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Project_Velocity/app/node_modules/.vite/deps/chunk-M3NXY72O.js

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import {
Primitive,
composeEventHandlers,
createContextScope,
dispatchDiscreteCustomEvent
} from "./chunk-VPWBNV4W.js";
import {
useCallbackRef,
useLayoutEffect2
} from "./chunk-23FVUG5N.js";
import {
require_react_dom
} from "./chunk-YF4B4G2L.js";
import {
composeRefs,
useComposedRefs
} from "./chunk-2VUH7NEY.js";
import {
require_jsx_runtime
} from "./chunk-2YVA4HRZ.js";
import {
require_react
} from "./chunk-WUR7D6NS.js";
import {
__toESM
} from "./chunk-G3PMV62Z.js";
// node_modules/@radix-ui/react-use-controllable-state/dist/index.mjs
var React2 = __toESM(require_react(), 1);
var React22 = __toESM(require_react(), 1);
// node_modules/@radix-ui/react-use-effect-event/dist/index.mjs
var React = __toESM(require_react(), 1);
var useReactEffectEvent = React[" useEffectEvent ".trim().toString()];
var useReactInsertionEffect = React[" useInsertionEffect ".trim().toString()];
// node_modules/@radix-ui/react-use-controllable-state/dist/index.mjs
var useInsertionEffect = React2[" useInsertionEffect ".trim().toString()] || useLayoutEffect2;
function useControllableState({
prop,
defaultProp,
onChange = () => {
},
caller
}) {
const [uncontrolledProp, setUncontrolledProp, onChangeRef] = useUncontrolledState({
defaultProp,
onChange
});
const isControlled = prop !== void 0;
const value = isControlled ? prop : uncontrolledProp;
if (true) {
const isControlledRef = React2.useRef(prop !== void 0);
React2.useEffect(() => {
const wasControlled = isControlledRef.current;
if (wasControlled !== isControlled) {
const from = wasControlled ? "controlled" : "uncontrolled";
const to = isControlled ? "controlled" : "uncontrolled";
console.warn(
`${caller} is changing from ${from} to ${to}. Components should not switch from controlled to uncontrolled (or vice versa). Decide between using a controlled or uncontrolled value for the lifetime of the component.`
);
}
isControlledRef.current = isControlled;
}, [isControlled, caller]);
}
const setValue = React2.useCallback(
(nextValue) => {
if (isControlled) {
const value2 = isFunction(nextValue) ? nextValue(prop) : nextValue;
if (value2 !== prop) {
onChangeRef.current?.(value2);
}
} else {
setUncontrolledProp(nextValue);
}
},
[isControlled, prop, setUncontrolledProp, onChangeRef]
);
return [value, setValue];
}
function useUncontrolledState({
defaultProp,
onChange
}) {
const [value, setValue] = React2.useState(defaultProp);
const prevValueRef = React2.useRef(value);
const onChangeRef = React2.useRef(onChange);
useInsertionEffect(() => {
onChangeRef.current = onChange;
}, [onChange]);
React2.useEffect(() => {
if (prevValueRef.current !== value) {
onChangeRef.current?.(value);
prevValueRef.current = value;
}
}, [value, prevValueRef]);
return [value, setValue, onChangeRef];
}
function isFunction(value) {
return typeof value === "function";
}
// node_modules/@radix-ui/react-collection/dist/index.mjs
var import_react = __toESM(require_react(), 1);
// node_modules/@radix-ui/react-collection/node_modules/@radix-ui/react-slot/dist/index.mjs
var React3 = __toESM(require_react(), 1);
var import_jsx_runtime = __toESM(require_jsx_runtime(), 1);
function createSlot(ownerName) {
const SlotClone = createSlotClone(ownerName);
const Slot2 = React3.forwardRef((props, forwardedRef) => {
const { children, ...slotProps } = props;
const childrenArray = React3.Children.toArray(children);
const slottable = childrenArray.find(isSlottable);
if (slottable) {
const newElement = slottable.props.children;
const newChildren = childrenArray.map((child) => {
if (child === slottable) {
if (React3.Children.count(newElement) > 1) return React3.Children.only(null);
return React3.isValidElement(newElement) ? newElement.props.children : null;
} else {
return child;
}
});
return (0, import_jsx_runtime.jsx)(SlotClone, { ...slotProps, ref: forwardedRef, children: React3.isValidElement(newElement) ? React3.cloneElement(newElement, void 0, newChildren) : null });
}
return (0, import_jsx_runtime.jsx)(SlotClone, { ...slotProps, ref: forwardedRef, children });
});
Slot2.displayName = `${ownerName}.Slot`;
return Slot2;
}
var Slot = createSlot("Slot");
function createSlotClone(ownerName) {
const SlotClone = React3.forwardRef((props, forwardedRef) => {
const { children, ...slotProps } = props;
if (React3.isValidElement(children)) {
const childrenRef = getElementRef(children);
const props2 = mergeProps(slotProps, children.props);
if (children.type !== React3.Fragment) {
props2.ref = forwardedRef ? composeRefs(forwardedRef, childrenRef) : childrenRef;
}
return React3.cloneElement(children, props2);
}
return React3.Children.count(children) > 1 ? React3.Children.only(null) : null;
});
SlotClone.displayName = `${ownerName}.SlotClone`;
return SlotClone;
}
var SLOTTABLE_IDENTIFIER = /* @__PURE__ */ Symbol("radix.slottable");
function createSlottable(ownerName) {
const Slottable2 = ({ children }) => {
return (0, import_jsx_runtime.jsx)(import_jsx_runtime.Fragment, { children });
};
Slottable2.displayName = `${ownerName}.Slottable`;
Slottable2.__radixId = SLOTTABLE_IDENTIFIER;
return Slottable2;
}
var Slottable = createSlottable("Slottable");
function isSlottable(child) {
return React3.isValidElement(child) && typeof child.type === "function" && "__radixId" in child.type && child.type.__radixId === SLOTTABLE_IDENTIFIER;
}
function mergeProps(slotProps, childProps) {
const overrideProps = { ...childProps };
for (const propName in childProps) {
const slotPropValue = slotProps[propName];
const childPropValue = childProps[propName];
const isHandler = /^on[A-Z]/.test(propName);
if (isHandler) {
if (slotPropValue && childPropValue) {
overrideProps[propName] = (...args) => {
const result = childPropValue(...args);
slotPropValue(...args);
return result;
};
} else if (slotPropValue) {
overrideProps[propName] = slotPropValue;
}
} else if (propName === "style") {
overrideProps[propName] = { ...slotPropValue, ...childPropValue };
} else if (propName === "className") {
overrideProps[propName] = [slotPropValue, childPropValue].filter(Boolean).join(" ");
}
}
return { ...slotProps, ...overrideProps };
}
function getElementRef(element) {
let getter = Object.getOwnPropertyDescriptor(element.props, "ref")?.get;
let mayWarn = getter && "isReactWarning" in getter && getter.isReactWarning;
if (mayWarn) {
return element.ref;
}
getter = Object.getOwnPropertyDescriptor(element, "ref")?.get;
mayWarn = getter && "isReactWarning" in getter && getter.isReactWarning;
if (mayWarn) {
return element.props.ref;
}
return element.props.ref || element.ref;
}
// node_modules/@radix-ui/react-collection/dist/index.mjs
var import_jsx_runtime2 = __toESM(require_jsx_runtime(), 1);
var import_react2 = __toESM(require_react(), 1);
var import_jsx_runtime3 = __toESM(require_jsx_runtime(), 1);
function createCollection(name) {
const PROVIDER_NAME = name + "CollectionProvider";
const [createCollectionContext, createCollectionScope] = createContextScope(PROVIDER_NAME);
const [CollectionProviderImpl, useCollectionContext] = createCollectionContext(
PROVIDER_NAME,
{ collectionRef: { current: null }, itemMap: /* @__PURE__ */ new Map() }
);
const CollectionProvider = (props) => {
const { scope, children } = props;
const ref = import_react.default.useRef(null);
const itemMap = import_react.default.useRef(/* @__PURE__ */ new Map()).current;
return (0, import_jsx_runtime2.jsx)(CollectionProviderImpl, { scope, itemMap, collectionRef: ref, children });
};
CollectionProvider.displayName = PROVIDER_NAME;
const COLLECTION_SLOT_NAME = name + "CollectionSlot";
const CollectionSlotImpl = createSlot(COLLECTION_SLOT_NAME);
const CollectionSlot = import_react.default.forwardRef(
(props, forwardedRef) => {
const { scope, children } = props;
const context = useCollectionContext(COLLECTION_SLOT_NAME, scope);
const composedRefs = useComposedRefs(forwardedRef, context.collectionRef);
return (0, import_jsx_runtime2.jsx)(CollectionSlotImpl, { ref: composedRefs, children });
}
);
CollectionSlot.displayName = COLLECTION_SLOT_NAME;
const ITEM_SLOT_NAME = name + "CollectionItemSlot";
const ITEM_DATA_ATTR = "data-radix-collection-item";
const CollectionItemSlotImpl = createSlot(ITEM_SLOT_NAME);
const CollectionItemSlot = import_react.default.forwardRef(
(props, forwardedRef) => {
const { scope, children, ...itemData } = props;
const ref = import_react.default.useRef(null);
const composedRefs = useComposedRefs(forwardedRef, ref);
const context = useCollectionContext(ITEM_SLOT_NAME, scope);
import_react.default.useEffect(() => {
context.itemMap.set(ref, { ref, ...itemData });
return () => void context.itemMap.delete(ref);
});
return (0, import_jsx_runtime2.jsx)(CollectionItemSlotImpl, { ...{ [ITEM_DATA_ATTR]: "" }, ref: composedRefs, children });
}
);
CollectionItemSlot.displayName = ITEM_SLOT_NAME;
function useCollection(scope) {
const context = useCollectionContext(name + "CollectionConsumer", scope);
const getItems = import_react.default.useCallback(() => {
const collectionNode = context.collectionRef.current;
if (!collectionNode) return [];
const orderedNodes = Array.from(collectionNode.querySelectorAll(`[${ITEM_DATA_ATTR}]`));
const items = Array.from(context.itemMap.values());
const orderedItems = items.sort(
(a, b) => orderedNodes.indexOf(a.ref.current) - orderedNodes.indexOf(b.ref.current)
);
return orderedItems;
}, [context.collectionRef, context.itemMap]);
return getItems;
}
return [
{ Provider: CollectionProvider, Slot: CollectionSlot, ItemSlot: CollectionItemSlot },
useCollection,
createCollectionScope
];
}
// node_modules/@radix-ui/react-dismissable-layer/dist/index.mjs
var React6 = __toESM(require_react(), 1);
// node_modules/@radix-ui/react-use-escape-keydown/dist/index.mjs
var React5 = __toESM(require_react(), 1);
function useEscapeKeydown(onEscapeKeyDownProp, ownerDocument = globalThis?.document) {
const onEscapeKeyDown = useCallbackRef(onEscapeKeyDownProp);
React5.useEffect(() => {
const handleKeyDown = (event) => {
if (event.key === "Escape") {
onEscapeKeyDown(event);
}
};
ownerDocument.addEventListener("keydown", handleKeyDown, { capture: true });
return () => ownerDocument.removeEventListener("keydown", handleKeyDown, { capture: true });
}, [onEscapeKeyDown, ownerDocument]);
}
// node_modules/@radix-ui/react-dismissable-layer/dist/index.mjs
var import_jsx_runtime4 = __toESM(require_jsx_runtime(), 1);
var DISMISSABLE_LAYER_NAME = "DismissableLayer";
var CONTEXT_UPDATE = "dismissableLayer.update";
var POINTER_DOWN_OUTSIDE = "dismissableLayer.pointerDownOutside";
var FOCUS_OUTSIDE = "dismissableLayer.focusOutside";
var originalBodyPointerEvents;
var DismissableLayerContext = React6.createContext({
layers: /* @__PURE__ */ new Set(),
layersWithOutsidePointerEventsDisabled: /* @__PURE__ */ new Set(),
branches: /* @__PURE__ */ new Set()
});
var DismissableLayer = React6.forwardRef(
(props, forwardedRef) => {
const {
disableOutsidePointerEvents = false,
onEscapeKeyDown,
onPointerDownOutside,
onFocusOutside,
onInteractOutside,
onDismiss,
...layerProps
} = props;
const context = React6.useContext(DismissableLayerContext);
const [node, setNode] = React6.useState(null);
const ownerDocument = node?.ownerDocument ?? globalThis?.document;
const [, force] = React6.useState({});
const composedRefs = useComposedRefs(forwardedRef, (node2) => setNode(node2));
const layers = Array.from(context.layers);
const [highestLayerWithOutsidePointerEventsDisabled] = [...context.layersWithOutsidePointerEventsDisabled].slice(-1);
const highestLayerWithOutsidePointerEventsDisabledIndex = layers.indexOf(highestLayerWithOutsidePointerEventsDisabled);
const index2 = node ? layers.indexOf(node) : -1;
const isBodyPointerEventsDisabled = context.layersWithOutsidePointerEventsDisabled.size > 0;
const isPointerEventsEnabled = index2 >= highestLayerWithOutsidePointerEventsDisabledIndex;
const pointerDownOutside = usePointerDownOutside((event) => {
const target = event.target;
const isPointerDownOnBranch = [...context.branches].some((branch) => branch.contains(target));
if (!isPointerEventsEnabled || isPointerDownOnBranch) return;
onPointerDownOutside?.(event);
onInteractOutside?.(event);
if (!event.defaultPrevented) onDismiss?.();
}, ownerDocument);
const focusOutside = useFocusOutside((event) => {
const target = event.target;
const isFocusInBranch = [...context.branches].some((branch) => branch.contains(target));
if (isFocusInBranch) return;
onFocusOutside?.(event);
onInteractOutside?.(event);
if (!event.defaultPrevented) onDismiss?.();
}, ownerDocument);
useEscapeKeydown((event) => {
const isHighestLayer = index2 === context.layers.size - 1;
if (!isHighestLayer) return;
onEscapeKeyDown?.(event);
if (!event.defaultPrevented && onDismiss) {
event.preventDefault();
onDismiss();
}
}, ownerDocument);
React6.useEffect(() => {
if (!node) return;
if (disableOutsidePointerEvents) {
if (context.layersWithOutsidePointerEventsDisabled.size === 0) {
originalBodyPointerEvents = ownerDocument.body.style.pointerEvents;
ownerDocument.body.style.pointerEvents = "none";
}
context.layersWithOutsidePointerEventsDisabled.add(node);
}
context.layers.add(node);
dispatchUpdate();
return () => {
if (disableOutsidePointerEvents && context.layersWithOutsidePointerEventsDisabled.size === 1) {
ownerDocument.body.style.pointerEvents = originalBodyPointerEvents;
}
};
}, [node, ownerDocument, disableOutsidePointerEvents, context]);
React6.useEffect(() => {
return () => {
if (!node) return;
context.layers.delete(node);
context.layersWithOutsidePointerEventsDisabled.delete(node);
dispatchUpdate();
};
}, [node, context]);
React6.useEffect(() => {
const handleUpdate = () => force({});
document.addEventListener(CONTEXT_UPDATE, handleUpdate);
return () => document.removeEventListener(CONTEXT_UPDATE, handleUpdate);
}, []);
return (0, import_jsx_runtime4.jsx)(
Primitive.div,
{
...layerProps,
ref: composedRefs,
style: {
pointerEvents: isBodyPointerEventsDisabled ? isPointerEventsEnabled ? "auto" : "none" : void 0,
...props.style
},
onFocusCapture: composeEventHandlers(props.onFocusCapture, focusOutside.onFocusCapture),
onBlurCapture: composeEventHandlers(props.onBlurCapture, focusOutside.onBlurCapture),
onPointerDownCapture: composeEventHandlers(
props.onPointerDownCapture,
pointerDownOutside.onPointerDownCapture
)
}
);
}
);
DismissableLayer.displayName = DISMISSABLE_LAYER_NAME;
var BRANCH_NAME = "DismissableLayerBranch";
var DismissableLayerBranch = React6.forwardRef((props, forwardedRef) => {
const context = React6.useContext(DismissableLayerContext);
const ref = React6.useRef(null);
const composedRefs = useComposedRefs(forwardedRef, ref);
React6.useEffect(() => {
const node = ref.current;
if (node) {
context.branches.add(node);
return () => {
context.branches.delete(node);
};
}
}, [context.branches]);
return (0, import_jsx_runtime4.jsx)(Primitive.div, { ...props, ref: composedRefs });
});
DismissableLayerBranch.displayName = BRANCH_NAME;
function usePointerDownOutside(onPointerDownOutside, ownerDocument = globalThis?.document) {
const handlePointerDownOutside = useCallbackRef(onPointerDownOutside);
const isPointerInsideReactTreeRef = React6.useRef(false);
const handleClickRef = React6.useRef(() => {
});
React6.useEffect(() => {
const handlePointerDown = (event) => {
if (event.target && !isPointerInsideReactTreeRef.current) {
let handleAndDispatchPointerDownOutsideEvent2 = function() {
handleAndDispatchCustomEvent(
POINTER_DOWN_OUTSIDE,
handlePointerDownOutside,
eventDetail,
{ discrete: true }
);
};
var handleAndDispatchPointerDownOutsideEvent = handleAndDispatchPointerDownOutsideEvent2;
const eventDetail = { originalEvent: event };
if (event.pointerType === "touch") {
ownerDocument.removeEventListener("click", handleClickRef.current);
handleClickRef.current = handleAndDispatchPointerDownOutsideEvent2;
ownerDocument.addEventListener("click", handleClickRef.current, { once: true });
} else {
handleAndDispatchPointerDownOutsideEvent2();
}
} else {
ownerDocument.removeEventListener("click", handleClickRef.current);
}
isPointerInsideReactTreeRef.current = false;
};
const timerId = window.setTimeout(() => {
ownerDocument.addEventListener("pointerdown", handlePointerDown);
}, 0);
return () => {
window.clearTimeout(timerId);
ownerDocument.removeEventListener("pointerdown", handlePointerDown);
ownerDocument.removeEventListener("click", handleClickRef.current);
};
}, [ownerDocument, handlePointerDownOutside]);
return {
// ensures we check React component tree (not just DOM tree)
onPointerDownCapture: () => isPointerInsideReactTreeRef.current = true
};
}
function useFocusOutside(onFocusOutside, ownerDocument = globalThis?.document) {
const handleFocusOutside = useCallbackRef(onFocusOutside);
const isFocusInsideReactTreeRef = React6.useRef(false);
React6.useEffect(() => {
const handleFocus = (event) => {
if (event.target && !isFocusInsideReactTreeRef.current) {
const eventDetail = { originalEvent: event };
handleAndDispatchCustomEvent(FOCUS_OUTSIDE, handleFocusOutside, eventDetail, {
discrete: false
});
}
};
ownerDocument.addEventListener("focusin", handleFocus);
return () => ownerDocument.removeEventListener("focusin", handleFocus);
}, [ownerDocument, handleFocusOutside]);
return {
onFocusCapture: () => isFocusInsideReactTreeRef.current = true,
onBlurCapture: () => isFocusInsideReactTreeRef.current = false
};
}
function dispatchUpdate() {
const event = new CustomEvent(CONTEXT_UPDATE);
document.dispatchEvent(event);
}
function handleAndDispatchCustomEvent(name, handler, detail, { discrete }) {
const target = detail.originalEvent.target;
const event = new CustomEvent(name, { bubbles: false, cancelable: true, detail });
if (handler) target.addEventListener(name, handler, { once: true });
if (discrete) {
dispatchDiscreteCustomEvent(target, event);
} else {
target.dispatchEvent(event);
}
}
// node_modules/@radix-ui/react-focus-guards/dist/index.mjs
var React7 = __toESM(require_react(), 1);
var count = 0;
function useFocusGuards() {
React7.useEffect(() => {
const edgeGuards = document.querySelectorAll("[data-radix-focus-guard]");
document.body.insertAdjacentElement("afterbegin", edgeGuards[0] ?? createFocusGuard());
document.body.insertAdjacentElement("beforeend", edgeGuards[1] ?? createFocusGuard());
count++;
return () => {
if (count === 1) {
document.querySelectorAll("[data-radix-focus-guard]").forEach((node) => node.remove());
}
count--;
};
}, []);
}
function createFocusGuard() {
const element = document.createElement("span");
element.setAttribute("data-radix-focus-guard", "");
element.tabIndex = 0;
element.style.outline = "none";
element.style.opacity = "0";
element.style.position = "fixed";
element.style.pointerEvents = "none";
return element;
}
// node_modules/@radix-ui/react-focus-scope/dist/index.mjs
var React8 = __toESM(require_react(), 1);
var import_jsx_runtime5 = __toESM(require_jsx_runtime(), 1);
var AUTOFOCUS_ON_MOUNT = "focusScope.autoFocusOnMount";
var AUTOFOCUS_ON_UNMOUNT = "focusScope.autoFocusOnUnmount";
var EVENT_OPTIONS = { bubbles: false, cancelable: true };
var FOCUS_SCOPE_NAME = "FocusScope";
var FocusScope = React8.forwardRef((props, forwardedRef) => {
const {
loop = false,
trapped = false,
onMountAutoFocus: onMountAutoFocusProp,
onUnmountAutoFocus: onUnmountAutoFocusProp,
...scopeProps
} = props;
const [container, setContainer] = React8.useState(null);
const onMountAutoFocus = useCallbackRef(onMountAutoFocusProp);
const onUnmountAutoFocus = useCallbackRef(onUnmountAutoFocusProp);
const lastFocusedElementRef = React8.useRef(null);
const composedRefs = useComposedRefs(forwardedRef, (node) => setContainer(node));
const focusScope = React8.useRef({
paused: false,
pause() {
this.paused = true;
},
resume() {
this.paused = false;
}
}).current;
React8.useEffect(() => {
if (trapped) {
let handleFocusIn2 = function(event) {
if (focusScope.paused || !container) return;
const target = event.target;
if (container.contains(target)) {
lastFocusedElementRef.current = target;
} else {
focus(lastFocusedElementRef.current, { select: true });
}
}, handleFocusOut2 = function(event) {
if (focusScope.paused || !container) return;
const relatedTarget = event.relatedTarget;
if (relatedTarget === null) return;
if (!container.contains(relatedTarget)) {
focus(lastFocusedElementRef.current, { select: true });
}
}, handleMutations2 = function(mutations) {
const focusedElement = document.activeElement;
if (focusedElement !== document.body) return;
for (const mutation of mutations) {
if (mutation.removedNodes.length > 0) focus(container);
}
};
var handleFocusIn = handleFocusIn2, handleFocusOut = handleFocusOut2, handleMutations = handleMutations2;
document.addEventListener("focusin", handleFocusIn2);
document.addEventListener("focusout", handleFocusOut2);
const mutationObserver = new MutationObserver(handleMutations2);
if (container) mutationObserver.observe(container, { childList: true, subtree: true });
return () => {
document.removeEventListener("focusin", handleFocusIn2);
document.removeEventListener("focusout", handleFocusOut2);
mutationObserver.disconnect();
};
}
}, [trapped, container, focusScope.paused]);
React8.useEffect(() => {
if (container) {
focusScopesStack.add(focusScope);
const previouslyFocusedElement = document.activeElement;
const hasFocusedCandidate = container.contains(previouslyFocusedElement);
if (!hasFocusedCandidate) {
const mountEvent = new CustomEvent(AUTOFOCUS_ON_MOUNT, EVENT_OPTIONS);
container.addEventListener(AUTOFOCUS_ON_MOUNT, onMountAutoFocus);
container.dispatchEvent(mountEvent);
if (!mountEvent.defaultPrevented) {
focusFirst(removeLinks(getTabbableCandidates(container)), { select: true });
if (document.activeElement === previouslyFocusedElement) {
focus(container);
}
}
}
return () => {
container.removeEventListener(AUTOFOCUS_ON_MOUNT, onMountAutoFocus);
setTimeout(() => {
const unmountEvent = new CustomEvent(AUTOFOCUS_ON_UNMOUNT, EVENT_OPTIONS);
container.addEventListener(AUTOFOCUS_ON_UNMOUNT, onUnmountAutoFocus);
container.dispatchEvent(unmountEvent);
if (!unmountEvent.defaultPrevented) {
focus(previouslyFocusedElement ?? document.body, { select: true });
}
container.removeEventListener(AUTOFOCUS_ON_UNMOUNT, onUnmountAutoFocus);
focusScopesStack.remove(focusScope);
}, 0);
};
}
}, [container, onMountAutoFocus, onUnmountAutoFocus, focusScope]);
const handleKeyDown = React8.useCallback(
(event) => {
if (!loop && !trapped) return;
if (focusScope.paused) return;
const isTabKey = event.key === "Tab" && !event.altKey && !event.ctrlKey && !event.metaKey;
const focusedElement = document.activeElement;
if (isTabKey && focusedElement) {
const container2 = event.currentTarget;
const [first, last] = getTabbableEdges(container2);
const hasTabbableElementsInside = first && last;
if (!hasTabbableElementsInside) {
if (focusedElement === container2) event.preventDefault();
} else {
if (!event.shiftKey && focusedElement === last) {
event.preventDefault();
if (loop) focus(first, { select: true });
} else if (event.shiftKey && focusedElement === first) {
event.preventDefault();
if (loop) focus(last, { select: true });
}
}
}
},
[loop, trapped, focusScope.paused]
);
return (0, import_jsx_runtime5.jsx)(Primitive.div, { tabIndex: -1, ...scopeProps, ref: composedRefs, onKeyDown: handleKeyDown });
});
FocusScope.displayName = FOCUS_SCOPE_NAME;
function focusFirst(candidates, { select = false } = {}) {
const previouslyFocusedElement = document.activeElement;
for (const candidate of candidates) {
focus(candidate, { select });
if (document.activeElement !== previouslyFocusedElement) return;
}
}
function getTabbableEdges(container) {
const candidates = getTabbableCandidates(container);
const first = findVisible(candidates, container);
const last = findVisible(candidates.reverse(), container);
return [first, last];
}
function getTabbableCandidates(container) {
const nodes = [];
const walker = document.createTreeWalker(container, NodeFilter.SHOW_ELEMENT, {
acceptNode: (node) => {
const isHiddenInput = node.tagName === "INPUT" && node.type === "hidden";
if (node.disabled || node.hidden || isHiddenInput) return NodeFilter.FILTER_SKIP;
return node.tabIndex >= 0 ? NodeFilter.FILTER_ACCEPT : NodeFilter.FILTER_SKIP;
}
});
while (walker.nextNode()) nodes.push(walker.currentNode);
return nodes;
}
function findVisible(elements, container) {
for (const element of elements) {
if (!isHidden(element, { upTo: container })) return element;
}
}
function isHidden(node, { upTo }) {
if (getComputedStyle(node).visibility === "hidden") return true;
while (node) {
if (upTo !== void 0 && node === upTo) return false;
if (getComputedStyle(node).display === "none") return true;
node = node.parentElement;
}
return false;
}
function isSelectableInput(element) {
return element instanceof HTMLInputElement && "select" in element;
}
function focus(element, { select = false } = {}) {
if (element && element.focus) {
const previouslyFocusedElement = document.activeElement;
element.focus({ preventScroll: true });
if (element !== previouslyFocusedElement && isSelectableInput(element) && select)
element.select();
}
}
var focusScopesStack = createFocusScopesStack();
function createFocusScopesStack() {
let stack = [];
return {
add(focusScope) {
const activeFocusScope = stack[0];
if (focusScope !== activeFocusScope) {
activeFocusScope?.pause();
}
stack = arrayRemove(stack, focusScope);
stack.unshift(focusScope);
},
remove(focusScope) {
stack = arrayRemove(stack, focusScope);
stack[0]?.resume();
}
};
}
function arrayRemove(array, item) {
const updatedArray = [...array];
const index2 = updatedArray.indexOf(item);
if (index2 !== -1) {
updatedArray.splice(index2, 1);
}
return updatedArray;
}
function removeLinks(items) {
return items.filter((item) => item.tagName !== "A");
}
// node_modules/@radix-ui/react-id/dist/index.mjs
var React9 = __toESM(require_react(), 1);
var useReactId = React9[" useId ".trim().toString()] || (() => void 0);
var count2 = 0;
function useId(deterministicId) {
const [id, setId] = React9.useState(useReactId());
useLayoutEffect2(() => {
if (!deterministicId) setId((reactId) => reactId ?? String(count2++));
}, [deterministicId]);
return deterministicId || (id ? `radix-${id}` : "");
}
// node_modules/@radix-ui/react-popper/dist/index.mjs
var React13 = __toESM(require_react(), 1);
// node_modules/@floating-ui/utils/dist/floating-ui.utils.mjs
var sides = ["top", "right", "bottom", "left"];
var alignments = ["start", "end"];
var placements = sides.reduce((acc, side) => acc.concat(side, side + "-" + alignments[0], side + "-" + alignments[1]), []);
var min = Math.min;
var max = Math.max;
var round = Math.round;
var floor = Math.floor;
var createCoords = (v) => ({
x: v,
y: v
});
var oppositeSideMap = {
left: "right",
right: "left",
bottom: "top",
top: "bottom"
};
var oppositeAlignmentMap = {
start: "end",
end: "start"
};
function clamp(start, value, end) {
return max(start, min(value, end));
}
function evaluate(value, param) {
return typeof value === "function" ? value(param) : value;
}
function getSide(placement) {
return placement.split("-")[0];
}
function getAlignment(placement) {
return placement.split("-")[1];
}
function getOppositeAxis(axis) {
return axis === "x" ? "y" : "x";
}
function getAxisLength(axis) {
return axis === "y" ? "height" : "width";
}
var yAxisSides = /* @__PURE__ */ new Set(["top", "bottom"]);
function getSideAxis(placement) {
return yAxisSides.has(getSide(placement)) ? "y" : "x";
}
function getAlignmentAxis(placement) {
return getOppositeAxis(getSideAxis(placement));
}
function getAlignmentSides(placement, rects, rtl) {
if (rtl === void 0) {
rtl = false;
}
const alignment = getAlignment(placement);
const alignmentAxis = getAlignmentAxis(placement);
const length = getAxisLength(alignmentAxis);
let mainAlignmentSide = alignmentAxis === "x" ? alignment === (rtl ? "end" : "start") ? "right" : "left" : alignment === "start" ? "bottom" : "top";
if (rects.reference[length] > rects.floating[length]) {
mainAlignmentSide = getOppositePlacement(mainAlignmentSide);
}
return [mainAlignmentSide, getOppositePlacement(mainAlignmentSide)];
}
function getExpandedPlacements(placement) {
const oppositePlacement = getOppositePlacement(placement);
return [getOppositeAlignmentPlacement(placement), oppositePlacement, getOppositeAlignmentPlacement(oppositePlacement)];
}
function getOppositeAlignmentPlacement(placement) {
return placement.replace(/start|end/g, (alignment) => oppositeAlignmentMap[alignment]);
}
var lrPlacement = ["left", "right"];
var rlPlacement = ["right", "left"];
var tbPlacement = ["top", "bottom"];
var btPlacement = ["bottom", "top"];
function getSideList(side, isStart, rtl) {
switch (side) {
case "top":
case "bottom":
if (rtl) return isStart ? rlPlacement : lrPlacement;
return isStart ? lrPlacement : rlPlacement;
case "left":
case "right":
return isStart ? tbPlacement : btPlacement;
default:
return [];
}
}
function getOppositeAxisPlacements(placement, flipAlignment, direction, rtl) {
const alignment = getAlignment(placement);
let list = getSideList(getSide(placement), direction === "start", rtl);
if (alignment) {
list = list.map((side) => side + "-" + alignment);
if (flipAlignment) {
list = list.concat(list.map(getOppositeAlignmentPlacement));
}
}
return list;
}
function getOppositePlacement(placement) {
return placement.replace(/left|right|bottom|top/g, (side) => oppositeSideMap[side]);
}
function expandPaddingObject(padding) {
return {
top: 0,
right: 0,
bottom: 0,
left: 0,
...padding
};
}
function getPaddingObject(padding) {
return typeof padding !== "number" ? expandPaddingObject(padding) : {
top: padding,
right: padding,
bottom: padding,
left: padding
};
}
function rectToClientRect(rect) {
const {
x,
y,
width,
height
} = rect;
return {
width,
height,
top: y,
left: x,
right: x + width,
bottom: y + height,
x,
y
};
}
// node_modules/@floating-ui/core/dist/floating-ui.core.mjs
function computeCoordsFromPlacement(_ref, placement, rtl) {
let {
reference,
floating
} = _ref;
const sideAxis = getSideAxis(placement);
const alignmentAxis = getAlignmentAxis(placement);
const alignLength = getAxisLength(alignmentAxis);
const side = getSide(placement);
const isVertical = sideAxis === "y";
const commonX = reference.x + reference.width / 2 - floating.width / 2;
const commonY = reference.y + reference.height / 2 - floating.height / 2;
const commonAlign = reference[alignLength] / 2 - floating[alignLength] / 2;
let coords;
switch (side) {
case "top":
coords = {
x: commonX,
y: reference.y - floating.height
};
break;
case "bottom":
coords = {
x: commonX,
y: reference.y + reference.height
};
break;
case "right":
coords = {
x: reference.x + reference.width,
y: commonY
};
break;
case "left":
coords = {
x: reference.x - floating.width,
y: commonY
};
break;
default:
coords = {
x: reference.x,
y: reference.y
};
}
switch (getAlignment(placement)) {
case "start":
coords[alignmentAxis] -= commonAlign * (rtl && isVertical ? -1 : 1);
break;
case "end":
coords[alignmentAxis] += commonAlign * (rtl && isVertical ? -1 : 1);
break;
}
return coords;
}
var computePosition = async (reference, floating, config) => {
const {
placement = "bottom",
strategy = "absolute",
middleware = [],
platform: platform2
} = config;
const validMiddleware = middleware.filter(Boolean);
const rtl = await (platform2.isRTL == null ? void 0 : platform2.isRTL(floating));
let rects = await platform2.getElementRects({
reference,
floating,
strategy
});
let {
x,
y
} = computeCoordsFromPlacement(rects, placement, rtl);
let statefulPlacement = placement;
let middlewareData = {};
let resetCount = 0;
for (let i = 0; i < validMiddleware.length; i++) {
const {
name,
fn
} = validMiddleware[i];
const {
x: nextX,
y: nextY,
data,
reset
} = await fn({
x,
y,
initialPlacement: placement,
placement: statefulPlacement,
strategy,
middlewareData,
rects,
platform: platform2,
elements: {
reference,
floating
}
});
x = nextX != null ? nextX : x;
y = nextY != null ? nextY : y;
middlewareData = {
...middlewareData,
[name]: {
...middlewareData[name],
...data
}
};
if (reset && resetCount <= 50) {
resetCount++;
if (typeof reset === "object") {
if (reset.placement) {
statefulPlacement = reset.placement;
}
if (reset.rects) {
rects = reset.rects === true ? await platform2.getElementRects({
reference,
floating,
strategy
}) : reset.rects;
}
({
x,
y
} = computeCoordsFromPlacement(rects, statefulPlacement, rtl));
}
i = -1;
}
}
return {
x,
y,
placement: statefulPlacement,
strategy,
middlewareData
};
};
async function detectOverflow(state, options) {
var _await$platform$isEle;
if (options === void 0) {
options = {};
}
const {
x,
y,
platform: platform2,
rects,
elements,
strategy
} = state;
const {
boundary = "clippingAncestors",
rootBoundary = "viewport",
elementContext = "floating",
altBoundary = false,
padding = 0
} = evaluate(options, state);
const paddingObject = getPaddingObject(padding);
const altContext = elementContext === "floating" ? "reference" : "floating";
const element = elements[altBoundary ? altContext : elementContext];
const clippingClientRect = rectToClientRect(await platform2.getClippingRect({
element: ((_await$platform$isEle = await (platform2.isElement == null ? void 0 : platform2.isElement(element))) != null ? _await$platform$isEle : true) ? element : element.contextElement || await (platform2.getDocumentElement == null ? void 0 : platform2.getDocumentElement(elements.floating)),
boundary,
rootBoundary,
strategy
}));
const rect = elementContext === "floating" ? {
x,
y,
width: rects.floating.width,
height: rects.floating.height
} : rects.reference;
const offsetParent = await (platform2.getOffsetParent == null ? void 0 : platform2.getOffsetParent(elements.floating));
const offsetScale = await (platform2.isElement == null ? void 0 : platform2.isElement(offsetParent)) ? await (platform2.getScale == null ? void 0 : platform2.getScale(offsetParent)) || {
x: 1,
y: 1
} : {
x: 1,
y: 1
};
const elementClientRect = rectToClientRect(platform2.convertOffsetParentRelativeRectToViewportRelativeRect ? await platform2.convertOffsetParentRelativeRectToViewportRelativeRect({
elements,
rect,
offsetParent,
strategy
}) : rect);
return {
top: (clippingClientRect.top - elementClientRect.top + paddingObject.top) / offsetScale.y,
bottom: (elementClientRect.bottom - clippingClientRect.bottom + paddingObject.bottom) / offsetScale.y,
left: (clippingClientRect.left - elementClientRect.left + paddingObject.left) / offsetScale.x,
right: (elementClientRect.right - clippingClientRect.right + paddingObject.right) / offsetScale.x
};
}
var arrow = (options) => ({
name: "arrow",
options,
async fn(state) {
const {
x,
y,
placement,
rects,
platform: platform2,
elements,
middlewareData
} = state;
const {
element,
padding = 0
} = evaluate(options, state) || {};
if (element == null) {
return {};
}
const paddingObject = getPaddingObject(padding);
const coords = {
x,
y
};
const axis = getAlignmentAxis(placement);
const length = getAxisLength(axis);
const arrowDimensions = await platform2.getDimensions(element);
const isYAxis = axis === "y";
const minProp = isYAxis ? "top" : "left";
const maxProp = isYAxis ? "bottom" : "right";
const clientProp = isYAxis ? "clientHeight" : "clientWidth";
const endDiff = rects.reference[length] + rects.reference[axis] - coords[axis] - rects.floating[length];
const startDiff = coords[axis] - rects.reference[axis];
const arrowOffsetParent = await (platform2.getOffsetParent == null ? void 0 : platform2.getOffsetParent(element));
let clientSize = arrowOffsetParent ? arrowOffsetParent[clientProp] : 0;
if (!clientSize || !await (platform2.isElement == null ? void 0 : platform2.isElement(arrowOffsetParent))) {
clientSize = elements.floating[clientProp] || rects.floating[length];
}
const centerToReference = endDiff / 2 - startDiff / 2;
const largestPossiblePadding = clientSize / 2 - arrowDimensions[length] / 2 - 1;
const minPadding = min(paddingObject[minProp], largestPossiblePadding);
const maxPadding = min(paddingObject[maxProp], largestPossiblePadding);
const min$1 = minPadding;
const max2 = clientSize - arrowDimensions[length] - maxPadding;
const center = clientSize / 2 - arrowDimensions[length] / 2 + centerToReference;
const offset4 = clamp(min$1, center, max2);
const shouldAddOffset = !middlewareData.arrow && getAlignment(placement) != null && center !== offset4 && rects.reference[length] / 2 - (center < min$1 ? minPadding : maxPadding) - arrowDimensions[length] / 2 < 0;
const alignmentOffset = shouldAddOffset ? center < min$1 ? center - min$1 : center - max2 : 0;
return {
[axis]: coords[axis] + alignmentOffset,
data: {
[axis]: offset4,
centerOffset: center - offset4 - alignmentOffset,
...shouldAddOffset && {
alignmentOffset
}
},
reset: shouldAddOffset
};
}
});
var flip = function(options) {
if (options === void 0) {
options = {};
}
return {
name: "flip",
options,
async fn(state) {
var _middlewareData$arrow, _middlewareData$flip;
const {
placement,
middlewareData,
rects,
initialPlacement,
platform: platform2,
elements
} = state;
const {
mainAxis: checkMainAxis = true,
crossAxis: checkCrossAxis = true,
fallbackPlacements: specifiedFallbackPlacements,
fallbackStrategy = "bestFit",
fallbackAxisSideDirection = "none",
flipAlignment = true,
...detectOverflowOptions
} = evaluate(options, state);
if ((_middlewareData$arrow = middlewareData.arrow) != null && _middlewareData$arrow.alignmentOffset) {
return {};
}
const side = getSide(placement);
const initialSideAxis = getSideAxis(initialPlacement);
const isBasePlacement = getSide(initialPlacement) === initialPlacement;
const rtl = await (platform2.isRTL == null ? void 0 : platform2.isRTL(elements.floating));
const fallbackPlacements = specifiedFallbackPlacements || (isBasePlacement || !flipAlignment ? [getOppositePlacement(initialPlacement)] : getExpandedPlacements(initialPlacement));
const hasFallbackAxisSideDirection = fallbackAxisSideDirection !== "none";
if (!specifiedFallbackPlacements && hasFallbackAxisSideDirection) {
fallbackPlacements.push(...getOppositeAxisPlacements(initialPlacement, flipAlignment, fallbackAxisSideDirection, rtl));
}
const placements2 = [initialPlacement, ...fallbackPlacements];
const overflow = await detectOverflow(state, detectOverflowOptions);
const overflows = [];
let overflowsData = ((_middlewareData$flip = middlewareData.flip) == null ? void 0 : _middlewareData$flip.overflows) || [];
if (checkMainAxis) {
overflows.push(overflow[side]);
}
if (checkCrossAxis) {
const sides2 = getAlignmentSides(placement, rects, rtl);
overflows.push(overflow[sides2[0]], overflow[sides2[1]]);
}
overflowsData = [...overflowsData, {
placement,
overflows
}];
if (!overflows.every((side2) => side2 <= 0)) {
var _middlewareData$flip2, _overflowsData$filter;
const nextIndex = (((_middlewareData$flip2 = middlewareData.flip) == null ? void 0 : _middlewareData$flip2.index) || 0) + 1;
const nextPlacement = placements2[nextIndex];
if (nextPlacement) {
const ignoreCrossAxisOverflow = checkCrossAxis === "alignment" ? initialSideAxis !== getSideAxis(nextPlacement) : false;
if (!ignoreCrossAxisOverflow || // We leave the current main axis only if every placement on that axis
// overflows the main axis.
overflowsData.every((d) => getSideAxis(d.placement) === initialSideAxis ? d.overflows[0] > 0 : true)) {
return {
data: {
index: nextIndex,
overflows: overflowsData
},
reset: {
placement: nextPlacement
}
};
}
}
let resetPlacement = (_overflowsData$filter = overflowsData.filter((d) => d.overflows[0] <= 0).sort((a, b) => a.overflows[1] - b.overflows[1])[0]) == null ? void 0 : _overflowsData$filter.placement;
if (!resetPlacement) {
switch (fallbackStrategy) {
case "bestFit": {
var _overflowsData$filter2;
const placement2 = (_overflowsData$filter2 = overflowsData.filter((d) => {
if (hasFallbackAxisSideDirection) {
const currentSideAxis = getSideAxis(d.placement);
return currentSideAxis === initialSideAxis || // Create a bias to the `y` side axis due to horizontal
// reading directions favoring greater width.
currentSideAxis === "y";
}
return true;
}).map((d) => [d.placement, d.overflows.filter((overflow2) => overflow2 > 0).reduce((acc, overflow2) => acc + overflow2, 0)]).sort((a, b) => a[1] - b[1])[0]) == null ? void 0 : _overflowsData$filter2[0];
if (placement2) {
resetPlacement = placement2;
}
break;
}
case "initialPlacement":
resetPlacement = initialPlacement;
break;
}
}
if (placement !== resetPlacement) {
return {
reset: {
placement: resetPlacement
}
};
}
}
return {};
}
};
};
function getSideOffsets(overflow, rect) {
return {
top: overflow.top - rect.height,
right: overflow.right - rect.width,
bottom: overflow.bottom - rect.height,
left: overflow.left - rect.width
};
}
function isAnySideFullyClipped(overflow) {
return sides.some((side) => overflow[side] >= 0);
}
var hide = function(options) {
if (options === void 0) {
options = {};
}
return {
name: "hide",
options,
async fn(state) {
const {
rects
} = state;
const {
strategy = "referenceHidden",
...detectOverflowOptions
} = evaluate(options, state);
switch (strategy) {
case "referenceHidden": {
const overflow = await detectOverflow(state, {
...detectOverflowOptions,
elementContext: "reference"
});
const offsets = getSideOffsets(overflow, rects.reference);
return {
data: {
referenceHiddenOffsets: offsets,
referenceHidden: isAnySideFullyClipped(offsets)
}
};
}
case "escaped": {
const overflow = await detectOverflow(state, {
...detectOverflowOptions,
altBoundary: true
});
const offsets = getSideOffsets(overflow, rects.floating);
return {
data: {
escapedOffsets: offsets,
escaped: isAnySideFullyClipped(offsets)
}
};
}
default: {
return {};
}
}
}
};
};
var originSides = /* @__PURE__ */ new Set(["left", "top"]);
async function convertValueToCoords(state, options) {
const {
placement,
platform: platform2,
elements
} = state;
const rtl = await (platform2.isRTL == null ? void 0 : platform2.isRTL(elements.floating));
const side = getSide(placement);
const alignment = getAlignment(placement);
const isVertical = getSideAxis(placement) === "y";
const mainAxisMulti = originSides.has(side) ? -1 : 1;
const crossAxisMulti = rtl && isVertical ? -1 : 1;
const rawValue = evaluate(options, state);
let {
mainAxis,
crossAxis,
alignmentAxis
} = typeof rawValue === "number" ? {
mainAxis: rawValue,
crossAxis: 0,
alignmentAxis: null
} : {
mainAxis: rawValue.mainAxis || 0,
crossAxis: rawValue.crossAxis || 0,
alignmentAxis: rawValue.alignmentAxis
};
if (alignment && typeof alignmentAxis === "number") {
crossAxis = alignment === "end" ? alignmentAxis * -1 : alignmentAxis;
}
return isVertical ? {
x: crossAxis * crossAxisMulti,
y: mainAxis * mainAxisMulti
} : {
x: mainAxis * mainAxisMulti,
y: crossAxis * crossAxisMulti
};
}
var offset = function(options) {
if (options === void 0) {
options = 0;
}
return {
name: "offset",
options,
async fn(state) {
var _middlewareData$offse, _middlewareData$arrow;
const {
x,
y,
placement,
middlewareData
} = state;
const diffCoords = await convertValueToCoords(state, options);
if (placement === ((_middlewareData$offse = middlewareData.offset) == null ? void 0 : _middlewareData$offse.placement) && (_middlewareData$arrow = middlewareData.arrow) != null && _middlewareData$arrow.alignmentOffset) {
return {};
}
return {
x: x + diffCoords.x,
y: y + diffCoords.y,
data: {
...diffCoords,
placement
}
};
}
};
};
var shift = function(options) {
if (options === void 0) {
options = {};
}
return {
name: "shift",
options,
async fn(state) {
const {
x,
y,
placement
} = state;
const {
mainAxis: checkMainAxis = true,
crossAxis: checkCrossAxis = false,
limiter = {
fn: (_ref) => {
let {
x: x2,
y: y2
} = _ref;
return {
x: x2,
y: y2
};
}
},
...detectOverflowOptions
} = evaluate(options, state);
const coords = {
x,
y
};
const overflow = await detectOverflow(state, detectOverflowOptions);
const crossAxis = getSideAxis(getSide(placement));
const mainAxis = getOppositeAxis(crossAxis);
let mainAxisCoord = coords[mainAxis];
let crossAxisCoord = coords[crossAxis];
if (checkMainAxis) {
const minSide = mainAxis === "y" ? "top" : "left";
const maxSide = mainAxis === "y" ? "bottom" : "right";
const min2 = mainAxisCoord + overflow[minSide];
const max2 = mainAxisCoord - overflow[maxSide];
mainAxisCoord = clamp(min2, mainAxisCoord, max2);
}
if (checkCrossAxis) {
const minSide = crossAxis === "y" ? "top" : "left";
const maxSide = crossAxis === "y" ? "bottom" : "right";
const min2 = crossAxisCoord + overflow[minSide];
const max2 = crossAxisCoord - overflow[maxSide];
crossAxisCoord = clamp(min2, crossAxisCoord, max2);
}
const limitedCoords = limiter.fn({
...state,
[mainAxis]: mainAxisCoord,
[crossAxis]: crossAxisCoord
});
return {
...limitedCoords,
data: {
x: limitedCoords.x - x,
y: limitedCoords.y - y,
enabled: {
[mainAxis]: checkMainAxis,
[crossAxis]: checkCrossAxis
}
}
};
}
};
};
var limitShift = function(options) {
if (options === void 0) {
options = {};
}
return {
options,
fn(state) {
const {
x,
y,
placement,
rects,
middlewareData
} = state;
const {
offset: offset4 = 0,
mainAxis: checkMainAxis = true,
crossAxis: checkCrossAxis = true
} = evaluate(options, state);
const coords = {
x,
y
};
const crossAxis = getSideAxis(placement);
const mainAxis = getOppositeAxis(crossAxis);
let mainAxisCoord = coords[mainAxis];
let crossAxisCoord = coords[crossAxis];
const rawOffset = evaluate(offset4, state);
const computedOffset = typeof rawOffset === "number" ? {
mainAxis: rawOffset,
crossAxis: 0
} : {
mainAxis: 0,
crossAxis: 0,
...rawOffset
};
if (checkMainAxis) {
const len = mainAxis === "y" ? "height" : "width";
const limitMin = rects.reference[mainAxis] - rects.floating[len] + computedOffset.mainAxis;
const limitMax = rects.reference[mainAxis] + rects.reference[len] - computedOffset.mainAxis;
if (mainAxisCoord < limitMin) {
mainAxisCoord = limitMin;
} else if (mainAxisCoord > limitMax) {
mainAxisCoord = limitMax;
}
}
if (checkCrossAxis) {
var _middlewareData$offse, _middlewareData$offse2;
const len = mainAxis === "y" ? "width" : "height";
const isOriginSide = originSides.has(getSide(placement));
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);
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);
if (crossAxisCoord < limitMin) {
crossAxisCoord = limitMin;
} else if (crossAxisCoord > limitMax) {
crossAxisCoord = limitMax;
}
}
return {
[mainAxis]: mainAxisCoord,
[crossAxis]: crossAxisCoord
};
}
};
};
var size = function(options) {
if (options === void 0) {
options = {};
}
return {
name: "size",
options,
async fn(state) {
var _state$middlewareData, _state$middlewareData2;
const {
placement,
rects,
platform: platform2,
elements
} = state;
const {
apply = () => {
},
...detectOverflowOptions
} = evaluate(options, state);
const overflow = await detectOverflow(state, detectOverflowOptions);
const side = getSide(placement);
const alignment = getAlignment(placement);
const isYAxis = getSideAxis(placement) === "y";
const {
width,
height
} = rects.floating;
let heightSide;
let widthSide;
if (side === "top" || side === "bottom") {
heightSide = side;
widthSide = alignment === (await (platform2.isRTL == null ? void 0 : platform2.isRTL(elements.floating)) ? "start" : "end") ? "left" : "right";
} else {
widthSide = side;
heightSide = alignment === "end" ? "top" : "bottom";
}
const maximumClippingHeight = height - overflow.top - overflow.bottom;
const maximumClippingWidth = width - overflow.left - overflow.right;
const overflowAvailableHeight = min(height - overflow[heightSide], maximumClippingHeight);
const overflowAvailableWidth = min(width - overflow[widthSide], maximumClippingWidth);
const noShift = !state.middlewareData.shift;
let availableHeight = overflowAvailableHeight;
let availableWidth = overflowAvailableWidth;
if ((_state$middlewareData = state.middlewareData.shift) != null && _state$middlewareData.enabled.x) {
availableWidth = maximumClippingWidth;
}
if ((_state$middlewareData2 = state.middlewareData.shift) != null && _state$middlewareData2.enabled.y) {
availableHeight = maximumClippingHeight;
}
if (noShift && !alignment) {
const xMin = max(overflow.left, 0);
const xMax = max(overflow.right, 0);
const yMin = max(overflow.top, 0);
const yMax = max(overflow.bottom, 0);
if (isYAxis) {
availableWidth = width - 2 * (xMin !== 0 || xMax !== 0 ? xMin + xMax : max(overflow.left, overflow.right));
} else {
availableHeight = height - 2 * (yMin !== 0 || yMax !== 0 ? yMin + yMax : max(overflow.top, overflow.bottom));
}
}
await apply({
...state,
availableWidth,
availableHeight
});
const nextDimensions = await platform2.getDimensions(elements.floating);
if (width !== nextDimensions.width || height !== nextDimensions.height) {
return {
reset: {
rects: true
}
};
}
return {};
}
};
};
// node_modules/@floating-ui/utils/dist/floating-ui.utils.dom.mjs
function hasWindow() {
return typeof window !== "undefined";
}
function getNodeName(node) {
if (isNode(node)) {
return (node.nodeName || "").toLowerCase();
}
return "#document";
}
function getWindow(node) {
var _node$ownerDocument;
return (node == null || (_node$ownerDocument = node.ownerDocument) == null ? void 0 : _node$ownerDocument.defaultView) || window;
}
function getDocumentElement(node) {
var _ref;
return (_ref = (isNode(node) ? node.ownerDocument : node.document) || window.document) == null ? void 0 : _ref.documentElement;
}
function isNode(value) {
if (!hasWindow()) {
return false;
}
return value instanceof Node || value instanceof getWindow(value).Node;
}
function isElement(value) {
if (!hasWindow()) {
return false;
}
return value instanceof Element || value instanceof getWindow(value).Element;
}
function isHTMLElement(value) {
if (!hasWindow()) {
return false;
}
return value instanceof HTMLElement || value instanceof getWindow(value).HTMLElement;
}
function isShadowRoot(value) {
if (!hasWindow() || typeof ShadowRoot === "undefined") {
return false;
}
return value instanceof ShadowRoot || value instanceof getWindow(value).ShadowRoot;
}
var invalidOverflowDisplayValues = /* @__PURE__ */ new Set(["inline", "contents"]);
function isOverflowElement(element) {
const {
overflow,
overflowX,
overflowY,
display
} = getComputedStyle2(element);
return /auto|scroll|overlay|hidden|clip/.test(overflow + overflowY + overflowX) && !invalidOverflowDisplayValues.has(display);
}
var tableElements = /* @__PURE__ */ new Set(["table", "td", "th"]);
function isTableElement(element) {
return tableElements.has(getNodeName(element));
}
var topLayerSelectors = [":popover-open", ":modal"];
function isTopLayer(element) {
return topLayerSelectors.some((selector) => {
try {
return element.matches(selector);
} catch (_e) {
return false;
}
});
}
var transformProperties = ["transform", "translate", "scale", "rotate", "perspective"];
var willChangeValues = ["transform", "translate", "scale", "rotate", "perspective", "filter"];
var containValues = ["paint", "layout", "strict", "content"];
function isContainingBlock(elementOrCss) {
const webkit = isWebKit();
const css = isElement(elementOrCss) ? getComputedStyle2(elementOrCss) : elementOrCss;
return transformProperties.some((value) => css[value] ? css[value] !== "none" : false) || (css.containerType ? css.containerType !== "normal" : false) || !webkit && (css.backdropFilter ? css.backdropFilter !== "none" : false) || !webkit && (css.filter ? css.filter !== "none" : false) || willChangeValues.some((value) => (css.willChange || "").includes(value)) || containValues.some((value) => (css.contain || "").includes(value));
}
function getContainingBlock(element) {
let currentNode = getParentNode(element);
while (isHTMLElement(currentNode) && !isLastTraversableNode(currentNode)) {
if (isContainingBlock(currentNode)) {
return currentNode;
} else if (isTopLayer(currentNode)) {
return null;
}
currentNode = getParentNode(currentNode);
}
return null;
}
function isWebKit() {
if (typeof CSS === "undefined" || !CSS.supports) return false;
return CSS.supports("-webkit-backdrop-filter", "none");
}
var lastTraversableNodeNames = /* @__PURE__ */ new Set(["html", "body", "#document"]);
function isLastTraversableNode(node) {
return lastTraversableNodeNames.has(getNodeName(node));
}
function getComputedStyle2(element) {
return getWindow(element).getComputedStyle(element);
}
function getNodeScroll(element) {
if (isElement(element)) {
return {
scrollLeft: element.scrollLeft,
scrollTop: element.scrollTop
};
}
return {
scrollLeft: element.scrollX,
scrollTop: element.scrollY
};
}
function getParentNode(node) {
if (getNodeName(node) === "html") {
return node;
}
const result = (
// Step into the shadow DOM of the parent of a slotted node.
node.assignedSlot || // DOM Element detected.
node.parentNode || // ShadowRoot detected.
isShadowRoot(node) && node.host || // Fallback.
getDocumentElement(node)
);
return isShadowRoot(result) ? result.host : result;
}
function getNearestOverflowAncestor(node) {
const parentNode = getParentNode(node);
if (isLastTraversableNode(parentNode)) {
return node.ownerDocument ? node.ownerDocument.body : node.body;
}
if (isHTMLElement(parentNode) && isOverflowElement(parentNode)) {
return parentNode;
}
return getNearestOverflowAncestor(parentNode);
}
function getOverflowAncestors(node, list, traverseIframes) {
var _node$ownerDocument2;
if (list === void 0) {
list = [];
}
if (traverseIframes === void 0) {
traverseIframes = true;
}
const scrollableAncestor = getNearestOverflowAncestor(node);
const isBody = scrollableAncestor === ((_node$ownerDocument2 = node.ownerDocument) == null ? void 0 : _node$ownerDocument2.body);
const win = getWindow(scrollableAncestor);
if (isBody) {
const frameElement = getFrameElement(win);
return list.concat(win, win.visualViewport || [], isOverflowElement(scrollableAncestor) ? scrollableAncestor : [], frameElement && traverseIframes ? getOverflowAncestors(frameElement) : []);
}
return list.concat(scrollableAncestor, getOverflowAncestors(scrollableAncestor, [], traverseIframes));
}
function getFrameElement(win) {
return win.parent && Object.getPrototypeOf(win.parent) ? win.frameElement : null;
}
// node_modules/@floating-ui/dom/dist/floating-ui.dom.mjs
function getCssDimensions(element) {
const css = getComputedStyle2(element);
let width = parseFloat(css.width) || 0;
let height = parseFloat(css.height) || 0;
const hasOffset = isHTMLElement(element);
const offsetWidth = hasOffset ? element.offsetWidth : width;
const offsetHeight = hasOffset ? element.offsetHeight : height;
const shouldFallback = round(width) !== offsetWidth || round(height) !== offsetHeight;
if (shouldFallback) {
width = offsetWidth;
height = offsetHeight;
}
return {
width,
height,
$: shouldFallback
};
}
function unwrapElement(element) {
return !isElement(element) ? element.contextElement : element;
}
function getScale(element) {
const domElement = unwrapElement(element);
if (!isHTMLElement(domElement)) {
return createCoords(1);
}
const rect = domElement.getBoundingClientRect();
const {
width,
height,
$
} = getCssDimensions(domElement);
let x = ($ ? round(rect.width) : rect.width) / width;
let y = ($ ? round(rect.height) : rect.height) / height;
if (!x || !Number.isFinite(x)) {
x = 1;
}
if (!y || !Number.isFinite(y)) {
y = 1;
}
return {
x,
y
};
}
var noOffsets = createCoords(0);
function getVisualOffsets(element) {
const win = getWindow(element);
if (!isWebKit() || !win.visualViewport) {
return noOffsets;
}
return {
x: win.visualViewport.offsetLeft,
y: win.visualViewport.offsetTop
};
}
function shouldAddVisualOffsets(element, isFixed, floatingOffsetParent) {
if (isFixed === void 0) {
isFixed = false;
}
if (!floatingOffsetParent || isFixed && floatingOffsetParent !== getWindow(element)) {
return false;
}
return isFixed;
}
function getBoundingClientRect(element, includeScale, isFixedStrategy, offsetParent) {
if (includeScale === void 0) {
includeScale = false;
}
if (isFixedStrategy === void 0) {
isFixedStrategy = false;
}
const clientRect = element.getBoundingClientRect();
const domElement = unwrapElement(element);
let scale = createCoords(1);
if (includeScale) {
if (offsetParent) {
if (isElement(offsetParent)) {
scale = getScale(offsetParent);
}
} else {
scale = getScale(element);
}
}
const visualOffsets = shouldAddVisualOffsets(domElement, isFixedStrategy, offsetParent) ? getVisualOffsets(domElement) : createCoords(0);
let x = (clientRect.left + visualOffsets.x) / scale.x;
let y = (clientRect.top + visualOffsets.y) / scale.y;
let width = clientRect.width / scale.x;
let height = clientRect.height / scale.y;
if (domElement) {
const win = getWindow(domElement);
const offsetWin = offsetParent && isElement(offsetParent) ? getWindow(offsetParent) : offsetParent;
let currentWin = win;
let currentIFrame = getFrameElement(currentWin);
while (currentIFrame && offsetParent && offsetWin !== currentWin) {
const iframeScale = getScale(currentIFrame);
const iframeRect = currentIFrame.getBoundingClientRect();
const css = getComputedStyle2(currentIFrame);
const left = iframeRect.left + (currentIFrame.clientLeft + parseFloat(css.paddingLeft)) * iframeScale.x;
const top = iframeRect.top + (currentIFrame.clientTop + parseFloat(css.paddingTop)) * iframeScale.y;
x *= iframeScale.x;
y *= iframeScale.y;
width *= iframeScale.x;
height *= iframeScale.y;
x += left;
y += top;
currentWin = getWindow(currentIFrame);
currentIFrame = getFrameElement(currentWin);
}
}
return rectToClientRect({
width,
height,
x,
y
});
}
function getWindowScrollBarX(element, rect) {
const leftScroll = getNodeScroll(element).scrollLeft;
if (!rect) {
return getBoundingClientRect(getDocumentElement(element)).left + leftScroll;
}
return rect.left + leftScroll;
}
function getHTMLOffset(documentElement, scroll) {
const htmlRect = documentElement.getBoundingClientRect();
const x = htmlRect.left + scroll.scrollLeft - getWindowScrollBarX(documentElement, htmlRect);
const y = htmlRect.top + scroll.scrollTop;
return {
x,
y
};
}
function convertOffsetParentRelativeRectToViewportRelativeRect(_ref) {
let {
elements,
rect,
offsetParent,
strategy
} = _ref;
const isFixed = strategy === "fixed";
const documentElement = getDocumentElement(offsetParent);
const topLayer = elements ? isTopLayer(elements.floating) : false;
if (offsetParent === documentElement || topLayer && isFixed) {
return rect;
}
let scroll = {
scrollLeft: 0,
scrollTop: 0
};
let scale = createCoords(1);
const offsets = createCoords(0);
const isOffsetParentAnElement = isHTMLElement(offsetParent);
if (isOffsetParentAnElement || !isOffsetParentAnElement && !isFixed) {
if (getNodeName(offsetParent) !== "body" || isOverflowElement(documentElement)) {
scroll = getNodeScroll(offsetParent);
}
if (isHTMLElement(offsetParent)) {
const offsetRect = getBoundingClientRect(offsetParent);
scale = getScale(offsetParent);
offsets.x = offsetRect.x + offsetParent.clientLeft;
offsets.y = offsetRect.y + offsetParent.clientTop;
}
}
const htmlOffset = documentElement && !isOffsetParentAnElement && !isFixed ? getHTMLOffset(documentElement, scroll) : createCoords(0);
return {
width: rect.width * scale.x,
height: rect.height * scale.y,
x: rect.x * scale.x - scroll.scrollLeft * scale.x + offsets.x + htmlOffset.x,
y: rect.y * scale.y - scroll.scrollTop * scale.y + offsets.y + htmlOffset.y
};
}
function getClientRects(element) {
return Array.from(element.getClientRects());
}
function getDocumentRect(element) {
const html = getDocumentElement(element);
const scroll = getNodeScroll(element);
const body = element.ownerDocument.body;
const width = max(html.scrollWidth, html.clientWidth, body.scrollWidth, body.clientWidth);
const height = max(html.scrollHeight, html.clientHeight, body.scrollHeight, body.clientHeight);
let x = -scroll.scrollLeft + getWindowScrollBarX(element);
const y = -scroll.scrollTop;
if (getComputedStyle2(body).direction === "rtl") {
x += max(html.clientWidth, body.clientWidth) - width;
}
return {
width,
height,
x,
y
};
}
var SCROLLBAR_MAX = 25;
function getViewportRect(element, strategy) {
const win = getWindow(element);
const html = getDocumentElement(element);
const visualViewport = win.visualViewport;
let width = html.clientWidth;
let height = html.clientHeight;
let x = 0;
let y = 0;
if (visualViewport) {
width = visualViewport.width;
height = visualViewport.height;
const visualViewportBased = isWebKit();
if (!visualViewportBased || visualViewportBased && strategy === "fixed") {
x = visualViewport.offsetLeft;
y = visualViewport.offsetTop;
}
}
const windowScrollbarX = getWindowScrollBarX(html);
if (windowScrollbarX <= 0) {
const doc = html.ownerDocument;
const body = doc.body;
const bodyStyles = getComputedStyle(body);
const bodyMarginInline = doc.compatMode === "CSS1Compat" ? parseFloat(bodyStyles.marginLeft) + parseFloat(bodyStyles.marginRight) || 0 : 0;
const clippingStableScrollbarWidth = Math.abs(html.clientWidth - body.clientWidth - bodyMarginInline);
if (clippingStableScrollbarWidth <= SCROLLBAR_MAX) {
width -= clippingStableScrollbarWidth;
}
} else if (windowScrollbarX <= SCROLLBAR_MAX) {
width += windowScrollbarX;
}
return {
width,
height,
x,
y
};
}
var absoluteOrFixed = /* @__PURE__ */ new Set(["absolute", "fixed"]);
function getInnerBoundingClientRect(element, strategy) {
const clientRect = getBoundingClientRect(element, true, strategy === "fixed");
const top = clientRect.top + element.clientTop;
const left = clientRect.left + element.clientLeft;
const scale = isHTMLElement(element) ? getScale(element) : createCoords(1);
const width = element.clientWidth * scale.x;
const height = element.clientHeight * scale.y;
const x = left * scale.x;
const y = top * scale.y;
return {
width,
height,
x,
y
};
}
function getClientRectFromClippingAncestor(element, clippingAncestor, strategy) {
let rect;
if (clippingAncestor === "viewport") {
rect = getViewportRect(element, strategy);
} else if (clippingAncestor === "document") {
rect = getDocumentRect(getDocumentElement(element));
} else if (isElement(clippingAncestor)) {
rect = getInnerBoundingClientRect(clippingAncestor, strategy);
} else {
const visualOffsets = getVisualOffsets(element);
rect = {
x: clippingAncestor.x - visualOffsets.x,
y: clippingAncestor.y - visualOffsets.y,
width: clippingAncestor.width,
height: clippingAncestor.height
};
}
return rectToClientRect(rect);
}
function hasFixedPositionAncestor(element, stopNode) {
const parentNode = getParentNode(element);
if (parentNode === stopNode || !isElement(parentNode) || isLastTraversableNode(parentNode)) {
return false;
}
return getComputedStyle2(parentNode).position === "fixed" || hasFixedPositionAncestor(parentNode, stopNode);
}
function getClippingElementAncestors(element, cache) {
const cachedResult = cache.get(element);
if (cachedResult) {
return cachedResult;
}
let result = getOverflowAncestors(element, [], false).filter((el) => isElement(el) && getNodeName(el) !== "body");
let currentContainingBlockComputedStyle = null;
const elementIsFixed = getComputedStyle2(element).position === "fixed";
let currentNode = elementIsFixed ? getParentNode(element) : element;
while (isElement(currentNode) && !isLastTraversableNode(currentNode)) {
const computedStyle = getComputedStyle2(currentNode);
const currentNodeIsContaining = isContainingBlock(currentNode);
if (!currentNodeIsContaining && computedStyle.position === "fixed") {
currentContainingBlockComputedStyle = null;
}
const shouldDropCurrentNode = elementIsFixed ? !currentNodeIsContaining && !currentContainingBlockComputedStyle : !currentNodeIsContaining && computedStyle.position === "static" && !!currentContainingBlockComputedStyle && absoluteOrFixed.has(currentContainingBlockComputedStyle.position) || isOverflowElement(currentNode) && !currentNodeIsContaining && hasFixedPositionAncestor(element, currentNode);
if (shouldDropCurrentNode) {
result = result.filter((ancestor) => ancestor !== currentNode);
} else {
currentContainingBlockComputedStyle = computedStyle;
}
currentNode = getParentNode(currentNode);
}
cache.set(element, result);
return result;
}
function getClippingRect(_ref) {
let {
element,
boundary,
rootBoundary,
strategy
} = _ref;
const elementClippingAncestors = boundary === "clippingAncestors" ? isTopLayer(element) ? [] : getClippingElementAncestors(element, this._c) : [].concat(boundary);
const clippingAncestors = [...elementClippingAncestors, rootBoundary];
const firstClippingAncestor = clippingAncestors[0];
const clippingRect = clippingAncestors.reduce((accRect, clippingAncestor) => {
const rect = getClientRectFromClippingAncestor(element, clippingAncestor, strategy);
accRect.top = max(rect.top, accRect.top);
accRect.right = min(rect.right, accRect.right);
accRect.bottom = min(rect.bottom, accRect.bottom);
accRect.left = max(rect.left, accRect.left);
return accRect;
}, getClientRectFromClippingAncestor(element, firstClippingAncestor, strategy));
return {
width: clippingRect.right - clippingRect.left,
height: clippingRect.bottom - clippingRect.top,
x: clippingRect.left,
y: clippingRect.top
};
}
function getDimensions(element) {
const {
width,
height
} = getCssDimensions(element);
return {
width,
height
};
}
function getRectRelativeToOffsetParent(element, offsetParent, strategy) {
const isOffsetParentAnElement = isHTMLElement(offsetParent);
const documentElement = getDocumentElement(offsetParent);
const isFixed = strategy === "fixed";
const rect = getBoundingClientRect(element, true, isFixed, offsetParent);
let scroll = {
scrollLeft: 0,
scrollTop: 0
};
const offsets = createCoords(0);
function setLeftRTLScrollbarOffset() {
offsets.x = getWindowScrollBarX(documentElement);
}
if (isOffsetParentAnElement || !isOffsetParentAnElement && !isFixed) {
if (getNodeName(offsetParent) !== "body" || isOverflowElement(documentElement)) {
scroll = getNodeScroll(offsetParent);
}
if (isOffsetParentAnElement) {
const offsetRect = getBoundingClientRect(offsetParent, true, isFixed, offsetParent);
offsets.x = offsetRect.x + offsetParent.clientLeft;
offsets.y = offsetRect.y + offsetParent.clientTop;
} else if (documentElement) {
setLeftRTLScrollbarOffset();
}
}
if (isFixed && !isOffsetParentAnElement && documentElement) {
setLeftRTLScrollbarOffset();
}
const htmlOffset = documentElement && !isOffsetParentAnElement && !isFixed ? getHTMLOffset(documentElement, scroll) : createCoords(0);
const x = rect.left + scroll.scrollLeft - offsets.x - htmlOffset.x;
const y = rect.top + scroll.scrollTop - offsets.y - htmlOffset.y;
return {
x,
y,
width: rect.width,
height: rect.height
};
}
function isStaticPositioned(element) {
return getComputedStyle2(element).position === "static";
}
function getTrueOffsetParent(element, polyfill) {
if (!isHTMLElement(element) || getComputedStyle2(element).position === "fixed") {
return null;
}
if (polyfill) {
return polyfill(element);
}
let rawOffsetParent = element.offsetParent;
if (getDocumentElement(element) === rawOffsetParent) {
rawOffsetParent = rawOffsetParent.ownerDocument.body;
}
return rawOffsetParent;
}
function getOffsetParent(element, polyfill) {
const win = getWindow(element);
if (isTopLayer(element)) {
return win;
}
if (!isHTMLElement(element)) {
let svgOffsetParent = getParentNode(element);
while (svgOffsetParent && !isLastTraversableNode(svgOffsetParent)) {
if (isElement(svgOffsetParent) && !isStaticPositioned(svgOffsetParent)) {
return svgOffsetParent;
}
svgOffsetParent = getParentNode(svgOffsetParent);
}
return win;
}
let offsetParent = getTrueOffsetParent(element, polyfill);
while (offsetParent && isTableElement(offsetParent) && isStaticPositioned(offsetParent)) {
offsetParent = getTrueOffsetParent(offsetParent, polyfill);
}
if (offsetParent && isLastTraversableNode(offsetParent) && isStaticPositioned(offsetParent) && !isContainingBlock(offsetParent)) {
return win;
}
return offsetParent || getContainingBlock(element) || win;
}
var getElementRects = async function(data) {
const getOffsetParentFn = this.getOffsetParent || getOffsetParent;
const getDimensionsFn = this.getDimensions;
const floatingDimensions = await getDimensionsFn(data.floating);
return {
reference: getRectRelativeToOffsetParent(data.reference, await getOffsetParentFn(data.floating), data.strategy),
floating: {
x: 0,
y: 0,
width: floatingDimensions.width,
height: floatingDimensions.height
}
};
};
function isRTL(element) {
return getComputedStyle2(element).direction === "rtl";
}
var platform = {
convertOffsetParentRelativeRectToViewportRelativeRect,
getDocumentElement,
getClippingRect,
getOffsetParent,
getElementRects,
getClientRects,
getDimensions,
getScale,
isElement,
isRTL
};
function rectsAreEqual(a, b) {
return a.x === b.x && a.y === b.y && a.width === b.width && a.height === b.height;
}
function observeMove(element, onMove) {
let io = null;
let timeoutId;
const root = getDocumentElement(element);
function cleanup() {
var _io;
clearTimeout(timeoutId);
(_io = io) == null || _io.disconnect();
io = null;
}
function refresh(skip, threshold) {
if (skip === void 0) {
skip = false;
}
if (threshold === void 0) {
threshold = 1;
}
cleanup();
const elementRectForRootMargin = element.getBoundingClientRect();
const {
left,
top,
width,
height
} = elementRectForRootMargin;
if (!skip) {
onMove();
}
if (!width || !height) {
return;
}
const insetTop = floor(top);
const insetRight = floor(root.clientWidth - (left + width));
const insetBottom = floor(root.clientHeight - (top + height));
const insetLeft = floor(left);
const rootMargin = -insetTop + "px " + -insetRight + "px " + -insetBottom + "px " + -insetLeft + "px";
const options = {
rootMargin,
threshold: max(0, min(1, threshold)) || 1
};
let isFirstUpdate = true;
function handleObserve(entries) {
const ratio = entries[0].intersectionRatio;
if (ratio !== threshold) {
if (!isFirstUpdate) {
return refresh();
}
if (!ratio) {
timeoutId = setTimeout(() => {
refresh(false, 1e-7);
}, 1e3);
} else {
refresh(false, ratio);
}
}
if (ratio === 1 && !rectsAreEqual(elementRectForRootMargin, element.getBoundingClientRect())) {
refresh();
}
isFirstUpdate = false;
}
try {
io = new IntersectionObserver(handleObserve, {
...options,
// Handle <iframe>s
root: root.ownerDocument
});
} catch (_e) {
io = new IntersectionObserver(handleObserve, options);
}
io.observe(element);
}
refresh(true);
return cleanup;
}
function autoUpdate(reference, floating, update, options) {
if (options === void 0) {
options = {};
}
const {
ancestorScroll = true,
ancestorResize = true,
elementResize = typeof ResizeObserver === "function",
layoutShift = typeof IntersectionObserver === "function",
animationFrame = false
} = options;
const referenceEl = unwrapElement(reference);
const ancestors = ancestorScroll || ancestorResize ? [...referenceEl ? getOverflowAncestors(referenceEl) : [], ...getOverflowAncestors(floating)] : [];
ancestors.forEach((ancestor) => {
ancestorScroll && ancestor.addEventListener("scroll", update, {
passive: true
});
ancestorResize && ancestor.addEventListener("resize", update);
});
const cleanupIo = referenceEl && layoutShift ? observeMove(referenceEl, update) : null;
let reobserveFrame = -1;
let resizeObserver = null;
if (elementResize) {
resizeObserver = new ResizeObserver((_ref) => {
let [firstEntry] = _ref;
if (firstEntry && firstEntry.target === referenceEl && resizeObserver) {
resizeObserver.unobserve(floating);
cancelAnimationFrame(reobserveFrame);
reobserveFrame = requestAnimationFrame(() => {
var _resizeObserver;
(_resizeObserver = resizeObserver) == null || _resizeObserver.observe(floating);
});
}
update();
});
if (referenceEl && !animationFrame) {
resizeObserver.observe(referenceEl);
}
resizeObserver.observe(floating);
}
let frameId;
let prevRefRect = animationFrame ? getBoundingClientRect(reference) : null;
if (animationFrame) {
frameLoop();
}
function frameLoop() {
const nextRefRect = getBoundingClientRect(reference);
if (prevRefRect && !rectsAreEqual(prevRefRect, nextRefRect)) {
update();
}
prevRefRect = nextRefRect;
frameId = requestAnimationFrame(frameLoop);
}
update();
return () => {
var _resizeObserver2;
ancestors.forEach((ancestor) => {
ancestorScroll && ancestor.removeEventListener("scroll", update);
ancestorResize && ancestor.removeEventListener("resize", update);
});
cleanupIo == null || cleanupIo();
(_resizeObserver2 = resizeObserver) == null || _resizeObserver2.disconnect();
resizeObserver = null;
if (animationFrame) {
cancelAnimationFrame(frameId);
}
};
}
var offset2 = offset;
var shift2 = shift;
var flip2 = flip;
var size2 = size;
var hide2 = hide;
var arrow2 = arrow;
var limitShift2 = limitShift;
var computePosition2 = (reference, floating, options) => {
const cache = /* @__PURE__ */ new Map();
const mergedOptions = {
platform,
...options
};
const platformWithCache = {
...mergedOptions.platform,
_c: cache
};
return computePosition(reference, floating, {
...mergedOptions,
platform: platformWithCache
});
};
// node_modules/@floating-ui/react-dom/dist/floating-ui.react-dom.mjs
var React10 = __toESM(require_react(), 1);
var import_react3 = __toESM(require_react(), 1);
var ReactDOM = __toESM(require_react_dom(), 1);
var isClient = typeof document !== "undefined";
var noop = function noop2() {
};
var index = isClient ? import_react3.useLayoutEffect : noop;
function deepEqual(a, b) {
if (a === b) {
return true;
}
if (typeof a !== typeof b) {
return false;
}
if (typeof a === "function" && a.toString() === b.toString()) {
return true;
}
let length;
let i;
let keys;
if (a && b && typeof a === "object") {
if (Array.isArray(a)) {
length = a.length;
if (length !== b.length) return false;
for (i = length; i-- !== 0; ) {
if (!deepEqual(a[i], b[i])) {
return false;
}
}
return true;
}
keys = Object.keys(a);
length = keys.length;
if (length !== Object.keys(b).length) {
return false;
}
for (i = length; i-- !== 0; ) {
if (!{}.hasOwnProperty.call(b, keys[i])) {
return false;
}
}
for (i = length; i-- !== 0; ) {
const key = keys[i];
if (key === "_owner" && a.$$typeof) {
continue;
}
if (!deepEqual(a[key], b[key])) {
return false;
}
}
return true;
}
return a !== a && b !== b;
}
function getDPR(element) {
if (typeof window === "undefined") {
return 1;
}
const win = element.ownerDocument.defaultView || window;
return win.devicePixelRatio || 1;
}
function roundByDPR(element, value) {
const dpr = getDPR(element);
return Math.round(value * dpr) / dpr;
}
function useLatestRef(value) {
const ref = React10.useRef(value);
index(() => {
ref.current = value;
});
return ref;
}
function useFloating(options) {
if (options === void 0) {
options = {};
}
const {
placement = "bottom",
strategy = "absolute",
middleware = [],
platform: platform2,
elements: {
reference: externalReference,
floating: externalFloating
} = {},
transform = true,
whileElementsMounted,
open
} = options;
const [data, setData] = React10.useState({
x: 0,
y: 0,
strategy,
placement,
middlewareData: {},
isPositioned: false
});
const [latestMiddleware, setLatestMiddleware] = React10.useState(middleware);
if (!deepEqual(latestMiddleware, middleware)) {
setLatestMiddleware(middleware);
}
const [_reference, _setReference] = React10.useState(null);
const [_floating, _setFloating] = React10.useState(null);
const setReference = React10.useCallback((node) => {
if (node !== referenceRef.current) {
referenceRef.current = node;
_setReference(node);
}
}, []);
const setFloating = React10.useCallback((node) => {
if (node !== floatingRef.current) {
floatingRef.current = node;
_setFloating(node);
}
}, []);
const referenceEl = externalReference || _reference;
const floatingEl = externalFloating || _floating;
const referenceRef = React10.useRef(null);
const floatingRef = React10.useRef(null);
const dataRef = React10.useRef(data);
const hasWhileElementsMounted = whileElementsMounted != null;
const whileElementsMountedRef = useLatestRef(whileElementsMounted);
const platformRef = useLatestRef(platform2);
const openRef = useLatestRef(open);
const update = React10.useCallback(() => {
if (!referenceRef.current || !floatingRef.current) {
return;
}
const config = {
placement,
strategy,
middleware: latestMiddleware
};
if (platformRef.current) {
config.platform = platformRef.current;
}
computePosition2(referenceRef.current, floatingRef.current, config).then((data2) => {
const fullData = {
...data2,
// The floating element's position may be recomputed while it's closed
// but still mounted (such as when transitioning out). To ensure
// `isPositioned` will be `false` initially on the next open, avoid
// setting it to `true` when `open === false` (must be specified).
isPositioned: openRef.current !== false
};
if (isMountedRef.current && !deepEqual(dataRef.current, fullData)) {
dataRef.current = fullData;
ReactDOM.flushSync(() => {
setData(fullData);
});
}
});
}, [latestMiddleware, placement, strategy, platformRef, openRef]);
index(() => {
if (open === false && dataRef.current.isPositioned) {
dataRef.current.isPositioned = false;
setData((data2) => ({
...data2,
isPositioned: false
}));
}
}, [open]);
const isMountedRef = React10.useRef(false);
index(() => {
isMountedRef.current = true;
return () => {
isMountedRef.current = false;
};
}, []);
index(() => {
if (referenceEl) referenceRef.current = referenceEl;
if (floatingEl) floatingRef.current = floatingEl;
if (referenceEl && floatingEl) {
if (whileElementsMountedRef.current) {
return whileElementsMountedRef.current(referenceEl, floatingEl, update);
}
update();
}
}, [referenceEl, floatingEl, update, whileElementsMountedRef, hasWhileElementsMounted]);
const refs = React10.useMemo(() => ({
reference: referenceRef,
floating: floatingRef,
setReference,
setFloating
}), [setReference, setFloating]);
const elements = React10.useMemo(() => ({
reference: referenceEl,
floating: floatingEl
}), [referenceEl, floatingEl]);
const floatingStyles = React10.useMemo(() => {
const initialStyles = {
position: strategy,
left: 0,
top: 0
};
if (!elements.floating) {
return initialStyles;
}
const x = roundByDPR(elements.floating, data.x);
const y = roundByDPR(elements.floating, data.y);
if (transform) {
return {
...initialStyles,
transform: "translate(" + x + "px, " + y + "px)",
...getDPR(elements.floating) >= 1.5 && {
willChange: "transform"
}
};
}
return {
position: strategy,
left: x,
top: y
};
}, [strategy, transform, elements.floating, data.x, data.y]);
return React10.useMemo(() => ({
...data,
update,
refs,
elements,
floatingStyles
}), [data, update, refs, elements, floatingStyles]);
}
var arrow$1 = (options) => {
function isRef(value) {
return {}.hasOwnProperty.call(value, "current");
}
return {
name: "arrow",
options,
fn(state) {
const {
element,
padding
} = typeof options === "function" ? options(state) : options;
if (element && isRef(element)) {
if (element.current != null) {
return arrow2({
element: element.current,
padding
}).fn(state);
}
return {};
}
if (element) {
return arrow2({
element,
padding
}).fn(state);
}
return {};
}
};
};
var offset3 = (options, deps) => ({
...offset2(options),
options: [options, deps]
});
var shift3 = (options, deps) => ({
...shift2(options),
options: [options, deps]
});
var limitShift3 = (options, deps) => ({
...limitShift2(options),
options: [options, deps]
});
var flip3 = (options, deps) => ({
...flip2(options),
options: [options, deps]
});
var size3 = (options, deps) => ({
...size2(options),
options: [options, deps]
});
var hide3 = (options, deps) => ({
...hide2(options),
options: [options, deps]
});
var arrow3 = (options, deps) => ({
...arrow$1(options),
options: [options, deps]
});
// node_modules/@radix-ui/react-arrow/dist/index.mjs
var React11 = __toESM(require_react(), 1);
var import_jsx_runtime6 = __toESM(require_jsx_runtime(), 1);
var NAME = "Arrow";
var Arrow = React11.forwardRef((props, forwardedRef) => {
const { children, width = 10, height = 5, ...arrowProps } = props;
return (0, import_jsx_runtime6.jsx)(
Primitive.svg,
{
...arrowProps,
ref: forwardedRef,
width,
height,
viewBox: "0 0 30 10",
preserveAspectRatio: "none",
children: props.asChild ? children : (0, import_jsx_runtime6.jsx)("polygon", { points: "0,0 30,0 15,10" })
}
);
});
Arrow.displayName = NAME;
var Root = Arrow;
// node_modules/@radix-ui/react-use-size/dist/index.mjs
var React12 = __toESM(require_react(), 1);
function useSize(element) {
const [size4, setSize] = React12.useState(void 0);
useLayoutEffect2(() => {
if (element) {
setSize({ width: element.offsetWidth, height: element.offsetHeight });
const resizeObserver = new ResizeObserver((entries) => {
if (!Array.isArray(entries)) {
return;
}
if (!entries.length) {
return;
}
const entry = entries[0];
let width;
let height;
if ("borderBoxSize" in entry) {
const borderSizeEntry = entry["borderBoxSize"];
const borderSize = Array.isArray(borderSizeEntry) ? borderSizeEntry[0] : borderSizeEntry;
width = borderSize["inlineSize"];
height = borderSize["blockSize"];
} else {
width = element.offsetWidth;
height = element.offsetHeight;
}
setSize({ width, height });
});
resizeObserver.observe(element, { box: "border-box" });
return () => resizeObserver.unobserve(element);
} else {
setSize(void 0);
}
}, [element]);
return size4;
}
// node_modules/@radix-ui/react-popper/dist/index.mjs
var import_jsx_runtime7 = __toESM(require_jsx_runtime(), 1);
var POPPER_NAME = "Popper";
var [createPopperContext, createPopperScope] = createContextScope(POPPER_NAME);
var [PopperProvider, usePopperContext] = createPopperContext(POPPER_NAME);
var Popper = (props) => {
const { __scopePopper, children } = props;
const [anchor, setAnchor] = React13.useState(null);
return (0, import_jsx_runtime7.jsx)(PopperProvider, { scope: __scopePopper, anchor, onAnchorChange: setAnchor, children });
};
Popper.displayName = POPPER_NAME;
var ANCHOR_NAME = "PopperAnchor";
var PopperAnchor = React13.forwardRef(
(props, forwardedRef) => {
const { __scopePopper, virtualRef, ...anchorProps } = props;
const context = usePopperContext(ANCHOR_NAME, __scopePopper);
const ref = React13.useRef(null);
const composedRefs = useComposedRefs(forwardedRef, ref);
const anchorRef = React13.useRef(null);
React13.useEffect(() => {
const previousAnchor = anchorRef.current;
anchorRef.current = virtualRef?.current || ref.current;
if (previousAnchor !== anchorRef.current) {
context.onAnchorChange(anchorRef.current);
}
});
return virtualRef ? null : (0, import_jsx_runtime7.jsx)(Primitive.div, { ...anchorProps, ref: composedRefs });
}
);
PopperAnchor.displayName = ANCHOR_NAME;
var CONTENT_NAME = "PopperContent";
var [PopperContentProvider, useContentContext] = createPopperContext(CONTENT_NAME);
var PopperContent = React13.forwardRef(
(props, forwardedRef) => {
const {
__scopePopper,
side = "bottom",
sideOffset = 0,
align = "center",
alignOffset = 0,
arrowPadding = 0,
avoidCollisions = true,
collisionBoundary = [],
collisionPadding: collisionPaddingProp = 0,
sticky = "partial",
hideWhenDetached = false,
updatePositionStrategy = "optimized",
onPlaced,
...contentProps
} = props;
const context = usePopperContext(CONTENT_NAME, __scopePopper);
const [content, setContent] = React13.useState(null);
const composedRefs = useComposedRefs(forwardedRef, (node) => setContent(node));
const [arrow4, setArrow] = React13.useState(null);
const arrowSize = useSize(arrow4);
const arrowWidth = arrowSize?.width ?? 0;
const arrowHeight = arrowSize?.height ?? 0;
const desiredPlacement = side + (align !== "center" ? "-" + align : "");
const collisionPadding = typeof collisionPaddingProp === "number" ? collisionPaddingProp : { top: 0, right: 0, bottom: 0, left: 0, ...collisionPaddingProp };
const boundary = Array.isArray(collisionBoundary) ? collisionBoundary : [collisionBoundary];
const hasExplicitBoundaries = boundary.length > 0;
const detectOverflowOptions = {
padding: collisionPadding,
boundary: boundary.filter(isNotNull),
// with `strategy: 'fixed'`, this is the only way to get it to respect boundaries
altBoundary: hasExplicitBoundaries
};
const { refs, floatingStyles, placement, isPositioned, middlewareData } = useFloating({
// default to `fixed` strategy so users don't have to pick and we also avoid focus scroll issues
strategy: "fixed",
placement: desiredPlacement,
whileElementsMounted: (...args) => {
const cleanup = autoUpdate(...args, {
animationFrame: updatePositionStrategy === "always"
});
return cleanup;
},
elements: {
reference: context.anchor
},
middleware: [
offset3({ mainAxis: sideOffset + arrowHeight, alignmentAxis: alignOffset }),
avoidCollisions && shift3({
mainAxis: true,
crossAxis: false,
limiter: sticky === "partial" ? limitShift3() : void 0,
...detectOverflowOptions
}),
avoidCollisions && flip3({ ...detectOverflowOptions }),
size3({
...detectOverflowOptions,
apply: ({ elements, rects, availableWidth, availableHeight }) => {
const { width: anchorWidth, height: anchorHeight } = rects.reference;
const contentStyle = elements.floating.style;
contentStyle.setProperty("--radix-popper-available-width", `${availableWidth}px`);
contentStyle.setProperty("--radix-popper-available-height", `${availableHeight}px`);
contentStyle.setProperty("--radix-popper-anchor-width", `${anchorWidth}px`);
contentStyle.setProperty("--radix-popper-anchor-height", `${anchorHeight}px`);
}
}),
arrow4 && arrow3({ element: arrow4, padding: arrowPadding }),
transformOrigin({ arrowWidth, arrowHeight }),
hideWhenDetached && hide3({ strategy: "referenceHidden", ...detectOverflowOptions })
]
});
const [placedSide, placedAlign] = getSideAndAlignFromPlacement(placement);
const handlePlaced = useCallbackRef(onPlaced);
useLayoutEffect2(() => {
if (isPositioned) {
handlePlaced?.();
}
}, [isPositioned, handlePlaced]);
const arrowX = middlewareData.arrow?.x;
const arrowY = middlewareData.arrow?.y;
const cannotCenterArrow = middlewareData.arrow?.centerOffset !== 0;
const [contentZIndex, setContentZIndex] = React13.useState();
useLayoutEffect2(() => {
if (content) setContentZIndex(window.getComputedStyle(content).zIndex);
}, [content]);
return (0, import_jsx_runtime7.jsx)(
"div",
{
ref: refs.setFloating,
"data-radix-popper-content-wrapper": "",
style: {
...floatingStyles,
transform: isPositioned ? floatingStyles.transform : "translate(0, -200%)",
// keep off the page when measuring
minWidth: "max-content",
zIndex: contentZIndex,
["--radix-popper-transform-origin"]: [
middlewareData.transformOrigin?.x,
middlewareData.transformOrigin?.y
].join(" "),
// hide the content if using the hide middleware and should be hidden
// set visibility to hidden and disable pointer events so the UI behaves
// as if the PopperContent isn't there at all
...middlewareData.hide?.referenceHidden && {
visibility: "hidden",
pointerEvents: "none"
}
},
dir: props.dir,
children: (0, import_jsx_runtime7.jsx)(
PopperContentProvider,
{
scope: __scopePopper,
placedSide,
onArrowChange: setArrow,
arrowX,
arrowY,
shouldHideArrow: cannotCenterArrow,
children: (0, import_jsx_runtime7.jsx)(
Primitive.div,
{
"data-side": placedSide,
"data-align": placedAlign,
...contentProps,
ref: composedRefs,
style: {
...contentProps.style,
// if the PopperContent hasn't been placed yet (not all measurements done)
// we prevent animations so that users's animation don't kick in too early referring wrong sides
animation: !isPositioned ? "none" : void 0
}
}
)
}
)
}
);
}
);
PopperContent.displayName = CONTENT_NAME;
var ARROW_NAME = "PopperArrow";
var OPPOSITE_SIDE = {
top: "bottom",
right: "left",
bottom: "top",
left: "right"
};
var PopperArrow = React13.forwardRef(function PopperArrow2(props, forwardedRef) {
const { __scopePopper, ...arrowProps } = props;
const contentContext = useContentContext(ARROW_NAME, __scopePopper);
const baseSide = OPPOSITE_SIDE[contentContext.placedSide];
return (
// we have to use an extra wrapper because `ResizeObserver` (used by `useSize`)
// doesn't report size as we'd expect on SVG elements.
// it reports their bounding box which is effectively the largest path inside the SVG.
(0, import_jsx_runtime7.jsx)(
"span",
{
ref: contentContext.onArrowChange,
style: {
position: "absolute",
left: contentContext.arrowX,
top: contentContext.arrowY,
[baseSide]: 0,
transformOrigin: {
top: "",
right: "0 0",
bottom: "center 0",
left: "100% 0"
}[contentContext.placedSide],
transform: {
top: "translateY(100%)",
right: "translateY(50%) rotate(90deg) translateX(-50%)",
bottom: `rotate(180deg)`,
left: "translateY(50%) rotate(-90deg) translateX(50%)"
}[contentContext.placedSide],
visibility: contentContext.shouldHideArrow ? "hidden" : void 0
},
children: (0, import_jsx_runtime7.jsx)(
Root,
{
...arrowProps,
ref: forwardedRef,
style: {
...arrowProps.style,
// ensures the element can be measured correctly (mostly for if SVG)
display: "block"
}
}
)
}
)
);
});
PopperArrow.displayName = ARROW_NAME;
function isNotNull(value) {
return value !== null;
}
var transformOrigin = (options) => ({
name: "transformOrigin",
options,
fn(data) {
const { placement, rects, middlewareData } = data;
const cannotCenterArrow = middlewareData.arrow?.centerOffset !== 0;
const isArrowHidden = cannotCenterArrow;
const arrowWidth = isArrowHidden ? 0 : options.arrowWidth;
const arrowHeight = isArrowHidden ? 0 : options.arrowHeight;
const [placedSide, placedAlign] = getSideAndAlignFromPlacement(placement);
const noArrowAlign = { start: "0%", center: "50%", end: "100%" }[placedAlign];
const arrowXCenter = (middlewareData.arrow?.x ?? 0) + arrowWidth / 2;
const arrowYCenter = (middlewareData.arrow?.y ?? 0) + arrowHeight / 2;
let x = "";
let y = "";
if (placedSide === "bottom") {
x = isArrowHidden ? noArrowAlign : `${arrowXCenter}px`;
y = `${-arrowHeight}px`;
} else if (placedSide === "top") {
x = isArrowHidden ? noArrowAlign : `${arrowXCenter}px`;
y = `${rects.floating.height + arrowHeight}px`;
} else if (placedSide === "right") {
x = `${-arrowHeight}px`;
y = isArrowHidden ? noArrowAlign : `${arrowYCenter}px`;
} else if (placedSide === "left") {
x = `${rects.floating.width + arrowHeight}px`;
y = isArrowHidden ? noArrowAlign : `${arrowYCenter}px`;
}
return { data: { x, y } };
}
});
function getSideAndAlignFromPlacement(placement) {
const [side, align = "center"] = placement.split("-");
return [side, align];
}
var Root2 = Popper;
var Anchor = PopperAnchor;
var Content = PopperContent;
var Arrow2 = PopperArrow;
// node_modules/@radix-ui/react-portal/dist/index.mjs
var React14 = __toESM(require_react(), 1);
var import_react_dom2 = __toESM(require_react_dom(), 1);
var import_jsx_runtime8 = __toESM(require_jsx_runtime(), 1);
var PORTAL_NAME = "Portal";
var Portal = React14.forwardRef((props, forwardedRef) => {
const { container: containerProp, ...portalProps } = props;
const [mounted, setMounted] = React14.useState(false);
useLayoutEffect2(() => setMounted(true), []);
const container = containerProp || mounted && globalThis?.document?.body;
return container ? import_react_dom2.default.createPortal((0, import_jsx_runtime8.jsx)(Primitive.div, { ...portalProps, ref: forwardedRef }), container) : null;
});
Portal.displayName = PORTAL_NAME;
// node_modules/aria-hidden/dist/es2015/index.js
var getDefaultParent = function(originalTarget) {
if (typeof document === "undefined") {
return null;
}
var sampleTarget = Array.isArray(originalTarget) ? originalTarget[0] : originalTarget;
return sampleTarget.ownerDocument.body;
};
var counterMap = /* @__PURE__ */ new WeakMap();
var uncontrolledNodes = /* @__PURE__ */ new WeakMap();
var markerMap = {};
var lockCount = 0;
var unwrapHost = function(node) {
return node && (node.host || unwrapHost(node.parentNode));
};
var correctTargets = function(parent, targets) {
return targets.map(function(target) {
if (parent.contains(target)) {
return target;
}
var correctedTarget = unwrapHost(target);
if (correctedTarget && parent.contains(correctedTarget)) {
return correctedTarget;
}
console.error("aria-hidden", target, "in not contained inside", parent, ". Doing nothing");
return null;
}).filter(function(x) {
return Boolean(x);
});
};
var applyAttributeToOthers = function(originalTarget, parentNode, markerName, controlAttribute) {
var targets = correctTargets(parentNode, Array.isArray(originalTarget) ? originalTarget : [originalTarget]);
if (!markerMap[markerName]) {
markerMap[markerName] = /* @__PURE__ */ new WeakMap();
}
var markerCounter = markerMap[markerName];
var hiddenNodes = [];
var elementsToKeep = /* @__PURE__ */ new Set();
var elementsToStop = new Set(targets);
var keep = function(el) {
if (!el || elementsToKeep.has(el)) {
return;
}
elementsToKeep.add(el);
keep(el.parentNode);
};
targets.forEach(keep);
var deep = function(parent) {
if (!parent || elementsToStop.has(parent)) {
return;
}
Array.prototype.forEach.call(parent.children, function(node) {
if (elementsToKeep.has(node)) {
deep(node);
} else {
try {
var attr = node.getAttribute(controlAttribute);
var alreadyHidden = attr !== null && attr !== "false";
var counterValue = (counterMap.get(node) || 0) + 1;
var markerValue = (markerCounter.get(node) || 0) + 1;
counterMap.set(node, counterValue);
markerCounter.set(node, markerValue);
hiddenNodes.push(node);
if (counterValue === 1 && alreadyHidden) {
uncontrolledNodes.set(node, true);
}
if (markerValue === 1) {
node.setAttribute(markerName, "true");
}
if (!alreadyHidden) {
node.setAttribute(controlAttribute, "true");
}
} catch (e) {
console.error("aria-hidden: cannot operate on ", node, e);
}
}
});
};
deep(parentNode);
elementsToKeep.clear();
lockCount++;
return function() {
hiddenNodes.forEach(function(node) {
var counterValue = counterMap.get(node) - 1;
var markerValue = markerCounter.get(node) - 1;
counterMap.set(node, counterValue);
markerCounter.set(node, markerValue);
if (!counterValue) {
if (!uncontrolledNodes.has(node)) {
node.removeAttribute(controlAttribute);
}
uncontrolledNodes.delete(node);
}
if (!markerValue) {
node.removeAttribute(markerName);
}
});
lockCount--;
if (!lockCount) {
counterMap = /* @__PURE__ */ new WeakMap();
counterMap = /* @__PURE__ */ new WeakMap();
uncontrolledNodes = /* @__PURE__ */ new WeakMap();
markerMap = {};
}
};
};
var hideOthers = function(originalTarget, parentNode, markerName) {
if (markerName === void 0) {
markerName = "data-aria-hidden";
}
var targets = Array.from(Array.isArray(originalTarget) ? originalTarget : [originalTarget]);
var activeParentNode = parentNode || getDefaultParent(originalTarget);
if (!activeParentNode) {
return function() {
return null;
};
}
targets.push.apply(targets, Array.from(activeParentNode.querySelectorAll("[aria-live], script")));
return applyAttributeToOthers(targets, activeParentNode, markerName, "aria-hidden");
};
// node_modules/tslib/tslib.es6.mjs
var __assign = function() {
__assign = Object.assign || function __assign2(t) {
for (var s, i = 1, n = arguments.length; i < n; i++) {
s = arguments[i];
for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p];
}
return t;
};
return __assign.apply(this, arguments);
};
function __rest(s, e) {
var t = {};
for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p) && e.indexOf(p) < 0)
t[p] = s[p];
if (s != null && typeof Object.getOwnPropertySymbols === "function")
for (var i = 0, p = Object.getOwnPropertySymbols(s); i < p.length; i++) {
if (e.indexOf(p[i]) < 0 && Object.prototype.propertyIsEnumerable.call(s, p[i]))
t[p[i]] = s[p[i]];
}
return t;
}
function __spreadArray(to, from, pack) {
if (pack || arguments.length === 2) for (var i = 0, l = from.length, ar; i < l; i++) {
if (ar || !(i in from)) {
if (!ar) ar = Array.prototype.slice.call(from, 0, i);
ar[i] = from[i];
}
}
return to.concat(ar || Array.prototype.slice.call(from));
}
// node_modules/react-remove-scroll/dist/es2015/Combination.js
var React25 = __toESM(require_react());
// node_modules/react-remove-scroll/dist/es2015/UI.js
var React19 = __toESM(require_react());
// node_modules/react-remove-scroll-bar/dist/es2015/constants.js
var zeroRightClassName = "right-scroll-bar-position";
var fullWidthClassName = "width-before-scroll-bar";
var noScrollbarsClassName = "with-scroll-bars-hidden";
var removedBarSizeVariable = "--removed-body-scroll-bar-size";
// node_modules/use-callback-ref/dist/es2015/assignRef.js
function assignRef(ref, value) {
if (typeof ref === "function") {
ref(value);
} else if (ref) {
ref.current = value;
}
return ref;
}
// node_modules/use-callback-ref/dist/es2015/useRef.js
var import_react4 = __toESM(require_react());
function useCallbackRef2(initialValue, callback) {
var ref = (0, import_react4.useState)(function() {
return {
// value
value: initialValue,
// last callback
callback,
// "memoized" public interface
facade: {
get current() {
return ref.value;
},
set current(value) {
var last = ref.value;
if (last !== value) {
ref.value = value;
ref.callback(value, last);
}
}
}
};
})[0];
ref.callback = callback;
return ref.facade;
}
// node_modules/use-callback-ref/dist/es2015/useMergeRef.js
var React15 = __toESM(require_react());
var useIsomorphicLayoutEffect = typeof window !== "undefined" ? React15.useLayoutEffect : React15.useEffect;
var currentValues = /* @__PURE__ */ new WeakMap();
function useMergeRefs(refs, defaultValue) {
var callbackRef = useCallbackRef2(defaultValue || null, function(newValue) {
return refs.forEach(function(ref) {
return assignRef(ref, newValue);
});
});
useIsomorphicLayoutEffect(function() {
var oldValue = currentValues.get(callbackRef);
if (oldValue) {
var prevRefs_1 = new Set(oldValue);
var nextRefs_1 = new Set(refs);
var current_1 = callbackRef.current;
prevRefs_1.forEach(function(ref) {
if (!nextRefs_1.has(ref)) {
assignRef(ref, null);
}
});
nextRefs_1.forEach(function(ref) {
if (!prevRefs_1.has(ref)) {
assignRef(ref, current_1);
}
});
}
currentValues.set(callbackRef, refs);
}, [refs]);
return callbackRef;
}
// node_modules/use-sidecar/dist/es2015/hoc.js
var React16 = __toESM(require_react());
// node_modules/use-sidecar/dist/es2015/hook.js
var import_react5 = __toESM(require_react());
// node_modules/use-sidecar/dist/es2015/medium.js
function ItoI(a) {
return a;
}
function innerCreateMedium(defaults, middleware) {
if (middleware === void 0) {
middleware = ItoI;
}
var buffer = [];
var assigned = false;
var medium = {
read: function() {
if (assigned) {
throw new Error("Sidecar: could not `read` from an `assigned` medium. `read` could be used only with `useMedium`.");
}
if (buffer.length) {
return buffer[buffer.length - 1];
}
return defaults;
},
useMedium: function(data) {
var item = middleware(data, assigned);
buffer.push(item);
return function() {
buffer = buffer.filter(function(x) {
return x !== item;
});
};
},
assignSyncMedium: function(cb) {
assigned = true;
while (buffer.length) {
var cbs = buffer;
buffer = [];
cbs.forEach(cb);
}
buffer = {
push: function(x) {
return cb(x);
},
filter: function() {
return buffer;
}
};
},
assignMedium: function(cb) {
assigned = true;
var pendingQueue = [];
if (buffer.length) {
var cbs = buffer;
buffer = [];
cbs.forEach(cb);
pendingQueue = buffer;
}
var executeQueue = function() {
var cbs2 = pendingQueue;
pendingQueue = [];
cbs2.forEach(cb);
};
var cycle = function() {
return Promise.resolve().then(executeQueue);
};
cycle();
buffer = {
push: function(x) {
pendingQueue.push(x);
cycle();
},
filter: function(filter) {
pendingQueue = pendingQueue.filter(filter);
return buffer;
}
};
}
};
return medium;
}
function createSidecarMedium(options) {
if (options === void 0) {
options = {};
}
var medium = innerCreateMedium(null);
medium.options = __assign({ async: true, ssr: false }, options);
return medium;
}
// node_modules/use-sidecar/dist/es2015/renderProp.js
var React17 = __toESM(require_react());
var import_react6 = __toESM(require_react());
// node_modules/use-sidecar/dist/es2015/exports.js
var React18 = __toESM(require_react());
var SideCar = function(_a) {
var sideCar = _a.sideCar, rest = __rest(_a, ["sideCar"]);
if (!sideCar) {
throw new Error("Sidecar: please provide `sideCar` property to import the right car");
}
var Target = sideCar.read();
if (!Target) {
throw new Error("Sidecar medium not found");
}
return React18.createElement(Target, __assign({}, rest));
};
SideCar.isSideCarExport = true;
function exportSidecar(medium, exported) {
medium.useMedium(exported);
return SideCar;
}
// node_modules/react-remove-scroll/dist/es2015/medium.js
var effectCar = createSidecarMedium();
// node_modules/react-remove-scroll/dist/es2015/UI.js
var nothing = function() {
return;
};
var RemoveScroll = React19.forwardRef(function(props, parentRef) {
var ref = React19.useRef(null);
var _a = React19.useState({
onScrollCapture: nothing,
onWheelCapture: nothing,
onTouchMoveCapture: nothing
}), callbacks = _a[0], setCallbacks = _a[1];
var forwardProps = props.forwardProps, children = props.children, className = props.className, removeScrollBar = props.removeScrollBar, enabled = props.enabled, shards = props.shards, sideCar = props.sideCar, noRelative = props.noRelative, noIsolation = props.noIsolation, inert = props.inert, allowPinchZoom = props.allowPinchZoom, _b = props.as, Container = _b === void 0 ? "div" : _b, gapMode = props.gapMode, rest = __rest(props, ["forwardProps", "children", "className", "removeScrollBar", "enabled", "shards", "sideCar", "noRelative", "noIsolation", "inert", "allowPinchZoom", "as", "gapMode"]);
var SideCar2 = sideCar;
var containerRef = useMergeRefs([ref, parentRef]);
var containerProps = __assign(__assign({}, rest), callbacks);
return React19.createElement(
React19.Fragment,
null,
enabled && React19.createElement(SideCar2, { sideCar: effectCar, removeScrollBar, shards, noRelative, noIsolation, inert, setCallbacks, allowPinchZoom: !!allowPinchZoom, lockRef: ref, gapMode }),
forwardProps ? React19.cloneElement(React19.Children.only(children), __assign(__assign({}, containerProps), { ref: containerRef })) : React19.createElement(Container, __assign({}, containerProps, { className, ref: containerRef }), children)
);
});
RemoveScroll.defaultProps = {
enabled: true,
removeScrollBar: true,
inert: false
};
RemoveScroll.classNames = {
fullWidth: fullWidthClassName,
zeroRight: zeroRightClassName
};
// node_modules/react-remove-scroll/dist/es2015/SideEffect.js
var React24 = __toESM(require_react());
// node_modules/react-remove-scroll-bar/dist/es2015/component.js
var React21 = __toESM(require_react());
// node_modules/react-style-singleton/dist/es2015/hook.js
var React20 = __toESM(require_react());
// node_modules/get-nonce/dist/es2015/index.js
var currentNonce;
var getNonce = function() {
if (currentNonce) {
return currentNonce;
}
if (typeof __webpack_nonce__ !== "undefined") {
return __webpack_nonce__;
}
return void 0;
};
// node_modules/react-style-singleton/dist/es2015/singleton.js
function makeStyleTag() {
if (!document)
return null;
var tag = document.createElement("style");
tag.type = "text/css";
var nonce = getNonce();
if (nonce) {
tag.setAttribute("nonce", nonce);
}
return tag;
}
function injectStyles(tag, css) {
if (tag.styleSheet) {
tag.styleSheet.cssText = css;
} else {
tag.appendChild(document.createTextNode(css));
}
}
function insertStyleTag(tag) {
var head = document.head || document.getElementsByTagName("head")[0];
head.appendChild(tag);
}
var stylesheetSingleton = function() {
var counter = 0;
var stylesheet = null;
return {
add: function(style) {
if (counter == 0) {
if (stylesheet = makeStyleTag()) {
injectStyles(stylesheet, style);
insertStyleTag(stylesheet);
}
}
counter++;
},
remove: function() {
counter--;
if (!counter && stylesheet) {
stylesheet.parentNode && stylesheet.parentNode.removeChild(stylesheet);
stylesheet = null;
}
}
};
};
// node_modules/react-style-singleton/dist/es2015/hook.js
var styleHookSingleton = function() {
var sheet = stylesheetSingleton();
return function(styles, isDynamic) {
React20.useEffect(function() {
sheet.add(styles);
return function() {
sheet.remove();
};
}, [styles && isDynamic]);
};
};
// node_modules/react-style-singleton/dist/es2015/component.js
var styleSingleton = function() {
var useStyle = styleHookSingleton();
var Sheet = function(_a) {
var styles = _a.styles, dynamic = _a.dynamic;
useStyle(styles, dynamic);
return null;
};
return Sheet;
};
// node_modules/react-remove-scroll-bar/dist/es2015/utils.js
var zeroGap = {
left: 0,
top: 0,
right: 0,
gap: 0
};
var parse = function(x) {
return parseInt(x || "", 10) || 0;
};
var getOffset = function(gapMode) {
var cs = window.getComputedStyle(document.body);
var left = cs[gapMode === "padding" ? "paddingLeft" : "marginLeft"];
var top = cs[gapMode === "padding" ? "paddingTop" : "marginTop"];
var right = cs[gapMode === "padding" ? "paddingRight" : "marginRight"];
return [parse(left), parse(top), parse(right)];
};
var getGapWidth = function(gapMode) {
if (gapMode === void 0) {
gapMode = "margin";
}
if (typeof window === "undefined") {
return zeroGap;
}
var offsets = getOffset(gapMode);
var documentWidth = document.documentElement.clientWidth;
var windowWidth = window.innerWidth;
return {
left: offsets[0],
top: offsets[1],
right: offsets[2],
gap: Math.max(0, windowWidth - documentWidth + offsets[2] - offsets[0])
};
};
// node_modules/react-remove-scroll-bar/dist/es2015/component.js
var Style = styleSingleton();
var lockAttribute = "data-scroll-locked";
var getStyles = function(_a, allowRelative, gapMode, important) {
var left = _a.left, top = _a.top, right = _a.right, gap = _a.gap;
if (gapMode === void 0) {
gapMode = "margin";
}
return "\n .".concat(noScrollbarsClassName, " {\n overflow: hidden ").concat(important, ";\n padding-right: ").concat(gap, "px ").concat(important, ";\n }\n body[").concat(lockAttribute, "] {\n overflow: hidden ").concat(important, ";\n overscroll-behavior: contain;\n ").concat([
allowRelative && "position: relative ".concat(important, ";"),
gapMode === "margin" && "\n padding-left: ".concat(left, "px;\n padding-top: ").concat(top, "px;\n padding-right: ").concat(right, "px;\n margin-left:0;\n margin-top:0;\n margin-right: ").concat(gap, "px ").concat(important, ";\n "),
gapMode === "padding" && "padding-right: ".concat(gap, "px ").concat(important, ";")
].filter(Boolean).join(""), "\n }\n \n .").concat(zeroRightClassName, " {\n right: ").concat(gap, "px ").concat(important, ";\n }\n \n .").concat(fullWidthClassName, " {\n margin-right: ").concat(gap, "px ").concat(important, ";\n }\n \n .").concat(zeroRightClassName, " .").concat(zeroRightClassName, " {\n right: 0 ").concat(important, ";\n }\n \n .").concat(fullWidthClassName, " .").concat(fullWidthClassName, " {\n margin-right: 0 ").concat(important, ";\n }\n \n body[").concat(lockAttribute, "] {\n ").concat(removedBarSizeVariable, ": ").concat(gap, "px;\n }\n");
};
var getCurrentUseCounter = function() {
var counter = parseInt(document.body.getAttribute(lockAttribute) || "0", 10);
return isFinite(counter) ? counter : 0;
};
var useLockAttribute = function() {
React21.useEffect(function() {
document.body.setAttribute(lockAttribute, (getCurrentUseCounter() + 1).toString());
return function() {
var newCounter = getCurrentUseCounter() - 1;
if (newCounter <= 0) {
document.body.removeAttribute(lockAttribute);
} else {
document.body.setAttribute(lockAttribute, newCounter.toString());
}
};
}, []);
};
var RemoveScrollBar = function(_a) {
var noRelative = _a.noRelative, noImportant = _a.noImportant, _b = _a.gapMode, gapMode = _b === void 0 ? "margin" : _b;
useLockAttribute();
var gap = React21.useMemo(function() {
return getGapWidth(gapMode);
}, [gapMode]);
return React21.createElement(Style, { styles: getStyles(gap, !noRelative, gapMode, !noImportant ? "!important" : "") });
};
// node_modules/react-remove-scroll/dist/es2015/aggresiveCapture.js
var passiveSupported = false;
if (typeof window !== "undefined") {
try {
options = Object.defineProperty({}, "passive", {
get: function() {
passiveSupported = true;
return true;
}
});
window.addEventListener("test", options, options);
window.removeEventListener("test", options, options);
} catch (err) {
passiveSupported = false;
}
}
var options;
var nonPassive = passiveSupported ? { passive: false } : false;
// node_modules/react-remove-scroll/dist/es2015/handleScroll.js
var alwaysContainsScroll = function(node) {
return node.tagName === "TEXTAREA";
};
var elementCanBeScrolled = function(node, overflow) {
if (!(node instanceof Element)) {
return false;
}
var styles = window.getComputedStyle(node);
return (
// not-not-scrollable
styles[overflow] !== "hidden" && // contains scroll inside self
!(styles.overflowY === styles.overflowX && !alwaysContainsScroll(node) && styles[overflow] === "visible")
);
};
var elementCouldBeVScrolled = function(node) {
return elementCanBeScrolled(node, "overflowY");
};
var elementCouldBeHScrolled = function(node) {
return elementCanBeScrolled(node, "overflowX");
};
var locationCouldBeScrolled = function(axis, node) {
var ownerDocument = node.ownerDocument;
var current = node;
do {
if (typeof ShadowRoot !== "undefined" && current instanceof ShadowRoot) {
current = current.host;
}
var isScrollable = elementCouldBeScrolled(axis, current);
if (isScrollable) {
var _a = getScrollVariables(axis, current), scrollHeight = _a[1], clientHeight = _a[2];
if (scrollHeight > clientHeight) {
return true;
}
}
current = current.parentNode;
} while (current && current !== ownerDocument.body);
return false;
};
var getVScrollVariables = function(_a) {
var scrollTop = _a.scrollTop, scrollHeight = _a.scrollHeight, clientHeight = _a.clientHeight;
return [
scrollTop,
scrollHeight,
clientHeight
];
};
var getHScrollVariables = function(_a) {
var scrollLeft = _a.scrollLeft, scrollWidth = _a.scrollWidth, clientWidth = _a.clientWidth;
return [
scrollLeft,
scrollWidth,
clientWidth
];
};
var elementCouldBeScrolled = function(axis, node) {
return axis === "v" ? elementCouldBeVScrolled(node) : elementCouldBeHScrolled(node);
};
var getScrollVariables = function(axis, node) {
return axis === "v" ? getVScrollVariables(node) : getHScrollVariables(node);
};
var getDirectionFactor = function(axis, direction) {
return axis === "h" && direction === "rtl" ? -1 : 1;
};
var handleScroll = function(axis, endTarget, event, sourceDelta, noOverscroll) {
var directionFactor = getDirectionFactor(axis, window.getComputedStyle(endTarget).direction);
var delta = directionFactor * sourceDelta;
var target = event.target;
var targetInLock = endTarget.contains(target);
var shouldCancelScroll = false;
var isDeltaPositive = delta > 0;
var availableScroll = 0;
var availableScrollTop = 0;
do {
if (!target) {
break;
}
var _a = getScrollVariables(axis, target), position = _a[0], scroll_1 = _a[1], capacity = _a[2];
var elementScroll = scroll_1 - capacity - directionFactor * position;
if (position || elementScroll) {
if (elementCouldBeScrolled(axis, target)) {
availableScroll += elementScroll;
availableScrollTop += position;
}
}
var parent_1 = target.parentNode;
target = parent_1 && parent_1.nodeType === Node.DOCUMENT_FRAGMENT_NODE ? parent_1.host : parent_1;
} while (
// portaled content
!targetInLock && target !== document.body || // self content
targetInLock && (endTarget.contains(target) || endTarget === target)
);
if (isDeltaPositive && (noOverscroll && Math.abs(availableScroll) < 1 || !noOverscroll && delta > availableScroll)) {
shouldCancelScroll = true;
} else if (!isDeltaPositive && (noOverscroll && Math.abs(availableScrollTop) < 1 || !noOverscroll && -delta > availableScrollTop)) {
shouldCancelScroll = true;
}
return shouldCancelScroll;
};
// node_modules/react-remove-scroll/dist/es2015/SideEffect.js
var getTouchXY = function(event) {
return "changedTouches" in event ? [event.changedTouches[0].clientX, event.changedTouches[0].clientY] : [0, 0];
};
var getDeltaXY = function(event) {
return [event.deltaX, event.deltaY];
};
var extractRef = function(ref) {
return ref && "current" in ref ? ref.current : ref;
};
var deltaCompare = function(x, y) {
return x[0] === y[0] && x[1] === y[1];
};
var generateStyle = function(id) {
return "\n .block-interactivity-".concat(id, " {pointer-events: none;}\n .allow-interactivity-").concat(id, " {pointer-events: all;}\n");
};
var idCounter = 0;
var lockStack = [];
function RemoveScrollSideCar(props) {
var shouldPreventQueue = React24.useRef([]);
var touchStartRef = React24.useRef([0, 0]);
var activeAxis = React24.useRef();
var id = React24.useState(idCounter++)[0];
var Style2 = React24.useState(styleSingleton)[0];
var lastProps = React24.useRef(props);
React24.useEffect(function() {
lastProps.current = props;
}, [props]);
React24.useEffect(function() {
if (props.inert) {
document.body.classList.add("block-interactivity-".concat(id));
var allow_1 = __spreadArray([props.lockRef.current], (props.shards || []).map(extractRef), true).filter(Boolean);
allow_1.forEach(function(el) {
return el.classList.add("allow-interactivity-".concat(id));
});
return function() {
document.body.classList.remove("block-interactivity-".concat(id));
allow_1.forEach(function(el) {
return el.classList.remove("allow-interactivity-".concat(id));
});
};
}
return;
}, [props.inert, props.lockRef.current, props.shards]);
var shouldCancelEvent = React24.useCallback(function(event, parent) {
if ("touches" in event && event.touches.length === 2 || event.type === "wheel" && event.ctrlKey) {
return !lastProps.current.allowPinchZoom;
}
var touch = getTouchXY(event);
var touchStart = touchStartRef.current;
var deltaX = "deltaX" in event ? event.deltaX : touchStart[0] - touch[0];
var deltaY = "deltaY" in event ? event.deltaY : touchStart[1] - touch[1];
var currentAxis;
var target = event.target;
var moveDirection = Math.abs(deltaX) > Math.abs(deltaY) ? "h" : "v";
if ("touches" in event && moveDirection === "h" && target.type === "range") {
return false;
}
var selection = window.getSelection();
var anchorNode = selection && selection.anchorNode;
var isTouchingSelection = anchorNode ? anchorNode === target || anchorNode.contains(target) : false;
if (isTouchingSelection) {
return false;
}
var canBeScrolledInMainDirection = locationCouldBeScrolled(moveDirection, target);
if (!canBeScrolledInMainDirection) {
return true;
}
if (canBeScrolledInMainDirection) {
currentAxis = moveDirection;
} else {
currentAxis = moveDirection === "v" ? "h" : "v";
canBeScrolledInMainDirection = locationCouldBeScrolled(moveDirection, target);
}
if (!canBeScrolledInMainDirection) {
return false;
}
if (!activeAxis.current && "changedTouches" in event && (deltaX || deltaY)) {
activeAxis.current = currentAxis;
}
if (!currentAxis) {
return true;
}
var cancelingAxis = activeAxis.current || currentAxis;
return handleScroll(cancelingAxis, parent, event, cancelingAxis === "h" ? deltaX : deltaY, true);
}, []);
var shouldPrevent = React24.useCallback(function(_event) {
var event = _event;
if (!lockStack.length || lockStack[lockStack.length - 1] !== Style2) {
return;
}
var delta = "deltaY" in event ? getDeltaXY(event) : getTouchXY(event);
var sourceEvent = shouldPreventQueue.current.filter(function(e) {
return e.name === event.type && (e.target === event.target || event.target === e.shadowParent) && deltaCompare(e.delta, delta);
})[0];
if (sourceEvent && sourceEvent.should) {
if (event.cancelable) {
event.preventDefault();
}
return;
}
if (!sourceEvent) {
var shardNodes = (lastProps.current.shards || []).map(extractRef).filter(Boolean).filter(function(node) {
return node.contains(event.target);
});
var shouldStop = shardNodes.length > 0 ? shouldCancelEvent(event, shardNodes[0]) : !lastProps.current.noIsolation;
if (shouldStop) {
if (event.cancelable) {
event.preventDefault();
}
}
}
}, []);
var shouldCancel = React24.useCallback(function(name, delta, target, should) {
var event = { name, delta, target, should, shadowParent: getOutermostShadowParent(target) };
shouldPreventQueue.current.push(event);
setTimeout(function() {
shouldPreventQueue.current = shouldPreventQueue.current.filter(function(e) {
return e !== event;
});
}, 1);
}, []);
var scrollTouchStart = React24.useCallback(function(event) {
touchStartRef.current = getTouchXY(event);
activeAxis.current = void 0;
}, []);
var scrollWheel = React24.useCallback(function(event) {
shouldCancel(event.type, getDeltaXY(event), event.target, shouldCancelEvent(event, props.lockRef.current));
}, []);
var scrollTouchMove = React24.useCallback(function(event) {
shouldCancel(event.type, getTouchXY(event), event.target, shouldCancelEvent(event, props.lockRef.current));
}, []);
React24.useEffect(function() {
lockStack.push(Style2);
props.setCallbacks({
onScrollCapture: scrollWheel,
onWheelCapture: scrollWheel,
onTouchMoveCapture: scrollTouchMove
});
document.addEventListener("wheel", shouldPrevent, nonPassive);
document.addEventListener("touchmove", shouldPrevent, nonPassive);
document.addEventListener("touchstart", scrollTouchStart, nonPassive);
return function() {
lockStack = lockStack.filter(function(inst) {
return inst !== Style2;
});
document.removeEventListener("wheel", shouldPrevent, nonPassive);
document.removeEventListener("touchmove", shouldPrevent, nonPassive);
document.removeEventListener("touchstart", scrollTouchStart, nonPassive);
};
}, []);
var removeScrollBar = props.removeScrollBar, inert = props.inert;
return React24.createElement(
React24.Fragment,
null,
inert ? React24.createElement(Style2, { styles: generateStyle(id) }) : null,
removeScrollBar ? React24.createElement(RemoveScrollBar, { noRelative: props.noRelative, gapMode: props.gapMode }) : null
);
}
function getOutermostShadowParent(node) {
var shadowParent = null;
while (node !== null) {
if (node instanceof ShadowRoot) {
shadowParent = node.host;
node = node.host;
}
node = node.parentNode;
}
return shadowParent;
}
// node_modules/react-remove-scroll/dist/es2015/sidecar.js
var sidecar_default = exportSidecar(effectCar, RemoveScrollSideCar);
// node_modules/react-remove-scroll/dist/es2015/Combination.js
var ReactRemoveScroll = React25.forwardRef(function(props, ref) {
return React25.createElement(RemoveScroll, __assign({}, props, { ref, sideCar: sidecar_default }));
});
ReactRemoveScroll.classNames = RemoveScroll.classNames;
var Combination_default = ReactRemoveScroll;
export {
useControllableState,
createCollection,
DismissableLayer,
useFocusGuards,
FocusScope,
useId,
createPopperScope,
Root2,
Anchor,
Content,
Arrow2 as Arrow,
Portal,
hideOthers,
Combination_default
};
//# sourceMappingURL=chunk-M3NXY72O.js.map
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