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Project_Velocity/app/node_modules/.vite/deps/@radix-ui_react-dropdown-menu.js

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"use client";
import {
useCallbackRef,
useLayoutEffect2
} from "./chunk-GRXJTWBV.js";
import {
composeRefs,
useComposedRefs
} from "./chunk-HPBHRBIF.js";
import {
require_react_dom
} from "./chunk-YLZ34CCM.js";
import {
require_jsx_runtime
} from "./chunk-USXRE7Q2.js";
import {
require_react
} from "./chunk-ZNKPWGXJ.js";
import {
__toESM
} from "./chunk-G3PMV62Z.js";
// node_modules/@radix-ui/react-dropdown-menu/dist/index.mjs
var React35 = __toESM(require_react(), 1);
// node_modules/@radix-ui/primitive/dist/index.mjs
var canUseDOM = !!(typeof window !== "undefined" && window.document && window.document.createElement);
function composeEventHandlers(originalEventHandler, ourEventHandler, { checkForDefaultPrevented = true } = {}) {
return function handleEvent(event) {
originalEventHandler?.(event);
if (checkForDefaultPrevented === false || !event.defaultPrevented) {
return ourEventHandler?.(event);
}
};
}
// node_modules/@radix-ui/react-context/dist/index.mjs
var React = __toESM(require_react(), 1);
var import_jsx_runtime = __toESM(require_jsx_runtime(), 1);
function createContextScope(scopeName, createContextScopeDeps = []) {
let defaultContexts = [];
function createContext32(rootComponentName, defaultContext) {
const BaseContext = React.createContext(defaultContext);
const index2 = defaultContexts.length;
defaultContexts = [...defaultContexts, defaultContext];
const Provider = (props) => {
const { scope, children, ...context } = props;
const Context = scope?.[scopeName]?.[index2] || BaseContext;
const value = React.useMemo(() => context, Object.values(context));
return (0, import_jsx_runtime.jsx)(Context.Provider, { value, children });
};
Provider.displayName = rootComponentName + "Provider";
function useContext22(consumerName, scope) {
const Context = scope?.[scopeName]?.[index2] || BaseContext;
const context = React.useContext(Context);
if (context) return context;
if (defaultContext !== void 0) return defaultContext;
throw new Error(`\`${consumerName}\` must be used within \`${rootComponentName}\``);
}
return [Provider, useContext22];
}
const createScope = () => {
const scopeContexts = defaultContexts.map((defaultContext) => {
return React.createContext(defaultContext);
});
return function useScope(scope) {
const contexts = scope?.[scopeName] || scopeContexts;
return React.useMemo(
() => ({ [`__scope${scopeName}`]: { ...scope, [scopeName]: contexts } }),
[scope, contexts]
);
};
};
createScope.scopeName = scopeName;
return [createContext32, composeContextScopes(createScope, ...createContextScopeDeps)];
}
function composeContextScopes(...scopes) {
const baseScope = scopes[0];
if (scopes.length === 1) return baseScope;
const createScope = () => {
const scopeHooks = scopes.map((createScope2) => ({
useScope: createScope2(),
scopeName: createScope2.scopeName
}));
return function useComposedScopes(overrideScopes) {
const nextScopes = scopeHooks.reduce((nextScopes2, { useScope, scopeName }) => {
const scopeProps = useScope(overrideScopes);
const currentScope = scopeProps[`__scope${scopeName}`];
return { ...nextScopes2, ...currentScope };
}, {});
return React.useMemo(() => ({ [`__scope${baseScope.scopeName}`]: nextScopes }), [nextScopes]);
};
};
createScope.scopeName = baseScope.scopeName;
return createScope;
}
// node_modules/@radix-ui/react-use-controllable-state/dist/index.mjs
var React3 = __toESM(require_react(), 1);
var React22 = __toESM(require_react(), 1);
// node_modules/@radix-ui/react-use-effect-event/dist/index.mjs
var React2 = __toESM(require_react(), 1);
var useReactEffectEvent = React2[" useEffectEvent ".trim().toString()];
var useReactInsertionEffect = React2[" useInsertionEffect ".trim().toString()];
// node_modules/@radix-ui/react-use-controllable-state/dist/index.mjs
var useInsertionEffect = React3[" useInsertionEffect ".trim().toString()] || useLayoutEffect2;
function useControllableState({
prop,
defaultProp,
onChange = () => {
},
caller
}) {
const [uncontrolledProp, setUncontrolledProp, onChangeRef] = useUncontrolledState({
defaultProp,
onChange
});
const isControlled = prop !== void 0;
const value = isControlled ? prop : uncontrolledProp;
if (true) {
const isControlledRef = React3.useRef(prop !== void 0);
React3.useEffect(() => {
const wasControlled = isControlledRef.current;
if (wasControlled !== isControlled) {
const from = wasControlled ? "controlled" : "uncontrolled";
const to = isControlled ? "controlled" : "uncontrolled";
console.warn(
`${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 = React3.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] = React3.useState(defaultProp);
const prevValueRef = React3.useRef(value);
const onChangeRef = React3.useRef(onChange);
useInsertionEffect(() => {
onChangeRef.current = onChange;
}, [onChange]);
React3.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-primitive/dist/index.mjs
var React5 = __toESM(require_react(), 1);
var ReactDOM = __toESM(require_react_dom(), 1);
// node_modules/@radix-ui/react-primitive/node_modules/@radix-ui/react-slot/dist/index.mjs
var React4 = __toESM(require_react(), 1);
var import_jsx_runtime2 = __toESM(require_jsx_runtime(), 1);
function createSlot(ownerName) {
const SlotClone = createSlotClone(ownerName);
const Slot22 = React4.forwardRef((props, forwardedRef) => {
const { children, ...slotProps } = props;
const childrenArray = React4.Children.toArray(children);
const slottable = childrenArray.find(isSlottable);
if (slottable) {
const newElement = slottable.props.children;
const newChildren = childrenArray.map((child) => {
if (child === slottable) {
if (React4.Children.count(newElement) > 1) return React4.Children.only(null);
return React4.isValidElement(newElement) ? newElement.props.children : null;
} else {
return child;
}
});
return (0, import_jsx_runtime2.jsx)(SlotClone, { ...slotProps, ref: forwardedRef, children: React4.isValidElement(newElement) ? React4.cloneElement(newElement, void 0, newChildren) : null });
}
return (0, import_jsx_runtime2.jsx)(SlotClone, { ...slotProps, ref: forwardedRef, children });
});
Slot22.displayName = `${ownerName}.Slot`;
return Slot22;
}
var Slot = createSlot("Slot");
function createSlotClone(ownerName) {
const SlotClone = React4.forwardRef((props, forwardedRef) => {
const { children, ...slotProps } = props;
if (React4.isValidElement(children)) {
const childrenRef = getElementRef(children);
const props2 = mergeProps(slotProps, children.props);
if (children.type !== React4.Fragment) {
props2.ref = forwardedRef ? composeRefs(forwardedRef, childrenRef) : childrenRef;
}
return React4.cloneElement(children, props2);
}
return React4.Children.count(children) > 1 ? React4.Children.only(null) : null;
});
SlotClone.displayName = `${ownerName}.SlotClone`;
return SlotClone;
}
var SLOTTABLE_IDENTIFIER = /* @__PURE__ */ Symbol("radix.slottable");
function createSlottable(ownerName) {
const Slottable22 = ({ children }) => {
return (0, import_jsx_runtime2.jsx)(import_jsx_runtime2.Fragment, { children });
};
Slottable22.displayName = `${ownerName}.Slottable`;
Slottable22.__radixId = SLOTTABLE_IDENTIFIER;
return Slottable22;
}
var Slottable = createSlottable("Slottable");
function isSlottable(child) {
return React4.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-primitive/dist/index.mjs
var import_jsx_runtime3 = __toESM(require_jsx_runtime(), 1);
var NODES = [
"a",
"button",
"div",
"form",
"h2",
"h3",
"img",
"input",
"label",
"li",
"nav",
"ol",
"p",
"select",
"span",
"svg",
"ul"
];
var Primitive = NODES.reduce((primitive, node) => {
const Slot5 = createSlot(`Primitive.${node}`);
const Node2 = React5.forwardRef((props, forwardedRef) => {
const { asChild, ...primitiveProps } = props;
const Comp = asChild ? Slot5 : node;
if (typeof window !== "undefined") {
window[/* @__PURE__ */ Symbol.for("radix-ui")] = true;
}
return (0, import_jsx_runtime3.jsx)(Comp, { ...primitiveProps, ref: forwardedRef });
});
Node2.displayName = `Primitive.${node}`;
return { ...primitive, [node]: Node2 };
}, {});
function dispatchDiscreteCustomEvent(target, event) {
if (target) ReactDOM.flushSync(() => target.dispatchEvent(event));
}
// node_modules/@radix-ui/react-menu/dist/index.mjs
var React34 = __toESM(require_react(), 1);
// 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 React6 = __toESM(require_react(), 1);
var import_jsx_runtime4 = __toESM(require_jsx_runtime(), 1);
function createSlot2(ownerName) {
const SlotClone = createSlotClone2(ownerName);
const Slot22 = React6.forwardRef((props, forwardedRef) => {
const { children, ...slotProps } = props;
const childrenArray = React6.Children.toArray(children);
const slottable = childrenArray.find(isSlottable2);
if (slottable) {
const newElement = slottable.props.children;
const newChildren = childrenArray.map((child) => {
if (child === slottable) {
if (React6.Children.count(newElement) > 1) return React6.Children.only(null);
return React6.isValidElement(newElement) ? newElement.props.children : null;
} else {
return child;
}
});
return (0, import_jsx_runtime4.jsx)(SlotClone, { ...slotProps, ref: forwardedRef, children: React6.isValidElement(newElement) ? React6.cloneElement(newElement, void 0, newChildren) : null });
}
return (0, import_jsx_runtime4.jsx)(SlotClone, { ...slotProps, ref: forwardedRef, children });
});
Slot22.displayName = `${ownerName}.Slot`;
return Slot22;
}
var Slot2 = createSlot2("Slot");
function createSlotClone2(ownerName) {
const SlotClone = React6.forwardRef((props, forwardedRef) => {
const { children, ...slotProps } = props;
if (React6.isValidElement(children)) {
const childrenRef = getElementRef2(children);
const props2 = mergeProps2(slotProps, children.props);
if (children.type !== React6.Fragment) {
props2.ref = forwardedRef ? composeRefs(forwardedRef, childrenRef) : childrenRef;
}
return React6.cloneElement(children, props2);
}
return React6.Children.count(children) > 1 ? React6.Children.only(null) : null;
});
SlotClone.displayName = `${ownerName}.SlotClone`;
return SlotClone;
}
var SLOTTABLE_IDENTIFIER2 = /* @__PURE__ */ Symbol("radix.slottable");
function createSlottable2(ownerName) {
const Slottable22 = ({ children }) => {
return (0, import_jsx_runtime4.jsx)(import_jsx_runtime4.Fragment, { children });
};
Slottable22.displayName = `${ownerName}.Slottable`;
Slottable22.__radixId = SLOTTABLE_IDENTIFIER2;
return Slottable22;
}
var Slottable2 = createSlottable2("Slottable");
function isSlottable2(child) {
return React6.isValidElement(child) && typeof child.type === "function" && "__radixId" in child.type && child.type.__radixId === SLOTTABLE_IDENTIFIER2;
}
function mergeProps2(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 getElementRef2(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_runtime5 = __toESM(require_jsx_runtime(), 1);
var import_react2 = __toESM(require_react(), 1);
var import_jsx_runtime6 = __toESM(require_jsx_runtime(), 1);
function createCollection(name) {
const PROVIDER_NAME = name + "CollectionProvider";
const [createCollectionContext, createCollectionScope3] = 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_runtime5.jsx)(CollectionProviderImpl, { scope, itemMap, collectionRef: ref, children });
};
CollectionProvider.displayName = PROVIDER_NAME;
const COLLECTION_SLOT_NAME = name + "CollectionSlot";
const CollectionSlotImpl = createSlot2(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_runtime5.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 = createSlot2(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_runtime5.jsx)(CollectionItemSlotImpl, { ...{ [ITEM_DATA_ATTR]: "" }, ref: composedRefs, children });
}
);
CollectionItemSlot.displayName = ITEM_SLOT_NAME;
function useCollection3(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 },
useCollection3,
createCollectionScope3
];
}
// node_modules/@radix-ui/react-direction/dist/index.mjs
var React8 = __toESM(require_react(), 1);
var import_jsx_runtime7 = __toESM(require_jsx_runtime(), 1);
var DirectionContext = React8.createContext(void 0);
function useDirection(localDir) {
const globalDir = React8.useContext(DirectionContext);
return localDir || globalDir || "ltr";
}
// node_modules/@radix-ui/react-dismissable-layer/dist/index.mjs
var React10 = __toESM(require_react(), 1);
// node_modules/@radix-ui/react-use-escape-keydown/dist/index.mjs
var React9 = __toESM(require_react(), 1);
function useEscapeKeydown(onEscapeKeyDownProp, ownerDocument = globalThis?.document) {
const onEscapeKeyDown = useCallbackRef(onEscapeKeyDownProp);
React9.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_runtime8 = __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 = React10.createContext({
layers: /* @__PURE__ */ new Set(),
layersWithOutsidePointerEventsDisabled: /* @__PURE__ */ new Set(),
branches: /* @__PURE__ */ new Set()
});
var DismissableLayer = React10.forwardRef(
(props, forwardedRef) => {
const {
disableOutsidePointerEvents = false,
onEscapeKeyDown,
onPointerDownOutside,
onFocusOutside,
onInteractOutside,
onDismiss,
...layerProps
} = props;
const context = React10.useContext(DismissableLayerContext);
const [node, setNode] = React10.useState(null);
const ownerDocument = node?.ownerDocument ?? globalThis?.document;
const [, force] = React10.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);
React10.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]);
React10.useEffect(() => {
return () => {
if (!node) return;
context.layers.delete(node);
context.layersWithOutsidePointerEventsDisabled.delete(node);
dispatchUpdate();
};
}, [node, context]);
React10.useEffect(() => {
const handleUpdate = () => force({});
document.addEventListener(CONTEXT_UPDATE, handleUpdate);
return () => document.removeEventListener(CONTEXT_UPDATE, handleUpdate);
}, []);
return (0, import_jsx_runtime8.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 = React10.forwardRef((props, forwardedRef) => {
const context = React10.useContext(DismissableLayerContext);
const ref = React10.useRef(null);
const composedRefs = useComposedRefs(forwardedRef, ref);
React10.useEffect(() => {
const node = ref.current;
if (node) {
context.branches.add(node);
return () => {
context.branches.delete(node);
};
}
}, [context.branches]);
return (0, import_jsx_runtime8.jsx)(Primitive.div, { ...props, ref: composedRefs });
});
DismissableLayerBranch.displayName = BRANCH_NAME;
function usePointerDownOutside(onPointerDownOutside, ownerDocument = globalThis?.document) {
const handlePointerDownOutside = useCallbackRef(onPointerDownOutside);
const isPointerInsideReactTreeRef = React10.useRef(false);
const handleClickRef = React10.useRef(() => {
});
React10.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 = React10.useRef(false);
React10.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 React11 = __toESM(require_react(), 1);
var count = 0;
function useFocusGuards() {
React11.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 React12 = __toESM(require_react(), 1);
var import_jsx_runtime9 = __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 = React12.forwardRef((props, forwardedRef) => {
const {
loop = false,
trapped = false,
onMountAutoFocus: onMountAutoFocusProp,
onUnmountAutoFocus: onUnmountAutoFocusProp,
...scopeProps
} = props;
const [container, setContainer] = React12.useState(null);
const onMountAutoFocus = useCallbackRef(onMountAutoFocusProp);
const onUnmountAutoFocus = useCallbackRef(onUnmountAutoFocusProp);
const lastFocusedElementRef = React12.useRef(null);
const composedRefs = useComposedRefs(forwardedRef, (node) => setContainer(node));
const focusScope = React12.useRef({
paused: false,
pause() {
this.paused = true;
},
resume() {
this.paused = false;
}
}).current;
React12.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]);
React12.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 = React12.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_runtime9.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 React13 = __toESM(require_react(), 1);
var useReactId = React13[" useId ".trim().toString()] || (() => void 0);
var count2 = 0;
function useId(deterministicId) {
const [id, setId] = React13.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 React17 = __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 React14 = __toESM(require_react(), 1);
var import_react3 = __toESM(require_react(), 1);
var ReactDOM2 = __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 = React14.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] = React14.useState({
x: 0,
y: 0,
strategy,
placement,
middlewareData: {},
isPositioned: false
});
const [latestMiddleware, setLatestMiddleware] = React14.useState(middleware);
if (!deepEqual(latestMiddleware, middleware)) {
setLatestMiddleware(middleware);
}
const [_reference, _setReference] = React14.useState(null);
const [_floating, _setFloating] = React14.useState(null);
const setReference = React14.useCallback((node) => {
if (node !== referenceRef.current) {
referenceRef.current = node;
_setReference(node);
}
}, []);
const setFloating = React14.useCallback((node) => {
if (node !== floatingRef.current) {
floatingRef.current = node;
_setFloating(node);
}
}, []);
const referenceEl = externalReference || _reference;
const floatingEl = externalFloating || _floating;
const referenceRef = React14.useRef(null);
const floatingRef = React14.useRef(null);
const dataRef = React14.useRef(data);
const hasWhileElementsMounted = whileElementsMounted != null;
const whileElementsMountedRef = useLatestRef(whileElementsMounted);
const platformRef = useLatestRef(platform2);
const openRef = useLatestRef(open);
const update = React14.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;
ReactDOM2.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 = React14.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 = React14.useMemo(() => ({
reference: referenceRef,
floating: floatingRef,
setReference,
setFloating
}), [setReference, setFloating]);
const elements = React14.useMemo(() => ({
reference: referenceEl,
floating: floatingEl
}), [referenceEl, floatingEl]);
const floatingStyles = React14.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 React14.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 React15 = __toESM(require_react(), 1);
var import_jsx_runtime10 = __toESM(require_jsx_runtime(), 1);
var NAME = "Arrow";
var Arrow = React15.forwardRef((props, forwardedRef) => {
const { children, width = 10, height = 5, ...arrowProps } = props;
return (0, import_jsx_runtime10.jsx)(
Primitive.svg,
{
...arrowProps,
ref: forwardedRef,
width,
height,
viewBox: "0 0 30 10",
preserveAspectRatio: "none",
children: props.asChild ? children : (0, import_jsx_runtime10.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 React16 = __toESM(require_react(), 1);
function useSize(element) {
const [size4, setSize] = React16.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_runtime11 = __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] = React17.useState(null);
return (0, import_jsx_runtime11.jsx)(PopperProvider, { scope: __scopePopper, anchor, onAnchorChange: setAnchor, children });
};
Popper.displayName = POPPER_NAME;
var ANCHOR_NAME = "PopperAnchor";
var PopperAnchor = React17.forwardRef(
(props, forwardedRef) => {
const { __scopePopper, virtualRef, ...anchorProps } = props;
const context = usePopperContext(ANCHOR_NAME, __scopePopper);
const ref = React17.useRef(null);
const composedRefs = useComposedRefs(forwardedRef, ref);
const anchorRef = React17.useRef(null);
React17.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_runtime11.jsx)(Primitive.div, { ...anchorProps, ref: composedRefs });
}
);
PopperAnchor.displayName = ANCHOR_NAME;
var CONTENT_NAME = "PopperContent";
var [PopperContentProvider, useContentContext] = createPopperContext(CONTENT_NAME);
var PopperContent = React17.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] = React17.useState(null);
const composedRefs = useComposedRefs(forwardedRef, (node) => setContent(node));
const [arrow4, setArrow] = React17.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] = React17.useState();
useLayoutEffect2(() => {
if (content) setContentZIndex(window.getComputedStyle(content).zIndex);
}, [content]);
return (0, import_jsx_runtime11.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_runtime11.jsx)(
PopperContentProvider,
{
scope: __scopePopper,
placedSide,
onArrowChange: setArrow,
arrowX,
arrowY,
shouldHideArrow: cannotCenterArrow,
children: (0, import_jsx_runtime11.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 = React17.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_runtime11.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_runtime11.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 React18 = __toESM(require_react(), 1);
var import_react_dom2 = __toESM(require_react_dom(), 1);
var import_jsx_runtime12 = __toESM(require_jsx_runtime(), 1);
var PORTAL_NAME = "Portal";
var Portal = React18.forwardRef((props, forwardedRef) => {
const { container: containerProp, ...portalProps } = props;
const [mounted, setMounted] = React18.useState(false);
useLayoutEffect2(() => setMounted(true), []);
const container = containerProp || mounted && globalThis?.document?.body;
return container ? import_react_dom2.default.createPortal((0, import_jsx_runtime12.jsx)(Primitive.div, { ...portalProps, ref: forwardedRef }), container) : null;
});
Portal.displayName = PORTAL_NAME;
// node_modules/@radix-ui/react-presence/dist/index.mjs
var React24 = __toESM(require_react(), 1);
var React19 = __toESM(require_react(), 1);
function useStateMachine(initialState, machine) {
return React19.useReducer((state, event) => {
const nextState = machine[state][event];
return nextState ?? state;
}, initialState);
}
var Presence = (props) => {
const { present, children } = props;
const presence = usePresence(present);
const child = typeof children === "function" ? children({ present: presence.isPresent }) : React24.Children.only(children);
const ref = useComposedRefs(presence.ref, getElementRef3(child));
const forceMount = typeof children === "function";
return forceMount || presence.isPresent ? React24.cloneElement(child, { ref }) : null;
};
Presence.displayName = "Presence";
function usePresence(present) {
const [node, setNode] = React24.useState();
const stylesRef = React24.useRef(null);
const prevPresentRef = React24.useRef(present);
const prevAnimationNameRef = React24.useRef("none");
const initialState = present ? "mounted" : "unmounted";
const [state, send] = useStateMachine(initialState, {
mounted: {
UNMOUNT: "unmounted",
ANIMATION_OUT: "unmountSuspended"
},
unmountSuspended: {
MOUNT: "mounted",
ANIMATION_END: "unmounted"
},
unmounted: {
MOUNT: "mounted"
}
});
React24.useEffect(() => {
const currentAnimationName = getAnimationName(stylesRef.current);
prevAnimationNameRef.current = state === "mounted" ? currentAnimationName : "none";
}, [state]);
useLayoutEffect2(() => {
const styles = stylesRef.current;
const wasPresent = prevPresentRef.current;
const hasPresentChanged = wasPresent !== present;
if (hasPresentChanged) {
const prevAnimationName = prevAnimationNameRef.current;
const currentAnimationName = getAnimationName(styles);
if (present) {
send("MOUNT");
} else if (currentAnimationName === "none" || styles?.display === "none") {
send("UNMOUNT");
} else {
const isAnimating = prevAnimationName !== currentAnimationName;
if (wasPresent && isAnimating) {
send("ANIMATION_OUT");
} else {
send("UNMOUNT");
}
}
prevPresentRef.current = present;
}
}, [present, send]);
useLayoutEffect2(() => {
if (node) {
let timeoutId;
const ownerWindow = node.ownerDocument.defaultView ?? window;
const handleAnimationEnd = (event) => {
const currentAnimationName = getAnimationName(stylesRef.current);
const isCurrentAnimation = currentAnimationName.includes(CSS.escape(event.animationName));
if (event.target === node && isCurrentAnimation) {
send("ANIMATION_END");
if (!prevPresentRef.current) {
const currentFillMode = node.style.animationFillMode;
node.style.animationFillMode = "forwards";
timeoutId = ownerWindow.setTimeout(() => {
if (node.style.animationFillMode === "forwards") {
node.style.animationFillMode = currentFillMode;
}
});
}
}
};
const handleAnimationStart = (event) => {
if (event.target === node) {
prevAnimationNameRef.current = getAnimationName(stylesRef.current);
}
};
node.addEventListener("animationstart", handleAnimationStart);
node.addEventListener("animationcancel", handleAnimationEnd);
node.addEventListener("animationend", handleAnimationEnd);
return () => {
ownerWindow.clearTimeout(timeoutId);
node.removeEventListener("animationstart", handleAnimationStart);
node.removeEventListener("animationcancel", handleAnimationEnd);
node.removeEventListener("animationend", handleAnimationEnd);
};
} else {
send("ANIMATION_END");
}
}, [node, send]);
return {
isPresent: ["mounted", "unmountSuspended"].includes(state),
ref: React24.useCallback((node2) => {
stylesRef.current = node2 ? getComputedStyle(node2) : null;
setNode(node2);
}, [])
};
}
function getAnimationName(styles) {
return styles?.animationName || "none";
}
function getElementRef3(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-roving-focus/dist/index.mjs
var React20 = __toESM(require_react(), 1);
var import_jsx_runtime13 = __toESM(require_jsx_runtime(), 1);
var ENTRY_FOCUS = "rovingFocusGroup.onEntryFocus";
var EVENT_OPTIONS2 = { bubbles: false, cancelable: true };
var GROUP_NAME = "RovingFocusGroup";
var [Collection, useCollection, createCollectionScope] = createCollection(GROUP_NAME);
var [createRovingFocusGroupContext, createRovingFocusGroupScope] = createContextScope(
GROUP_NAME,
[createCollectionScope]
);
var [RovingFocusProvider, useRovingFocusContext] = createRovingFocusGroupContext(GROUP_NAME);
var RovingFocusGroup = React20.forwardRef(
(props, forwardedRef) => {
return (0, import_jsx_runtime13.jsx)(Collection.Provider, { scope: props.__scopeRovingFocusGroup, children: (0, import_jsx_runtime13.jsx)(Collection.Slot, { scope: props.__scopeRovingFocusGroup, children: (0, import_jsx_runtime13.jsx)(RovingFocusGroupImpl, { ...props, ref: forwardedRef }) }) });
}
);
RovingFocusGroup.displayName = GROUP_NAME;
var RovingFocusGroupImpl = React20.forwardRef((props, forwardedRef) => {
const {
__scopeRovingFocusGroup,
orientation,
loop = false,
dir,
currentTabStopId: currentTabStopIdProp,
defaultCurrentTabStopId,
onCurrentTabStopIdChange,
onEntryFocus,
preventScrollOnEntryFocus = false,
...groupProps
} = props;
const ref = React20.useRef(null);
const composedRefs = useComposedRefs(forwardedRef, ref);
const direction = useDirection(dir);
const [currentTabStopId, setCurrentTabStopId] = useControllableState({
prop: currentTabStopIdProp,
defaultProp: defaultCurrentTabStopId ?? null,
onChange: onCurrentTabStopIdChange,
caller: GROUP_NAME
});
const [isTabbingBackOut, setIsTabbingBackOut] = React20.useState(false);
const handleEntryFocus = useCallbackRef(onEntryFocus);
const getItems = useCollection(__scopeRovingFocusGroup);
const isClickFocusRef = React20.useRef(false);
const [focusableItemsCount, setFocusableItemsCount] = React20.useState(0);
React20.useEffect(() => {
const node = ref.current;
if (node) {
node.addEventListener(ENTRY_FOCUS, handleEntryFocus);
return () => node.removeEventListener(ENTRY_FOCUS, handleEntryFocus);
}
}, [handleEntryFocus]);
return (0, import_jsx_runtime13.jsx)(
RovingFocusProvider,
{
scope: __scopeRovingFocusGroup,
orientation,
dir: direction,
loop,
currentTabStopId,
onItemFocus: React20.useCallback(
(tabStopId) => setCurrentTabStopId(tabStopId),
[setCurrentTabStopId]
),
onItemShiftTab: React20.useCallback(() => setIsTabbingBackOut(true), []),
onFocusableItemAdd: React20.useCallback(
() => setFocusableItemsCount((prevCount) => prevCount + 1),
[]
),
onFocusableItemRemove: React20.useCallback(
() => setFocusableItemsCount((prevCount) => prevCount - 1),
[]
),
children: (0, import_jsx_runtime13.jsx)(
Primitive.div,
{
tabIndex: isTabbingBackOut || focusableItemsCount === 0 ? -1 : 0,
"data-orientation": orientation,
...groupProps,
ref: composedRefs,
style: { outline: "none", ...props.style },
onMouseDown: composeEventHandlers(props.onMouseDown, () => {
isClickFocusRef.current = true;
}),
onFocus: composeEventHandlers(props.onFocus, (event) => {
const isKeyboardFocus = !isClickFocusRef.current;
if (event.target === event.currentTarget && isKeyboardFocus && !isTabbingBackOut) {
const entryFocusEvent = new CustomEvent(ENTRY_FOCUS, EVENT_OPTIONS2);
event.currentTarget.dispatchEvent(entryFocusEvent);
if (!entryFocusEvent.defaultPrevented) {
const items = getItems().filter((item) => item.focusable);
const activeItem = items.find((item) => item.active);
const currentItem = items.find((item) => item.id === currentTabStopId);
const candidateItems = [activeItem, currentItem, ...items].filter(
Boolean
);
const candidateNodes = candidateItems.map((item) => item.ref.current);
focusFirst2(candidateNodes, preventScrollOnEntryFocus);
}
}
isClickFocusRef.current = false;
}),
onBlur: composeEventHandlers(props.onBlur, () => setIsTabbingBackOut(false))
}
)
}
);
});
var ITEM_NAME = "RovingFocusGroupItem";
var RovingFocusGroupItem = React20.forwardRef(
(props, forwardedRef) => {
const {
__scopeRovingFocusGroup,
focusable = true,
active = false,
tabStopId,
children,
...itemProps
} = props;
const autoId = useId();
const id = tabStopId || autoId;
const context = useRovingFocusContext(ITEM_NAME, __scopeRovingFocusGroup);
const isCurrentTabStop = context.currentTabStopId === id;
const getItems = useCollection(__scopeRovingFocusGroup);
const { onFocusableItemAdd, onFocusableItemRemove, currentTabStopId } = context;
React20.useEffect(() => {
if (focusable) {
onFocusableItemAdd();
return () => onFocusableItemRemove();
}
}, [focusable, onFocusableItemAdd, onFocusableItemRemove]);
return (0, import_jsx_runtime13.jsx)(
Collection.ItemSlot,
{
scope: __scopeRovingFocusGroup,
id,
focusable,
active,
children: (0, import_jsx_runtime13.jsx)(
Primitive.span,
{
tabIndex: isCurrentTabStop ? 0 : -1,
"data-orientation": context.orientation,
...itemProps,
ref: forwardedRef,
onMouseDown: composeEventHandlers(props.onMouseDown, (event) => {
if (!focusable) event.preventDefault();
else context.onItemFocus(id);
}),
onFocus: composeEventHandlers(props.onFocus, () => context.onItemFocus(id)),
onKeyDown: composeEventHandlers(props.onKeyDown, (event) => {
if (event.key === "Tab" && event.shiftKey) {
context.onItemShiftTab();
return;
}
if (event.target !== event.currentTarget) return;
const focusIntent = getFocusIntent(event, context.orientation, context.dir);
if (focusIntent !== void 0) {
if (event.metaKey || event.ctrlKey || event.altKey || event.shiftKey) return;
event.preventDefault();
const items = getItems().filter((item) => item.focusable);
let candidateNodes = items.map((item) => item.ref.current);
if (focusIntent === "last") candidateNodes.reverse();
else if (focusIntent === "prev" || focusIntent === "next") {
if (focusIntent === "prev") candidateNodes.reverse();
const currentIndex = candidateNodes.indexOf(event.currentTarget);
candidateNodes = context.loop ? wrapArray(candidateNodes, currentIndex + 1) : candidateNodes.slice(currentIndex + 1);
}
setTimeout(() => focusFirst2(candidateNodes));
}
}),
children: typeof children === "function" ? children({ isCurrentTabStop, hasTabStop: currentTabStopId != null }) : children
}
)
}
);
}
);
RovingFocusGroupItem.displayName = ITEM_NAME;
var MAP_KEY_TO_FOCUS_INTENT = {
ArrowLeft: "prev",
ArrowUp: "prev",
ArrowRight: "next",
ArrowDown: "next",
PageUp: "first",
Home: "first",
PageDown: "last",
End: "last"
};
function getDirectionAwareKey(key, dir) {
if (dir !== "rtl") return key;
return key === "ArrowLeft" ? "ArrowRight" : key === "ArrowRight" ? "ArrowLeft" : key;
}
function getFocusIntent(event, orientation, dir) {
const key = getDirectionAwareKey(event.key, dir);
if (orientation === "vertical" && ["ArrowLeft", "ArrowRight"].includes(key)) return void 0;
if (orientation === "horizontal" && ["ArrowUp", "ArrowDown"].includes(key)) return void 0;
return MAP_KEY_TO_FOCUS_INTENT[key];
}
function focusFirst2(candidates, preventScroll = false) {
const PREVIOUSLY_FOCUSED_ELEMENT = document.activeElement;
for (const candidate of candidates) {
if (candidate === PREVIOUSLY_FOCUSED_ELEMENT) return;
candidate.focus({ preventScroll });
if (document.activeElement !== PREVIOUSLY_FOCUSED_ELEMENT) return;
}
}
function wrapArray(array, startIndex) {
return array.map((_, index2) => array[(startIndex + index2) % array.length]);
}
var Root3 = RovingFocusGroup;
var Item = RovingFocusGroupItem;
// node_modules/@radix-ui/react-menu/node_modules/@radix-ui/react-slot/dist/index.mjs
var React21 = __toESM(require_react(), 1);
var import_jsx_runtime14 = __toESM(require_jsx_runtime(), 1);
function createSlot3(ownerName) {
const SlotClone = createSlotClone3(ownerName);
const Slot22 = React21.forwardRef((props, forwardedRef) => {
const { children, ...slotProps } = props;
const childrenArray = React21.Children.toArray(children);
const slottable = childrenArray.find(isSlottable3);
if (slottable) {
const newElement = slottable.props.children;
const newChildren = childrenArray.map((child) => {
if (child === slottable) {
if (React21.Children.count(newElement) > 1) return React21.Children.only(null);
return React21.isValidElement(newElement) ? newElement.props.children : null;
} else {
return child;
}
});
return (0, import_jsx_runtime14.jsx)(SlotClone, { ...slotProps, ref: forwardedRef, children: React21.isValidElement(newElement) ? React21.cloneElement(newElement, void 0, newChildren) : null });
}
return (0, import_jsx_runtime14.jsx)(SlotClone, { ...slotProps, ref: forwardedRef, children });
});
Slot22.displayName = `${ownerName}.Slot`;
return Slot22;
}
var Slot3 = createSlot3("Slot");
function createSlotClone3(ownerName) {
const SlotClone = React21.forwardRef((props, forwardedRef) => {
const { children, ...slotProps } = props;
if (React21.isValidElement(children)) {
const childrenRef = getElementRef4(children);
const props2 = mergeProps3(slotProps, children.props);
if (children.type !== React21.Fragment) {
props2.ref = forwardedRef ? composeRefs(forwardedRef, childrenRef) : childrenRef;
}
return React21.cloneElement(children, props2);
}
return React21.Children.count(children) > 1 ? React21.Children.only(null) : null;
});
SlotClone.displayName = `${ownerName}.SlotClone`;
return SlotClone;
}
var SLOTTABLE_IDENTIFIER3 = /* @__PURE__ */ Symbol("radix.slottable");
function createSlottable3(ownerName) {
const Slottable22 = ({ children }) => {
return (0, import_jsx_runtime14.jsx)(import_jsx_runtime14.Fragment, { children });
};
Slottable22.displayName = `${ownerName}.Slottable`;
Slottable22.__radixId = SLOTTABLE_IDENTIFIER3;
return Slottable22;
}
var Slottable3 = createSlottable3("Slottable");
function isSlottable3(child) {
return React21.isValidElement(child) && typeof child.type === "function" && "__radixId" in child.type && child.type.__radixId === SLOTTABLE_IDENTIFIER3;
}
function mergeProps3(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 getElementRef4(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/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 React33 = __toESM(require_react());
// node_modules/react-remove-scroll/dist/es2015/UI.js
var React29 = __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 React25 = __toESM(require_react());
var useIsomorphicLayoutEffect = typeof window !== "undefined" ? React25.useLayoutEffect : React25.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 React26 = __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 React27 = __toESM(require_react());
var import_react6 = __toESM(require_react());
// node_modules/use-sidecar/dist/es2015/exports.js
var React28 = __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 React28.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 = React29.forwardRef(function(props, parentRef) {
var ref = React29.useRef(null);
var _a = React29.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 React29.createElement(
React29.Fragment,
null,
enabled && React29.createElement(SideCar2, { sideCar: effectCar, removeScrollBar, shards, noRelative, noIsolation, inert, setCallbacks, allowPinchZoom: !!allowPinchZoom, lockRef: ref, gapMode }),
forwardProps ? React29.cloneElement(React29.Children.only(children), __assign(__assign({}, containerProps), { ref: containerRef })) : React29.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 React32 = __toESM(require_react());
// node_modules/react-remove-scroll-bar/dist/es2015/component.js
var React31 = __toESM(require_react());
// node_modules/react-style-singleton/dist/es2015/hook.js
var React30 = __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) {
React30.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() {
React31.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 = React31.useMemo(function() {
return getGapWidth(gapMode);
}, [gapMode]);
return React31.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 = React32.useRef([]);
var touchStartRef = React32.useRef([0, 0]);
var activeAxis = React32.useRef();
var id = React32.useState(idCounter++)[0];
var Style2 = React32.useState(styleSingleton)[0];
var lastProps = React32.useRef(props);
React32.useEffect(function() {
lastProps.current = props;
}, [props]);
React32.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 = React32.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 = React32.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 = React32.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 = React32.useCallback(function(event) {
touchStartRef.current = getTouchXY(event);
activeAxis.current = void 0;
}, []);
var scrollWheel = React32.useCallback(function(event) {
shouldCancel(event.type, getDeltaXY(event), event.target, shouldCancelEvent(event, props.lockRef.current));
}, []);
var scrollTouchMove = React32.useCallback(function(event) {
shouldCancel(event.type, getTouchXY(event), event.target, shouldCancelEvent(event, props.lockRef.current));
}, []);
React32.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 React32.createElement(
React32.Fragment,
null,
inert ? React32.createElement(Style2, { styles: generateStyle(id) }) : null,
removeScrollBar ? React32.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 = React33.forwardRef(function(props, ref) {
return React33.createElement(RemoveScroll, __assign({}, props, { ref, sideCar: sidecar_default }));
});
ReactRemoveScroll.classNames = RemoveScroll.classNames;
var Combination_default = ReactRemoveScroll;
// node_modules/@radix-ui/react-menu/dist/index.mjs
var import_jsx_runtime15 = __toESM(require_jsx_runtime(), 1);
var SELECTION_KEYS = ["Enter", " "];
var FIRST_KEYS = ["ArrowDown", "PageUp", "Home"];
var LAST_KEYS = ["ArrowUp", "PageDown", "End"];
var FIRST_LAST_KEYS = [...FIRST_KEYS, ...LAST_KEYS];
var SUB_OPEN_KEYS = {
ltr: [...SELECTION_KEYS, "ArrowRight"],
rtl: [...SELECTION_KEYS, "ArrowLeft"]
};
var SUB_CLOSE_KEYS = {
ltr: ["ArrowLeft"],
rtl: ["ArrowRight"]
};
var MENU_NAME = "Menu";
var [Collection2, useCollection2, createCollectionScope2] = createCollection(MENU_NAME);
var [createMenuContext, createMenuScope] = createContextScope(MENU_NAME, [
createCollectionScope2,
createPopperScope,
createRovingFocusGroupScope
]);
var usePopperScope = createPopperScope();
var useRovingFocusGroupScope = createRovingFocusGroupScope();
var [MenuProvider, useMenuContext] = createMenuContext(MENU_NAME);
var [MenuRootProvider, useMenuRootContext] = createMenuContext(MENU_NAME);
var Menu = (props) => {
const { __scopeMenu, open = false, children, dir, onOpenChange, modal = true } = props;
const popperScope = usePopperScope(__scopeMenu);
const [content, setContent] = React34.useState(null);
const isUsingKeyboardRef = React34.useRef(false);
const handleOpenChange = useCallbackRef(onOpenChange);
const direction = useDirection(dir);
React34.useEffect(() => {
const handleKeyDown = () => {
isUsingKeyboardRef.current = true;
document.addEventListener("pointerdown", handlePointer, { capture: true, once: true });
document.addEventListener("pointermove", handlePointer, { capture: true, once: true });
};
const handlePointer = () => isUsingKeyboardRef.current = false;
document.addEventListener("keydown", handleKeyDown, { capture: true });
return () => {
document.removeEventListener("keydown", handleKeyDown, { capture: true });
document.removeEventListener("pointerdown", handlePointer, { capture: true });
document.removeEventListener("pointermove", handlePointer, { capture: true });
};
}, []);
return (0, import_jsx_runtime15.jsx)(Root2, { ...popperScope, children: (0, import_jsx_runtime15.jsx)(
MenuProvider,
{
scope: __scopeMenu,
open,
onOpenChange: handleOpenChange,
content,
onContentChange: setContent,
children: (0, import_jsx_runtime15.jsx)(
MenuRootProvider,
{
scope: __scopeMenu,
onClose: React34.useCallback(() => handleOpenChange(false), [handleOpenChange]),
isUsingKeyboardRef,
dir: direction,
modal,
children
}
)
}
) });
};
Menu.displayName = MENU_NAME;
var ANCHOR_NAME2 = "MenuAnchor";
var MenuAnchor = React34.forwardRef(
(props, forwardedRef) => {
const { __scopeMenu, ...anchorProps } = props;
const popperScope = usePopperScope(__scopeMenu);
return (0, import_jsx_runtime15.jsx)(Anchor, { ...popperScope, ...anchorProps, ref: forwardedRef });
}
);
MenuAnchor.displayName = ANCHOR_NAME2;
var PORTAL_NAME2 = "MenuPortal";
var [PortalProvider, usePortalContext] = createMenuContext(PORTAL_NAME2, {
forceMount: void 0
});
var MenuPortal = (props) => {
const { __scopeMenu, forceMount, children, container } = props;
const context = useMenuContext(PORTAL_NAME2, __scopeMenu);
return (0, import_jsx_runtime15.jsx)(PortalProvider, { scope: __scopeMenu, forceMount, children: (0, import_jsx_runtime15.jsx)(Presence, { present: forceMount || context.open, children: (0, import_jsx_runtime15.jsx)(Portal, { asChild: true, container, children }) }) });
};
MenuPortal.displayName = PORTAL_NAME2;
var CONTENT_NAME2 = "MenuContent";
var [MenuContentProvider, useMenuContentContext] = createMenuContext(CONTENT_NAME2);
var MenuContent = React34.forwardRef(
(props, forwardedRef) => {
const portalContext = usePortalContext(CONTENT_NAME2, props.__scopeMenu);
const { forceMount = portalContext.forceMount, ...contentProps } = props;
const context = useMenuContext(CONTENT_NAME2, props.__scopeMenu);
const rootContext = useMenuRootContext(CONTENT_NAME2, props.__scopeMenu);
return (0, import_jsx_runtime15.jsx)(Collection2.Provider, { scope: props.__scopeMenu, children: (0, import_jsx_runtime15.jsx)(Presence, { present: forceMount || context.open, children: (0, import_jsx_runtime15.jsx)(Collection2.Slot, { scope: props.__scopeMenu, children: rootContext.modal ? (0, import_jsx_runtime15.jsx)(MenuRootContentModal, { ...contentProps, ref: forwardedRef }) : (0, import_jsx_runtime15.jsx)(MenuRootContentNonModal, { ...contentProps, ref: forwardedRef }) }) }) });
}
);
var MenuRootContentModal = React34.forwardRef(
(props, forwardedRef) => {
const context = useMenuContext(CONTENT_NAME2, props.__scopeMenu);
const ref = React34.useRef(null);
const composedRefs = useComposedRefs(forwardedRef, ref);
React34.useEffect(() => {
const content = ref.current;
if (content) return hideOthers(content);
}, []);
return (0, import_jsx_runtime15.jsx)(
MenuContentImpl,
{
...props,
ref: composedRefs,
trapFocus: context.open,
disableOutsidePointerEvents: context.open,
disableOutsideScroll: true,
onFocusOutside: composeEventHandlers(
props.onFocusOutside,
(event) => event.preventDefault(),
{ checkForDefaultPrevented: false }
),
onDismiss: () => context.onOpenChange(false)
}
);
}
);
var MenuRootContentNonModal = React34.forwardRef((props, forwardedRef) => {
const context = useMenuContext(CONTENT_NAME2, props.__scopeMenu);
return (0, import_jsx_runtime15.jsx)(
MenuContentImpl,
{
...props,
ref: forwardedRef,
trapFocus: false,
disableOutsidePointerEvents: false,
disableOutsideScroll: false,
onDismiss: () => context.onOpenChange(false)
}
);
});
var Slot4 = createSlot3("MenuContent.ScrollLock");
var MenuContentImpl = React34.forwardRef(
(props, forwardedRef) => {
const {
__scopeMenu,
loop = false,
trapFocus,
onOpenAutoFocus,
onCloseAutoFocus,
disableOutsidePointerEvents,
onEntryFocus,
onEscapeKeyDown,
onPointerDownOutside,
onFocusOutside,
onInteractOutside,
onDismiss,
disableOutsideScroll,
...contentProps
} = props;
const context = useMenuContext(CONTENT_NAME2, __scopeMenu);
const rootContext = useMenuRootContext(CONTENT_NAME2, __scopeMenu);
const popperScope = usePopperScope(__scopeMenu);
const rovingFocusGroupScope = useRovingFocusGroupScope(__scopeMenu);
const getItems = useCollection2(__scopeMenu);
const [currentItemId, setCurrentItemId] = React34.useState(null);
const contentRef = React34.useRef(null);
const composedRefs = useComposedRefs(forwardedRef, contentRef, context.onContentChange);
const timerRef = React34.useRef(0);
const searchRef = React34.useRef("");
const pointerGraceTimerRef = React34.useRef(0);
const pointerGraceIntentRef = React34.useRef(null);
const pointerDirRef = React34.useRef("right");
const lastPointerXRef = React34.useRef(0);
const ScrollLockWrapper = disableOutsideScroll ? Combination_default : React34.Fragment;
const scrollLockWrapperProps = disableOutsideScroll ? { as: Slot4, allowPinchZoom: true } : void 0;
const handleTypeaheadSearch = (key) => {
const search = searchRef.current + key;
const items = getItems().filter((item) => !item.disabled);
const currentItem = document.activeElement;
const currentMatch = items.find((item) => item.ref.current === currentItem)?.textValue;
const values = items.map((item) => item.textValue);
const nextMatch = getNextMatch(values, search, currentMatch);
const newItem = items.find((item) => item.textValue === nextMatch)?.ref.current;
(function updateSearch(value) {
searchRef.current = value;
window.clearTimeout(timerRef.current);
if (value !== "") timerRef.current = window.setTimeout(() => updateSearch(""), 1e3);
})(search);
if (newItem) {
setTimeout(() => newItem.focus());
}
};
React34.useEffect(() => {
return () => window.clearTimeout(timerRef.current);
}, []);
useFocusGuards();
const isPointerMovingToSubmenu = React34.useCallback((event) => {
const isMovingTowards = pointerDirRef.current === pointerGraceIntentRef.current?.side;
return isMovingTowards && isPointerInGraceArea(event, pointerGraceIntentRef.current?.area);
}, []);
return (0, import_jsx_runtime15.jsx)(
MenuContentProvider,
{
scope: __scopeMenu,
searchRef,
onItemEnter: React34.useCallback(
(event) => {
if (isPointerMovingToSubmenu(event)) event.preventDefault();
},
[isPointerMovingToSubmenu]
),
onItemLeave: React34.useCallback(
(event) => {
if (isPointerMovingToSubmenu(event)) return;
contentRef.current?.focus();
setCurrentItemId(null);
},
[isPointerMovingToSubmenu]
),
onTriggerLeave: React34.useCallback(
(event) => {
if (isPointerMovingToSubmenu(event)) event.preventDefault();
},
[isPointerMovingToSubmenu]
),
pointerGraceTimerRef,
onPointerGraceIntentChange: React34.useCallback((intent) => {
pointerGraceIntentRef.current = intent;
}, []),
children: (0, import_jsx_runtime15.jsx)(ScrollLockWrapper, { ...scrollLockWrapperProps, children: (0, import_jsx_runtime15.jsx)(
FocusScope,
{
asChild: true,
trapped: trapFocus,
onMountAutoFocus: composeEventHandlers(onOpenAutoFocus, (event) => {
event.preventDefault();
contentRef.current?.focus({ preventScroll: true });
}),
onUnmountAutoFocus: onCloseAutoFocus,
children: (0, import_jsx_runtime15.jsx)(
DismissableLayer,
{
asChild: true,
disableOutsidePointerEvents,
onEscapeKeyDown,
onPointerDownOutside,
onFocusOutside,
onInteractOutside,
onDismiss,
children: (0, import_jsx_runtime15.jsx)(
Root3,
{
asChild: true,
...rovingFocusGroupScope,
dir: rootContext.dir,
orientation: "vertical",
loop,
currentTabStopId: currentItemId,
onCurrentTabStopIdChange: setCurrentItemId,
onEntryFocus: composeEventHandlers(onEntryFocus, (event) => {
if (!rootContext.isUsingKeyboardRef.current) event.preventDefault();
}),
preventScrollOnEntryFocus: true,
children: (0, import_jsx_runtime15.jsx)(
Content,
{
role: "menu",
"aria-orientation": "vertical",
"data-state": getOpenState(context.open),
"data-radix-menu-content": "",
dir: rootContext.dir,
...popperScope,
...contentProps,
ref: composedRefs,
style: { outline: "none", ...contentProps.style },
onKeyDown: composeEventHandlers(contentProps.onKeyDown, (event) => {
const target = event.target;
const isKeyDownInside = target.closest("[data-radix-menu-content]") === event.currentTarget;
const isModifierKey = event.ctrlKey || event.altKey || event.metaKey;
const isCharacterKey = event.key.length === 1;
if (isKeyDownInside) {
if (event.key === "Tab") event.preventDefault();
if (!isModifierKey && isCharacterKey) handleTypeaheadSearch(event.key);
}
const content = contentRef.current;
if (event.target !== content) return;
if (!FIRST_LAST_KEYS.includes(event.key)) return;
event.preventDefault();
const items = getItems().filter((item) => !item.disabled);
const candidateNodes = items.map((item) => item.ref.current);
if (LAST_KEYS.includes(event.key)) candidateNodes.reverse();
focusFirst3(candidateNodes);
}),
onBlur: composeEventHandlers(props.onBlur, (event) => {
if (!event.currentTarget.contains(event.target)) {
window.clearTimeout(timerRef.current);
searchRef.current = "";
}
}),
onPointerMove: composeEventHandlers(
props.onPointerMove,
whenMouse((event) => {
const target = event.target;
const pointerXHasChanged = lastPointerXRef.current !== event.clientX;
if (event.currentTarget.contains(target) && pointerXHasChanged) {
const newDir = event.clientX > lastPointerXRef.current ? "right" : "left";
pointerDirRef.current = newDir;
lastPointerXRef.current = event.clientX;
}
})
)
}
)
}
)
}
)
}
) })
}
);
}
);
MenuContent.displayName = CONTENT_NAME2;
var GROUP_NAME2 = "MenuGroup";
var MenuGroup = React34.forwardRef(
(props, forwardedRef) => {
const { __scopeMenu, ...groupProps } = props;
return (0, import_jsx_runtime15.jsx)(Primitive.div, { role: "group", ...groupProps, ref: forwardedRef });
}
);
MenuGroup.displayName = GROUP_NAME2;
var LABEL_NAME = "MenuLabel";
var MenuLabel = React34.forwardRef(
(props, forwardedRef) => {
const { __scopeMenu, ...labelProps } = props;
return (0, import_jsx_runtime15.jsx)(Primitive.div, { ...labelProps, ref: forwardedRef });
}
);
MenuLabel.displayName = LABEL_NAME;
var ITEM_NAME2 = "MenuItem";
var ITEM_SELECT = "menu.itemSelect";
var MenuItem = React34.forwardRef(
(props, forwardedRef) => {
const { disabled = false, onSelect, ...itemProps } = props;
const ref = React34.useRef(null);
const rootContext = useMenuRootContext(ITEM_NAME2, props.__scopeMenu);
const contentContext = useMenuContentContext(ITEM_NAME2, props.__scopeMenu);
const composedRefs = useComposedRefs(forwardedRef, ref);
const isPointerDownRef = React34.useRef(false);
const handleSelect = () => {
const menuItem = ref.current;
if (!disabled && menuItem) {
const itemSelectEvent = new CustomEvent(ITEM_SELECT, { bubbles: true, cancelable: true });
menuItem.addEventListener(ITEM_SELECT, (event) => onSelect?.(event), { once: true });
dispatchDiscreteCustomEvent(menuItem, itemSelectEvent);
if (itemSelectEvent.defaultPrevented) {
isPointerDownRef.current = false;
} else {
rootContext.onClose();
}
}
};
return (0, import_jsx_runtime15.jsx)(
MenuItemImpl,
{
...itemProps,
ref: composedRefs,
disabled,
onClick: composeEventHandlers(props.onClick, handleSelect),
onPointerDown: (event) => {
props.onPointerDown?.(event);
isPointerDownRef.current = true;
},
onPointerUp: composeEventHandlers(props.onPointerUp, (event) => {
if (!isPointerDownRef.current) event.currentTarget?.click();
}),
onKeyDown: composeEventHandlers(props.onKeyDown, (event) => {
const isTypingAhead = contentContext.searchRef.current !== "";
if (disabled || isTypingAhead && event.key === " ") return;
if (SELECTION_KEYS.includes(event.key)) {
event.currentTarget.click();
event.preventDefault();
}
})
}
);
}
);
MenuItem.displayName = ITEM_NAME2;
var MenuItemImpl = React34.forwardRef(
(props, forwardedRef) => {
const { __scopeMenu, disabled = false, textValue, ...itemProps } = props;
const contentContext = useMenuContentContext(ITEM_NAME2, __scopeMenu);
const rovingFocusGroupScope = useRovingFocusGroupScope(__scopeMenu);
const ref = React34.useRef(null);
const composedRefs = useComposedRefs(forwardedRef, ref);
const [isFocused, setIsFocused] = React34.useState(false);
const [textContent, setTextContent] = React34.useState("");
React34.useEffect(() => {
const menuItem = ref.current;
if (menuItem) {
setTextContent((menuItem.textContent ?? "").trim());
}
}, [itemProps.children]);
return (0, import_jsx_runtime15.jsx)(
Collection2.ItemSlot,
{
scope: __scopeMenu,
disabled,
textValue: textValue ?? textContent,
children: (0, import_jsx_runtime15.jsx)(Item, { asChild: true, ...rovingFocusGroupScope, focusable: !disabled, children: (0, import_jsx_runtime15.jsx)(
Primitive.div,
{
role: "menuitem",
"data-highlighted": isFocused ? "" : void 0,
"aria-disabled": disabled || void 0,
"data-disabled": disabled ? "" : void 0,
...itemProps,
ref: composedRefs,
onPointerMove: composeEventHandlers(
props.onPointerMove,
whenMouse((event) => {
if (disabled) {
contentContext.onItemLeave(event);
} else {
contentContext.onItemEnter(event);
if (!event.defaultPrevented) {
const item = event.currentTarget;
item.focus({ preventScroll: true });
}
}
})
),
onPointerLeave: composeEventHandlers(
props.onPointerLeave,
whenMouse((event) => contentContext.onItemLeave(event))
),
onFocus: composeEventHandlers(props.onFocus, () => setIsFocused(true)),
onBlur: composeEventHandlers(props.onBlur, () => setIsFocused(false))
}
) })
}
);
}
);
var CHECKBOX_ITEM_NAME = "MenuCheckboxItem";
var MenuCheckboxItem = React34.forwardRef(
(props, forwardedRef) => {
const { checked = false, onCheckedChange, ...checkboxItemProps } = props;
return (0, import_jsx_runtime15.jsx)(ItemIndicatorProvider, { scope: props.__scopeMenu, checked, children: (0, import_jsx_runtime15.jsx)(
MenuItem,
{
role: "menuitemcheckbox",
"aria-checked": isIndeterminate(checked) ? "mixed" : checked,
...checkboxItemProps,
ref: forwardedRef,
"data-state": getCheckedState(checked),
onSelect: composeEventHandlers(
checkboxItemProps.onSelect,
() => onCheckedChange?.(isIndeterminate(checked) ? true : !checked),
{ checkForDefaultPrevented: false }
)
}
) });
}
);
MenuCheckboxItem.displayName = CHECKBOX_ITEM_NAME;
var RADIO_GROUP_NAME = "MenuRadioGroup";
var [RadioGroupProvider, useRadioGroupContext] = createMenuContext(
RADIO_GROUP_NAME,
{ value: void 0, onValueChange: () => {
} }
);
var MenuRadioGroup = React34.forwardRef(
(props, forwardedRef) => {
const { value, onValueChange, ...groupProps } = props;
const handleValueChange = useCallbackRef(onValueChange);
return (0, import_jsx_runtime15.jsx)(RadioGroupProvider, { scope: props.__scopeMenu, value, onValueChange: handleValueChange, children: (0, import_jsx_runtime15.jsx)(MenuGroup, { ...groupProps, ref: forwardedRef }) });
}
);
MenuRadioGroup.displayName = RADIO_GROUP_NAME;
var RADIO_ITEM_NAME = "MenuRadioItem";
var MenuRadioItem = React34.forwardRef(
(props, forwardedRef) => {
const { value, ...radioItemProps } = props;
const context = useRadioGroupContext(RADIO_ITEM_NAME, props.__scopeMenu);
const checked = value === context.value;
return (0, import_jsx_runtime15.jsx)(ItemIndicatorProvider, { scope: props.__scopeMenu, checked, children: (0, import_jsx_runtime15.jsx)(
MenuItem,
{
role: "menuitemradio",
"aria-checked": checked,
...radioItemProps,
ref: forwardedRef,
"data-state": getCheckedState(checked),
onSelect: composeEventHandlers(
radioItemProps.onSelect,
() => context.onValueChange?.(value),
{ checkForDefaultPrevented: false }
)
}
) });
}
);
MenuRadioItem.displayName = RADIO_ITEM_NAME;
var ITEM_INDICATOR_NAME = "MenuItemIndicator";
var [ItemIndicatorProvider, useItemIndicatorContext] = createMenuContext(
ITEM_INDICATOR_NAME,
{ checked: false }
);
var MenuItemIndicator = React34.forwardRef(
(props, forwardedRef) => {
const { __scopeMenu, forceMount, ...itemIndicatorProps } = props;
const indicatorContext = useItemIndicatorContext(ITEM_INDICATOR_NAME, __scopeMenu);
return (0, import_jsx_runtime15.jsx)(
Presence,
{
present: forceMount || isIndeterminate(indicatorContext.checked) || indicatorContext.checked === true,
children: (0, import_jsx_runtime15.jsx)(
Primitive.span,
{
...itemIndicatorProps,
ref: forwardedRef,
"data-state": getCheckedState(indicatorContext.checked)
}
)
}
);
}
);
MenuItemIndicator.displayName = ITEM_INDICATOR_NAME;
var SEPARATOR_NAME = "MenuSeparator";
var MenuSeparator = React34.forwardRef(
(props, forwardedRef) => {
const { __scopeMenu, ...separatorProps } = props;
return (0, import_jsx_runtime15.jsx)(
Primitive.div,
{
role: "separator",
"aria-orientation": "horizontal",
...separatorProps,
ref: forwardedRef
}
);
}
);
MenuSeparator.displayName = SEPARATOR_NAME;
var ARROW_NAME2 = "MenuArrow";
var MenuArrow = React34.forwardRef(
(props, forwardedRef) => {
const { __scopeMenu, ...arrowProps } = props;
const popperScope = usePopperScope(__scopeMenu);
return (0, import_jsx_runtime15.jsx)(Arrow2, { ...popperScope, ...arrowProps, ref: forwardedRef });
}
);
MenuArrow.displayName = ARROW_NAME2;
var SUB_NAME = "MenuSub";
var [MenuSubProvider, useMenuSubContext] = createMenuContext(SUB_NAME);
var MenuSub = (props) => {
const { __scopeMenu, children, open = false, onOpenChange } = props;
const parentMenuContext = useMenuContext(SUB_NAME, __scopeMenu);
const popperScope = usePopperScope(__scopeMenu);
const [trigger, setTrigger] = React34.useState(null);
const [content, setContent] = React34.useState(null);
const handleOpenChange = useCallbackRef(onOpenChange);
React34.useEffect(() => {
if (parentMenuContext.open === false) handleOpenChange(false);
return () => handleOpenChange(false);
}, [parentMenuContext.open, handleOpenChange]);
return (0, import_jsx_runtime15.jsx)(Root2, { ...popperScope, children: (0, import_jsx_runtime15.jsx)(
MenuProvider,
{
scope: __scopeMenu,
open,
onOpenChange: handleOpenChange,
content,
onContentChange: setContent,
children: (0, import_jsx_runtime15.jsx)(
MenuSubProvider,
{
scope: __scopeMenu,
contentId: useId(),
triggerId: useId(),
trigger,
onTriggerChange: setTrigger,
children
}
)
}
) });
};
MenuSub.displayName = SUB_NAME;
var SUB_TRIGGER_NAME = "MenuSubTrigger";
var MenuSubTrigger = React34.forwardRef(
(props, forwardedRef) => {
const context = useMenuContext(SUB_TRIGGER_NAME, props.__scopeMenu);
const rootContext = useMenuRootContext(SUB_TRIGGER_NAME, props.__scopeMenu);
const subContext = useMenuSubContext(SUB_TRIGGER_NAME, props.__scopeMenu);
const contentContext = useMenuContentContext(SUB_TRIGGER_NAME, props.__scopeMenu);
const openTimerRef = React34.useRef(null);
const { pointerGraceTimerRef, onPointerGraceIntentChange } = contentContext;
const scope = { __scopeMenu: props.__scopeMenu };
const clearOpenTimer = React34.useCallback(() => {
if (openTimerRef.current) window.clearTimeout(openTimerRef.current);
openTimerRef.current = null;
}, []);
React34.useEffect(() => clearOpenTimer, [clearOpenTimer]);
React34.useEffect(() => {
const pointerGraceTimer = pointerGraceTimerRef.current;
return () => {
window.clearTimeout(pointerGraceTimer);
onPointerGraceIntentChange(null);
};
}, [pointerGraceTimerRef, onPointerGraceIntentChange]);
return (0, import_jsx_runtime15.jsx)(MenuAnchor, { asChild: true, ...scope, children: (0, import_jsx_runtime15.jsx)(
MenuItemImpl,
{
id: subContext.triggerId,
"aria-haspopup": "menu",
"aria-expanded": context.open,
"aria-controls": subContext.contentId,
"data-state": getOpenState(context.open),
...props,
ref: composeRefs(forwardedRef, subContext.onTriggerChange),
onClick: (event) => {
props.onClick?.(event);
if (props.disabled || event.defaultPrevented) return;
event.currentTarget.focus();
if (!context.open) context.onOpenChange(true);
},
onPointerMove: composeEventHandlers(
props.onPointerMove,
whenMouse((event) => {
contentContext.onItemEnter(event);
if (event.defaultPrevented) return;
if (!props.disabled && !context.open && !openTimerRef.current) {
contentContext.onPointerGraceIntentChange(null);
openTimerRef.current = window.setTimeout(() => {
context.onOpenChange(true);
clearOpenTimer();
}, 100);
}
})
),
onPointerLeave: composeEventHandlers(
props.onPointerLeave,
whenMouse((event) => {
clearOpenTimer();
const contentRect = context.content?.getBoundingClientRect();
if (contentRect) {
const side = context.content?.dataset.side;
const rightSide = side === "right";
const bleed = rightSide ? -5 : 5;
const contentNearEdge = contentRect[rightSide ? "left" : "right"];
const contentFarEdge = contentRect[rightSide ? "right" : "left"];
contentContext.onPointerGraceIntentChange({
area: [
// Apply a bleed on clientX to ensure that our exit point is
// consistently within polygon bounds
{ x: event.clientX + bleed, y: event.clientY },
{ x: contentNearEdge, y: contentRect.top },
{ x: contentFarEdge, y: contentRect.top },
{ x: contentFarEdge, y: contentRect.bottom },
{ x: contentNearEdge, y: contentRect.bottom }
],
side
});
window.clearTimeout(pointerGraceTimerRef.current);
pointerGraceTimerRef.current = window.setTimeout(
() => contentContext.onPointerGraceIntentChange(null),
300
);
} else {
contentContext.onTriggerLeave(event);
if (event.defaultPrevented) return;
contentContext.onPointerGraceIntentChange(null);
}
})
),
onKeyDown: composeEventHandlers(props.onKeyDown, (event) => {
const isTypingAhead = contentContext.searchRef.current !== "";
if (props.disabled || isTypingAhead && event.key === " ") return;
if (SUB_OPEN_KEYS[rootContext.dir].includes(event.key)) {
context.onOpenChange(true);
context.content?.focus();
event.preventDefault();
}
})
}
) });
}
);
MenuSubTrigger.displayName = SUB_TRIGGER_NAME;
var SUB_CONTENT_NAME = "MenuSubContent";
var MenuSubContent = React34.forwardRef(
(props, forwardedRef) => {
const portalContext = usePortalContext(CONTENT_NAME2, props.__scopeMenu);
const { forceMount = portalContext.forceMount, ...subContentProps } = props;
const context = useMenuContext(CONTENT_NAME2, props.__scopeMenu);
const rootContext = useMenuRootContext(CONTENT_NAME2, props.__scopeMenu);
const subContext = useMenuSubContext(SUB_CONTENT_NAME, props.__scopeMenu);
const ref = React34.useRef(null);
const composedRefs = useComposedRefs(forwardedRef, ref);
return (0, import_jsx_runtime15.jsx)(Collection2.Provider, { scope: props.__scopeMenu, children: (0, import_jsx_runtime15.jsx)(Presence, { present: forceMount || context.open, children: (0, import_jsx_runtime15.jsx)(Collection2.Slot, { scope: props.__scopeMenu, children: (0, import_jsx_runtime15.jsx)(
MenuContentImpl,
{
id: subContext.contentId,
"aria-labelledby": subContext.triggerId,
...subContentProps,
ref: composedRefs,
align: "start",
side: rootContext.dir === "rtl" ? "left" : "right",
disableOutsidePointerEvents: false,
disableOutsideScroll: false,
trapFocus: false,
onOpenAutoFocus: (event) => {
if (rootContext.isUsingKeyboardRef.current) ref.current?.focus();
event.preventDefault();
},
onCloseAutoFocus: (event) => event.preventDefault(),
onFocusOutside: composeEventHandlers(props.onFocusOutside, (event) => {
if (event.target !== subContext.trigger) context.onOpenChange(false);
}),
onEscapeKeyDown: composeEventHandlers(props.onEscapeKeyDown, (event) => {
rootContext.onClose();
event.preventDefault();
}),
onKeyDown: composeEventHandlers(props.onKeyDown, (event) => {
const isKeyDownInside = event.currentTarget.contains(event.target);
const isCloseKey = SUB_CLOSE_KEYS[rootContext.dir].includes(event.key);
if (isKeyDownInside && isCloseKey) {
context.onOpenChange(false);
subContext.trigger?.focus();
event.preventDefault();
}
})
}
) }) }) });
}
);
MenuSubContent.displayName = SUB_CONTENT_NAME;
function getOpenState(open) {
return open ? "open" : "closed";
}
function isIndeterminate(checked) {
return checked === "indeterminate";
}
function getCheckedState(checked) {
return isIndeterminate(checked) ? "indeterminate" : checked ? "checked" : "unchecked";
}
function focusFirst3(candidates) {
const PREVIOUSLY_FOCUSED_ELEMENT = document.activeElement;
for (const candidate of candidates) {
if (candidate === PREVIOUSLY_FOCUSED_ELEMENT) return;
candidate.focus();
if (document.activeElement !== PREVIOUSLY_FOCUSED_ELEMENT) return;
}
}
function wrapArray2(array, startIndex) {
return array.map((_, index2) => array[(startIndex + index2) % array.length]);
}
function getNextMatch(values, search, currentMatch) {
const isRepeated = search.length > 1 && Array.from(search).every((char) => char === search[0]);
const normalizedSearch = isRepeated ? search[0] : search;
const currentMatchIndex = currentMatch ? values.indexOf(currentMatch) : -1;
let wrappedValues = wrapArray2(values, Math.max(currentMatchIndex, 0));
const excludeCurrentMatch = normalizedSearch.length === 1;
if (excludeCurrentMatch) wrappedValues = wrappedValues.filter((v) => v !== currentMatch);
const nextMatch = wrappedValues.find(
(value) => value.toLowerCase().startsWith(normalizedSearch.toLowerCase())
);
return nextMatch !== currentMatch ? nextMatch : void 0;
}
function isPointInPolygon(point, polygon) {
const { x, y } = point;
let inside = false;
for (let i = 0, j = polygon.length - 1; i < polygon.length; j = i++) {
const ii = polygon[i];
const jj = polygon[j];
const xi = ii.x;
const yi = ii.y;
const xj = jj.x;
const yj = jj.y;
const intersect = yi > y !== yj > y && x < (xj - xi) * (y - yi) / (yj - yi) + xi;
if (intersect) inside = !inside;
}
return inside;
}
function isPointerInGraceArea(event, area) {
if (!area) return false;
const cursorPos = { x: event.clientX, y: event.clientY };
return isPointInPolygon(cursorPos, area);
}
function whenMouse(handler) {
return (event) => event.pointerType === "mouse" ? handler(event) : void 0;
}
var Root32 = Menu;
var Anchor2 = MenuAnchor;
var Portal2 = MenuPortal;
var Content2 = MenuContent;
var Group = MenuGroup;
var Label = MenuLabel;
var Item2 = MenuItem;
var CheckboxItem = MenuCheckboxItem;
var RadioGroup = MenuRadioGroup;
var RadioItem = MenuRadioItem;
var ItemIndicator = MenuItemIndicator;
var Separator = MenuSeparator;
var Arrow22 = MenuArrow;
var Sub = MenuSub;
var SubTrigger = MenuSubTrigger;
var SubContent = MenuSubContent;
// node_modules/@radix-ui/react-dropdown-menu/dist/index.mjs
var import_jsx_runtime16 = __toESM(require_jsx_runtime(), 1);
var DROPDOWN_MENU_NAME = "DropdownMenu";
var [createDropdownMenuContext, createDropdownMenuScope] = createContextScope(
DROPDOWN_MENU_NAME,
[createMenuScope]
);
var useMenuScope = createMenuScope();
var [DropdownMenuProvider, useDropdownMenuContext] = createDropdownMenuContext(DROPDOWN_MENU_NAME);
var DropdownMenu = (props) => {
const {
__scopeDropdownMenu,
children,
dir,
open: openProp,
defaultOpen,
onOpenChange,
modal = true
} = props;
const menuScope = useMenuScope(__scopeDropdownMenu);
const triggerRef = React35.useRef(null);
const [open, setOpen] = useControllableState({
prop: openProp,
defaultProp: defaultOpen ?? false,
onChange: onOpenChange,
caller: DROPDOWN_MENU_NAME
});
return (0, import_jsx_runtime16.jsx)(
DropdownMenuProvider,
{
scope: __scopeDropdownMenu,
triggerId: useId(),
triggerRef,
contentId: useId(),
open,
onOpenChange: setOpen,
onOpenToggle: React35.useCallback(() => setOpen((prevOpen) => !prevOpen), [setOpen]),
modal,
children: (0, import_jsx_runtime16.jsx)(Root32, { ...menuScope, open, onOpenChange: setOpen, dir, modal, children })
}
);
};
DropdownMenu.displayName = DROPDOWN_MENU_NAME;
var TRIGGER_NAME = "DropdownMenuTrigger";
var DropdownMenuTrigger = React35.forwardRef(
(props, forwardedRef) => {
const { __scopeDropdownMenu, disabled = false, ...triggerProps } = props;
const context = useDropdownMenuContext(TRIGGER_NAME, __scopeDropdownMenu);
const menuScope = useMenuScope(__scopeDropdownMenu);
return (0, import_jsx_runtime16.jsx)(Anchor2, { asChild: true, ...menuScope, children: (0, import_jsx_runtime16.jsx)(
Primitive.button,
{
type: "button",
id: context.triggerId,
"aria-haspopup": "menu",
"aria-expanded": context.open,
"aria-controls": context.open ? context.contentId : void 0,
"data-state": context.open ? "open" : "closed",
"data-disabled": disabled ? "" : void 0,
disabled,
...triggerProps,
ref: composeRefs(forwardedRef, context.triggerRef),
onPointerDown: composeEventHandlers(props.onPointerDown, (event) => {
if (!disabled && event.button === 0 && event.ctrlKey === false) {
context.onOpenToggle();
if (!context.open) event.preventDefault();
}
}),
onKeyDown: composeEventHandlers(props.onKeyDown, (event) => {
if (disabled) return;
if (["Enter", " "].includes(event.key)) context.onOpenToggle();
if (event.key === "ArrowDown") context.onOpenChange(true);
if (["Enter", " ", "ArrowDown"].includes(event.key)) event.preventDefault();
})
}
) });
}
);
DropdownMenuTrigger.displayName = TRIGGER_NAME;
var PORTAL_NAME3 = "DropdownMenuPortal";
var DropdownMenuPortal = (props) => {
const { __scopeDropdownMenu, ...portalProps } = props;
const menuScope = useMenuScope(__scopeDropdownMenu);
return (0, import_jsx_runtime16.jsx)(Portal2, { ...menuScope, ...portalProps });
};
DropdownMenuPortal.displayName = PORTAL_NAME3;
var CONTENT_NAME3 = "DropdownMenuContent";
var DropdownMenuContent = React35.forwardRef(
(props, forwardedRef) => {
const { __scopeDropdownMenu, ...contentProps } = props;
const context = useDropdownMenuContext(CONTENT_NAME3, __scopeDropdownMenu);
const menuScope = useMenuScope(__scopeDropdownMenu);
const hasInteractedOutsideRef = React35.useRef(false);
return (0, import_jsx_runtime16.jsx)(
Content2,
{
id: context.contentId,
"aria-labelledby": context.triggerId,
...menuScope,
...contentProps,
ref: forwardedRef,
onCloseAutoFocus: composeEventHandlers(props.onCloseAutoFocus, (event) => {
if (!hasInteractedOutsideRef.current) context.triggerRef.current?.focus();
hasInteractedOutsideRef.current = false;
event.preventDefault();
}),
onInteractOutside: composeEventHandlers(props.onInteractOutside, (event) => {
const originalEvent = event.detail.originalEvent;
const ctrlLeftClick = originalEvent.button === 0 && originalEvent.ctrlKey === true;
const isRightClick = originalEvent.button === 2 || ctrlLeftClick;
if (!context.modal || isRightClick) hasInteractedOutsideRef.current = true;
}),
style: {
...props.style,
// re-namespace exposed content custom properties
...{
"--radix-dropdown-menu-content-transform-origin": "var(--radix-popper-transform-origin)",
"--radix-dropdown-menu-content-available-width": "var(--radix-popper-available-width)",
"--radix-dropdown-menu-content-available-height": "var(--radix-popper-available-height)",
"--radix-dropdown-menu-trigger-width": "var(--radix-popper-anchor-width)",
"--radix-dropdown-menu-trigger-height": "var(--radix-popper-anchor-height)"
}
}
}
);
}
);
DropdownMenuContent.displayName = CONTENT_NAME3;
var GROUP_NAME3 = "DropdownMenuGroup";
var DropdownMenuGroup = React35.forwardRef(
(props, forwardedRef) => {
const { __scopeDropdownMenu, ...groupProps } = props;
const menuScope = useMenuScope(__scopeDropdownMenu);
return (0, import_jsx_runtime16.jsx)(Group, { ...menuScope, ...groupProps, ref: forwardedRef });
}
);
DropdownMenuGroup.displayName = GROUP_NAME3;
var LABEL_NAME2 = "DropdownMenuLabel";
var DropdownMenuLabel = React35.forwardRef(
(props, forwardedRef) => {
const { __scopeDropdownMenu, ...labelProps } = props;
const menuScope = useMenuScope(__scopeDropdownMenu);
return (0, import_jsx_runtime16.jsx)(Label, { ...menuScope, ...labelProps, ref: forwardedRef });
}
);
DropdownMenuLabel.displayName = LABEL_NAME2;
var ITEM_NAME3 = "DropdownMenuItem";
var DropdownMenuItem = React35.forwardRef(
(props, forwardedRef) => {
const { __scopeDropdownMenu, ...itemProps } = props;
const menuScope = useMenuScope(__scopeDropdownMenu);
return (0, import_jsx_runtime16.jsx)(Item2, { ...menuScope, ...itemProps, ref: forwardedRef });
}
);
DropdownMenuItem.displayName = ITEM_NAME3;
var CHECKBOX_ITEM_NAME2 = "DropdownMenuCheckboxItem";
var DropdownMenuCheckboxItem = React35.forwardRef((props, forwardedRef) => {
const { __scopeDropdownMenu, ...checkboxItemProps } = props;
const menuScope = useMenuScope(__scopeDropdownMenu);
return (0, import_jsx_runtime16.jsx)(CheckboxItem, { ...menuScope, ...checkboxItemProps, ref: forwardedRef });
});
DropdownMenuCheckboxItem.displayName = CHECKBOX_ITEM_NAME2;
var RADIO_GROUP_NAME2 = "DropdownMenuRadioGroup";
var DropdownMenuRadioGroup = React35.forwardRef((props, forwardedRef) => {
const { __scopeDropdownMenu, ...radioGroupProps } = props;
const menuScope = useMenuScope(__scopeDropdownMenu);
return (0, import_jsx_runtime16.jsx)(RadioGroup, { ...menuScope, ...radioGroupProps, ref: forwardedRef });
});
DropdownMenuRadioGroup.displayName = RADIO_GROUP_NAME2;
var RADIO_ITEM_NAME2 = "DropdownMenuRadioItem";
var DropdownMenuRadioItem = React35.forwardRef((props, forwardedRef) => {
const { __scopeDropdownMenu, ...radioItemProps } = props;
const menuScope = useMenuScope(__scopeDropdownMenu);
return (0, import_jsx_runtime16.jsx)(RadioItem, { ...menuScope, ...radioItemProps, ref: forwardedRef });
});
DropdownMenuRadioItem.displayName = RADIO_ITEM_NAME2;
var INDICATOR_NAME = "DropdownMenuItemIndicator";
var DropdownMenuItemIndicator = React35.forwardRef((props, forwardedRef) => {
const { __scopeDropdownMenu, ...itemIndicatorProps } = props;
const menuScope = useMenuScope(__scopeDropdownMenu);
return (0, import_jsx_runtime16.jsx)(ItemIndicator, { ...menuScope, ...itemIndicatorProps, ref: forwardedRef });
});
DropdownMenuItemIndicator.displayName = INDICATOR_NAME;
var SEPARATOR_NAME2 = "DropdownMenuSeparator";
var DropdownMenuSeparator = React35.forwardRef((props, forwardedRef) => {
const { __scopeDropdownMenu, ...separatorProps } = props;
const menuScope = useMenuScope(__scopeDropdownMenu);
return (0, import_jsx_runtime16.jsx)(Separator, { ...menuScope, ...separatorProps, ref: forwardedRef });
});
DropdownMenuSeparator.displayName = SEPARATOR_NAME2;
var ARROW_NAME3 = "DropdownMenuArrow";
var DropdownMenuArrow = React35.forwardRef(
(props, forwardedRef) => {
const { __scopeDropdownMenu, ...arrowProps } = props;
const menuScope = useMenuScope(__scopeDropdownMenu);
return (0, import_jsx_runtime16.jsx)(Arrow22, { ...menuScope, ...arrowProps, ref: forwardedRef });
}
);
DropdownMenuArrow.displayName = ARROW_NAME3;
var DropdownMenuSub = (props) => {
const { __scopeDropdownMenu, children, open: openProp, onOpenChange, defaultOpen } = props;
const menuScope = useMenuScope(__scopeDropdownMenu);
const [open, setOpen] = useControllableState({
prop: openProp,
defaultProp: defaultOpen ?? false,
onChange: onOpenChange,
caller: "DropdownMenuSub"
});
return (0, import_jsx_runtime16.jsx)(Sub, { ...menuScope, open, onOpenChange: setOpen, children });
};
var SUB_TRIGGER_NAME2 = "DropdownMenuSubTrigger";
var DropdownMenuSubTrigger = React35.forwardRef((props, forwardedRef) => {
const { __scopeDropdownMenu, ...subTriggerProps } = props;
const menuScope = useMenuScope(__scopeDropdownMenu);
return (0, import_jsx_runtime16.jsx)(SubTrigger, { ...menuScope, ...subTriggerProps, ref: forwardedRef });
});
DropdownMenuSubTrigger.displayName = SUB_TRIGGER_NAME2;
var SUB_CONTENT_NAME2 = "DropdownMenuSubContent";
var DropdownMenuSubContent = React35.forwardRef((props, forwardedRef) => {
const { __scopeDropdownMenu, ...subContentProps } = props;
const menuScope = useMenuScope(__scopeDropdownMenu);
return (0, import_jsx_runtime16.jsx)(
SubContent,
{
...menuScope,
...subContentProps,
ref: forwardedRef,
style: {
...props.style,
// re-namespace exposed content custom properties
...{
"--radix-dropdown-menu-content-transform-origin": "var(--radix-popper-transform-origin)",
"--radix-dropdown-menu-content-available-width": "var(--radix-popper-available-width)",
"--radix-dropdown-menu-content-available-height": "var(--radix-popper-available-height)",
"--radix-dropdown-menu-trigger-width": "var(--radix-popper-anchor-width)",
"--radix-dropdown-menu-trigger-height": "var(--radix-popper-anchor-height)"
}
}
}
);
});
DropdownMenuSubContent.displayName = SUB_CONTENT_NAME2;
var Root22 = DropdownMenu;
var Trigger = DropdownMenuTrigger;
var Portal22 = DropdownMenuPortal;
var Content22 = DropdownMenuContent;
var Group2 = DropdownMenuGroup;
var Label2 = DropdownMenuLabel;
var Item22 = DropdownMenuItem;
var CheckboxItem2 = DropdownMenuCheckboxItem;
var RadioGroup2 = DropdownMenuRadioGroup;
var RadioItem2 = DropdownMenuRadioItem;
var ItemIndicator2 = DropdownMenuItemIndicator;
var Separator2 = DropdownMenuSeparator;
var Arrow23 = DropdownMenuArrow;
var Sub2 = DropdownMenuSub;
var SubTrigger2 = DropdownMenuSubTrigger;
var SubContent2 = DropdownMenuSubContent;
export {
Arrow23 as Arrow,
CheckboxItem2 as CheckboxItem,
Content22 as Content,
DropdownMenu,
DropdownMenuArrow,
DropdownMenuCheckboxItem,
DropdownMenuContent,
DropdownMenuGroup,
DropdownMenuItem,
DropdownMenuItemIndicator,
DropdownMenuLabel,
DropdownMenuPortal,
DropdownMenuRadioGroup,
DropdownMenuRadioItem,
DropdownMenuSeparator,
DropdownMenuSub,
DropdownMenuSubContent,
DropdownMenuSubTrigger,
DropdownMenuTrigger,
Group2 as Group,
Item22 as Item,
ItemIndicator2 as ItemIndicator,
Label2 as Label,
Portal22 as Portal,
RadioGroup2 as RadioGroup,
RadioItem2 as RadioItem,
Root22 as Root,
Separator2 as Separator,
Sub2 as Sub,
SubContent2 as SubContent,
SubTrigger2 as SubTrigger,
Trigger,
createDropdownMenuScope
};
//# sourceMappingURL=@radix-ui_react-dropdown-menu.js.map
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