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bootstrap-vue-next

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BootstrapVueNext is an early and lovely component library for Vue 3 & Nuxt 3 based on Bootstrap 5 and Typescript.

github.com/bootstrap-vue-next/bootstrap-vue-next

bootstrap-vue-next/bootstrap-vue-next

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import { computed, ref, shallowRef, watch, getCurrentScope, onScopeDispose, shallowReadonly, unref, defineComponent, mergeModels, useAttrs, useSlots, useModel, useTemplateRef, toRef, onMounted, nextTick, onBeforeUnmount, createElementBlock, openBlock, Fragment, createElementVNode, renderSlot, createVNode, normalizeProps, guardReactiveProps, withCtx, createBlock, createCommentVNode, Transition, mergeProps, withDirectives, normalizeStyle, normalizeClass, createTextVNode, toDisplayString, vShow, toValue as toValue$1, render, h } from "vue"; import { p as useMouse$1, a as onClickOutside } from "./index-CMqRvrZx.mjs"; import { u as useDefaults } from "./useDefaults-CzkRF2AY.mjs"; import { v as createSharedComposable, u as useToNumber } from "./index-CaguhSuF.mjs"; import { u as useId } from "./useId-BmZnPXsS.mjs"; import { g as getElement } from "./getElement-WfnRgCbF.mjs"; import { _ as _sfc_main$1 } from "./ConditionalTeleport.vue_vue_type_script_lang-BCI6afpC.mjs"; import { u as useShowHide } from "./useShowHide-CguGFDSN.mjs"; import { _ as _export_sfc } from "./_plugin-vue_export-helper-1tPrXgE0.mjs"; const sides = ["top", "right", "bottom", "left"]; const alignments = ["start", "end"]; const placements = /* @__PURE__ */ sides.reduce((acc, side) => acc.concat(side, side + "-" + alignments[0], side + "-" + alignments[1]), []); const min = Math.min; const max = Math.max; const round = Math.round; const floor = Math.floor; 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; } const computePosition$1 = async (reference, floating, config) => { const { placement = "bottom", strategy = "absolute", middleware = [], platform: platform2 } = config; const validMiddleware = middleware.filter(Boolean); const rtl = await (platform2.isRTL == null ? void 0 : platform2.isRTL(floating)); let rects = await platform2.getElementRects({ reference, floating, strategy }); let { x, y } = computeCoordsFromPlacement(rects, placement, rtl); let statefulPlacement = placement; let middlewareData = {}; let resetCount = 0; for (let i = 0; i < validMiddleware.length; i++) { const { name, fn } = validMiddleware[i]; const { x: nextX, y: nextY, data, reset } = await fn({ x, y, initialPlacement: placement, placement: statefulPlacement, strategy, middlewareData, rects, platform: platform2, elements: { reference, floating } }); x = nextX != null ? nextX : x; y = nextY != null ? nextY : y; middlewareData = { ...middlewareData, [name]: { ...middlewareData[name], ...data } }; if (reset && resetCount <= 50) { resetCount++; if (typeof reset === "object") { if (reset.placement) { statefulPlacement = reset.placement; } if (reset.rects) { rects = reset.rects === true ? await platform2.getElementRects({ reference, floating, strategy }) : reset.rects; } ({ x, y } = computeCoordsFromPlacement(rects, statefulPlacement, rtl)); } i = -1; } } return { x, y, placement: statefulPlacement, strategy, middlewareData }; }; async function detectOverflow(state, options) { var _await$platform$isEle; if (options === void 0) { options = {}; } const { x, y, platform: platform2, rects, elements, strategy } = state; const { boundary = "clippingAncestors", rootBoundary = "viewport", elementContext = "floating", altBoundary = false, padding = 0 } = evaluate(options, state); const paddingObject = getPaddingObject(padding); const altContext = elementContext === "floating" ? "reference" : "floating"; const element = elements[altBoundary ? altContext : elementContext]; const clippingClientRect = rectToClientRect(await platform2.getClippingRect({ element: ((_await$platform$isEle = await (platform2.isElement == null ? void 0 : platform2.isElement(element))) != null ? _await$platform$isEle : true) ? element : element.contextElement || await (platform2.getDocumentElement == null ? void 0 : platform2.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 (platform2.getOffsetParent == null ? void 0 : platform2.getOffsetParent(elements.floating)); const offsetScale = await (platform2.isElement == null ? void 0 : platform2.isElement(offsetParent)) ? await (platform2.getScale == null ? void 0 : platform2.getScale(offsetParent)) || { x: 1, y: 1 } : { x: 1, y: 1 }; const elementClientRect = rectToClientRect(platform2.convertOffsetParentRelativeRectToViewportRelativeRect ? await platform2.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 }; } const arrow$2 = (options) => ({ name: "arrow", options, async fn(state) { const { x, y, placement, rects, platform: platform2, elements, middlewareData } = state; const { element, padding = 0 } = evaluate(options, state) || {}; if (element == null) { return {}; } const paddingObject = getPaddingObject(padding); const coords = { x, y }; const axis = getAlignmentAxis(placement); const length = getAxisLength(axis); const arrowDimensions = await platform2.getDimensions(element); const isYAxis = axis === "y"; const minProp = isYAxis ? "top" : "left"; const maxProp = isYAxis ? "bottom" : "right"; const clientProp = isYAxis ? "clientHeight" : "clientWidth"; const endDiff = rects.reference[length] + rects.reference[axis] - coords[axis] - rects.floating[length]; const startDiff = coords[axis] - rects.reference[axis]; const arrowOffsetParent = await (platform2.getOffsetParent == null ? void 0 : platform2.getOffsetParent(element)); let clientSize = arrowOffsetParent ? arrowOffsetParent[clientProp] : 0; if (!clientSize || !await (platform2.isElement == null ? void 0 : platform2.isElement(arrowOffsetParent))) { clientSize = elements.floating[clientProp] || rects.floating[length]; } const centerToReference = endDiff / 2 - startDiff / 2; const largestPossiblePadding = clientSize / 2 - arrowDimensions[length] / 2 - 1; const minPadding = min(paddingObject[minProp], largestPossiblePadding); const maxPadding = min(paddingObject[maxProp], largestPossiblePadding); const min$1 = minPadding; const max2 = clientSize - arrowDimensions[length] - maxPadding; const center = clientSize / 2 - arrowDimensions[length] / 2 + centerToReference; const offset2 = clamp(min$1, center, max2); const shouldAddOffset = !middlewareData.arrow && getAlignment(placement) != null && center !== offset2 && rects.reference[length] / 2 - (center < min$1 ? minPadding : maxPadding) - arrowDimensions[length] / 2 < 0; const alignmentOffset = shouldAddOffset ? center < min$1 ? center - min$1 : center - max2 : 0; return { [axis]: coords[axis] + alignmentOffset, data: { [axis]: offset2, centerOffset: center - offset2 - alignmentOffset, ...shouldAddOffset && { alignmentOffset } }, reset: shouldAddOffset }; } }); function getPlacementList(alignment, autoAlignment, allowedPlacements) { const allowedPlacementsSortedByAlignment = alignment ? [...allowedPlacements.filter((placement) => getAlignment(placement) === alignment), ...allowedPlacements.filter((placement) => getAlignment(placement) !== alignment)] : allowedPlacements.filter((placement) => getSide(placement) === placement); return allowedPlacementsSortedByAlignment.filter((placement) => { if (alignment) { return getAlignment(placement) === alignment || (autoAlignment ? getOppositeAlignmentPlacement(placement) !== placement : false); } return true; }); } const autoPlacement$1 = function(options) { if (options === void 0) { options = {}; } return { name: "autoPlacement", options, async fn(state) { var _middlewareData$autoP, _middlewareData$autoP2, _placementsThatFitOnE; const { rects, middlewareData, placement, platform: platform2, elements } = state; const { crossAxis = false, alignment, allowedPlacements = placements, autoAlignment = true, ...detectOverflowOptions } = evaluate(options, state); const placements$1 = alignment !== void 0 || allowedPlacements === placements ? getPlacementList(alignment || null, autoAlignment, allowedPlacements) : allowedPlacements; const overflow = await detectOverflow(state, detectOverflowOptions); const currentIndex = ((_middlewareData$autoP = middlewareData.autoPlacement) == null ? void 0 : _middlewareData$autoP.index) || 0; const currentPlacement = placements$1[currentIndex]; if (currentPlacement == null) { return {}; } const alignmentSides = getAlignmentSides(currentPlacement, rects, await (platform2.isRTL == null ? void 0 : platform2.isRTL(elements.floating))); if (placement !== currentPlacement) { return { reset: { placement: placements$1[0] } }; } const currentOverflows = [overflow[getSide(currentPlacement)], overflow[alignmentSides[0]], overflow[alignmentSides[1]]]; const allOverflows = [...((_middlewareData$autoP2 = middlewareData.autoPlacement) == null ? void 0 : _middlewareData$autoP2.overflows) || [], { placement: currentPlacement, overflows: currentOverflows }]; const nextPlacement = placements$1[currentIndex + 1]; if (nextPlacement) { return { data: { index: currentIndex + 1, overflows: allOverflows }, reset: { placement: nextPlacement } }; } const placementsSortedByMostSpace = allOverflows.map((d) => { const alignment2 = getAlignment(d.placement); return [d.placement, alignment2 && crossAxis ? ( // Check along the mainAxis and main crossAxis side. d.overflows.slice(0, 2).reduce((acc, v) => acc + v, 0) ) : ( // Check only the mainAxis. d.overflows[0] ), d.overflows]; }).sort((a, b) => a[1] - b[1]); const placementsThatFitOnEachSide = placementsSortedByMostSpace.filter((d) => d[2].slice( 0, // Aligned placements should not check their opposite crossAxis // side. getAlignment(d[0]) ? 2 : 3 ).every((v) => v <= 0)); const resetPlacement = ((_placementsThatFitOnE = placementsThatFitOnEachSide[0]) == null ? void 0 : _placementsThatFitOnE[0]) || placementsSortedByMostSpace[0][0]; if (resetPlacement !== placement) { return { data: { index: currentIndex + 1, overflows: allOverflows }, reset: { placement: resetPlacement } }; } return {}; } }; }; const flip$1 = function(options) { if (options === void 0) { options = {}; } return { name: "flip", options, async fn(state) { var _middlewareData$arrow, _middlewareData$flip; const { placement, middlewareData, rects, initialPlacement, platform: platform2, elements } = state; const { mainAxis: checkMainAxis = true, crossAxis: checkCrossAxis = true, fallbackPlacements: specifiedFallbackPlacements, fallbackStrategy = "bestFit", fallbackAxisSideDirection = "none", flipAlignment = true, ...detectOverflowOptions } = evaluate(options, state); if ((_middlewareData$arrow = middlewareData.arrow) != null && _middlewareData$arrow.alignmentOffset) { return {}; } const side = getSide(placement); const initialSideAxis = getSideAxis(initialPlacement); const isBasePlacement = getSide(initialPlacement) === initialPlacement; const rtl = await (platform2.isRTL == null ? void 0 : platform2.isRTL(elements.floating)); const fallbackPlacements = specifiedFallbackPlacements || (isBasePlacement || !flipAlignment ? [getOppositePlacement(initialPlacement)] : getExpandedPlacements(initialPlacement)); const hasFallbackAxisSideDirection = fallbackAxisSideDirection !== "none"; if (!specifiedFallbackPlacements && hasFallbackAxisSideDirection) { fallbackPlacements.push(...getOppositeAxisPlacements(initialPlacement, flipAlignment, fallbackAxisSideDirection, rtl)); } const placements2 = [initialPlacement, ...fallbackPlacements]; const overflow = await detectOverflow(state, detectOverflowOptions); const overflows = []; let overflowsData = ((_middlewareData$flip = middlewareData.flip) == null ? void 0 : _middlewareData$flip.overflows) || []; if (checkMainAxis) { overflows.push(overflow[side]); } if (checkCrossAxis) { const sides2 = getAlignmentSides(placement, rects, rtl); overflows.push(overflow[sides2[0]], overflow[sides2[1]]); } overflowsData = [...overflowsData, { placement, overflows }]; if (!overflows.every((side2) => side2 <= 0)) { var _middlewareData$flip2, _overflowsData$filter; const nextIndex = (((_middlewareData$flip2 = middlewareData.flip) == null ? void 0 : _middlewareData$flip2.index) || 0) + 1; const nextPlacement = placements2[nextIndex]; if (nextPlacement) { return { data: { index: nextIndex, overflows: overflowsData }, reset: { placement: nextPlacement } }; } let resetPlacement = (_overflowsData$filter = overflowsData.filter((d) => d.overflows[0] <= 0).sort((a, b) => a.overflows[1] - b.overflows[1])[0]) == null ? void 0 : _overflowsData$filter.placement; if (!resetPlacement) { switch (fallbackStrategy) { case "bestFit": { var _overflowsData$filter2; const placement2 = (_overflowsData$filter2 = overflowsData.filter((d) => { if (hasFallbackAxisSideDirection) { const currentSideAxis = getSideAxis(d.placement); return currentSideAxis === initialSideAxis || // Create a bias to the `y` side axis due to horizontal // reading directions favoring greater width. currentSideAxis === "y"; } return true; }).map((d) => [d.placement, d.overflows.filter((overflow2) => overflow2 > 0).reduce((acc, overflow2) => acc + overflow2, 0)]).sort((a, b) => a[1] - b[1])[0]) == null ? void 0 : _overflowsData$filter2[0]; if (placement2) { resetPlacement = placement2; } break; } case "initialPlacement": resetPlacement = initialPlacement; break; } } if (placement !== resetPlacement) { return { reset: { placement: resetPlacement } }; } } return {}; } }; }; function getSideOffsets(overflow, rect) { return { top: overflow.top - rect.height, right: overflow.right - rect.width, bottom: overflow.bottom - rect.height, left: overflow.left - rect.width }; } function isAnySideFullyClipped(overflow) { return sides.some((side) => overflow[side] >= 0); } const hide$1 = function(options) { if (options === void 0) { options = {}; } return { name: "hide", options, async fn(state) { const { rects } = state; const { strategy = "referenceHidden", ...detectOverflowOptions } = evaluate(options, state); switch (strategy) { case "referenceHidden": { const overflow = await detectOverflow(state, { ...detectOverflowOptions, elementContext: "reference" }); const offsets = getSideOffsets(overflow, rects.reference); return { data: { referenceHiddenOffsets: offsets, referenceHidden: isAnySideFullyClipped(offsets) } }; } case "escaped": { const overflow = await detectOverflow(state, { ...detectOverflowOptions, altBoundary: true }); const offsets = getSideOffsets(overflow, rects.floating); return { data: { escapedOffsets: offsets, escaped: isAnySideFullyClipped(offsets) } }; } default: { return {}; } } } }; }; function getBoundingRect(rects) { const minX = min(...rects.map((rect) => rect.left)); const minY = min(...rects.map((rect) => rect.top)); const maxX = max(...rects.map((rect) => rect.right)); const maxY = max(...rects.map((rect) => rect.bottom)); return { x: minX, y: minY, width: maxX - minX, height: maxY - minY }; } function getRectsByLine(rects) { const sortedRects = rects.slice().sort((a, b) => a.y - b.y); const groups = []; let prevRect = null; for (let i = 0; i < sortedRects.length; i++) { const rect = sortedRects[i]; if (!prevRect || rect.y - prevRect.y > prevRect.height / 2) { groups.push([rect]); } else { groups[groups.length - 1].push(rect); } prevRect = rect; } return groups.map((rect) => rectToClientRect(getBoundingRect(rect))); } const inline$1 = function(options) { if (options === void 0) { options = {}; } return { name: "inline", options, async fn(state) { const { placement, elements, rects, platform: platform2, strategy } = state; const { padding = 2, x, y } = evaluate(options, state); const nativeClientRects = Array.from(await (platform2.getClientRects == null ? void 0 : platform2.getClientRects(elements.reference)) || []); const clientRects = getRectsByLine(nativeClientRects); const fallback = rectToClientRect(getBoundingRect(nativeClientRects)); const paddingObject = getPaddingObject(padding); function getBoundingClientRect2() { if (clientRects.length === 2 && clientRects[0].left > clientRects[1].right && x != null && y != null) { return clientRects.find((rect) => x > rect.left - paddingObject.left && x < rect.right + paddingObject.right && y > rect.top - paddingObject.top && y < rect.bottom + paddingObject.bottom) || fallback; } if (clientRects.length >= 2) { if (getSideAxis(placement) === "y") { const firstRect = clientRects[0]; const lastRect = clientRects[clientRects.length - 1]; const isTop = getSide(placement) === "top"; const top2 = firstRect.top; const bottom2 = lastRect.bottom; const left2 = isTop ? firstRect.left : lastRect.left; const right2 = isTop ? firstRect.right : lastRect.right; const width2 = right2 - left2; const height2 = bottom2 - top2; return { top: top2, bottom: bottom2, left: left2, right: right2, width: width2, height: height2, x: left2, y: top2 }; } const isLeftSide = getSide(placement) === "left"; const maxRight = max(...clientRects.map((rect) => rect.right)); const minLeft = min(...clientRects.map((rect) => rect.left)); const measureRects = clientRects.filter((rect) => isLeftSide ? rect.left === minLeft : rect.right === maxRight); const top = measureRects[0].top; const bottom = measureRects[measureRects.length - 1].bottom; const left = minLeft; const right = maxRight; const width = right - left; const height = bottom - top; return { top, bottom, left, right, width, height, x: left, y: top }; } return fallback; } const resetRects = await platform2.getElementRects({ reference: { getBoundingClientRect: getBoundingClientRect2 }, floating: elements.floating, strategy }); if (rects.reference.x !== resetRects.reference.x || rects.reference.y !== resetRects.reference.y || rects.reference.width !== resetRects.reference.width || rects.reference.height !== resetRects.reference.height) { return { reset: { rects: resetRects } }; } return {}; } }; }; async function convertValueToCoords(state, options) { const { placement, platform: platform2, elements } = state; const rtl = await (platform2.isRTL == null ? void 0 : platform2.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); 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 }; } const offset$1 = function(options) { if (options === void 0) { options = 0; } return { name: "offset", options, async fn(state) { var _middlewareData$offse, _middlewareData$arrow; const { x, y, placement, middlewareData } = state; const diffCoords = await convertValueToCoords(state, options); if (placement === ((_middlewareData$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 } }; } }; }; 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: x2, y: y2 } = _ref; return { x: x2, y: y2 }; } }, ...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 min2 = mainAxisCoord + overflow[minSide]; const max2 = mainAxisCoord - overflow[maxSide]; mainAxisCoord = clamp(min2, mainAxisCoord, max2); } if (checkCrossAxis) { const minSide = crossAxis === "y" ? "top" : "left"; const maxSide = crossAxis === "y" ? "bottom" : "right"; const min2 = crossAxisCoord + overflow[minSide]; const max2 = crossAxisCoord - overflow[maxSide]; crossAxisCoord = clamp(min2, crossAxisCoord, max2); } 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 } } }; } }; }; const size$1 = function(options) { if (options === void 0) { options = {}; } return { name: "size", options, async fn(state) { var _state$middlewareData, _state$middlewareData2; const { placement, rects, platform: platform2, elements } = state; const { apply = () => { }, ...detectOverflowOptions } = evaluate(options, state); const overflow = await detectOverflow(state, detectOverflowOptions); const side = getSide(placement); const alignment = getAlignment(placement); const isYAxis = getSideAxis(placement) === "y"; const { width, height } = rects.floating; let heightSide; let widthSide; if (side === "top" || side === "bottom") { heightSide = side; widthSide = alignment === (await (platform2.isRTL == null ? void 0 : platform2.isRTL(elements.floating)) ? "start" : "end") ? "left" : "right"; } else { widthSide = side; heightSide = alignment === "end" ? "top" : "bottom"; } const maximumClippingHeight = height - overflow.top - overflow.bottom; const maximumClippingWidth = width - overflow.left - overflow.right; const overflowAvailableHeight = min(height - overflow[heightSide], maximumClippingHeight); const overflowAvailableWidth = min(width - overflow[widthSide], maximumClippingWidth); const noShift = !state.middlewareData.shift; let availableHeight = overflowAvailableHeight; let availableWidth = overflowAvailableWidth; if ((_state$middlewareData = state.middlewareData.shift) != null && _state$middlewareData.enabled.x) { availableWidth = maximumClippingWidth; } if ((_state$middlewareData2 = state.middlewareData.shift) != null && _state$middlewareData2.enabled.y) { availableHeight = maximumClippingHeight; } if (noShift && !alignment) { const xMin = max(overflow.left, 0); const xMax = max(overflow.right, 0); const yMin = max(overflow.top, 0); const yMax = max(overflow.bottom, 0); if (isYAxis) { availableWidth = width - 2 * (xMin !== 0 || xMax !== 0 ? xMin + xMax : max(overflow.left, overflow.right)); } else { availableHeight = height - 2 * (yMin !== 0 || yMax !== 0 ? yMin + yMax : max(overflow.top, overflow.bottom)); } } await apply({ ...state, availableWidth, availableHeight }); const nextDimensions = await platform2.getDimensions(elements.floating); if (width !== nextDimensions.width || height !== nextDimensions.height) { return { reset: { rects: true } }; } return {}; } }; }; function hasWindow() { return typeof window !== "undefined"; } function getNodeName(node) { if (isNode(node)) { return (node.nodeName || "").toLowerCase(); } return "#document"; } function getWindow(node) { var _node$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; 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$ownerDocument2; if (list === void 0) { list = []; } if (traverseIframes === void 0) { traverseIframes = true; } const scrollableAncestor = getNearestOverflowAncestor(node); const isBody = scrollableAncestor === ((_node$ownerDocument2 = node.ownerDocument) == null ? void 0 : _node$ownerDocument2.body); const win = getWindow(scrollableAncestor); if (isBody) { const frameElement = getFrameElement(win); return list.concat(win, win.visualViewport || [], isOverflowElement(scrollableAncestor) ? scrollableAncestor : [], frameElement && traverseIframes ? getOverflowAncestors(frameElement) : []); } return list.concat(scrollableAncestor, getOverflowAncestors(scrollableAncestor, [], traverseIframes)); } function getFrameElement(win) { return win.parent && Object.getPrototypeOf(win.parent) ? win.frameElement : null; } function getCssDimensions(element) { const css = getComputedStyle(element); 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$1(element) { return !isElement(element) ? element.contextElement : element; } function getScale(element) { const domElement = unwrapElement$1(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; 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$1(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 }); } 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()); } 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 }; } 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); } function getClippingElementAncestors(element, cache) { const cachedResult = cache.get(element); if (cachedResult) { return cachedResult; } let result = getOverflowAncestors(element, [], false).filter((el) => isElement(el) && getNodeName(el) !== "body"); let currentContainingBlockComputedStyle = null; const elementIsFixed = getComputedStyle(element).position === "fixed"; let currentNode = elementIsFixed ? getParentNode(element) : element; 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) { result = result.filter((ancestor) => ancestor !== currentNode); } else { currentContainingBlockComputedStyle = computedStyle; } currentNode = getParentNode(currentNode); } cache.set(element, result); return result; } 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);