mirror of
https://git.friendi.ca/friendica/friendica-addons.git
synced 2024-11-30 07:33:15 +00:00
404 lines
8.2 KiB
PHP
404 lines
8.2 KiB
PHP
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<?php
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/** @package php-gpg::GPG */
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/** assign globals */
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global $bs;
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global $bx2;
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global $bm;
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global $bx;
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global $bd;
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global $bdm;
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$bs = 28;
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$bx2 = 1 << $bs;
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$bm = $bx2 - 1;
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$bx = $bx2 >> 1;
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$bd = $bs >> 1;
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$bdm = (1 << $bd) - 1;
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/**
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*/
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function mpi2b($s)
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{
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global $bs;
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global $bx2;
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global $bm;
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global $bx;
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global $bd;
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global $bdm;
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$bn = 1;
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$r = array(0);
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$rn = 0;
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$sb = 256;
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$c = 0;
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$sn = strlen($s);
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if($sn < 2) {
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echo("string too short, not a MPI");
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return 0;
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}
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$len = ($sn - 2) * 8;
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$bits = ord($s[0]) * 256 + ord($s[1]);
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if ($bits > $len || $bits < $len - 8) {
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echo("not a MPI, bits = $bits, len = $len");
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return 0;
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}
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for ($n = 0; $n < $len; $n++) {
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if (($sb <<= 1) > 255) {
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$sb = 1; $c = ord($s[--$sn]);
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}
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if ($bn > $bm) {
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$bn = 1;
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$r[++$rn]=0;
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}
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if ($c & $sb) $r[$rn] |= $bn;
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$bn <<= 1;
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}
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return $r;
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}
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/**
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*/
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function b2mpi($b)
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{
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global $bs;
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global $bx2;
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global $bm;
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global $bx;
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global $bd;
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global $bdm;
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$bn = 1;
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$bc = 0;
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$r = array(0);
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$rb = 1;
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$rn = 0;
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$bits = count($b) * $bs;
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$n = 0;
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$rr = "";
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for ($n = 0; $n < $bits; $n++) {
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if ($b[$bc] & $bn) $r[$rn] |= $rb;
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if(($rb <<= 1) > 255) {
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$rb = 1; $r[++$rn]=0;
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}
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if (($bn <<= 1) > $bm) {
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$bn=1; $bc++;
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}
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}
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while ($rn && $r[$rn]==0) $rn--;
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$bn=256;
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for($bits = 8; $bits > 0; $bits--) if ($r[$rn] & ($bn >>= 1)) break;
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$bits += $rn * 8;
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$rr .= chr($bits / 256 ) . chr($bits % 256);
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if ($bits) for($n = $rn; $n >= 0; $n--) $rr .= chr($r[$n]);
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return $rr;
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}
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/**
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*/
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function bmodexp($xx, $y, $m) {
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global $bs;
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global $bx2;
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global $bm;
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global $bx;
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global $bd;
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global $bdm;
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$r = array(1);
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$an = 0;
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$a = 0;
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$x = array_merge((array)$xx);
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$n = count($m) * 2;
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$mu = array_fill(0, $n + 1, 0);
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$mu[$n--] = 1;
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for(; $n >= 0; $n--) $mu[$n] = 0;
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$dd = new bdiv($mu, $m);
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$mu = $dd->q;
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for($n = 0; $n < count($y); $n++) {
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for ($a = 1, $an = 0; $an < $bs; $an++, $a <<= 1) {
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if ($y[$n] & $a) $r = bmod2(bmul($r, $x), $m, $mu);
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$x = bmod2(bmul($x, $x), $m, $mu);
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}
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}
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return $r;
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}
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/**
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*/
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function simplemod($i, $m) // returns the mod where m < 2^bd
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{
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$c = 0;
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$v = 0;
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for ($n = count($i) - 1; $n >= 0; $n--)
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{
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$v = $i[$n];
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$c = (($v >> $bd) + ($c << $bd)) % $m;
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$c = (($v & $bdm) + ($c << $bd)) % $m;
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}
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return $c;
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}
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/**
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*/
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function bmod($p, $m) // binary modulo
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{
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global $bdm;
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if (count($m) == 1) {
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if(count($p) == 1) return array($p[0] % $m[0]);
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if($m[0] < $bdm) return array(simplemod($p, $m[0]));
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}
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$r = new bdiv($p, $m);
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return $r->mod;
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}
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/**
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*/
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function bmod2($x, $m, $mu) {
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$xl = count($x) - (count($m) << 1);
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if ($xl > 0) return bmod2(array_concat(array_slice($x, 0, $xl), bmod2(array_slice($x, $xl), $m, $mu)), $m, $mu);
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$ml1 = count($m) + 1;
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$ml2 = count($m) - 1;
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$rr = 0;
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$q3 = array_slice(bmul(array_slice($x, $ml2), $mu), $ml1);
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$r1 = array_slice($x, 0, $ml1);
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$r2 = array_slice(bmul($q3, $m), 0, $ml1);
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$r = bsub($r1, $r2);
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if (count($r) == 0) {
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$r1[$ml1] = 1;
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$r = bsub($r1, $r2);
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}
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for ($n = 0;; $n++) {
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$rr = bsub($r, $m);
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if(count($rr) == 0) break;
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$r = $rr;
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if($n >= 3) return bmod2($r, $m, $mu);
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}
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return $r;
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}
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/**
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*/
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function toppart($x, $start, $len) {
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global $bx2;
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$n = 0;
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while ($start >= 0 && $len-- > 0) $n = $n * $bx2 + $x[$start--];
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return $n;
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}
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/**
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*/
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function zeros($n) {
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$r = array_fill(0, $n, 0);
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while ($n-- > 0) $r[$n] = 0;
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return $r;
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}
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/**
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* @package verysimple::Encryption
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*/
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class bdiv {
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var $q;
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var $mod;
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function bdiv($x, $y)
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{
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global $bs;
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global $bx2;
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global $bm;
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global $bx;
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global $bd;
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global $bdm;
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$n = count($x) - 1;
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$t = count($y) - 1;
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$nmt = $n - $t;
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if ($n < $t || $n == $t && ($x[$n] < $y[$n] || $n > 0 && $x[$n] == $y[$n] && $x[$n - 1] < $y[$n - 1])) {
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$this->q = array(0);
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$this->mod = array($x);
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return;
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}
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if ($n == $t && toppart($x, $t, 2) / toppart($y, $t, 2) < 4) {
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$qq = 0;
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$xx = 0;
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for(;;) {
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$xx = bsub($x, $y);
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if(count($xx) == 0) break;
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$x = $xx; $qq++;
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}
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$this->q = array($qq);
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$this->mod = $x;
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return;
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}
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$shift2 = floor(log($y[$t]) / M_LN2) + 1;
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$shift = $bs - $shift2;
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if ($shift) {
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$x = array_merge((array)$x); $y = array_merge((array)$y);
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for($i = $t; $i > 0; $i--) $y[$i] = (($y[$i] << $shift) & $bm) | ($y[$i - 1] >> $shift2);
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$y[0] = ($y[0] << $shift) & $bm;
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if($x[$n] & (($bm << $shift2) & $bm)) {
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$x[++$n] = 0; $nmt++;
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}
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for($i = $n; $i > 0; $i--) $x[$i] = (($x[$i] << $shift) & $bm) | ($x[$i - 1] >> $shift2);
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$x[0] = ($x[0] << $shift) & $bm;
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}
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$i = 0;
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$j = 0;
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$x2 = 0;
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$q = zeros($nmt + 1);
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$y2 = array_merge(zeros($nmt), (array)$y);
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for (;;) {
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$x2 = bsub($x, $y2);
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if(count($x2) == 0) break;
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$q[$nmt]++;
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$x = $x2;
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}
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$yt = $y[$t];
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$top =toppart($y, $t, 2);
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for ($i = $n; $i > $t; $i--) {
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$m = $i - $t - 1;
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if ($i >= count($x)) $q[$m] = 1;
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else if($x[$i] == $yt) $q[$m] = $bm;
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else $q[$m] = floor(toppart($x, $i, 2) / $yt);
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$topx = toppart($x, $i, 3);
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while ($q[$m] * $top > $topx) $q[$m]--;
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$y2 = array_slice($y2, 1);
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$x2 = bsub($x, bmul(array($q[$m]), $y2));
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if (count($x2) == 0) {
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$q[$m]--;
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$x2 =bsub($x, bmul(array($q[m]), $y2));
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}
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$x = $x2;
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}
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if ($shift) {
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for($i = 0; $i < count($x) - 1; $i++) $x[$i] = ($x[$i] >> $shift) | (($x[$i + 1] << $shift2) & $bm);
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$x[count($x) - 1] >>= $shift;
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}
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$n = count($q);
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while ($n > 1 && $q[$n - 1] == 0) $n--;
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$this->q = array_slice($q, 0, $n);
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$n = count($x);
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while ($n > 1 && $x[$n - 1] == 0) $n--;
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$this->mod = array_slice($x, 0, $n);
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}
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}
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/**
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*/
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function bsub($a, $b) {
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global $bs;
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global $bx2;
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global $bm;
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global $bx;
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global $bd;
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global $bdm;
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$al = count($a);
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$bl = count($b);
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if ($bl > $al) return array();
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if ($bl == $al) {
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if($b[$bl - 1] > $a[$bl - 1]) return array();
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if($bl == 1) return array($a[0] - $b[0]);
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}
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$r = array_fill(0, $al, 0);
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$c = 0;
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for ($n = 0; $n < $bl; $n++) {
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$c += $a[$n] - $b[$n];
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$r[$n] = $c & $bm;
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$c >>= $bs;
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}
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for (; $n < $al; $n++) {
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$c += $a[$n];
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$r[$n] = $c & $bm;
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$c >>= $bs;
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}
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if ($c) return array();
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if ($r[$n - 1]) return $r;
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while ($n > 1 && $r[$n - 1] == 0) $n--;
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return array_slice($r, 0, $n);
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}
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/**
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*/
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function bmul($a, $b) {
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global $bs;
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global $bx2;
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global $bm;
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global $bx;
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global $bd;
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global $bdm;
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$b = array_merge((array)$b, array(0));
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$al = count($a);
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$bl = count($b);
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$n = 0;
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$nn = 0;
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$aa = 0;
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$c = 0;
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$m = 0;
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$g = 0;
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$gg = 0;
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$h = 0;
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$hh = 0;
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$ghh = 0;
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$ghhb = 0;
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$r = zeros($al + $bl + 1);
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for ($n = 0; $n < $al; $n++) {
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$aa = $a[$n];
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if ($aa) {
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$c = 0;
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$hh = $aa >> $bd; $h = $aa & $bdm;
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$m = $n;
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for ($nn = 0; $nn < $bl; $nn++, $m++) {
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$g = $b[$nn]; $gg = $g >> $bd; $g = $g & $bdm;
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$ghh = $g * $hh + $h * $gg;
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$ghhb = $ghh >> $bd; $ghh &= $bdm;
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$c += $r[$m] + $h * $g + ($ghh << $bd);
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$r[$m] = $c & $bm;
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$c = ($c >> $bs) + $gg * $hh + $ghhb;
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}
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}
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}
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$n = count($r);
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if ($r[$n - 1]) return $r;
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while ($n > 1 && $r[$n - 1] == 0) $n--;
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return array_slice($r, 0, $n);
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}
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?>
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