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https://github.com/danog/tgseclib.git
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722 lines
18 KiB
PHP
722 lines
18 KiB
PHP
<?php
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/**
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* Pure-PHP arbitrary precision integer arithmetic library.
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*
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* Supports base-2, base-10, base-16, and base-256 numbers. Uses the GMP or BCMath extensions, if available,
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* and an internal implementation, otherwise.
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*
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* PHP version 5 and 7
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*
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* Here's an example of how to use this library:
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* <code>
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* <?php
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* $a = new \phpseclib\Math\BigInteger(2);
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* $b = new \phpseclib\Math\BigInteger(3);
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*
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* $c = $a->add($b);
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*
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* echo $c->toString(); // outputs 5
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* ?>
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* </code>
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*
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* @category Math
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* @package BigInteger
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* @author Jim Wigginton <terrafrost@php.net>
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* @copyright 2017 Jim Wigginton
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* @license http://www.opensource.org/licenses/mit-license.html MIT License
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* @link http://pear.php.net/package/Math_BigInteger
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*/
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namespace phpseclib\Math;
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use phpseclib\Exception\BadConfigurationException;
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/**
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* Pure-PHP arbitrary precision integer arithmetic library. Supports base-2, base-10, base-16, and base-256
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* numbers.
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*
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* @package BigInteger
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* @author Jim Wigginton <terrafrost@php.net>
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* @access public
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*/
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class BigInteger implements \Serializable
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{
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/**
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* Main Engine
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*
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* @var string
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*/
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private static $mainEngine;
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/**
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* Modular Exponentiation Engine
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*
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* @var string
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*/
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private static $modexpEngine;
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/**
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* Selected Engines
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*
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* @var array
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*/
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private static $engines;
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/**
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* The actual BigInteger object
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*
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* @var object
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*/
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private $value;
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/**
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* Sets engine type.
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*
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* Throws an exception if the type is invalid
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*
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* @param string $main
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* @param array $modexp optional
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*/
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public static function setEngine($main, $modexps = ['DefaultEngine'])
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{
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self::$engines = [];
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$fqmain = 'phpseclib\\Math\\BigInteger\\Engines\\' . $main;
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if (!class_exists($fqmain) || !method_exists($fqmain, 'isValidEngine')) {
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throw new \InvalidArgumentException("$main is not a valid engine");
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}
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if (!$fqmain::isValidEngine()) {
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throw new BadConfigurationException("$main is not setup correctly on this system");
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}
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self::$mainEngine = $fqmain;
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if (!in_array('Default', $modexps)) {
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$modexps[] = 'DefaultEngine';
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}
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$found = false;
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foreach ($modexps as $modexp) {
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try {
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$fqmain::setModExpEngine($modexp);
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$found = true;
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break;
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} catch (\Exception $e) {
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}
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}
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if (!$found) {
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throw new BadConfigurationException("No valid modular exponentiation engine found for $main");
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}
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self::$modexpEngine = $modexp;
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self::$engines = [$main, $modexp];
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}
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/**
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* Converts base-2, base-10, base-16, and binary strings (base-256) to BigIntegers.
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*
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* If the second parameter - $base - is negative, then it will be assumed that the number's are encoded using
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* two's compliment. The sole exception to this is -10, which is treated the same as 10 is.
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*
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* @param $x base-10 number or base-$base number if $base set.
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* @param int $base
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* @return \phpseclib\Math\BigInteger
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*/
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public function __construct($x = 0, $base = 10)
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{
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if (!isset(self::$mainEngine)) {
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$engines = [
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['GMP'],
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['PHP64', ['OpenSSL']],
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['BCMath', ['OpenSSL']],
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['PHP32', ['OpenSSL']]
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];
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foreach ($engines as $engine) {
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try {
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self::setEngine($engine[0], isset($engine[1]) ? $engine[1] : []);
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break;
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} catch (\InvalidArgumentException $e) {
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}
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}
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}
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if ($x instanceof self::$mainEngine) {
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$this->value = clone $x;
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} elseif ($x instanceof BigInteger\Engines\Engine) {
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$this->value = new static("$x");
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$this->value->setPrecision($x->getPrecision());
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} else {
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$this->value = new self::$mainEngine($x, $base);
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}
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}
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/**
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* Converts a BigInteger to a base-10 number.
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*
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* @return string
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*/
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public function toString()
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{
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return $this->value->toString();
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}
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/**
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* __toString() magic method
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*/
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public function __toString()
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{
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return (string) $this->value;
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}
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/**
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* __debugInfo() magic method
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*
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* Will be called, automatically, when print_r() or var_dump() are called
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*/
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public function __debugInfo()
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{
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return $this->value->__debugInfo();
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}
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/**
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* Converts a BigInteger to a byte string (eg. base-256).
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*
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* @param bool $twos_compliment
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* @return string
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*/
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public function toBytes($twos_compliment = false)
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{
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return $this->value->toBytes($twos_compliment);
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}
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/**
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* Converts a BigInteger to a hex string (eg. base-16).
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*
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* @param bool $twos_compliment
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* @return string
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*/
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public function toHex($twos_compliment = false)
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{
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return $this->value->toHex($twos_compliment);
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}
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/**
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* Converts a BigInteger to a bit string (eg. base-2).
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*
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* Negative numbers are saved as positive numbers, unless $twos_compliment is set to true, at which point, they're
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* saved as two's compliment.
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*
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* @param bool $twos_compliment
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* @return string
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*/
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function toBits($twos_compliment = false)
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{
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return $this->value->toBits();
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}
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/**
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* Adds two BigIntegers.
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*
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* @return \phpseclib\Math\BigInteger
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*/
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public function add(BigInteger $y)
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{
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return new static($this->value->add($y->value));
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}
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/**
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* Subtracts two BigIntegers.
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*
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* @return \phpseclib\Math\BigInteger
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*/
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function subtract(BigInteger $y)
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{
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return new static($this->value->subtract($y->value));
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}
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/**
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* Multiplies two BigIntegers
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*
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* @param \phpseclib\Math\BigInteger $x
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* @return \phpseclib\Math\BigInteger
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*/
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public function multiply(BigInteger $x)
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{
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return new static($this->value->multiply($x->value));
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}
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/**
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* Divides two BigIntegers.
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*
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* Returns an array whose first element contains the quotient and whose second element contains the
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* "common residue". If the remainder would be positive, the "common residue" and the remainder are the
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* same. If the remainder would be negative, the "common residue" is equal to the sum of the remainder
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* and the divisor (basically, the "common residue" is the first positive modulo).
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*
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* Here's an example:
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* <code>
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* <?php
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* $a = new \phpseclib\Math\BigInteger('10');
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* $b = new \phpseclib\Math\BigInteger('20');
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*
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* list($quotient, $remainder) = $a->divide($b);
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*
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* echo $quotient->toString(); // outputs 0
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* echo "\r\n";
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* echo $remainder->toString(); // outputs 10
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* ?>
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* </code>
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*
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* @param \phpseclib\Math\BigInteger $y
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* @return \phpseclib\Math\BigInteger
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*/
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public function divide(BigInteger $y)
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{
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list($q, $r) = $this->value->divide($y->value);
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return [
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new static($q),
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new static($r)
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];
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}
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/**
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* Calculates modular inverses.
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*
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* Say you have (30 mod 17 * x mod 17) mod 17 == 1. x can be found using modular inverses.
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*
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* @param \phpseclib\Math\BigInteger $n
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*/
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public function modInverse(BigInteger $n)
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{
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return new static($this->value->modInverse($n->value));
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}
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/**
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* Calculates modular inverses.
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*
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* Say you have (30 mod 17 * x mod 17) mod 17 == 1. x can be found using modular inverses.
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*
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* @param \phpseclib\Math\BigInteger $n
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*/
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public function extendedGCD(BigInteger $n)
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{
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extract($this->value->extendedGCD($n->value));
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return [
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'gcd' => new static($gcd),
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'x' => new static($x),
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'y' => new static($y)
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];
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}
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/**
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* Calculates the greatest common divisor
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*
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* Say you have 693 and 609. The GCD is 21.
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*
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* @return \phpseclib\Math\BigInteger
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*/
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public function gcd(BigInteger $n)
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{
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return new static($this->value->gcd($n->value));
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}
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/**
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* Absolute value.
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*
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* @return \phpseclib\Math\BigInteger
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* @access public
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*/
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public function abs()
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{
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return new static($this->value->abs());
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}
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/**
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* Set Precision
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*
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* Some bitwise operations give different results depending on the precision being used. Examples include left
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* shift, not, and rotates.
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*
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* @param int $bits
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*/
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public function setPrecision($bits)
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{
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$this->value->setPrecision($bits);
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}
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/**
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* Get Precision
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*
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* Returns the precision if it exists, false if it doesn't
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*
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* @return int|bool
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*/
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public function getPrecision()
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{
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return $this->value->getPrecision();
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}
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/**
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* Serialize
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*
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* Will be called, automatically, when serialize() is called on a BigInteger object.
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*
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* phpseclib 1.0 serialized strings look like this:
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* O:15:"Math_BigInteger":1:{s:3:"hex";s:18:"00ab54a98ceb1f0ad2";}
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*
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* phpseclib 3.0 serialized strings look like this:
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* C:25:"phpseclib\Math\BigInteger":42:{a:1:{s:3:"hex";s:18:"00ab54a98ceb1f0ad2";}}
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*
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* @return string
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*/
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public function serialize()
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{
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$val = ['hex' => $this->toHex(true)];
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$precision = $this->value->getPrecision();
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if ($precision > 0) {
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$val['precision'] = $precision;
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}
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return serialize($val);
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}
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/**
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* Serialize
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*
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* Will be called, automatically, when unserialize() is called on a BigInteger object.
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*
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* @param string $serialized
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*/
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public function unserialize($serialized)
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{
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$r = unserialize($serialized);
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$temp = new static($r['hex'], -16);
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$this->value = $temp->value;
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if (isset($r['precision'])) {
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// recalculate $this->bitmask
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$this->setPrecision($r['precision']);
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}
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}
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/**
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* Performs modular exponentiation.
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*
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* @return \phpseclib\Math\BigInteger
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*/
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public function powMod(BigInteger $e, BigInteger $n)
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{
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return new static($this->value->powMod($e->value, $n->value));
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}
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/**
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* Performs modular exponentiation.
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*
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* @return \phpseclib\Math\BigInteger
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*/
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public function modPow(BigInteger $e, BigInteger $n)
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{
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return new static($this->value->modPow($e->value, $n->value));
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}
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/**
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* Compares two numbers.
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*
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* Although one might think !$x->compare($y) means $x != $y, it, in fact, means the opposite. The reason for this is
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* demonstrated thusly:
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*
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* $x > $y: $x->compare($y) > 0
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* $x < $y: $x->compare($y) < 0
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* $x == $y: $x->compare($y) == 0
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*
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* Note how the same comparison operator is used. If you want to test for equality, use $x->equals($y).
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*
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* @param \phpseclib\Math\BigInteger $y
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* @return int < 0 if $this is less than $y; > 0 if $this is greater than $y, and 0 if they are equal.
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* @access public
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* @see self::equals()
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* @internal Could return $this->subtract($x), but that's not as fast as what we do do.
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*/
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public function compare(BigInteger $y)
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{
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return $this->value->compare($y->value);
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}
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/**
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* Tests the equality of two numbers.
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*
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* If you need to see if one number is greater than or less than another number, use BigInteger::compare()
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*
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* @return bool
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*/
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public function equals(BigInteger $x)
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{
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return $this->value->equals($x->value);
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}
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/**
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* Logical Not
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*
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* @return \phpseclib\Math\BigInteger
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*/
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public function bitwise_not()
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{
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return new static($this->value->bitwise_not());
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}
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/**
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* Logical And
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*
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* @return \phpseclib\Math\BigInteger
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*/
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public function bitwise_and(BigInteger $x)
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{
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return new static($this->value->bitwise_and($x->value));
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}
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/**
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* Logical Or
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*
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* @return \phpseclib\Math\BigInteger
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*/
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public function bitwise_or(BigInteger $x)
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{
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return new static($this->value->bitwise_or($x->value));
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}
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/**
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* Logical Exlusive Or
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*
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* @return \phpseclib\Math\BigInteger
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*/
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public function bitwise_xor(BigInteger $x)
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{
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return new static($this->value->bitwise_xor($x->value));
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}
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/**
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* Logical Right Shift
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*
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* Shifts BigInteger's by $shift bits, effectively dividing by 2**$shift.
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*
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* @param int $shift
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* @return \phpseclib\Math\BigInteger
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*/
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public function bitwise_rightShift($shift)
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{
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return new static($this->value->bitwise_rightShift($shift));
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}
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/**
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* Logical Left Shift
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*
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* Shifts BigInteger's by $shift bits, effectively multiplying by 2**$shift.
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*
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* @param int $shift
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* @return \phpseclib\Math\BigInteger
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*/
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public function bitwise_leftShift($shift)
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{
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return new static($this->value->bitwise_leftShift($shift));
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}
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/**
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* Logical Left Rotate
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*
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* Instead of the top x bits being dropped they're appended to the shifted bit string.
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*
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* @param int $shift
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* @return \phpseclib\Math\BigInteger
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*/
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public function bitwise_leftRotate($shift)
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{
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return new static($this->value->bitwise_leftRotate($shift));
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}
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/**
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* Logical Right Rotate
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*
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* Instead of the bottom x bits being dropped they're prepended to the shifted bit string.
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*
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* @param int $shift
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* @return \phpseclib\Math\BigInteger
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*/
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public function bitwise_rightRotate($shift)
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{
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return new static($this->value->bitwise_rightRotate($shift));
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}
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/**
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* Returns the smallest and largest n-bit number
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*
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* @param int $bits
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* @return array
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*/
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public static function minMaxBits($bits)
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{
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$class = self::$mainEngine;
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extract($class::minMaxBits($bits));
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return [
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'min' => new static($min),
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'max' => new static($max)
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];
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}
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/**
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* Return the size of a BigInteger in bits
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*
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* @return int
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*/
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public function getLength()
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{
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return $this->value->getLength();
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}
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/**
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* Return the size of a BigInteger in bytes
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*
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* @return int
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*/
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public function getLengthInBytes()
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{
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return $this->value->getLengthInBytes();
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}
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/**
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* Generates a random number of a certain size
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*
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* Bit length is equal to $size
|
|
*
|
|
* @param int $size
|
|
* @return \phpseclib\Math\BigInteger
|
|
*/
|
|
public static function random($size)
|
|
{
|
|
$class = self::$mainEngine;
|
|
return new static($class::random($size));
|
|
}
|
|
|
|
/**
|
|
* Generates a random prime number of a certain size
|
|
*
|
|
* Bit length is equal to $size
|
|
*
|
|
* @param int $size
|
|
* @return \phpseclib\Math\BigInteger
|
|
*/
|
|
public static function randomPrime($size)
|
|
{
|
|
$class = self::$mainEngine;
|
|
return new static($class::randomPrime($size));
|
|
}
|
|
|
|
/**
|
|
* Generate a random prime number between a range
|
|
*
|
|
* If there's not a prime within the given range, false will be returned.
|
|
*
|
|
* @return \phpseclib\Math\BigInteger|false
|
|
*/
|
|
public static function randomRangePrime(BigInteger $min, BigInteger $max)
|
|
{
|
|
$class = self::$mainEngine;
|
|
return new static($class::randomRangePrime($min->value, $max->value));
|
|
}
|
|
|
|
/**
|
|
* Generate a random number between a range
|
|
*
|
|
* Returns a random number between $min and $max where $min and $max
|
|
* can be defined using one of the two methods:
|
|
*
|
|
* BigInteger::randomRange($min, $max)
|
|
* BigInteger::randomRange($max, $min)
|
|
*
|
|
* @return \phpseclib\Math\BigInteger
|
|
*/
|
|
public static function randomRange(BigInteger $min, BigInteger $max)
|
|
{
|
|
$class = self::$mainEngine;
|
|
return new static($class::randomRange($min->value, $max->value));
|
|
}
|
|
|
|
/**
|
|
* Checks a numer to see if it's prime
|
|
*
|
|
* Assuming the $t parameter is not set, this function has an error rate of 2**-80. The main motivation for the
|
|
* $t parameter is distributability. BigInteger::randomPrime() can be distributed across multiple pageloads
|
|
* on a website instead of just one.
|
|
*
|
|
* @param int $t
|
|
* @return bool
|
|
*/
|
|
public function isPrime($t = false)
|
|
{
|
|
return $this->value->isPrime($t);
|
|
}
|
|
|
|
/**
|
|
* Calculates the nth root of a biginteger.
|
|
*
|
|
* Returns the nth root of a positive biginteger, where n defaults to 2
|
|
*
|
|
* @param int $n optional
|
|
* @return \phpseclib\Math\BigInteger
|
|
*/
|
|
public function root($n = 2)
|
|
{
|
|
return new static($this->value->root($n));
|
|
}
|
|
|
|
/**
|
|
* Performs exponentiation.
|
|
*
|
|
* @return \phpseclib\Math\BigInteger
|
|
*/
|
|
public function pow(BigInteger $n)
|
|
{
|
|
return new static($this->value->pow($n->value));
|
|
}
|
|
|
|
/**
|
|
* Return the minimum BigInteger between an arbitrary number of BigIntegers.
|
|
*
|
|
* @return \phpseclib\Math\BigInteger
|
|
*/
|
|
public static function min(BigInteger ...$nums)
|
|
{
|
|
$class = self::$mainEngine;
|
|
$nums = array_map(function($num) { return $num->value; }, $nums);
|
|
return new static($class::min(...$nums));
|
|
}
|
|
|
|
/**
|
|
* Return the maximum BigInteger between an arbitrary number of BigIntegers.
|
|
*
|
|
* @return \phpseclib\Math\BigInteger
|
|
*/
|
|
public static function max(BigInteger ...$nums)
|
|
{
|
|
$class = self::$mainEngine;
|
|
$nums = array_map(function($num) { return $num->value; }, $nums);
|
|
return new static($class::max(...$nums));
|
|
}
|
|
|
|
/**
|
|
* Tests BigInteger to see if it is between two integers, inclusive
|
|
*
|
|
* @return boolean
|
|
*/
|
|
public function between(BigInteger $min, BigInteger $max)
|
|
{
|
|
return $this->value->between($min->value, $max->value);
|
|
}
|
|
|
|
/**
|
|
* Clone
|
|
*/
|
|
public function __clone()
|
|
{
|
|
$this->value = clone $this->value;
|
|
}
|
|
} |