'use strict'; /* global $:off */ /** * @constant */ var NEW_TOPIC_COMMENT_ID = 'new|' + mw.config.get( 'wgRelevantPageName' ); /** * @param {Node} node * @return {boolean} Node is a block element */ function isBlockElement( node ) { return node instanceof HTMLElement && ve.isBlockElement( node ); } var solTransparentLinkRegexp = /(?:^|\s)mw:PageProp\/(?:Category|redirect|Language)(?=$|\s)/; /** * @param {Node} node * @return {boolean} Node is considered a rendering-transparent node in Parsoid */ function isRenderingTransparentNode( node ) { var nextSibling = node.nextSibling; return ( node.nodeType === Node.COMMENT_NODE || node.nodeType === Node.ELEMENT_NODE && ( node.tagName.toLowerCase() === 'meta' || ( node.tagName.toLowerCase() === 'link' && solTransparentLinkRegexp.test( node.getAttribute( 'rel' ) || '' ) ) || // Empty inline templates, e.g. tracking templates ( node.tagName.toLowerCase() === 'span' && ( node.getAttribute( 'typeof' ) || '' ).split( ' ' ).indexOf( 'mw:Transclusion' ) !== -1 && !htmlTrim( node.innerHTML ) && ( !nextSibling || nextSibling.nodeType !== Node.ELEMENT_NODE || // Maybe we should be checking all of the about-grouped nodes to see if they're empty, // but that's prooobably not needed in practice, and it leads to a quadratic worst case. nextSibling.getAttribute( 'about' ) !== node.getAttribute( 'about' ) ) ) ) ); } /** * @param {Node} node * @return {boolean} Node was added to the page by DiscussionTools */ function isOurGeneratedNode( node ) { return node.nodeType === Node.ELEMENT_NODE && ( node.classList.contains( 'ext-discussiontools-init-replylink-buttons' ) || node.hasAttribute( 'data-mw-comment-start' ) || node.hasAttribute( 'data-mw-comment-end' ) ); } // Elements which can't have element children (but some may have text content). var noElementChildrenElementTypes = [ // https://html.spec.whatwg.org/multipage/syntax.html#elements-2 // Void elements 'area', 'base', 'br', 'col', 'embed', 'hr', 'img', 'input', 'link', 'meta', 'param', 'source', 'track', 'wbr', // Raw text elements 'script', 'style', // Escapable raw text elements 'textarea', 'title', // Foreign elements 'math', 'svg', // Treated like text when scripting is enabled in the parser // https://html.spec.whatwg.org/#the-noscript-element 'noscript', // Replaced elements (that aren't already included above) // https://html.spec.whatwg.org/multipage/rendering.html#replaced-elements // They might allow element children, but they aren't rendered on the page. 'audio', 'canvas', 'iframe', 'object', 'video' ]; /** * @param {Node} node * @return {boolean} If true, node can't have element children. If false, it's complicated. */ function cantHaveElementChildren( node ) { return ( node.nodeType === Node.COMMENT_NODE || node.nodeType === Node.ELEMENT_NODE && ( noElementChildrenElementTypes.indexOf( node.tagName.toLowerCase() ) !== -1 || // Thumbnail wrappers generated by MediaTransformOutput::linkWrap (T301427), // for compatibility with TimedMediaHandler. // There is no better way to detect them, and we can't insert markers here, // because the media DOM CSS depends on specific tag names and their order :( // TODO See if we can remove this condition when wgParserEnableLegacyMediaDOM=false // is enabled everywhere. ( [ 'a', 'span' ].indexOf( node.tagName.toLowerCase() ) !== -1 && node.firstChild && cantHaveElementChildren( node.firstChild ) ) || // Do not insert anything inside figures when using wgParserEnableLegacyMediaDOM=false, // because their CSS can't handle it (T320285). node.tagName.toLowerCase() === 'figure' ) ); } /** * Check whether the node is a comment separator (instead of a part of the comment). * * @param {Node} node * @return {boolean} */ function isCommentSeparator( node ) { if ( node.nodeType !== Node.ELEMENT_NODE ) { return false; } var tagName = node.tagName.toLowerCase(); if ( tagName === 'br' || tagName === 'hr' ) { return true; } // TemplateStyles followed by any of the others if ( node.nextSibling && ( tagName === 'link' || tagName === 'style' ) && isCommentSeparator( node.nextSibling ) ) { return true; } var classList = node.classList; if ( // Anything marked as not containing comments classList.contains( 'mw-notalk' ) || // {{outdent}} templates classList.contains( 'outdent-template' ) || // {{tracked}} templates (T313097) classList.contains( 'mw-trackedTemplate' ) ) { return true; } // Wikitext definition list term markup (`;`) when used as a fake heading (T265964) if ( tagName === 'dl' && node.childNodes.length === 1 && node.firstChild.nodeType === Node.ELEMENT_NODE && node.firstChild.nodeName.toLowerCase() === 'dt' ) { return true; } return false; } /** * Check whether the node is a comment content. It's a little vague what this means… * * @param {Node} node Node, should be a leaf node (a node with no children) * @return {boolean} */ function isCommentContent( node ) { return ( ( node.nodeType === Node.TEXT_NODE && htmlTrim( node.textContent ) !== '' ) || ( cantHaveElementChildren( node ) ) ); } /** * Get the index of a node in its parentNode's childNode list * * @param {Node} child * @return {number} Index in parentNode's childNode list */ function childIndexOf( child ) { var i = 0; while ( ( child = child.previousSibling ) ) { i++; } return i; } /** * Find closest ancestor element using one of the given tag names. * * @param {Node} node * @param {string[]} tagNames * @return {HTMLElement|null} */ function closestElement( node, tagNames ) { do { if ( node.nodeType === Node.ELEMENT_NODE && tagNames.indexOf( node.tagName.toLowerCase() ) !== -1 ) { return node; } node = node.parentNode; } while ( node ); return null; } /** * Find the transclusion node which rendered the current node, if it exists. * * 1. Find the closest ancestor with an 'about' attribute * 2. Find the main node of the about-group (first sibling with the same 'about' attribute) * 3. If this is an mw:Transclusion node, return it; otherwise, go to step 1 * * @param {Node} node * @return {HTMLElement|null} Transclusion node, null if not found */ function getTranscludedFromElement( node ) { while ( node ) { // 1. if ( node.nodeType === Node.ELEMENT_NODE && node.getAttribute( 'about' ) && /^#mwt\d+$/.test( node.getAttribute( 'about' ) ) ) { var about = node.getAttribute( 'about' ); // 2. while ( node.previousSibling && node.previousSibling.nodeType === Node.ELEMENT_NODE && node.previousSibling.getAttribute( 'about' ) === about ) { node = node.previousSibling; } // 3. if ( node.getAttribute( 'typeof' ) && node.getAttribute( 'typeof' ).split( ' ' ).indexOf( 'mw:Transclusion' ) !== -1 ) { break; } } node = node.parentNode; } return node; } /** * Given a heading node, return the node on which the ID attribute is set. * * Also returns the offset within that node where the heading text starts. * * @param {HTMLElement} heading Heading node (`

`-`

`) * @return {Array} Array containing a 'node' (HTMLElement) and offset (number) */ function getHeadlineNodeAndOffset( heading ) { // This code assumes that $wgFragmentMode is [ 'html5', 'legacy' ] or [ 'html5' ] var headline = heading, offset = 0; if ( headline.hasAttribute( 'data-mw-comment-start' ) ) { headline = headline.parentNode; } if ( !headline.getAttribute( 'id' ) ) { // PHP HTML: Find the child with .mw-headline headline = headline.querySelector( '.mw-headline' ); if ( !headline ) { headline = heading; } } return { node: headline, offset: offset }; } /** * Trim ASCII whitespace, as defined in the HTML spec. * * @param {string} str * @return {string} */ function htmlTrim( str ) { // https://infra.spec.whatwg.org/#ascii-whitespace return str.replace( /^[\t\n\f\r ]+/, '' ).replace( /[\t\n\f\r ]+$/, '' ); } /** * Get the indent level of the node, relative to rootNode. * * The indent level is the number of lists inside of which it is nested. * * @private * @param {Node} node * @param {Element} rootNode * @return {number} */ function getIndentLevel( node, rootNode ) { var indent = 0; while ( node ) { if ( node === rootNode ) { break; } var tagName = node instanceof HTMLElement ? node.tagName.toLowerCase() : null; if ( tagName === 'li' || tagName === 'dd' ) { indent++; } node = node.parentNode; } return indent; } /** * Get an array of sibling nodes that contain parts of the given range. * * @param {Range} range * @return {Node[]} */ function getCoveredSiblings( range ) { var ancestor = range.commonAncestorContainer; var siblings = ancestor.childNodes; var start = 0; var end = siblings.length - 1; // Find first of the siblings that contains the item if ( ancestor === range.startContainer ) { start = range.startOffset; } else { while ( !siblings[ start ].contains( range.startContainer ) ) { start++; } } // Find last of the siblings that contains the item if ( ancestor === range.endContainer ) { end = range.endOffset - 1; } else { while ( !siblings[ end ].contains( range.endContainer ) ) { end--; } } return Array.prototype.slice.call( siblings, start, end + 1 ); } /** * Get the nodes (if any) that contain the given thread item, and nothing else. * * @param {ThreadItem} item Thread item * @param {Node} [excludedAncestorNode] Node that shouldn't be included in the result, even if it * contains the item and nothing else. This is intended to avoid traversing outside of a node * which is a container for all the thread items. * @return {Node[]|null} */ function getFullyCoveredSiblings( item, excludedAncestorNode ) { var siblings = getCoveredSiblings( item.getRange() ); function makeRange( sibs ) { var range = sibs[ 0 ].ownerDocument.createRange(); range.setStartBefore( sibs[ 0 ] ); range.setEndAfter( sibs[ sibs.length - 1 ] ); return range; } var matches = compareRanges( makeRange( siblings ), item.getRange() ) === 'equal'; if ( matches ) { // If these are all of the children (or the only child), go up one more level var parent; while ( ( parent = siblings[ 0 ].parentNode ) && parent !== excludedAncestorNode && compareRanges( makeRange( [ parent ] ), item.getRange() ) === 'equal' ) { siblings = [ parent ]; } return siblings; } return null; } /** * Get a MediaWiki page title from a URL. * * @private * @param {string} url Absolute URL * @return {string|null} Page title, or null if this isn't a link to a page */ function getTitleFromUrl( url ) { if ( !url ) { return null; } var parsedUrl = new URL( url ); if ( parsedUrl.searchParams.get( 'title' ) ) { return parsedUrl.searchParams.get( 'title' ); } // wgArticlePath is site config so is trusted // eslint-disable-next-line security/detect-non-literal-regexp var articlePathRegexp = new RegExp( mw.util.escapeRegExp( mw.config.get( 'wgArticlePath' ) ) .replace( '\\$1', '(.*)' ) ); var match; if ( ( match = parsedUrl.pathname.match( articlePathRegexp ) ) ) { return decodeURIComponent( match[ 1 ] ); } return null; } /** * Traverse the document in depth-first order, calling the callback whenever entering and leaving * a node. The walk starts before the given node and ends when callback returns a truthy value, or * after reaching the end of the document. * * You might also think about this as processing XML token stream linearly (rather than XML * nodes), as if we were parsing the document. * * @param {Node} node Node to start at * @param {Function} callback Function accepting two arguments: `event` ('enter' or 'leave') and * `node` (DOMNode) * @return {Mixed} Final return value of the callback */ function linearWalk( node, callback ) { var result = null, withinNode = node.parentNode, beforeNode = node; while ( beforeNode || withinNode ) { if ( beforeNode ) { result = callback( 'enter', beforeNode ); withinNode = beforeNode; beforeNode = beforeNode.firstChild; } else { result = callback( 'leave', withinNode ); beforeNode = withinNode.nextSibling; withinNode = withinNode.parentNode; } if ( result ) { return result; } } return result; } /** * Like #linearWalk, but it goes backwards. * * @inheritdoc #linearWalk */ function linearWalkBackwards( node, callback ) { var result = null, withinNode = node.parentNode, beforeNode = node; while ( beforeNode || withinNode ) { if ( beforeNode ) { result = callback( 'enter', beforeNode ); withinNode = beforeNode; beforeNode = beforeNode.lastChild; } else { result = callback( 'leave', withinNode ); beforeNode = withinNode.previousSibling; withinNode = withinNode.parentNode; } if ( result ) { return result; } } return result; } /** * @param {Range} range * @return {Node} */ function getRangeFirstNode( range ) { return range.startContainer.childNodes.length ? range.startContainer.childNodes[ range.startOffset ] : range.startContainer; } /** * @param {Range} range * @return {Node} */ function getRangeLastNode( range ) { return range.endContainer.childNodes.length ? range.endContainer.childNodes[ range.endOffset - 1 ] : range.endContainer; } /** * Check whether two ranges overlap, and how. * * Includes a hack to check for "almost equal" ranges (whose start/end boundaries only differ by * "uninteresting" nodes that we ignore when detecting comments), and treat them as equal. * * Illustration of return values: * [ equal ] * |[ contained ]| * [ | contains | ] * [overlap|start] | * | [overlap|end] * [before] | | * | | [after] * * @param {Range} a * @param {Range} b * @return {string} One of: * - 'equal': Ranges A and B are equal * - 'contains': Range A contains range B * - 'contained': Range A is contained within range B * - 'after': Range A is before range B * - 'before': Range A is after range B * - 'overlapstart': Start of range A overlaps range B * - 'overlapend': End of range A overlaps range B */ function compareRanges( a, b ) { // Compare the positions of: start of A to start of B, start of A to end of B, and so on. // Watch out, the constant names are the opposite of what they should be. var startToStart = a.compareBoundaryPoints( Range.START_TO_START, b ); var startToEnd = a.compareBoundaryPoints( Range.END_TO_START, b ); var endToStart = a.compareBoundaryPoints( Range.START_TO_END, b ); var endToEnd = a.compareBoundaryPoints( Range.END_TO_END, b ); // Check for almost equal ranges (boundary points only differing by uninteresting nodes) if ( ( startToStart < 0 && compareRangesAlmostEqualBoundaries( a, b, 'start' ) ) || ( startToStart > 0 && compareRangesAlmostEqualBoundaries( b, a, 'start' ) ) ) { startToStart = 0; } if ( ( endToEnd < 0 && compareRangesAlmostEqualBoundaries( a, b, 'end' ) ) || ( endToEnd > 0 && compareRangesAlmostEqualBoundaries( b, a, 'end' ) ) ) { endToEnd = 0; } if ( startToStart === 0 && endToEnd === 0 ) { return 'equal'; } if ( startToStart <= 0 && endToEnd >= 0 ) { return 'contains'; } if ( startToStart >= 0 && endToEnd <= 0 ) { return 'contained'; } if ( startToEnd >= 0 ) { return 'after'; } if ( endToStart <= 0 ) { return 'before'; } if ( startToStart > 0 && startToEnd < 0 && endToEnd >= 0 ) { return 'overlapstart'; } if ( endToEnd < 0 && endToStart > 0 && startToStart <= 0 ) { return 'overlapend'; } throw new Error( 'Unreachable' ); } /** * Check if the given boundary points of ranges A and B are almost equal (only differing by * uninteresting nodes). * * Boundary of A must be before the boundary of B in the tree. * * @param {Range} a * @param {Range} b * @param {string} boundary 'start' or 'end' * @return {boolean} */ function compareRangesAlmostEqualBoundaries( a, b, boundary ) { // This code is awful, but several attempts to rewrite it made it even worse. // You're welcome to give it a try. var from = boundary === 'end' ? getRangeLastNode( a ) : getRangeFirstNode( a ); var to = boundary === 'end' ? getRangeLastNode( b ) : getRangeFirstNode( b ); var skipNode = null; if ( boundary === 'end' ) { skipNode = from; } var foundContent = false; linearWalk( from, ( event, n ) => { if ( n === to && event === ( boundary === 'end' ? 'leave' : 'enter' ) ) { return true; } if ( skipNode ) { if ( n === skipNode && event === 'leave' ) { skipNode = null; } return; } if ( event === 'enter' ) { if ( isCommentSeparator( n ) || isRenderingTransparentNode( n ) || isOurGeneratedNode( n ) ) { skipNode = n; } else if ( isCommentContent( n ) ) { foundContent = true; return true; } } } ); return !foundContent; } /** * Get the ID for a new topics subscription from a page title * * @param {mw.Title} title Page title * @return {string} ID for a new topics subscription */ function getNewTopicsSubscriptionId( title ) { return 'p-topics-' + title.getNamespaceId() + ':' + title.getMain(); } /** * Check whether a jQuery event represents a plain left click, without any modifiers * * @param {jQuery.Event} e * @return {boolean} Whether it was an unmodified left click */ function isUnmodifiedLeftClick( e ) { return e.which === OO.ui.MouseButtons.LEFT && !( e.shiftKey || e.altKey || e.ctrlKey || e.metaKey ); } module.exports = { NEW_TOPIC_COMMENT_ID: NEW_TOPIC_COMMENT_ID, isBlockElement: isBlockElement, isRenderingTransparentNode: isRenderingTransparentNode, isCommentSeparator: isCommentSeparator, isCommentContent: isCommentContent, cantHaveElementChildren: cantHaveElementChildren, childIndexOf: childIndexOf, closestElement: closestElement, getIndentLevel: getIndentLevel, getCoveredSiblings: getCoveredSiblings, getFullyCoveredSiblings: getFullyCoveredSiblings, getTranscludedFromElement: getTranscludedFromElement, getHeadlineNodeAndOffset: getHeadlineNodeAndOffset, htmlTrim: htmlTrim, getTitleFromUrl: getTitleFromUrl, linearWalk: linearWalk, linearWalkBackwards: linearWalkBackwards, compareRanges: compareRanges, getNewTopicsSubscriptionId: getNewTopicsSubscriptionId, isUnmodifiedLeftClick: isUnmodifiedLeftClick };