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<?php namespace Algo26\IdnaConvert\Punycode; use Algo26\IdnaConvert\Exception\AlreadyPunycodeException; use Algo26\IdnaConvert\Exception\InvalidCharacterException; use Algo26\IdnaConvert\Exception\InvalidIdnVersionException; use Algo26\IdnaConvert\NamePrep\NamePrep; class ToPunycode extends AbstractPunycode implements PunycodeInterface { /** @var NamePrep */ private $namePrep; /** * @throws InvalidIdnVersionException */ public function __construct(?string $idnVersion = null) { $this->namePrep = new NamePrep($idnVersion); parent::__construct(); } /** * @param array $decoded * * @return string * @throws AlreadyPunycodeException * @throws InvalidCharacterException */ public function convert(array $decoded): string { // We cannot encode a domain name containing the Punycode prefix $checkForPrefix = array_slice($decoded, 0, self::$prefixLength); if (self::$prefixAsArray === $checkForPrefix) { throw new AlreadyPunycodeException('This is already a Punycode string', 100); } // We will not try to encode strings consisting of basic code points only $canEncode = false; foreach ($decoded as $k => $v) { if ($v > 0x7a) { $canEncode = true; break; } } if (!$canEncode) { return false; } // Do NAMEPREP $decoded = $this->namePrep->do($decoded); if (!$decoded || !is_array($decoded)) { return false; // NAMEPREP failed } $decodedLength = count($decoded); if (!$decodedLength) { return false; // Empty array } $codeCount = 0; // How many chars have been consumed $encoded = ''; // Copy all basic code points to output for ($i = 0; $i < $decodedLength; ++$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 === $decodedLength) { return $encoded; // All codepoints were basic ones } // Start with the prefix; copy it to output $encoded = self::punycodePrefix . $encoded; // If we have basic code points in output, add an hyphen to the end if ($codeCount) { $encoded .= '-'; } // Now find and encode all non-basic code points $isFirst = true; $currentCode = self::initialN; $bias = self::initialBias; $delta = 0; while ($codeCount < $decodedLength) { // Find the smallest code point >= the current code point and // remember the last occurrence of it in the input for ($i = 0, $nextCode = self::maxUcs; $i < $decodedLength; $i++) { if ($decoded[$i] >= $currentCode && $decoded[$i] <= $nextCode) { $nextCode = $decoded[$i]; } } $delta += ($nextCode - $currentCode) * ($codeCount + 1); $currentCode = $nextCode; // Scan input again and encode all characters whose code point is $currentCode for ($i = 0; $i < $decodedLength; $i++) { if ($decoded[$i] < $currentCode) { $delta++; } elseif ($decoded[$i] == $currentCode) { for ($q = $delta, $k = self::base; 1; $k += self::base) { $t = ($k <= $bias) ? self::tMin : (($k >= $bias + self::tMax) ? self::tMax : $k - $bias ); if ($q < $t) { break; } $encoded .= $this->encodeDigit(intval($t + (($q - $t) % (self::base - $t)))); $q = (int) (($q - $t) / (self::base - $t)); } $encoded .= $this->encodeDigit($q); $bias = $this->adapt($delta, $codeCount + 1, $isFirst); $codeCount++; $delta = 0; $isFirst = false; } } $delta++; $currentCode++; } return $encoded; } /** * Encoding a certain digit * @param int $d * @return string */ private function encodeDigit($d): string { return chr($d + 22 + 75 * ($d < 26)); } }