PHP mbstring extension for improved Unicode support.', array('@url' => 'http://www.php.net/mbstring'))); } // Check mbstring configuration if (ini_get('mbstring.func_overload') != 0) { return array(UNICODE_ERROR, $t('Multibyte string function overloading in PHP is active and must be disabled. Check the php.ini mbstring.func_overload setting. Please refer to the PHP mbstring documentation for more information.', array('@url' => 'http://www.php.net/mbstring'))); } if (ini_get('mbstring.encoding_translation') != 0) { return array(UNICODE_ERROR, $t('Multibyte string input conversion in PHP is active and must be disabled. Check the php.ini mbstring.encoding_translation setting. Please refer to the PHP mbstring documentation for more information.', array('@url' => 'http://www.php.net/mbstring'))); } if (ini_get('mbstring.http_input') != 'pass') { return array(UNICODE_ERROR, $t('Multibyte string input conversion in PHP is active and must be disabled. Check the php.ini mbstring.http_input setting. Please refer to the PHP mbstring documentation for more information.', array('@url' => 'http://www.php.net/mbstring'))); } if (ini_get('mbstring.http_output') != 'pass') { return array(UNICODE_ERROR, $t('Multibyte string output conversion in PHP is active and must be disabled. Check the php.ini mbstring.http_output setting. Please refer to the PHP mbstring documentation for more information.', array('@url' => 'http://www.php.net/mbstring'))); } // Set appropriate configuration mb_internal_encoding('utf-8'); mb_language('uni'); return array(UNICODE_MULTIBYTE, ''); } /** * Return Unicode library status and errors. */ function unicode_requirements() { // Ensure translations don't break at install time $t = get_t(); $libraries = array( UNICODE_SINGLEBYTE => $t('Standard PHP'), UNICODE_MULTIBYTE => $t('PHP Mbstring Extension'), UNICODE_ERROR => $t('Error'), ); $severities = array( UNICODE_SINGLEBYTE => REQUIREMENT_WARNING, UNICODE_MULTIBYTE => REQUIREMENT_OK, UNICODE_ERROR => REQUIREMENT_ERROR, ); list($library, $description) = _unicode_check(); $requirements['unicode'] = array( 'title' => $t('Unicode library'), 'value' => $libraries[$library], ); if ($description) { $requirements['unicode']['description'] = $description; } $requirements['unicode']['severity'] = $severities[$library]; return $requirements; } /** * Prepare a new XML parser. * * This is a wrapper around xml_parser_create() which extracts the encoding from * the XML data first and sets the output encoding to UTF-8. This function should * be used instead of xml_parser_create(), because PHP 4's XML parser doesn't * check the input encoding itself. "Starting from PHP 5, the input encoding is * automatically detected, so that the encoding parameter specifies only the * output encoding." * * This is also where unsupported encodings will be converted. Callers should * take this into account: $data might have been changed after the call. * * @param &$data * The XML data which will be parsed later. * @return * An XML parser object or FALSE on error. * * @ingroup php_wrappers */ function drupal_xml_parser_create(&$data) { // Default XML encoding is UTF-8 $encoding = 'utf-8'; $bom = FALSE; // Check for UTF-8 byte order mark (PHP5's XML parser doesn't handle it). if (!strncmp($data, "\xEF\xBB\xBF", 3)) { $bom = TRUE; $data = substr($data, 3); } // Check for an encoding declaration in the XML prolog if no BOM was found. if (!$bom && preg_match('/^<\?xml[^>]+encoding="(.+?)"/', $data, $match)) { $encoding = $match[1]; } // Unsupported encodings are converted here into UTF-8. $php_supported = array('utf-8', 'iso-8859-1', 'us-ascii'); if (!in_array(strtolower($encoding), $php_supported)) { $out = drupal_convert_to_utf8($data, $encoding); if ($out !== FALSE) { $encoding = 'utf-8'; $data = preg_replace('/^(<\?xml[^>]+encoding)="(.+?)"/', '\\1="utf-8"', $out); } else { watchdog('php', 'Could not convert XML encoding %s to UTF-8.', array('%s' => $encoding), WATCHDOG_WARNING); return FALSE; } } $xml_parser = xml_parser_create($encoding); xml_parser_set_option($xml_parser, XML_OPTION_TARGET_ENCODING, 'utf-8'); return $xml_parser; } /** * Convert data to UTF-8 * * Requires the iconv, GNU recode or mbstring PHP extension. * * @param $data * The data to be converted. * @param $encoding * The encoding that the data is in * @return * Converted data or FALSE. */ function drupal_convert_to_utf8($data, $encoding) { if (function_exists('iconv')) { $out = @iconv($encoding, 'utf-8', $data); } elseif (function_exists('mb_convert_encoding')) { $out = @mb_convert_encoding($data, 'utf-8', $encoding); } elseif (function_exists('recode_string')) { $out = @recode_string($encoding . '..utf-8', $data); } else { watchdog('php', 'Unsupported encoding %s. Please install iconv, GNU recode or mbstring for PHP.', array('%s' => $encoding), WATCHDOG_ERROR); return FALSE; } return $out; } /** * Truncate a UTF-8-encoded string safely to a number of bytes. * * If the end position is in the middle of a UTF-8 sequence, it scans backwards * until the beginning of the byte sequence. * * Use this function whenever you want to chop off a string at an unsure * location. On the other hand, if you're sure that you're splitting on a * character boundary (e.g. after using strpos() or similar), you can safely use * substr() instead. * * @param $string * The string to truncate. * @param $len * An upper limit on the returned string length. * @return * The truncated string. */ function drupal_truncate_bytes($string, $len) { if (strlen($string) <= $len) { return $string; } if ((ord($string[$len]) < 0x80) || (ord($string[$len]) >= 0xC0)) { return substr($string, 0, $len); } // Scan backwards to beginning of the byte sequence. while (--$len >= 0 && ord($string[$len]) >= 0x80 && ord($string[$len]) < 0xC0); return substr($string, 0, $len); } /** * Truncates a UTF-8-encoded string safely to a number of characters. * * @param $string * The string to truncate. * @param $max_length * An upper limit on the returned string length, including trailing ellipsis * if $add_ellipsis is TRUE. * @param $wordsafe * If TRUE, attempt to truncate on a word boundary. Word boundaries are * spaces, punctuation, and Unicode characters used as word boundaries in * non-Latin languages; see PREG_CLASS_UNICODE_WORD_BOUNDARY for more * information. If a word boundary cannot be found that would make the length * of the returned string fall within length guidelines (see parameters * $max_return_length and $min_wordsafe_length), word boundaries are ignored. * @param $add_ellipsis * If TRUE, add t('...') to the end of the truncated string (defaults to * FALSE). The string length will still fall within $max_return_length. * @param $min_wordsafe_length * If $wordsafe is TRUE, the minimum acceptable length for truncation (before * adding an ellipsis, if $add_ellipsis is TRUE). Has no effect if $wordsafe * is FALSE. This can be used to prevent having a very short resulting string * that will not be understandable. For instance, if you are truncating the * string "See myverylongurlexample.com for more information" to a word-safe * return length of 20, the only available word boundary within 20 characters * is after the word "See", which wouldn't leave a very informative string. If * you had set $min_wordsafe_length to 10, though, the function would realise * that "See" alone is too short, and would then just truncate ignoring word * boundaries, giving you "See myverylongurl..." (assuming you had set * $add_ellipses to TRUE). * * @return * The truncated string. */ function truncate_utf8($string, $max_length, $wordsafe = FALSE, $add_ellipsis = FALSE, $min_wordsafe_length = 1) { $ellipsis = ''; $max_length = max($max_length, 0); $min_wordsafe_length = max($min_wordsafe_length, 0); if (drupal_strlen($string) <= $max_length) { // No truncation needed, so don't add ellipsis, just return. return $string; } if ($add_ellipsis) { // Truncate ellipsis in case $max_length is small. $ellipsis = drupal_substr(t('...'), 0, $max_length); $max_length -= drupal_strlen($ellipsis); $max_length = max($max_length, 0); } if ($max_length <= $min_wordsafe_length) { // Do not attempt word-safe if lengths are bad. $wordsafe = FALSE; } if ($wordsafe) { $matches = array(); // Find the last word boundary, if there is one within $min_wordsafe_length // to $max_length characters. preg_match() is always greedy, so it will // find the longest string possible. $found = preg_match('/^(.{' . $min_wordsafe_length . ',' . $max_length . '})[' . PREG_CLASS_UNICODE_WORD_BOUNDARY . ']/u', $string, $matches); if ($found) { $string = $matches[1]; } else { $string = drupal_substr($string, 0, $max_length); } } else { $string = drupal_substr($string, 0, $max_length); } if ($add_ellipsis) { $string .= $ellipsis; } return $string; } /** * Encodes MIME/HTTP header values that contain non-ASCII, UTF-8 encoded * characters. * * For example, mime_header_encode('tést.txt') returns "=?UTF-8?B?dMOpc3QudHh0?=". * * See http://www.rfc-editor.org/rfc/rfc2047.txt for more information. * * Notes: * - Only encode strings that contain non-ASCII characters. * - We progressively cut-off a chunk with truncate_utf8(). This is to ensure * each chunk starts and ends on a character boundary. * - Using \n as the chunk separator may cause problems on some systems and may * have to be changed to \r\n or \r. */ function mime_header_encode($string) { if (preg_match('/[^\x20-\x7E]/', $string)) { $chunk_size = 47; // floor((75 - strlen("=?UTF-8?B??=")) * 0.75); $len = strlen($string); $output = ''; while ($len > 0) { $chunk = drupal_truncate_bytes($string, $chunk_size); $output .= ' =?UTF-8?B?' . base64_encode($chunk) . "?=\n"; $c = strlen($chunk); $string = substr($string, $c); $len -= $c; } return trim($output); } return $string; } /** * Complement to mime_header_encode */ function mime_header_decode($header) { // First step: encoded chunks followed by other encoded chunks (need to collapse whitespace) $header = preg_replace_callback('/=\?([^?]+)\?(Q|B)\?([^?]+|\?(?!=))\?=\s+(?==\?)/', '_mime_header_decode', $header); // Second step: remaining chunks (do not collapse whitespace) return preg_replace_callback('/=\?([^?]+)\?(Q|B)\?([^?]+|\?(?!=))\?=/', '_mime_header_decode', $header); } /** * Helper function to mime_header_decode */ function _mime_header_decode($matches) { // Regexp groups: // 1: Character set name // 2: Escaping method (Q or B) // 3: Encoded data $data = ($matches[2] == 'B') ? base64_decode($matches[3]) : str_replace('_', ' ', quoted_printable_decode($matches[3])); if (strtolower($matches[1]) != 'utf-8') { $data = drupal_convert_to_utf8($data, $matches[1]); } return $data; } /** * Decode all HTML entities (including numerical ones) to regular UTF-8 bytes. * Double-escaped entities will only be decoded once ("&lt;" becomes "<", not "<"). * * @param $text * The text to decode entities in. * @param $exclude * An array of characters which should not be decoded. For example, * array('<', '&', '"'). This affects both named and numerical entities. */ function decode_entities($text, $exclude = array()) { static $html_entities; if (!isset($html_entities)) { include DRUPAL_ROOT . '/includes/unicode.entities.inc'; } // Flip the exclude list so that we can do quick lookups later. $exclude = array_flip($exclude); // Use a regexp to select all entities in one pass, to avoid decoding // double-escaped entities twice. The PREG_REPLACE_EVAL modifier 'e' is // being used to allow for a callback (see // http://php.net/manual/en/reference.pcre.pattern.modifiers). return preg_replace('/&(#x?)?([A-Za-z0-9]+);/e', '_decode_entities("$1", "$2", "$0", $html_entities, $exclude)', $text); } /** * Helper function for decode_entities */ function _decode_entities($prefix, $codepoint, $original, &$html_entities, &$exclude) { // Named entity if (!$prefix) { // A named entity not in the exclude list. if (isset($html_entities[$original]) && !isset($exclude[$html_entities[$original]])) { return $html_entities[$original]; } else { return $original; } } // Hexadecimal numerical entity if ($prefix == '#x') { $codepoint = base_convert($codepoint, 16, 10); } // Decimal numerical entity (strip leading zeros to avoid PHP octal notation) else { $codepoint = preg_replace('/^0+/', '', $codepoint); } // Encode codepoint as UTF-8 bytes if ($codepoint < 0x80) { $str = chr($codepoint); } elseif ($codepoint < 0x800) { $str = chr(0xC0 | ($codepoint >> 6)) . chr(0x80 | ($codepoint & 0x3F)); } elseif ($codepoint < 0x10000) { $str = chr(0xE0 | ( $codepoint >> 12)) . chr(0x80 | (($codepoint >> 6) & 0x3F)) . chr(0x80 | ( $codepoint & 0x3F)); } elseif ($codepoint < 0x200000) { $str = chr(0xF0 | ( $codepoint >> 18)) . chr(0x80 | (($codepoint >> 12) & 0x3F)) . chr(0x80 | (($codepoint >> 6) & 0x3F)) . chr(0x80 | ( $codepoint & 0x3F)); } // Check for excluded characters if (isset($exclude[$str])) { return $original; } else { return $str; } } /** * Count the amount of characters in a UTF-8 string. This is less than or * equal to the byte count. * * @ingroup php_wrappers */ function drupal_strlen($text) { global $multibyte; if ($multibyte == UNICODE_MULTIBYTE) { return mb_strlen($text); } else { // Do not count UTF-8 continuation bytes. return strlen(preg_replace("/[\x80-\xBF]/", '', $text)); } } /** * Uppercase a UTF-8 string. * * @ingroup php_wrappers */ function drupal_strtoupper($text) { global $multibyte; if ($multibyte == UNICODE_MULTIBYTE) { return mb_strtoupper($text); } else { // Use C-locale for ASCII-only uppercase $text = strtoupper($text); // Case flip Latin-1 accented letters $text = preg_replace_callback('/\xC3[\xA0-\xB6\xB8-\xBE]/', '_unicode_caseflip', $text); return $text; } } /** * Lowercase a UTF-8 string. * * @ingroup php_wrappers */ function drupal_strtolower($text) { global $multibyte; if ($multibyte == UNICODE_MULTIBYTE) { return mb_strtolower($text); } else { // Use C-locale for ASCII-only lowercase $text = strtolower($text); // Case flip Latin-1 accented letters $text = preg_replace_callback('/\xC3[\x80-\x96\x98-\x9E]/', '_unicode_caseflip', $text); return $text; } } /** * Helper function for case conversion of Latin-1. * Used for flipping U+C0-U+DE to U+E0-U+FD and back. */ function _unicode_caseflip($matches) { return $matches[0][0] . chr(ord($matches[0][1]) ^ 32); } /** * Capitalize the first letter of a UTF-8 string. * * @ingroup php_wrappers */ function drupal_ucfirst($text) { // Note: no mbstring equivalent! return drupal_strtoupper(drupal_substr($text, 0, 1)) . drupal_substr($text, 1); } /** * Cut off a piece of a string based on character indices and counts. Follows * the same behavior as PHP's own substr() function. * * Note that for cutting off a string at a known character/substring * location, the usage of PHP's normal strpos/substr is safe and * much faster. * * @ingroup php_wrappers */ function drupal_substr($text, $start, $length = NULL) { global $multibyte; if ($multibyte == UNICODE_MULTIBYTE) { return $length === NULL ? mb_substr($text, $start) : mb_substr($text, $start, $length); } else { $strlen = strlen($text); // Find the starting byte offset. $bytes = 0; if ($start > 0) { // Count all the continuation bytes from the start until we have found // $start characters or the end of the string. $bytes = -1; $chars = -1; while ($bytes < $strlen - 1 && $chars < $start) { $bytes++; $c = ord($text[$bytes]); if ($c < 0x80 || $c >= 0xC0) { $chars++; } } } elseif ($start < 0) { // Count all the continuation bytes from the end until we have found // abs($start) characters. $start = abs($start); $bytes = $strlen; $chars = 0; while ($bytes > 0 && $chars < $start) { $bytes--; $c = ord($text[$bytes]); if ($c < 0x80 || $c >= 0xC0) { $chars++; } } } $istart = $bytes; // Find the ending byte offset. if ($length === NULL) { $iend = $strlen; } elseif ($length > 0) { // Count all the continuation bytes from the starting index until we have // found $length characters or reached the end of the string, then // backtrace one byte. $iend = $istart - 1; $chars = -1; $last_real = FALSE; while ($iend < $strlen - 1 && $chars < $length) { $iend++; $c = ord($text[$iend]); $last_real = FALSE; if ($c < 0x80 || $c >= 0xC0) { $chars++; $last_real = TRUE; } } // Backtrace one byte if the last character we found was a real character // and we don't need it. if ($last_real && $chars >= $length) { $iend--; } } elseif ($length < 0) { // Count all the continuation bytes from the end until we have found // abs($start) characters, then backtrace one byte. $length = abs($length); $iend = $strlen; $chars = 0; while ($iend > 0 && $chars < $length) { $iend--; $c = ord($text[$iend]); if ($c < 0x80 || $c >= 0xC0) { $chars++; } } // Backtrace one byte if we are not at the beginning of the string. if ($iend > 0) { $iend--; } } else { // $length == 0, return an empty string. return ''; } return substr($text, $istart, max(0, $iend - $istart + 1)); } }