Web-QA

( args = { doHighlightElements: true, focusHighlightIndex: -1, viewportExpansion: 0, debugMode: false, } ) => { const { doHighlightElements, focusHighlightIndex, viewportExpansion, debugMode } = args; let highlightIndex = 0; // Reset highlight index // Add timing stack to handle recursion const TIMING_STACK = { nodeProcessing: [], treeTraversal: [], highlighting: [], current: null }; function pushTiming(type) { TIMING_STACK[type] = TIMING_STACK[type] || []; TIMING_STACK[type].push(performance.now()); } function popTiming(type) { const start = TIMING_STACK[type].pop(); const duration = performance.now() - start; return duration; } // Only initialize performance tracking if in debug mode const PERF_METRICS = debugMode ? { buildDomTreeCalls: 0, timings: { buildDomTree: 0, highlightElement: 0, isInteractiveElement: 0, isElementVisible: 0, isTopElement: 0, isInExpandedViewport: 0, isTextNodeVisible: 0, getEffectiveScroll: 0, }, cacheMetrics: { boundingRectCacheHits: 0, boundingRectCacheMisses: 0, computedStyleCacheHits: 0, computedStyleCacheMisses: 0, getBoundingClientRectTime: 0, getComputedStyleTime: 0, boundingRectHitRate: 0, computedStyleHitRate: 0, overallHitRate: 0, }, nodeMetrics: { totalNodes: 0, processedNodes: 0, skippedNodes: 0, }, buildDomTreeBreakdown: { totalTime: 0, totalSelfTime: 0, buildDomTreeCalls: 0, domOperations: { getBoundingClientRect: 0, getComputedStyle: 0, }, domOperationCounts: { getBoundingClientRect: 0, getComputedStyle: 0, } } } : null; // Simple timing helper that only runs in debug mode function measureTime(fn) { if (!debugMode) return fn; return function (...args) { const start = performance.now(); const result = fn.apply(this, args); const duration = performance.now() - start; return result; }; } // Helper to measure DOM operations function measureDomOperation(operation, name) { if (!debugMode) return operation(); const start = performance.now(); const result = operation(); const duration = performance.now() - start; if (PERF_METRICS && name in PERF_METRICS.buildDomTreeBreakdown.domOperations) { PERF_METRICS.buildDomTreeBreakdown.domOperations[name] += duration; PERF_METRICS.buildDomTreeBreakdown.domOperationCounts[name]++; } return result; } // Add caching mechanisms at the top level const DOM_CACHE = { boundingRects: new WeakMap(), computedStyles: new WeakMap(), clearCache: () => { DOM_CACHE.boundingRects = new WeakMap(); DOM_CACHE.computedStyles = new WeakMap(); } }; // Cache helper functions function getCachedBoundingRect(element) { if (!element) return null; if (DOM_CACHE.boundingRects.has(element)) { if (debugMode && PERF_METRICS) { PERF_METRICS.cacheMetrics.boundingRectCacheHits++; } return DOM_CACHE.boundingRects.get(element); } if (debugMode && PERF_METRICS) { PERF_METRICS.cacheMetrics.boundingRectCacheMisses++; } let rect; if (debugMode) { const start = performance.now(); rect = element.getBoundingClientRect(); const duration = performance.now() - start; if (PERF_METRICS) { PERF_METRICS.buildDomTreeBreakdown.domOperations.getBoundingClientRect += duration; PERF_METRICS.buildDomTreeBreakdown.domOperationCounts.getBoundingClientRect++; } } else { rect = element.getBoundingClientRect(); } if (rect) { DOM_CACHE.boundingRects.set(element, rect); } return rect; } function getCachedComputedStyle(element) { if (!element) return null; if (DOM_CACHE.computedStyles.has(element)) { if (debugMode && PERF_METRICS) { PERF_METRICS.cacheMetrics.computedStyleCacheHits++; } return DOM_CACHE.computedStyles.get(element); } if (debugMode && PERF_METRICS) { PERF_METRICS.cacheMetrics.computedStyleCacheMisses++; } let style; if (debugMode) { const start = performance.now(); style = window.getComputedStyle(element); const duration = performance.now() - start; if (PERF_METRICS) { PERF_METRICS.buildDomTreeBreakdown.domOperations.getComputedStyle += duration; PERF_METRICS.buildDomTreeBreakdown.domOperationCounts.getComputedStyle++; } } else { style = window.getComputedStyle(element); } if (style) { DOM_CACHE.computedStyles.set(element, style); } return style; } /** * Hash map of DOM nodes indexed by their highlight index. * * @type {Object<string, any>} */ const DOM_HASH_MAP = {}; const ID = { current: 0 }; const HIGHLIGHT_CONTAINER_ID = "playwright-highlight-container"; /** * Highlights an element in the DOM and returns the index of the next element. */ function highlightElement(element, index, parentIframe = null) { if (!element) return index; // Store overlays and the single label for updating const overlays = []; let label = null; let labelWidth = 20; // Approximate label width let labelHeight = 16; // Approximate label height try { // Create or get highlight container let container = document.getElementById(HIGHLIGHT_CONTAINER_ID); if (!container) { container = document.createElement("div"); container.id = HIGHLIGHT_CONTAINER_ID; container.style.position = "fixed"; container.style.pointerEvents = "none"; container.style.top = "0"; container.style.left = "0"; container.style.width = "100%"; container.style.height = "100%"; container.style.zIndex = "2147483647"; container.style.backgroundColor = 'transparent'; document.body.appendChild(container); } // Get element client rects const rects = element.getClientRects(); // Use getClientRects() if (!rects || rects.length === 0) return index; // Exit if no rects // Generate a color based on the index const colors = [ "#FF0000", "#00FF00", "#0000FF", "#FFA500", "#800080", "#008080", "#FF69B4", "#4B0082", "#FF4500", "#2E8B57", "#DC143C", "#4682B4", ]; const colorIndex = index % colors.length; const baseColor = colors[colorIndex]; const backgroundColor = baseColor + "1A"; // 10% opacity version of the color // Get iframe offset if necessary let iframeOffset = { x: 0, y: 0 }; if (parentIframe) { const iframeRect = parentIframe.getBoundingClientRect(); // Keep getBoundingClientRect for iframe offset iframeOffset.x = iframeRect.left; iframeOffset.y = iframeRect.top; } // Create highlight overlays for each client rect for (const rect of rects) { if (rect.width === 0 || rect.height === 0) continue; // Skip empty rects const overlay = document.createElement("div"); overlay.style.position = "fixed"; overlay.style.border = `2px solid ${baseColor}`; overlay.style.backgroundColor = backgroundColor; overlay.style.pointerEvents = "none"; overlay.style.boxSizing = "border-box"; const top = rect.top + iframeOffset.y; const left = rect.left + iframeOffset.x; overlay.style.top = `${top}px`; overlay.style.left = `${left}px`; overlay.style.width = `${rect.width}px`; overlay.style.height = `${rect.height}px`; container.appendChild(overlay); overlays.push({ element: overlay, initialRect: rect }); // Store overlay and its rect } // Create and position a single label relative to the first rect const firstRect = rects[0]; label = document.createElement("div"); label.className = "playwright-highlight-label"; label.style.position = "fixed"; label.style.background = baseColor; label.style.color = "white"; label.style.padding = "1px 4px"; label.style.borderRadius = "4px"; label.style.fontSize = `${Math.min(12, Math.max(8, firstRect.height / 2))}px`; label.textContent = index; labelWidth = label.offsetWidth > 0 ? label.offsetWidth : labelWidth; // Update actual width if possible labelHeight = label.offsetHeight > 0 ? label.offsetHeight : labelHeight; // Update actual height if possible const firstRectTop = firstRect.top + iframeOffset.y; const firstRectLeft = firstRect.left + iframeOffset.x; let labelTop = firstRectTop + 2; let labelLeft = firstRectLeft + firstRect.width - labelWidth - 2; // Adjust label position if first rect is too small if (firstRect.width < labelWidth + 4 || firstRect.height < labelHeight + 4) { labelTop = firstRectTop - labelHeight - 2; labelLeft = firstRectLeft + firstRect.width - labelWidth; // Align with right edge if (labelLeft < iframeOffset.x) labelLeft = firstRectLeft; // Prevent going off-left } // Ensure label stays within viewport bounds slightly better labelTop = Math.max(0, Math.min(labelTop, window.innerHeight - labelHeight)); labelLeft = Math.max(0, Math.min(labelLeft, window.innerWidth - labelWidth)); label.style.top = `${labelTop}px`; label.style.left = `${labelLeft}px`; container.appendChild(label); // Update positions on scroll/resize const updatePositions = () => { const newRects = element.getClientRects(); // Get fresh rects let newIframeOffset = { x: 0, y: 0 }; if (parentIframe) { const iframeRect = parentIframe.getBoundingClientRect(); // Keep getBoundingClientRect for iframe newIframeOffset.x = iframeRect.left; newIframeOffset.y = iframeRect.top; } // Update each overlay overlays.forEach((overlayData, i) => { if (i < newRects.length) { // Check if rect still exists const newRect = newRects[i]; const newTop = newRect.top + newIframeOffset.y; const newLeft = newRect.left + newIframeOffset.x; overlayData.element.style.top = `${newTop}px`; overlayData.element.style.left = `${newLeft}px`; overlayData.element.style.width = `${newRect.width}px`; overlayData.element.style.height = `${newRect.height}px`; overlayData.element.style.display = (newRect.width === 0 || newRect.height === 0) ? 'none' : 'block'; } else { // If fewer rects now, hide extra overlays overlayData.element.style.display = 'none'; } }); // If there are fewer new rects than overlays, hide the extras if (newRects.length < overlays.length) { for (let i = newRects.length; i < overlays.length; i++) { overlays[i].element.style.display = 'none'; } } // Update label position based on the first new rect if (label && newRects.length > 0) { const firstNewRect = newRects[0]; const firstNewRectTop = firstNewRect.top + newIframeOffset.y; const firstNewRectLeft = firstNewRect.left + newIframeOffset.x; let newLabelTop = firstNewRectTop + 2; let newLabelLeft = firstNewRectLeft + firstNewRect.width - labelWidth - 2; if (firstNewRect.width < labelWidth + 4 || firstNewRect.height < labelHeight + 4) { newLabelTop = firstNewRectTop - labelHeight - 2; newLabelLeft = firstNewRectLeft + firstNewRect.width - labelWidth; if (newLabelLeft < newIframeOffset.x) newLabelLeft = firstNewRectLeft; } // Ensure label stays within viewport bounds newLabelTop = Math.max(0, Math.min(newLabelTop, window.innerHeight - labelHeight)); newLabelLeft = Math.max(0, Math.min(newLabelLeft, window.innerWidth - labelWidth)); label.style.top = `${newLabelTop}px`; label.style.left = `${newLabelLeft}px`; label.style.display = 'block'; } else if (label) { // Hide label if element has no rects anymore label.style.display = 'none'; } }; window.addEventListener('scroll', updatePositions, true); // Use capture phase window.addEventListener('resize', updatePositions); // TODO: Add cleanup logic to remove listeners and elements when done. return index + 1; } finally { // popTiming('highlighting'); // Assuming this was a typo and should be removed or corrected } } function getElementPosition(currentElement) { if (!currentElement.parentElement) { return 0; // No parent means no siblings } const tagName = currentElement.nodeName.toLowerCase(); const siblings = Array.from(currentElement.parentElement.children) .filter((sib) => sib.nodeName.toLowerCase() === tagName); if (siblings.length === 1) { return 0; // Only element of its type } const index = siblings.indexOf(currentElement) + 1; // 1-based index return index; } /** * Returns an XPath tree string for an element. */ function getXPathTree(element, stopAtBoundary = true) { const segments = []; let currentElement = element; while (currentElement && currentElement.nodeType === Node.ELEMENT_NODE) { // Stop if we hit a shadow root or iframe if ( stopAtBoundary && (currentElement.parentNode instanceof ShadowRoot || currentElement.parentNode instanceof HTMLIFrameElement) ) { break; } const position = getElementPosition(currentElement); const tagName = currentElement.nodeName.toLowerCase(); const xpathIndex = position > 0 ? `[${position}]` : ""; segments.unshift(`${tagName}${xpathIndex}`); currentElement = currentElement.parentNode; } return segments.join("/"); } /** * Checks if a text node is visible. */ function isTextNodeVisible(textNode) { try { const range = document.createRange(); range.selectNodeContents(textNode); const rects = range.getClientRects(); // Use getClientRects for Range if (!rects || rects.length === 0) { return false; } let isAnyRectVisible = false; let isAnyRectInViewport = false; for (const rect of rects) { // Check size if (rect.width > 0 && rect.height > 0) { isAnyRectVisible = true; // Viewport check for this rect if (!( rect.bottom < -viewportExpansion || rect.top > window.innerHeight + viewportExpansion || rect.right < -viewportExpansion || rect.left > window.innerWidth + viewportExpansion ) || viewportExpansion === -1) { isAnyRectInViewport = true; break; // Found a visible rect in viewport, no need to check others } } } if (!isAnyRectVisible || !isAnyRectInViewport) { return false; } // Check parent visibility const parentElement = textNode.parentElement; if (!parentElement) return false; try { return isAnyRectInViewport && parentElement.checkVisibility({ checkOpacity: true, checkVisibilityCSS: true, }); } catch (e) { // Fallback if checkVisibility is not supported const style = window.getComputedStyle(parentElement); return isAnyRectInViewport && style.display !== 'none' && style.visibility !== 'hidden' && style.opacity !== '0'; } } catch (e) { console.warn('Error checking text node visibility:', e); return false; } } // Helper function to check if element is accepted function isElementAccepted(element) { if (!element || !element.tagName) return false; // Always accept body and common container elements const alwaysAccept = new Set([ "body", "div", "main", "article", "section", "nav", "header", "footer" ]); const tagName = element.tagName.toLowerCase(); if (alwaysAccept.has(tagName)) return true; const leafElementDenyList = new Set([ "svg", "script", "style", "link", "meta", "noscript", "template", ]); return !leafElementDenyList.has(tagName); } /** * Checks if an element is visible. */ function isElementVisible(element) { const style = getCachedComputedStyle(element); return ( element.offsetWidth > 0 && element.offsetHeight > 0 && style.visibility !== "hidden" && style.display !== "none" ); } /** * Checks if an element is interactive. * * lots of comments, and uncommented code - to show the logic of what we already tried * * One of the things we tried at the beginning was also to use event listeners, and other fancy class, style stuff -> what actually worked best was just combining most things with computed cursor style :) */ function isInteractiveElement(element) { if (!element || element.nodeType !== Node.ELEMENT_NODE) { return false; } // Define interactive cursors const interactiveCursors = new Set([ 'pointer', // Link/clickable elements 'move', // Movable elements 'text', // Text selection 'grab', // Grabbable elements 'grabbing', // Currently grabbing 'cell', // Table cell selection 'copy', // Copy operation 'alias', // Alias creation 'all-scroll', // Scrollable content 'col-resize', // Column resize 'context-menu', // Context menu available 'crosshair', // Precise selection 'e-resize', // East resize 'ew-resize', // East-west resize 'help', // Help available 'n-resize', // North resize 'ne-resize', // Northeast resize 'nesw-resize', // Northeast-southwest resize 'ns-resize', // North-south resize 'nw-resize', // Northwest resize 'nwse-resize', // Northwest-southeast resize 'row-resize', // Row resize 's-resize', // South resize 'se-resize', // Southeast resize 'sw-resize', // Southwest resize 'vertical-text', // Vertical text selection 'w-resize', // West resize 'zoom-in', // Zoom in 'zoom-out' // Zoom out ]); // Define non-interactive cursors const nonInteractiveCursors = new Set([ 'not-allowed', // Action not allowed 'no-drop', // Drop not allowed 'wait', // Processing 'progress', // In progress 'initial', // Initial value 'inherit' // Inherited value //? Let's just include all potentially clickable elements that are not specifically blocked // 'none', // No cursor // 'default', // Default cursor // 'auto', // Browser default ]); function doesElementHaveInteractivePointer(element) { if (element.tagName.toLowerCase() === "html") return false; const style = getCachedComputedStyle(element); if (interactiveCursors.has(style.cursor)) return true; return false; } let isInteractiveCursor = doesElementHaveInteractivePointer(element); // Genius fix for almost all interactive elements if (isInteractiveCursor) { return true; } const interactiveElements = new Set([ "a", // Links "button", // Buttons "input", // All input types (text, checkbox, radio, etc.) "select", // Dropdown menus "textarea", // Text areas "details", // Expandable details "summary", // Summary element (clickable part of details) "label", // Form labels (often clickable) "option", // Select options "optgroup", // Option groups "fieldset", // Form fieldsets (can be interactive with legend) "legend", // Fieldset legends ]); // Define explicit disable attributes and properties const explicitDisableTags = new Set([ 'disabled', // Standard disabled attribute // 'aria-disabled', // ARIA disabled state 'readonly', // Read-only state // 'aria-readonly', // ARIA read-only state // 'aria-hidden', // Hidden from accessibility // 'hidden', // Hidden attribute // 'inert', // Inert attribute // 'aria-inert', // ARIA inert state // 'tabindex="-1"', // Removed from tab order // 'aria-hidden="true"' // Hidden from screen readers ]); // handle inputs, select, checkbox, radio, textarea, button and make sure they are not cursor style disabled/not-allowed if (interactiveElements.has(element.tagName.toLowerCase())) { const style = getCachedComputedStyle(element); // Check for non-interactive cursor if (nonInteractiveCursors.has(style.cursor)) { return false; } // Check for explicit disable attributes for (const disableTag of explicitDisableTags) { if (element.hasAttribute(disableTag) || element.getAttribute(disableTag) === 'true' || element.getAttribute(disableTag) === '') { return false; } } // Check for disabled property on form elements if (element.disabled) { return false; } // Check for readonly property on form elements if (element.readOnly) { return false; } // Check for inert property if (element.inert) { return false; } return true; } const tagName = element.tagName.toLowerCase(); const role = element.getAttribute("role"); const ariaRole = element.getAttribute("aria-role"); // Added enhancement to capture dropdown interactive elements if (element.classList && ( element.classList.contains("button") || element.classList.contains('dropdown-toggle') || element.getAttribute('data-index') || element.getAttribute('data-toggle') === 'dropdown' || element.getAttribute('aria-haspopup') === 'true' )) { return true; } const interactiveRoles = new Set([ 'button', // Directly clickable element // 'link', // Clickable link // 'menuitem', // Clickable menu item 'menuitemradio', // Radio-style menu item (selectable) 'menuitemcheckbox', // Checkbox-style menu item (toggleable) 'radio', // Radio button (selectable) 'checkbox', // Checkbox (toggleable) 'tab', // Tab (clickable to switch content) 'switch', // Toggle switch (clickable to change state) 'slider', // Slider control (draggable) 'spinbutton', // Number input with up/down controls 'combobox', // Dropdown with text input 'searchbox', // Search input field 'textbox', // Text input field // 'listbox', // Selectable list 'option', // Selectable option in a list 'scrollbar' // Scrollable control ]); // Basic role/attribute checks const hasInteractiveRole = interactiveElements.has(tagName) || interactiveRoles.has(role) || interactiveRoles.has(ariaRole); if (hasInteractiveRole) return true; // check whether element has event listeners try { if (typeof getEventListeners === 'function') { const listeners = getEventListeners(element); const mouseEvents = ['click', 'mousedown', 'mouseup', 'dblclick']; for (const eventType of mouseEvents) { if (listeners[eventType] && listeners[eventType].length > 0) { return true; // Found a mouse interaction listener } } } else { // Fallback: Check common event attributes if getEventListeners is not available const commonMouseAttrs = ['onclick', 'onmousedown', 'onmouseup', 'ondblclick']; if (commonMouseAttrs.some(attr => element.hasAttribute(attr))) { return true; } } } catch (e) { // console.warn(`Could not check event listeners for ${element.tagName}:`, e); // If checking listeners fails, rely on other checks } return false } /** * Checks if an element is the topmost element at its position. */ function isTopElement(element) { const rects = element.getClientRects(); // Use getClientRects if (!rects || rects.length === 0) { return false; // No geometry, cannot be top } let isAnyRectInViewport = false; for (const rect of rects) { // Use the same logic as isInExpandedViewport check if (rect.width > 0 && rect.height > 0 && !( // Only check non-empty rects rect.bottom < -viewportExpansion || rect.top > window.innerHeight + viewportExpansion || rect.right < -viewportExpansion || rect.left > window.innerWidth + viewportExpansion ) || viewportExpansion === -1) { isAnyRectInViewport = true; break; } } if (!isAnyRectInViewport) { return false; // All rects are outside the viewport area } // Find the correct document context and root element let doc = element.ownerDocument; // If we're in an iframe, elements are considered top by default if (doc !== window.document) { return true; } // For shadow DOM, we need to check within its own root context const shadowRoot = element.getRootNode(); if (shadowRoot instanceof ShadowRoot) { const centerX = rects[Math.floor(rects.length / 2)].left + rects[Math.floor(rects.length / 2)].width / 2; const centerY = rects[Math.floor(rects.length / 2)].top + rects[Math.floor(rects.length / 2)].height / 2; try { const topEl = measureDomOperation( () => shadowRoot.elementFromPoint(centerX, centerY), 'elementFromPoint' ); if (!topEl) return false; let current = topEl; while (current && current !== shadowRoot) { if (current === element) return true; current = current.parentElement; } return false; } catch (e) { return true; } } // For elements in viewport, check if they're topmost const centerX = rects[Math.floor(rects.length / 2)].left + rects[Math.floor(rects.length / 2)].width / 2; const centerY = rects[Math.floor(rects.length / 2)].top + rects[Math.floor(rects.length / 2)].height / 2; try { const topEl = document.elementFromPoint(centerX, centerY); if (!topEl) return false; let current = topEl; while (current && current !== document.documentElement) { if (current === element) return true; current = current.parentElement; } return false; } catch (e) { return true; } } /** * Checks if an element is within the expanded viewport. */ function isInExpandedViewport(element, viewportExpansion) { return true if (viewportExpansion === -1) { return true; } const rects = element.getClientRects(); // Use getClientRects if (!rects || rects.length === 0) { // Fallback to getBoundingClientRect if getClientRects is empty, // useful for elements like <svg> that might not have client rects but have a bounding box. const boundingRect = getCachedBoundingRect(element); if (!boundingRect || boundingRect.width === 0 || boundingRect.height === 0) { return false; } return !( boundingRect.bottom < -viewportExpansion || boundingRect.top > window.innerHeight + viewportExpansion || boundingRect.right < -viewportExpansion || boundingRect.left > window.innerWidth + viewportExpansion ); } // Check if *any* client rect is within the viewport for (const rect of rects) { if (rect.width === 0 || rect.height === 0) continue; // Skip empty rects if (!( rect.bottom < -viewportExpansion || rect.top > window.innerHeight + viewportExpansion || rect.right < -viewportExpansion || rect.left > window.innerWidth + viewportExpansion )) { return true; // Found at least one rect in the viewport } } return false; // No rects were found in the viewport } // Add this new helper function function getEffectiveScroll(element) { let currentEl = element; let scrollX = 0; let scrollY = 0; return measureDomOperation(() => { while (currentEl && currentEl !== document.documentElement) { if (currentEl.scrollLeft || currentEl.scrollTop) { scrollX += currentEl.scrollLeft; scrollY += currentEl.scrollTop; } currentEl = currentEl.parentElement; } scrollX += window.scrollX; scrollY += window.scrollY; return { scrollX, scrollY }; }, 'scrollOperations'); } // Add these helper functions at the top level function isInteractiveCandidate(element) { if (!element || element.nodeType !== Node.ELEMENT_NODE) return false; const tagName = element.tagName.toLowerCase(); // Fast-path for common interactive elements const interactiveElements = new Set([ "a", "button", "input", "select", "textarea", "details", "summary" ]); if (interactiveElements.has(tagName)) return true; // Quick attribute checks without getting full lists const hasQuickInteractiveAttr = element.hasAttribute("onclick") || element.hasAttribute("role") || element.hasAttribute("tabindex") || element.hasAttribute("aria-") || element.hasAttribute("data-action") || element.getAttribute("contenteditable") == "true"; return hasQuickInteractiveAttr; } // --- Define constants for distinct interaction check --- const DISTINCT_INTERACTIVE_TAGS = new Set([ 'a', 'button', 'input', 'select', 'textarea', 'summary', 'details', 'label', 'option' ]); const INTERACTIVE_ROLES = new Set([ 'button', 'link', 'menuitem', 'menuitemradio', 'menuitemcheckbox', 'radio', 'checkbox', 'tab', 'switch', 'slider', 'spinbutton', 'combobox', 'searchbox', 'textbox', 'listbox', 'option', 'scrollbar' ]); /** * Checks if an element likely represents a distinct interaction * separate from its parent (if the parent is also interactive). */ function isElementDistinctInteraction(element) { if (!element || element.nodeType !== Node.ELEMENT_NODE) { return false; } const tagName = element.tagName.toLowerCase(); const role = element.getAttribute('role'); // Check if it's an iframe - always distinct boundary if (tagName === 'iframe') { return true; } // Check tag name if (DISTINCT_INTERACTIVE_TAGS.has(tagName)) { return true; } // Check interactive roles if (role && INTERACTIVE_ROLES.has(role)) { return true; } // Check contenteditable if (element.isContentEditable || element.getAttribute('contenteditable') === 'true') { return true; } // Check for common testing/automation attributes if (element.hasAttribute('data-testid') || element.hasAttribute('data-cy') || element.hasAttribute('data-test')) { return true; } // Check for explicit onclick handler (attribute or property) if (element.hasAttribute('onclick') || typeof element.onclick === 'function') { return true; } // Check for other common interaction event listeners try { if (typeof getEventListeners === 'function') { const listeners = getEventListeners(element); const interactionEvents = ['mousedown', 'mouseup', 'keydown', 'keyup', 'submit', 'change', 'input', 'focus', 'blur']; for (const eventType of interactionEvents) { if (listeners[eventType] && listeners[eventType].length > 0) { return true; // Found a common interaction listener } } } else { // Fallback: Check common event attributes if getEventListeners is not available const commonEventAttrs = ['onmousedown', 'onmouseup', 'onkeydown', 'onkeyup', 'onsubmit', 'onchange', 'oninput', 'onfocus', 'onblur']; if (commonEventAttrs.some(attr => element.hasAttribute(attr))) { return true; } } } catch (e) { // console.warn(`Could not check event listeners for ${element.tagName}:`, e); // If checking listeners fails, rely on other checks } // Default to false: if it's interactive but doesn't match above, // assume it triggers the same action as the parent. return false; } // --- End distinct interaction check --- /** * Handles the logic for deciding whether to highlight an element and performing the highlight. */ function handleHighlighting(nodeData, node, parentIframe, isParentHighlighted) { if (!nodeData.isInteractive) return false; // Not interactive, definitely don't highlight let shouldHighlight = false; if (!isParentHighlighted) { // Parent wasn't highlighted, this interactive node can be highlighted. shouldHighlight = true; } else { // Parent *was* highlighted. Only highlight this node if it represents a distinct interaction. if (isElementDistinctInteraction(node)) { shouldHighlight = true; } else { // console.log(`Skipping highlight for ${nodeData.tagName} (parent highlighted)`); shouldHighlight = false; } } if (shouldHighlight) { // Check viewport status before assigning index and highlighting nodeData.isInViewport = isInExpandedViewport(node, viewportExpansion); if (nodeData.isInViewport) { nodeData.highlightIndex = highlightIndex++; if (doHighlightElements) { if (focusHighlightIndex >= 0) { if (focusHighlightIndex === nodeData.highlightIndex) { highlightElement(node, nodeData.highlightIndex, parentIframe); } } else { highlightElement(node, nodeData.highlightIndex, parentIframe); } return true; // Successfully highlighted } } else { // console.log(`Skipping highlight for ${nodeData.tagName} (outside viewport)`); } } return false; // Did not highlight } /** * Creates a node data object for a given node and its descendants. */ function buildDomTree(node, parentIframe = null, isParentHighlighted = false) { if (debugMode) PERF_METRICS.nodeMetrics.totalNodes++; if (!node || node.id === HIGHLIGHT_CONTAINER_ID) { if (debugMode) PERF_METRICS.nodeMetrics.skippedNodes++; return null; } // Special handling for root node (body) if (node === document.body) { const nodeData = { tagName: 'body', attributes: {}, xpath: '/body', children: [], }; // Process children of body for (const child of node.childNodes) { const domElement = buildDomTree(child, parentIframe, false); // Body's children have no highlighted parent initially if (domElement) nodeData.children.push(domElement); } const id = `${ID.current++}`; DOM_HASH_MAP[id] = nodeData; if (debugMode) PERF_METRICS.nodeMetrics.processedNodes++; return id; } // Early bailout for non-element nodes except text if (node.nodeType !== Node.ELEMENT_NODE && node.nodeType !== Node.TEXT_NODE) { if (debugMode) PERF_METRICS.nodeMetrics.skippedNodes++; return null; } // Process text nodes if (node.nodeType === Node.TEXT_NODE) { const textContent = node.textContent.trim(); if (!textContent) { if (debugMode) PERF_METRICS.nodeMetrics.skippedNodes++; return null; } // Only check visibility for text nodes that might be visible const parentElement = node.parentElement; if (!parentElement || parentElement.tagName.toLowerCase() === 'script') { if (debugMode) PERF_METRICS.nodeMetrics.skippedNodes++; return null; } const id = `${ID.current++}`; DOM_HASH_MAP[id] = { type: "TEXT_NODE", text: textContent, isVisible: isTextNodeVisible(node), }; if (debugMode) PERF_METRICS.nodeMetrics.processedNodes++; return id; } // Quick checks for element nodes if (node.nodeType === Node.ELEMENT_NODE && !isElementAccepted(node)) { if (debugMode) PERF_METRICS.nodeMetrics.skippedNodes++; return null; } // Early viewport check - only filter out elements clearly outside viewport if (viewportExpansion !== -1) { const rect = getCachedBoundingRect(node); // Keep for initial quick check const style = getCachedComputedStyle(node); // Skip viewport check for fixed/sticky elements as they may appear anywhere const isFixedOrSticky = style && (style.position === 'fixed' || style.position === 'sticky'); // Check if element has actual dimensions using offsetWidth/Height (quick check) const hasSize = node.offsetWidth > 0 || node.offsetHeight > 0; // Use getBoundingClientRect for the quick OUTSIDE check. // isInExpandedViewport will do the more accurate check later if needed. if (!rect || (!isFixedOrSticky && !hasSize && ( rect.bottom < -viewportExpansion || rect.top > window.innerHeight + viewportExpansion || rect.right < -viewportExpansion || rect.left > window.innerWidth + viewportExpansion ))) { // console.log("Skipping node outside viewport (quick check):", node.tagName, rect); if (debugMode) PERF_METRICS.nodeMetrics.skippedNodes++; return null; } } // Process element node const nodeData = { tagName: node.tagName.toLowerCase(), attributes: {}, xpath: getXPathTree(node, true), children: [], }; // Get attributes for interactive elements or potential text containers if (isInteractiveCandidate(node) || node.tagName.toLowerCase() === 'iframe' || node.tagName.toLowerCase() === 'body') { const attributeNames = node.getAttributeNames?.() || []; for (const name of attributeNames) { nodeData.attributes[name] = node.getAttribute(name); } } let nodeWasHighlighted = false; // Perform visibility, interactivity, and highlighting checks if (node.nodeType === Node.ELEMENT_NODE) { nodeData.isVisible = isElementVisible(node); // isElementVisible uses offsetWidth/Height, which is fine if (nodeData.isVisible) { nodeData.isTopElement = isTopElement(node); let shouldCheckInteractivity = false; if (viewportExpansion === -1) { // *** CHANGE: If including all, always check interactivity for visible elements *** shouldCheckInteractivity = true; } else { // Original logic: Only check interactivity if it's the top element within the viewport/expansion zone shouldCheckInteractivity = nodeData.isTopElement; } if (shouldCheckInteractivity) { nodeData.isInteractive = isInteractiveElement(node); nodeWasHighlighted = handleHighlighting(nodeData, node, parentIframe, isParentHighlighted); } } } // Process children, with special handling for iframes and rich text editors if (node.tagName) { const tagName = node.tagName.toLowerCase(); // Handle iframes if (tagName === "iframe") { try { const iframeDoc = node.contentDocument || node.contentWindow?.document; if (iframeDoc) { for (const child of iframeDoc.childNodes) { const domElement = buildDomTree(child, node, false); if (domElement) nodeData.children.push(domElement); } } } catch (e) { console.warn("Unable to access iframe:", e); } } // Handle rich text editors and contenteditable elements else if ( node.isContentEditable || node.getAttribute("contenteditable") === "true" || node.id === "tinymce" || node.classList.contains("mce-content-body") || (tagName === "body" && node.getAttribute("data-id")?.startsWith("mce_")) ) { // Process all child nodes to capture formatted text for (const child of node.childNodes) { const domElement = buildDomTree(child, parentIframe, nodeWasHighlighted); if (domElement) nodeData.children.push(domElement); } } else { // Handle shadow DOM if (node.shadowRoot) { nodeData.shadowRoot = true; for (const child of node.shadowRoot.childNodes) { const domElement = buildDomTree(child, parentIframe, nodeWasHighlighted); if (domElement) nodeData.children.push(domElement); } } // Handle regular elements for (const child of node.childNodes) { // Pass the highlighted status of the *current* node to its children const passHighlightStatusToChild = nodeWasHighlighted || isParentHighlighted; const domElement = buildDomTree(child, parentIframe, passHighlightStatusToChild); if (domElement) nodeData.children.push(domElement); } } } // Skip empty anchor tags if (nodeData.tagName === 'a' && nodeData.children.length === 0 && !nodeData.attributes.href) { if (debugMode) PERF_METRICS.nodeMetrics.skippedNodes++; return null; } const id = `${ID.current++}`; DOM_HASH_MAP[id] = nodeData; if (debugMode) PERF_METRICS.nodeMetrics.processedNodes++; return id; } // After all functions are defined, wrap them with performance measurement // Remove buildDomTree from here as we measure it separately highlightElement = measureTime(highlightElement); isInteractiveElement = measureTime(isInteractiveElement); isElementVisible = measureTime(isElementVisible); isTopElement = measureTime(isTopElement); isInExpandedViewport = measureTime(isInExpandedViewport); isTextNodeVisible = measureTime(isTextNodeVisible); getEffectiveScroll = measureTime(getEffectiveScroll); const rootId = buildDomTree(document.body); // Clear the cache before starting DOM_CACHE.clearCache(); // Only process metrics in debug mode if (debugMode && PERF_METRICS) { // Convert timings to seconds and add useful derived metrics Object.keys(PERF_METRICS.timings).forEach(key => { PERF_METRICS.timings[key] = PERF_METRICS.timings[key] / 1000; }); Object.keys(PERF_METRICS.buildDomTreeBreakdown).forEach(key => { if (typeof PERF_METRICS.buildDomTreeBreakdown[key] === 'number') { PERF_METRICS.buildDomTreeBreakdown[key] = PERF_METRICS.buildDomTreeBreakdown[key] / 1000; } }); // Add some useful derived metrics if (PERF_METRICS.buildDomTreeBreakdown.buildDomTreeCalls > 0) { PERF_METRICS.buildDomTreeBreakdown.averageTimePerNode = PERF_METRICS.buildDomTreeBreakdown.totalTime / PERF_METRICS.buildDomTreeBreakdown.buildDomTreeCalls; } PERF_METRICS.buildDomTreeBreakdown.timeInChildCalls = PERF_METRICS.buildDomTreeBreakdown.totalTime - PERF_METRICS.buildDomTreeBreakdown.totalSelfTime; // Add average time per operation to the metrics Object.keys(PERF_METRICS.buildDomTreeBreakdown.domOperations).forEach(op => { const time = PERF_METRICS.buildDomTreeBreakdown.domOperations[op]; const count = PERF_METRICS.buildDomTreeBreakdown.domOperationCounts[op]; if (count > 0) { PERF_METRICS.buildDomTreeBreakdown.domOperations[`${op}Average`] = time / count; } }); // Calculate cache hit rates const boundingRectTotal = PERF_METRICS.cacheMetrics.boundingRectCacheHits + PERF_METRICS.cacheMetrics.boundingRectCacheMisses; const computedStyleTotal = PERF_METRICS.cacheMetrics.computedStyleCacheHits + PERF_METRICS.cacheMetrics.computedStyleCacheMisses; if (boundingRectTotal > 0) { PERF_METRICS.cacheMetrics.boundingRectHitRate = PERF_METRICS.cacheMetrics.boundingRectCacheHits / boundingRectTotal; } if (computedStyleTotal > 0) { PERF_METRICS.cacheMetrics.computedStyleHitRate = PERF_METRICS.cacheMetrics.computedStyleCacheHits / computedStyleTotal; } if ((boundingRectTotal + computedStyleTotal) > 0) { PERF_METRICS.cacheMetrics.overallHitRate = (PERF_METRICS.cacheMetrics.boundingRectCacheHits + PERF_METRICS.cacheMetrics.computedStyleCacheHits) / (boundingRectTotal + computedStyleTotal); } } return debugMode ? { rootId, map: DOM_HASH_MAP, perfMetrics: PERF_METRICS } : { rootId, map: DOM_HASH_MAP }; }