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@trimble-oss/moduswebcomponents

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Modus Web Components is a modern, accessible UI library built with Stencil JS that provides reusable web components following Trimble's Modus design system. This updated version focuses on improved flexibility, enhanced theming options, comprehensive cust

trimble-oss.github.io/modus-wc-2.0/prod

trimble-oss/modus-wc-2.0

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JavaScript

import { p as proxyCustomElement, H, e as createEvent, h, c as Host } from './p-BMvVSi6Y.js'; import { i as inheritAriaAttributes } from './p-COxr4v9W.js'; import { d as defineCustomElement$3 } from './p-1YuUWYzU.js'; import { d as defineCustomElement$2 } from './p-DRXt-rJG.js'; /** * Custom positioning reference element. * @see https://floating-ui.com/docs/virtual-elements */ const min = Math.min; const max = Math.max; const round = Math.round; const createCoords = v => ({ x: v, y: v }); const oppositeSideMap = { left: 'right', right: 'left', bottom: 'top', top: 'bottom' }; const oppositeAlignmentMap = { start: 'end', end: 'start' }; function clamp(start, value, end) { return max(start, min(value, end)); } function evaluate(value, param) { return typeof value === 'function' ? value(param) : value; } function getSide(placement) { return placement.split('-')[0]; } function getAlignment(placement) { return placement.split('-')[1]; } function getOppositeAxis(axis) { return axis === 'x' ? 'y' : 'x'; } function getAxisLength(axis) { return axis === 'y' ? 'height' : 'width'; } function getSideAxis(placement) { return ['top', 'bottom'].includes(getSide(placement)) ? 'y' : 'x'; } function getAlignmentAxis(placement) { return getOppositeAxis(getSideAxis(placement)); } function getAlignmentSides(placement, rects, rtl) { if (rtl === void 0) { rtl = false; } const alignment = getAlignment(placement); const alignmentAxis = getAlignmentAxis(placement); const length = getAxisLength(alignmentAxis); let mainAlignmentSide = alignmentAxis === 'x' ? alignment === (rtl ? 'end' : 'start') ? 'right' : 'left' : alignment === 'start' ? 'bottom' : 'top'; if (rects.reference[length] > rects.floating[length]) { mainAlignmentSide = getOppositePlacement(mainAlignmentSide); } return [mainAlignmentSide, getOppositePlacement(mainAlignmentSide)]; } function getExpandedPlacements(placement) { const oppositePlacement = getOppositePlacement(placement); return [getOppositeAlignmentPlacement(placement), oppositePlacement, getOppositeAlignmentPlacement(oppositePlacement)]; } function getOppositeAlignmentPlacement(placement) { return placement.replace(/start|end/g, alignment => oppositeAlignmentMap[alignment]); } function getSideList(side, isStart, rtl) { const lr = ['left', 'right']; const rl = ['right', 'left']; const tb = ['top', 'bottom']; const bt = ['bottom', 'top']; switch (side) { case 'top': case 'bottom': if (rtl) return isStart ? rl : lr; return isStart ? lr : rl; case 'left': case 'right': return isStart ? tb : bt; default: return []; } } function getOppositeAxisPlacements(placement, flipAlignment, direction, rtl) { const alignment = getAlignment(placement); let list = getSideList(getSide(placement), direction === 'start', rtl); if (alignment) { list = list.map(side => side + "-" + alignment); if (flipAlignment) { list = list.concat(list.map(getOppositeAlignmentPlacement)); } } return list; } function getOppositePlacement(placement) { return placement.replace(/left|right|bottom|top/g, side => oppositeSideMap[side]); } function expandPaddingObject(padding) { return { top: 0, right: 0, bottom: 0, left: 0, ...padding }; } function getPaddingObject(padding) { return typeof padding !== 'number' ? expandPaddingObject(padding) : { top: padding, right: padding, bottom: padding, left: padding }; } function rectToClientRect(rect) { const { x, y, width, height } = rect; return { width, height, top: y, left: x, right: x + width, bottom: y + height, x, y }; } function computeCoordsFromPlacement(_ref, placement, rtl) { let { reference, floating } = _ref; const sideAxis = getSideAxis(placement); const alignmentAxis = getAlignmentAxis(placement); const alignLength = getAxisLength(alignmentAxis); const side = getSide(placement); const isVertical = sideAxis === 'y'; const commonX = reference.x + reference.width / 2 - floating.width / 2; const commonY = reference.y + reference.height / 2 - floating.height / 2; const commonAlign = reference[alignLength] / 2 - floating[alignLength] / 2; let coords; switch (side) { case 'top': coords = { x: commonX, y: reference.y - floating.height }; break; case 'bottom': coords = { x: commonX, y: reference.y + reference.height }; break; case 'right': coords = { x: reference.x + reference.width, y: commonY }; break; case 'left': coords = { x: reference.x - floating.width, y: commonY }; break; default: coords = { x: reference.x, y: reference.y }; } switch (getAlignment(placement)) { case 'start': coords[alignmentAxis] -= commonAlign * (rtl && isVertical ? -1 : 1); break; case 'end': coords[alignmentAxis] += commonAlign * (rtl && isVertical ? -1 : 1); break; } return coords; } /** * Computes the `x` and `y` coordinates that will place the floating element * next to a given reference element. * * This export does not have any `platform` interface logic. You will need to * write one for the platform you are using Floating UI with. */ const computePosition$1 = async (reference, floating, config) => { const { placement = 'bottom', strategy = 'absolute', middleware = [], platform } = config; const validMiddleware = middleware.filter(Boolean); const rtl = await (platform.isRTL == null ? void 0 : platform.isRTL(floating)); let rects = await platform.getElementRects({ reference, floating, strategy }); let { x, y } = computeCoordsFromPlacement(rects, placement, rtl); let statefulPlacement = placement; let middlewareData = {}; let resetCount = 0; for (let i = 0; i < validMiddleware.length; i++) { const { name, fn } = validMiddleware[i]; const { x: nextX, y: nextY, data, reset } = await fn({ x, y, initialPlacement: placement, placement: statefulPlacement, strategy, middlewareData, rects, platform, elements: { reference, floating } }); x = nextX != null ? nextX : x; y = nextY != null ? nextY : y; middlewareData = { ...middlewareData, [name]: { ...middlewareData[name], ...data } }; if (reset && resetCount <= 50) { resetCount++; if (typeof reset === 'object') { if (reset.placement) { statefulPlacement = reset.placement; } if (reset.rects) { rects = reset.rects === true ? await platform.getElementRects({ reference, floating, strategy }) : reset.rects; } ({ x, y } = computeCoordsFromPlacement(rects, statefulPlacement, rtl)); } i = -1; } } return { x, y, placement: statefulPlacement, strategy, middlewareData }; }; /** * Resolves with an object of overflow side offsets that determine how much the * element is overflowing a given clipping boundary on each side. * - positive = overflowing the boundary by that number of pixels * - negative = how many pixels left before it will overflow * - 0 = lies flush with the boundary * @see https://floating-ui.com/docs/detectOverflow */ async function detectOverflow(state, options) { var _await$platform$isEle; if (options === void 0) { options = {}; } const { x, y, platform, rects, elements, strategy } = state; const { boundary = 'clippingAncestors', rootBoundary = 'viewport', elementContext = 'floating', altBoundary = false, padding = 0 } = evaluate(options, state); const paddingObject = getPaddingObject(padding); const altContext = elementContext === 'floating' ? 'reference' : 'floating'; const element = elements[altBoundary ? altContext : elementContext]; const clippingClientRect = rectToClientRect(await platform.getClippingRect({ element: ((_await$platform$isEle = await (platform.isElement == null ? void 0 : platform.isElement(element))) != null ? _await$platform$isEle : true) ? element : element.contextElement || (await (platform.getDocumentElement == null ? void 0 : platform.getDocumentElement(elements.floating))), boundary, rootBoundary, strategy })); const rect = elementContext === 'floating' ? { x, y, width: rects.floating.width, height: rects.floating.height } : rects.reference; const offsetParent = await (platform.getOffsetParent == null ? void 0 : platform.getOffsetParent(elements.floating)); const offsetScale = (await (platform.isElement == null ? void 0 : platform.isElement(offsetParent))) ? (await (platform.getScale == null ? void 0 : platform.getScale(offsetParent))) || { x: 1, y: 1 } : { x: 1, y: 1 }; const elementClientRect = rectToClientRect(platform.convertOffsetParentRelativeRectToViewportRelativeRect ? await platform.convertOffsetParentRelativeRectToViewportRelativeRect({ elements, rect, offsetParent, strategy }) : rect); return { top: (clippingClientRect.top - elementClientRect.top + paddingObject.top) / offsetScale.y, bottom: (elementClientRect.bottom - clippingClientRect.bottom + paddingObject.bottom) / offsetScale.y, left: (clippingClientRect.left - elementClientRect.left + paddingObject.left) / offsetScale.x, right: (elementClientRect.right - clippingClientRect.right + paddingObject.right) / offsetScale.x }; } /** * Optimizes the visibility of the floating element by flipping the `placement` * in order to keep it in view when the preferred placement(s) will overflow the * clipping boundary. Alternative to `autoPlacement`. * @see https://floating-ui.com/docs/flip */ const flip$1 = function (options) { if (options === void 0) { options = {}; } return { name: 'flip', options, async fn(state) { var _middlewareData$arrow, _middlewareData$flip; const { placement, middlewareData, rects, initialPlacement, platform, elements } = state; const { mainAxis: checkMainAxis = true, crossAxis: checkCrossAxis = true, fallbackPlacements: specifiedFallbackPlacements, fallbackStrategy = 'bestFit', fallbackAxisSideDirection = 'none', flipAlignment = true, ...detectOverflowOptions } = evaluate(options, state); // If a reset by the arrow was caused due to an alignment offset being // added, we should skip any logic now since `flip()` has already done its // work. // https://github.com/floating-ui/floating-ui/issues/2549#issuecomment-1719601643 if ((_middlewareData$arrow = middlewareData.arrow) != null && _middlewareData$arrow.alignmentOffset) { return {}; } const side = getSide(placement); const initialSideAxis = getSideAxis(initialPlacement); const isBasePlacement = getSide(initialPlacement) === initialPlacement; const rtl = await (platform.isRTL == null ? void 0 : platform.isRTL(elements.floating)); const fallbackPlacements = specifiedFallbackPlacements || (isBasePlacement || !flipAlignment ? [getOppositePlacement(initialPlacement)] : getExpandedPlacements(initialPlacement)); const hasFallbackAxisSideDirection = fallbackAxisSideDirection !== 'none'; if (!specifiedFallbackPlacements && hasFallbackAxisSideDirection) { fallbackPlacements.push(...getOppositeAxisPlacements(initialPlacement, flipAlignment, fallbackAxisSideDirection, rtl)); } const placements = [initialPlacement, ...fallbackPlacements]; const overflow = await detectOverflow(state, detectOverflowOptions); const overflows = []; let overflowsData = ((_middlewareData$flip = middlewareData.flip) == null ? void 0 : _middlewareData$flip.overflows) || []; if (checkMainAxis) { overflows.push(overflow[side]); } if (checkCrossAxis) { const sides = getAlignmentSides(placement, rects, rtl); overflows.push(overflow[sides[0]], overflow[sides[1]]); } overflowsData = [...overflowsData, { placement, overflows }]; // One or more sides is overflowing. if (!overflows.every(side => side <= 0)) { var _middlewareData$flip2, _overflowsData$filter; const nextIndex = (((_middlewareData$flip2 = middlewareData.flip) == null ? void 0 : _middlewareData$flip2.index) || 0) + 1; const nextPlacement = placements[nextIndex]; if (nextPlacement) { const ignoreCrossAxisOverflow = checkCrossAxis === 'alignment' ? initialSideAxis !== getSideAxis(nextPlacement) : false; if (!ignoreCrossAxisOverflow || // We leave the current main axis only if every placement on that axis // overflows the main axis. overflowsData.every(d => d.overflows[0] > 0 && getSideAxis(d.placement) === initialSideAxis)) { // Try next placement and re-run the lifecycle. return { data: { index: nextIndex, overflows: overflowsData }, reset: { placement: nextPlacement } }; } } // First, find the candidates that fit on the mainAxis side of overflow, // then find the placement that fits the best on the main crossAxis side. let resetPlacement = (_overflowsData$filter = overflowsData.filter(d => d.overflows[0] <= 0).sort((a, b) => a.overflows[1] - b.overflows[1])[0]) == null ? void 0 : _overflowsData$filter.placement; // Otherwise fallback. if (!resetPlacement) { switch (fallbackStrategy) { case 'bestFit': { var _overflowsData$filter2; const placement = (_overflowsData$filter2 = overflowsData.filter(d => { if (hasFallbackAxisSideDirection) { const currentSideAxis = getSideAxis(d.placement); return currentSideAxis === initialSideAxis || // Create a bias to the `y` side axis due to horizontal // reading directions favoring greater width. currentSideAxis === 'y'; } return true; }).map(d => [d.placement, d.overflows.filter(overflow => overflow > 0).reduce((acc, overflow) => acc + overflow, 0)]).sort((a, b) => a[1] - b[1])[0]) == null ? void 0 : _overflowsData$filter2[0]; if (placement) { resetPlacement = placement; } break; } case 'initialPlacement': resetPlacement = initialPlacement; break; } } if (placement !== resetPlacement) { return { reset: { placement: resetPlacement } }; } } return {}; } }; }; // For type backwards-compatibility, the `OffsetOptions` type was also // Derivable. async function convertValueToCoords(state, options) { const { placement, platform, elements } = state; const rtl = await (platform.isRTL == null ? void 0 : platform.isRTL(elements.floating)); const side = getSide(placement); const alignment = getAlignment(placement); const isVertical = getSideAxis(placement) === 'y'; const mainAxisMulti = ['left', 'top'].includes(side) ? -1 : 1; const crossAxisMulti = rtl && isVertical ? -1 : 1; const rawValue = evaluate(options, state); // eslint-disable-next-line prefer-const let { mainAxis, crossAxis, alignmentAxis } = typeof rawValue === 'number' ? { mainAxis: rawValue, crossAxis: 0, alignmentAxis: null } : { mainAxis: rawValue.mainAxis || 0, crossAxis: rawValue.crossAxis || 0, alignmentAxis: rawValue.alignmentAxis }; if (alignment && typeof alignmentAxis === 'number') { crossAxis = alignment === 'end' ? alignmentAxis * -1 : alignmentAxis; } return isVertical ? { x: crossAxis * crossAxisMulti, y: mainAxis * mainAxisMulti } : { x: mainAxis * mainAxisMulti, y: crossAxis * crossAxisMulti }; } /** * Modifies the placement by translating the floating element along the * specified axes. * A number (shorthand for `mainAxis` or distance), or an axes configuration * object may be passed. * @see https://floating-ui.com/docs/offset */ const offset$1 = function (options) { if (options === void 0) { options = 0; } return { name: 'offset', options, async fn(state) { var _middlewareData$offse, _middlewareData$arrow; const { x, y, placement, middlewareData } = state; const diffCoords = await convertValueToCoords(state, options); // If the placement is the same and the arrow caused an alignment offset // then we don't need to change the positioning coordinates. if (placement === ((_middlewareData$offse = middlewareData.offset) == null ? void 0 : _middlewareData$offse.placement) && (_middlewareData$arrow = middlewareData.arrow) != null && _middlewareData$arrow.alignmentOffset) { return {}; } return { x: x + diffCoords.x, y: y + diffCoords.y, data: { ...diffCoords, placement } }; } }; }; /** * Optimizes the visibility of the floating element by shifting it in order to * keep it in view when it will overflow the clipping boundary. * @see https://floating-ui.com/docs/shift */ const shift$1 = function (options) { if (options === void 0) { options = {}; } return { name: 'shift', options, async fn(state) { const { x, y, placement } = state; const { mainAxis: checkMainAxis = true, crossAxis: checkCrossAxis = false, limiter = { fn: _ref => { let { x, y } = _ref; return { x, y }; } }, ...detectOverflowOptions } = evaluate(options, state); const coords = { x, y }; const overflow = await detectOverflow(state, detectOverflowOptions); const crossAxis = getSideAxis(getSide(placement)); const mainAxis = getOppositeAxis(crossAxis); let mainAxisCoord = coords[mainAxis]; let crossAxisCoord = coords[crossAxis]; if (checkMainAxis) { const minSide = mainAxis === 'y' ? 'top' : 'left'; const maxSide = mainAxis === 'y' ? 'bottom' : 'right'; const min = mainAxisCoord + overflow[minSide]; const max = mainAxisCoord - overflow[maxSide]; mainAxisCoord = clamp(min, mainAxisCoord, max); } if (checkCrossAxis) { const minSide = crossAxis === 'y' ? 'top' : 'left'; const maxSide = crossAxis === 'y' ? 'bottom' : 'right'; const min = crossAxisCoord + overflow[minSide]; const max = crossAxisCoord - overflow[maxSide]; crossAxisCoord = clamp(min, crossAxisCoord, max); } const limitedCoords = limiter.fn({ ...state, [mainAxis]: mainAxisCoord, [crossAxis]: crossAxisCoord }); return { ...limitedCoords, data: { x: limitedCoords.x - x, y: limitedCoords.y - y, enabled: { [mainAxis]: checkMainAxis, [crossAxis]: checkCrossAxis } } }; } }; }; function hasWindow() { return typeof window !== 'undefined'; } function getNodeName(node) { if (isNode(node)) { return (node.nodeName || '').toLowerCase(); } // Mocked nodes in testing environments may not be instances of Node. By // returning `#document` an infinite loop won't occur. // https://github.com/floating-ui/floating-ui/issues/2317 return '#document'; } function getWindow(node) { var _node$ownerDocument; return (node == null || (_node$ownerDocument = node.ownerDocument) == null ? void 0 : _node$ownerDocument.defaultView) || window; } function getDocumentElement(node) { var _ref; return (_ref = (isNode(node) ? node.ownerDocument : node.document) || window.document) == null ? void 0 : _ref.documentElement; } function isNode(value) { if (!hasWindow()) { return false; } return value instanceof Node || value instanceof getWindow(value).Node; } function isElement(value) { if (!hasWindow()) { return false; } return value instanceof Element || value instanceof getWindow(value).Element; } function isHTMLElement(value) { if (!hasWindow()) { return false; } return value instanceof HTMLElement || value instanceof getWindow(value).HTMLElement; } function isShadowRoot(value) { if (!hasWindow() || typeof ShadowRoot === 'undefined') { return false; } return value instanceof ShadowRoot || value instanceof getWindow(value).ShadowRoot; } function isOverflowElement(element) { const { overflow, overflowX, overflowY, display } = getComputedStyle(element); return /auto|scroll|overlay|hidden|clip/.test(overflow + overflowY + overflowX) && !['inline', 'contents'].includes(display); } function isTableElement(element) { return ['table', 'td', 'th'].includes(getNodeName(element)); } function isTopLayer(element) { return [':popover-open', ':modal'].some(selector => { try { return element.matches(selector); } catch (e) { return false; } }); } function isContainingBlock(elementOrCss) { const webkit = isWebKit(); const css = isElement(elementOrCss) ? getComputedStyle(elementOrCss) : elementOrCss; // https://developer.mozilla.org/en-US/docs/Web/CSS/Containing_block#identifying_the_containing_block // https://drafts.csswg.org/css-transforms-2/#individual-transforms return ['transform', 'translate', 'scale', 'rotate', 'perspective'].some(value => css[value] ? css[value] !== 'none' : false) || (css.containerType ? css.containerType !== 'normal' : false) || !webkit && (css.backdropFilter ? css.backdropFilter !== 'none' : false) || !webkit && (css.filter ? css.filter !== 'none' : false) || ['transform', 'translate', 'scale', 'rotate', 'perspective', 'filter'].some(value => (css.willChange || '').includes(value)) || ['paint', 'layout', 'strict', 'content'].some(value => (css.contain || '').includes(value)); } function getContainingBlock(element) { let currentNode = getParentNode(element); while (isHTMLElement(currentNode) && !isLastTraversableNode(currentNode)) { if (isContainingBlock(currentNode)) { return currentNode; } else if (isTopLayer(currentNode)) { return null; } currentNode = getParentNode(currentNode); } return null; } function isWebKit() { if (typeof CSS === 'undefined' || !CSS.supports) return false; return CSS.supports('-webkit-backdrop-filter', 'none'); } function isLastTraversableNode(node) { return ['html', 'body', '#document'].includes(getNodeName(node)); } function getComputedStyle(element) { return getWindow(element).getComputedStyle(element); } function getNodeScroll(element) { if (isElement(element)) { return { scrollLeft: element.scrollLeft, scrollTop: element.scrollTop }; } return { scrollLeft: element.scrollX, scrollTop: element.scrollY }; } function getParentNode(node) { if (getNodeName(node) === 'html') { return node; } const result = // Step into the shadow DOM of the parent of a slotted node. node.assignedSlot || // DOM Element detected. node.parentNode || // ShadowRoot detected. isShadowRoot(node) && node.host || // Fallback. getDocumentElement(node); return isShadowRoot(result) ? result.host : result; } function getNearestOverflowAncestor(node) { const parentNode = getParentNode(node); if (isLastTraversableNode(parentNode)) { return node.ownerDocument ? node.ownerDocument.body : node.body; } if (isHTMLElement(parentNode) && isOverflowElement(parentNode)) { return parentNode; } return getNearestOverflowAncestor(parentNode); } function getOverflowAncestors(node, list, traverseIframes) { var _node$ownerDocument2; if (list === void 0) { list = []; } const scrollableAncestor = getNearestOverflowAncestor(node); const isBody = scrollableAncestor === ((_node$ownerDocument2 = node.ownerDocument) == null ? void 0 : _node$ownerDocument2.body); const win = getWindow(scrollableAncestor); if (isBody) { return list.concat(win, win.visualViewport || [], isOverflowElement(scrollableAncestor) ? scrollableAncestor : [], []); } return list.concat(scrollableAncestor, getOverflowAncestors(scrollableAncestor, [])); } function getFrameElement(win) { return win.parent && Object.getPrototypeOf(win.parent) ? win.frameElement : null; } function getCssDimensions(element) { const css = getComputedStyle(element); // In testing environments, the `width` and `height` properties are empty // strings for SVG elements, returning NaN. Fallback to `0` in this case. let width = parseFloat(css.width) || 0; let height = parseFloat(css.height) || 0; const hasOffset = isHTMLElement(element); const offsetWidth = hasOffset ? element.offsetWidth : width; const offsetHeight = hasOffset ? element.offsetHeight : height; const shouldFallback = round(width) !== offsetWidth || round(height) !== offsetHeight; if (shouldFallback) { width = offsetWidth; height = offsetHeight; } return { width, height, $: shouldFallback }; } function unwrapElement(element) { return !isElement(element) ? element.contextElement : element; } function getScale(element) { const domElement = unwrapElement(element); if (!isHTMLElement(domElement)) { return createCoords(1); } const rect = domElement.getBoundingClientRect(); const { width, height, $ } = getCssDimensions(domElement); let x = ($ ? round(rect.width) : rect.width) / width; let y = ($ ? round(rect.height) : rect.height) / height; // 0, NaN, or Infinity should always fallback to 1. if (!x || !Number.isFinite(x)) { x = 1; } if (!y || !Number.isFinite(y)) { y = 1; } return { x, y }; } const noOffsets = /*#__PURE__*/createCoords(0); function getVisualOffsets(element) { const win = getWindow(element); if (!isWebKit() || !win.visualViewport) { return noOffsets; } return { x: win.visualViewport.offsetLeft, y: win.visualViewport.offsetTop }; } function shouldAddVisualOffsets(element, isFixed, floatingOffsetParent) { if (isFixed === void 0) { isFixed = false; } if (!floatingOffsetParent || isFixed && floatingOffsetParent !== getWindow(element)) { return false; } return isFixed; } function getBoundingClientRect(element, includeScale, isFixedStrategy, offsetParent) { if (includeScale === void 0) { includeScale = false; } if (isFixedStrategy === void 0) { isFixedStrategy = false; } const clientRect = element.getBoundingClientRect(); const domElement = unwrapElement(element); let scale = createCoords(1); if (includeScale) { if (offsetParent) { if (isElement(offsetParent)) { scale = getScale(offsetParent); } } else { scale = getScale(element); } } const visualOffsets = shouldAddVisualOffsets(domElement, isFixedStrategy, offsetParent) ? getVisualOffsets(domElement) : createCoords(0); let x = (clientRect.left + visualOffsets.x) / scale.x; let y = (clientRect.top + visualOffsets.y) / scale.y; let width = clientRect.width / scale.x; let height = clientRect.height / scale.y; if (domElement) { const win = getWindow(domElement); const offsetWin = offsetParent && isElement(offsetParent) ? getWindow(offsetParent) : offsetParent; let currentWin = win; let currentIFrame = getFrameElement(currentWin); while (currentIFrame && offsetParent && offsetWin !== currentWin) { const iframeScale = getScale(currentIFrame); const iframeRect = currentIFrame.getBoundingClientRect(); const css = getComputedStyle(currentIFrame); const left = iframeRect.left + (currentIFrame.clientLeft + parseFloat(css.paddingLeft)) * iframeScale.x; const top = iframeRect.top + (currentIFrame.clientTop + parseFloat(css.paddingTop)) * iframeScale.y; x *= iframeScale.x; y *= iframeScale.y; width *= iframeScale.x; height *= iframeScale.y; x += left; y += top; currentWin = getWindow(currentIFrame); currentIFrame = getFrameElement(currentWin); } } return rectToClientRect({ width, height, x, y }); } // If <html> has a CSS width greater than the viewport, then this will be // incorrect for RTL. function getWindowScrollBarX(element, rect) { const leftScroll = getNodeScroll(element).scrollLeft; if (!rect) { return getBoundingClientRect(getDocumentElement(element)).left + leftScroll; } return rect.left + leftScroll; } function getHTMLOffset(documentElement, scroll, ignoreScrollbarX) { if (ignoreScrollbarX === void 0) { ignoreScrollbarX = false; } const htmlRect = documentElement.getBoundingClientRect(); const x = htmlRect.left + scroll.scrollLeft - (ignoreScrollbarX ? 0 : // RTL <body> scrollbar. getWindowScrollBarX(documentElement, htmlRect)); const y = htmlRect.top + scroll.scrollTop; return { x, y }; } function convertOffsetParentRelativeRectToViewportRelativeRect(_ref) { let { elements, rect, offsetParent, strategy } = _ref; const isFixed = strategy === 'fixed'; const documentElement = getDocumentElement(offsetParent); const topLayer = elements ? isTopLayer(elements.floating) : false; if (offsetParent === documentElement || topLayer && isFixed) { return rect; } let scroll = { scrollLeft: 0, scrollTop: 0 }; let scale = createCoords(1); const offsets = createCoords(0); const isOffsetParentAnElement = isHTMLElement(offsetParent); if (isOffsetParentAnElement || !isOffsetParentAnElement && !isFixed) { if (getNodeName(offsetParent) !== 'body' || isOverflowElement(documentElement)) { scroll = getNodeScroll(offsetParent); } if (isHTMLElement(offsetParent)) { const offsetRect = getBoundingClientRect(offsetParent); scale = getScale(offsetParent); offsets.x = offsetRect.x + offsetParent.clientLeft; offsets.y = offsetRect.y + offsetParent.clientTop; } } const htmlOffset = documentElement && !isOffsetParentAnElement && !isFixed ? getHTMLOffset(documentElement, scroll, true) : createCoords(0); return { width: rect.width * scale.x, height: rect.height * scale.y, x: rect.x * scale.x - scroll.scrollLeft * scale.x + offsets.x + htmlOffset.x, y: rect.y * scale.y - scroll.scrollTop * scale.y + offsets.y + htmlOffset.y }; } function getClientRects(element) { return Array.from(element.getClientRects()); } // Gets the entire size of the scrollable document area, even extending outside // of the `<html>` and `<body>` rect bounds if horizontally scrollable. function getDocumentRect(element) { const html = getDocumentElement(element); const scroll = getNodeScroll(element); const body = element.ownerDocument.body; const width = max(html.scrollWidth, html.clientWidth, body.scrollWidth, body.clientWidth); const height = max(html.scrollHeight, html.clientHeight, body.scrollHeight, body.clientHeight); let x = -scroll.scrollLeft + getWindowScrollBarX(element); const y = -scroll.scrollTop; if (getComputedStyle(body).direction === 'rtl') { x += max(html.clientWidth, body.clientWidth) - width; } return { width, height, x, y }; } function getViewportRect(element, strategy) { const win = getWindow(element); const html = getDocumentElement(element); const visualViewport = win.visualViewport; let width = html.clientWidth; let height = html.clientHeight; let x = 0; let y = 0; if (visualViewport) { width = visualViewport.width; height = visualViewport.height; const visualViewportBased = isWebKit(); if (!visualViewportBased || visualViewportBased && strategy === 'fixed') { x = visualViewport.offsetLeft; y = visualViewport.offsetTop; } } return { width, height, x, y }; } // Returns the inner client rect, subtracting scrollbars if present. function getInnerBoundingClientRect(element, strategy) { const clientRect = getBoundingClientRect(element, true, strategy === 'fixed'); const top = clientRect.top + element.clientTop; const left = clientRect.left + element.clientLeft; const scale = isHTMLElement(element) ? getScale(element) : createCoords(1); const width = element.clientWidth * scale.x; const height = element.clientHeight * scale.y; const x = left * scale.x; const y = top * scale.y; return { width, height, x, y }; } function getClientRectFromClippingAncestor(element, clippingAncestor, strategy) { let rect; if (clippingAncestor === 'viewport') { rect = getViewportRect(element, strategy); } else if (clippingAncestor === 'document') { rect = getDocumentRect(getDocumentElement(element)); } else if (isElement(clippingAncestor)) { rect = getInnerBoundingClientRect(clippingAncestor, strategy); } else { const visualOffsets = getVisualOffsets(element); rect = { x: clippingAncestor.x - visualOffsets.x, y: clippingAncestor.y - visualOffsets.y, width: clippingAncestor.width, height: clippingAncestor.height }; } return rectToClientRect(rect); } function hasFixedPositionAncestor(element, stopNode) { const parentNode = getParentNode(element); if (parentNode === stopNode || !isElement(parentNode) || isLastTraversableNode(parentNode)) { return false; } return getComputedStyle(parentNode).position === 'fixed' || hasFixedPositionAncestor(parentNode, stopNode); } // A "clipping ancestor" is an `overflow` element with the characteristic of // clipping (or hiding) child elements. This returns all clipping ancestors // of the given element up the tree. function getClippingElementAncestors(element, cache) { const cachedResult = cache.get(element); if (cachedResult) { return cachedResult; } let result = getOverflowAncestors(element, []).filter(el => isElement(el) && getNodeName(el) !== 'body'); let currentContainingBlockComputedStyle = null; const elementIsFixed = getComputedStyle(element).position === 'fixed'; let currentNode = elementIsFixed ? getParentNode(element) : element; // https://developer.mozilla.org/en-US/docs/Web/CSS/Containing_block#identifying_the_containing_block while (isElement(currentNode) && !isLastTraversableNode(currentNode)) { const computedStyle = getComputedStyle(currentNode); const currentNodeIsContaining = isContainingBlock(currentNode); if (!currentNodeIsContaining && computedStyle.position === 'fixed') { currentContainingBlockComputedStyle = null; } const shouldDropCurrentNode = elementIsFixed ? !currentNodeIsContaining && !currentContainingBlockComputedStyle : !currentNodeIsContaining && computedStyle.position === 'static' && !!currentContainingBlockComputedStyle && ['absolute', 'fixed'].includes(currentContainingBlockComputedStyle.position) || isOverflowElement(currentNode) && !currentNodeIsContaining && hasFixedPositionAncestor(element, currentNode); if (shouldDropCurrentNode) { // Drop non-containing blocks. result = result.filter(ancestor => ancestor !== currentNode); } else { // Record last containing block for next iteration. currentContainingBlockComputedStyle = computedStyle; } currentNode = getParentNode(currentNode); } cache.set(element, result); return result; } // Gets the maximum area that the element is visible in due to any number of // clipping ancestors. function getClippingRect(_ref) { let { element, boundary, rootBoundary, strategy } = _ref; const elementClippingAncestors = boundary === 'clippingAncestors' ? isTopLayer(element) ? [] : getClippingElementAncestors(element, this._c) : [].concat(boundary); const clippingAncestors = [...elementClippingAncestors, rootBoundary]; const firstClippingAncestor = clippingAncestors[0]; const clippingRect = clippingAncestors.reduce((accRect, clippingAncestor) => { const rect = getClientRectFromClippingAncestor(element, clippingAncestor, strategy); accRect.top = max(rect.top, accRect.top); accRect.right = min(rect.right, accRect.right); accRect.bottom = min(rect.bottom, accRect.bottom); accRect.left = max(rect.left, accRect.left); return accRect; }, getClientRectFromClippingAncestor(element, firstClippingAncestor, strategy)); return { width: clippingRect.right - clippingRect.left, height: clippingRect.bottom - clippingRect.top, x: clippingRect.left, y: clippingRect.top }; } function getDimensions(element) { const { width, height } = getCssDimensions(element); return { width, height }; } function getRectRelativeToOffsetParent(element, offsetParent, strategy) { const isOffsetParentAnElement = isHTMLElement(offsetParent); const documentElement = getDocumentElement(offsetParent); const isFixed = strategy === 'fixed'; const rect = getBoundingClientRect(element, true, isFixed, offsetParent); let scroll = { scrollLeft: 0, scrollTop: 0 }; const offsets = createCoords(0); // If the <body> scrollbar appears on the left (e.g. RTL systems). Use // Firefox with layout.scrollbar.side = 3 in about:config to test this. function setLeftRTLScrollbarOffset() { offsets.x = getWindowScrollBarX(documentElement); } if (isOffsetParentAnElement || !isOffsetParentAnElement && !isFixed) { if (getNodeName(offsetParent) !== 'body' || isOverflowElement(documentElement)) { scroll = getNodeScroll(offsetParent); } if (isOffsetParentAnElement) { const offsetRect = getBoundingClientRect(offsetParent, true, isFixed, offsetParent); offsets.x = offsetRect.x + offsetParent.clientLeft; offsets.y = offsetRect.y + offsetParent.clientTop; } else if (documentElement) { setLeftRTLScrollbarOffset(); } } if (isFixed && !isOffsetParentAnElement && documentElement) { setLeftRTLScrollbarOffset(); } const htmlOffset = documentElement && !isOffsetParentAnElement && !isFixed ? getHTMLOffset(documentElement, scroll) : createCoords(0); const x = rect.left + scroll.scrollLeft - offsets.x - htmlOffset.x; const y = rect.top + scroll.scrollTop - offsets.y - htmlOffset.y; return { x, y, width: rect.width, height: rect.height }; } function isStaticPositioned(element) { return getComputedStyle(element).position === 'static'; } function getTrueOffsetParent(element, polyfill) { if (!isHTMLElement(element) || getComputedStyle(element).position === 'fixed') { return null; } if (polyfill) { return polyfill(element); } let rawOffsetParent = element.offsetParent; // Firefox returns the <html> element as the offsetParent if it's non-static, // while Chrome and Safari return the <body> element. The <body> element must // be used to perform the correct calculations even if the <html> element is // non-static. if (getDocumentElement(element) === rawOffsetParent) { rawOffsetParent = rawOffsetParent.ownerDocument.body; } return rawOffsetParent; } // Gets the closest ancestor positioned element. Handles some edge cases, // such as table ancestors and cross browser bugs. function getOffsetParent(element, polyfill) { const win = getWindow(element); if (isTopLayer(element)) { return win; } if (!isHTMLElement(element)) { let svgOffsetParent = getParentNode(element); while (svgOffsetParent && !isLastTraversableNode(svgOffsetParent)) { if (isElement(svgOffsetParent) && !isStaticPositioned(svgOffsetParent)) { return svgOffsetParent; } svgOffsetParent = getParentNode(svgOffsetParent); } return win; } let offsetParent = getTrueOffsetParent(element, polyfill); while (offsetParent && isTableElement(offsetParent) && isStaticPositioned(offsetParent)) { offsetParent = getTrueOffsetParent(offsetParent, polyfill); } if (offsetParent && isLastTraversableNode(offsetParent) && isStaticPositioned(offsetParent) && !isContainingBlock(offsetParent)) { return win; } return offsetParent || getContainingBlock(element) || win; } const getElementRects = async function (data) { const getOffsetParentFn = this.getOffsetParent || getOffsetParent; const getDimensionsFn = this.getDimensions; const floatingDimensions = await getDimensionsFn(data.floating); return { reference: getRectRelativeToOffsetParent(data.reference, await getOffsetParentFn(data.floating), data.strategy), floating: { x: 0, y: 0, width: floatingDimensions.width, height: floatingDimensions.height } }; }; function isRTL(element) { return getComputedStyle(element).direction === 'rtl'; } const platform = { convertOffsetParentRelativeRectToViewportRelativeRect, getDocumentElement, getClippingRect, getOffsetParent, getElementRects, getClientRects, getDimensions, getScale, isElement, isRTL }; /** * Modifies the placement by translating the floating element along the * specified axes. * A number (shorthand for `mainAxis` or distance), or an axes configuration * object may be passed. * @see https://floating-ui.com/docs/offset */ const offset = offset$1; /** * Optimizes the visibility of the floating element by shifting it in order to * keep it in view when it will overflow the clipping boundary. * @see https://floating-ui.com/docs/shift */ const shift = shift$1; /** * Optimizes the visibility of the floating element by flipping the `placement` * in order to keep it in view when the preferred placement(s) will overflow the * clipping boundary. Alternative to `autoPlacement`. * @see https://floating-ui.com/docs/flip */ const flip = flip$1; /** * Computes the `x` and `y` coordinates that will place the floating element * next to a given reference element. */ const computePosition = (reference, floating, options) => { // This caches the expensive `getClippingElementAncestors` function so that // multiple lifecycle resets re-use the same result. It only lives for a // single call. If other functions become expensive, we can add them as well. const cache = new Map(); const mergedOptions = { platform, ...options }; const platformWithCache = { ...mergedOptions.platform, _c: cache }; return computePosition$1(reference, floating, { ...mergedOptions, platform: platformWithCache }); }; const modusWcDropdownMenuCss = "modus-wc-dropdown-menu.modus-wc-dropdown-menu .menu-wrapper{left:0;position:absolute;top:0;width:max-content}"; const ModusWcDropdownMenu$1 = /*@__PURE__*/ proxyCustomElement(class ModusWcDropdownMenu extends H { constructor() { super(); this.__registerHost(); this.menuVisibilityChange = createEvent(this, "menuVisibilityChange"); this.inheritedAttributes = {}; /** The color variant of the button. */ this.buttonColor = 'primary'; /** The size of the button. */ this.buttonSize = 'md'; /** The variant of the button. */ this.buttonVariant = 'filled'; /** Custom CSS class to apply to the host element. */ this.customClass = ''; /** If true, the button will be disabled. */ this.disabled = false; /** Indicates that the menu should have a border. */ this.menuBordered = true; /** Distance between the button and menu in pixels. */ this.menuOffset = 10; /** The placement of the menu relative to the button. */ this.menuPlacement = 'bottom-start'; /** The size of the menu. */ this.menuSize = 'md'; /** Indicates that the menu is visible. */ this.menuVisible = false; this.menuPosition = { x: 0, y: 0 }; this.handleButtonClick = () => { const newVisibility = !this.menuVisible; this.menuVisible = newVisibility; this.menuVisibilityChange.emit({ isVisible: newVisibility }); }; this.updateMenuPosition = async () => { // istanbul ignore next if (!this.buttonRef || !this.menuRef) return; const { x, y } = await computePosition(this.buttonRef, this.menuRef, { placement: this.menuPlacement, middleware: [offset(this.menuOffset), flip(), shift({ padding: 8 })], }); this.menuPosition = { x, y }; }; } handleDocumentClick(event) { const path = event.composedPath(); // Close the menu when the user clicks outside the component if (!path.includes(this.el) && this.menuVisible) { this.menuVisible = false; this.menuVisibilityChange.emit({ isVisible: false }); } } handleKeyDown(event) { // Close the menu when the user clicks escape if (event.key === 'Escape' && this.menuVisible) { this.menuVisible = false; this.menuVisibilityChange.emit({ isVisible: false }); } } async onMenuVisibilityChange(newValue) { if (newValue) { await this.updateMenuPosition(); } } componentDidLoad() { this.buttonRef = this.el.querySelector('modus-wc-button'); } componentWillLoad() { this.inheritedAttributes = inheritAriaAttributes(this.el); } getClasses() { const classList = ['modus-wc-dropdown-menu']; // The order CSS classes are added matters to CSS specificity if (this.customClass) classList.push(this.customClass); return classList.join(' '); } render() { return (h(Host, Object.assign({ key: '2aec2909700b23ffa040648d0cfdebe03dfd5024', class: this.getClasses() }, this.inheritedAttributes), h("modus-wc-button", { key: '26c922324f07a452e568c1987c3cbdc92599c962', "aria-expanded": this.menuVisible.toString(), "aria-haspopup": "true", "aria-label": this.buttonAriaLabel, color: this.buttonColor, disabled: this.disabled, onButtonClick: this.handleButtonClick, size: this.buttonSize, variant: this.buttonVariant }, h("slot", { key: '08a62b131414ebe431105666acd3021e41b67451', name: "button" })), h("div", { key: '9e6729e97cd0043f8c7e48eee665ca0d4cb731a1', "aria-hidden": !this.menuVisible, class: "menu-wrapper", ref: (el) => (this.menuRef = el), style: { // Positioning position: 'absolute', top: `${this.menuPosition.y}px`, left: `${this.menuPosition.x}px`, zIndex: '1000', // Visibility visibility: this.menuVisible ? 'visible' : 'hidden', opacity: this.menuVisible ? '1' : '0', pointerEvents: this.menuVisible ? 'auto' : 'none', } }, h("modus-wc-menu", { key: 'd7478223f33db56bcc1978ae552390d1dd28a53e', bordered: this.menuBordered, size: this.menuSize }, h("slot", { key: '2060d1289751a8c27320b846f8f46d501f71f149', name: "menu" }))))); } get el() { return this; } static get watchers() { return { "menuVisible": ["onMenuVisibilityChange"] }; } static get style() { return modusWcDropdownMenuCss; } }, [4, "modus-wc-dropdown-menu", { "buttonAriaLabel": [1, "button-aria-label"], "buttonColor": [1, "button-color"], "buttonSize": [1, "button-size"], "buttonVariant": [1, "button-variant"], "customClass": [1, "custom-class"], "disabled": [4], "menuBordered": [4, "menu-bordered"], "menuOffset": [2, "menu-offset"], "menuPlacement": [1, "menu-placement"], "menuSize": [1, "menu-size"], "menuVisible": [1028, "menu-visible"], "menuPosition": [32] }, [[4, "click", "handleDocumentClick"], [0, "keydown", "handleKeyDown"]], { "menuVisible": ["onMenuVisibilityChange"] }]); function defineCustomElement$1() { if (typeof customElements === "undefined") { return; } const components = ["modus-wc-dropdown-menu", "modus-wc-button", "modus-wc-menu"]; components.forEach(tagName => { switch (tagName) { case "modus-wc-dropdown-menu": if (!customElements.get(tagName)) { customElements.define(tagName, ModusWcDropdownMenu$1); } break; case "modus-wc-button": if (!customElements.get(tagName)) { defineCustomElement$3(); } break; case "modus-wc-menu": if (!customElements.get(tagName)) { defineCustomElement$2(); } break; } }); } const ModusWcDropdownMenu = ModusWcDropdownMenu$1; const defineCustomElement = defineCustomElement$1; export { ModusWcDropdownMenu, defineCustomElement };