances)) {
$instances = array();
}
$signature = serialize($params);
if (!isset($instances[$signature])) {
$instances[$signature] = idna_convert::getInstance($params);
}
return $instances[$signature];
}

/**
* Holds all relevant mapping tables
* See RFC3454 for details
*
* @private array
* @since 0.5.2
*/
protected static $NP = array
('map_nothing' => array(0xAD, 0x34F, 0x1806, 0x180B, 0x180C, 0x180D, 0x200B, 0x200C
,0x200D, 0x2060, 0xFE00, 0xFE01, 0xFE02, 0xFE03, 0xFE04, 0xFE05, 0xFE06, 0xFE07
,0xFE08, 0xFE09, 0xFE0A, 0xFE0B, 0xFE0C, 0xFE0D, 0xFE0E, 0xFE0F, 0xFEFF
)
,'general_prohibited' => array(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19
,20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32 ,33, 34, 35, 36, 37, 38, 39, 40, 41, 42
,43, 44, 47, 59, 60, 61, 62, 63, 64, 91, 92, 93, 94, 95, 96, 123, 124, 125, 126, 127, 0x3002
)
,'prohibit' => array(0xA0, 0x340, 0x341, 0x6DD, 0x70F, 0x1680, 0x180E, 0x2000, 0x2001, 0x2002, 0x2003
,0x2004, 0x2005, 0x2006, 0x2007, 0x2008, 0x2009, 0x200A, 0x200B, 0x200C, 0x200D, 0x200E, 0x200F
,0x2028, 0x2029, 0x202A, 0x202B, 0x202C, 0x202D, 0x202E, 0x202F, 0x205F, 0x206A, 0x206B, 0x206C
,0x206D, 0x206E, 0x206F, 0x3000, 0xFEFF, 0xFFF9, 0xFFFA, 0xFFFB, 0xFFFC, 0xFFFD, 0xFFFE, 0xFFFF
,0x1FFFE, 0x1FFFF, 0x2FFFE, 0x2FFFF, 0x3FFFE, 0x3FFFF, 0x4FFFE, 0x4FFFF, 0x5FFFE, 0x5FFFF, 0x6FFFE
,0x6FFFF, 0x7FFFE, 0x7FFFF, 0x8FFFE, 0x8FFFF, 0x9FFFE, 0x9FFFF, 0xAFFFE, 0xAFFFF, 0xBFFFE, 0xBFFFF
,0xCFFFE, 0xCFFFF, 0xDFFFE, 0xDFFFF, 0xE0001, 0xEFFFE, 0xEFFFF, 0xFFFFE, 0xFFFFF, 0x10FFFE, 0x10FFFF
)
,'prohibit_ranges' => array(array(0x80, 0x9F), array(0x2060, 0x206F), array(0x1D173, 0x1D17A)
,array(0xE000, 0xF8FF) ,array(0xF0000, 0xFFFFD), array(0x100000, 0x10FFFD)
,array(0xFDD0, 0xFDEF), array(0xD800, 0xDFFF), array(0x2FF0, 0x2FFB), array(0xE0020, 0xE007F)
)
,'replacemaps' => array(0x41 => array(0x61), 0x42 => array(0x62), 0x43 => array(0x63)
,0x44 => array(0x64), 0x45 => array(0x65), 0x46 => array(0x66), 0x47 => array(0x67)
,0x48 => array(0x68), 0x49 => array(0x69), 0x4A => array(0x6A), 0x4B => array(0x6B)
,0x4C => array(0x6C), 0x4D => array(0x6D), 0x4E => array(0x6E), 0x4F => array(0x6F)
,0x50 => array(0x70), 0x51 => array(0x71), 0x52 => array(0x72), 0x53 => array(0x73)
,0x54 => array(0x74), 0x55 => array(0x75), 0x56 => array(0x76), 0x57 => array(0x77)
,0x58 => array(0x78), 0x59 => array(0x79), 0x5A => array(0x7A), 0xB5 => array(0x3BC)
,0xC0 => array(0xE0), 0xC1 => array(0xE1), 0xC2 => array(0xE2), 0xC3 => array(0xE3)
,0xC4 => array(0xE4), 0xC5 => array(0xE5), 0xC6 => array(0xE6), 0xC7 => array(0xE7)
,0xC8 => array(0xE8), 0xC9 => array(0xE9), 0xCA => array(0xEA), 0xCB => array(0xEB)
,0xCC => array(0xEC), 0xCD => array(0xED), 0xCE => array(0xEE), 0xCF => array(0xEF)
,0xD0 => array(0xF0), 0xD1 => array(0xF1), 0xD2 => array(0xF2), 0xD3 => array(0xF3)
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,0x1F88 => array(0x1F00, 0x3B9), 0x1F89 => array(0x1F01, 0x3B9)
,0x1F8A => array(0x1F02, 0x3B9), 0x1F8B => array(0x1F03, 0x3B9)
,0x1F8C => array(0x1F04, 0x3B9), 0x1F8D => array(0x1F05, 0x3B9)
,0x1F8E => array(0x1F06, 0x3B9), 0x1F8F => array(0x1F07, 0x3B9)
,0x1F90 => array(0x1F20, 0x3B9), 0x1F91 => array(0x1F21, 0x3B9)
,0x1F92 => array(0x1F22, 0x3B9), 0x1F93 => array(0x1F23, 0x3B9)
,0x1F94 => array(0x1F24, 0x3B9), 0x1F95 => array(0x1F25, 0x3B9)
,0x1F96 => array(0x1F26, 0x3B9), 0x1F97 => array(0x1F27, 0x3B9)
,0x1F98 => array(0x1F20, 0x3B9), 0x1F99 => array(0x1F21, 0x3B9)
,0x1F9A => array(0x1F22, 0x3B9), 0x1F9B => array(0x1F23, 0x3B9)
,0x1F9C => array(0x1F24, 0x3B9), 0x1F9D => array(0x1F25, 0x3B9)
,0x1F9E => array(0x1F26, 0x3B9), 0x1F9F => array(0x1F27, 0x3B9)
,0x1FA0 => array(0x1F60, 0x3B9), 0x1FA1 => array(0x1F61, 0x3B9)
,0x1FA2 => array(0x1F62, 0x3B9), 0x1FA3 => array(0x1F63, 0x3B9)
,0x1FA4 => array(0x1F64, 0x3B9), 0x1FA5 => array(0x1F65, 0x3B9)
,0x1FA6 => array(0x1F66, 0x3B9), 0x1FA7 => array(0x1F67, 0x3B9)
,0x1FA8 => array(0x1F60, 0x3B9), 0x1FA9 => array(0x1F61, 0x3B9)
,0x1FAA => array(0x1F62, 0x3B9), 0x1FAB => array(0x1F63, 0x3B9)
,0x1FAC => array(0x1F64, 0x3B9), 0x1FAD => array(0x1F65, 0x3B9)
,0x1FAE => array(0x1F66, 0x3B9), 0x1FAF => array(0x1F67, 0x3B9)
,0x1FB2 => array(0x1F70, 0x3B9), 0x1FB3 => array(0x3B1, 0x3B9)
,0x1FB4 => array(0x3AC, 0x3B9), 0x1FB6 => array(0x3B1, 0x342)
,0x1FB7 => array(0x3B1, 0x342, 0x3B9), 0x1FB8 => array(0x1FB0)
,0x1FB9 => array(0x1FB1), 0x1FBA => array(0x1F70), 0x1FBB => array(0x1F71)
,0x1FBC => array(0x3B1, 0x3B9), 0x1FBE => array(0x3B9)
,0x1FC2 => array(0x1F74, 0x3B9), 0x1FC3 => array(0x3B7, 0x3B9)
,0x1FC4 => array(0x3AE, 0x3B9), 0x1FC6 => array(0x3B7, 0x342)
,0x1FC7 => array(0x3B7, 0x342, 0x3B9), 0x1FC8 => array(0x1F72)
,0x1FC9 => array(0x1F73), 0x1FCA => array(0x1F74), 0x1FCB => array(0x1F75)
,0x1FCC => array(0x3B7, 0x3B9), 0x1FD2 => array(0x3B9, 0x308, 0x300)
,0x1FD3 => array(0x3B9, 0x308, 0x301), 0x1FD6 => array(0x3B9, 0x342)
,0x1FD7 => array(0x3B9, 0x308, 0x342), 0x1FD8 => array(0x1FD0)
,0x1FD9 => array(0x1FD1), 0x1FDA => array(0x1F76)
,0x1FDB => array(0x1F77), 0x1FE2 => array(0x3C5, 0x308, 0x300)
,0x1FE3 => array(0x3C5, 0x308, 0x301), 0x1FE4 => array(0x3C1, 0x313)
,0x1FE6 => array(0x3C5, 0x342), 0x1FE7 => array(0x3C5, 0x308, 0x342)
,0x1FE8 => array(0x1FE0), 0x1FE9 => array(0x1FE1)
,0x1FEA => array(0x1F7A), 0x1FEB => array(0x1F7B)
,0x1FEC => array(0x1FE5), 0x1FF2 => array(0x1F7C, 0x3B9)
,0x1FF3 => array(0x3C9, 0x3B9), 0x1FF4 => array(0x3CE, 0x3B9)
,0x1FF6 => array(0x3C9, 0x342), 0x1FF7 => array(0x3C9, 0x342, 0x3B9)
,0x1FF8 => array(0x1F78), 0x1FF9 => array(0x1F79), 0x1FFA => array(0x1F7C)
,0x1FFB => array(0x1F7D), 0x1FFC => array(0x3C9, 0x3B9)
,0x20A8 => array(0x72, 0x73), 0x2102 => array(0x63), 0x2103 => array(0xB0, 0x63)
,0x2107 => array(0x25B), 0x2109 => array(0xB0, 0x66), 0x210B => array(0x68)
,0x210C => array(0x68), 0x210D => array(0x68), 0x2110 => array(0x69)
,0x2111 => array(0x69), 0x2112 => array(0x6C), 0x2115 => array(0x6E)
,0x2116 => array(0x6E, 0x6F), 0x2119 => array(0x70), 0x211A => array(0x71)
,0x211B => array(0x72), 0x211C => array(0x72), 0x211D => array(0x72)
,0x2120 => array(0x73, 0x6D), 0x2121 => array(0x74, 0x65, 0x6C)
,0x2122 => array(0x74, 0x6D), 0x2124 => array(0x7A), 0x2126 => array(0x3C9)
,0x2128 => array(0x7A), 0x212A => array(0x6B), 0x212B => array(0xE5)
,0x212C => array(0x62), 0x212D => array(0x63), 0x2130 => array(0x65)
,0x2131 => array(0x66), 0x2133 => array(0x6D), 0x213E => array(0x3B3)
,0x213F => array(0x3C0), 0x2145 => array(0x64) ,0x2160 => array(0x2170)
,0x2161 => array(0x2171), 0x2162 => array(0x2172), 0x2163 => array(0x2173)
,0x2164 => array(0x2174), 0x2165 => array(0x2175), 0x2166 => array(0x2176)
,0x2167 => array(0x2177), 0x2168 => array(0x2178), 0x2169 => array(0x2179)
,0x216A => array(0x217A), 0x216B => array(0x217B), 0x216C => array(0x217C)
,0x216D => array(0x217D), 0x216E => array(0x217E), 0x216F => array(0x217F)
,0x24B6 => array(0x24D0), 0x24B7 => array(0x24D1), 0x24B8 => array(0x24D2)
,0x24B9 => array(0x24D3), 0x24BA => array(0x24D4), 0x24BB => array(0x24D5)
,0x24BC => array(0x24D6), 0x24BD => array(0x24D7), 0x24BE => array(0x24D8)
,0x24BF => array(0x24D9), 0x24C0 => array(0x24DA), 0x24C1 => array(0x24DB)
,0x24C2 => array(0x24DC), 0x24C3 => array(0x24DD), 0x24C4 => array(0x24DE)
,0x24C5 => array(0x24DF), 0x24C6 => array(0x24E0), 0x24C7 => array(0x24E1)
,0x24C8 => array(0x24E2), 0x24C9 => array(0x24E3), 0x24CA => array(0x24E4)
,0x24CB => array(0x24E5), 0x24CC => array(0x24E6), 0x24CD => array(0x24E7)
,0x24CE => array(0x24E8), 0x24CF => array(0x24E9), 0x3371 => array(0x68, 0x70, 0x61)
,0x3373 => array(0x61, 0x75), 0x3375 => array(0x6F, 0x76)
,0x3380 => array(0x70, 0x61), 0x3381 => array(0x6E, 0x61)
,0x3382 => array(0x3BC, 0x61), 0x3383 => array(0x6D, 0x61)
,0x3384 => array(0x6B, 0x61), 0x3385 => array(0x6B, 0x62)
,0x3386 => array(0x6D, 0x62), 0x3387 => array(0x67, 0x62)
,0x338A => array(0x70, 0x66), 0x338B => array(0x6E, 0x66)
,0x338C => array(0x3BC, 0x66), 0x3390 => array(0x68, 0x7A)
,0x3391 => array(0x6B, 0x68, 0x7A), 0x3392 => array(0x6D, 0x68, 0x7A)
,0x3393 => array(0x67, 0x68, 0x7A), 0x3394 => array(0x74, 0x68, 0x7A)
,0x33A9 => array(0x70, 0x61), 0x33AA => array(0x6B, 0x70, 0x61)
,0x33AB => array(0x6D, 0x70, 0x61), 0x33AC => array(0x67, 0x70, 0x61)
,0x33B4 => array(0x70, 0x76), 0x33B5 => array(0x6E, 0x76)
,0x33B6 => array(0x3BC, 0x76), 0x33B7 => array(0x6D, 0x76)
,0x33B8 => array(0x6B, 0x76), 0x33B9 => array(0x6D, 0x76)
,0x33BA => array(0x70, 0x77), 0x33BB => array(0x6E, 0x77)
,0x33BC => array(0x3BC, 0x77), 0x33BD => array(0x6D, 0x77)
,0x33BE => array(0x6B, 0x77), 0x33BF => array(0x6D, 0x77)
,0x33C0 => array(0x6B, 0x3C9), 0x33C1 => array(0x6D, 0x3C9) /*
,0x33C2 => array(0x61, 0x2E, 0x6D, 0x2E) */
,0x33C3 => array(0x62, 0x71), 0x33C6 => array(0x63, 0x2215, 0x6B, 0x67)
,0x33C7 => array(0x63, 0x6F, 0x2E), 0x33C8 => array(0x64, 0x62)
,0x33C9 => array(0x67, 0x79), 0x33CB => array(0x68, 0x70)
,0x33CD => array(0x6B, 0x6B), 0x33CE => array(0x6B, 0x6D)
,0x33D7 => array(0x70, 0x68), 0x33D9 => array(0x70, 0x70, 0x6D)
,0x33DA => array(0x70, 0x72), 0x33DC => array(0x73, 0x76)
,0x33DD => array(0x77, 0x62), 0xFB00 => array(0x66, 0x66)
,0xFB01 => array(0x66, 0x69), 0xFB02 => array(0x66, 0x6C)
,0xFB03 => array(0x66, 0x66, 0x69), 0xFB04 => array(0x66, 0x66, 0x6C)
,0xFB05 => array(0x73, 0x74), 0xFB06 => array(0x73, 0x74)
,0xFB13 => array(0x574, 0x576), 0xFB14 => array(0x574, 0x565)
,0xFB15 => array(0x574, 0x56B), 0xFB16 => array(0x57E, 0x576)
,0xFB17 => array(0x574, 0x56D), 0xFF21 => array(0xFF41)
,0xFF22 => array(0xFF42), 0xFF23 => array(0xFF43), 0xFF24 => array(0xFF44)
,0xFF25 => array(0xFF45), 0xFF26 => array(0xFF46), 0xFF27 => array(0xFF47)
,0xFF28 => array(0xFF48), 0xFF29 => array(0xFF49), 0xFF2A => array(0xFF4A)
,0xFF2B => array(0xFF4B), 0xFF2C => array(0xFF4C), 0xFF2D => array(0xFF4D)
,0xFF2E => array(0xFF4E), 0xFF2F => array(0xFF4F), 0xFF30 => array(0xFF50)
,0xFF31 => array(0xFF51), 0xFF32 => array(0xFF52), 0xFF33 => array(0xFF53)
,0xFF34 => array(0xFF54), 0xFF35 => array(0xFF55), 0xFF36 => array(0xFF56)
,0xFF37 => array(0xFF57), 0xFF38 => array(0xFF58), 0xFF39 => array(0xFF59)
,0xFF3A => array(0xFF5A), 0x10400 => array(0x10428), 0x10401 => array(0x10429)
,0x10402 => array(0x1042A), 0x10403 => array(0x1042B), 0x10404 => array(0x1042C)
,0x10405 => array(0x1042D), 0x10406 => array(0x1042E), 0x10407 => array(0x1042F)
,0x10408 => array(0x10430), 0x10409 => array(0x10431), 0x1040A => array(0x10432)
,0x1040B => array(0x10433), 0x1040C => array(0x10434), 0x1040D => array(0x10435)
,0x1040E => array(0x10436), 0x1040F => array(0x10437), 0x10410 => array(0x10438)
,0x10411 => array(0x10439), 0x10412 => array(0x1043A), 0x10413 => array(0x1043B)
,0x10414 => array(0x1043C), 0x10415 => array(0x1043D), 0x10416 => array(0x1043E)
,0x10417 => array(0x1043F), 0x10418 => array(0x10440), 0x10419 => array(0x10441)
,0x1041A => array(0x10442), 0x1041B => array(0x10443), 0x1041C => array(0x10444)
,0x1041D => array(0x10445), 0x1041E => array(0x10446), 0x1041F => array(0x10447)
,0x10420 => array(0x10448), 0x10421 => array(0x10449), 0x10422 => array(0x1044A)
,0x10423 => array(0x1044B), 0x10424 => array(0x1044C), 0x10425 => array(0x1044D)
,0x1D400 => array(0x61), 0x1D401 => array(0x62), 0x1D402 => array(0x63)
,0x1D403 => array(0x64), 0x1D404 => array(0x65), 0x1D405 => array(0x66)
,0x1D406 => array(0x67), 0x1D407 => array(0x68), 0x1D408 => array(0x69)
,0x1D409 => array(0x6A), 0x1D40A => array(0x6B), 0x1D40B => array(0x6C)
,0x1D40C => array(0x6D), 0x1D40D => array(0x6E), 0x1D40E => array(0x6F)
,0x1D40F => array(0x70), 0x1D410 => array(0x71), 0x1D411 => array(0x72)
,0x1D412 => array(0x73), 0x1D413 => array(0x74), 0x1D414 => array(0x75)
,0x1D415 => array(0x76), 0x1D416 => array(0x77), 0x1D417 => array(0x78)
,0x1D418 => array(0x79), 0x1D419 => array(0x7A), 0x1D434 => array(0x61)
,0x1D435 => array(0x62), 0x1D436 => array(0x63), 0x1D437 => array(0x64)
,0x1D438 => array(0x65), 0x1D439 => array(0x66), 0x1D43A => array(0x67)
,0x1D43B => array(0x68), 0x1D43C => array(0x69), 0x1D43D => array(0x6A)
,0x1D43E => array(0x6B), 0x1D43F => array(0x6C), 0x1D440 => array(0x6D)
,0x1D441 => array(0x6E), 0x1D442 => array(0x6F), 0x1D443 => array(0x70)
,0x1D444 => array(0x71), 0x1D445 => array(0x72), 0x1D446 => array(0x73)
,0x1D447 => array(0x74), 0x1D448 => array(0x75), 0x1D449 => array(0x76)
,0x1D44A => array(0x77), 0x1D44B => array(0x78), 0x1D44C => array(0x79)
,0x1D44D => array(0x7A), 0x1D468 => array(0x61), 0x1D469 => array(0x62)
,0x1D46A => array(0x63), 0x1D46B => array(0x64), 0x1D46C => array(0x65)
,0x1D46D => array(0x66), 0x1D46E => array(0x67), 0x1D46F => array(0x68)
,0x1D470 => array(0x69), 0x1D471 => array(0x6A), 0x1D472 => array(0x6B)
,0x1D473 => array(0x6C), 0x1D474 => array(0x6D), 0x1D475 => array(0x6E)
,0x1D476 => array(0x6F), 0x1D477 => array(0x70), 0x1D478 => array(0x71)
,0x1D479 => array(0x72), 0x1D47A => array(0x73), 0x1D47B => array(0x74)
,0x1D47C => array(0x75), 0x1D47D => array(0x76), 0x1D47E => array(0x77)
,0x1D47F => array(0x78), 0x1D480 => array(0x79), 0x1D481 => array(0x7A)
,0x1D49C => array(0x61), 0x1D49E => array(0x63), 0x1D49F => array(0x64)
,0x1D4A2 => array(0x67), 0x1D4A5 => array(0x6A), 0x1D4A6 => array(0x6B)
,0x1D4A9 => array(0x6E), 0x1D4AA => array(0x6F), 0x1D4AB => array(0x70)
,0x1D4AC => array(0x71), 0x1D4AE => array(0x73), 0x1D4AF => array(0x74)
,0x1D4B0 => array(0x75), 0x1D4B1 => array(0x76), 0x1D4B2 => array(0x77)
,0x1D4B3 => array(0x78), 0x1D4B4 => array(0x79), 0x1D4B5 => array(0x7A)
,0x1D4D0 => array(0x61), 0x1D4D1 => array(0x62), 0x1D4D2 => array(0x63)
,0x1D4D3 => array(0x64), 0x1D4D4 => array(0x65), 0x1D4D5 => array(0x66)
,0x1D4D6 => array(0x67), 0x1D4D7 => array(0x68), 0x1D4D8 => array(0x69)
,0x1D4D9 => array(0x6A), 0x1D4DA => array(0x6B), 0x1D4DB => array(0x6C)
,0x1D4DC => array(0x6D), 0x1D4DD => array(0x6E), 0x1D4DE => array(0x6F)
,0x1D4DF => array(0x70), 0x1D4E0 => array(0x71), 0x1D4E1 => array(0x72)
,0x1D4E2 => array(0x73), 0x1D4E3 => array(0x74), 0x1D4E4 => array(0x75)
,0x1D4E5 => array(0x76), 0x1D4E6 => array(0x77), 0x1D4E7 => array(0x78)
,0x1D4E8 => array(0x79), 0x1D4E9 => array(0x7A), 0x1D504 => array(0x61)
,0x1D505 => array(0x62), 0x1D507 => array(0x64), 0x1D508 => array(0x65)
,0x1D509 => array(0x66), 0x1D50A => array(0x67), 0x1D50D => array(0x6A)
,0x1D50E => array(0x6B), 0x1D50F => array(0x6C), 0x1D510 => array(0x6D)
,0x1D511 => array(0x6E), 0x1D512 => array(0x6F), 0x1D513 => array(0x70)
,0x1D514 => array(0x71), 0x1D516 => array(0x73), 0x1D517 => array(0x74)
,0x1D518 => array(0x75), 0x1D519 => array(0x76), 0x1D51A => array(0x77)
,0x1D51B => array(0x78), 0x1D51C => array(0x79), 0x1D538 => array(0x61)
,0x1D539 => array(0x62), 0x1D53B => array(0x64), 0x1D53C => array(0x65)
,0x1D53D => array(0x66), 0x1D53E => array(0x67), 0x1D540 => array(0x69)
,0x1D541 => array(0x6A), 0x1D542 => array(0x6B), 0x1D543 => array(0x6C)
,0x1D544 => array(0x6D), 0x1D546 => array(0x6F), 0x1D54A => array(0x73)
,0x1D54B => array(0x74), 0x1D54C => array(0x75), 0x1D54D => array(0x76)
,0x1D54E => array(0x77), 0x1D54F => array(0x78), 0x1D550 => array(0x79)
,0x1D56C => array(0x61), 0x1D56D => array(0x62), 0x1D56E => array(0x63)
,0x1D56F => array(0x64), 0x1D570 => array(0x65), 0x1D571 => array(0x66)
,0x1D572 => array(0x67), 0x1D573 => array(0x68), 0x1D574 => array(0x69)
,0x1D575 => array(0x6A), 0x1D576 => array(0x6B), 0x1D577 => array(0x6C)
,0x1D578 => array(0x6D), 0x1D579 => array(0x6E), 0x1D57A => array(0x6F)
,0x1D57B => array(0x70), 0x1D57C => array(0x71), 0x1D57D => array(0x72)
,0x1D57E => array(0x73), 0x1D57F => array(0x74), 0x1D580 => array(0x75)
,0x1D581 => array(0x76), 0x1D582 => array(0x77), 0x1D583 => array(0x78)
,0x1D584 => array(0x79), 0x1D585 => array(0x7A), 0x1D5A0 => array(0x61)
,0x1D5A1 => array(0x62), 0x1D5A2 => array(0x63), 0x1D5A3 => array(0x64)
,0x1D5A4 => array(0x65), 0x1D5A5 => array(0x66), 0x1D5A6 => array(0x67)
,0x1D5A7 => array(0x68), 0x1D5A8 => array(0x69), 0x1D5A9 => array(0x6A)
,0x1D5AA => array(0x6B), 0x1D5AB => array(0x6C), 0x1D5AC => array(0x6D)
,0x1D5AD => array(0x6E), 0x1D5AE => array(0x6F), 0x1D5AF => array(0x70)
,0x1D5B0 => array(0x71), 0x1D5B1 => array(0x72), 0x1D5B2 => array(0x73)
,0x1D5B3 => array(0x74), 0x1D5B4 => array(0x75), 0x1D5B5 => array(0x76)
,0x1D5B6 => array(0x77), 0x1D5B7 => array(0x78), 0x1D5B8 => array(0x79)
,0x1D5B9 => array(0x7A), 0x1D5D4 => array(0x61), 0x1D5D5 => array(0x62)
,0x1D5D6 => array(0x63), 0x1D5D7 => array(0x64), 0x1D5D8 => array(0x65)
,0x1D5D9 => array(0x66), 0x1D5DA => array(0x67), 0x1D5DB => array(0x68)
,0x1D5DC => array(0x69), 0x1D5DD => array(0x6A), 0x1D5DE => array(0x6B)
,0x1D5DF => array(0x6C), 0x1D5E0 => array(0x6D), 0x1D5E1 => array(0x6E)
,0x1D5E2 => array(0x6F), 0x1D5E3 => array(0x70), 0x1D5E4 => array(0x71)
,0x1D5E5 => array(0x72), 0x1D5E6 => array(0x73), 0x1D5E7 => array(0x74)
,0x1D5E8 => array(0x75), 0x1D5E9 => array(0x76), 0x1D5EA => array(0x77)
,0x1D5EB => array(0x78), 0x1D5EC => array(0x79), 0x1D5ED => array(0x7A)
,0x1D608 => array(0x61), 0x1D609 => array(0x62) ,0x1D60A => array(0x63)
,0x1D60B => array(0x64), 0x1D60C => array(0x65), 0x1D60D => array(0x66)
,0x1D60E => array(0x67), 0x1D60F => array(0x68), 0x1D610 => array(0x69)
,0x1D611 => array(0x6A), 0x1D612 => array(0x6B), 0x1D613 => array(0x6C)
,0x1D614 => array(0x6D), 0x1D615 => array(0x6E), 0x1D616 => array(0x6F)
,0x1D617 => array(0x70), 0x1D618 => array(0x71), 0x1D619 => array(0x72)
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,0x1D61D => array(0x76), 0x1D61E => array(0x77), 0x1D61F => array(0x78)
,0x1D620 => array(0x79), 0x1D621 => array(0x7A), 0x1D63C => array(0x61)
,0x1D63D => array(0x62), 0x1D63E => array(0x63), 0x1D63F => array(0x64)
,0x1D640 => array(0x65), 0x1D641 => array(0x66), 0x1D642 => array(0x67)
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,0x1D646 => array(0x6B), 0x1D647 => array(0x6C), 0x1D648 => array(0x6D)
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,0x1D655 => array(0x7A), 0x1D670 => array(0x61), 0x1D671 => array(0x62)
,0x1D672 => array(0x63), 0x1D673 => array(0x64), 0x1D674 => array(0x65)
,0x1D675 => array(0x66), 0x1D676 => array(0x67), 0x1D677 => array(0x68)
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,0x1D67B => array(0x6C), 0x1D67C => array(0x6D), 0x1D67D => array(0x6E)
,0x1D67E => array(0x6F), 0x1D67F => array(0x70), 0x1D680 => array(0x71)
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,0x1D684 => array(0x75), 0x1D685 => array(0x76), 0x1D686 => array(0x77)
,0x1D687 => array(0x78), 0x1D688 => array(0x79), 0x1D689 => array(0x7A)
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,0x1D6AB => array(0x3B4), 0x1D6AC => array(0x3B5), 0x1D6AD => array(0x3B6)
,0x1D6AE => array(0x3B7), 0x1D6AF => array(0x3B8), 0x1D6B0 => array(0x3B9)
,0x1D6B1 => array(0x3BA), 0x1D6B2 => array(0x3BB), 0x1D6B3 => array(0x3BC)
,0x1D6B4 => array(0x3BD), 0x1D6B5 => array(0x3BE), 0x1D6B6 => array(0x3BF)
,0x1D6B7 => array(0x3C0), 0x1D6B8 => array(0x3C1), 0x1D6B9 => array(0x3B8)
,0x1D6BA => array(0x3C3), 0x1D6BB => array(0x3C4), 0x1D6BC => array(0x3C5)
,0x1D6BD => array(0x3C6), 0x1D6BE => array(0x3C7), 0x1D6BF => array(0x3C8)
,0x1D6C0 => array(0x3C9), 0x1D6D3 => array(0x3C3), 0x1D6E2 => array(0x3B1)
,0x1D6E3 => array(0x3B2), 0x1D6E4 => array(0x3B3), 0x1D6E5 => array(0x3B4)
,0x1D6E6 => array(0x3B5), 0x1D6E7 => array(0x3B6), 0x1D6E8 => array(0x3B7)
,0x1D6E9 => array(0x3B8), 0x1D6EA => array(0x3B9), 0x1D6EB => array(0x3BA)
,0x1D6EC => array(0x3BB), 0x1D6ED => array(0x3BC), 0x1D6EE => array(0x3BD)
,0x1D6EF => array(0x3BE), 0x1D6F0 => array(0x3BF), 0x1D6F1 => array(0x3C0)
,0x1D6F2 => array(0x3C1), 0x1D6F3 => array(0x3B8) ,0x1D6F4 => array(0x3C3)
,0x1D6F5 => array(0x3C4), 0x1D6F6 => array(0x3C5), 0x1D6F7 => array(0x3C6)
,0x1D6F8 => array(0x3C7), 0x1D6F9 => array(0x3C8) ,0x1D6FA => array(0x3C9)
,0x1D70D => array(0x3C3), 0x1D71C => array(0x3B1), 0x1D71D => array(0x3B2)
,0x1D71E => array(0x3B3), 0x1D71F => array(0x3B4), 0x1D720 => array(0x3B5)
,0x1D721 => array(0x3B6), 0x1D722 => array(0x3B7), 0x1D723 => array(0x3B8)
,0x1D724 => array(0x3B9), 0x1D725 => array(0x3BA), 0x1D726 => array(0x3BB)
,0x1D727 => array(0x3BC), 0x1D728 => array(0x3BD), 0x1D729 => array(0x3BE)
,0x1D72A => array(0x3BF), 0x1D72B => array(0x3C0), 0x1D72C => array(0x3C1)
,0x1D72D => array(0x3B8), 0x1D72E => array(0x3C3), 0x1D72F => array(0x3C4)
,0x1D730 => array(0x3C5), 0x1D731 => array(0x3C6), 0x1D732 => array(0x3C7)
,0x1D733 => array(0x3C8), 0x1D734 => array(0x3C9), 0x1D747 => array(0x3C3)
,0x1D756 => array(0x3B1), 0x1D757 => array(0x3B2), 0x1D758 => array(0x3B3)
,0x1D759 => array(0x3B4), 0x1D75A => array(0x3B5), 0x1D75B => array(0x3B6)
,0x1D75C => array(0x3B7), 0x1D75D => array(0x3B8), 0x1D75E => array(0x3B9)
,0x1D75F => array(0x3BA), 0x1D760 => array(0x3BB), 0x1D761 => array(0x3BC)
,0x1D762 => array(0x3BD), 0x1D763 => array(0x3BE), 0x1D764 => array(0x3BF)
,0x1D765 => array(0x3C0), 0x1D766 => array(0x3C1), 0x1D767 => array(0x3B8)
,0x1D768 => array(0x3C3), 0x1D769 => array(0x3C4), 0x1D76A => array(0x3C5)
,0x1D76B => array(0x3C6), 0x1D76C => array(0x3C7), 0x1D76D => array(0x3C8)
,0x1D76E => array(0x3C9), 0x1D781 => array(0x3C3), 0x1D790 => array(0x3B1)
,0x1D791 => array(0x3B2), 0x1D792 => array(0x3B3), 0x1D793 => array(0x3B4)
,0x1D794 => array(0x3B5), 0x1D795 => array(0x3B6), 0x1D796 => array(0x3B7)
,0x1D797 => array(0x3B8), 0x1D798 => array(0x3B9), 0x1D799 => array(0x3BA)
,0x1D79A => array(0x3BB), 0x1D79B => array(0x3BC), 0x1D79C => array(0x3BD)
,0x1D79D => array(0x3BE), 0x1D79E => array(0x3BF), 0x1D79F => array(0x3C0)
,0x1D7A0 => array(0x3C1), 0x1D7A1 => array(0x3B8), 0x1D7A2 => array(0x3C3)
,0x1D7A3 => array(0x3C4), 0x1D7A4 => array(0x3C5), 0x1D7A5 => array(0x3C6)
,0x1D7A6 => array(0x3C7), 0x1D7A7 => array(0x3C8), 0x1D7A8 => array(0x3C9)
,0x1D7BB => array(0x3C3), 0x3F9 => array(0x3C3), 0x1D2C => array(0x61)
,0x1D2D => array(0xE6), 0x1D2E => array(0x62), 0x1D30 => array(0x64)
,0x1D31 => array(0x65), 0x1D32 => array(0x1DD), 0x1D33 => array(0x67)
,0x1D34 => array(0x68), 0x1D35 => array(0x69), 0x1D36 => array(0x6A)
,0x1D37 => array(0x6B), 0x1D38 => array(0x6C), 0x1D39 => array(0x6D)
,0x1D3A => array(0x6E), 0x1D3C => array(0x6F), 0x1D3D => array(0x223)
,0x1D3E => array(0x70), 0x1D3F => array(0x72), 0x1D40 => array(0x74)
,0x1D41 => array(0x75), 0x1D42 => array(0x77), 0x213B => array(0x66, 0x61, 0x78)
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,0x32CE => array(0x65, 0x76), 0x32CF => array(0x6C, 0x74, 0x64)
,0x337A => array(0x69, 0x75), 0x33DE => array(0x76, 0x2215, 0x6D)
,0x33DF => array(0x61, 0x2215, 0x6D)
)
,'norm_combcls' => array(0x334 => 1, 0x335 => 1, 0x336 => 1, 0x337 => 1
,0x338 => 1, 0x93C => 7, 0x9BC => 7, 0xA3C => 7, 0xABC => 7
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,0xE3A => 9, 0xF84 => 9, 0x1039 => 9, 0x1714 => 9, 0x1734 => 9
,0x17D2 => 9, 0x5B0 => 10, 0x5B1 => 11, 0x5B2 => 12, 0x5B3 => 13
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,0xE38 => 103, 0xE39 => 103, 0xE48 => 107, 0xE49 => 107, 0xE4A => 107
,0xE4B => 107, 0xEB8 => 118, 0xEB9 => 118, 0xEC8 => 122, 0xEC9 => 122
,0xECA => 122, 0xECB => 122, 0xF71 => 129, 0xF72 => 130, 0xF7A => 130
,0xF7B => 130, 0xF7C => 130, 0xF7D => 130, 0xF80 => 130, 0xF74 => 132
,0x321 => 202, 0x322 => 202, 0x327 => 202, 0x328 => 202, 0x31B => 216
,0xF39 => 216, 0x1D165 => 216, 0x1D166 => 216, 0x1D16E => 216, 0x1D16F => 216
,0x1D170 => 216, 0x1D171 => 216, 0x1D172 => 216, 0x302A => 218, 0x316 => 220
,0x317 => 220, 0x318 => 220, 0x319 => 220, 0x31C => 220, 0x31D => 220
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,0x325 => 220, 0x326 => 220, 0x329 => 220, 0x32A => 220, 0x32B => 220
,0x32C => 220, 0x32D => 220, 0x32E => 220, 0x32F => 220, 0x330 => 220
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,0x746 => 220, 0x748 => 220, 0x952 => 220, 0xF18 => 220, 0xF19 => 220
,0xF35 => 220, 0xF37 => 220, 0xFC6 => 220, 0x193B => 220, 0x20E8 => 220
,0x1D17B => 220, 0x1D17C => 220, 0x1D17D => 220, 0x1D17E => 220, 0x1D17F => 220
,0x1D180 => 220, 0x1D181 => 220, 0x1D182 => 220, 0x1D18A => 220, 0x1D18B => 220
,0x59A => 222, 0x5AD => 222, 0x1929 => 222, 0x302D => 222, 0x302E => 224
,0x302F => 224, 0x1D16D => 226, 0x5AE => 228, 0x18A9 => 228, 0x302B => 228
,0x300 => 230, 0x301 => 230, 0x302 => 230, 0x303 => 230, 0x304 => 230
,0x305 => 230, 0x306 => 230, 0x307 => 230, 0x308 => 230, 0x309 => 230
,0x30A => 230, 0x30B => 230, 0x30C => 230, 0x30D => 230, 0x30E => 230
,0x30F => 230, 0x310 => 230, 0x311 => 230, 0x312 => 230, 0x313 => 230
,0x314 => 230, 0x33D => 230, 0x33E => 230, 0x33F => 230, 0x340 => 230
,0x341 => 230, 0x342 => 230, 0x343 => 230, 0x344 => 230, 0x346 => 230
,0x34A => 230, 0x34B => 230, 0x34C => 230, 0x350 => 230, 0x351 => 230
,0x352 => 230, 0x357 => 230, 0x363 => 230, 0x364 => 230, 0x365 => 230
,0x366 => 230, 0x367 => 230, 0x368 => 230, 0x369 => 230, 0x36A => 230
,0x36B => 230, 0x36C => 230, 0x36D => 230, 0x36E => 230, 0x36F => 230
,0x483 => 230, 0x484 => 230, 0x485 => 230, 0x486 => 230, 0x592 => 230
,0x593 => 230, 0x594 => 230, 0x595 => 230, 0x597 => 230, 0x598 => 230
,0x599 => 230, 0x59C => 230, 0x59D => 230, 0x59E => 230, 0x59F => 230
,0x5A0 => 230, 0x5A1 => 230, 0x5A8 => 230, 0x5A9 => 230, 0x5AB => 230
,0x5AC => 230, 0x5AF => 230, 0x5C4 => 230, 0x610 => 230, 0x611 => 230
,0x612 => 230, 0x613 => 230, 0x614 => 230, 0x615 => 230, 0x653 => 230
,0x654 => 230, 0x657 => 230, 0x658 => 230, 0x6D6 => 230, 0x6D7 => 230
,0x6D8 => 230, 0x6D9 => 230, 0x6DA => 230, 0x6DB => 230, 0x6DC => 230
,0x6DF => 230, 0x6E0 => 230, 0x6E1 => 230, 0x6E2 => 230, 0x6E4 => 230
,0x6E7 => 230, 0x6E8 => 230, 0x6EB => 230, 0x6EC => 230, 0x730 => 230
,0x732 => 230, 0x733 => 230, 0x735 => 230, 0x736 => 230, 0x73A => 230
,0x73D => 230, 0x73F => 230, 0x740 => 230, 0x741 => 230, 0x743 => 230
,0x745 => 230, 0x747 => 230, 0x749 => 230, 0x74A => 230, 0x951 => 230
,0x953 => 230, 0x954 => 230, 0xF82 => 230, 0xF83 => 230, 0xF86 => 230
,0xF87 => 230, 0x170D => 230, 0x193A => 230, 0x20D0 => 230, 0x20D1 => 230
,0x20D4 => 230, 0x20D5 => 230, 0x20D6 => 230, 0x20D7 => 230, 0x20DB => 230
,0x20DC => 230, 0x20E1 => 230, 0x20E7 => 230, 0x20E9 => 230, 0xFE20 => 230
,0xFE21 => 230, 0xFE22 => 230, 0xFE23 => 230, 0x1D185 => 230, 0x1D186 => 230
,0x1D187 => 230, 0x1D189 => 230, 0x1D188 => 230, 0x1D1AA => 230, 0x1D1AB => 230
,0x1D1AC => 230, 0x1D1AD => 230, 0x315 => 232, 0x31A => 232, 0x302C => 232
,0x35F => 233, 0x362 => 233, 0x35D => 234, 0x35E => 234, 0x360 => 234
,0x361 => 234, 0x345 => 240
)
);
}
?>

Третий класс EmailCheckClass:

<?php
namespace classes;

use classes\EmailVerify;
use classes\IdnaConvert;

class EmailCheckerClass{
public function check($email){
$patternTrueFalse=false;
$EmailVerifyTrueFalse=false;
$pattern='/(([0-9a-z_-]{1,})@([0-9a-z-]{1,}\.){1,2}([0-9a-z-]{2,}))$/ui';

list($user,$domain)=explode('@',$email);
if(!empty($domain) and preg_match("/^[^а-яё]+$/", $domain) === 0){//detect а-яё in DOMAIN login@>mail.com<
$convert=new IdnaConvert;
$email=$convert->encode($email);
}
if(mb_substr($email, 0, 1)==='.'){
return false;
}
$verify = new EmailVerify();
$email=$verify->convert_html_to_plain_txt($email);

/**
Проверка email, если есть русские символы...
1 - паттерн вернул true,
0 — false
*/
if (
1 == preg_match(
$pattern, $email
) . "\n"
){
$patternTrueFalse=true;
} else {
$patternTrueFalse=false;
}
//Если нет русских символов, то проверка осуществляется с помощью класса...
//Подключим класс..
if($verify->verify_formatting($email)) {
//Если класс определил, что email верный
$EmailVerifyTrueFalse=true;
} else {
$EmailVerifyTrueFalse=false;
}

if($patternTrueFalse and $EmailVerifyTrueFalse or $EmailVerifyTrueFalse){
return true;
}else{return false;}
}
}

Код, который всё это подключает:

<?php;
define('ROOT',getenv('DOCUMENT_ROOT').'/');
//подключим файл autoload
require ROOT.'vendor/autoload.php';
use classes\EmailCheckerClass;
$emailCheck=(new EmailCheckerClass)->check('-@inverser.pro');
if($emailCheck){
//...
}

Команды composer.

1. Переходите в папку, где лежат файлы:

cd /path/to/folder

2. Пишите:

composer init

помните, что имя проекта (Project name) необходимо писать как-то так:

classes/class

3. Делаете:

composer install

4. Меняете путь в файле:

/vendor/composer/autoload_psr4.php

Чтобы было так:

<?php

// autoload_psr4.php @generated by Composer

$vendorDir = dirname(dirname(__FILE__));
$baseDir = dirname($vendorDir);

return array(
'classes\\' => array($baseDir . '/classes'),
);

Файлы PHP: Глубокая проверка email + кириллические домены (русские):

Скачать Архив с файлами