{"version":3,"file":"application-BRAz9irz.js","sources":["../../../node_modules/@hotwired/stimulus/dist/stimulus.js","../../../node_modules/stimulus-use/dist/index.js","../../../node_modules/@floating-ui/utils/dist/floating-ui.utils.mjs","../../../node_modules/@floating-ui/core/dist/floating-ui.core.mjs","../../../node_modules/@floating-ui/utils/dist/floating-ui.utils.dom.mjs","../../../node_modules/@floating-ui/dom/dist/floating-ui.dom.mjs","../../../app/frontend/components/dropdown/controller.js","../../../app/frontend/components/example/controller.ts","../../../app/frontend/components/modal/controller.js","../../../node_modules/react/cjs/react.production.min.js","../../../node_modules/react/index.js","../../../node_modules/scheduler/cjs/scheduler.production.min.js","../../../node_modules/scheduler/index.js","../../../node_modules/react-dom/cjs/react-dom.production.min.js","../../../node_modules/react-dom/index.js","../../../node_modules/react-dom/client.js","../../../node_modules/clsx/dist/clsx.mjs","../../../node_modules/react-if/dist/react-if.esm.js","../../../node_modules/embla-carousel-reactive-utils/esm/embla-carousel-reactive-utils.esm.js","../../../node_modules/embla-carousel/esm/embla-carousel.esm.js","../../../node_modules/embla-carousel-react/esm/embla-carousel-react.esm.js","../../../node_modules/lucide-react/dist/esm/shared/src/utils.js","../../../node_modules/lucide-react/dist/esm/defaultAttributes.js","../../../node_modules/lucide-react/dist/esm/Icon.js","../../../node_modules/lucide-react/dist/esm/createLucideIcon.js","../../../node_modules/lucide-react/dist/esm/icons/chevron-left.js","../../../node_modules/lucide-react/dist/esm/icons/chevron-right.js","../../../node_modules/lucide-react/dist/esm/icons/tag.js","../../../node_modules/@heroicons/react/20/solid/esm/ChevronDownIcon.js","../../../node_modules/@heroicons/react/20/solid/esm/HomeIcon.js","../../../node_modules/@heroicons/react/20/solid/esm/ShoppingCartIcon.js","../../../app/frontend/components/store_product_grid/modules/ProductElement.jsx","../../../app/frontend/components/store_product_grid/modules/ProductRow.jsx","../../../app/frontend/components/store_product_grid/modules/MenuTile.jsx","../../../app/frontend/components/store_product_grid/modules/CouponTile.jsx","../../../node_modules/lodash/lodash.js","../../../node_modules/lodash.debounce/index.js","../../../node_modules/usehooks-ts/dist/index.js","../../../node_modules/@floating-ui/react-dom/node_modules/@floating-ui/dom/dist/floating-ui.dom.mjs","../../../node_modules/@floating-ui/react-dom/dist/floating-ui.react-dom.mjs","../../../node_modules/@floating-ui/react/dist/floating-ui.react.mjs","../../../app/frontend/components/store_product_grid/modules/StoreBreadcrumb.jsx","../../../node_modules/react-intersection-observer/dist/index.mjs","../../../app/frontend/components/store_product_grid/modules/StickyComponent.jsx","../../../app/frontend/components/store_product_grid/modules/StoreProductGrid.jsx","../../../app/frontend/components/store_product_grid/controller.js","../../../app/frontend/components/store_sidebar/controller.js","../../../app/frontend/components/store_sidebar_modal/controller.js","../../../node_modules/stimulus-vite-helpers/dist/index.js","../../../app/frontend/controllers/index.js"],"sourcesContent":["/*\nStimulus 3.2.1\nCopyright © 2023 Basecamp, LLC\n */\nclass EventListener {\n constructor(eventTarget, eventName, eventOptions) {\n this.eventTarget = eventTarget;\n this.eventName = eventName;\n this.eventOptions = eventOptions;\n this.unorderedBindings = new Set();\n }\n connect() {\n this.eventTarget.addEventListener(this.eventName, this, this.eventOptions);\n }\n disconnect() {\n this.eventTarget.removeEventListener(this.eventName, this, this.eventOptions);\n }\n bindingConnected(binding) {\n this.unorderedBindings.add(binding);\n }\n bindingDisconnected(binding) {\n this.unorderedBindings.delete(binding);\n }\n handleEvent(event) {\n const extendedEvent = extendEvent(event);\n for (const binding of this.bindings) {\n if (extendedEvent.immediatePropagationStopped) {\n break;\n }\n else {\n binding.handleEvent(extendedEvent);\n }\n }\n }\n hasBindings() {\n return this.unorderedBindings.size > 0;\n }\n get bindings() {\n return Array.from(this.unorderedBindings).sort((left, right) => {\n const leftIndex = left.index, rightIndex = right.index;\n return leftIndex < rightIndex ? -1 : leftIndex > rightIndex ? 1 : 0;\n });\n }\n}\nfunction extendEvent(event) {\n if (\"immediatePropagationStopped\" in event) {\n return event;\n }\n else {\n const { stopImmediatePropagation } = event;\n return Object.assign(event, {\n immediatePropagationStopped: false,\n stopImmediatePropagation() {\n this.immediatePropagationStopped = true;\n stopImmediatePropagation.call(this);\n },\n });\n }\n}\n\nclass Dispatcher {\n constructor(application) {\n this.application = application;\n this.eventListenerMaps = new Map();\n this.started = false;\n }\n start() {\n if (!this.started) {\n this.started = true;\n this.eventListeners.forEach((eventListener) => eventListener.connect());\n }\n }\n stop() {\n if (this.started) {\n this.started = false;\n this.eventListeners.forEach((eventListener) => eventListener.disconnect());\n }\n }\n get eventListeners() {\n return Array.from(this.eventListenerMaps.values()).reduce((listeners, map) => listeners.concat(Array.from(map.values())), []);\n }\n bindingConnected(binding) {\n this.fetchEventListenerForBinding(binding).bindingConnected(binding);\n }\n bindingDisconnected(binding, clearEventListeners = false) {\n this.fetchEventListenerForBinding(binding).bindingDisconnected(binding);\n if (clearEventListeners)\n this.clearEventListenersForBinding(binding);\n }\n handleError(error, message, detail = {}) {\n this.application.handleError(error, `Error ${message}`, detail);\n }\n clearEventListenersForBinding(binding) {\n const eventListener = this.fetchEventListenerForBinding(binding);\n if (!eventListener.hasBindings()) {\n eventListener.disconnect();\n this.removeMappedEventListenerFor(binding);\n }\n }\n removeMappedEventListenerFor(binding) {\n const { eventTarget, eventName, eventOptions } = binding;\n const eventListenerMap = this.fetchEventListenerMapForEventTarget(eventTarget);\n const cacheKey = this.cacheKey(eventName, eventOptions);\n eventListenerMap.delete(cacheKey);\n if (eventListenerMap.size == 0)\n this.eventListenerMaps.delete(eventTarget);\n }\n fetchEventListenerForBinding(binding) {\n const { eventTarget, eventName, eventOptions } = binding;\n return this.fetchEventListener(eventTarget, eventName, eventOptions);\n }\n fetchEventListener(eventTarget, eventName, eventOptions) {\n const eventListenerMap = this.fetchEventListenerMapForEventTarget(eventTarget);\n const cacheKey = this.cacheKey(eventName, eventOptions);\n let eventListener = eventListenerMap.get(cacheKey);\n if (!eventListener) {\n eventListener = this.createEventListener(eventTarget, eventName, eventOptions);\n eventListenerMap.set(cacheKey, eventListener);\n }\n return eventListener;\n }\n createEventListener(eventTarget, eventName, eventOptions) {\n const eventListener = new EventListener(eventTarget, eventName, eventOptions);\n if (this.started) {\n eventListener.connect();\n }\n return eventListener;\n }\n fetchEventListenerMapForEventTarget(eventTarget) {\n let eventListenerMap = this.eventListenerMaps.get(eventTarget);\n if (!eventListenerMap) {\n eventListenerMap = new Map();\n this.eventListenerMaps.set(eventTarget, eventListenerMap);\n }\n return eventListenerMap;\n }\n cacheKey(eventName, eventOptions) {\n const parts = [eventName];\n Object.keys(eventOptions)\n .sort()\n .forEach((key) => {\n parts.push(`${eventOptions[key] ? \"\" : \"!\"}${key}`);\n });\n return parts.join(\":\");\n }\n}\n\nconst defaultActionDescriptorFilters = {\n stop({ event, value }) {\n if (value)\n event.stopPropagation();\n return true;\n },\n prevent({ event, value }) {\n if (value)\n event.preventDefault();\n return true;\n },\n self({ event, value, element }) {\n if (value) {\n return element === event.target;\n }\n else {\n return true;\n }\n },\n};\nconst descriptorPattern = /^(?:(?:([^.]+?)\\+)?(.+?)(?:\\.(.+?))?(?:@(window|document))?->)?(.+?)(?:#([^:]+?))(?::(.+))?$/;\nfunction parseActionDescriptorString(descriptorString) {\n const source = descriptorString.trim();\n const matches = source.match(descriptorPattern) || [];\n let eventName = matches[2];\n let keyFilter = matches[3];\n if (keyFilter && ![\"keydown\", \"keyup\", \"keypress\"].includes(eventName)) {\n eventName += `.${keyFilter}`;\n keyFilter = \"\";\n }\n return {\n eventTarget: parseEventTarget(matches[4]),\n eventName,\n eventOptions: matches[7] ? parseEventOptions(matches[7]) : {},\n identifier: matches[5],\n methodName: matches[6],\n keyFilter: matches[1] || keyFilter,\n };\n}\nfunction parseEventTarget(eventTargetName) {\n if (eventTargetName == \"window\") {\n return window;\n }\n else if (eventTargetName == \"document\") {\n return document;\n }\n}\nfunction parseEventOptions(eventOptions) {\n return eventOptions\n .split(\":\")\n .reduce((options, token) => Object.assign(options, { [token.replace(/^!/, \"\")]: !/^!/.test(token) }), {});\n}\nfunction stringifyEventTarget(eventTarget) {\n if (eventTarget == window) {\n return \"window\";\n }\n else if (eventTarget == document) {\n return \"document\";\n }\n}\n\nfunction camelize(value) {\n return value.replace(/(?:[_-])([a-z0-9])/g, (_, char) => char.toUpperCase());\n}\nfunction namespaceCamelize(value) {\n return camelize(value.replace(/--/g, \"-\").replace(/__/g, \"_\"));\n}\nfunction capitalize(value) {\n return value.charAt(0).toUpperCase() + value.slice(1);\n}\nfunction dasherize(value) {\n return value.replace(/([A-Z])/g, (_, char) => `-${char.toLowerCase()}`);\n}\nfunction tokenize(value) {\n return value.match(/[^\\s]+/g) || [];\n}\n\nfunction isSomething(object) {\n return object !== null && object !== undefined;\n}\nfunction hasProperty(object, property) {\n return Object.prototype.hasOwnProperty.call(object, property);\n}\n\nconst allModifiers = [\"meta\", \"ctrl\", \"alt\", \"shift\"];\nclass Action {\n constructor(element, index, descriptor, schema) {\n this.element = element;\n this.index = index;\n this.eventTarget = descriptor.eventTarget || element;\n this.eventName = descriptor.eventName || getDefaultEventNameForElement(element) || error(\"missing event name\");\n this.eventOptions = descriptor.eventOptions || {};\n this.identifier = descriptor.identifier || error(\"missing identifier\");\n this.methodName = descriptor.methodName || error(\"missing method name\");\n this.keyFilter = descriptor.keyFilter || \"\";\n this.schema = schema;\n }\n static forToken(token, schema) {\n return new this(token.element, token.index, parseActionDescriptorString(token.content), schema);\n }\n toString() {\n const eventFilter = this.keyFilter ? `.${this.keyFilter}` : \"\";\n const eventTarget = this.eventTargetName ? `@${this.eventTargetName}` : \"\";\n return `${this.eventName}${eventFilter}${eventTarget}->${this.identifier}#${this.methodName}`;\n }\n shouldIgnoreKeyboardEvent(event) {\n if (!this.keyFilter) {\n return false;\n }\n const filters = this.keyFilter.split(\"+\");\n if (this.keyFilterDissatisfied(event, filters)) {\n return true;\n }\n const standardFilter = filters.filter((key) => !allModifiers.includes(key))[0];\n if (!standardFilter) {\n return false;\n }\n if (!hasProperty(this.keyMappings, standardFilter)) {\n error(`contains unknown key filter: ${this.keyFilter}`);\n }\n return this.keyMappings[standardFilter].toLowerCase() !== event.key.toLowerCase();\n }\n shouldIgnoreMouseEvent(event) {\n if (!this.keyFilter) {\n return false;\n }\n const filters = [this.keyFilter];\n if (this.keyFilterDissatisfied(event, filters)) {\n return true;\n }\n return false;\n }\n get params() {\n const params = {};\n const pattern = new RegExp(`^data-${this.identifier}-(.+)-param$`, \"i\");\n for (const { name, value } of Array.from(this.element.attributes)) {\n const match = name.match(pattern);\n const key = match && match[1];\n if (key) {\n params[camelize(key)] = typecast(value);\n }\n }\n return params;\n }\n get eventTargetName() {\n return stringifyEventTarget(this.eventTarget);\n }\n get keyMappings() {\n return this.schema.keyMappings;\n }\n keyFilterDissatisfied(event, filters) {\n const [meta, ctrl, alt, shift] = allModifiers.map((modifier) => filters.includes(modifier));\n return event.metaKey !== meta || event.ctrlKey !== ctrl || event.altKey !== alt || event.shiftKey !== shift;\n }\n}\nconst defaultEventNames = {\n a: () => \"click\",\n button: () => \"click\",\n form: () => \"submit\",\n details: () => \"toggle\",\n input: (e) => (e.getAttribute(\"type\") == \"submit\" ? \"click\" : \"input\"),\n select: () => \"change\",\n textarea: () => \"input\",\n};\nfunction getDefaultEventNameForElement(element) {\n const tagName = element.tagName.toLowerCase();\n if (tagName in defaultEventNames) {\n return defaultEventNames[tagName](element);\n }\n}\nfunction error(message) {\n throw new Error(message);\n}\nfunction typecast(value) {\n try {\n return JSON.parse(value);\n }\n catch (o_O) {\n return value;\n }\n}\n\nclass Binding {\n constructor(context, action) {\n this.context = context;\n this.action = action;\n }\n get index() {\n return this.action.index;\n }\n get eventTarget() {\n return this.action.eventTarget;\n }\n get eventOptions() {\n return this.action.eventOptions;\n }\n get identifier() {\n return this.context.identifier;\n }\n handleEvent(event) {\n const actionEvent = this.prepareActionEvent(event);\n if (this.willBeInvokedByEvent(event) && this.applyEventModifiers(actionEvent)) {\n this.invokeWithEvent(actionEvent);\n }\n }\n get eventName() {\n return this.action.eventName;\n }\n get method() {\n const method = this.controller[this.methodName];\n if (typeof method == \"function\") {\n return method;\n }\n throw new Error(`Action \"${this.action}\" references undefined method \"${this.methodName}\"`);\n }\n applyEventModifiers(event) {\n const { element } = this.action;\n const { actionDescriptorFilters } = this.context.application;\n const { controller } = this.context;\n let passes = true;\n for (const [name, value] of Object.entries(this.eventOptions)) {\n if (name in actionDescriptorFilters) {\n const filter = actionDescriptorFilters[name];\n passes = passes && filter({ name, value, event, element, controller });\n }\n else {\n continue;\n }\n }\n return passes;\n }\n prepareActionEvent(event) {\n return Object.assign(event, { params: this.action.params });\n }\n invokeWithEvent(event) {\n const { target, currentTarget } = event;\n try {\n this.method.call(this.controller, event);\n this.context.logDebugActivity(this.methodName, { event, target, currentTarget, action: this.methodName });\n }\n catch (error) {\n const { identifier, controller, element, index } = this;\n const detail = { identifier, controller, element, index, event };\n this.context.handleError(error, `invoking action \"${this.action}\"`, detail);\n }\n }\n willBeInvokedByEvent(event) {\n const eventTarget = event.target;\n if (event instanceof KeyboardEvent && this.action.shouldIgnoreKeyboardEvent(event)) {\n return false;\n }\n if (event instanceof MouseEvent && this.action.shouldIgnoreMouseEvent(event)) {\n return false;\n }\n if (this.element === eventTarget) {\n return true;\n }\n else if (eventTarget instanceof Element && this.element.contains(eventTarget)) {\n return this.scope.containsElement(eventTarget);\n }\n else {\n return this.scope.containsElement(this.action.element);\n }\n }\n get controller() {\n return this.context.controller;\n }\n get methodName() {\n return this.action.methodName;\n }\n get element() {\n return this.scope.element;\n }\n get scope() {\n return this.context.scope;\n }\n}\n\nclass ElementObserver {\n constructor(element, delegate) {\n this.mutationObserverInit = { attributes: true, childList: true, subtree: true };\n this.element = element;\n this.started = false;\n this.delegate = delegate;\n this.elements = new Set();\n this.mutationObserver = new MutationObserver((mutations) => this.processMutations(mutations));\n }\n start() {\n if (!this.started) {\n this.started = true;\n this.mutationObserver.observe(this.element, this.mutationObserverInit);\n this.refresh();\n }\n }\n pause(callback) {\n if (this.started) {\n this.mutationObserver.disconnect();\n this.started = false;\n }\n callback();\n if (!this.started) {\n this.mutationObserver.observe(this.element, this.mutationObserverInit);\n this.started = true;\n }\n }\n stop() {\n if (this.started) {\n this.mutationObserver.takeRecords();\n this.mutationObserver.disconnect();\n this.started = false;\n }\n }\n refresh() {\n if (this.started) {\n const matches = new Set(this.matchElementsInTree());\n for (const element of Array.from(this.elements)) {\n if (!matches.has(element)) {\n this.removeElement(element);\n }\n }\n for (const element of Array.from(matches)) {\n this.addElement(element);\n }\n }\n }\n processMutations(mutations) {\n if (this.started) {\n for (const mutation of mutations) {\n this.processMutation(mutation);\n }\n }\n }\n processMutation(mutation) {\n if (mutation.type == \"attributes\") {\n this.processAttributeChange(mutation.target, mutation.attributeName);\n }\n else if (mutation.type == \"childList\") {\n this.processRemovedNodes(mutation.removedNodes);\n this.processAddedNodes(mutation.addedNodes);\n }\n }\n processAttributeChange(element, attributeName) {\n if (this.elements.has(element)) {\n if (this.delegate.elementAttributeChanged && this.matchElement(element)) {\n this.delegate.elementAttributeChanged(element, attributeName);\n }\n else {\n this.removeElement(element);\n }\n }\n else if (this.matchElement(element)) {\n this.addElement(element);\n }\n }\n processRemovedNodes(nodes) {\n for (const node of Array.from(nodes)) {\n const element = this.elementFromNode(node);\n if (element) {\n this.processTree(element, this.removeElement);\n }\n }\n }\n processAddedNodes(nodes) {\n for (const node of Array.from(nodes)) {\n const element = this.elementFromNode(node);\n if (element && this.elementIsActive(element)) {\n this.processTree(element, this.addElement);\n }\n }\n }\n matchElement(element) {\n return this.delegate.matchElement(element);\n }\n matchElementsInTree(tree = this.element) {\n return this.delegate.matchElementsInTree(tree);\n }\n processTree(tree, processor) {\n for (const element of this.matchElementsInTree(tree)) {\n processor.call(this, element);\n }\n }\n elementFromNode(node) {\n if (node.nodeType == Node.ELEMENT_NODE) {\n return node;\n }\n }\n elementIsActive(element) {\n if (element.isConnected != this.element.isConnected) {\n return false;\n }\n else {\n return this.element.contains(element);\n }\n }\n addElement(element) {\n if (!this.elements.has(element)) {\n if (this.elementIsActive(element)) {\n this.elements.add(element);\n if (this.delegate.elementMatched) {\n this.delegate.elementMatched(element);\n }\n }\n }\n }\n removeElement(element) {\n if (this.elements.has(element)) {\n this.elements.delete(element);\n if (this.delegate.elementUnmatched) {\n this.delegate.elementUnmatched(element);\n }\n }\n }\n}\n\nclass AttributeObserver {\n constructor(element, attributeName, delegate) {\n this.attributeName = attributeName;\n this.delegate = delegate;\n this.elementObserver = new ElementObserver(element, this);\n }\n get element() {\n return this.elementObserver.element;\n }\n get selector() {\n return `[${this.attributeName}]`;\n }\n start() {\n this.elementObserver.start();\n }\n pause(callback) {\n this.elementObserver.pause(callback);\n }\n stop() {\n this.elementObserver.stop();\n }\n refresh() {\n this.elementObserver.refresh();\n }\n get started() {\n return this.elementObserver.started;\n }\n matchElement(element) {\n return element.hasAttribute(this.attributeName);\n }\n matchElementsInTree(tree) {\n const match = this.matchElement(tree) ? [tree] : [];\n const matches = Array.from(tree.querySelectorAll(this.selector));\n return match.concat(matches);\n }\n elementMatched(element) {\n if (this.delegate.elementMatchedAttribute) {\n this.delegate.elementMatchedAttribute(element, this.attributeName);\n }\n }\n elementUnmatched(element) {\n if (this.delegate.elementUnmatchedAttribute) {\n this.delegate.elementUnmatchedAttribute(element, this.attributeName);\n }\n }\n elementAttributeChanged(element, attributeName) {\n if (this.delegate.elementAttributeValueChanged && this.attributeName == attributeName) {\n this.delegate.elementAttributeValueChanged(element, attributeName);\n }\n }\n}\n\nfunction add(map, key, value) {\n fetch(map, key).add(value);\n}\nfunction del(map, key, value) {\n fetch(map, key).delete(value);\n prune(map, key);\n}\nfunction fetch(map, key) {\n let values = map.get(key);\n if (!values) {\n values = new Set();\n map.set(key, values);\n }\n return values;\n}\nfunction prune(map, key) {\n const values = map.get(key);\n if (values != null && values.size == 0) {\n map.delete(key);\n }\n}\n\nclass Multimap {\n constructor() {\n this.valuesByKey = new Map();\n }\n get keys() {\n return Array.from(this.valuesByKey.keys());\n }\n get values() {\n const sets = Array.from(this.valuesByKey.values());\n return sets.reduce((values, set) => values.concat(Array.from(set)), []);\n }\n get size() {\n const sets = Array.from(this.valuesByKey.values());\n return sets.reduce((size, set) => size + set.size, 0);\n }\n add(key, value) {\n add(this.valuesByKey, key, value);\n }\n delete(key, value) {\n del(this.valuesByKey, key, value);\n }\n has(key, value) {\n const values = this.valuesByKey.get(key);\n return values != null && values.has(value);\n }\n hasKey(key) {\n return this.valuesByKey.has(key);\n }\n hasValue(value) {\n const sets = Array.from(this.valuesByKey.values());\n return sets.some((set) => set.has(value));\n }\n getValuesForKey(key) {\n const values = this.valuesByKey.get(key);\n return values ? Array.from(values) : [];\n }\n getKeysForValue(value) {\n return Array.from(this.valuesByKey)\n .filter(([_key, values]) => values.has(value))\n .map(([key, _values]) => key);\n }\n}\n\nclass IndexedMultimap extends Multimap {\n constructor() {\n super();\n this.keysByValue = new Map();\n }\n get values() {\n return Array.from(this.keysByValue.keys());\n }\n add(key, value) {\n super.add(key, value);\n add(this.keysByValue, value, key);\n }\n delete(key, value) {\n super.delete(key, value);\n del(this.keysByValue, value, key);\n }\n hasValue(value) {\n return this.keysByValue.has(value);\n }\n getKeysForValue(value) {\n const set = this.keysByValue.get(value);\n return set ? Array.from(set) : [];\n }\n}\n\nclass SelectorObserver {\n constructor(element, selector, delegate, details) {\n this._selector = selector;\n this.details = details;\n this.elementObserver = new ElementObserver(element, this);\n this.delegate = delegate;\n this.matchesByElement = new Multimap();\n }\n get started() {\n return this.elementObserver.started;\n }\n get selector() {\n return this._selector;\n }\n set selector(selector) {\n this._selector = selector;\n this.refresh();\n }\n start() {\n this.elementObserver.start();\n }\n pause(callback) {\n this.elementObserver.pause(callback);\n }\n stop() {\n this.elementObserver.stop();\n }\n refresh() {\n this.elementObserver.refresh();\n }\n get element() {\n return this.elementObserver.element;\n }\n matchElement(element) {\n const { selector } = this;\n if (selector) {\n const matches = element.matches(selector);\n if (this.delegate.selectorMatchElement) {\n return matches && this.delegate.selectorMatchElement(element, this.details);\n }\n return matches;\n }\n else {\n return false;\n }\n }\n matchElementsInTree(tree) {\n const { selector } = this;\n if (selector) {\n const match = this.matchElement(tree) ? [tree] : [];\n const matches = Array.from(tree.querySelectorAll(selector)).filter((match) => this.matchElement(match));\n return match.concat(matches);\n }\n else {\n return [];\n }\n }\n elementMatched(element) {\n const { selector } = this;\n if (selector) {\n this.selectorMatched(element, selector);\n }\n }\n elementUnmatched(element) {\n const selectors = this.matchesByElement.getKeysForValue(element);\n for (const selector of selectors) {\n this.selectorUnmatched(element, selector);\n }\n }\n elementAttributeChanged(element, _attributeName) {\n const { selector } = this;\n if (selector) {\n const matches = this.matchElement(element);\n const matchedBefore = this.matchesByElement.has(selector, element);\n if (matches && !matchedBefore) {\n this.selectorMatched(element, selector);\n }\n else if (!matches && matchedBefore) {\n this.selectorUnmatched(element, selector);\n }\n }\n }\n selectorMatched(element, selector) {\n this.delegate.selectorMatched(element, selector, this.details);\n this.matchesByElement.add(selector, element);\n }\n selectorUnmatched(element, selector) {\n this.delegate.selectorUnmatched(element, selector, this.details);\n this.matchesByElement.delete(selector, element);\n }\n}\n\nclass StringMapObserver {\n constructor(element, delegate) {\n this.element = element;\n this.delegate = delegate;\n this.started = false;\n this.stringMap = new Map();\n this.mutationObserver = new MutationObserver((mutations) => this.processMutations(mutations));\n }\n start() {\n if (!this.started) {\n this.started = true;\n this.mutationObserver.observe(this.element, { attributes: true, attributeOldValue: true });\n this.refresh();\n }\n }\n stop() {\n if (this.started) {\n this.mutationObserver.takeRecords();\n this.mutationObserver.disconnect();\n this.started = false;\n }\n }\n refresh() {\n if (this.started) {\n for (const attributeName of this.knownAttributeNames) {\n this.refreshAttribute(attributeName, null);\n }\n }\n }\n processMutations(mutations) {\n if (this.started) {\n for (const mutation of mutations) {\n this.processMutation(mutation);\n }\n }\n }\n processMutation(mutation) {\n const attributeName = mutation.attributeName;\n if (attributeName) {\n this.refreshAttribute(attributeName, mutation.oldValue);\n }\n }\n refreshAttribute(attributeName, oldValue) {\n const key = this.delegate.getStringMapKeyForAttribute(attributeName);\n if (key != null) {\n if (!this.stringMap.has(attributeName)) {\n this.stringMapKeyAdded(key, attributeName);\n }\n const value = this.element.getAttribute(attributeName);\n if (this.stringMap.get(attributeName) != value) {\n this.stringMapValueChanged(value, key, oldValue);\n }\n if (value == null) {\n const oldValue = this.stringMap.get(attributeName);\n this.stringMap.delete(attributeName);\n if (oldValue)\n this.stringMapKeyRemoved(key, attributeName, oldValue);\n }\n else {\n this.stringMap.set(attributeName, value);\n }\n }\n }\n stringMapKeyAdded(key, attributeName) {\n if (this.delegate.stringMapKeyAdded) {\n this.delegate.stringMapKeyAdded(key, attributeName);\n }\n }\n stringMapValueChanged(value, key, oldValue) {\n if (this.delegate.stringMapValueChanged) {\n this.delegate.stringMapValueChanged(value, key, oldValue);\n }\n }\n stringMapKeyRemoved(key, attributeName, oldValue) {\n if (this.delegate.stringMapKeyRemoved) {\n this.delegate.stringMapKeyRemoved(key, attributeName, oldValue);\n }\n }\n get knownAttributeNames() {\n return Array.from(new Set(this.currentAttributeNames.concat(this.recordedAttributeNames)));\n }\n get currentAttributeNames() {\n return Array.from(this.element.attributes).map((attribute) => attribute.name);\n }\n get recordedAttributeNames() {\n return Array.from(this.stringMap.keys());\n }\n}\n\nclass TokenListObserver {\n constructor(element, attributeName, delegate) {\n this.attributeObserver = new AttributeObserver(element, attributeName, this);\n this.delegate = delegate;\n this.tokensByElement = new Multimap();\n }\n get started() {\n return this.attributeObserver.started;\n }\n start() {\n this.attributeObserver.start();\n }\n pause(callback) {\n this.attributeObserver.pause(callback);\n }\n stop() {\n this.attributeObserver.stop();\n }\n refresh() {\n this.attributeObserver.refresh();\n }\n get element() {\n return this.attributeObserver.element;\n }\n get attributeName() {\n return this.attributeObserver.attributeName;\n }\n elementMatchedAttribute(element) {\n this.tokensMatched(this.readTokensForElement(element));\n }\n elementAttributeValueChanged(element) {\n const [unmatchedTokens, matchedTokens] = this.refreshTokensForElement(element);\n this.tokensUnmatched(unmatchedTokens);\n this.tokensMatched(matchedTokens);\n }\n elementUnmatchedAttribute(element) {\n this.tokensUnmatched(this.tokensByElement.getValuesForKey(element));\n }\n tokensMatched(tokens) {\n tokens.forEach((token) => this.tokenMatched(token));\n }\n tokensUnmatched(tokens) {\n tokens.forEach((token) => this.tokenUnmatched(token));\n }\n tokenMatched(token) {\n this.delegate.tokenMatched(token);\n this.tokensByElement.add(token.element, token);\n }\n tokenUnmatched(token) {\n this.delegate.tokenUnmatched(token);\n this.tokensByElement.delete(token.element, token);\n }\n refreshTokensForElement(element) {\n const previousTokens = this.tokensByElement.getValuesForKey(element);\n const currentTokens = this.readTokensForElement(element);\n const firstDifferingIndex = zip(previousTokens, currentTokens).findIndex(([previousToken, currentToken]) => !tokensAreEqual(previousToken, currentToken));\n if (firstDifferingIndex == -1) {\n return [[], []];\n }\n else {\n return [previousTokens.slice(firstDifferingIndex), currentTokens.slice(firstDifferingIndex)];\n }\n }\n readTokensForElement(element) {\n const attributeName = this.attributeName;\n const tokenString = element.getAttribute(attributeName) || \"\";\n return parseTokenString(tokenString, element, attributeName);\n }\n}\nfunction parseTokenString(tokenString, element, attributeName) {\n return tokenString\n .trim()\n .split(/\\s+/)\n .filter((content) => content.length)\n .map((content, index) => ({ element, attributeName, content, index }));\n}\nfunction zip(left, right) {\n const length = Math.max(left.length, right.length);\n return Array.from({ length }, (_, index) => [left[index], right[index]]);\n}\nfunction tokensAreEqual(left, right) {\n return left && right && left.index == right.index && left.content == right.content;\n}\n\nclass ValueListObserver {\n constructor(element, attributeName, delegate) {\n this.tokenListObserver = new TokenListObserver(element, attributeName, this);\n this.delegate = delegate;\n this.parseResultsByToken = new WeakMap();\n this.valuesByTokenByElement = new WeakMap();\n }\n get started() {\n return this.tokenListObserver.started;\n }\n start() {\n this.tokenListObserver.start();\n }\n stop() {\n this.tokenListObserver.stop();\n }\n refresh() {\n this.tokenListObserver.refresh();\n }\n get element() {\n return this.tokenListObserver.element;\n }\n get attributeName() {\n return this.tokenListObserver.attributeName;\n }\n tokenMatched(token) {\n const { element } = token;\n const { value } = this.fetchParseResultForToken(token);\n if (value) {\n this.fetchValuesByTokenForElement(element).set(token, value);\n this.delegate.elementMatchedValue(element, value);\n }\n }\n tokenUnmatched(token) {\n const { element } = token;\n const { value } = this.fetchParseResultForToken(token);\n if (value) {\n this.fetchValuesByTokenForElement(element).delete(token);\n this.delegate.elementUnmatchedValue(element, value);\n }\n }\n fetchParseResultForToken(token) {\n let parseResult = this.parseResultsByToken.get(token);\n if (!parseResult) {\n parseResult = this.parseToken(token);\n this.parseResultsByToken.set(token, parseResult);\n }\n return parseResult;\n }\n fetchValuesByTokenForElement(element) {\n let valuesByToken = this.valuesByTokenByElement.get(element);\n if (!valuesByToken) {\n valuesByToken = new Map();\n this.valuesByTokenByElement.set(element, valuesByToken);\n }\n return valuesByToken;\n }\n parseToken(token) {\n try {\n const value = this.delegate.parseValueForToken(token);\n return { value };\n }\n catch (error) {\n return { error };\n }\n }\n}\n\nclass BindingObserver {\n constructor(context, delegate) {\n this.context = context;\n this.delegate = delegate;\n this.bindingsByAction = new Map();\n }\n start() {\n if (!this.valueListObserver) {\n this.valueListObserver = new ValueListObserver(this.element, this.actionAttribute, this);\n this.valueListObserver.start();\n }\n }\n stop() {\n if (this.valueListObserver) {\n this.valueListObserver.stop();\n delete this.valueListObserver;\n this.disconnectAllActions();\n }\n }\n get element() {\n return this.context.element;\n }\n get identifier() {\n return this.context.identifier;\n }\n get actionAttribute() {\n return this.schema.actionAttribute;\n }\n get schema() {\n return this.context.schema;\n }\n get bindings() {\n return Array.from(this.bindingsByAction.values());\n }\n connectAction(action) {\n const binding = new Binding(this.context, action);\n this.bindingsByAction.set(action, binding);\n this.delegate.bindingConnected(binding);\n }\n disconnectAction(action) {\n const binding = this.bindingsByAction.get(action);\n if (binding) {\n this.bindingsByAction.delete(action);\n this.delegate.bindingDisconnected(binding);\n }\n }\n disconnectAllActions() {\n this.bindings.forEach((binding) => this.delegate.bindingDisconnected(binding, true));\n this.bindingsByAction.clear();\n }\n parseValueForToken(token) {\n const action = Action.forToken(token, this.schema);\n if (action.identifier == this.identifier) {\n return action;\n }\n }\n elementMatchedValue(element, action) {\n this.connectAction(action);\n }\n elementUnmatchedValue(element, action) {\n this.disconnectAction(action);\n }\n}\n\nclass ValueObserver {\n constructor(context, receiver) {\n this.context = context;\n this.receiver = receiver;\n this.stringMapObserver = new StringMapObserver(this.element, this);\n this.valueDescriptorMap = this.controller.valueDescriptorMap;\n }\n start() {\n this.stringMapObserver.start();\n this.invokeChangedCallbacksForDefaultValues();\n }\n stop() {\n this.stringMapObserver.stop();\n }\n get element() {\n return this.context.element;\n }\n get controller() {\n return this.context.controller;\n }\n getStringMapKeyForAttribute(attributeName) {\n if (attributeName in this.valueDescriptorMap) {\n return this.valueDescriptorMap[attributeName].name;\n }\n }\n stringMapKeyAdded(key, attributeName) {\n const descriptor = this.valueDescriptorMap[attributeName];\n if (!this.hasValue(key)) {\n this.invokeChangedCallback(key, descriptor.writer(this.receiver[key]), descriptor.writer(descriptor.defaultValue));\n }\n }\n stringMapValueChanged(value, name, oldValue) {\n const descriptor = this.valueDescriptorNameMap[name];\n if (value === null)\n return;\n if (oldValue === null) {\n oldValue = descriptor.writer(descriptor.defaultValue);\n }\n this.invokeChangedCallback(name, value, oldValue);\n }\n stringMapKeyRemoved(key, attributeName, oldValue) {\n const descriptor = this.valueDescriptorNameMap[key];\n if (this.hasValue(key)) {\n this.invokeChangedCallback(key, descriptor.writer(this.receiver[key]), oldValue);\n }\n else {\n this.invokeChangedCallback(key, descriptor.writer(descriptor.defaultValue), oldValue);\n }\n }\n invokeChangedCallbacksForDefaultValues() {\n for (const { key, name, defaultValue, writer } of this.valueDescriptors) {\n if (defaultValue != undefined && !this.controller.data.has(key)) {\n this.invokeChangedCallback(name, writer(defaultValue), undefined);\n }\n }\n }\n invokeChangedCallback(name, rawValue, rawOldValue) {\n const changedMethodName = `${name}Changed`;\n const changedMethod = this.receiver[changedMethodName];\n if (typeof changedMethod == \"function\") {\n const descriptor = this.valueDescriptorNameMap[name];\n try {\n const value = descriptor.reader(rawValue);\n let oldValue = rawOldValue;\n if (rawOldValue) {\n oldValue = descriptor.reader(rawOldValue);\n }\n changedMethod.call(this.receiver, value, oldValue);\n }\n catch (error) {\n if (error instanceof TypeError) {\n error.message = `Stimulus Value \"${this.context.identifier}.${descriptor.name}\" - ${error.message}`;\n }\n throw error;\n }\n }\n }\n get valueDescriptors() {\n const { valueDescriptorMap } = this;\n return Object.keys(valueDescriptorMap).map((key) => valueDescriptorMap[key]);\n }\n get valueDescriptorNameMap() {\n const descriptors = {};\n Object.keys(this.valueDescriptorMap).forEach((key) => {\n const descriptor = this.valueDescriptorMap[key];\n descriptors[descriptor.name] = descriptor;\n });\n return descriptors;\n }\n hasValue(attributeName) {\n const descriptor = this.valueDescriptorNameMap[attributeName];\n const hasMethodName = `has${capitalize(descriptor.name)}`;\n return this.receiver[hasMethodName];\n }\n}\n\nclass TargetObserver {\n constructor(context, delegate) {\n this.context = context;\n this.delegate = delegate;\n this.targetsByName = new Multimap();\n }\n start() {\n if (!this.tokenListObserver) {\n this.tokenListObserver = new TokenListObserver(this.element, this.attributeName, this);\n this.tokenListObserver.start();\n }\n }\n stop() {\n if (this.tokenListObserver) {\n this.disconnectAllTargets();\n this.tokenListObserver.stop();\n delete this.tokenListObserver;\n }\n }\n tokenMatched({ element, content: name }) {\n if (this.scope.containsElement(element)) {\n this.connectTarget(element, name);\n }\n }\n tokenUnmatched({ element, content: name }) {\n this.disconnectTarget(element, name);\n }\n connectTarget(element, name) {\n var _a;\n if (!this.targetsByName.has(name, element)) {\n this.targetsByName.add(name, element);\n (_a = this.tokenListObserver) === null || _a === void 0 ? void 0 : _a.pause(() => this.delegate.targetConnected(element, name));\n }\n }\n disconnectTarget(element, name) {\n var _a;\n if (this.targetsByName.has(name, element)) {\n this.targetsByName.delete(name, element);\n (_a = this.tokenListObserver) === null || _a === void 0 ? void 0 : _a.pause(() => this.delegate.targetDisconnected(element, name));\n }\n }\n disconnectAllTargets() {\n for (const name of this.targetsByName.keys) {\n for (const element of this.targetsByName.getValuesForKey(name)) {\n this.disconnectTarget(element, name);\n }\n }\n }\n get attributeName() {\n return `data-${this.context.identifier}-target`;\n }\n get element() {\n return this.context.element;\n }\n get scope() {\n return this.context.scope;\n }\n}\n\nfunction readInheritableStaticArrayValues(constructor, propertyName) {\n const ancestors = getAncestorsForConstructor(constructor);\n return Array.from(ancestors.reduce((values, constructor) => {\n getOwnStaticArrayValues(constructor, propertyName).forEach((name) => values.add(name));\n return values;\n }, new Set()));\n}\nfunction readInheritableStaticObjectPairs(constructor, propertyName) {\n const ancestors = getAncestorsForConstructor(constructor);\n return ancestors.reduce((pairs, constructor) => {\n pairs.push(...getOwnStaticObjectPairs(constructor, propertyName));\n return pairs;\n }, []);\n}\nfunction getAncestorsForConstructor(constructor) {\n const ancestors = [];\n while (constructor) {\n ancestors.push(constructor);\n constructor = Object.getPrototypeOf(constructor);\n }\n return ancestors.reverse();\n}\nfunction getOwnStaticArrayValues(constructor, propertyName) {\n const definition = constructor[propertyName];\n return Array.isArray(definition) ? definition : [];\n}\nfunction getOwnStaticObjectPairs(constructor, propertyName) {\n const definition = constructor[propertyName];\n return definition ? Object.keys(definition).map((key) => [key, definition[key]]) : [];\n}\n\nclass OutletObserver {\n constructor(context, delegate) {\n this.started = false;\n this.context = context;\n this.delegate = delegate;\n this.outletsByName = new Multimap();\n this.outletElementsByName = new Multimap();\n this.selectorObserverMap = new Map();\n this.attributeObserverMap = new Map();\n }\n start() {\n if (!this.started) {\n this.outletDefinitions.forEach((outletName) => {\n this.setupSelectorObserverForOutlet(outletName);\n this.setupAttributeObserverForOutlet(outletName);\n });\n this.started = true;\n this.dependentContexts.forEach((context) => context.refresh());\n }\n }\n refresh() {\n this.selectorObserverMap.forEach((observer) => observer.refresh());\n this.attributeObserverMap.forEach((observer) => observer.refresh());\n }\n stop() {\n if (this.started) {\n this.started = false;\n this.disconnectAllOutlets();\n this.stopSelectorObservers();\n this.stopAttributeObservers();\n }\n }\n stopSelectorObservers() {\n if (this.selectorObserverMap.size > 0) {\n this.selectorObserverMap.forEach((observer) => observer.stop());\n this.selectorObserverMap.clear();\n }\n }\n stopAttributeObservers() {\n if (this.attributeObserverMap.size > 0) {\n this.attributeObserverMap.forEach((observer) => observer.stop());\n this.attributeObserverMap.clear();\n }\n }\n selectorMatched(element, _selector, { outletName }) {\n const outlet = this.getOutlet(element, outletName);\n if (outlet) {\n this.connectOutlet(outlet, element, outletName);\n }\n }\n selectorUnmatched(element, _selector, { outletName }) {\n const outlet = this.getOutletFromMap(element, outletName);\n if (outlet) {\n this.disconnectOutlet(outlet, element, outletName);\n }\n }\n selectorMatchElement(element, { outletName }) {\n const selector = this.selector(outletName);\n const hasOutlet = this.hasOutlet(element, outletName);\n const hasOutletController = element.matches(`[${this.schema.controllerAttribute}~=${outletName}]`);\n if (selector) {\n return hasOutlet && hasOutletController && element.matches(selector);\n }\n else {\n return false;\n }\n }\n elementMatchedAttribute(_element, attributeName) {\n const outletName = this.getOutletNameFromOutletAttributeName(attributeName);\n if (outletName) {\n this.updateSelectorObserverForOutlet(outletName);\n }\n }\n elementAttributeValueChanged(_element, attributeName) {\n const outletName = this.getOutletNameFromOutletAttributeName(attributeName);\n if (outletName) {\n this.updateSelectorObserverForOutlet(outletName);\n }\n }\n elementUnmatchedAttribute(_element, attributeName) {\n const outletName = this.getOutletNameFromOutletAttributeName(attributeName);\n if (outletName) {\n this.updateSelectorObserverForOutlet(outletName);\n }\n }\n connectOutlet(outlet, element, outletName) {\n var _a;\n if (!this.outletElementsByName.has(outletName, element)) {\n this.outletsByName.add(outletName, outlet);\n this.outletElementsByName.add(outletName, element);\n (_a = this.selectorObserverMap.get(outletName)) === null || _a === void 0 ? void 0 : _a.pause(() => this.delegate.outletConnected(outlet, element, outletName));\n }\n }\n disconnectOutlet(outlet, element, outletName) {\n var _a;\n if (this.outletElementsByName.has(outletName, element)) {\n this.outletsByName.delete(outletName, outlet);\n this.outletElementsByName.delete(outletName, element);\n (_a = this.selectorObserverMap\n .get(outletName)) === null || _a === void 0 ? void 0 : _a.pause(() => this.delegate.outletDisconnected(outlet, element, outletName));\n }\n }\n disconnectAllOutlets() {\n for (const outletName of this.outletElementsByName.keys) {\n for (const element of this.outletElementsByName.getValuesForKey(outletName)) {\n for (const outlet of this.outletsByName.getValuesForKey(outletName)) {\n this.disconnectOutlet(outlet, element, outletName);\n }\n }\n }\n }\n updateSelectorObserverForOutlet(outletName) {\n const observer = this.selectorObserverMap.get(outletName);\n if (observer) {\n observer.selector = this.selector(outletName);\n }\n }\n setupSelectorObserverForOutlet(outletName) {\n const selector = this.selector(outletName);\n const selectorObserver = new SelectorObserver(document.body, selector, this, { outletName });\n this.selectorObserverMap.set(outletName, selectorObserver);\n selectorObserver.start();\n }\n setupAttributeObserverForOutlet(outletName) {\n const attributeName = this.attributeNameForOutletName(outletName);\n const attributeObserver = new AttributeObserver(this.scope.element, attributeName, this);\n this.attributeObserverMap.set(outletName, attributeObserver);\n attributeObserver.start();\n }\n selector(outletName) {\n return this.scope.outlets.getSelectorForOutletName(outletName);\n }\n attributeNameForOutletName(outletName) {\n return this.scope.schema.outletAttributeForScope(this.identifier, outletName);\n }\n getOutletNameFromOutletAttributeName(attributeName) {\n return this.outletDefinitions.find((outletName) => this.attributeNameForOutletName(outletName) === attributeName);\n }\n get outletDependencies() {\n const dependencies = new Multimap();\n this.router.modules.forEach((module) => {\n const constructor = module.definition.controllerConstructor;\n const outlets = readInheritableStaticArrayValues(constructor, \"outlets\");\n outlets.forEach((outlet) => dependencies.add(outlet, module.identifier));\n });\n return dependencies;\n }\n get outletDefinitions() {\n return this.outletDependencies.getKeysForValue(this.identifier);\n }\n get dependentControllerIdentifiers() {\n return this.outletDependencies.getValuesForKey(this.identifier);\n }\n get dependentContexts() {\n const identifiers = this.dependentControllerIdentifiers;\n return this.router.contexts.filter((context) => identifiers.includes(context.identifier));\n }\n hasOutlet(element, outletName) {\n return !!this.getOutlet(element, outletName) || !!this.getOutletFromMap(element, outletName);\n }\n getOutlet(element, outletName) {\n return this.application.getControllerForElementAndIdentifier(element, outletName);\n }\n getOutletFromMap(element, outletName) {\n return this.outletsByName.getValuesForKey(outletName).find((outlet) => outlet.element === element);\n }\n get scope() {\n return this.context.scope;\n }\n get schema() {\n return this.context.schema;\n }\n get identifier() {\n return this.context.identifier;\n }\n get application() {\n return this.context.application;\n }\n get router() {\n return this.application.router;\n }\n}\n\nclass Context {\n constructor(module, scope) {\n this.logDebugActivity = (functionName, detail = {}) => {\n const { identifier, controller, element } = this;\n detail = Object.assign({ identifier, controller, element }, detail);\n this.application.logDebugActivity(this.identifier, functionName, detail);\n };\n this.module = module;\n this.scope = scope;\n this.controller = new module.controllerConstructor(this);\n this.bindingObserver = new BindingObserver(this, this.dispatcher);\n this.valueObserver = new ValueObserver(this, this.controller);\n this.targetObserver = new TargetObserver(this, this);\n this.outletObserver = new OutletObserver(this, this);\n try {\n this.controller.initialize();\n this.logDebugActivity(\"initialize\");\n }\n catch (error) {\n this.handleError(error, \"initializing controller\");\n }\n }\n connect() {\n this.bindingObserver.start();\n this.valueObserver.start();\n this.targetObserver.start();\n this.outletObserver.start();\n try {\n this.controller.connect();\n this.logDebugActivity(\"connect\");\n }\n catch (error) {\n this.handleError(error, \"connecting controller\");\n }\n }\n refresh() {\n this.outletObserver.refresh();\n }\n disconnect() {\n try {\n this.controller.disconnect();\n this.logDebugActivity(\"disconnect\");\n }\n catch (error) {\n this.handleError(error, \"disconnecting controller\");\n }\n this.outletObserver.stop();\n this.targetObserver.stop();\n this.valueObserver.stop();\n this.bindingObserver.stop();\n }\n get application() {\n return this.module.application;\n }\n get identifier() {\n return this.module.identifier;\n }\n get schema() {\n return this.application.schema;\n }\n get dispatcher() {\n return this.application.dispatcher;\n }\n get element() {\n return this.scope.element;\n }\n get parentElement() {\n return this.element.parentElement;\n }\n handleError(error, message, detail = {}) {\n const { identifier, controller, element } = this;\n detail = Object.assign({ identifier, controller, element }, detail);\n this.application.handleError(error, `Error ${message}`, detail);\n }\n targetConnected(element, name) {\n this.invokeControllerMethod(`${name}TargetConnected`, element);\n }\n targetDisconnected(element, name) {\n this.invokeControllerMethod(`${name}TargetDisconnected`, element);\n }\n outletConnected(outlet, element, name) {\n this.invokeControllerMethod(`${namespaceCamelize(name)}OutletConnected`, outlet, element);\n }\n outletDisconnected(outlet, element, name) {\n this.invokeControllerMethod(`${namespaceCamelize(name)}OutletDisconnected`, outlet, element);\n }\n invokeControllerMethod(methodName, ...args) {\n const controller = this.controller;\n if (typeof controller[methodName] == \"function\") {\n controller[methodName](...args);\n }\n }\n}\n\nfunction bless(constructor) {\n return shadow(constructor, getBlessedProperties(constructor));\n}\nfunction shadow(constructor, properties) {\n const shadowConstructor = extend(constructor);\n const shadowProperties = getShadowProperties(constructor.prototype, properties);\n Object.defineProperties(shadowConstructor.prototype, shadowProperties);\n return shadowConstructor;\n}\nfunction getBlessedProperties(constructor) {\n const blessings = readInheritableStaticArrayValues(constructor, \"blessings\");\n return blessings.reduce((blessedProperties, blessing) => {\n const properties = blessing(constructor);\n for (const key in properties) {\n const descriptor = blessedProperties[key] || {};\n blessedProperties[key] = Object.assign(descriptor, properties[key]);\n }\n return blessedProperties;\n }, {});\n}\nfunction getShadowProperties(prototype, properties) {\n return getOwnKeys(properties).reduce((shadowProperties, key) => {\n const descriptor = getShadowedDescriptor(prototype, properties, key);\n if (descriptor) {\n Object.assign(shadowProperties, { [key]: descriptor });\n }\n return shadowProperties;\n }, {});\n}\nfunction getShadowedDescriptor(prototype, properties, key) {\n const shadowingDescriptor = Object.getOwnPropertyDescriptor(prototype, key);\n const shadowedByValue = shadowingDescriptor && \"value\" in shadowingDescriptor;\n if (!shadowedByValue) {\n const descriptor = Object.getOwnPropertyDescriptor(properties, key).value;\n if (shadowingDescriptor) {\n descriptor.get = shadowingDescriptor.get || descriptor.get;\n descriptor.set = shadowingDescriptor.set || descriptor.set;\n }\n return descriptor;\n }\n}\nconst getOwnKeys = (() => {\n if (typeof Object.getOwnPropertySymbols == \"function\") {\n return (object) => [...Object.getOwnPropertyNames(object), ...Object.getOwnPropertySymbols(object)];\n }\n else {\n return Object.getOwnPropertyNames;\n }\n})();\nconst extend = (() => {\n function extendWithReflect(constructor) {\n function extended() {\n return Reflect.construct(constructor, arguments, new.target);\n }\n extended.prototype = Object.create(constructor.prototype, {\n constructor: { value: extended },\n });\n Reflect.setPrototypeOf(extended, constructor);\n return extended;\n }\n function testReflectExtension() {\n const a = function () {\n this.a.call(this);\n };\n const b = extendWithReflect(a);\n b.prototype.a = function () { };\n return new b();\n }\n try {\n testReflectExtension();\n return extendWithReflect;\n }\n catch (error) {\n return (constructor) => class extended extends constructor {\n };\n }\n})();\n\nfunction blessDefinition(definition) {\n return {\n identifier: definition.identifier,\n controllerConstructor: bless(definition.controllerConstructor),\n };\n}\n\nclass Module {\n constructor(application, definition) {\n this.application = application;\n this.definition = blessDefinition(definition);\n this.contextsByScope = new WeakMap();\n this.connectedContexts = new Set();\n }\n get identifier() {\n return this.definition.identifier;\n }\n get controllerConstructor() {\n return this.definition.controllerConstructor;\n }\n get contexts() {\n return Array.from(this.connectedContexts);\n }\n connectContextForScope(scope) {\n const context = this.fetchContextForScope(scope);\n this.connectedContexts.add(context);\n context.connect();\n }\n disconnectContextForScope(scope) {\n const context = this.contextsByScope.get(scope);\n if (context) {\n this.connectedContexts.delete(context);\n context.disconnect();\n }\n }\n fetchContextForScope(scope) {\n let context = this.contextsByScope.get(scope);\n if (!context) {\n context = new Context(this, scope);\n this.contextsByScope.set(scope, context);\n }\n return context;\n }\n}\n\nclass ClassMap {\n constructor(scope) {\n this.scope = scope;\n }\n has(name) {\n return this.data.has(this.getDataKey(name));\n }\n get(name) {\n return this.getAll(name)[0];\n }\n getAll(name) {\n const tokenString = this.data.get(this.getDataKey(name)) || \"\";\n return tokenize(tokenString);\n }\n getAttributeName(name) {\n return this.data.getAttributeNameForKey(this.getDataKey(name));\n }\n getDataKey(name) {\n return `${name}-class`;\n }\n get data() {\n return this.scope.data;\n }\n}\n\nclass DataMap {\n constructor(scope) {\n this.scope = scope;\n }\n get element() {\n return this.scope.element;\n }\n get identifier() {\n return this.scope.identifier;\n }\n get(key) {\n const name = this.getAttributeNameForKey(key);\n return this.element.getAttribute(name);\n }\n set(key, value) {\n const name = this.getAttributeNameForKey(key);\n this.element.setAttribute(name, value);\n return this.get(key);\n }\n has(key) {\n const name = this.getAttributeNameForKey(key);\n return this.element.hasAttribute(name);\n }\n delete(key) {\n if (this.has(key)) {\n const name = this.getAttributeNameForKey(key);\n this.element.removeAttribute(name);\n return true;\n }\n else {\n return false;\n }\n }\n getAttributeNameForKey(key) {\n return `data-${this.identifier}-${dasherize(key)}`;\n }\n}\n\nclass Guide {\n constructor(logger) {\n this.warnedKeysByObject = new WeakMap();\n this.logger = logger;\n }\n warn(object, key, message) {\n let warnedKeys = this.warnedKeysByObject.get(object);\n if (!warnedKeys) {\n warnedKeys = new Set();\n this.warnedKeysByObject.set(object, warnedKeys);\n }\n if (!warnedKeys.has(key)) {\n warnedKeys.add(key);\n this.logger.warn(message, object);\n }\n }\n}\n\nfunction attributeValueContainsToken(attributeName, token) {\n return `[${attributeName}~=\"${token}\"]`;\n}\n\nclass TargetSet {\n constructor(scope) {\n this.scope = scope;\n }\n get element() {\n return this.scope.element;\n }\n get identifier() {\n return this.scope.identifier;\n }\n get schema() {\n return this.scope.schema;\n }\n has(targetName) {\n return this.find(targetName) != null;\n }\n find(...targetNames) {\n return targetNames.reduce((target, targetName) => target || this.findTarget(targetName) || this.findLegacyTarget(targetName), undefined);\n }\n findAll(...targetNames) {\n return targetNames.reduce((targets, targetName) => [\n ...targets,\n ...this.findAllTargets(targetName),\n ...this.findAllLegacyTargets(targetName),\n ], []);\n }\n findTarget(targetName) {\n const selector = this.getSelectorForTargetName(targetName);\n return this.scope.findElement(selector);\n }\n findAllTargets(targetName) {\n const selector = this.getSelectorForTargetName(targetName);\n return this.scope.findAllElements(selector);\n }\n getSelectorForTargetName(targetName) {\n const attributeName = this.schema.targetAttributeForScope(this.identifier);\n return attributeValueContainsToken(attributeName, targetName);\n }\n findLegacyTarget(targetName) {\n const selector = this.getLegacySelectorForTargetName(targetName);\n return this.deprecate(this.scope.findElement(selector), targetName);\n }\n findAllLegacyTargets(targetName) {\n const selector = this.getLegacySelectorForTargetName(targetName);\n return this.scope.findAllElements(selector).map((element) => this.deprecate(element, targetName));\n }\n getLegacySelectorForTargetName(targetName) {\n const targetDescriptor = `${this.identifier}.${targetName}`;\n return attributeValueContainsToken(this.schema.targetAttribute, targetDescriptor);\n }\n deprecate(element, targetName) {\n if (element) {\n const { identifier } = this;\n const attributeName = this.schema.targetAttribute;\n const revisedAttributeName = this.schema.targetAttributeForScope(identifier);\n this.guide.warn(element, `target:${targetName}`, `Please replace ${attributeName}=\"${identifier}.${targetName}\" with ${revisedAttributeName}=\"${targetName}\". ` +\n `The ${attributeName} attribute is deprecated and will be removed in a future version of Stimulus.`);\n }\n return element;\n }\n get guide() {\n return this.scope.guide;\n }\n}\n\nclass OutletSet {\n constructor(scope, controllerElement) {\n this.scope = scope;\n this.controllerElement = controllerElement;\n }\n get element() {\n return this.scope.element;\n }\n get identifier() {\n return this.scope.identifier;\n }\n get schema() {\n return this.scope.schema;\n }\n has(outletName) {\n return this.find(outletName) != null;\n }\n find(...outletNames) {\n return outletNames.reduce((outlet, outletName) => outlet || this.findOutlet(outletName), undefined);\n }\n findAll(...outletNames) {\n return outletNames.reduce((outlets, outletName) => [...outlets, ...this.findAllOutlets(outletName)], []);\n }\n getSelectorForOutletName(outletName) {\n const attributeName = this.schema.outletAttributeForScope(this.identifier, outletName);\n return this.controllerElement.getAttribute(attributeName);\n }\n findOutlet(outletName) {\n const selector = this.getSelectorForOutletName(outletName);\n if (selector)\n return this.findElement(selector, outletName);\n }\n findAllOutlets(outletName) {\n const selector = this.getSelectorForOutletName(outletName);\n return selector ? this.findAllElements(selector, outletName) : [];\n }\n findElement(selector, outletName) {\n const elements = this.scope.queryElements(selector);\n return elements.filter((element) => this.matchesElement(element, selector, outletName))[0];\n }\n findAllElements(selector, outletName) {\n const elements = this.scope.queryElements(selector);\n return elements.filter((element) => this.matchesElement(element, selector, outletName));\n }\n matchesElement(element, selector, outletName) {\n const controllerAttribute = element.getAttribute(this.scope.schema.controllerAttribute) || \"\";\n return element.matches(selector) && controllerAttribute.split(\" \").includes(outletName);\n }\n}\n\nclass Scope {\n constructor(schema, element, identifier, logger) {\n this.targets = new TargetSet(this);\n this.classes = new ClassMap(this);\n this.data = new DataMap(this);\n this.containsElement = (element) => {\n return element.closest(this.controllerSelector) === this.element;\n };\n this.schema = schema;\n this.element = element;\n this.identifier = identifier;\n this.guide = new Guide(logger);\n this.outlets = new OutletSet(this.documentScope, element);\n }\n findElement(selector) {\n return this.element.matches(selector) ? this.element : this.queryElements(selector).find(this.containsElement);\n }\n findAllElements(selector) {\n return [\n ...(this.element.matches(selector) ? [this.element] : []),\n ...this.queryElements(selector).filter(this.containsElement),\n ];\n }\n queryElements(selector) {\n return Array.from(this.element.querySelectorAll(selector));\n }\n get controllerSelector() {\n return attributeValueContainsToken(this.schema.controllerAttribute, this.identifier);\n }\n get isDocumentScope() {\n return this.element === document.documentElement;\n }\n get documentScope() {\n return this.isDocumentScope\n ? this\n : new Scope(this.schema, document.documentElement, this.identifier, this.guide.logger);\n }\n}\n\nclass ScopeObserver {\n constructor(element, schema, delegate) {\n this.element = element;\n this.schema = schema;\n this.delegate = delegate;\n this.valueListObserver = new ValueListObserver(this.element, this.controllerAttribute, this);\n this.scopesByIdentifierByElement = new WeakMap();\n this.scopeReferenceCounts = new WeakMap();\n }\n start() {\n this.valueListObserver.start();\n }\n stop() {\n this.valueListObserver.stop();\n }\n get controllerAttribute() {\n return this.schema.controllerAttribute;\n }\n parseValueForToken(token) {\n const { element, content: identifier } = token;\n return this.parseValueForElementAndIdentifier(element, identifier);\n }\n parseValueForElementAndIdentifier(element, identifier) {\n const scopesByIdentifier = this.fetchScopesByIdentifierForElement(element);\n let scope = scopesByIdentifier.get(identifier);\n if (!scope) {\n scope = this.delegate.createScopeForElementAndIdentifier(element, identifier);\n scopesByIdentifier.set(identifier, scope);\n }\n return scope;\n }\n elementMatchedValue(element, value) {\n const referenceCount = (this.scopeReferenceCounts.get(value) || 0) + 1;\n this.scopeReferenceCounts.set(value, referenceCount);\n if (referenceCount == 1) {\n this.delegate.scopeConnected(value);\n }\n }\n elementUnmatchedValue(element, value) {\n const referenceCount = this.scopeReferenceCounts.get(value);\n if (referenceCount) {\n this.scopeReferenceCounts.set(value, referenceCount - 1);\n if (referenceCount == 1) {\n this.delegate.scopeDisconnected(value);\n }\n }\n }\n fetchScopesByIdentifierForElement(element) {\n let scopesByIdentifier = this.scopesByIdentifierByElement.get(element);\n if (!scopesByIdentifier) {\n scopesByIdentifier = new Map();\n this.scopesByIdentifierByElement.set(element, scopesByIdentifier);\n }\n return scopesByIdentifier;\n }\n}\n\nclass Router {\n constructor(application) {\n this.application = application;\n this.scopeObserver = new ScopeObserver(this.element, this.schema, this);\n this.scopesByIdentifier = new Multimap();\n this.modulesByIdentifier = new Map();\n }\n get element() {\n return this.application.element;\n }\n get schema() {\n return this.application.schema;\n }\n get logger() {\n return this.application.logger;\n }\n get controllerAttribute() {\n return this.schema.controllerAttribute;\n }\n get modules() {\n return Array.from(this.modulesByIdentifier.values());\n }\n get contexts() {\n return this.modules.reduce((contexts, module) => contexts.concat(module.contexts), []);\n }\n start() {\n this.scopeObserver.start();\n }\n stop() {\n this.scopeObserver.stop();\n }\n loadDefinition(definition) {\n this.unloadIdentifier(definition.identifier);\n const module = new Module(this.application, definition);\n this.connectModule(module);\n const afterLoad = definition.controllerConstructor.afterLoad;\n if (afterLoad) {\n afterLoad.call(definition.controllerConstructor, definition.identifier, this.application);\n }\n }\n unloadIdentifier(identifier) {\n const module = this.modulesByIdentifier.get(identifier);\n if (module) {\n this.disconnectModule(module);\n }\n }\n getContextForElementAndIdentifier(element, identifier) {\n const module = this.modulesByIdentifier.get(identifier);\n if (module) {\n return module.contexts.find((context) => context.element == element);\n }\n }\n proposeToConnectScopeForElementAndIdentifier(element, identifier) {\n const scope = this.scopeObserver.parseValueForElementAndIdentifier(element, identifier);\n if (scope) {\n this.scopeObserver.elementMatchedValue(scope.element, scope);\n }\n else {\n console.error(`Couldn't find or create scope for identifier: \"${identifier}\" and element:`, element);\n }\n }\n handleError(error, message, detail) {\n this.application.handleError(error, message, detail);\n }\n createScopeForElementAndIdentifier(element, identifier) {\n return new Scope(this.schema, element, identifier, this.logger);\n }\n scopeConnected(scope) {\n this.scopesByIdentifier.add(scope.identifier, scope);\n const module = this.modulesByIdentifier.get(scope.identifier);\n if (module) {\n module.connectContextForScope(scope);\n }\n }\n scopeDisconnected(scope) {\n this.scopesByIdentifier.delete(scope.identifier, scope);\n const module = this.modulesByIdentifier.get(scope.identifier);\n if (module) {\n module.disconnectContextForScope(scope);\n }\n }\n connectModule(module) {\n this.modulesByIdentifier.set(module.identifier, module);\n const scopes = this.scopesByIdentifier.getValuesForKey(module.identifier);\n scopes.forEach((scope) => module.connectContextForScope(scope));\n }\n disconnectModule(module) {\n this.modulesByIdentifier.delete(module.identifier);\n const scopes = this.scopesByIdentifier.getValuesForKey(module.identifier);\n scopes.forEach((scope) => module.disconnectContextForScope(scope));\n }\n}\n\nconst defaultSchema = {\n controllerAttribute: \"data-controller\",\n actionAttribute: \"data-action\",\n targetAttribute: \"data-target\",\n targetAttributeForScope: (identifier) => `data-${identifier}-target`,\n outletAttributeForScope: (identifier, outlet) => `data-${identifier}-${outlet}-outlet`,\n keyMappings: Object.assign(Object.assign({ enter: \"Enter\", tab: \"Tab\", esc: \"Escape\", space: \" \", up: \"ArrowUp\", down: \"ArrowDown\", left: \"ArrowLeft\", right: \"ArrowRight\", home: \"Home\", end: \"End\", page_up: \"PageUp\", page_down: \"PageDown\" }, objectFromEntries(\"abcdefghijklmnopqrstuvwxyz\".split(\"\").map((c) => [c, c]))), objectFromEntries(\"0123456789\".split(\"\").map((n) => [n, n]))),\n};\nfunction objectFromEntries(array) {\n return array.reduce((memo, [k, v]) => (Object.assign(Object.assign({}, memo), { [k]: v })), {});\n}\n\nclass Application {\n constructor(element = document.documentElement, schema = defaultSchema) {\n this.logger = console;\n this.debug = false;\n this.logDebugActivity = (identifier, functionName, detail = {}) => {\n if (this.debug) {\n this.logFormattedMessage(identifier, functionName, detail);\n }\n };\n this.element = element;\n this.schema = schema;\n this.dispatcher = new Dispatcher(this);\n this.router = new Router(this);\n this.actionDescriptorFilters = Object.assign({}, defaultActionDescriptorFilters);\n }\n static start(element, schema) {\n const application = new this(element, schema);\n application.start();\n return application;\n }\n async start() {\n await domReady();\n this.logDebugActivity(\"application\", \"starting\");\n this.dispatcher.start();\n this.router.start();\n this.logDebugActivity(\"application\", \"start\");\n }\n stop() {\n this.logDebugActivity(\"application\", \"stopping\");\n this.dispatcher.stop();\n this.router.stop();\n this.logDebugActivity(\"application\", \"stop\");\n }\n register(identifier, controllerConstructor) {\n this.load({ identifier, controllerConstructor });\n }\n registerActionOption(name, filter) {\n this.actionDescriptorFilters[name] = filter;\n }\n load(head, ...rest) {\n const definitions = Array.isArray(head) ? head : [head, ...rest];\n definitions.forEach((definition) => {\n if (definition.controllerConstructor.shouldLoad) {\n this.router.loadDefinition(definition);\n }\n });\n }\n unload(head, ...rest) {\n const identifiers = Array.isArray(head) ? head : [head, ...rest];\n identifiers.forEach((identifier) => this.router.unloadIdentifier(identifier));\n }\n get controllers() {\n return this.router.contexts.map((context) => context.controller);\n }\n getControllerForElementAndIdentifier(element, identifier) {\n const context = this.router.getContextForElementAndIdentifier(element, identifier);\n return context ? context.controller : null;\n }\n handleError(error, message, detail) {\n var _a;\n this.logger.error(`%s\\n\\n%o\\n\\n%o`, message, error, detail);\n (_a = window.onerror) === null || _a === void 0 ? void 0 : _a.call(window, message, \"\", 0, 0, error);\n }\n logFormattedMessage(identifier, functionName, detail = {}) {\n detail = Object.assign({ application: this }, detail);\n this.logger.groupCollapsed(`${identifier} #${functionName}`);\n this.logger.log(\"details:\", Object.assign({}, detail));\n this.logger.groupEnd();\n }\n}\nfunction domReady() {\n return new Promise((resolve) => {\n if (document.readyState == \"loading\") {\n document.addEventListener(\"DOMContentLoaded\", () => resolve());\n }\n else {\n resolve();\n }\n });\n}\n\nfunction ClassPropertiesBlessing(constructor) {\n const classes = readInheritableStaticArrayValues(constructor, \"classes\");\n return classes.reduce((properties, classDefinition) => {\n return Object.assign(properties, propertiesForClassDefinition(classDefinition));\n }, {});\n}\nfunction propertiesForClassDefinition(key) {\n return {\n [`${key}Class`]: {\n get() {\n const { classes } = this;\n if (classes.has(key)) {\n return classes.get(key);\n }\n else {\n const attribute = classes.getAttributeName(key);\n throw new Error(`Missing attribute \"${attribute}\"`);\n }\n },\n },\n [`${key}Classes`]: {\n get() {\n return this.classes.getAll(key);\n },\n },\n [`has${capitalize(key)}Class`]: {\n get() {\n return this.classes.has(key);\n },\n },\n };\n}\n\nfunction OutletPropertiesBlessing(constructor) {\n const outlets = readInheritableStaticArrayValues(constructor, \"outlets\");\n return outlets.reduce((properties, outletDefinition) => {\n return Object.assign(properties, propertiesForOutletDefinition(outletDefinition));\n }, {});\n}\nfunction getOutletController(controller, element, identifier) {\n return controller.application.getControllerForElementAndIdentifier(element, identifier);\n}\nfunction getControllerAndEnsureConnectedScope(controller, element, outletName) {\n let outletController = getOutletController(controller, element, outletName);\n if (outletController)\n return outletController;\n controller.application.router.proposeToConnectScopeForElementAndIdentifier(element, outletName);\n outletController = getOutletController(controller, element, outletName);\n if (outletController)\n return outletController;\n}\nfunction propertiesForOutletDefinition(name) {\n const camelizedName = namespaceCamelize(name);\n return {\n [`${camelizedName}Outlet`]: {\n get() {\n const outletElement = this.outlets.find(name);\n const selector = this.outlets.getSelectorForOutletName(name);\n if (outletElement) {\n const outletController = getControllerAndEnsureConnectedScope(this, outletElement, name);\n if (outletController)\n return outletController;\n throw new Error(`The provided outlet element is missing an outlet controller \"${name}\" instance for host controller \"${this.identifier}\"`);\n }\n throw new Error(`Missing outlet element \"${name}\" for host controller \"${this.identifier}\". Stimulus couldn't find a matching outlet element using selector \"${selector}\".`);\n },\n },\n [`${camelizedName}Outlets`]: {\n get() {\n const outlets = this.outlets.findAll(name);\n if (outlets.length > 0) {\n return outlets\n .map((outletElement) => {\n const outletController = getControllerAndEnsureConnectedScope(this, outletElement, name);\n if (outletController)\n return outletController;\n console.warn(`The provided outlet element is missing an outlet controller \"${name}\" instance for host controller \"${this.identifier}\"`, outletElement);\n })\n .filter((controller) => controller);\n }\n return [];\n },\n },\n [`${camelizedName}OutletElement`]: {\n get() {\n const outletElement = this.outlets.find(name);\n const selector = this.outlets.getSelectorForOutletName(name);\n if (outletElement) {\n return outletElement;\n }\n else {\n throw new Error(`Missing outlet element \"${name}\" for host controller \"${this.identifier}\". Stimulus couldn't find a matching outlet element using selector \"${selector}\".`);\n }\n },\n },\n [`${camelizedName}OutletElements`]: {\n get() {\n return this.outlets.findAll(name);\n },\n },\n [`has${capitalize(camelizedName)}Outlet`]: {\n get() {\n return this.outlets.has(name);\n },\n },\n };\n}\n\nfunction TargetPropertiesBlessing(constructor) {\n const targets = readInheritableStaticArrayValues(constructor, \"targets\");\n return targets.reduce((properties, targetDefinition) => {\n return Object.assign(properties, propertiesForTargetDefinition(targetDefinition));\n }, {});\n}\nfunction propertiesForTargetDefinition(name) {\n return {\n [`${name}Target`]: {\n get() {\n const target = this.targets.find(name);\n if (target) {\n return target;\n }\n else {\n throw new Error(`Missing target element \"${name}\" for \"${this.identifier}\" controller`);\n }\n },\n },\n [`${name}Targets`]: {\n get() {\n return this.targets.findAll(name);\n },\n },\n [`has${capitalize(name)}Target`]: {\n get() {\n return this.targets.has(name);\n },\n },\n };\n}\n\nfunction ValuePropertiesBlessing(constructor) {\n const valueDefinitionPairs = readInheritableStaticObjectPairs(constructor, \"values\");\n const propertyDescriptorMap = {\n valueDescriptorMap: {\n get() {\n return valueDefinitionPairs.reduce((result, valueDefinitionPair) => {\n const valueDescriptor = parseValueDefinitionPair(valueDefinitionPair, this.identifier);\n const attributeName = this.data.getAttributeNameForKey(valueDescriptor.key);\n return Object.assign(result, { [attributeName]: valueDescriptor });\n }, {});\n },\n },\n };\n return valueDefinitionPairs.reduce((properties, valueDefinitionPair) => {\n return Object.assign(properties, propertiesForValueDefinitionPair(valueDefinitionPair));\n }, propertyDescriptorMap);\n}\nfunction propertiesForValueDefinitionPair(valueDefinitionPair, controller) {\n const definition = parseValueDefinitionPair(valueDefinitionPair, controller);\n const { key, name, reader: read, writer: write } = definition;\n return {\n [name]: {\n get() {\n const value = this.data.get(key);\n if (value !== null) {\n return read(value);\n }\n else {\n return definition.defaultValue;\n }\n },\n set(value) {\n if (value === undefined) {\n this.data.delete(key);\n }\n else {\n this.data.set(key, write(value));\n }\n },\n },\n [`has${capitalize(name)}`]: {\n get() {\n return this.data.has(key) || definition.hasCustomDefaultValue;\n },\n },\n };\n}\nfunction parseValueDefinitionPair([token, typeDefinition], controller) {\n return valueDescriptorForTokenAndTypeDefinition({\n controller,\n token,\n typeDefinition,\n });\n}\nfunction parseValueTypeConstant(constant) {\n switch (constant) {\n case Array:\n return \"array\";\n case Boolean:\n return \"boolean\";\n case Number:\n return \"number\";\n case Object:\n return \"object\";\n case String:\n return \"string\";\n }\n}\nfunction parseValueTypeDefault(defaultValue) {\n switch (typeof defaultValue) {\n case \"boolean\":\n return \"boolean\";\n case \"number\":\n return \"number\";\n case \"string\":\n return \"string\";\n }\n if (Array.isArray(defaultValue))\n return \"array\";\n if (Object.prototype.toString.call(defaultValue) === \"[object Object]\")\n return \"object\";\n}\nfunction parseValueTypeObject(payload) {\n const { controller, token, typeObject } = payload;\n const hasType = isSomething(typeObject.type);\n const hasDefault = isSomething(typeObject.default);\n const fullObject = hasType && hasDefault;\n const onlyType = hasType && !hasDefault;\n const onlyDefault = !hasType && hasDefault;\n const typeFromObject = parseValueTypeConstant(typeObject.type);\n const typeFromDefaultValue = parseValueTypeDefault(payload.typeObject.default);\n if (onlyType)\n return typeFromObject;\n if (onlyDefault)\n return typeFromDefaultValue;\n if (typeFromObject !== typeFromDefaultValue) {\n const propertyPath = controller ? `${controller}.${token}` : token;\n throw new Error(`The specified default value for the Stimulus Value \"${propertyPath}\" must match the defined type \"${typeFromObject}\". The provided default value of \"${typeObject.default}\" is of type \"${typeFromDefaultValue}\".`);\n }\n if (fullObject)\n return typeFromObject;\n}\nfunction parseValueTypeDefinition(payload) {\n const { controller, token, typeDefinition } = payload;\n const typeObject = { controller, token, typeObject: typeDefinition };\n const typeFromObject = parseValueTypeObject(typeObject);\n const typeFromDefaultValue = parseValueTypeDefault(typeDefinition);\n const typeFromConstant = parseValueTypeConstant(typeDefinition);\n const type = typeFromObject || typeFromDefaultValue || typeFromConstant;\n if (type)\n return type;\n const propertyPath = controller ? `${controller}.${typeDefinition}` : token;\n throw new Error(`Unknown value type \"${propertyPath}\" for \"${token}\" value`);\n}\nfunction defaultValueForDefinition(typeDefinition) {\n const constant = parseValueTypeConstant(typeDefinition);\n if (constant)\n return defaultValuesByType[constant];\n const hasDefault = hasProperty(typeDefinition, \"default\");\n const hasType = hasProperty(typeDefinition, \"type\");\n const typeObject = typeDefinition;\n if (hasDefault)\n return typeObject.default;\n if (hasType) {\n const { type } = typeObject;\n const constantFromType = parseValueTypeConstant(type);\n if (constantFromType)\n return defaultValuesByType[constantFromType];\n }\n return typeDefinition;\n}\nfunction valueDescriptorForTokenAndTypeDefinition(payload) {\n const { token, typeDefinition } = payload;\n const key = `${dasherize(token)}-value`;\n const type = parseValueTypeDefinition(payload);\n return {\n type,\n key,\n name: camelize(key),\n get defaultValue() {\n return defaultValueForDefinition(typeDefinition);\n },\n get hasCustomDefaultValue() {\n return parseValueTypeDefault(typeDefinition) !== undefined;\n },\n reader: readers[type],\n writer: writers[type] || writers.default,\n };\n}\nconst defaultValuesByType = {\n get array() {\n return [];\n },\n boolean: false,\n number: 0,\n get object() {\n return {};\n },\n string: \"\",\n};\nconst readers = {\n array(value) {\n const array = JSON.parse(value);\n if (!Array.isArray(array)) {\n throw new TypeError(`expected value of type \"array\" but instead got value \"${value}\" of type \"${parseValueTypeDefault(array)}\"`);\n }\n return array;\n },\n boolean(value) {\n return !(value == \"0\" || String(value).toLowerCase() == \"false\");\n },\n number(value) {\n return Number(value.replace(/_/g, \"\"));\n },\n object(value) {\n const object = JSON.parse(value);\n if (object === null || typeof object != \"object\" || Array.isArray(object)) {\n throw new TypeError(`expected value of type \"object\" but instead got value \"${value}\" of type \"${parseValueTypeDefault(object)}\"`);\n }\n return object;\n },\n string(value) {\n return value;\n },\n};\nconst writers = {\n default: writeString,\n array: writeJSON,\n object: writeJSON,\n};\nfunction writeJSON(value) {\n return JSON.stringify(value);\n}\nfunction writeString(value) {\n return `${value}`;\n}\n\nclass Controller {\n constructor(context) {\n this.context = context;\n }\n static get shouldLoad() {\n return true;\n }\n static afterLoad(_identifier, _application) {\n return;\n }\n get application() {\n return this.context.application;\n }\n get scope() {\n return this.context.scope;\n }\n get element() {\n return this.scope.element;\n }\n get identifier() {\n return this.scope.identifier;\n }\n get targets() {\n return this.scope.targets;\n }\n get outlets() {\n return this.scope.outlets;\n }\n get classes() {\n return this.scope.classes;\n }\n get data() {\n return this.scope.data;\n }\n initialize() {\n }\n connect() {\n }\n disconnect() {\n }\n dispatch(eventName, { target = this.element, detail = {}, prefix = this.identifier, bubbles = true, cancelable = true, } = {}) {\n const type = prefix ? `${prefix}:${eventName}` : eventName;\n const event = new CustomEvent(type, { detail, bubbles, cancelable });\n target.dispatchEvent(event);\n return event;\n }\n}\nController.blessings = [\n ClassPropertiesBlessing,\n TargetPropertiesBlessing,\n ValuePropertiesBlessing,\n OutletPropertiesBlessing,\n];\nController.targets = [];\nController.outlets = [];\nController.values = {};\n\nexport { Application, AttributeObserver, Context, Controller, ElementObserver, IndexedMultimap, Multimap, SelectorObserver, StringMapObserver, TokenListObserver, ValueListObserver, add, defaultSchema, del, fetch, prune };\n","/*\n * stimulus-use 0.52.1\n */\nimport { Controller } from \"@hotwired/stimulus\";\n\nconst method = (controller, methodName) => {\n const method = controller[methodName];\n if (typeof method == \"function\") {\n return method;\n } else {\n return (...args) => {};\n }\n};\n\nconst composeEventName = (name, controller, eventPrefix) => {\n let composedName = name;\n if (eventPrefix === true) {\n composedName = `${controller.identifier}:${name}`;\n } else if (typeof eventPrefix === \"string\") {\n composedName = `${eventPrefix}:${name}`;\n }\n return composedName;\n};\n\nconst extendedEvent = (type, event, detail) => {\n const {bubbles: bubbles, cancelable: cancelable, composed: composed} = event || {\n bubbles: true,\n cancelable: true,\n composed: true\n };\n if (event) {\n Object.assign(detail, {\n originalEvent: event\n });\n }\n const customEvent = new CustomEvent(type, {\n bubbles: bubbles,\n cancelable: cancelable,\n composed: composed,\n detail: detail\n });\n return customEvent;\n};\n\nfunction isElementInViewport(el) {\n const rect = el.getBoundingClientRect();\n const windowHeight = window.innerHeight || document.documentElement.clientHeight;\n const windowWidth = window.innerWidth || document.documentElement.clientWidth;\n const vertInView = rect.top <= windowHeight && rect.top + rect.height > 0;\n const horInView = rect.left <= windowWidth && rect.left + rect.width > 0;\n return vertInView && horInView;\n}\n\nfunction camelize(value) {\n return value.replace(/(?:[_-])([a-z0-9])/g, ((_, char) => char.toUpperCase()));\n}\n\n/******************************************************************************\nCopyright (c) Microsoft Corporation.\n\nPermission to use, copy, modify, and/or distribute this software for any\npurpose with or without fee is hereby granted.\n\nTHE SOFTWARE IS PROVIDED \"AS IS\" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH\nREGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY\nAND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,\nINDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM\nLOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR\nOTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR\nPERFORMANCE OF THIS SOFTWARE.\n***************************************************************************** */\n/* global Reflect, Promise */ function __rest(s, e) {\n var t = {};\n for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p) && e.indexOf(p) < 0) t[p] = s[p];\n if (s != null && typeof Object.getOwnPropertySymbols === \"function\") for (var i = 0, p = Object.getOwnPropertySymbols(s); i < p.length; i++) {\n if (e.indexOf(p[i]) < 0 && Object.prototype.propertyIsEnumerable.call(s, p[i])) t[p[i]] = s[p[i]];\n }\n return t;\n}\n\nconst defaultOptions$8 = {\n debug: false,\n logger: console,\n dispatchEvent: true,\n eventPrefix: true\n};\n\nclass StimulusUse {\n constructor(controller, options = {}) {\n var _a, _b, _c;\n this.log = (functionName, args) => {\n if (!this.debug) return;\n this.logger.groupCollapsed(`%c${this.controller.identifier} %c#${functionName}`, \"color: #3B82F6\", \"color: unset\");\n this.logger.log(Object.assign({\n controllerId: this.controllerId\n }, args));\n this.logger.groupEnd();\n };\n this.warn = message => {\n this.logger.warn(`%c${this.controller.identifier} %c${message}`, \"color: #3B82F6; font-weight: bold\", \"color: unset\");\n };\n this.dispatch = (eventName, details = {}) => {\n if (this.dispatchEvent) {\n const {event: event} = details, eventDetails = __rest(details, [ \"event\" ]);\n const customEvent = this.extendedEvent(eventName, event || null, eventDetails);\n this.targetElement.dispatchEvent(customEvent);\n this.log(\"dispatchEvent\", Object.assign({\n eventName: customEvent.type\n }, eventDetails));\n }\n };\n this.call = (methodName, args = {}) => {\n const method = this.controller[methodName];\n if (typeof method == \"function\") {\n return method.call(this.controller, args);\n }\n };\n this.extendedEvent = (name, event, detail) => {\n const {bubbles: bubbles, cancelable: cancelable, composed: composed} = event || {\n bubbles: true,\n cancelable: true,\n composed: true\n };\n if (event) {\n Object.assign(detail, {\n originalEvent: event\n });\n }\n const customEvent = new CustomEvent(this.composeEventName(name), {\n bubbles: bubbles,\n cancelable: cancelable,\n composed: composed,\n detail: detail\n });\n return customEvent;\n };\n this.composeEventName = name => {\n let composedName = name;\n if (this.eventPrefix === true) {\n composedName = `${this.controller.identifier}:${name}`;\n } else if (typeof this.eventPrefix === \"string\") {\n composedName = `${this.eventPrefix}:${name}`;\n }\n return composedName;\n };\n this.debug = (_b = (_a = options === null || options === void 0 ? void 0 : options.debug) !== null && _a !== void 0 ? _a : controller.application.stimulusUseDebug) !== null && _b !== void 0 ? _b : defaultOptions$8.debug;\n this.logger = (_c = options === null || options === void 0 ? void 0 : options.logger) !== null && _c !== void 0 ? _c : defaultOptions$8.logger;\n this.controller = controller;\n this.controllerId = controller.element.id || controller.element.dataset.id;\n this.targetElement = (options === null || options === void 0 ? void 0 : options.element) || controller.element;\n const {dispatchEvent: dispatchEvent, eventPrefix: eventPrefix} = Object.assign({}, defaultOptions$8, options);\n Object.assign(this, {\n dispatchEvent: dispatchEvent,\n eventPrefix: eventPrefix\n });\n this.controllerInitialize = controller.initialize.bind(controller);\n this.controllerConnect = controller.connect.bind(controller);\n this.controllerDisconnect = controller.disconnect.bind(controller);\n }\n}\n\nconst defaultOptions$7 = {\n eventPrefix: true,\n bubbles: true,\n cancelable: true\n};\n\nclass UseDispatch extends StimulusUse {\n constructor(controller, options = {}) {\n var _a, _b, _c, _d;\n super(controller, options);\n this.dispatch = (eventName, detail = {}) => {\n const {controller: controller, targetElement: targetElement, eventPrefix: eventPrefix, bubbles: bubbles, cancelable: cancelable, log: log, warn: warn} = this;\n Object.assign(detail, {\n controller: controller\n });\n const eventNameWithPrefix = composeEventName(eventName, this.controller, eventPrefix);\n const event = new CustomEvent(eventNameWithPrefix, {\n detail: detail,\n bubbles: bubbles,\n cancelable: cancelable\n });\n targetElement.dispatchEvent(event);\n warn(\"`useDispatch()` is deprecated. Please use the built-in `this.dispatch()` function from Stimulus. You can find more information on how to upgrade at: https://stimulus-use.github.io/stimulus-use/#/use-dispatch\");\n log(\"dispatch\", {\n eventName: eventNameWithPrefix,\n detail: detail,\n bubbles: bubbles,\n cancelable: cancelable\n });\n return event;\n };\n this.targetElement = (_a = options.element) !== null && _a !== void 0 ? _a : controller.element;\n this.eventPrefix = (_b = options.eventPrefix) !== null && _b !== void 0 ? _b : defaultOptions$7.eventPrefix;\n this.bubbles = (_c = options.bubbles) !== null && _c !== void 0 ? _c : defaultOptions$7.bubbles;\n this.cancelable = (_d = options.cancelable) !== null && _d !== void 0 ? _d : defaultOptions$7.cancelable;\n this.enhanceController();\n }\n enhanceController() {\n Object.assign(this.controller, {\n dispatch: this.dispatch\n });\n }\n}\n\nconst useDispatch = (controller, options = {}) => new UseDispatch(controller, options);\n\nconst defaultOptions$6 = {\n overwriteDispatch: true\n};\n\nconst useApplication = (controller, options = {}) => {\n const {overwriteDispatch: overwriteDispatch} = Object.assign({}, defaultOptions$6, options);\n Object.defineProperty(controller, \"isPreview\", {\n get() {\n return document.documentElement.hasAttribute(\"data-turbolinks-preview\") || document.documentElement.hasAttribute(\"data-turbo-preview\");\n }\n });\n Object.defineProperty(controller, \"isConnected\", {\n get() {\n return !!Array.from(this.context.module.connectedContexts).find((c => c === this.context));\n }\n });\n Object.defineProperty(controller, \"csrfToken\", {\n get() {\n return this.metaValue(\"csrf-token\");\n }\n });\n if (overwriteDispatch) {\n useDispatch(controller, options);\n }\n Object.assign(controller, {\n metaValue(name) {\n const element = document.head.querySelector(`meta[name=\"${name}\"]`);\n return element && element.getAttribute(\"content\");\n }\n });\n};\n\nclass ApplicationController extends Controller {\n constructor(context) {\n super(context);\n this.isPreview = false;\n this.isConnected = false;\n this.csrfToken = \"\";\n useApplication(this, this.options);\n }\n}\n\nconst defaultOptions$5 = {\n events: [ \"click\", \"touchend\" ],\n onlyVisible: true,\n dispatchEvent: true,\n eventPrefix: true\n};\n\nconst useClickOutside = (composableController, options = {}) => {\n const controller = composableController;\n const {onlyVisible: onlyVisible, dispatchEvent: dispatchEvent, events: events, eventPrefix: eventPrefix} = Object.assign({}, defaultOptions$5, options);\n const onEvent = event => {\n const targetElement = (options === null || options === void 0 ? void 0 : options.element) || controller.element;\n if (targetElement.contains(event.target) || !isElementInViewport(targetElement) && onlyVisible) {\n return;\n }\n if (controller.clickOutside) {\n controller.clickOutside(event);\n }\n if (dispatchEvent) {\n const eventName = composeEventName(\"click:outside\", controller, eventPrefix);\n const clickOutsideEvent = extendedEvent(eventName, event, {\n controller: controller\n });\n targetElement.dispatchEvent(clickOutsideEvent);\n }\n };\n const observe = () => {\n events === null || events === void 0 ? void 0 : events.forEach((event => {\n window.addEventListener(event, onEvent, true);\n }));\n };\n const unobserve = () => {\n events === null || events === void 0 ? void 0 : events.forEach((event => {\n window.removeEventListener(event, onEvent, true);\n }));\n };\n const controllerDisconnect = controller.disconnect.bind(controller);\n Object.assign(controller, {\n disconnect() {\n unobserve();\n controllerDisconnect();\n }\n });\n observe();\n return [ observe, unobserve ];\n};\n\nclass ClickOutsideComposableController extends Controller {}\n\nclass ClickOutsideController extends ClickOutsideComposableController {\n constructor(context) {\n super(context);\n requestAnimationFrame((() => {\n const [observe, unobserve] = useClickOutside(this, this.options);\n Object.assign(this, {\n observe: observe,\n unobserve: unobserve\n });\n }));\n }\n}\n\nclass DebounceController extends Controller {}\n\nDebounceController.debounces = [];\n\nconst defaultWait$1 = 200;\n\nconst debounce = (fn, wait = defaultWait$1) => {\n let timeoutId = null;\n return function() {\n const args = Array.from(arguments);\n const context = this;\n const params = args.map((arg => arg.params));\n const callback = () => {\n args.forEach(((arg, index) => arg.params = params[index]));\n return fn.apply(context, args);\n };\n if (timeoutId) {\n clearTimeout(timeoutId);\n }\n timeoutId = setTimeout(callback, wait);\n };\n};\n\nconst useDebounce = (composableController, options) => {\n const controller = composableController;\n const constructor = controller.constructor;\n constructor.debounces.forEach((func => {\n if (typeof func === \"string\") {\n controller[func] = debounce(controller[func], options === null || options === void 0 ? void 0 : options.wait);\n }\n if (typeof func === \"object\") {\n const {name: name, wait: wait} = func;\n if (!name) return;\n controller[name] = debounce(controller[name], wait || (options === null || options === void 0 ? void 0 : options.wait));\n }\n }));\n};\n\nclass UseHover extends StimulusUse {\n constructor(controller, options = {}) {\n super(controller, options);\n this.observe = () => {\n this.targetElement.addEventListener(\"mouseenter\", this.onEnter);\n this.targetElement.addEventListener(\"mouseleave\", this.onLeave);\n };\n this.unobserve = () => {\n this.targetElement.removeEventListener(\"mouseenter\", this.onEnter);\n this.targetElement.removeEventListener(\"mouseleave\", this.onLeave);\n };\n this.onEnter = event => {\n this.call(\"mouseEnter\", event);\n this.log(\"mouseEnter\", {\n hover: true\n });\n this.dispatch(\"mouseEnter\", {\n hover: false\n });\n };\n this.onLeave = event => {\n this.call(\"mouseLeave\", event);\n this.log(\"mouseLeave\", {\n hover: false\n });\n this.dispatch(\"mouseLeave\", {\n hover: false\n });\n };\n this.controller = controller;\n this.enhanceController();\n this.observe();\n }\n enhanceController() {\n const controllerDisconnect = this.controller.disconnect.bind(this.controller);\n const disconnect = () => {\n this.unobserve();\n controllerDisconnect();\n };\n Object.assign(this.controller, {\n disconnect: disconnect\n });\n }\n}\n\nconst useHover = (composableController, options = {}) => {\n const controller = composableController;\n const observer = new UseHover(controller, options);\n return [ observer.observe, observer.unobserve ];\n};\n\nclass HoverComposableController extends Controller {}\n\nclass HoverController extends HoverComposableController {\n constructor(context) {\n super(context);\n requestAnimationFrame((() => {\n const [observe, unobserve] = useHover(this, this.options);\n Object.assign(this, {\n observe: observe,\n unobserve: unobserve\n });\n }));\n }\n}\n\nconst defaultEvents = [ \"mousemove\", \"mousedown\", \"resize\", \"keydown\", \"touchstart\", \"wheel\" ];\n\nconst oneMinute = 6e4;\n\nconst defaultOptions$4 = {\n ms: oneMinute,\n initialState: false,\n events: defaultEvents,\n dispatchEvent: true,\n eventPrefix: true\n};\n\nconst useIdle = (composableController, options = {}) => {\n const controller = composableController;\n const {ms: ms, initialState: initialState, events: events, dispatchEvent: dispatchEvent, eventPrefix: eventPrefix} = Object.assign({}, defaultOptions$4, options);\n let isIdle = initialState;\n let timeout = setTimeout((() => {\n isIdle = true;\n dispatchAway();\n }), ms);\n const dispatchAway = event => {\n const eventName = composeEventName(\"away\", controller, eventPrefix);\n controller.isIdle = true;\n method(controller, \"away\").call(controller, event);\n if (dispatchEvent) {\n const clickOutsideEvent = extendedEvent(eventName, event || null, {\n controller: controller\n });\n controller.element.dispatchEvent(clickOutsideEvent);\n }\n };\n const dispatchBack = event => {\n const eventName = composeEventName(\"back\", controller, eventPrefix);\n controller.isIdle = false;\n method(controller, \"back\").call(controller, event);\n if (dispatchEvent) {\n const clickOutsideEvent = extendedEvent(eventName, event || null, {\n controller: controller\n });\n controller.element.dispatchEvent(clickOutsideEvent);\n }\n };\n const onEvent = event => {\n if (isIdle) dispatchBack(event);\n isIdle = false;\n clearTimeout(timeout);\n timeout = setTimeout((() => {\n isIdle = true;\n dispatchAway(event);\n }), ms);\n };\n const onVisibility = event => {\n if (!document.hidden) onEvent(event);\n };\n if (isIdle) {\n dispatchAway();\n } else {\n dispatchBack();\n }\n const controllerDisconnect = controller.disconnect.bind(controller);\n const observe = () => {\n events.forEach((event => {\n window.addEventListener(event, onEvent);\n }));\n document.addEventListener(\"visibilitychange\", onVisibility);\n };\n const unobserve = () => {\n clearTimeout(timeout);\n events.forEach((event => {\n window.removeEventListener(event, onEvent);\n }));\n document.removeEventListener(\"visibilitychange\", onVisibility);\n };\n Object.assign(controller, {\n disconnect() {\n unobserve();\n controllerDisconnect();\n }\n });\n observe();\n return [ observe, unobserve ];\n};\n\nclass IdleComposableController extends Controller {\n constructor() {\n super(...arguments);\n this.isIdle = false;\n }\n}\n\nclass IdleController extends IdleComposableController {\n constructor(context) {\n super(context);\n requestAnimationFrame((() => {\n const [observe, unobserve] = useIdle(this, this.options);\n Object.assign(this, {\n observe: observe,\n unobserve: unobserve\n });\n }));\n }\n}\n\nconst defaultOptions$3 = {\n dispatchEvent: true,\n eventPrefix: true,\n visibleAttribute: \"isVisible\"\n};\n\nconst useIntersection = (composableController, options = {}) => {\n const controller = composableController;\n const {dispatchEvent: dispatchEvent, eventPrefix: eventPrefix, visibleAttribute: visibleAttribute} = Object.assign({}, defaultOptions$3, options);\n const targetElement = (options === null || options === void 0 ? void 0 : options.element) || controller.element;\n if (!controller.intersectionElements) controller.intersectionElements = [];\n controller.intersectionElements.push(targetElement);\n const callback = entries => {\n const [entry] = entries;\n if (entry.isIntersecting) {\n dispatchAppear(entry);\n } else if (targetElement.hasAttribute(visibleAttribute)) {\n dispatchDisappear(entry);\n }\n };\n const observer = new IntersectionObserver(callback, options);\n const dispatchAppear = entry => {\n targetElement.setAttribute(visibleAttribute, \"true\");\n method(controller, \"appear\").call(controller, entry, observer);\n if (dispatchEvent) {\n const eventName = composeEventName(\"appear\", controller, eventPrefix);\n const appearEvent = extendedEvent(eventName, null, {\n controller: controller,\n entry: entry,\n observer: observer\n });\n targetElement.dispatchEvent(appearEvent);\n }\n };\n const dispatchDisappear = entry => {\n targetElement.removeAttribute(visibleAttribute);\n method(controller, \"disappear\").call(controller, entry, observer);\n if (dispatchEvent) {\n const eventName = composeEventName(\"disappear\", controller, eventPrefix);\n const disappearEvent = extendedEvent(eventName, null, {\n controller: controller,\n entry: entry,\n observer: observer\n });\n targetElement.dispatchEvent(disappearEvent);\n }\n };\n const controllerDisconnect = controller.disconnect.bind(controller);\n const disconnect = () => {\n unobserve();\n controllerDisconnect();\n };\n const observe = () => {\n observer.observe(targetElement);\n };\n const unobserve = () => {\n observer.unobserve(targetElement);\n };\n const noneVisible = () => controller.intersectionElements.filter((element => element.hasAttribute(visibleAttribute))).length === 0;\n const oneVisible = () => controller.intersectionElements.filter((element => element.hasAttribute(visibleAttribute))).length === 1;\n const atLeastOneVisible = () => controller.intersectionElements.some((element => element.hasAttribute(visibleAttribute)));\n const allVisible = () => controller.intersectionElements.every((element => element.hasAttribute(visibleAttribute)));\n const isVisible = allVisible;\n Object.assign(controller, {\n isVisible: isVisible,\n noneVisible: noneVisible,\n oneVisible: oneVisible,\n atLeastOneVisible: atLeastOneVisible,\n allVisible: allVisible,\n disconnect: disconnect\n });\n observe();\n return [ observe, unobserve ];\n};\n\nclass IntersectionComposableController extends Controller {}\n\nclass IntersectionController extends IntersectionComposableController {\n constructor(context) {\n super(context);\n requestAnimationFrame((() => {\n const [observe, unobserve] = useIntersection(this, this.options);\n Object.assign(this, {\n observe: observe,\n unobserve: unobserve\n });\n }));\n }\n}\n\nconst useLazyLoad = (controller, options) => {\n const callback = entries => {\n const [entry] = entries;\n if (entry.isIntersecting && !controller.isLoaded) {\n handleAppear();\n }\n };\n const handleAppear = entry => {\n const src = controller.data.get(\"src\");\n if (!src) return;\n const imageElement = controller.element;\n controller.isLoading = true;\n method(controller, \"loading\").call(controller, src);\n imageElement.onload = () => {\n handleLoaded(src);\n };\n imageElement.src = src;\n };\n const handleLoaded = src => {\n controller.isLoading = false;\n controller.isLoaded = true;\n method(controller, \"loaded\").call(controller, src);\n };\n const controllerDisconnect = controller.disconnect.bind(controller);\n const observer = new IntersectionObserver(callback, options);\n const observe = () => {\n observer.observe(controller.element);\n };\n const unobserve = () => {\n observer.unobserve(controller.element);\n };\n Object.assign(controller, {\n isVisible: false,\n disconnect() {\n unobserve();\n controllerDisconnect();\n }\n });\n observe();\n return [ observe, unobserve ];\n};\n\nclass LazyLoadComposableController extends Controller {\n constructor() {\n super(...arguments);\n this.isLoading = false;\n this.isLoaded = false;\n }\n}\n\nclass LazyLoadController extends LazyLoadComposableController {\n constructor(context) {\n super(context);\n this.options = {\n rootMargin: \"10%\"\n };\n requestAnimationFrame((() => {\n const [observe, unobserve] = useLazyLoad(this, this.options);\n Object.assign(this, {\n observe: observe,\n unobserve: unobserve\n });\n }));\n }\n}\n\nconst defaultOptions$2 = {\n mediaQueries: {},\n dispatchEvent: true,\n eventPrefix: true,\n debug: false\n};\n\nclass UseMatchMedia extends StimulusUse {\n constructor(controller, options = {}) {\n var _a, _b, _c, _d;\n super(controller, options);\n this.matches = [];\n this.callback = event => {\n const name = Object.keys(this.mediaQueries).find((name => this.mediaQueries[name] === event.media));\n if (!name) return;\n const {media: media, matches: matches} = event;\n this.changed({\n name: name,\n media: media,\n matches: matches,\n event: event\n });\n };\n this.changed = payload => {\n const {name: name} = payload;\n if (payload.event) {\n this.call(camelize(`${name}_changed`), payload);\n this.dispatch(`${name}:changed`, payload);\n this.log(`media query \"${name}\" changed`, payload);\n }\n if (payload.matches) {\n this.call(camelize(`is_${name}`), payload);\n this.dispatch(`is:${name}`, payload);\n } else {\n this.call(camelize(`not_${name}`), payload);\n this.dispatch(`not:${name}`, payload);\n }\n };\n this.observe = () => {\n Object.keys(this.mediaQueries).forEach((name => {\n const media = this.mediaQueries[name];\n const match = window.matchMedia(media);\n match.addListener(this.callback);\n this.matches.push(match);\n this.changed({\n name: name,\n media: media,\n matches: match.matches\n });\n }));\n };\n this.unobserve = () => {\n this.matches.forEach((match => match.removeListener(this.callback)));\n };\n this.controller = controller;\n this.mediaQueries = (_a = options.mediaQueries) !== null && _a !== void 0 ? _a : defaultOptions$2.mediaQueries;\n this.dispatchEvent = (_b = options.dispatchEvent) !== null && _b !== void 0 ? _b : defaultOptions$2.dispatchEvent;\n this.eventPrefix = (_c = options.eventPrefix) !== null && _c !== void 0 ? _c : defaultOptions$2.eventPrefix;\n this.debug = (_d = options.debug) !== null && _d !== void 0 ? _d : defaultOptions$2.debug;\n if (!window.matchMedia) {\n console.error(\"window.matchMedia() is not available\");\n return;\n }\n this.enhanceController();\n this.observe();\n }\n enhanceController() {\n const controllerDisconnect = this.controller.disconnect.bind(this.controller);\n const disconnect = () => {\n this.unobserve();\n controllerDisconnect();\n };\n Object.assign(this.controller, {\n disconnect: disconnect\n });\n }\n}\n\nconst useMatchMedia = (controller, options = {}) => {\n const observer = new UseMatchMedia(controller, options);\n return [ observer.observe, observer.unobserve ];\n};\n\nconst memoize = (controller, name, value) => {\n Object.defineProperty(controller, name, {\n value: value\n });\n return value;\n};\n\nconst useMemo = controller => {\n var _a;\n (_a = controller.constructor.memos) === null || _a === void 0 ? void 0 : _a.forEach((getter => {\n memoize(controller, getter, controller[getter]);\n }));\n};\n\nconst defineMetaGetter = (controller, metaName, suffix) => {\n const getterName = suffix ? `${camelize(metaName)}Meta` : camelize(metaName);\n Object.defineProperty(controller, getterName, {\n get() {\n return typeCast(metaValue(metaName));\n }\n });\n};\n\nfunction metaValue(name) {\n const element = document.head.querySelector(`meta[name=\"${name}\"]`);\n return element && element.getAttribute(\"content\");\n}\n\nfunction typeCast(value) {\n try {\n return JSON.parse(value);\n } catch (o_O) {\n return value;\n }\n}\n\nconst useMeta = (controller, options = {\n suffix: true\n}) => {\n const metaNames = controller.constructor.metaNames;\n const suffix = options.suffix;\n metaNames === null || metaNames === void 0 ? void 0 : metaNames.forEach((metaName => {\n defineMetaGetter(controller, metaName, suffix);\n }));\n Object.defineProperty(controller, \"metas\", {\n get() {\n const result = {};\n metaNames === null || metaNames === void 0 ? void 0 : metaNames.forEach((metaName => {\n const value = typeCast(metaValue(metaName));\n if (value !== undefined && value !== null) {\n result[camelize(metaName)] = value;\n }\n }));\n return result;\n }\n });\n};\n\nclass UseMutation extends StimulusUse {\n constructor(controller, options = {}) {\n super(controller, options);\n this.observe = () => {\n try {\n this.observer.observe(this.targetElement, this.options);\n } catch (error) {\n this.controller.application.handleError(error, \"At a minimum, one of childList, attributes, and/or characterData must be true\", {});\n }\n };\n this.unobserve = () => {\n this.observer.disconnect();\n };\n this.mutation = entries => {\n this.call(\"mutate\", entries);\n this.log(\"mutate\", {\n entries: entries\n });\n this.dispatch(\"mutate\", {\n entries: entries\n });\n };\n this.targetElement = (options === null || options === void 0 ? void 0 : options.element) || controller.element;\n this.controller = controller;\n this.options = options;\n this.observer = new MutationObserver(this.mutation);\n this.enhanceController();\n this.observe();\n }\n enhanceController() {\n const controllerDisconnect = this.controller.disconnect.bind(this.controller);\n const disconnect = () => {\n this.unobserve();\n controllerDisconnect();\n };\n Object.assign(this.controller, {\n disconnect: disconnect\n });\n }\n}\n\nconst useMutation = (controller, options = {}) => {\n const observer = new UseMutation(controller, options);\n return [ observer.observe, observer.unobserve ];\n};\n\nclass MutationComposableController extends Controller {}\n\nclass MutationController extends MutationComposableController {\n constructor(context) {\n super(context);\n requestAnimationFrame((() => {\n const [observe, unobserve] = useMutation(this, this.options);\n Object.assign(this, {\n observe: observe,\n unobserve: unobserve\n });\n }));\n }\n}\n\nconst defaultOptions$1 = {\n dispatchEvent: true,\n eventPrefix: true\n};\n\nconst useResize = (composableController, options = {}) => {\n const controller = composableController;\n const {dispatchEvent: dispatchEvent, eventPrefix: eventPrefix} = Object.assign({}, defaultOptions$1, options);\n const targetElement = (options === null || options === void 0 ? void 0 : options.element) || controller.element;\n const callback = entries => {\n const [entry] = entries;\n method(controller, \"resize\").call(controller, entry.contentRect);\n if (dispatchEvent) {\n const eventName = composeEventName(\"resize\", controller, eventPrefix);\n const appearEvent = extendedEvent(eventName, null, {\n controller: controller,\n entry: entry\n });\n targetElement.dispatchEvent(appearEvent);\n }\n };\n const controllerDisconnect = controller.disconnect.bind(controller);\n const observer = new ResizeObserver(callback);\n const observe = () => {\n observer.observe(targetElement);\n };\n const unobserve = () => {\n observer.unobserve(targetElement);\n };\n Object.assign(controller, {\n disconnect() {\n unobserve();\n controllerDisconnect();\n }\n });\n observe();\n return [ observe, unobserve ];\n};\n\nclass ResizeComposableController extends Controller {}\n\nclass ResizeController extends ResizeComposableController {\n constructor(context) {\n super(context);\n requestAnimationFrame((() => {\n const [observe, unobserve] = useResize(this, this.options);\n Object.assign(this, {\n observe: observe,\n unobserve: unobserve\n });\n }));\n }\n}\n\nclass UseTargetMutation extends StimulusUse {\n constructor(controller, options = {}) {\n super(controller, options);\n this.observe = () => {\n this.observer.observe(this.targetElement, {\n subtree: true,\n characterData: true,\n childList: true,\n attributes: true,\n attributeOldValue: true,\n attributeFilter: [ this.targetSelector, this.scopedTargetSelector ]\n });\n };\n this.unobserve = () => {\n this.observer.disconnect();\n };\n this.mutation = entries => {\n for (const mutation of entries) {\n switch (mutation.type) {\n case \"attributes\":\n let newValue = mutation.target.getAttribute(mutation.attributeName);\n let oldValue = mutation.oldValue;\n if (mutation.attributeName === this.targetSelector || mutation.attributeName === this.scopedTargetSelector) {\n let oldTargets = this.targetsUsedByThisController(oldValue);\n let newTargets = this.targetsUsedByThisController(newValue);\n let removedTargets = oldTargets.filter((target => !newTargets.includes(target)));\n let addedTargets = newTargets.filter((target => !oldTargets.includes(target)));\n removedTargets.forEach((target => this.targetRemoved(this.stripIdentifierPrefix(target), mutation.target, \"attributeChange\")));\n addedTargets.forEach((target => this.targetAdded(this.stripIdentifierPrefix(target), mutation.target, \"attributeChange\")));\n }\n break;\n\n case \"characterData\":\n let nodule = this.findTargetInAncestry(mutation.target);\n if (nodule == null) {\n return;\n } else {\n let supportedTargets = this.targetsUsedByThisControllerFromNode(nodule);\n supportedTargets.forEach((target => {\n this.targetChanged(this.stripIdentifierPrefix(target), nodule, \"domMutation\");\n }));\n }\n break;\n\n case \"childList\":\n let {addedNodes: addedNodes, removedNodes: removedNodes} = mutation;\n addedNodes.forEach((node => this.processNodeDOMMutation(node, this.targetAdded)));\n removedNodes.forEach((node => this.processNodeDOMMutation(node, this.targetRemoved)));\n break;\n }\n }\n };\n this.controller = controller;\n this.options = options;\n this.targetElement = controller.element;\n this.identifier = controller.scope.identifier;\n this.identifierPrefix = `${this.identifier}.`;\n this.targetSelector = controller.scope.schema.targetAttribute;\n this.scopedTargetSelector = `data-${this.identifier}-target`;\n this.targets = options.targets || controller.constructor.targets;\n this.prefixedTargets = this.targets.map((target => `${this.identifierPrefix}${target}`));\n this.observer = new MutationObserver(this.mutation);\n this.enhanceController();\n this.observe();\n }\n processNodeDOMMutation(node, initialChangeModeAssumption) {\n let nodule = node;\n let change = initialChangeModeAssumption;\n let supportedTargets = [];\n if (nodule.nodeName == \"#text\" || this.targetsUsedByThisControllerFromNode(nodule).length == 0) {\n change = this.targetChanged;\n nodule = this.findTargetInAncestry(node);\n } else {\n supportedTargets = this.targetsUsedByThisControllerFromNode(nodule);\n }\n if (nodule == null) {\n return;\n } else if (supportedTargets.length == 0) {\n supportedTargets = this.targetsUsedByThisControllerFromNode(nodule);\n }\n supportedTargets.forEach((target => {\n change.call(this, this.stripIdentifierPrefix(target), nodule, \"domMutation\");\n }));\n }\n findTargetInAncestry(node) {\n let nodule = node;\n let supportedTargets = [];\n if (nodule.nodeName != \"#text\") {\n supportedTargets = this.targetsUsedByThisControllerFromNode(nodule);\n }\n while (nodule.parentNode !== null && nodule.parentNode != this.targetElement && supportedTargets.length == 0) {\n nodule = nodule.parentNode;\n if (nodule.nodeName !== \"#text\") {\n let supportedTargets = this.targetsUsedByThisControllerFromNode(nodule);\n if (supportedTargets.length > 0) {\n return nodule;\n }\n }\n }\n if (nodule.nodeName == \"#text\") {\n return null;\n }\n if (nodule.parentNode == null) {\n return null;\n }\n if (nodule.parentNode == this.targetElement) {\n if (this.targetsUsedByThisControllerFromNode(nodule).length > 0) {\n return nodule;\n }\n return null;\n }\n return null;\n }\n targetAdded(name, node, trigger) {\n let targetCallback = `${name}TargetAdded`;\n this.controller[targetCallback] && method(this.controller, targetCallback).call(this.controller, node);\n this.log(\"targetAdded\", {\n target: name,\n node: node,\n trigger: trigger\n });\n }\n targetRemoved(name, node, trigger) {\n let targetCallback = `${name}TargetRemoved`;\n this.controller[targetCallback] && method(this.controller, targetCallback).call(this.controller, node);\n this.log(\"targetRemoved\", {\n target: name,\n node: node,\n trigger: trigger\n });\n }\n targetChanged(name, node, trigger) {\n let targetCallback = `${name}TargetChanged`;\n this.controller[targetCallback] && method(this.controller, targetCallback).call(this.controller, node);\n this.log(\"targetChanged\", {\n target: name,\n node: node,\n trigger: trigger\n });\n }\n targetsUsedByThisControllerFromNode(node) {\n if (node.nodeName == \"#text\" || node.nodeName == \"#comment\") {\n return [];\n }\n let nodeElement = node;\n return this.targetsUsedByThisController(nodeElement.getAttribute(this.scopedTargetSelector) || nodeElement.getAttribute(this.targetSelector));\n }\n targetsUsedByThisController(targetStr) {\n targetStr = targetStr || \"\";\n let targetsToCheck = this.stripIdentifierPrefix(targetStr).split(\" \");\n return this.targets.filter((n => targetsToCheck.indexOf(n) !== -1));\n }\n stripIdentifierPrefix(target) {\n return target.replace(new RegExp(this.identifierPrefix, \"g\"), \"\");\n }\n enhanceController() {\n const controllerDisconnect = this.controller.disconnect.bind(this.controller);\n const disconnect = () => {\n this.unobserve();\n controllerDisconnect();\n };\n Object.assign(this.controller, {\n disconnect: disconnect\n });\n }\n}\n\nconst useTargetMutation = (composableController, options = {}) => {\n const controller = composableController;\n const observer = new UseTargetMutation(controller, options);\n return [ observer.observe, observer.unobserve ];\n};\n\nclass TargetMutationComposableController extends Controller {}\n\nclass TargetMutationController extends TargetMutationComposableController {\n constructor(context) {\n super(context);\n requestAnimationFrame((() => {\n const [observe, unobserve] = useTargetMutation(this, this.options);\n Object.assign(this, {\n observe: observe,\n unobserve: unobserve\n });\n }));\n }\n}\n\nclass ThrottleController extends Controller {}\n\nThrottleController.throttles = [];\n\nconst defaultWait = 200;\n\nfunction throttle(func, wait = defaultWait) {\n let inThrottle;\n return function() {\n const args = arguments;\n const context = this;\n if (!inThrottle) {\n inThrottle = true;\n func.apply(context, args);\n setTimeout((() => inThrottle = false), wait);\n }\n };\n}\n\nconst useThrottle = (composableController, options = {}) => {\n var _a;\n const controller = composableController;\n const constructor = controller.constructor;\n (_a = constructor.throttles) === null || _a === void 0 ? void 0 : _a.forEach((func => {\n if (typeof func === \"string\") {\n controller[func] = throttle(controller[func], options === null || options === void 0 ? void 0 : options.wait);\n }\n if (typeof func === \"object\") {\n const {name: name, wait: wait} = func;\n if (!name) return;\n controller[name] = throttle(controller[name], wait || (options === null || options === void 0 ? void 0 : options.wait));\n }\n }));\n};\n\nconst alpineNames = {\n enterFromClass: \"enter\",\n enterActiveClass: \"enterStart\",\n enterToClass: \"enterEnd\",\n leaveFromClass: \"leave\",\n leaveActiveClass: \"leaveStart\",\n leaveToClass: \"leaveEnd\"\n};\n\nconst defaultOptions = {\n transitioned: false,\n hiddenClass: \"hidden\",\n preserveOriginalClass: true,\n removeToClasses: true\n};\n\nconst useTransition = (composableController, options = {}) => {\n var _a, _b, _c;\n const controller = composableController;\n const targetName = controller.element.dataset.transitionTarget;\n let targetFromAttribute;\n if (targetName) {\n targetFromAttribute = controller[`${targetName}Target`];\n }\n const targetElement = (options === null || options === void 0 ? void 0 : options.element) || targetFromAttribute || controller.element;\n if (!(targetElement instanceof HTMLElement || targetElement instanceof SVGElement)) return;\n const dataset = targetElement.dataset;\n const leaveAfter = parseInt(dataset.leaveAfter || \"\") || options.leaveAfter || 0;\n const {transitioned: transitioned, hiddenClass: hiddenClass, preserveOriginalClass: preserveOriginalClass, removeToClasses: removeToClasses} = Object.assign({}, defaultOptions, options);\n const controllerEnter = (_a = controller.enter) === null || _a === void 0 ? void 0 : _a.bind(controller);\n const controllerLeave = (_b = controller.leave) === null || _b === void 0 ? void 0 : _b.bind(controller);\n const controllerToggleTransition = (_c = controller.toggleTransition) === null || _c === void 0 ? void 0 : _c.bind(controller);\n async function enter(event) {\n if (controller.transitioned) return;\n controller.transitioned = true;\n controllerEnter && controllerEnter(event);\n const enterFromClasses = getAttribute(\"enterFrom\", options, dataset);\n const enterActiveClasses = getAttribute(\"enterActive\", options, dataset);\n const enterToClasses = getAttribute(\"enterTo\", options, dataset);\n const leaveToClasses = getAttribute(\"leaveTo\", options, dataset);\n if (!!hiddenClass) {\n targetElement.classList.remove(hiddenClass);\n }\n if (!removeToClasses) {\n removeClasses(targetElement, leaveToClasses);\n }\n await transition(targetElement, enterFromClasses, enterActiveClasses, enterToClasses, hiddenClass, preserveOriginalClass, removeToClasses);\n if (leaveAfter > 0) {\n setTimeout((() => {\n leave(event);\n }), leaveAfter);\n }\n }\n async function leave(event) {\n if (!controller.transitioned) return;\n controller.transitioned = false;\n controllerLeave && controllerLeave(event);\n const leaveFromClasses = getAttribute(\"leaveFrom\", options, dataset);\n const leaveActiveClasses = getAttribute(\"leaveActive\", options, dataset);\n const leaveToClasses = getAttribute(\"leaveTo\", options, dataset);\n const enterToClasses = getAttribute(\"enterTo\", options, dataset);\n if (!removeToClasses) {\n removeClasses(targetElement, enterToClasses);\n }\n await transition(targetElement, leaveFromClasses, leaveActiveClasses, leaveToClasses, hiddenClass, preserveOriginalClass, removeToClasses);\n if (!!hiddenClass) {\n targetElement.classList.add(hiddenClass);\n }\n }\n function toggleTransition(event) {\n controllerToggleTransition && controllerToggleTransition(event);\n if (controller.transitioned) {\n leave();\n } else {\n enter();\n }\n }\n async function transition(element, initialClasses, activeClasses, endClasses, hiddenClass, preserveOriginalClass, removeEndClasses) {\n const stashedClasses = [];\n if (preserveOriginalClass) {\n initialClasses.forEach((cls => element.classList.contains(cls) && cls !== hiddenClass && stashedClasses.push(cls)));\n activeClasses.forEach((cls => element.classList.contains(cls) && cls !== hiddenClass && stashedClasses.push(cls)));\n endClasses.forEach((cls => element.classList.contains(cls) && cls !== hiddenClass && stashedClasses.push(cls)));\n }\n addClasses(element, initialClasses);\n removeClasses(element, stashedClasses);\n addClasses(element, activeClasses);\n await nextAnimationFrame();\n removeClasses(element, initialClasses);\n addClasses(element, endClasses);\n await afterTransition(element);\n removeClasses(element, activeClasses);\n if (removeEndClasses) {\n removeClasses(element, endClasses);\n }\n addClasses(element, stashedClasses);\n }\n function initialState() {\n controller.transitioned = transitioned;\n if (transitioned) {\n if (!!hiddenClass) {\n targetElement.classList.remove(hiddenClass);\n }\n enter();\n } else {\n if (!!hiddenClass) {\n targetElement.classList.add(hiddenClass);\n }\n leave();\n }\n }\n function addClasses(element, classes) {\n if (classes.length > 0) {\n element.classList.add(...classes);\n }\n }\n function removeClasses(element, classes) {\n if (classes.length > 0) {\n element.classList.remove(...classes);\n }\n }\n initialState();\n Object.assign(controller, {\n enter: enter,\n leave: leave,\n toggleTransition: toggleTransition\n });\n return [ enter, leave, toggleTransition ];\n};\n\nfunction getAttribute(name, options, dataset) {\n const datasetName = `transition${name[0].toUpperCase()}${name.substr(1)}`;\n const datasetAlpineName = alpineNames[name];\n const classes = options[name] || dataset[datasetName] || dataset[datasetAlpineName] || \" \";\n return isEmpty(classes) ? [] : classes.split(\" \");\n}\n\nasync function afterTransition(element) {\n return new Promise((resolve => {\n const duration = Number(getComputedStyle(element).transitionDuration.split(\",\")[0].replace(\"s\", \"\")) * 1e3;\n setTimeout((() => {\n resolve(duration);\n }), duration);\n }));\n}\n\nasync function nextAnimationFrame() {\n return new Promise((resolve => {\n requestAnimationFrame((() => {\n requestAnimationFrame(resolve);\n }));\n }));\n}\n\nfunction isEmpty(str) {\n return str.length === 0 || !str.trim();\n}\n\nclass TransitionComposableController extends Controller {\n constructor() {\n super(...arguments);\n this.transitioned = false;\n }\n}\n\nclass TransitionController extends TransitionComposableController {\n constructor(context) {\n super(context);\n requestAnimationFrame((() => {\n useTransition(this, this.options);\n }));\n }\n}\n\nclass UseVisibility extends StimulusUse {\n constructor(controller, options = {}) {\n super(controller, options);\n this.observe = () => {\n this.controller.isVisible = !document.hidden;\n document.addEventListener(\"visibilitychange\", this.handleVisibilityChange);\n this.handleVisibilityChange();\n };\n this.unobserve = () => {\n document.removeEventListener(\"visibilitychange\", this.handleVisibilityChange);\n };\n this.becomesInvisible = event => {\n this.controller.isVisible = false;\n this.call(\"invisible\", event);\n this.log(\"invisible\", {\n isVisible: false\n });\n this.dispatch(\"invisible\", {\n event: event,\n isVisible: false\n });\n };\n this.becomesVisible = event => {\n this.controller.isVisible = true;\n this.call(\"visible\", event);\n this.log(\"visible\", {\n isVisible: true\n });\n this.dispatch(\"visible\", {\n event: event,\n isVisible: true\n });\n };\n this.handleVisibilityChange = event => {\n if (document.hidden) {\n this.becomesInvisible(event);\n } else {\n this.becomesVisible(event);\n }\n };\n this.controller = controller;\n this.enhanceController();\n this.observe();\n }\n enhanceController() {\n const controllerDisconnect = this.controllerDisconnect;\n const disconnect = () => {\n this.unobserve();\n controllerDisconnect();\n };\n Object.assign(this.controller, {\n disconnect: disconnect\n });\n }\n}\n\nconst useVisibility = (composableController, options = {}) => {\n const controller = composableController;\n const observer = new UseVisibility(controller, options);\n return [ observer.observe, observer.unobserve ];\n};\n\nclass VisibilityComposableController extends Controller {\n constructor() {\n super(...arguments);\n this.isVisible = false;\n }\n}\n\nclass VisibilityController extends VisibilityComposableController {\n constructor(context) {\n super(context);\n requestAnimationFrame((() => {\n const [observe, unobserve] = useVisibility(this, this.options);\n Object.assign(this, {\n observe: observe,\n unobserve: unobserve\n });\n }));\n }\n}\n\nclass UseWindowFocus extends StimulusUse {\n constructor(controller, options = {}) {\n super(controller, options);\n this.observe = () => {\n if (document.hasFocus()) {\n this.becomesFocused();\n } else {\n this.becomesUnfocused();\n }\n this.interval = setInterval((() => {\n this.handleWindowFocusChange();\n }), this.intervalDuration);\n };\n this.unobserve = () => {\n clearInterval(this.interval);\n };\n this.becomesUnfocused = event => {\n this.controller.hasFocus = false;\n this.call(\"unfocus\", event);\n this.log(\"unfocus\", {\n hasFocus: false\n });\n this.dispatch(\"unfocus\", {\n event: event,\n hasFocus: false\n });\n };\n this.becomesFocused = event => {\n this.controller.hasFocus = true;\n this.call(\"focus\", event);\n this.log(\"focus\", {\n hasFocus: true\n });\n this.dispatch(\"focus\", {\n event: event,\n hasFocus: true\n });\n };\n this.handleWindowFocusChange = event => {\n if (document.hasFocus() && !this.controller.hasFocus) {\n this.becomesFocused(event);\n } else if (!document.hasFocus() && this.controller.hasFocus) {\n this.becomesUnfocused(event);\n }\n };\n this.controller = controller;\n this.intervalDuration = options.interval || 200;\n this.enhanceController();\n this.observe();\n }\n enhanceController() {\n const controllerDisconnect = this.controllerDisconnect;\n const disconnect = () => {\n this.unobserve();\n controllerDisconnect();\n };\n Object.assign(this.controller, {\n disconnect: disconnect\n });\n }\n}\n\nconst useWindowFocus = (composableController, options = {}) => {\n const controller = composableController;\n const observer = new UseWindowFocus(controller, options);\n return [ observer.observe, observer.unobserve ];\n};\n\nclass WindowFocusComposableController extends Controller {\n constructor() {\n super(...arguments);\n this.hasFocus = false;\n }\n}\n\nclass WindowFocusController extends WindowFocusComposableController {\n constructor(context) {\n super(context);\n requestAnimationFrame((() => {\n const [observe, unobserve] = useWindowFocus(this, this.options);\n Object.assign(this, {\n observe: observe,\n unobserve: unobserve\n });\n }));\n }\n}\n\nconst useWindowResize = composableController => {\n const controller = composableController;\n const callback = event => {\n const {innerWidth: innerWidth, innerHeight: innerHeight} = window;\n const payload = {\n height: innerHeight || Infinity,\n width: innerWidth || Infinity,\n event: event\n };\n method(controller, \"windowResize\").call(controller, payload);\n };\n const controllerDisconnect = controller.disconnect.bind(controller);\n const observe = () => {\n window.addEventListener(\"resize\", callback);\n callback();\n };\n const unobserve = () => {\n window.removeEventListener(\"resize\", callback);\n };\n Object.assign(controller, {\n disconnect() {\n unobserve();\n controllerDisconnect();\n }\n });\n observe();\n return [ observe, unobserve ];\n};\n\nclass WindowResizeComposableController extends Controller {}\n\nclass WindowResizeController extends WindowResizeComposableController {\n constructor(context) {\n super(context);\n requestAnimationFrame((() => {\n const [observe, unobserve] = useWindowResize(this);\n Object.assign(this, {\n observe: observe,\n unobserve: unobserve\n });\n }));\n }\n}\n\nfunction useHotkeys() {\n throw \"[stimulus-use] Notice: The import for `useHotkeys()` has been moved from `stimulus-use` to `stimulus-use/hotkeys`. \\nPlease change the import accordingly and add `hotkey-js` as a dependency to your project. \\n\\nFor more information see: https://stimulus-use.github.io/stimulus-use/#/use-hotkeys?id=importing-the-behavior\";\n}\n\nexport { ApplicationController, ClickOutsideController, HoverController, IdleController, IntersectionController, LazyLoadController, MutationController, ResizeController, TargetMutationController, TransitionController, UseHover, UseMutation, UseTargetMutation, UseVisibility, UseWindowFocus, VisibilityController, WindowFocusController, WindowResizeController, debounce, useApplication, useClickOutside, useDebounce, useDispatch, useHotkeys, useHover, useIdle, useIntersection, useLazyLoad, useMatchMedia, useMemo, useMeta, useMutation, useResize, useTargetMutation, useThrottle, useTransition, useVisibility, useWindowFocus, useWindowResize };\n","/**\n * Custom positioning reference element.\n * @see https://floating-ui.com/docs/virtual-elements\n */\n\nconst sides = ['top', 'right', 'bottom', 'left'];\nconst alignments = ['start', 'end'];\nconst placements = /*#__PURE__*/sides.reduce((acc, side) => acc.concat(side, side + \"-\" + alignments[0], side + \"-\" + alignments[1]), []);\nconst min = Math.min;\nconst max = Math.max;\nconst round = Math.round;\nconst floor = Math.floor;\nconst createCoords = v => ({\n x: v,\n y: v\n});\nconst oppositeSideMap = {\n left: 'right',\n right: 'left',\n bottom: 'top',\n top: 'bottom'\n};\nconst oppositeAlignmentMap = {\n start: 'end',\n end: 'start'\n};\nfunction clamp(start, value, end) {\n return max(start, min(value, end));\n}\nfunction evaluate(value, param) {\n return typeof value === 'function' ? value(param) : value;\n}\nfunction getSide(placement) {\n return placement.split('-')[0];\n}\nfunction getAlignment(placement) {\n return placement.split('-')[1];\n}\nfunction getOppositeAxis(axis) {\n return axis === 'x' ? 'y' : 'x';\n}\nfunction getAxisLength(axis) {\n return axis === 'y' ? 'height' : 'width';\n}\nfunction getSideAxis(placement) {\n return ['top', 'bottom'].includes(getSide(placement)) ? 'y' : 'x';\n}\nfunction getAlignmentAxis(placement) {\n return getOppositeAxis(getSideAxis(placement));\n}\nfunction getAlignmentSides(placement, rects, rtl) {\n if (rtl === void 0) {\n rtl = false;\n }\n const alignment = getAlignment(placement);\n const alignmentAxis = getAlignmentAxis(placement);\n const length = getAxisLength(alignmentAxis);\n let mainAlignmentSide = alignmentAxis === 'x' ? alignment === (rtl ? 'end' : 'start') ? 'right' : 'left' : alignment === 'start' ? 'bottom' : 'top';\n if (rects.reference[length] > rects.floating[length]) {\n mainAlignmentSide = getOppositePlacement(mainAlignmentSide);\n }\n return [mainAlignmentSide, getOppositePlacement(mainAlignmentSide)];\n}\nfunction getExpandedPlacements(placement) {\n const oppositePlacement = getOppositePlacement(placement);\n return [getOppositeAlignmentPlacement(placement), oppositePlacement, getOppositeAlignmentPlacement(oppositePlacement)];\n}\nfunction getOppositeAlignmentPlacement(placement) {\n return placement.replace(/start|end/g, alignment => oppositeAlignmentMap[alignment]);\n}\nfunction getSideList(side, isStart, rtl) {\n const lr = ['left', 'right'];\n const rl = ['right', 'left'];\n const tb = ['top', 'bottom'];\n const bt = ['bottom', 'top'];\n switch (side) {\n case 'top':\n case 'bottom':\n if (rtl) return isStart ? rl : lr;\n return isStart ? lr : rl;\n case 'left':\n case 'right':\n return isStart ? tb : bt;\n default:\n return [];\n }\n}\nfunction getOppositeAxisPlacements(placement, flipAlignment, direction, rtl) {\n const alignment = getAlignment(placement);\n let list = getSideList(getSide(placement), direction === 'start', rtl);\n if (alignment) {\n list = list.map(side => side + \"-\" + alignment);\n if (flipAlignment) {\n list = list.concat(list.map(getOppositeAlignmentPlacement));\n }\n }\n return list;\n}\nfunction getOppositePlacement(placement) {\n return placement.replace(/left|right|bottom|top/g, side => oppositeSideMap[side]);\n}\nfunction expandPaddingObject(padding) {\n return {\n top: 0,\n right: 0,\n bottom: 0,\n left: 0,\n ...padding\n };\n}\nfunction getPaddingObject(padding) {\n return typeof padding !== 'number' ? expandPaddingObject(padding) : {\n top: padding,\n right: padding,\n bottom: padding,\n left: padding\n };\n}\nfunction rectToClientRect(rect) {\n const {\n x,\n y,\n width,\n height\n } = rect;\n return {\n width,\n height,\n top: y,\n left: x,\n right: x + width,\n bottom: y + height,\n x,\n y\n };\n}\n\nexport { alignments, clamp, createCoords, evaluate, expandPaddingObject, floor, getAlignment, getAlignmentAxis, getAlignmentSides, getAxisLength, getExpandedPlacements, getOppositeAlignmentPlacement, getOppositeAxis, getOppositeAxisPlacements, getOppositePlacement, getPaddingObject, getSide, getSideAxis, max, min, placements, rectToClientRect, round, sides };\n","import { getSideAxis, getAlignmentAxis, getAxisLength, getSide, getAlignment, evaluate, getPaddingObject, rectToClientRect, min, clamp, placements, getAlignmentSides, getOppositeAlignmentPlacement, getOppositePlacement, getExpandedPlacements, getOppositeAxisPlacements, sides, max, getOppositeAxis } from '@floating-ui/utils';\nexport { rectToClientRect } from '@floating-ui/utils';\n\nfunction computeCoordsFromPlacement(_ref, placement, rtl) {\n let {\n reference,\n floating\n } = _ref;\n const sideAxis = getSideAxis(placement);\n const alignmentAxis = getAlignmentAxis(placement);\n const alignLength = getAxisLength(alignmentAxis);\n const side = getSide(placement);\n const isVertical = sideAxis === 'y';\n const commonX = reference.x + reference.width / 2 - floating.width / 2;\n const commonY = reference.y + reference.height / 2 - floating.height / 2;\n const commonAlign = reference[alignLength] / 2 - floating[alignLength] / 2;\n let coords;\n switch (side) {\n case 'top':\n coords = {\n x: commonX,\n y: reference.y - floating.height\n };\n break;\n case 'bottom':\n coords = {\n x: commonX,\n y: reference.y + reference.height\n };\n break;\n case 'right':\n coords = {\n x: reference.x + reference.width,\n y: commonY\n };\n break;\n case 'left':\n coords = {\n x: reference.x - floating.width,\n y: commonY\n };\n break;\n default:\n coords = {\n x: reference.x,\n y: reference.y\n };\n }\n switch (getAlignment(placement)) {\n case 'start':\n coords[alignmentAxis] -= commonAlign * (rtl && isVertical ? -1 : 1);\n break;\n case 'end':\n coords[alignmentAxis] += commonAlign * (rtl && isVertical ? -1 : 1);\n break;\n }\n return coords;\n}\n\n/**\n * Computes the `x` and `y` coordinates that will place the floating element\n * next to a given reference element.\n *\n * This export does not have any `platform` interface logic. You will need to\n * write one for the platform you are using Floating UI with.\n */\nconst computePosition = async (reference, floating, config) => {\n const {\n placement = 'bottom',\n strategy = 'absolute',\n middleware = [],\n platform\n } = config;\n const validMiddleware = middleware.filter(Boolean);\n const rtl = await (platform.isRTL == null ? void 0 : platform.isRTL(floating));\n let rects = await platform.getElementRects({\n reference,\n floating,\n strategy\n });\n let {\n x,\n y\n } = computeCoordsFromPlacement(rects, placement, rtl);\n let statefulPlacement = placement;\n let middlewareData = {};\n let resetCount = 0;\n for (let i = 0; i < validMiddleware.length; i++) {\n const {\n name,\n fn\n } = validMiddleware[i];\n const {\n x: nextX,\n y: nextY,\n data,\n reset\n } = await fn({\n x,\n y,\n initialPlacement: placement,\n placement: statefulPlacement,\n strategy,\n middlewareData,\n rects,\n platform,\n elements: {\n reference,\n floating\n }\n });\n x = nextX != null ? nextX : x;\n y = nextY != null ? nextY : y;\n middlewareData = {\n ...middlewareData,\n [name]: {\n ...middlewareData[name],\n ...data\n }\n };\n if (reset && resetCount <= 50) {\n resetCount++;\n if (typeof reset === 'object') {\n if (reset.placement) {\n statefulPlacement = reset.placement;\n }\n if (reset.rects) {\n rects = reset.rects === true ? await platform.getElementRects({\n reference,\n floating,\n strategy\n }) : reset.rects;\n }\n ({\n x,\n y\n } = computeCoordsFromPlacement(rects, statefulPlacement, rtl));\n }\n i = -1;\n }\n }\n return {\n x,\n y,\n placement: statefulPlacement,\n strategy,\n middlewareData\n };\n};\n\n/**\n * Resolves with an object of overflow side offsets that determine how much the\n * element is overflowing a given clipping boundary on each side.\n * - positive = overflowing the boundary by that number of pixels\n * - negative = how many pixels left before it will overflow\n * - 0 = lies flush with the boundary\n * @see https://floating-ui.com/docs/detectOverflow\n */\nasync function detectOverflow(state, options) {\n var _await$platform$isEle;\n if (options === void 0) {\n options = {};\n }\n const {\n x,\n y,\n platform,\n rects,\n elements,\n strategy\n } = state;\n const {\n boundary = 'clippingAncestors',\n rootBoundary = 'viewport',\n elementContext = 'floating',\n altBoundary = false,\n padding = 0\n } = evaluate(options, state);\n const paddingObject = getPaddingObject(padding);\n const altContext = elementContext === 'floating' ? 'reference' : 'floating';\n const element = elements[altBoundary ? altContext : elementContext];\n const clippingClientRect = rectToClientRect(await platform.getClippingRect({\n element: ((_await$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))),\n boundary,\n rootBoundary,\n strategy\n }));\n const rect = elementContext === 'floating' ? {\n x,\n y,\n width: rects.floating.width,\n height: rects.floating.height\n } : rects.reference;\n const offsetParent = await (platform.getOffsetParent == null ? void 0 : platform.getOffsetParent(elements.floating));\n const offsetScale = (await (platform.isElement == null ? void 0 : platform.isElement(offsetParent))) ? (await (platform.getScale == null ? void 0 : platform.getScale(offsetParent))) || {\n x: 1,\n y: 1\n } : {\n x: 1,\n y: 1\n };\n const elementClientRect = rectToClientRect(platform.convertOffsetParentRelativeRectToViewportRelativeRect ? await platform.convertOffsetParentRelativeRectToViewportRelativeRect({\n elements,\n rect,\n offsetParent,\n strategy\n }) : rect);\n return {\n top: (clippingClientRect.top - elementClientRect.top + paddingObject.top) / offsetScale.y,\n bottom: (elementClientRect.bottom - clippingClientRect.bottom + paddingObject.bottom) / offsetScale.y,\n left: (clippingClientRect.left - elementClientRect.left + paddingObject.left) / offsetScale.x,\n right: (elementClientRect.right - clippingClientRect.right + paddingObject.right) / offsetScale.x\n };\n}\n\n/**\n * Provides data to position an inner element of the floating element so that it\n * appears centered to the reference element.\n * @see https://floating-ui.com/docs/arrow\n */\nconst arrow = options => ({\n name: 'arrow',\n options,\n async fn(state) {\n const {\n x,\n y,\n placement,\n rects,\n platform,\n elements,\n middlewareData\n } = state;\n // Since `element` is required, we don't Partial<> the type.\n const {\n element,\n padding = 0\n } = evaluate(options, state) || {};\n if (element == null) {\n return {};\n }\n const paddingObject = getPaddingObject(padding);\n const coords = {\n x,\n y\n };\n const axis = getAlignmentAxis(placement);\n const length = getAxisLength(axis);\n const arrowDimensions = await platform.getDimensions(element);\n const isYAxis = axis === 'y';\n const minProp = isYAxis ? 'top' : 'left';\n const maxProp = isYAxis ? 'bottom' : 'right';\n const clientProp = isYAxis ? 'clientHeight' : 'clientWidth';\n const endDiff = rects.reference[length] + rects.reference[axis] - coords[axis] - rects.floating[length];\n const startDiff = coords[axis] - rects.reference[axis];\n const arrowOffsetParent = await (platform.getOffsetParent == null ? void 0 : platform.getOffsetParent(element));\n let clientSize = arrowOffsetParent ? arrowOffsetParent[clientProp] : 0;\n\n // DOM platform can return `window` as the `offsetParent`.\n if (!clientSize || !(await (platform.isElement == null ? void 0 : platform.isElement(arrowOffsetParent)))) {\n clientSize = elements.floating[clientProp] || rects.floating[length];\n }\n const centerToReference = endDiff / 2 - startDiff / 2;\n\n // If the padding is large enough that it causes the arrow to no longer be\n // centered, modify the padding so that it is centered.\n const largestPossiblePadding = clientSize / 2 - arrowDimensions[length] / 2 - 1;\n const minPadding = min(paddingObject[minProp], largestPossiblePadding);\n const maxPadding = min(paddingObject[maxProp], largestPossiblePadding);\n\n // Make sure the arrow doesn't overflow the floating element if the center\n // point is outside the floating element's bounds.\n const min$1 = minPadding;\n const max = clientSize - arrowDimensions[length] - maxPadding;\n const center = clientSize / 2 - arrowDimensions[length] / 2 + centerToReference;\n const offset = clamp(min$1, center, max);\n\n // If the reference is small enough that the arrow's padding causes it to\n // to point to nothing for an aligned placement, adjust the offset of the\n // floating element itself. To ensure `shift()` continues to take action,\n // a single reset is performed when this is true.\n const shouldAddOffset = !middlewareData.arrow && getAlignment(placement) != null && center !== offset && rects.reference[length] / 2 - (center < min$1 ? minPadding : maxPadding) - arrowDimensions[length] / 2 < 0;\n const alignmentOffset = shouldAddOffset ? center < min$1 ? center - min$1 : center - max : 0;\n return {\n [axis]: coords[axis] + alignmentOffset,\n data: {\n [axis]: offset,\n centerOffset: center - offset - alignmentOffset,\n ...(shouldAddOffset && {\n alignmentOffset\n })\n },\n reset: shouldAddOffset\n };\n }\n});\n\nfunction getPlacementList(alignment, autoAlignment, allowedPlacements) {\n const allowedPlacementsSortedByAlignment = alignment ? [...allowedPlacements.filter(placement => getAlignment(placement) === alignment), ...allowedPlacements.filter(placement => getAlignment(placement) !== alignment)] : allowedPlacements.filter(placement => getSide(placement) === placement);\n return allowedPlacementsSortedByAlignment.filter(placement => {\n if (alignment) {\n return getAlignment(placement) === alignment || (autoAlignment ? getOppositeAlignmentPlacement(placement) !== placement : false);\n }\n return true;\n });\n}\n/**\n * Optimizes the visibility of the floating element by choosing the placement\n * that has the most space available automatically, without needing to specify a\n * preferred placement. Alternative to `flip`.\n * @see https://floating-ui.com/docs/autoPlacement\n */\nconst autoPlacement = function (options) {\n if (options === void 0) {\n options = {};\n }\n return {\n name: 'autoPlacement',\n options,\n async fn(state) {\n var _middlewareData$autoP, _middlewareData$autoP2, _placementsThatFitOnE;\n const {\n rects,\n middlewareData,\n placement,\n platform,\n elements\n } = state;\n const {\n crossAxis = false,\n alignment,\n allowedPlacements = placements,\n autoAlignment = true,\n ...detectOverflowOptions\n } = evaluate(options, state);\n const placements$1 = alignment !== undefined || allowedPlacements === placements ? getPlacementList(alignment || null, autoAlignment, allowedPlacements) : allowedPlacements;\n const overflow = await detectOverflow(state, detectOverflowOptions);\n const currentIndex = ((_middlewareData$autoP = middlewareData.autoPlacement) == null ? void 0 : _middlewareData$autoP.index) || 0;\n const currentPlacement = placements$1[currentIndex];\n if (currentPlacement == null) {\n return {};\n }\n const alignmentSides = getAlignmentSides(currentPlacement, rects, await (platform.isRTL == null ? void 0 : platform.isRTL(elements.floating)));\n\n // Make `computeCoords` start from the right place.\n if (placement !== currentPlacement) {\n return {\n reset: {\n placement: placements$1[0]\n }\n };\n }\n const currentOverflows = [overflow[getSide(currentPlacement)], overflow[alignmentSides[0]], overflow[alignmentSides[1]]];\n const allOverflows = [...(((_middlewareData$autoP2 = middlewareData.autoPlacement) == null ? void 0 : _middlewareData$autoP2.overflows) || []), {\n placement: currentPlacement,\n overflows: currentOverflows\n }];\n const nextPlacement = placements$1[currentIndex + 1];\n\n // There are more placements to check.\n if (nextPlacement) {\n return {\n data: {\n index: currentIndex + 1,\n overflows: allOverflows\n },\n reset: {\n placement: nextPlacement\n }\n };\n }\n const placementsSortedByMostSpace = allOverflows.map(d => {\n const alignment = getAlignment(d.placement);\n return [d.placement, alignment && crossAxis ?\n // Check along the mainAxis and main crossAxis side.\n d.overflows.slice(0, 2).reduce((acc, v) => acc + v, 0) :\n // Check only the mainAxis.\n d.overflows[0], d.overflows];\n }).sort((a, b) => a[1] - b[1]);\n const placementsThatFitOnEachSide = placementsSortedByMostSpace.filter(d => d[2].slice(0,\n // Aligned placements should not check their opposite crossAxis\n // side.\n getAlignment(d[0]) ? 2 : 3).every(v => v <= 0));\n const resetPlacement = ((_placementsThatFitOnE = placementsThatFitOnEachSide[0]) == null ? void 0 : _placementsThatFitOnE[0]) || placementsSortedByMostSpace[0][0];\n if (resetPlacement !== placement) {\n return {\n data: {\n index: currentIndex + 1,\n overflows: allOverflows\n },\n reset: {\n placement: resetPlacement\n }\n };\n }\n return {};\n }\n };\n};\n\n/**\n * Optimizes the visibility of the floating element by flipping the `placement`\n * in order to keep it in view when the preferred placement(s) will overflow the\n * clipping boundary. Alternative to `autoPlacement`.\n * @see https://floating-ui.com/docs/flip\n */\nconst flip = function (options) {\n if (options === void 0) {\n options = {};\n }\n return {\n name: 'flip',\n options,\n async fn(state) {\n var _middlewareData$arrow, _middlewareData$flip;\n const {\n placement,\n middlewareData,\n rects,\n initialPlacement,\n platform,\n elements\n } = state;\n const {\n mainAxis: checkMainAxis = true,\n crossAxis: checkCrossAxis = true,\n fallbackPlacements: specifiedFallbackPlacements,\n fallbackStrategy = 'bestFit',\n fallbackAxisSideDirection = 'none',\n flipAlignment = true,\n ...detectOverflowOptions\n } = evaluate(options, state);\n\n // If a reset by the arrow was caused due to an alignment offset being\n // added, we should skip any logic now since `flip()` has already done its\n // work.\n // https://github.com/floating-ui/floating-ui/issues/2549#issuecomment-1719601643\n if ((_middlewareData$arrow = middlewareData.arrow) != null && _middlewareData$arrow.alignmentOffset) {\n return {};\n }\n const side = getSide(placement);\n const initialSideAxis = getSideAxis(initialPlacement);\n const isBasePlacement = getSide(initialPlacement) === initialPlacement;\n const rtl = await (platform.isRTL == null ? void 0 : platform.isRTL(elements.floating));\n const fallbackPlacements = specifiedFallbackPlacements || (isBasePlacement || !flipAlignment ? [getOppositePlacement(initialPlacement)] : getExpandedPlacements(initialPlacement));\n const hasFallbackAxisSideDirection = fallbackAxisSideDirection !== 'none';\n if (!specifiedFallbackPlacements && hasFallbackAxisSideDirection) {\n fallbackPlacements.push(...getOppositeAxisPlacements(initialPlacement, flipAlignment, fallbackAxisSideDirection, rtl));\n }\n const placements = [initialPlacement, ...fallbackPlacements];\n const overflow = await detectOverflow(state, detectOverflowOptions);\n const overflows = [];\n let overflowsData = ((_middlewareData$flip = middlewareData.flip) == null ? void 0 : _middlewareData$flip.overflows) || [];\n if (checkMainAxis) {\n overflows.push(overflow[side]);\n }\n if (checkCrossAxis) {\n const sides = getAlignmentSides(placement, rects, rtl);\n overflows.push(overflow[sides[0]], overflow[sides[1]]);\n }\n overflowsData = [...overflowsData, {\n placement,\n overflows\n }];\n\n // One or more sides is overflowing.\n if (!overflows.every(side => side <= 0)) {\n var _middlewareData$flip2, _overflowsData$filter;\n const nextIndex = (((_middlewareData$flip2 = middlewareData.flip) == null ? void 0 : _middlewareData$flip2.index) || 0) + 1;\n const nextPlacement = placements[nextIndex];\n if (nextPlacement) {\n // Try next placement and re-run the lifecycle.\n return {\n data: {\n index: nextIndex,\n overflows: overflowsData\n },\n reset: {\n placement: nextPlacement\n }\n };\n }\n\n // First, find the candidates that fit on the mainAxis side of overflow,\n // then find the placement that fits the best on the main crossAxis side.\n let resetPlacement = (_overflowsData$filter = overflowsData.filter(d => d.overflows[0] <= 0).sort((a, b) => a.overflows[1] - b.overflows[1])[0]) == null ? void 0 : _overflowsData$filter.placement;\n\n // Otherwise fallback.\n if (!resetPlacement) {\n switch (fallbackStrategy) {\n case 'bestFit':\n {\n var _overflowsData$filter2;\n const placement = (_overflowsData$filter2 = overflowsData.filter(d => {\n if (hasFallbackAxisSideDirection) {\n const currentSideAxis = getSideAxis(d.placement);\n return currentSideAxis === initialSideAxis ||\n // Create a bias to the `y` side axis due to horizontal\n // reading directions favoring greater width.\n currentSideAxis === 'y';\n }\n return true;\n }).map(d => [d.placement, d.overflows.filter(overflow => overflow > 0).reduce((acc, overflow) => acc + overflow, 0)]).sort((a, b) => a[1] - b[1])[0]) == null ? void 0 : _overflowsData$filter2[0];\n if (placement) {\n resetPlacement = placement;\n }\n break;\n }\n case 'initialPlacement':\n resetPlacement = initialPlacement;\n break;\n }\n }\n if (placement !== resetPlacement) {\n return {\n reset: {\n placement: resetPlacement\n }\n };\n }\n }\n return {};\n }\n };\n};\n\nfunction getSideOffsets(overflow, rect) {\n return {\n top: overflow.top - rect.height,\n right: overflow.right - rect.width,\n bottom: overflow.bottom - rect.height,\n left: overflow.left - rect.width\n };\n}\nfunction isAnySideFullyClipped(overflow) {\n return sides.some(side => overflow[side] >= 0);\n}\n/**\n * Provides data to hide the floating element in applicable situations, such as\n * when it is not in the same clipping context as the reference element.\n * @see https://floating-ui.com/docs/hide\n */\nconst hide = function (options) {\n if (options === void 0) {\n options = {};\n }\n return {\n name: 'hide',\n options,\n async fn(state) {\n const {\n rects\n } = state;\n const {\n strategy = 'referenceHidden',\n ...detectOverflowOptions\n } = evaluate(options, state);\n switch (strategy) {\n case 'referenceHidden':\n {\n const overflow = await detectOverflow(state, {\n ...detectOverflowOptions,\n elementContext: 'reference'\n });\n const offsets = getSideOffsets(overflow, rects.reference);\n return {\n data: {\n referenceHiddenOffsets: offsets,\n referenceHidden: isAnySideFullyClipped(offsets)\n }\n };\n }\n case 'escaped':\n {\n const overflow = await detectOverflow(state, {\n ...detectOverflowOptions,\n altBoundary: true\n });\n const offsets = getSideOffsets(overflow, rects.floating);\n return {\n data: {\n escapedOffsets: offsets,\n escaped: isAnySideFullyClipped(offsets)\n }\n };\n }\n default:\n {\n return {};\n }\n }\n }\n };\n};\n\nfunction getBoundingRect(rects) {\n const minX = min(...rects.map(rect => rect.left));\n const minY = min(...rects.map(rect => rect.top));\n const maxX = max(...rects.map(rect => rect.right));\n const maxY = max(...rects.map(rect => rect.bottom));\n return {\n x: minX,\n y: minY,\n width: maxX - minX,\n height: maxY - minY\n };\n}\nfunction getRectsByLine(rects) {\n const sortedRects = rects.slice().sort((a, b) => a.y - b.y);\n const groups = [];\n let prevRect = null;\n for (let i = 0; i < sortedRects.length; i++) {\n const rect = sortedRects[i];\n if (!prevRect || rect.y - prevRect.y > prevRect.height / 2) {\n groups.push([rect]);\n } else {\n groups[groups.length - 1].push(rect);\n }\n prevRect = rect;\n }\n return groups.map(rect => rectToClientRect(getBoundingRect(rect)));\n}\n/**\n * Provides improved positioning for inline reference elements that can span\n * over multiple lines, such as hyperlinks or range selections.\n * @see https://floating-ui.com/docs/inline\n */\nconst inline = function (options) {\n if (options === void 0) {\n options = {};\n }\n return {\n name: 'inline',\n options,\n async fn(state) {\n const {\n placement,\n elements,\n rects,\n platform,\n strategy\n } = state;\n // A MouseEvent's client{X,Y} coords can be up to 2 pixels off a\n // ClientRect's bounds, despite the event listener being triggered. A\n // padding of 2 seems to handle this issue.\n const {\n padding = 2,\n x,\n y\n } = evaluate(options, state);\n const nativeClientRects = Array.from((await (platform.getClientRects == null ? void 0 : platform.getClientRects(elements.reference))) || []);\n const clientRects = getRectsByLine(nativeClientRects);\n const fallback = rectToClientRect(getBoundingRect(nativeClientRects));\n const paddingObject = getPaddingObject(padding);\n function getBoundingClientRect() {\n // There are two rects and they are disjoined.\n if (clientRects.length === 2 && clientRects[0].left > clientRects[1].right && x != null && y != null) {\n // Find the first rect in which the point is fully inside.\n 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;\n }\n\n // There are 2 or more connected rects.\n if (clientRects.length >= 2) {\n if (getSideAxis(placement) === 'y') {\n const firstRect = clientRects[0];\n const lastRect = clientRects[clientRects.length - 1];\n const isTop = getSide(placement) === 'top';\n const top = firstRect.top;\n const bottom = lastRect.bottom;\n const left = isTop ? firstRect.left : lastRect.left;\n const right = isTop ? firstRect.right : lastRect.right;\n const width = right - left;\n const height = bottom - top;\n return {\n top,\n bottom,\n left,\n right,\n width,\n height,\n x: left,\n y: top\n };\n }\n const isLeftSide = getSide(placement) === 'left';\n const maxRight = max(...clientRects.map(rect => rect.right));\n const minLeft = min(...clientRects.map(rect => rect.left));\n const measureRects = clientRects.filter(rect => isLeftSide ? rect.left === minLeft : rect.right === maxRight);\n const top = measureRects[0].top;\n const bottom = measureRects[measureRects.length - 1].bottom;\n const left = minLeft;\n const right = maxRight;\n const width = right - left;\n const height = bottom - top;\n return {\n top,\n bottom,\n left,\n right,\n width,\n height,\n x: left,\n y: top\n };\n }\n return fallback;\n }\n const resetRects = await platform.getElementRects({\n reference: {\n getBoundingClientRect\n },\n floating: elements.floating,\n strategy\n });\n 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) {\n return {\n reset: {\n rects: resetRects\n }\n };\n }\n return {};\n }\n };\n};\n\n// For type backwards-compatibility, the `OffsetOptions` type was also\n// Derivable.\n\nasync function convertValueToCoords(state, options) {\n const {\n placement,\n platform,\n elements\n } = state;\n const rtl = await (platform.isRTL == null ? void 0 : platform.isRTL(elements.floating));\n const side = getSide(placement);\n const alignment = getAlignment(placement);\n const isVertical = getSideAxis(placement) === 'y';\n const mainAxisMulti = ['left', 'top'].includes(side) ? -1 : 1;\n const crossAxisMulti = rtl && isVertical ? -1 : 1;\n const rawValue = evaluate(options, state);\n\n // eslint-disable-next-line prefer-const\n let {\n mainAxis,\n crossAxis,\n alignmentAxis\n } = typeof rawValue === 'number' ? {\n mainAxis: rawValue,\n crossAxis: 0,\n alignmentAxis: null\n } : {\n mainAxis: rawValue.mainAxis || 0,\n crossAxis: rawValue.crossAxis || 0,\n alignmentAxis: rawValue.alignmentAxis\n };\n if (alignment && typeof alignmentAxis === 'number') {\n crossAxis = alignment === 'end' ? alignmentAxis * -1 : alignmentAxis;\n }\n return isVertical ? {\n x: crossAxis * crossAxisMulti,\n y: mainAxis * mainAxisMulti\n } : {\n x: mainAxis * mainAxisMulti,\n y: crossAxis * crossAxisMulti\n };\n}\n\n/**\n * Modifies the placement by translating the floating element along the\n * specified axes.\n * A number (shorthand for `mainAxis` or distance), or an axes configuration\n * object may be passed.\n * @see https://floating-ui.com/docs/offset\n */\nconst offset = function (options) {\n if (options === void 0) {\n options = 0;\n }\n return {\n name: 'offset',\n options,\n async fn(state) {\n var _middlewareData$offse, _middlewareData$arrow;\n const {\n x,\n y,\n placement,\n middlewareData\n } = state;\n const diffCoords = await convertValueToCoords(state, options);\n\n // If the placement is the same and the arrow caused an alignment offset\n // then we don't need to change the positioning coordinates.\n if (placement === ((_middlewareData$offse = middlewareData.offset) == null ? void 0 : _middlewareData$offse.placement) && (_middlewareData$arrow = middlewareData.arrow) != null && _middlewareData$arrow.alignmentOffset) {\n return {};\n }\n return {\n x: x + diffCoords.x,\n y: y + diffCoords.y,\n data: {\n ...diffCoords,\n placement\n }\n };\n }\n };\n};\n\n/**\n * Optimizes the visibility of the floating element by shifting it in order to\n * keep it in view when it will overflow the clipping boundary.\n * @see https://floating-ui.com/docs/shift\n */\nconst shift = function (options) {\n if (options === void 0) {\n options = {};\n }\n return {\n name: 'shift',\n options,\n async fn(state) {\n const {\n x,\n y,\n placement\n } = state;\n const {\n mainAxis: checkMainAxis = true,\n crossAxis: checkCrossAxis = false,\n limiter = {\n fn: _ref => {\n let {\n x,\n y\n } = _ref;\n return {\n x,\n y\n };\n }\n },\n ...detectOverflowOptions\n } = evaluate(options, state);\n const coords = {\n x,\n y\n };\n const overflow = await detectOverflow(state, detectOverflowOptions);\n const crossAxis = getSideAxis(getSide(placement));\n const mainAxis = getOppositeAxis(crossAxis);\n let mainAxisCoord = coords[mainAxis];\n let crossAxisCoord = coords[crossAxis];\n if (checkMainAxis) {\n const minSide = mainAxis === 'y' ? 'top' : 'left';\n const maxSide = mainAxis === 'y' ? 'bottom' : 'right';\n const min = mainAxisCoord + overflow[minSide];\n const max = mainAxisCoord - overflow[maxSide];\n mainAxisCoord = clamp(min, mainAxisCoord, max);\n }\n if (checkCrossAxis) {\n const minSide = crossAxis === 'y' ? 'top' : 'left';\n const maxSide = crossAxis === 'y' ? 'bottom' : 'right';\n const min = crossAxisCoord + overflow[minSide];\n const max = crossAxisCoord - overflow[maxSide];\n crossAxisCoord = clamp(min, crossAxisCoord, max);\n }\n const limitedCoords = limiter.fn({\n ...state,\n [mainAxis]: mainAxisCoord,\n [crossAxis]: crossAxisCoord\n });\n return {\n ...limitedCoords,\n data: {\n x: limitedCoords.x - x,\n y: limitedCoords.y - y,\n enabled: {\n [mainAxis]: checkMainAxis,\n [crossAxis]: checkCrossAxis\n }\n }\n };\n }\n };\n};\n/**\n * Built-in `limiter` that will stop `shift()` at a certain point.\n */\nconst limitShift = function (options) {\n if (options === void 0) {\n options = {};\n }\n return {\n options,\n fn(state) {\n const {\n x,\n y,\n placement,\n rects,\n middlewareData\n } = state;\n const {\n offset = 0,\n mainAxis: checkMainAxis = true,\n crossAxis: checkCrossAxis = true\n } = evaluate(options, state);\n const coords = {\n x,\n y\n };\n const crossAxis = getSideAxis(placement);\n const mainAxis = getOppositeAxis(crossAxis);\n let mainAxisCoord = coords[mainAxis];\n let crossAxisCoord = coords[crossAxis];\n const rawOffset = evaluate(offset, state);\n const computedOffset = typeof rawOffset === 'number' ? {\n mainAxis: rawOffset,\n crossAxis: 0\n } : {\n mainAxis: 0,\n crossAxis: 0,\n ...rawOffset\n };\n if (checkMainAxis) {\n const len = mainAxis === 'y' ? 'height' : 'width';\n const limitMin = rects.reference[mainAxis] - rects.floating[len] + computedOffset.mainAxis;\n const limitMax = rects.reference[mainAxis] + rects.reference[len] - computedOffset.mainAxis;\n if (mainAxisCoord < limitMin) {\n mainAxisCoord = limitMin;\n } else if (mainAxisCoord > limitMax) {\n mainAxisCoord = limitMax;\n }\n }\n if (checkCrossAxis) {\n var _middlewareData$offse, _middlewareData$offse2;\n const len = mainAxis === 'y' ? 'width' : 'height';\n const isOriginSide = ['top', 'left'].includes(getSide(placement));\n const limitMin = rects.reference[crossAxis] - rects.floating[len] + (isOriginSide ? ((_middlewareData$offse = middlewareData.offset) == null ? void 0 : _middlewareData$offse[crossAxis]) || 0 : 0) + (isOriginSide ? 0 : computedOffset.crossAxis);\n const limitMax = rects.reference[crossAxis] + rects.reference[len] + (isOriginSide ? 0 : ((_middlewareData$offse2 = middlewareData.offset) == null ? void 0 : _middlewareData$offse2[crossAxis]) || 0) - (isOriginSide ? computedOffset.crossAxis : 0);\n if (crossAxisCoord < limitMin) {\n crossAxisCoord = limitMin;\n } else if (crossAxisCoord > limitMax) {\n crossAxisCoord = limitMax;\n }\n }\n return {\n [mainAxis]: mainAxisCoord,\n [crossAxis]: crossAxisCoord\n };\n }\n };\n};\n\n/**\n * Provides data that allows you to change the size of the floating element —\n * for instance, prevent it from overflowing the clipping boundary or match the\n * width of the reference element.\n * @see https://floating-ui.com/docs/size\n */\nconst size = function (options) {\n if (options === void 0) {\n options = {};\n }\n return {\n name: 'size',\n options,\n async fn(state) {\n var _state$middlewareData, _state$middlewareData2;\n const {\n placement,\n rects,\n platform,\n elements\n } = state;\n const {\n apply = () => {},\n ...detectOverflowOptions\n } = evaluate(options, state);\n const overflow = await detectOverflow(state, detectOverflowOptions);\n const side = getSide(placement);\n const alignment = getAlignment(placement);\n const isYAxis = getSideAxis(placement) === 'y';\n const {\n width,\n height\n } = rects.floating;\n let heightSide;\n let widthSide;\n if (side === 'top' || side === 'bottom') {\n heightSide = side;\n widthSide = alignment === ((await (platform.isRTL == null ? void 0 : platform.isRTL(elements.floating))) ? 'start' : 'end') ? 'left' : 'right';\n } else {\n widthSide = side;\n heightSide = alignment === 'end' ? 'top' : 'bottom';\n }\n const maximumClippingHeight = height - overflow.top - overflow.bottom;\n const maximumClippingWidth = width - overflow.left - overflow.right;\n const overflowAvailableHeight = min(height - overflow[heightSide], maximumClippingHeight);\n const overflowAvailableWidth = min(width - overflow[widthSide], maximumClippingWidth);\n const noShift = !state.middlewareData.shift;\n let availableHeight = overflowAvailableHeight;\n let availableWidth = overflowAvailableWidth;\n if ((_state$middlewareData = state.middlewareData.shift) != null && _state$middlewareData.enabled.x) {\n availableWidth = maximumClippingWidth;\n }\n if ((_state$middlewareData2 = state.middlewareData.shift) != null && _state$middlewareData2.enabled.y) {\n availableHeight = maximumClippingHeight;\n }\n if (noShift && !alignment) {\n const xMin = max(overflow.left, 0);\n const xMax = max(overflow.right, 0);\n const yMin = max(overflow.top, 0);\n const yMax = max(overflow.bottom, 0);\n if (isYAxis) {\n availableWidth = width - 2 * (xMin !== 0 || xMax !== 0 ? xMin + xMax : max(overflow.left, overflow.right));\n } else {\n availableHeight = height - 2 * (yMin !== 0 || yMax !== 0 ? yMin + yMax : max(overflow.top, overflow.bottom));\n }\n }\n await apply({\n ...state,\n availableWidth,\n availableHeight\n });\n const nextDimensions = await platform.getDimensions(elements.floating);\n if (width !== nextDimensions.width || height !== nextDimensions.height) {\n return {\n reset: {\n rects: true\n }\n };\n }\n return {};\n }\n };\n};\n\nexport { arrow, autoPlacement, computePosition, detectOverflow, flip, hide, inline, limitShift, offset, shift, size };\n","function hasWindow() {\n return typeof window !== 'undefined';\n}\nfunction getNodeName(node) {\n if (isNode(node)) {\n return (node.nodeName || '').toLowerCase();\n }\n // Mocked nodes in testing environments may not be instances of Node. By\n // returning `#document` an infinite loop won't occur.\n // https://github.com/floating-ui/floating-ui/issues/2317\n return '#document';\n}\nfunction getWindow(node) {\n var _node$ownerDocument;\n return (node == null || (_node$ownerDocument = node.ownerDocument) == null ? void 0 : _node$ownerDocument.defaultView) || window;\n}\nfunction getDocumentElement(node) {\n var _ref;\n return (_ref = (isNode(node) ? node.ownerDocument : node.document) || window.document) == null ? void 0 : _ref.documentElement;\n}\nfunction isNode(value) {\n if (!hasWindow()) {\n return false;\n }\n return value instanceof Node || value instanceof getWindow(value).Node;\n}\nfunction isElement(value) {\n if (!hasWindow()) {\n return false;\n }\n return value instanceof Element || value instanceof getWindow(value).Element;\n}\nfunction isHTMLElement(value) {\n if (!hasWindow()) {\n return false;\n }\n return value instanceof HTMLElement || value instanceof getWindow(value).HTMLElement;\n}\nfunction isShadowRoot(value) {\n if (!hasWindow() || typeof ShadowRoot === 'undefined') {\n return false;\n }\n return value instanceof ShadowRoot || value instanceof getWindow(value).ShadowRoot;\n}\nfunction isOverflowElement(element) {\n const {\n overflow,\n overflowX,\n overflowY,\n display\n } = getComputedStyle(element);\n return /auto|scroll|overlay|hidden|clip/.test(overflow + overflowY + overflowX) && !['inline', 'contents'].includes(display);\n}\nfunction isTableElement(element) {\n return ['table', 'td', 'th'].includes(getNodeName(element));\n}\nfunction isTopLayer(element) {\n return [':popover-open', ':modal'].some(selector => {\n try {\n return element.matches(selector);\n } catch (e) {\n return false;\n }\n });\n}\nfunction isContainingBlock(elementOrCss) {\n const webkit = isWebKit();\n const css = isElement(elementOrCss) ? getComputedStyle(elementOrCss) : elementOrCss;\n\n // https://developer.mozilla.org/en-US/docs/Web/CSS/Containing_block#identifying_the_containing_block\n return css.transform !== 'none' || css.perspective !== 'none' || (css.containerType ? css.containerType !== 'normal' : false) || !webkit && (css.backdropFilter ? css.backdropFilter !== 'none' : false) || !webkit && (css.filter ? css.filter !== 'none' : false) || ['transform', 'perspective', 'filter'].some(value => (css.willChange || '').includes(value)) || ['paint', 'layout', 'strict', 'content'].some(value => (css.contain || '').includes(value));\n}\nfunction getContainingBlock(element) {\n let currentNode = getParentNode(element);\n while (isHTMLElement(currentNode) && !isLastTraversableNode(currentNode)) {\n if (isContainingBlock(currentNode)) {\n return currentNode;\n } else if (isTopLayer(currentNode)) {\n return null;\n }\n currentNode = getParentNode(currentNode);\n }\n return null;\n}\nfunction isWebKit() {\n if (typeof CSS === 'undefined' || !CSS.supports) return false;\n return CSS.supports('-webkit-backdrop-filter', 'none');\n}\nfunction isLastTraversableNode(node) {\n return ['html', 'body', '#document'].includes(getNodeName(node));\n}\nfunction getComputedStyle(element) {\n return getWindow(element).getComputedStyle(element);\n}\nfunction getNodeScroll(element) {\n if (isElement(element)) {\n return {\n scrollLeft: element.scrollLeft,\n scrollTop: element.scrollTop\n };\n }\n return {\n scrollLeft: element.scrollX,\n scrollTop: element.scrollY\n };\n}\nfunction getParentNode(node) {\n if (getNodeName(node) === 'html') {\n return node;\n }\n const result =\n // Step into the shadow DOM of the parent of a slotted node.\n node.assignedSlot ||\n // DOM Element detected.\n node.parentNode ||\n // ShadowRoot detected.\n isShadowRoot(node) && node.host ||\n // Fallback.\n getDocumentElement(node);\n return isShadowRoot(result) ? result.host : result;\n}\nfunction getNearestOverflowAncestor(node) {\n const parentNode = getParentNode(node);\n if (isLastTraversableNode(parentNode)) {\n return node.ownerDocument ? node.ownerDocument.body : node.body;\n }\n if (isHTMLElement(parentNode) && isOverflowElement(parentNode)) {\n return parentNode;\n }\n return getNearestOverflowAncestor(parentNode);\n}\nfunction getOverflowAncestors(node, list, traverseIframes) {\n var _node$ownerDocument2;\n if (list === void 0) {\n list = [];\n }\n if (traverseIframes === void 0) {\n traverseIframes = true;\n }\n const scrollableAncestor = getNearestOverflowAncestor(node);\n const isBody = scrollableAncestor === ((_node$ownerDocument2 = node.ownerDocument) == null ? void 0 : _node$ownerDocument2.body);\n const win = getWindow(scrollableAncestor);\n if (isBody) {\n const frameElement = getFrameElement(win);\n return list.concat(win, win.visualViewport || [], isOverflowElement(scrollableAncestor) ? scrollableAncestor : [], frameElement && traverseIframes ? getOverflowAncestors(frameElement) : []);\n }\n return list.concat(scrollableAncestor, getOverflowAncestors(scrollableAncestor, [], traverseIframes));\n}\nfunction getFrameElement(win) {\n return win.parent && Object.getPrototypeOf(win.parent) ? win.frameElement : null;\n}\n\nexport { getComputedStyle, getContainingBlock, getDocumentElement, getFrameElement, getNearestOverflowAncestor, getNodeName, getNodeScroll, getOverflowAncestors, getParentNode, getWindow, isContainingBlock, isElement, isHTMLElement, isLastTraversableNode, isNode, isOverflowElement, isShadowRoot, isTableElement, isTopLayer, isWebKit };\n","import { rectToClientRect, detectOverflow as detectOverflow$1, offset as offset$1, autoPlacement as autoPlacement$1, shift as shift$1, flip as flip$1, size as size$1, hide as hide$1, arrow as arrow$1, inline as inline$1, limitShift as limitShift$1, computePosition as computePosition$1 } from '@floating-ui/core';\nimport { round, createCoords, max, min, floor } from '@floating-ui/utils';\nimport { getComputedStyle, isHTMLElement, isElement, getWindow, isWebKit, getFrameElement, getDocumentElement, isTopLayer, getNodeName, isOverflowElement, getNodeScroll, getOverflowAncestors, getParentNode, isLastTraversableNode, isContainingBlock, isTableElement, getContainingBlock } from '@floating-ui/utils/dom';\nexport { getOverflowAncestors } from '@floating-ui/utils/dom';\n\nfunction getCssDimensions(element) {\n const css = getComputedStyle(element);\n // In testing environments, the `width` and `height` properties are empty\n // strings for SVG elements, returning NaN. Fallback to `0` in this case.\n let width = parseFloat(css.width) || 0;\n let height = parseFloat(css.height) || 0;\n const hasOffset = isHTMLElement(element);\n const offsetWidth = hasOffset ? element.offsetWidth : width;\n const offsetHeight = hasOffset ? element.offsetHeight : height;\n const shouldFallback = round(width) !== offsetWidth || round(height) !== offsetHeight;\n if (shouldFallback) {\n width = offsetWidth;\n height = offsetHeight;\n }\n return {\n width,\n height,\n $: shouldFallback\n };\n}\n\nfunction unwrapElement(element) {\n return !isElement(element) ? element.contextElement : element;\n}\n\nfunction getScale(element) {\n const domElement = unwrapElement(element);\n if (!isHTMLElement(domElement)) {\n return createCoords(1);\n }\n const rect = domElement.getBoundingClientRect();\n const {\n width,\n height,\n $\n } = getCssDimensions(domElement);\n let x = ($ ? round(rect.width) : rect.width) / width;\n let y = ($ ? round(rect.height) : rect.height) / height;\n\n // 0, NaN, or Infinity should always fallback to 1.\n\n if (!x || !Number.isFinite(x)) {\n x = 1;\n }\n if (!y || !Number.isFinite(y)) {\n y = 1;\n }\n return {\n x,\n y\n };\n}\n\nconst noOffsets = /*#__PURE__*/createCoords(0);\nfunction getVisualOffsets(element) {\n const win = getWindow(element);\n if (!isWebKit() || !win.visualViewport) {\n return noOffsets;\n }\n return {\n x: win.visualViewport.offsetLeft,\n y: win.visualViewport.offsetTop\n };\n}\nfunction shouldAddVisualOffsets(element, isFixed, floatingOffsetParent) {\n if (isFixed === void 0) {\n isFixed = false;\n }\n if (!floatingOffsetParent || isFixed && floatingOffsetParent !== getWindow(element)) {\n return false;\n }\n return isFixed;\n}\n\nfunction getBoundingClientRect(element, includeScale, isFixedStrategy, offsetParent) {\n if (includeScale === void 0) {\n includeScale = false;\n }\n if (isFixedStrategy === void 0) {\n isFixedStrategy = false;\n }\n const clientRect = element.getBoundingClientRect();\n const domElement = unwrapElement(element);\n let scale = createCoords(1);\n if (includeScale) {\n if (offsetParent) {\n if (isElement(offsetParent)) {\n scale = getScale(offsetParent);\n }\n } else {\n scale = getScale(element);\n }\n }\n const visualOffsets = shouldAddVisualOffsets(domElement, isFixedStrategy, offsetParent) ? getVisualOffsets(domElement) : createCoords(0);\n let x = (clientRect.left + visualOffsets.x) / scale.x;\n let y = (clientRect.top + visualOffsets.y) / scale.y;\n let width = clientRect.width / scale.x;\n let height = clientRect.height / scale.y;\n if (domElement) {\n const win = getWindow(domElement);\n const offsetWin = offsetParent && isElement(offsetParent) ? getWindow(offsetParent) : offsetParent;\n let currentWin = win;\n let currentIFrame = getFrameElement(currentWin);\n while (currentIFrame && offsetParent && offsetWin !== currentWin) {\n const iframeScale = getScale(currentIFrame);\n const iframeRect = currentIFrame.getBoundingClientRect();\n const css = getComputedStyle(currentIFrame);\n const left = iframeRect.left + (currentIFrame.clientLeft + parseFloat(css.paddingLeft)) * iframeScale.x;\n const top = iframeRect.top + (currentIFrame.clientTop + parseFloat(css.paddingTop)) * iframeScale.y;\n x *= iframeScale.x;\n y *= iframeScale.y;\n width *= iframeScale.x;\n height *= iframeScale.y;\n x += left;\n y += top;\n currentWin = getWindow(currentIFrame);\n currentIFrame = getFrameElement(currentWin);\n }\n }\n return rectToClientRect({\n width,\n height,\n x,\n y\n });\n}\n\nfunction convertOffsetParentRelativeRectToViewportRelativeRect(_ref) {\n let {\n elements,\n rect,\n offsetParent,\n strategy\n } = _ref;\n const isFixed = strategy === 'fixed';\n const documentElement = getDocumentElement(offsetParent);\n const topLayer = elements ? isTopLayer(elements.floating) : false;\n if (offsetParent === documentElement || topLayer && isFixed) {\n return rect;\n }\n let scroll = {\n scrollLeft: 0,\n scrollTop: 0\n };\n let scale = createCoords(1);\n const offsets = createCoords(0);\n const isOffsetParentAnElement = isHTMLElement(offsetParent);\n if (isOffsetParentAnElement || !isOffsetParentAnElement && !isFixed) {\n if (getNodeName(offsetParent) !== 'body' || isOverflowElement(documentElement)) {\n scroll = getNodeScroll(offsetParent);\n }\n if (isHTMLElement(offsetParent)) {\n const offsetRect = getBoundingClientRect(offsetParent);\n scale = getScale(offsetParent);\n offsets.x = offsetRect.x + offsetParent.clientLeft;\n offsets.y = offsetRect.y + offsetParent.clientTop;\n }\n }\n return {\n width: rect.width * scale.x,\n height: rect.height * scale.y,\n x: rect.x * scale.x - scroll.scrollLeft * scale.x + offsets.x,\n y: rect.y * scale.y - scroll.scrollTop * scale.y + offsets.y\n };\n}\n\nfunction getClientRects(element) {\n return Array.from(element.getClientRects());\n}\n\n// If has a CSS width greater than the viewport, then this will be\n// incorrect for RTL.\nfunction getWindowScrollBarX(element, rect) {\n const leftScroll = getNodeScroll(element).scrollLeft;\n if (!rect) {\n return getBoundingClientRect(getDocumentElement(element)).left + leftScroll;\n }\n return rect.left + leftScroll;\n}\n\n// Gets the entire size of the scrollable document area, even extending outside\n// of the `` and `` rect bounds if horizontally scrollable.\nfunction getDocumentRect(element) {\n const html = getDocumentElement(element);\n const scroll = getNodeScroll(element);\n const body = element.ownerDocument.body;\n const width = max(html.scrollWidth, html.clientWidth, body.scrollWidth, body.clientWidth);\n const height = max(html.scrollHeight, html.clientHeight, body.scrollHeight, body.clientHeight);\n let x = -scroll.scrollLeft + getWindowScrollBarX(element);\n const y = -scroll.scrollTop;\n if (getComputedStyle(body).direction === 'rtl') {\n x += max(html.clientWidth, body.clientWidth) - width;\n }\n return {\n width,\n height,\n x,\n y\n };\n}\n\nfunction getViewportRect(element, strategy) {\n const win = getWindow(element);\n const html = getDocumentElement(element);\n const visualViewport = win.visualViewport;\n let width = html.clientWidth;\n let height = html.clientHeight;\n let x = 0;\n let y = 0;\n if (visualViewport) {\n width = visualViewport.width;\n height = visualViewport.height;\n const visualViewportBased = isWebKit();\n if (!visualViewportBased || visualViewportBased && strategy === 'fixed') {\n x = visualViewport.offsetLeft;\n y = visualViewport.offsetTop;\n }\n }\n return {\n width,\n height,\n x,\n y\n };\n}\n\n// Returns the inner client rect, subtracting scrollbars if present.\nfunction getInnerBoundingClientRect(element, strategy) {\n const clientRect = getBoundingClientRect(element, true, strategy === 'fixed');\n const top = clientRect.top + element.clientTop;\n const left = clientRect.left + element.clientLeft;\n const scale = isHTMLElement(element) ? getScale(element) : createCoords(1);\n const width = element.clientWidth * scale.x;\n const height = element.clientHeight * scale.y;\n const x = left * scale.x;\n const y = top * scale.y;\n return {\n width,\n height,\n x,\n y\n };\n}\nfunction getClientRectFromClippingAncestor(element, clippingAncestor, strategy) {\n let rect;\n if (clippingAncestor === 'viewport') {\n rect = getViewportRect(element, strategy);\n } else if (clippingAncestor === 'document') {\n rect = getDocumentRect(getDocumentElement(element));\n } else if (isElement(clippingAncestor)) {\n rect = getInnerBoundingClientRect(clippingAncestor, strategy);\n } else {\n const visualOffsets = getVisualOffsets(element);\n rect = {\n ...clippingAncestor,\n x: clippingAncestor.x - visualOffsets.x,\n y: clippingAncestor.y - visualOffsets.y\n };\n }\n return rectToClientRect(rect);\n}\nfunction hasFixedPositionAncestor(element, stopNode) {\n const parentNode = getParentNode(element);\n if (parentNode === stopNode || !isElement(parentNode) || isLastTraversableNode(parentNode)) {\n return false;\n }\n return getComputedStyle(parentNode).position === 'fixed' || hasFixedPositionAncestor(parentNode, stopNode);\n}\n\n// A \"clipping ancestor\" is an `overflow` element with the characteristic of\n// clipping (or hiding) child elements. This returns all clipping ancestors\n// of the given element up the tree.\nfunction getClippingElementAncestors(element, cache) {\n const cachedResult = cache.get(element);\n if (cachedResult) {\n return cachedResult;\n }\n let result = getOverflowAncestors(element, [], false).filter(el => isElement(el) && getNodeName(el) !== 'body');\n let currentContainingBlockComputedStyle = null;\n const elementIsFixed = getComputedStyle(element).position === 'fixed';\n let currentNode = elementIsFixed ? getParentNode(element) : element;\n\n // https://developer.mozilla.org/en-US/docs/Web/CSS/Containing_block#identifying_the_containing_block\n while (isElement(currentNode) && !isLastTraversableNode(currentNode)) {\n const computedStyle = getComputedStyle(currentNode);\n const currentNodeIsContaining = isContainingBlock(currentNode);\n if (!currentNodeIsContaining && computedStyle.position === 'fixed') {\n currentContainingBlockComputedStyle = null;\n }\n const shouldDropCurrentNode = elementIsFixed ? !currentNodeIsContaining && !currentContainingBlockComputedStyle : !currentNodeIsContaining && computedStyle.position === 'static' && !!currentContainingBlockComputedStyle && ['absolute', 'fixed'].includes(currentContainingBlockComputedStyle.position) || isOverflowElement(currentNode) && !currentNodeIsContaining && hasFixedPositionAncestor(element, currentNode);\n if (shouldDropCurrentNode) {\n // Drop non-containing blocks.\n result = result.filter(ancestor => ancestor !== currentNode);\n } else {\n // Record last containing block for next iteration.\n currentContainingBlockComputedStyle = computedStyle;\n }\n currentNode = getParentNode(currentNode);\n }\n cache.set(element, result);\n return result;\n}\n\n// Gets the maximum area that the element is visible in due to any number of\n// clipping ancestors.\nfunction getClippingRect(_ref) {\n let {\n element,\n boundary,\n rootBoundary,\n strategy\n } = _ref;\n const elementClippingAncestors = boundary === 'clippingAncestors' ? isTopLayer(element) ? [] : getClippingElementAncestors(element, this._c) : [].concat(boundary);\n const clippingAncestors = [...elementClippingAncestors, rootBoundary];\n const firstClippingAncestor = clippingAncestors[0];\n const clippingRect = clippingAncestors.reduce((accRect, clippingAncestor) => {\n const rect = getClientRectFromClippingAncestor(element, clippingAncestor, strategy);\n accRect.top = max(rect.top, accRect.top);\n accRect.right = min(rect.right, accRect.right);\n accRect.bottom = min(rect.bottom, accRect.bottom);\n accRect.left = max(rect.left, accRect.left);\n return accRect;\n }, getClientRectFromClippingAncestor(element, firstClippingAncestor, strategy));\n return {\n width: clippingRect.right - clippingRect.left,\n height: clippingRect.bottom - clippingRect.top,\n x: clippingRect.left,\n y: clippingRect.top\n };\n}\n\nfunction getDimensions(element) {\n const {\n width,\n height\n } = getCssDimensions(element);\n return {\n width,\n height\n };\n}\n\nfunction getRectRelativeToOffsetParent(element, offsetParent, strategy) {\n const isOffsetParentAnElement = isHTMLElement(offsetParent);\n const documentElement = getDocumentElement(offsetParent);\n const isFixed = strategy === 'fixed';\n const rect = getBoundingClientRect(element, true, isFixed, offsetParent);\n let scroll = {\n scrollLeft: 0,\n scrollTop: 0\n };\n const offsets = createCoords(0);\n if (isOffsetParentAnElement || !isOffsetParentAnElement && !isFixed) {\n if (getNodeName(offsetParent) !== 'body' || isOverflowElement(documentElement)) {\n scroll = getNodeScroll(offsetParent);\n }\n if (isOffsetParentAnElement) {\n const offsetRect = getBoundingClientRect(offsetParent, true, isFixed, offsetParent);\n offsets.x = offsetRect.x + offsetParent.clientLeft;\n offsets.y = offsetRect.y + offsetParent.clientTop;\n } else if (documentElement) {\n // If the scrollbar appears on the left (e.g. RTL systems). Use\n // Firefox with layout.scrollbar.side = 3 in about:config to test this.\n offsets.x = getWindowScrollBarX(documentElement);\n }\n }\n let htmlX = 0;\n let htmlY = 0;\n if (documentElement && !isOffsetParentAnElement && !isFixed) {\n const htmlRect = documentElement.getBoundingClientRect();\n htmlY = htmlRect.top + scroll.scrollTop;\n htmlX = htmlRect.left + scroll.scrollLeft -\n // RTL scrollbar.\n getWindowScrollBarX(documentElement, htmlRect);\n }\n const x = rect.left + scroll.scrollLeft - offsets.x - htmlX;\n const y = rect.top + scroll.scrollTop - offsets.y - htmlY;\n return {\n x,\n y,\n width: rect.width,\n height: rect.height\n };\n}\n\nfunction isStaticPositioned(element) {\n return getComputedStyle(element).position === 'static';\n}\n\nfunction getTrueOffsetParent(element, polyfill) {\n if (!isHTMLElement(element) || getComputedStyle(element).position === 'fixed') {\n return null;\n }\n if (polyfill) {\n return polyfill(element);\n }\n let rawOffsetParent = element.offsetParent;\n\n // Firefox returns the element as the offsetParent if it's non-static,\n // while Chrome and Safari return the element. The element must\n // be used to perform the correct calculations even if the element is\n // non-static.\n if (getDocumentElement(element) === rawOffsetParent) {\n rawOffsetParent = rawOffsetParent.ownerDocument.body;\n }\n return rawOffsetParent;\n}\n\n// Gets the closest ancestor positioned element. Handles some edge cases,\n// such as table ancestors and cross browser bugs.\nfunction getOffsetParent(element, polyfill) {\n const win = getWindow(element);\n if (isTopLayer(element)) {\n return win;\n }\n if (!isHTMLElement(element)) {\n let svgOffsetParent = getParentNode(element);\n while (svgOffsetParent && !isLastTraversableNode(svgOffsetParent)) {\n if (isElement(svgOffsetParent) && !isStaticPositioned(svgOffsetParent)) {\n return svgOffsetParent;\n }\n svgOffsetParent = getParentNode(svgOffsetParent);\n }\n return win;\n }\n let offsetParent = getTrueOffsetParent(element, polyfill);\n while (offsetParent && isTableElement(offsetParent) && isStaticPositioned(offsetParent)) {\n offsetParent = getTrueOffsetParent(offsetParent, polyfill);\n }\n if (offsetParent && isLastTraversableNode(offsetParent) && isStaticPositioned(offsetParent) && !isContainingBlock(offsetParent)) {\n return win;\n }\n return offsetParent || getContainingBlock(element) || win;\n}\n\nconst getElementRects = async function (data) {\n const getOffsetParentFn = this.getOffsetParent || getOffsetParent;\n const getDimensionsFn = this.getDimensions;\n const floatingDimensions = await getDimensionsFn(data.floating);\n return {\n reference: getRectRelativeToOffsetParent(data.reference, await getOffsetParentFn(data.floating), data.strategy),\n floating: {\n x: 0,\n y: 0,\n width: floatingDimensions.width,\n height: floatingDimensions.height\n }\n };\n};\n\nfunction isRTL(element) {\n return getComputedStyle(element).direction === 'rtl';\n}\n\nconst platform = {\n convertOffsetParentRelativeRectToViewportRelativeRect,\n getDocumentElement,\n getClippingRect,\n getOffsetParent,\n getElementRects,\n getClientRects,\n getDimensions,\n getScale,\n isElement,\n isRTL\n};\n\n// https://samthor.au/2021/observing-dom/\nfunction observeMove(element, onMove) {\n let io = null;\n let timeoutId;\n const root = getDocumentElement(element);\n function cleanup() {\n var _io;\n clearTimeout(timeoutId);\n (_io = io) == null || _io.disconnect();\n io = null;\n }\n function refresh(skip, threshold) {\n if (skip === void 0) {\n skip = false;\n }\n if (threshold === void 0) {\n threshold = 1;\n }\n cleanup();\n const {\n left,\n top,\n width,\n height\n } = element.getBoundingClientRect();\n if (!skip) {\n onMove();\n }\n if (!width || !height) {\n return;\n }\n const insetTop = floor(top);\n const insetRight = floor(root.clientWidth - (left + width));\n const insetBottom = floor(root.clientHeight - (top + height));\n const insetLeft = floor(left);\n const rootMargin = -insetTop + \"px \" + -insetRight + \"px \" + -insetBottom + \"px \" + -insetLeft + \"px\";\n const options = {\n rootMargin,\n threshold: max(0, min(1, threshold)) || 1\n };\n let isFirstUpdate = true;\n function handleObserve(entries) {\n const ratio = entries[0].intersectionRatio;\n if (ratio !== threshold) {\n if (!isFirstUpdate) {\n return refresh();\n }\n if (!ratio) {\n // If the reference is clipped, the ratio is 0. Throttle the refresh\n // to prevent an infinite loop of updates.\n timeoutId = setTimeout(() => {\n refresh(false, 1e-7);\n }, 1000);\n } else {\n refresh(false, ratio);\n }\n }\n isFirstUpdate = false;\n }\n\n // Older browsers don't support a `document` as the root and will throw an\n // error.\n try {\n io = new IntersectionObserver(handleObserve, {\n ...options,\n // Handle