" nodes that aren't at the top are replaced with * * Nodes are stored in a recursive array data structure. A node store is an * array where each element may be either a scalar (representing a text node) * or a "descriptor", which is a two-element array where the first element is * the node name and the second element is the node store for the children. * * Attributes are represented as children that have a node name starting with * "@", and a single text node child. * * @todo: Consider replacing descriptor arrays with objects of a new class. * Benchmark and measure resulting memory impact. * * @ingroup Parser */ // phpcs:ignore Squiz.Classes.ValidClassName.NotCamelCaps class Preprocessor_Hash extends Preprocessor { /** * @var Parser */ public $parser; const CACHE_PREFIX = 'preprocess-hash'; const CACHE_VERSION = 2; public function __construct( $parser ) { $this->parser = $parser; } /** * @return PPFrame_Hash */ public function newFrame() { return new PPFrame_Hash( $this ); } /** * @param array $args * @return PPCustomFrame_Hash */ public function newCustomFrame( $args ) { return new PPCustomFrame_Hash( $this, $args ); } /** * @param array $values * @return PPNode_Hash_Array */ public function newPartNodeArray( $values ) { $list = []; foreach ( $values as $k => $val ) { if ( is_int( $k ) ) { $store = [ [ 'part', [ [ 'name', [ [ '@index', [ $k ] ] ] ], [ 'value', [ strval( $val ) ] ], ] ] ]; } else { $store = [ [ 'part', [ [ 'name', [ strval( $k ) ] ], '=', [ 'value', [ strval( $val ) ] ], ] ] ]; } $list[] = new PPNode_Hash_Tree( $store, 0 ); } $node = new PPNode_Hash_Array( $list ); return $node; } /** * Preprocess some wikitext and return the document tree. * * @param string $text The text to parse * @param int $flags Bitwise combination of: * Parser::PTD_FOR_INCLUSION Handle "" and "" as if the text is being * included. Default is to assume a direct page view. * * The generated DOM tree must depend only on the input text and the flags. * The DOM tree must be the same in OT_HTML and OT_WIKI mode, to avoid a regression of T6899. * * Any flag added to the $flags parameter here, or any other parameter liable to cause a * change in the DOM tree for a given text, must be passed through the section identifier * in the section edit link and thus back to extractSections(). * * @throws MWException * @return PPNode_Hash_Tree */ public function preprocessToObj( $text, $flags = 0 ) { global $wgDisableLangConversion; $tree = $this->cacheGetTree( $text, $flags ); if ( $tree !== false ) { $store = json_decode( $tree ); if ( is_array( $store ) ) { return new PPNode_Hash_Tree( $store, 0 ); } } $forInclusion = $flags & Parser::PTD_FOR_INCLUSION; $xmlishElements = $this->parser->getStripList(); $xmlishAllowMissingEndTag = [ 'includeonly', 'noinclude', 'onlyinclude' ]; $enableOnlyinclude = false; if ( $forInclusion ) { $ignoredTags = [ 'includeonly', '/includeonly' ]; $ignoredElements = [ 'noinclude' ]; $xmlishElements[] = 'noinclude'; if ( strpos( $text, '' ) !== false && strpos( $text, '' ) !== false ) { $enableOnlyinclude = true; } } else { $ignoredTags = [ 'noinclude', '/noinclude', 'onlyinclude', '/onlyinclude' ]; $ignoredElements = [ 'includeonly' ]; $xmlishElements[] = 'includeonly'; } $xmlishRegex = implode( '|', array_merge( $xmlishElements, $ignoredTags ) ); // Use "A" modifier (anchored) instead of "^", because ^ doesn't work with an offset $elementsRegex = "~($xmlishRegex)(?:\s|\/>|>)|(!--)~iA"; $stack = new PPDStack_Hash; $searchBase = "[{<\n"; if ( !$wgDisableLangConversion ) { $searchBase .= '-'; } // For fast reverse searches $revText = strrev( $text ); $lengthText = strlen( $text ); // Input pointer, starts out pointing to a pseudo-newline before the start $i = 0; // Current accumulator. See the doc comment for Preprocessor_Hash for the format. $accum =& $stack->getAccum(); // True to find equals signs in arguments $findEquals = false; // True to take notice of pipe characters $findPipe = false; $headingIndex = 1; // True if $i is inside a possible heading $inHeading = false; // True if there are no more greater-than (>) signs right of $i $noMoreGT = false; // Map of tag name => true if there are no more closing tags of given type right of $i $noMoreClosingTag = []; // True to ignore all input up to the next $findOnlyinclude = $enableOnlyinclude; // Do a line-start run without outputting an LF character $fakeLineStart = true; while ( true ) { // $this->memCheck(); if ( $findOnlyinclude ) { // Ignore all input up to the next $startPos = strpos( $text, '', $i ); if ( $startPos === false ) { // Ignored section runs to the end $accum[] = [ 'ignore', [ substr( $text, $i ) ] ]; break; } $tagEndPos = $startPos + strlen( '' ); // past-the-end $accum[] = [ 'ignore', [ substr( $text, $i, $tagEndPos - $i ) ] ]; $i = $tagEndPos; $findOnlyinclude = false; } if ( $fakeLineStart ) { $found = 'line-start'; $curChar = ''; } else { # Find next opening brace, closing brace or pipe $search = $searchBase; if ( $stack->top === false ) { $currentClosing = ''; } else { $currentClosing = $stack->top->close; $search .= $currentClosing; } if ( $findPipe ) { $search .= '|'; } if ( $findEquals ) { // First equals will be for the template $search .= '='; } $rule = null; # Output literal section, advance input counter $literalLength = strcspn( $text, $search, $i ); if ( $literalLength > 0 ) { self::addLiteral( $accum, substr( $text, $i, $literalLength ) ); $i += $literalLength; } if ( $i >= $lengthText ) { if ( $currentClosing == "\n" ) { // Do a past-the-end run to finish off the heading $curChar = ''; $found = 'line-end'; } else { # All done break; } } else { $curChar = $curTwoChar = $text[$i]; if ( ( $i + 1 ) < $lengthText ) { $curTwoChar .= $text[$i + 1]; } if ( $curChar == '|' ) { $found = 'pipe'; } elseif ( $curChar == '=' ) { $found = 'equals'; } elseif ( $curChar == '<' ) { $found = 'angle'; } elseif ( $curChar == "\n" ) { if ( $inHeading ) { $found = 'line-end'; } else { $found = 'line-start'; } } elseif ( $curTwoChar == $currentClosing ) { $found = 'close'; $curChar = $curTwoChar; } elseif ( $curChar == $currentClosing ) { $found = 'close'; } elseif ( isset( $this->rules[$curTwoChar] ) ) { $curChar = $curTwoChar; $found = 'open'; $rule = $this->rules[$curChar]; } elseif ( isset( $this->rules[$curChar] ) ) { $found = 'open'; $rule = $this->rules[$curChar]; } else { # Some versions of PHP have a strcspn which stops on # null characters; ignore these and continue. # We also may get '-' and '}' characters here which # don't match -{ or $currentClosing. Add these to # output and continue. if ( $curChar == '-' || $curChar == '}' ) { self::addLiteral( $accum, $curChar ); } ++$i; continue; } } } if ( $found == 'angle' ) { $matches = false; // Handle if ( $enableOnlyinclude && substr( $text, $i, strlen( '' ) ) == '' ) { $findOnlyinclude = true; continue; } // Determine element name if ( !preg_match( $elementsRegex, $text, $matches, 0, $i + 1 ) ) { // Element name missing or not listed self::addLiteral( $accum, '<' ); ++$i; continue; } // Handle comments if ( isset( $matches[2] ) && $matches[2] == '!--' ) { // To avoid leaving blank lines, when a sequence of // space-separated comments is both preceded and followed by // a newline (ignoring spaces), then // trim leading and trailing spaces and the trailing newline. // Find the end $endPos = strpos( $text, '-->', $i + 4 ); if ( $endPos === false ) { // Unclosed comment in input, runs to end $inner = substr( $text, $i ); $accum[] = [ 'comment', [ $inner ] ]; $i = $lengthText; } else { // Search backwards for leading whitespace $wsStart = $i ? ( $i - strspn( $revText, " \t", $lengthText - $i ) ) : 0; // Search forwards for trailing whitespace // $wsEnd will be the position of the last space (or the '>' if there's none) $wsEnd = $endPos + 2 + strspn( $text, " \t", $endPos + 3 ); // Keep looking forward as long as we're finding more // comments. $comments = [ [ $wsStart, $wsEnd ] ]; while ( substr( $text, $wsEnd + 1, 4 ) == '', $wsEnd + 4 ); if ( $c === false ) { break; } $c = $c + 2 + strspn( $text, " \t", $c + 3 ); $comments[] = [ $wsEnd + 1, $c ]; $wsEnd = $c; } // Eat the line if possible // TODO: This could theoretically be done if $wsStart == 0, i.e. for comments at // the overall start. That's not how Sanitizer::removeHTMLcomments() did it, but // it's a possible beneficial b/c break. if ( $wsStart > 0 && substr( $text, $wsStart - 1, 1 ) == "\n" && substr( $text, $wsEnd + 1, 1 ) == "\n" ) { // Remove leading whitespace from the end of the accumulator $wsLength = $i - $wsStart; $endIndex = count( $accum ) - 1; // Sanity check if ( $wsLength > 0 && $endIndex >= 0 && is_string( $accum[$endIndex] ) && strspn( $accum[$endIndex], " \t", -$wsLength ) === $wsLength ) { $accum[$endIndex] = substr( $accum[$endIndex], 0, -$wsLength ); } // Dump all but the last comment to the accumulator foreach ( $comments as $j => $com ) { $startPos = $com[0]; $endPos = $com[1] + 1; if ( $j == ( count( $comments ) - 1 ) ) { break; } $inner = substr( $text, $startPos, $endPos - $startPos ); $accum[] = [ 'comment', [ $inner ] ]; } // Do a line-start run next time to look for headings after the comment $fakeLineStart = true; } else { // No line to eat, just take the comment itself $startPos = $i; $endPos += 2; } if ( $stack->top ) { $part = $stack->top->getCurrentPart(); if ( !( isset( $part->commentEnd ) && $part->commentEnd == $wsStart - 1 ) ) { $part->visualEnd = $wsStart; } // Else comments abutting, no change in visual end $part->commentEnd = $endPos; } $i = $endPos + 1; $inner = substr( $text, $startPos, $endPos - $startPos + 1 ); $accum[] = [ 'comment', [ $inner ] ]; } continue; } $name = $matches[1]; $lowerName = strtolower( $name ); $attrStart = $i + strlen( $name ) + 1; // Find end of tag $tagEndPos = $noMoreGT ? false : strpos( $text, '>', $attrStart ); if ( $tagEndPos === false ) { // Infinite backtrack // Disable tag search to prevent worst-case O(N^2) performance $noMoreGT = true; self::addLiteral( $accum, '<' ); ++$i; continue; } // Handle ignored tags if ( in_array( $lowerName, $ignoredTags ) ) { $accum[] = [ 'ignore', [ substr( $text, $i, $tagEndPos - $i + 1 ) ] ]; $i = $tagEndPos + 1; continue; } $tagStartPos = $i; if ( $text[$tagEndPos - 1] == '/' ) { // Short end tag $attrEnd = $tagEndPos - 1; $inner = null; $i = $tagEndPos + 1; $close = null; } else { $attrEnd = $tagEndPos; // Find closing tag if ( !isset( $noMoreClosingTag[$name] ) && preg_match( "/<\/" . preg_quote( $name, '/' ) . "\s*>/i", $text, $matches, PREG_OFFSET_CAPTURE, $tagEndPos + 1 ) ) { $inner = substr( $text, $tagEndPos + 1, $matches[0][1] - $tagEndPos - 1 ); $i = $matches[0][1] + strlen( $matches[0][0] ); $close = $matches[0][0]; } else { // No end tag if ( in_array( $name, $xmlishAllowMissingEndTag ) ) { // Let it run out to the end of the text. $inner = substr( $text, $tagEndPos + 1 ); $i = $lengthText; $close = null; } else { // Don't match the tag, treat opening tag as literal and resume parsing. $i = $tagEndPos + 1; self::addLiteral( $accum, substr( $text, $tagStartPos, $tagEndPos + 1 - $tagStartPos ) ); // Cache results, otherwise we have O(N^2) performance for input like ... $noMoreClosingTag[$name] = true; continue; } } } // and just become tags if ( in_array( $lowerName, $ignoredElements ) ) { $accum[] = [ 'ignore', [ substr( $text, $tagStartPos, $i - $tagStartPos ) ] ]; continue; } if ( $attrEnd <= $attrStart ) { $attr = ''; } else { // Note that the attr element contains the whitespace between name and attribute, // this is necessary for precise reconstruction during pre-save transform. $attr = substr( $text, $attrStart, $attrEnd - $attrStart ); } $children = [ [ 'name', [ $name ] ], [ 'attr', [ $attr ] ] ]; if ( $inner !== null ) { $children[] = [ 'inner', [ $inner ] ]; } if ( $close !== null ) { $children[] = [ 'close', [ $close ] ]; } $accum[] = [ 'ext', $children ]; } elseif ( $found == 'line-start' ) { // Is this the start of a heading? // Line break belongs before the heading element in any case if ( $fakeLineStart ) { $fakeLineStart = false; } else { self::addLiteral( $accum, $curChar ); $i++; } $count = strspn( $text, '=', $i, 6 ); if ( $count == 1 && $findEquals ) { // DWIM: This looks kind of like a name/value separator. // Let's let the equals handler have it and break the potential // heading. This is heuristic, but AFAICT the methods for // completely correct disambiguation are very complex. } elseif ( $count > 0 ) { $piece = [ 'open' => "\n", 'close' => "\n", 'parts' => [ new PPDPart_Hash( str_repeat( '=', $count ) ) ], 'startPos' => $i, 'count' => $count ]; $stack->push( $piece ); $accum =& $stack->getAccum(); $stackFlags = $stack->getFlags(); if ( isset( $stackFlags['findEquals'] ) ) { $findEquals = $stackFlags['findEquals']; } if ( isset( $stackFlags['findPipe'] ) ) { $findPipe = $stackFlags['findPipe']; } if ( isset( $stackFlags['inHeading'] ) ) { $inHeading = $stackFlags['inHeading']; } $i += $count; } } elseif ( $found == 'line-end' ) { $piece = $stack->top; // A heading must be open, otherwise \n wouldn't have been in the search list assert( $piece->open === "\n" ); $part = $piece->getCurrentPart(); // Search back through the input to see if it has a proper close. // Do this using the reversed string since the other solutions // (end anchor, etc.) are inefficient. $wsLength = strspn( $revText, " \t", $lengthText - $i ); $searchStart = $i - $wsLength; if ( isset( $part->commentEnd ) && $searchStart - 1 == $part->commentEnd ) { // Comment found at line end // Search for equals signs before the comment $searchStart = $part->visualEnd; $searchStart -= strspn( $revText, " \t", $lengthText - $searchStart ); } $count = $piece->count; $equalsLength = strspn( $revText, '=', $lengthText - $searchStart ); if ( $equalsLength > 0 ) { if ( $searchStart - $equalsLength == $piece->startPos ) { // This is just a single string of equals signs on its own line // Replicate the doHeadings behavior /={count}(.+)={count}/ // First find out how many equals signs there really are (don't stop at 6) $count = $equalsLength; if ( $count < 3 ) { $count = 0; } else { $count = min( 6, intval( ( $count - 1 ) / 2 ) ); } } else { $count = min( $equalsLength, $count ); } if ( $count > 0 ) { // Normal match, output $element = [ [ 'possible-h', array_merge( [ [ '@level', [ $count ] ], [ '@i', [ $headingIndex++ ] ] ], $accum ) ] ]; } else { // Single equals sign on its own line, count=0 $element = $accum; } } else { // No match, no , just pass down the inner text $element = $accum; } // Unwind the stack $stack->pop(); $accum =& $stack->getAccum(); $stackFlags = $stack->getFlags(); if ( isset( $stackFlags['findEquals'] ) ) { $findEquals = $stackFlags['findEquals']; } if ( isset( $stackFlags['findPipe'] ) ) { $findPipe = $stackFlags['findPipe']; } if ( isset( $stackFlags['inHeading'] ) ) { $inHeading = $stackFlags['inHeading']; } // Append the result to the enclosing accumulator array_splice( $accum, count( $accum ), 0, $element ); // Note that we do NOT increment the input pointer. // This is because the closing linebreak could be the opening linebreak of // another heading. Infinite loops are avoided because the next iteration MUST // hit the heading open case above, which unconditionally increments the // input pointer. } elseif ( $found == 'open' ) { # count opening brace characters $curLen = strlen( $curChar ); $count = ( $curLen > 1 ) ? # allow the final character to repeat strspn( $text, $curChar[$curLen - 1], $i + 1 ) + 1 : strspn( $text, $curChar, $i ); $savedPrefix = ''; $lineStart = ( $i > 0 && $text[$i - 1] == "\n" ); if ( $curChar === "-{" && $count > $curLen ) { // -{ => {{ transition because rightmost wins $savedPrefix = '-'; $i++; $curChar = '{'; $count--; $rule = $this->rules[$curChar]; } # we need to add to stack only if opening brace count is enough for one of the rules if ( $count >= $rule['min'] ) { # Add it to the stack $piece = [ 'open' => $curChar, 'close' => $rule['end'], 'savedPrefix' => $savedPrefix, 'count' => $count, 'lineStart' => $lineStart, ]; $stack->push( $piece ); $accum =& $stack->getAccum(); $stackFlags = $stack->getFlags(); if ( isset( $stackFlags['findEquals'] ) ) { $findEquals = $stackFlags['findEquals']; } if ( isset( $stackFlags['findPipe'] ) ) { $findPipe = $stackFlags['findPipe']; } if ( isset( $stackFlags['inHeading'] ) ) { $inHeading = $stackFlags['inHeading']; } } else { # Add literal brace(s) self::addLiteral( $accum, $savedPrefix . str_repeat( $curChar, $count ) ); } $i += $count; } elseif ( $found == 'close' ) { $piece = $stack->top; # lets check if there are enough characters for closing brace $maxCount = $piece->count; if ( $piece->close === '}-' && $curChar === '}' ) { $maxCount--; # don't try to match closing '-' as a '}' } $curLen = strlen( $curChar ); $count = ( $curLen > 1 ) ? $curLen : strspn( $text, $curChar, $i, $maxCount ); # check for maximum matching characters (if there are 5 closing # characters, we will probably need only 3 - depending on the rules) $rule = $this->rules[$piece->open]; if ( $count > $rule['max'] ) { # The specified maximum exists in the callback array, unless the caller # has made an error $matchingCount = $rule['max']; } else { # Count is less than the maximum # Skip any gaps in the callback array to find the true largest match # Need to use array_key_exists not isset because the callback can be null $matchingCount = $count; while ( $matchingCount > 0 && !array_key_exists( $matchingCount, $rule['names'] ) ) { --$matchingCount; } } if ( $matchingCount <= 0 ) { # No matching element found in callback array # Output a literal closing brace and continue $endText = substr( $text, $i, $count ); self::addLiteral( $accum, $endText ); $i += $count; continue; } $name = $rule['names'][$matchingCount]; if ( $name === null ) { // No element, just literal text $endText = substr( $text, $i, $matchingCount ); $element = $piece->breakSyntax( $matchingCount ); self::addLiteral( $element, $endText ); } else { # Create XML element $parts = $piece->parts; $titleAccum = $parts[0]->out; unset( $parts[0] ); $children = []; # The invocation is at the start of the line if lineStart is set in # the stack, and all opening brackets are used up. if ( $maxCount == $matchingCount && !empty( $piece->lineStart ) && strlen( $piece->savedPrefix ) == 0 ) { $children[] = [ '@lineStart', [ 1 ] ]; } $titleNode = [ 'title', $titleAccum ]; $children[] = $titleNode; $argIndex = 1; foreach ( $parts as $part ) { if ( isset( $part->eqpos ) ) { $equalsNode = $part->out[$part->eqpos]; $nameNode = [ 'name', array_slice( $part->out, 0, $part->eqpos ) ]; $valueNode = [ 'value', array_slice( $part->out, $part->eqpos + 1 ) ]; $partNode = [ 'part', [ $nameNode, $equalsNode, $valueNode ] ]; $children[] = $partNode; } else { $nameNode = [ 'name', [ [ '@index', [ $argIndex++ ] ] ] ]; $valueNode = [ 'value', $part->out ]; $partNode = [ 'part', [ $nameNode, $valueNode ] ]; $children[] = $partNode; } } $element = [ [ $name, $children ] ]; } # Advance input pointer $i += $matchingCount; # Unwind the stack $stack->pop(); $accum =& $stack->getAccum(); # Re-add the old stack element if it still has unmatched opening characters remaining if ( $matchingCount < $piece->count ) { $piece->parts = [ new PPDPart_Hash ]; $piece->count -= $matchingCount; # do we still qualify for any callback with remaining count? $min = $this->rules[$piece->open]['min']; if ( $piece->count >= $min ) { $stack->push( $piece ); $accum =& $stack->getAccum(); } elseif ( $piece->count == 1 && $piece->open === '{' && $piece->savedPrefix === '-' ) { $piece->savedPrefix = ''; $piece->open = '-{'; $piece->count = 2; $piece->close = $this->rules[$piece->open]['end']; $stack->push( $piece ); $accum =& $stack->getAccum(); } else { $s = substr( $piece->open, 0, -1 ); $s .= str_repeat( substr( $piece->open, -1 ), $piece->count - strlen( $s ) ); self::addLiteral( $accum, $piece->savedPrefix . $s ); } } elseif ( $piece->savedPrefix !== '' ) { self::addLiteral( $accum, $piece->savedPrefix ); } $stackFlags = $stack->getFlags(); if ( isset( $stackFlags['findEquals'] ) ) { $findEquals = $stackFlags['findEquals']; } if ( isset( $stackFlags['findPipe'] ) ) { $findPipe = $stackFlags['findPipe']; } if ( isset( $stackFlags['inHeading'] ) ) { $inHeading = $stackFlags['inHeading']; } # Add XML element to the enclosing accumulator array_splice( $accum, count( $accum ), 0, $element ); } elseif ( $found == 'pipe' ) { $findEquals = true; // shortcut for getFlags() $stack->addPart(); $accum =& $stack->getAccum(); ++$i; } elseif ( $found == 'equals' ) { $findEquals = false; // shortcut for getFlags() $accum[] = [ 'equals', [ '=' ] ]; $stack->getCurrentPart()->eqpos = count( $accum ) - 1; ++$i; } } # Output any remaining unclosed brackets foreach ( $stack->stack as $piece ) { array_splice( $stack->rootAccum, count( $stack->rootAccum ), 0, $piece->breakSyntax() ); } # Enable top-level headings foreach ( $stack->rootAccum as &$node ) { if ( is_array( $node ) && $node[PPNode_Hash_Tree::NAME] === 'possible-h' ) { $node[PPNode_Hash_Tree::NAME] = 'h'; } } $rootStore = [ [ 'root', $stack->rootAccum ] ]; $rootNode = new PPNode_Hash_Tree( $rootStore, 0 ); // Cache $tree = json_encode( $rootStore, JSON_UNESCAPED_SLASHES | JSON_UNESCAPED_UNICODE ); if ( $tree !== false ) { $this->cacheSetTree( $text, $flags, $tree ); } return $rootNode; } private static function addLiteral( array &$accum, $text ) { $n = count( $accum ); if ( $n && is_string( $accum[$n - 1] ) ) { $accum[$n - 1] .= $text; } else { $accum[] = $text; } } } /** * Stack class to help Preprocessor::preprocessToObj() * @ingroup Parser */ // phpcs:ignore Squiz.Classes.ValidClassName.NotCamelCaps class PPDStack_Hash extends PPDStack { public function __construct() { $this->elementClass = PPDStackElement_Hash::class; parent::__construct(); $this->rootAccum = []; } } /** * @ingroup Parser */ // phpcs:ignore Squiz.Classes.ValidClassName.NotCamelCaps class PPDStackElement_Hash extends PPDStackElement { public function __construct( $data = [] ) { $this->partClass = PPDPart_Hash::class; parent::__construct( $data ); } /** * Get the accumulator that would result if the close is not found. * * @param int|bool $openingCount * @return array */ public function breakSyntax( $openingCount = false ) { if ( $this->open == "\n" ) { $accum = array_merge( [ $this->savedPrefix ], $this->parts[0]->out ); } else { if ( $openingCount === false ) { $openingCount = $this->count; } $s = substr( $this->open, 0, -1 ); $s .= str_repeat( substr( $this->open, -1 ), $openingCount - strlen( $s ) ); $accum = [ $this->savedPrefix . $s ]; $lastIndex = 0; $first = true; foreach ( $this->parts as $part ) { if ( $first ) { $first = false; } elseif ( is_string( $accum[$lastIndex] ) ) { $accum[$lastIndex] .= '|'; } else { $accum[++$lastIndex] = '|'; } foreach ( $part->out as $node ) { if ( is_string( $node ) && is_string( $accum[$lastIndex] ) ) { $accum[$lastIndex] .= $node; } else { $accum[++$lastIndex] = $node; } } } } return $accum; } } /** * @ingroup Parser */ // phpcs:ignore Squiz.Classes.ValidClassName.NotCamelCaps class PPDPart_Hash extends PPDPart { public function __construct( $out = '' ) { if ( $out !== '' ) { $accum = [ $out ]; } else { $accum = []; } parent::__construct( $accum ); } } /** * An expansion frame, used as a context to expand the result of preprocessToObj() * @ingroup Parser */ // phpcs:ignore Squiz.Classes.ValidClassName.NotCamelCaps class PPFrame_Hash implements PPFrame { /** * @var Parser */ public $parser; /** * @var Preprocessor */ public $preprocessor; /** * @var Title */ public $title; public $titleCache; /** * Hashtable listing templates which are disallowed for expansion in this frame, * having been encountered previously in parent frames. */ public $loopCheckHash; /** * Recursion depth of this frame, top = 0 * Note that this is NOT the same as expansion depth in expand() */ public $depth; private $volatile = false; private $ttl = null; /** * @var array */ protected $childExpansionCache; /** * Construct a new preprocessor frame. * @param Preprocessor $preprocessor The parent preprocessor */ public function __construct( $preprocessor ) { $this->preprocessor = $preprocessor; $this->parser = $preprocessor->parser; $this->title = $this->parser->mTitle; $this->titleCache = [ $this->title ? $this->title->getPrefixedDBkey() : false ]; $this->loopCheckHash = []; $this->depth = 0; $this->childExpansionCache = []; } /** * Create a new child frame * $args is optionally a multi-root PPNode or array containing the template arguments * * @param array|bool|PPNode_Hash_Array $args * @param Title|bool $title * @param int $indexOffset * @throws MWException * @return PPTemplateFrame_Hash */ public function newChild( $args = false, $title = false, $indexOffset = 0 ) { $namedArgs = []; $numberedArgs = []; if ( $title === false ) { $title = $this->title; } if ( $args !== false ) { if ( $args instanceof PPNode_Hash_Array ) { $args = $args->value; } elseif ( !is_array( $args ) ) { throw new MWException( __METHOD__ . ': $args must be array or PPNode_Hash_Array' ); } foreach ( $args as $arg ) { $bits = $arg->splitArg(); if ( $bits['index'] !== '' ) { // Numbered parameter $index = $bits['index'] - $indexOffset; if ( isset( $namedArgs[$index] ) || isset( $numberedArgs[$index] ) ) { $this->parser->getOutput()->addWarning( wfMessage( 'duplicate-args-warning', wfEscapeWikiText( $this->title ), wfEscapeWikiText( $title ), wfEscapeWikiText( $index ) )->text() ); $this->parser->addTrackingCategory( 'duplicate-args-category' ); } $numberedArgs[$index] = $bits['value']; unset( $namedArgs[$index] ); } else { // Named parameter $name = trim( $this->expand( $bits['name'], PPFrame::STRIP_COMMENTS ) ); if ( isset( $namedArgs[$name] ) || isset( $numberedArgs[$name] ) ) { $this->parser->getOutput()->addWarning( wfMessage( 'duplicate-args-warning', wfEscapeWikiText( $this->title ), wfEscapeWikiText( $title ), wfEscapeWikiText( $name ) )->text() ); $this->parser->addTrackingCategory( 'duplicate-args-category' ); } $namedArgs[$name] = $bits['value']; unset( $numberedArgs[$name] ); } } } return new PPTemplateFrame_Hash( $this->preprocessor, $this, $numberedArgs, $namedArgs, $title ); } /** * @throws MWException * @param string|int $key * @param string|PPNode $root * @param int $flags * @return string */ public function cachedExpand( $key, $root, $flags = 0 ) { // we don't have a parent, so we don't have a cache return $this->expand( $root, $flags ); } /** * @throws MWException * @param string|PPNode $root * @param int $flags * @return string */ public function expand( $root, $flags = 0 ) { static $expansionDepth = 0; if ( is_string( $root ) ) { return $root; } if ( ++$this->parser->mPPNodeCount > $this->parser->mOptions->getMaxPPNodeCount() ) { $this->parser->limitationWarn( 'node-count-exceeded', $this->parser->mPPNodeCount, $this->parser->mOptions->getMaxPPNodeCount() ); return 'Node-count limit exceeded'; } if ( $expansionDepth > $this->parser->mOptions->getMaxPPExpandDepth() ) { $this->parser->limitationWarn( 'expansion-depth-exceeded', $expansionDepth, $this->parser->mOptions->getMaxPPExpandDepth() ); return 'Expansion depth limit exceeded'; } ++$expansionDepth; if ( $expansionDepth > $this->parser->mHighestExpansionDepth ) { $this->parser->mHighestExpansionDepth = $expansionDepth; } $outStack = [ '', '' ]; $iteratorStack = [ false, $root ]; $indexStack = [ 0, 0 ]; while ( count( $iteratorStack ) > 1 ) { $level = count( $outStack ) - 1; $iteratorNode =& $iteratorStack[$level]; $out =& $outStack[$level]; $index =& $indexStack[$level]; if ( is_array( $iteratorNode ) ) { if ( $index >= count( $iteratorNode ) ) { // All done with this iterator $iteratorStack[$level] = false; $contextNode = false; } else { $contextNode = $iteratorNode[$index]; $index++; } } elseif ( $iteratorNode instanceof PPNode_Hash_Array ) { if ( $index >= $iteratorNode->getLength() ) { // All done with this iterator $iteratorStack[$level] = false; $contextNode = false; } else { $contextNode = $iteratorNode->item( $index ); $index++; } } else { // Copy to $contextNode and then delete from iterator stack, // because this is not an iterator but we do have to execute it once $contextNode = $iteratorStack[$level]; $iteratorStack[$level] = false; } $newIterator = false; $contextName = false; $contextChildren = false; if ( $contextNode === false ) { // nothing to do } elseif ( is_string( $contextNode ) ) { $out .= $contextNode; } elseif ( $contextNode instanceof PPNode_Hash_Array ) { $newIterator = $contextNode; } elseif ( $contextNode instanceof PPNode_Hash_Attr ) { // No output } elseif ( $contextNode instanceof PPNode_Hash_Text ) { $out .= $contextNode->value; } elseif ( $contextNode instanceof PPNode_Hash_Tree ) { $contextName = $contextNode->name; $contextChildren = $contextNode->getRawChildren(); } elseif ( is_array( $contextNode ) ) { // Node descriptor array if ( count( $contextNode ) !== 2 ) { throw new MWException( __METHOD__. ': found an array where a node descriptor should be' ); } list( $contextName, $contextChildren ) = $contextNode; } else { throw new MWException( __METHOD__ . ': Invalid parameter type' ); } // Handle node descriptor array or tree object if ( $contextName === false ) { // Not a node, already handled above } elseif ( $contextName[0] === '@' ) { // Attribute: no output } elseif ( $contextName === 'template' ) { # Double-brace expansion $bits = PPNode_Hash_Tree::splitRawTemplate( $contextChildren ); if ( $flags & PPFrame::NO_TEMPLATES ) { $newIterator = $this->virtualBracketedImplode( '{{', '|', '}}', $bits['title'], $bits['parts'] ); } else { $ret = $this->parser->braceSubstitution( $bits, $this ); if ( isset( $ret['object'] ) ) { $newIterator = $ret['object']; } else { $out .= $ret['text']; } } } elseif ( $contextName === 'tplarg' ) { # Triple-brace expansion $bits = PPNode_Hash_Tree::splitRawTemplate( $contextChildren ); if ( $flags & PPFrame::NO_ARGS ) { $newIterator = $this->virtualBracketedImplode( '{{{', '|', '}}}', $bits['title'], $bits['parts'] ); } else { $ret = $this->parser->argSubstitution( $bits, $this ); if ( isset( $ret['object'] ) ) { $newIterator = $ret['object']; } else { $out .= $ret['text']; } } } elseif ( $contextName === 'comment' ) { # HTML-style comment # Remove it in HTML, pre+remove and STRIP_COMMENTS modes # Not in RECOVER_COMMENTS mode (msgnw) though. if ( ( $this->parser->ot['html'] || ( $this->parser->ot['pre'] && $this->parser->mOptions->getRemoveComments() ) || ( $flags & PPFrame::STRIP_COMMENTS ) ) && !( $flags & PPFrame::RECOVER_COMMENTS ) ) { $out .= ''; } elseif ( $this->parser->ot['wiki'] && !( $flags & PPFrame::RECOVER_COMMENTS ) ) { # Add a strip marker in PST mode so that pstPass2() can # run some old-fashioned regexes on the result. # Not in RECOVER_COMMENTS mode (extractSections) though. $out .= $this->parser->insertStripItem( $contextChildren[0] ); } else { # Recover the literal comment in RECOVER_COMMENTS and pre+no-remove $out .= $contextChildren[0]; } } elseif ( $contextName === 'ignore' ) { # Output suppression used by etc. # OT_WIKI will only respect in substed templates. # The other output types respect it unless NO_IGNORE is set. # extractSections() sets NO_IGNORE and so never respects it. if ( ( !isset( $this->parent ) && $this->parser->ot['wiki'] ) || ( $flags & PPFrame::NO_IGNORE ) ) { $out .= $contextChildren[0]; } else { // $out .= ''; } } elseif ( $contextName === 'ext' ) { # Extension tag $bits = PPNode_Hash_Tree::splitRawExt( $contextChildren ) + [ 'attr' => null, 'inner' => null, 'close' => null ]; if ( $flags & PPFrame::NO_TAGS ) { $s = '<' . $bits['name']->getFirstChild()->value; if ( $bits['attr'] ) { $s .= $bits['attr']->getFirstChild()->value; } if ( $bits['inner'] ) { $s .= '>' . $bits['inner']->getFirstChild()->value; if ( $bits['close'] ) { $s .= $bits['close']->getFirstChild()->value; } } else { $s .= '/>'; } $out .= $s; } else { $out .= $this->parser->extensionSubstitution( $bits, $this ); } } elseif ( $contextName === 'h' ) { # Heading if ( $this->parser->ot['html'] ) { # Expand immediately and insert heading index marker $s = $this->expand( $contextChildren, $flags ); $bits = PPNode_Hash_Tree::splitRawHeading( $contextChildren ); $titleText = $this->title->getPrefixedDBkey(); $this->parser->mHeadings[] = [ $titleText, $bits['i'] ]; $serial = count( $this->parser->mHeadings ) - 1; $marker = Parser::MARKER_PREFIX . "-h-$serial-" . Parser::MARKER_SUFFIX; $s = substr( $s, 0, $bits['level'] ) . $marker . substr( $s, $bits['level'] ); $this->parser->mStripState->addGeneral( $marker, '' ); $out .= $s; } else { # Expand in virtual stack $newIterator = $contextChildren; } } else { # Generic recursive expansion $newIterator = $contextChildren; } if ( $newIterator !== false ) { $outStack[] = ''; $iteratorStack[] = $newIterator; $indexStack[] = 0; } elseif ( $iteratorStack[$level] === false ) { // Return accumulated value to parent // With tail recursion while ( $iteratorStack[$level] === false && $level > 0 ) { $outStack[$level - 1] .= $out; array_pop( $outStack ); array_pop( $iteratorStack ); array_pop( $indexStack ); $level--; } } } --$expansionDepth; return $outStack[0]; } /** * @param string $sep * @param int $flags * @param string|PPNode $args,... * @return string */ public function implodeWithFlags( $sep, $flags /*, ... */ ) { $args = array_slice( func_get_args(), 2 ); $first = true; $s = ''; foreach ( $args as $root ) { if ( $root instanceof PPNode_Hash_Array ) { $root = $root->value; } if ( !is_array( $root ) ) { $root = [ $root ]; } foreach ( $root as $node ) { if ( $first ) { $first = false; } else { $s .= $sep; } $s .= $this->expand( $node, $flags ); } } return $s; } /** * Implode with no flags specified * This previously called implodeWithFlags but has now been inlined to reduce stack depth * @param string $sep * @param string|PPNode $args,... * @return string */ public function implode( $sep /*, ... */ ) { $args = array_slice( func_get_args(), 1 ); $first = true; $s = ''; foreach ( $args as $root ) { if ( $root instanceof PPNode_Hash_Array ) { $root = $root->value; } if ( !is_array( $root ) ) { $root = [ $root ]; } foreach ( $root as $node ) { if ( $first ) { $first = false; } else { $s .= $sep; } $s .= $this->expand( $node ); } } return $s; } /** * Makes an object that, when expand()ed, will be the same as one obtained * with implode() * * @param string $sep * @param string|PPNode $args,... * @return PPNode_Hash_Array */ public function virtualImplode( $sep /*, ... */ ) { $args = array_slice( func_get_args(), 1 ); $out = []; $first = true; foreach ( $args as $root ) { if ( $root instanceof PPNode_Hash_Array ) { $root = $root->value; } if ( !is_array( $root ) ) { $root = [ $root ]; } foreach ( $root as $node ) { if ( $first ) { $first = false; } else { $out[] = $sep; } $out[] = $node; } } return new PPNode_Hash_Array( $out ); } /** * Virtual implode with brackets * * @param string $start * @param string $sep * @param string $end * @param string|PPNode $args,... * @return PPNode_Hash_Array */ public function virtualBracketedImplode( $start, $sep, $end /*, ... */ ) { $args = array_slice( func_get_args(), 3 ); $out = [ $start ]; $first = true; foreach ( $args as $root ) { if ( $root instanceof PPNode_Hash_Array ) { $root = $root->value; } if ( !is_array( $root ) ) { $root = [ $root ]; } foreach ( $root as $node ) { if ( $first ) { $first = false; } else { $out[] = $sep; } $out[] = $node; } } $out[] = $end; return new PPNode_Hash_Array( $out ); } public function __toString() { return 'frame{}'; } /** * @param bool $level * @return array|bool|string */ public function getPDBK( $level = false ) { if ( $level === false ) { return $this->title->getPrefixedDBkey(); } else { return isset( $this->titleCache[$level] ) ? $this->titleCache[$level] : false; } } /** * @return array */ public function getArguments() { return []; } /** * @return array */ public function getNumberedArguments() { return []; } /** * @return array */ public function getNamedArguments() { return []; } /** * Returns true if there are no arguments in this frame * * @return bool */ public function isEmpty() { return true; } /** * @param int|string $name * @return bool Always false in this implementation. */ public function getArgument( $name ) { return false; } /** * Returns true if the infinite loop check is OK, false if a loop is detected * * @param Title $title * * @return bool */ public function loopCheck( $title ) { return !isset( $this->loopCheckHash[$title->getPrefixedDBkey()] ); } /** * Return true if the frame is a template frame * * @return bool */ public function isTemplate() { return false; } /** * Get a title of frame * * @return Title */ public function getTitle() { return $this->title; } /** * Set the volatile flag * * @param bool $flag */ public function setVolatile( $flag = true ) { $this->volatile = $flag; } /** * Get the volatile flag * * @return bool */ public function isVolatile() { return $this->volatile; } /** * Set the TTL * * @param int $ttl */ public function setTTL( $ttl ) { if ( $ttl !== null && ( $this->ttl === null || $ttl < $this->ttl ) ) { $this->ttl = $ttl; } } /** * Get the TTL * * @return int|null */ public function getTTL() { return $this->ttl; } } /** * Expansion frame with template arguments * @ingroup Parser */ // phpcs:ignore Squiz.Classes.ValidClassName.NotCamelCaps class PPTemplateFrame_Hash extends PPFrame_Hash { public $numberedArgs, $namedArgs, $parent; public $numberedExpansionCache, $namedExpansionCache; /** * @param Preprocessor $preprocessor * @param bool|PPFrame $parent * @param array $numberedArgs * @param array $namedArgs * @param bool|Title $title */ public function __construct( $preprocessor, $parent = false, $numberedArgs = [], $namedArgs = [], $title = false ) { parent::__construct( $preprocessor ); $this->parent = $parent; $this->numberedArgs = $numberedArgs; $this->namedArgs = $namedArgs; $this->title = $title; $pdbk = $title ? $title->getPrefixedDBkey() : false; $this->titleCache = $parent->titleCache; $this->titleCache[] = $pdbk; $this->loopCheckHash = /*clone*/ $parent->loopCheckHash; if ( $pdbk !== false ) { $this->loopCheckHash[$pdbk] = true; } $this->depth = $parent->depth + 1; $this->numberedExpansionCache = $this->namedExpansionCache = []; } public function __toString() { $s = 'tplframe{'; $first = true; $args = $this->numberedArgs + $this->namedArgs; foreach ( $args as $name => $value ) { if ( $first ) { $first = false; } else { $s .= ', '; } $s .= "\"$name\":\"" . str_replace( '"', '\\"', $value->__toString() ) . '"'; } $s .= '}'; return $s; } /** * @throws MWException * @param string|int $key * @param string|PPNode $root * @param int $flags * @return string */ public function cachedExpand( $key, $root, $flags = 0 ) { if ( isset( $this->parent->childExpansionCache[$key] ) ) { return $this->parent->childExpansionCache[$key]; } $retval = $this->expand( $root, $flags ); if ( !$this->isVolatile() ) { $this->parent->childExpansionCache[$key] = $retval; } return $retval; } /** * Returns true if there are no arguments in this frame * * @return bool */ public function isEmpty() { return !count( $this->numberedArgs ) && !count( $this->namedArgs ); } /** * @return array */ public function getArguments() { $arguments = []; foreach ( array_merge( array_keys( $this->numberedArgs ), array_keys( $this->namedArgs ) ) as $key ) { $arguments[$key] = $this->getArgument( $key ); } return $arguments; } /** * @return array */ public function getNumberedArguments() { $arguments = []; foreach ( array_keys( $this->numberedArgs ) as $key ) { $arguments[$key] = $this->getArgument( $key ); } return $arguments; } /** * @return array */ public function getNamedArguments() { $arguments = []; foreach ( array_keys( $this->namedArgs ) as $key ) { $arguments[$key] = $this->getArgument( $key ); } return $arguments; } /** * @param int $index * @return string|bool */ public function getNumberedArgument( $index ) { if ( !isset( $this->numberedArgs[$index] ) ) { return false; } if ( !isset( $this->numberedExpansionCache[$index] ) ) { # No trimming for unnamed arguments $this->numberedExpansionCache[$index] = $this->parent->expand( $this->numberedArgs[$index], PPFrame::STRIP_COMMENTS ); } return $this->numberedExpansionCache[$index]; } /** * @param string $name * @return string|bool */ public function getNamedArgument( $name ) { if ( !isset( $this->namedArgs[$name] ) ) { return false; } if ( !isset( $this->namedExpansionCache[$name] ) ) { # Trim named arguments post-expand, for backwards compatibility $this->namedExpansionCache[$name] = trim( $this->parent->expand( $this->namedArgs[$name], PPFrame::STRIP_COMMENTS ) ); } return $this->namedExpansionCache[$name]; } /** * @param int|string $name * @return string|bool */ public function getArgument( $name ) { $text = $this->getNumberedArgument( $name ); if ( $text === false ) { $text = $this->getNamedArgument( $name ); } return $text; } /** * Return true if the frame is a template frame * * @return bool */ public function isTemplate() { return true; } public function setVolatile( $flag = true ) { parent::setVolatile( $flag ); $this->parent->setVolatile( $flag ); } public function setTTL( $ttl ) { parent::setTTL( $ttl ); $this->parent->setTTL( $ttl ); } } /** * Expansion frame with custom arguments * @ingroup Parser */ // phpcs:ignore Squiz.Classes.ValidClassName.NotCamelCaps class PPCustomFrame_Hash extends PPFrame_Hash { public $args; public function __construct( $preprocessor, $args ) { parent::__construct( $preprocessor ); $this->args = $args; } public function __toString() { $s = 'cstmframe{'; $first = true; foreach ( $this->args as $name => $value ) { if ( $first ) { $first = false; } else { $s .= ', '; } $s .= "\"$name\":\"" . str_replace( '"', '\\"', $value->__toString() ) . '"'; } $s .= '}'; return $s; } /** * @return bool */ public function isEmpty() { return !count( $this->args ); } /** * @param int|string $index * @return string|bool */ public function getArgument( $index ) { if ( !isset( $this->args[$index] ) ) { return false; } return $this->args[$index]; } public function getArguments() { return $this->args; } } /** * @ingroup Parser */ // phpcs:ignore Squiz.Classes.ValidClassName.NotCamelCaps class PPNode_Hash_Tree implements PPNode { public $name; /** * The store array for children of this node. It is "raw" in the sense that * nodes are two-element arrays ("descriptors") rather than PPNode_Hash_* * objects. */ private $rawChildren; /** * The store array for the siblings of this node, including this node itself. */ private $store; /** * The index into $this->store which contains the descriptor of this node. */ private $index; /** * The offset of the name within descriptors, used in some places for * readability. */ const NAME = 0; /** * The offset of the child list within descriptors, used in some places for * readability. */ const CHILDREN = 1; /** * Construct an object using the data from $store[$index]. The rest of the * store array can be accessed via getNextSibling(). * * @param array $store * @param int $index */ public function __construct( array $store, $index ) { $this->store = $store; $this->index = $index; list( $this->name, $this->rawChildren ) = $this->store[$index]; } /** * Construct an appropriate PPNode_Hash_* object with a class that depends * on what is at the relevant store index. * * @param array $store * @param int $index * @return PPNode_Hash_Tree|PPNode_Hash_Attr|PPNode_Hash_Text */ public static function factory( array $store, $index ) { if ( !isset( $store[$index] ) ) { return false; } $descriptor = $store[$index]; if ( is_string( $descriptor ) ) { $class = PPNode_Hash_Text::class; } elseif ( is_array( $descriptor ) ) { if ( $descriptor[self::NAME][0] === '@' ) { $class = PPNode_Hash_Attr::class; } else { $class = self::class; } } else { throw new MWException( __METHOD__.': invalid node descriptor' ); } return new $class( $store, $index ); } /** * Convert a node to XML, for debugging */ public function __toString() { $inner = ''; $attribs = ''; for ( $node = $this->getFirstChild(); $node; $node = $node->getNextSibling() ) { if ( $node instanceof PPNode_Hash_Attr ) { $attribs .= ' ' . $node->name . '="' . htmlspecialchars( $node->value ) . '"'; } else { $inner .= $node->__toString(); } } if ( $inner === '' ) { return "<{$this->name}$attribs/>"; } else { return "<{$this->name}$attribs>$innername}>"; } } /** * @return PPNode_Hash_Array */ public function getChildren() { $children = []; foreach ( $this->rawChildren as $i => $child ) { $children[] = self::factory( $this->rawChildren, $i ); } return new PPNode_Hash_Array( $children ); } /** * Get the first child, or false if there is none. Note that this will * return a temporary proxy object: different instances will be returned * if this is called more than once on the same node. * * @return PPNode_Hash_Tree|PPNode_Hash_Attr|PPNode_Hash_Text|bool */ public function getFirstChild() { if ( !isset( $this->rawChildren[0] ) ) { return false; } else { return self::factory( $this->rawChildren, 0 ); } } /** * Get the next sibling, or false if there is none. Note that this will * return a temporary proxy object: different instances will be returned * if this is called more than once on the same node. * * @return PPNode_Hash_Tree|PPNode_Hash_Attr|PPNode_Hash_Text|bool */ public function getNextSibling() { return self::factory( $this->store, $this->index + 1 ); } /** * Get an array of the children with a given node name * * @param string $name * @return PPNode_Hash_Array */ public function getChildrenOfType( $name ) { $children = []; foreach ( $this->rawChildren as $i => $child ) { if ( is_array( $child ) && $child[self::NAME] === $name ) { $children[] = self::factory( $this->rawChildren, $i ); } } return new PPNode_Hash_Array( $children ); } /** * Get the raw child array. For internal use. * @return array */ public function getRawChildren() { return $this->rawChildren; } /** * @return bool */ public function getLength() { return false; } /** * @param int $i * @return bool */ public function item( $i ) { return false; } /** * @return string */ public function getName() { return $this->name; } /** * Split a "" node into an associative array containing: * - name PPNode name * - index String index * - value PPNode value * * @throws MWException * @return array */ public function splitArg() { return self::splitRawArg( $this->rawChildren ); } /** * Like splitArg() but for a raw child array. For internal use only. * @param array $children * @return array */ public static function splitRawArg( array $children ) { $bits = []; foreach ( $children as $i => $child ) { if ( !is_array( $child ) ) { continue; } if ( $child[self::NAME] === 'name' ) { $bits['name'] = new self( $children, $i ); if ( isset( $child[self::CHILDREN][0][self::NAME] ) && $child[self::CHILDREN][0][self::NAME] === '@index' ) { $bits['index'] = $child[self::CHILDREN][0][self::CHILDREN][0]; } } elseif ( $child[self::NAME] === 'value' ) { $bits['value'] = new self( $children, $i ); } } if ( !isset( $bits['name'] ) ) { throw new MWException( 'Invalid brace node passed to ' . __METHOD__ ); } if ( !isset( $bits['index'] ) ) { $bits['index'] = ''; } return $bits; } /** * Split an "" node into an associative array containing name, attr, inner and close * All values in the resulting array are PPNodes. Inner and close are optional. * * @throws MWException * @return array */ public function splitExt() { return self::splitRawExt( $this->rawChildren ); } /** * Like splitExt() but for a raw child array. For internal use only. * @param array $children * @return array */ public static function splitRawExt( array $children ) { $bits = []; foreach ( $children as $i => $child ) { if ( !is_array( $child ) ) { continue; } switch ( $child[self::NAME] ) { case 'name': $bits['name'] = new self( $children, $i ); break; case 'attr': $bits['attr'] = new self( $children, $i ); break; case 'inner': $bits['inner'] = new self( $children, $i ); break; case 'close': $bits['close'] = new self( $children, $i ); break; } } if ( !isset( $bits['name'] ) ) { throw new MWException( 'Invalid ext node passed to ' . __METHOD__ ); } return $bits; } /** * Split an "" node * * @throws MWException * @return array */ public function splitHeading() { if ( $this->name !== 'h' ) { throw new MWException( 'Invalid h node passed to ' . __METHOD__ ); } return self::splitRawHeading( $this->rawChildren ); } /** * Like splitHeading() but for a raw child array. For internal use only. * @param array $children * @return array */ public static function splitRawHeading( array $children ) { $bits = []; foreach ( $children as $i => $child ) { if ( !is_array( $child ) ) { continue; } if ( $child[self::NAME] === '@i' ) { $bits['i'] = $child[self::CHILDREN][0]; } elseif ( $child[self::NAME] === '@level' ) { $bits['level'] = $child[self::CHILDREN][0]; } } if ( !isset( $bits['i'] ) ) { throw new MWException( 'Invalid h node passed to ' . __METHOD__ ); } return $bits; } /** * Split a "