", or false if there isn't one */ var $pathStack; /** * The elements of the top of the pathStack for every path encountered, indexed * by slash-separated path. */ var $pathInfo; /** * Next serial number for whitespace placeholder paths (\@extra-N) */ var $serial; /** * Editor state. This consists of the internal copy/insert operations which * are applied to the source string to obtain the destination string. */ var $edits; /** * Simple entry point for command-line testing * * @param $text string * * @return string */ static function test( $text ) { try { $ce = new self( $text ); $ce->parse(); } catch ( ConfEditorParseError $e ) { return $e->getMessage() . "\n" . $e->highlight( $text ); } return "OK"; } /** * Construct a new parser */ public function __construct( $text ) { $this->text = $text; } /** * Edit the text. Returns the edited text. * @param $ops Array of operations. * * Operations are given as an associative array, with members: * type: One of delete, set, append or insert (required) * path: The path to operate on (required) * key: The array key to insert/append, with PHP quotes * value: The value, with PHP quotes * * delete * Deletes an array element or statement with the specified path. * e.g. * array('type' => 'delete', 'path' => '$foo/bar/baz' ) * is equivalent to the runtime PHP code: * unset( $foo['bar']['baz'] ); * * set * Sets the value of an array element. If the element doesn't exist, it * is appended to the array. If it does exist, the value is set, with * comments and indenting preserved. * * append * Appends a new element to the end of the array. Adds a trailing comma. * e.g. * array( 'type' => 'append', 'path', '$foo/bar', * 'key' => 'baz', 'value' => "'x'" ) * is like the PHP code: * $foo['bar']['baz'] = 'x'; * * insert * Insert a new element at the start of the array. * */ public function edit( $ops ) { $this->parse(); $this->edits = array( array( 'copy', 0, strlen( $this->text ) ) ); foreach ( $ops as $op ) { $type = $op['type']; $path = $op['path']; $value = isset( $op['value'] ) ? $op['value'] : null; $key = isset( $op['key'] ) ? $op['key'] : null; switch ( $type ) { case 'delete': list( $start, $end ) = $this->findDeletionRegion( $path ); $this->replaceSourceRegion( $start, $end, false ); break; case 'set': if ( isset( $this->pathInfo[$path] ) ) { list( $start, $end ) = $this->findValueRegion( $path ); $encValue = $value; // var_export( $value, true ); $this->replaceSourceRegion( $start, $end, $encValue ); break; } // No existing path, fall through to append $slashPos = strrpos( $path, '/' ); $key = var_export( substr( $path, $slashPos + 1 ), true ); $path = substr( $path, 0, $slashPos ); // Fall through case 'append': // Find the last array element $lastEltPath = $this->findLastArrayElement( $path ); if ( $lastEltPath === false ) { throw new MWException( "Can't find any element of array \"$path\"" ); } $lastEltInfo = $this->pathInfo[$lastEltPath]; // Has it got a comma already? if ( strpos( $lastEltPath, '@extra' ) === false && !$lastEltInfo['hasComma'] ) { // No comma, insert one after the value region list( , $end ) = $this->findValueRegion( $lastEltPath ); $this->replaceSourceRegion( $end - 1, $end - 1, ',' ); } // Make the text to insert list( $start, $end ) = $this->findDeletionRegion( $lastEltPath ); if ( $key === null ) { list( $indent, ) = $this->getIndent( $start ); $textToInsert = "$indent$value,"; } else { list( $indent, $arrowIndent ) = $this->getIndent( $start, $key, $lastEltInfo['arrowByte'] ); $textToInsert = "$indent$key$arrowIndent=> $value,"; } $textToInsert .= ( $indent === false ? ' ' : "\n" ); // Insert the item $this->replaceSourceRegion( $end, $end, $textToInsert ); break; case 'insert': // Find first array element $firstEltPath = $this->findFirstArrayElement( $path ); if ( $firstEltPath === false ) { throw new MWException( "Can't find array element of \"$path\"" ); } list( $start, ) = $this->findDeletionRegion( $firstEltPath ); $info = $this->pathInfo[$firstEltPath]; // Make the text to insert if ( $key === null ) { list( $indent, ) = $this->getIndent( $start ); $textToInsert = "$indent$value,"; } else { list( $indent, $arrowIndent ) = $this->getIndent( $start, $key, $info['arrowByte'] ); $textToInsert = "$indent$key$arrowIndent=> $value,"; } $textToInsert .= ( $indent === false ? ' ' : "\n" ); // Insert the item $this->replaceSourceRegion( $start, $start, $textToInsert ); break; default: throw new MWException( "Unrecognised operation: \"$type\"" ); } } // Do the edits $out = ''; foreach ( $this->edits as $edit ) { if ( $edit[0] == 'copy' ) { $out .= substr( $this->text, $edit[1], $edit[2] - $edit[1] ); } else { // if ( $edit[0] == 'insert' ) $out .= $edit[1]; } } // Do a second parse as a sanity check $this->text = $out; try { $this->parse(); } catch ( ConfEditorParseError $e ) { throw new MWException( "Sorry, ConfEditor broke the file during editing and it won't parse anymore: " . $e->getMessage() ); } return $out; } /** * Get the variables defined in the text * @return array( varname => value ) */ function getVars() { $vars = array(); $this->parse(); foreach( $this->pathInfo as $path => $data ) { if ( $path[0] != '$' ) continue; $trimmedPath = substr( $path, 1 ); $name = $data['name']; if ( $name[0] == '@' ) continue; if ( $name[0] == '$' ) $name = substr( $name, 1 ); $parentPath = substr( $trimmedPath, 0, strlen( $trimmedPath ) - strlen( $name ) ); if( substr( $parentPath, -1 ) == '/' ) $parentPath = substr( $parentPath, 0, -1 ); $value = substr( $this->text, $data['valueStartByte'], $data['valueEndByte'] - $data['valueStartByte'] ); $this->setVar( $vars, $parentPath, $name, $this->parseScalar( $value ) ); } return $vars; } /** * Set a value in an array, unless it's set already. For instance, * setVar( $arr, 'foo/bar', 'baz', 3 ); will set * $arr['foo']['bar']['baz'] = 3; * @param $array array * @param $path string slash-delimited path * @param $key mixed Key * @param $value mixed Value */ function setVar( &$array, $path, $key, $value ) { $pathArr = explode( '/', $path ); $target =& $array; if ( $path !== '' ) { foreach ( $pathArr as $p ) { if( !isset( $target[$p] ) ) $target[$p] = array(); $target =& $target[$p]; } } if ( !isset( $target[$key] ) ) $target[$key] = $value; } /** * Parse a scalar value in PHP * @return mixed Parsed value */ function parseScalar( $str ) { if ( $str !== '' && $str[0] == '\'' ) // Single-quoted string // @todo FIXME: trim() call is due to mystery bug where whitespace gets // appended to the token; without it we ended up reading in the // extra quote on the end! return strtr( substr( trim( $str ), 1, -1 ), array( '\\\'' => '\'', '\\\\' => '\\' ) ); if ( $str !== '' && $str[0] == '"' ) // Double-quoted string // @todo FIXME: trim() call is due to mystery bug where whitespace gets // appended to the token; without it we ended up reading in the // extra quote on the end! return stripcslashes( substr( trim( $str ), 1, -1 ) ); if ( substr( $str, 0, 4 ) == 'true' ) return true; if ( substr( $str, 0, 5 ) == 'false' ) return false; if ( substr( $str, 0, 4 ) == 'null' ) return null; // Must be some kind of numeric value, so let PHP's weak typing // be useful for a change return $str; } /** * Replace the byte offset region of the source with $newText. * Works by adding elements to the $this->edits array. */ function replaceSourceRegion( $start, $end, $newText = false ) { // Split all copy operations with a source corresponding to the region // in question. $newEdits = array(); foreach ( $this->edits as $edit ) { if ( $edit[0] !== 'copy' ) { $newEdits[] = $edit; continue; } $copyStart = $edit[1]; $copyEnd = $edit[2]; if ( $start >= $copyEnd || $end <= $copyStart ) { // Outside this region $newEdits[] = $edit; continue; } if ( ( $start < $copyStart && $end > $copyStart ) || ( $start < $copyEnd && $end > $copyEnd ) ) { throw new MWException( "Overlapping regions found, can't do the edit" ); } // Split the copy $newEdits[] = array( 'copy', $copyStart, $start ); if ( $newText !== false ) { $newEdits[] = array( 'insert', $newText ); } $newEdits[] = array( 'copy', $end, $copyEnd ); } $this->edits = $newEdits; } /** * Finds the source byte region which you would want to delete, if $pathName * was to be deleted. Includes the leading spaces and tabs, the trailing line * break, and any comments in between. */ function findDeletionRegion( $pathName ) { if ( !isset( $this->pathInfo[$pathName] ) ) { throw new MWException( "Can't find path \"$pathName\"" ); } $path = $this->pathInfo[$pathName]; // Find the start $this->firstToken(); while ( $this->pos != $path['startToken'] ) { $this->nextToken(); } $regionStart = $path['startByte']; for ( $offset = -1; $offset >= -$this->pos; $offset-- ) { $token = $this->getTokenAhead( $offset ); if ( !$token->isSkip() ) { // If there is other content on the same line, don't move the start point // back, because that will cause the regions to overlap. $regionStart = $path['startByte']; break; } $lfPos = strrpos( $token->text, "\n" ); if ( $lfPos === false ) { $regionStart -= strlen( $token->text ); } else { // The line start does not include the LF $regionStart -= strlen( $token->text ) - $lfPos - 1; break; } } // Find the end while ( $this->pos != $path['endToken'] ) { $this->nextToken(); } $regionEnd = $path['endByte']; // past the end for ( $offset = 0; $offset < count( $this->tokens ) - $this->pos; $offset++ ) { $token = $this->getTokenAhead( $offset ); if ( !$token->isSkip() ) { break; } $lfPos = strpos( $token->text, "\n" ); if ( $lfPos === false ) { $regionEnd += strlen( $token->text ); } else { // This should point past the LF $regionEnd += $lfPos + 1; break; } } return array( $regionStart, $regionEnd ); } /** * Find the byte region in the source corresponding to the value part. * This includes the quotes, but does not include the trailing comma * or semicolon. * * The end position is the past-the-end (end + 1) value as per convention. */ function findValueRegion( $pathName ) { if ( !isset( $this->pathInfo[$pathName] ) ) { throw new MWException( "Can't find path \"$pathName\"" ); } $path = $this->pathInfo[$pathName]; if ( $path['valueStartByte'] === false || $path['valueEndByte'] === false ) { throw new MWException( "Can't find value region for path \"$pathName\"" ); } return array( $path['valueStartByte'], $path['valueEndByte'] ); } /** * Find the path name of the last element in the array. * If the array is empty, this will return the \@extra interstitial element. * If the specified path is not found or is not an array, it will return false. */ function findLastArrayElement( $path ) { // Try for a real element $lastEltPath = false; foreach ( $this->pathInfo as $candidatePath => $info ) { $part1 = substr( $candidatePath, 0, strlen( $path ) + 1 ); $part2 = substr( $candidatePath, strlen( $path ) + 1, 1 ); if ( $part2 == '@' ) { // Do nothing } elseif ( $part1 == "$path/" ) { $lastEltPath = $candidatePath; } elseif ( $lastEltPath !== false ) { break; } } if ( $lastEltPath !== false ) { return $lastEltPath; } // Try for an interstitial element $extraPath = false; foreach ( $this->pathInfo as $candidatePath => $info ) { $part1 = substr( $candidatePath, 0, strlen( $path ) + 1 ); if ( $part1 == "$path/" ) { $extraPath = $candidatePath; } elseif ( $extraPath !== false ) { break; } } return $extraPath; } /** * Find the path name of first element in the array. * If the array is empty, this will return the \@extra interstitial element. * If the specified path is not found or is not an array, it will return false. */ function findFirstArrayElement( $path ) { // Try for an ordinary element foreach ( $this->pathInfo as $candidatePath => $info ) { $part1 = substr( $candidatePath, 0, strlen( $path ) + 1 ); $part2 = substr( $candidatePath, strlen( $path ) + 1, 1 ); if ( $part1 == "$path/" && $part2 != '@' ) { return $candidatePath; } } // Try for an interstitial element foreach ( $this->pathInfo as $candidatePath => $info ) { $part1 = substr( $candidatePath, 0, strlen( $path ) + 1 ); if ( $part1 == "$path/" ) { return $candidatePath; } } return false; } /** * Get the indent string which sits after a given start position. * Returns false if the position is not at the start of the line. */ function getIndent( $pos, $key = false, $arrowPos = false ) { $arrowIndent = ' '; if ( $pos == 0 || $this->text[$pos-1] == "\n" ) { $indentLength = strspn( $this->text, " \t", $pos ); $indent = substr( $this->text, $pos, $indentLength ); } else { $indent = false; } if ( $indent !== false && $arrowPos !== false ) { $arrowIndentLength = $arrowPos - $pos - $indentLength - strlen( $key ); if ( $arrowIndentLength > 0 ) { $arrowIndent = str_repeat( ' ', $arrowIndentLength ); } } return array( $indent, $arrowIndent ); } /** * Run the parser on the text. Throws an exception if the string does not * match our defined subset of PHP syntax. */ public function parse() { $this->initParse(); $this->pushState( 'file' ); $this->pushPath( '@extra-' . ($this->serial++) ); $token = $this->firstToken(); while ( !$token->isEnd() ) { $state = $this->popState(); if ( !$state ) { $this->error( 'internal error: empty state stack' ); } switch ( $state ) { case 'file': $this->expect( T_OPEN_TAG ); $token = $this->skipSpace(); if ( $token->isEnd() ) { break 2; } $this->pushState( 'statement', 'file 2' ); break; case 'file 2': $token = $this->skipSpace(); if ( $token->isEnd() ) { break 2; } $this->pushState( 'statement', 'file 2' ); break; case 'statement': $token = $this->skipSpace(); if ( !$this->validatePath( $token->text ) ) { $this->error( "Invalid variable name \"{$token->text}\"" ); } $this->nextPath( $token->text ); $this->expect( T_VARIABLE ); $this->skipSpace(); $arrayAssign = false; if ( $this->currentToken()->type == '[' ) { $this->nextToken(); $token = $this->skipSpace(); if ( !$token->isScalar() ) { $this->error( "expected a string or number for the array key" ); } if ( $token->type == T_CONSTANT_ENCAPSED_STRING ) { $text = $this->parseScalar( $token->text ); } else { $text = $token->text; } if ( !$this->validatePath( $text ) ) { $this->error( "Invalid associative array name \"$text\"" ); } $this->pushPath( $text ); $this->nextToken(); $this->skipSpace(); $this->expect( ']' ); $this->skipSpace(); $arrayAssign = true; } $this->expect( '=' ); $this->skipSpace(); $this->startPathValue(); if ( $arrayAssign ) $this->pushState( 'expression', 'array assign end' ); else $this->pushState( 'expression', 'statement end' ); break; case 'array assign end': case 'statement end': $this->endPathValue(); if ( $state == 'array assign end' ) $this->popPath(); $this->skipSpace(); $this->expect( ';' ); $this->nextPath( '@extra-' . ($this->serial++) ); break; case 'expression': $token = $this->skipSpace(); if ( $token->type == T_ARRAY ) { $this->pushState( 'array' ); } elseif ( $token->isScalar() ) { $this->nextToken(); } elseif ( $token->type == T_VARIABLE ) { $this->nextToken(); } else { $this->error( "expected simple expression" ); } break; case 'array': $this->skipSpace(); $this->expect( T_ARRAY ); $this->skipSpace(); $this->expect( '(' ); $this->skipSpace(); $this->pushPath( '@extra-' . ($this->serial++) ); if ( $this->isAhead( ')' ) ) { // Empty array $this->pushState( 'array end' ); } else { $this->pushState( 'element', 'array end' ); } break; case 'array end': $this->skipSpace(); $this->popPath(); $this->expect( ')' ); break; case 'element': $token = $this->skipSpace(); // Look ahead to find the double arrow if ( $token->isScalar() && $this->isAhead( T_DOUBLE_ARROW, 1 ) ) { // Found associative element $this->pushState( 'assoc-element', 'element end' ); } else { // Not associative $this->nextPath( '@next' ); $this->startPathValue(); $this->pushState( 'expression', 'element end' ); } break; case 'element end': $token = $this->skipSpace(); if ( $token->type == ',' ) { $this->endPathValue(); $this->markComma(); $this->nextToken(); $this->nextPath( '@extra-' . ($this->serial++) ); // Look ahead to find ending bracket if ( $this->isAhead( ")" ) ) { // Found ending bracket, no continuation $this->skipSpace(); } else { // No ending bracket, continue to next element $this->pushState( 'element' ); } } elseif ( $token->type == ')' ) { // End array $this->endPathValue(); } else { $this->error( "expected the next array element or the end of the array" ); } break; case 'assoc-element': $token = $this->skipSpace(); if ( !$token->isScalar() ) { $this->error( "expected a string or number for the array key" ); } if ( $token->type == T_CONSTANT_ENCAPSED_STRING ) { $text = $this->parseScalar( $token->text ); } else { $text = $token->text; } if ( !$this->validatePath( $text ) ) { $this->error( "Invalid associative array name \"$text\"" ); } $this->nextPath( $text ); $this->nextToken(); $this->skipSpace(); $this->markArrow(); $this->expect( T_DOUBLE_ARROW ); $this->skipSpace(); $this->startPathValue(); $this->pushState( 'expression' ); break; } } if ( count( $this->stateStack ) ) { $this->error( 'unexpected end of file' ); } $this->popPath(); } /** * Initialise a parse. */ protected function initParse() { $this->tokens = token_get_all( $this->text ); $this->stateStack = array(); $this->pathStack = array(); $this->firstToken(); $this->pathInfo = array(); $this->serial = 1; } /** * Set the parse position. Do not call this except from firstToken() and * nextToken(), there is more to update than just the position. */ protected function setPos( $pos ) { $this->pos = $pos; if ( $this->pos >= count( $this->tokens ) ) { $this->currentToken = ConfEditorToken::newEnd(); } else { $this->currentToken = $this->newTokenObj( $this->tokens[$this->pos] ); } return $this->currentToken; } /** * Create a ConfEditorToken from an element of token_get_all() */ function newTokenObj( $internalToken ) { if ( is_array( $internalToken ) ) { return new ConfEditorToken( $internalToken[0], $internalToken[1] ); } else { return new ConfEditorToken( $internalToken, $internalToken ); } } /** * Reset the parse position */ function firstToken() { $this->setPos( 0 ); $this->prevToken = ConfEditorToken::newEnd(); $this->lineNum = 1; $this->colNum = 1; $this->byteNum = 0; return $this->currentToken; } /** * Get the current token */ function currentToken() { return $this->currentToken; } /** * Advance the current position and return the resulting next token */ function nextToken() { if ( $this->currentToken ) { $text = $this->currentToken->text; $lfCount = substr_count( $text, "\n" ); if ( $lfCount ) { $this->lineNum += $lfCount; $this->colNum = strlen( $text ) - strrpos( $text, "\n" ); } else { $this->colNum += strlen( $text ); } $this->byteNum += strlen( $text ); } $this->prevToken = $this->currentToken; $this->setPos( $this->pos + 1 ); return $this->currentToken; } /** * Get the token $offset steps ahead of the current position. * $offset may be negative, to get tokens behind the current position. */ function getTokenAhead( $offset ) { $pos = $this->pos + $offset; if ( $pos >= count( $this->tokens ) || $pos < 0 ) { return ConfEditorToken::newEnd(); } else { return $this->newTokenObj( $this->tokens[$pos] ); } } /** * Advances the current position past any whitespace or comments */ function skipSpace() { while ( $this->currentToken && $this->currentToken->isSkip() ) { $this->nextToken(); } return $this->currentToken; } /** * Throws an error if the current token is not of the given type, and * then advances to the next position. */ function expect( $type ) { if ( $this->currentToken && $this->currentToken->type == $type ) { return $this->nextToken(); } else { $this->error( "expected " . $this->getTypeName( $type ) . ", got " . $this->getTypeName( $this->currentToken->type ) ); } } /** * Push a state or two on to the state stack. */ function pushState( $nextState, $stateAfterThat = null ) { if ( $stateAfterThat !== null ) { $this->stateStack[] = $stateAfterThat; } $this->stateStack[] = $nextState; } /** * Pop a state from the state stack. */ function popState() { return array_pop( $this->stateStack ); } /** * Returns true if the user input path is valid. * This exists to allow "/" and "@" to be reserved for string path keys */ function validatePath( $path ) { return strpos( $path, '/' ) === false && substr( $path, 0, 1 ) != '@'; } /** * Internal function to update some things at the end of a path region. Do * not call except from popPath() or nextPath(). */ function endPath() { $key = ''; foreach ( $this->pathStack as $pathInfo ) { if ( $key !== '' ) { $key .= '/'; } $key .= $pathInfo['name']; } $pathInfo['endByte'] = $this->byteNum; $pathInfo['endToken'] = $this->pos; $this->pathInfo[$key] = $pathInfo; } /** * Go up to a new path level, for example at the start of an array. */ function pushPath( $path ) { $this->pathStack[] = array( 'name' => $path, 'level' => count( $this->pathStack ) + 1, 'startByte' => $this->byteNum, 'startToken' => $this->pos, 'valueStartToken' => false, 'valueStartByte' => false, 'valueEndToken' => false, 'valueEndByte' => false, 'nextArrayIndex' => 0, 'hasComma' => false, 'arrowByte' => false ); } /** * Go down a path level, for example at the end of an array. */ function popPath() { $this->endPath(); array_pop( $this->pathStack ); } /** * Go to the next path on the same level. This ends the current path and * starts a new one. If $path is \@next, the new path is set to the next * numeric array element. */ function nextPath( $path ) { $this->endPath(); $i = count( $this->pathStack ) - 1; if ( $path == '@next' ) { $nextArrayIndex =& $this->pathStack[$i]['nextArrayIndex']; $this->pathStack[$i]['name'] = $nextArrayIndex; $nextArrayIndex++; } else { $this->pathStack[$i]['name'] = $path; } $this->pathStack[$i] = array( 'startByte' => $this->byteNum, 'startToken' => $this->pos, 'valueStartToken' => false, 'valueStartByte' => false, 'valueEndToken' => false, 'valueEndByte' => false, 'hasComma' => false, 'arrowByte' => false, ) + $this->pathStack[$i]; } /** * Mark the start of the value part of a path. */ function startPathValue() { $path =& $this->pathStack[count( $this->pathStack ) - 1]; $path['valueStartToken'] = $this->pos; $path['valueStartByte'] = $this->byteNum; } /** * Mark the end of the value part of a path. */ function endPathValue() { $path =& $this->pathStack[count( $this->pathStack ) - 1]; $path['valueEndToken'] = $this->pos; $path['valueEndByte'] = $this->byteNum; } /** * Mark the comma separator in an array element */ function markComma() { $path =& $this->pathStack[count( $this->pathStack ) - 1]; $path['hasComma'] = true; } /** * Mark the arrow separator in an associative array element */ function markArrow() { $path =& $this->pathStack[count( $this->pathStack ) - 1]; $path['arrowByte'] = $this->byteNum; } /** * Generate a parse error */ function error( $msg ) { throw new ConfEditorParseError( $this, $msg ); } /** * Get a readable name for the given token type. */ function getTypeName( $type ) { if ( is_int( $type ) ) { return token_name( $type ); } else { return "\"$type\""; } } /** * Looks ahead to see if the given type is the next token type, starting * from the current position plus the given offset. Skips any intervening * whitespace. */ function isAhead( $type, $offset = 0 ) { $ahead = $offset; $token = $this->getTokenAhead( $offset ); while ( !$token->isEnd() ) { if ( $token->isSkip() ) { $ahead++; $token = $this->getTokenAhead( $ahead ); continue; } elseif ( $token->type == $type ) { // Found the type return true; } else { // Not found return false; } } return false; } /** * Get the previous token object */ function prevToken() { return $this->prevToken; } /** * Echo a reasonably readable representation of the tokenizer array. */ function dumpTokens() { $out = ''; foreach ( $this->tokens as $token ) { $obj = $this->newTokenObj( $token ); $out .= sprintf( "%-28s %s\n", $this->getTypeName( $obj->type ), addcslashes( $obj->text, "\0..\37" ) ); } echo "
" . htmlspecialchars( $out ) . ""; } } /** * Exception class for parse errors */ class ConfEditorParseError extends MWException { var $lineNum, $colNum; function __construct( $editor, $msg ) { $this->lineNum = $editor->lineNum; $this->colNum = $editor->colNum; parent::__construct( "Parse error on line {$editor->lineNum} " . "col {$editor->colNum}: $msg" ); } function highlight( $text ) { $lines = StringUtils::explode( "\n", $text ); foreach ( $lines as $lineNum => $line ) { if ( $lineNum == $this->lineNum - 1 ) { return "$line\n" .str_repeat( ' ', $this->colNum - 1 ) . "^\n"; } } } } /** * Class to wrap a token from the tokenizer. */ class ConfEditorToken { var $type, $text; static $scalarTypes = array( T_LNUMBER, T_DNUMBER, T_STRING, T_CONSTANT_ENCAPSED_STRING ); static $skipTypes = array( T_WHITESPACE, T_COMMENT, T_DOC_COMMENT ); static function newEnd() { return new self( 'END', '' ); } function __construct( $type, $text ) { $this->type = $type; $this->text = $text; } function isSkip() { return in_array( $this->type, self::$skipTypes ); } function isScalar() { return in_array( $this->type, self::$scalarTypes ); } function isEnd() { return $this->type == 'END'; } }