the-forest/client/node_modules/react-router/dist/umd/react-router.development.js

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2024-09-17 20:35:18 -04:00
/**
* React Router v6.26.2
*
* Copyright (c) Remix Software Inc.
*
* This source code is licensed under the MIT license found in the
* LICENSE.md file in the root directory of this source tree.
*
* @license MIT
*/
(function (global, factory) {
typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports, require('react'), require('@remix-run/router')) :
typeof define === 'function' && define.amd ? define(['exports', 'react', '@remix-run/router'], factory) :
(global = typeof globalThis !== 'undefined' ? globalThis : global || self, factory(global.ReactRouter = {}, global.React, global.RemixRouter));
})(this, (function (exports, React, router) { 'use strict';
function _interopNamespace(e) {
if (e && e.__esModule) return e;
var n = Object.create(null);
if (e) {
Object.keys(e).forEach(function (k) {
if (k !== 'default') {
var d = Object.getOwnPropertyDescriptor(e, k);
Object.defineProperty(n, k, d.get ? d : {
enumerable: true,
get: function () { return e[k]; }
});
}
});
}
n["default"] = e;
return Object.freeze(n);
}
var React__namespace = /*#__PURE__*/_interopNamespace(React);
function _extends() {
_extends = Object.assign ? Object.assign.bind() : function (target) {
for (var i = 1; i < arguments.length; i++) {
var source = arguments[i];
for (var key in source) {
if (Object.prototype.hasOwnProperty.call(source, key)) {
target[key] = source[key];
}
}
}
return target;
};
return _extends.apply(this, arguments);
}
// Create react-specific types from the agnostic types in @remix-run/router to
// export from react-router
const DataRouterContext = /*#__PURE__*/React__namespace.createContext(null);
{
DataRouterContext.displayName = "DataRouter";
}
const DataRouterStateContext = /*#__PURE__*/React__namespace.createContext(null);
{
DataRouterStateContext.displayName = "DataRouterState";
}
const AwaitContext = /*#__PURE__*/React__namespace.createContext(null);
{
AwaitContext.displayName = "Await";
}
/**
* A Navigator is a "location changer"; it's how you get to different locations.
*
* Every history instance conforms to the Navigator interface, but the
* distinction is useful primarily when it comes to the low-level `<Router>` API
* where both the location and a navigator must be provided separately in order
* to avoid "tearing" that may occur in a suspense-enabled app if the action
* and/or location were to be read directly from the history instance.
*/
const NavigationContext = /*#__PURE__*/React__namespace.createContext(null);
{
NavigationContext.displayName = "Navigation";
}
const LocationContext = /*#__PURE__*/React__namespace.createContext(null);
{
LocationContext.displayName = "Location";
}
const RouteContext = /*#__PURE__*/React__namespace.createContext({
outlet: null,
matches: [],
isDataRoute: false
});
{
RouteContext.displayName = "Route";
}
const RouteErrorContext = /*#__PURE__*/React__namespace.createContext(null);
{
RouteErrorContext.displayName = "RouteError";
}
/**
* Returns the full href for the given "to" value. This is useful for building
* custom links that are also accessible and preserve right-click behavior.
*
* @see https://reactrouter.com/hooks/use-href
*/
function useHref(to, _temp) {
let {
relative
} = _temp === void 0 ? {} : _temp;
!useInRouterContext() ? router.UNSAFE_invariant(false, // TODO: This error is probably because they somehow have 2 versions of the
// router loaded. We can help them understand how to avoid that.
"useHref() may be used only in the context of a <Router> component.") : void 0;
let {
basename,
navigator
} = React__namespace.useContext(NavigationContext);
let {
hash,
pathname,
search
} = useResolvedPath(to, {
relative
});
let joinedPathname = pathname;
// If we're operating within a basename, prepend it to the pathname prior
// to creating the href. If this is a root navigation, then just use the raw
// basename which allows the basename to have full control over the presence
// of a trailing slash on root links
if (basename !== "/") {
joinedPathname = pathname === "/" ? basename : router.joinPaths([basename, pathname]);
}
return navigator.createHref({
pathname: joinedPathname,
search,
hash
});
}
/**
* Returns true if this component is a descendant of a `<Router>`.
*
* @see https://reactrouter.com/hooks/use-in-router-context
*/
function useInRouterContext() {
return React__namespace.useContext(LocationContext) != null;
}
/**
* Returns the current location object, which represents the current URL in web
* browsers.
*
* Note: If you're using this it may mean you're doing some of your own
* "routing" in your app, and we'd like to know what your use case is. We may
* be able to provide something higher-level to better suit your needs.
*
* @see https://reactrouter.com/hooks/use-location
*/
function useLocation() {
!useInRouterContext() ? router.UNSAFE_invariant(false, // TODO: This error is probably because they somehow have 2 versions of the
// router loaded. We can help them understand how to avoid that.
"useLocation() may be used only in the context of a <Router> component.") : void 0;
return React__namespace.useContext(LocationContext).location;
}
/**
* Returns the current navigation action which describes how the router came to
* the current location, either by a pop, push, or replace on the history stack.
*
* @see https://reactrouter.com/hooks/use-navigation-type
*/
function useNavigationType() {
return React__namespace.useContext(LocationContext).navigationType;
}
/**
* Returns a PathMatch object if the given pattern matches the current URL.
* This is useful for components that need to know "active" state, e.g.
* `<NavLink>`.
*
* @see https://reactrouter.com/hooks/use-match
*/
function useMatch(pattern) {
!useInRouterContext() ? router.UNSAFE_invariant(false, // TODO: This error is probably because they somehow have 2 versions of the
// router loaded. We can help them understand how to avoid that.
"useMatch() may be used only in the context of a <Router> component.") : void 0;
let {
pathname
} = useLocation();
return React__namespace.useMemo(() => router.matchPath(pattern, router.UNSAFE_decodePath(pathname)), [pathname, pattern]);
}
/**
* The interface for the navigate() function returned from useNavigate().
*/
const navigateEffectWarning = "You should call navigate() in a React.useEffect(), not when " + "your component is first rendered.";
// Mute warnings for calls to useNavigate in SSR environments
function useIsomorphicLayoutEffect(cb) {
let isStatic = React__namespace.useContext(NavigationContext).static;
if (!isStatic) {
// We should be able to get rid of this once react 18.3 is released
// See: https://github.com/facebook/react/pull/26395
// eslint-disable-next-line react-hooks/rules-of-hooks
React__namespace.useLayoutEffect(cb);
}
}
/**
* Returns an imperative method for changing the location. Used by `<Link>`s, but
* may also be used by other elements to change the location.
*
* @see https://reactrouter.com/hooks/use-navigate
*/
function useNavigate() {
let {
isDataRoute
} = React__namespace.useContext(RouteContext);
// Conditional usage is OK here because the usage of a data router is static
// eslint-disable-next-line react-hooks/rules-of-hooks
return isDataRoute ? useNavigateStable() : useNavigateUnstable();
}
function useNavigateUnstable() {
!useInRouterContext() ? router.UNSAFE_invariant(false, // TODO: This error is probably because they somehow have 2 versions of the
// router loaded. We can help them understand how to avoid that.
"useNavigate() may be used only in the context of a <Router> component.") : void 0;
let dataRouterContext = React__namespace.useContext(DataRouterContext);
let {
basename,
future,
navigator
} = React__namespace.useContext(NavigationContext);
let {
matches
} = React__namespace.useContext(RouteContext);
let {
pathname: locationPathname
} = useLocation();
let routePathnamesJson = JSON.stringify(router.UNSAFE_getResolveToMatches(matches, future.v7_relativeSplatPath));
let activeRef = React__namespace.useRef(false);
useIsomorphicLayoutEffect(() => {
activeRef.current = true;
});
let navigate = React__namespace.useCallback(function (to, options) {
if (options === void 0) {
options = {};
}
router.UNSAFE_warning(activeRef.current, navigateEffectWarning) ;
// Short circuit here since if this happens on first render the navigate
// is useless because we haven't wired up our history listener yet
if (!activeRef.current) return;
if (typeof to === "number") {
navigator.go(to);
return;
}
let path = router.resolveTo(to, JSON.parse(routePathnamesJson), locationPathname, options.relative === "path");
// If we're operating within a basename, prepend it to the pathname prior
// to handing off to history (but only if we're not in a data router,
// otherwise it'll prepend the basename inside of the router).
// If this is a root navigation, then we navigate to the raw basename
// which allows the basename to have full control over the presence of a
// trailing slash on root links
if (dataRouterContext == null && basename !== "/") {
path.pathname = path.pathname === "/" ? basename : router.joinPaths([basename, path.pathname]);
}
(!!options.replace ? navigator.replace : navigator.push)(path, options.state, options);
}, [basename, navigator, routePathnamesJson, locationPathname, dataRouterContext]);
return navigate;
}
const OutletContext = /*#__PURE__*/React__namespace.createContext(null);
/**
* Returns the context (if provided) for the child route at this level of the route
* hierarchy.
* @see https://reactrouter.com/hooks/use-outlet-context
*/
function useOutletContext() {
return React__namespace.useContext(OutletContext);
}
/**
* Returns the element for the child route at this level of the route
* hierarchy. Used internally by `<Outlet>` to render child routes.
*
* @see https://reactrouter.com/hooks/use-outlet
*/
function useOutlet(context) {
let outlet = React__namespace.useContext(RouteContext).outlet;
if (outlet) {
return /*#__PURE__*/React__namespace.createElement(OutletContext.Provider, {
value: context
}, outlet);
}
return outlet;
}
/**
* Returns an object of key/value pairs of the dynamic params from the current
* URL that were matched by the route path.
*
* @see https://reactrouter.com/hooks/use-params
*/
function useParams() {
let {
matches
} = React__namespace.useContext(RouteContext);
let routeMatch = matches[matches.length - 1];
return routeMatch ? routeMatch.params : {};
}
/**
* Resolves the pathname of the given `to` value against the current location.
*
* @see https://reactrouter.com/hooks/use-resolved-path
*/
function useResolvedPath(to, _temp2) {
let {
relative
} = _temp2 === void 0 ? {} : _temp2;
let {
future
} = React__namespace.useContext(NavigationContext);
let {
matches
} = React__namespace.useContext(RouteContext);
let {
pathname: locationPathname
} = useLocation();
let routePathnamesJson = JSON.stringify(router.UNSAFE_getResolveToMatches(matches, future.v7_relativeSplatPath));
return React__namespace.useMemo(() => router.resolveTo(to, JSON.parse(routePathnamesJson), locationPathname, relative === "path"), [to, routePathnamesJson, locationPathname, relative]);
}
/**
* Returns the element of the route that matched the current location, prepared
* with the correct context to render the remainder of the route tree. Route
* elements in the tree must render an `<Outlet>` to render their child route's
* element.
*
* @see https://reactrouter.com/hooks/use-routes
*/
function useRoutes(routes, locationArg) {
return useRoutesImpl(routes, locationArg);
}
// Internal implementation with accept optional param for RouterProvider usage
function useRoutesImpl(routes, locationArg, dataRouterState, future) {
!useInRouterContext() ? router.UNSAFE_invariant(false, // TODO: This error is probably because they somehow have 2 versions of the
// router loaded. We can help them understand how to avoid that.
"useRoutes() may be used only in the context of a <Router> component.") : void 0;
let {
navigator
} = React__namespace.useContext(NavigationContext);
let {
matches: parentMatches
} = React__namespace.useContext(RouteContext);
let routeMatch = parentMatches[parentMatches.length - 1];
let parentParams = routeMatch ? routeMatch.params : {};
let parentPathname = routeMatch ? routeMatch.pathname : "/";
let parentPathnameBase = routeMatch ? routeMatch.pathnameBase : "/";
let parentRoute = routeMatch && routeMatch.route;
{
// You won't get a warning about 2 different <Routes> under a <Route>
// without a trailing *, but this is a best-effort warning anyway since we
// cannot even give the warning unless they land at the parent route.
//
// Example:
//
// <Routes>
// {/* This route path MUST end with /* because otherwise
// it will never match /blog/post/123 */}
// <Route path="blog" element={<Blog />} />
// <Route path="blog/feed" element={<BlogFeed />} />
// </Routes>
//
// function Blog() {
// return (
// <Routes>
// <Route path="post/:id" element={<Post />} />
// </Routes>
// );
// }
let parentPath = parentRoute && parentRoute.path || "";
warningOnce(parentPathname, !parentRoute || parentPath.endsWith("*"), "You rendered descendant <Routes> (or called `useRoutes()`) at " + ("\"" + parentPathname + "\" (under <Route path=\"" + parentPath + "\">) but the ") + "parent route path has no trailing \"*\". This means if you navigate " + "deeper, the parent won't match anymore and therefore the child " + "routes will never render.\n\n" + ("Please change the parent <Route path=\"" + parentPath + "\"> to <Route ") + ("path=\"" + (parentPath === "/" ? "*" : parentPath + "/*") + "\">."));
}
let locationFromContext = useLocation();
let location;
if (locationArg) {
var _parsedLocationArg$pa;
let parsedLocationArg = typeof locationArg === "string" ? router.parsePath(locationArg) : locationArg;
!(parentPathnameBase === "/" || ((_parsedLocationArg$pa = parsedLocationArg.pathname) == null ? void 0 : _parsedLocationArg$pa.startsWith(parentPathnameBase))) ? router.UNSAFE_invariant(false, "When overriding the location using `<Routes location>` or `useRoutes(routes, location)`, " + "the location pathname must begin with the portion of the URL pathname that was " + ("matched by all parent routes. The current pathname base is \"" + parentPathnameBase + "\" ") + ("but pathname \"" + parsedLocationArg.pathname + "\" was given in the `location` prop.")) : void 0;
location = parsedLocationArg;
} else {
location = locationFromContext;
}
let pathname = location.pathname || "/";
let remainingPathname = pathname;
if (parentPathnameBase !== "/") {
// Determine the remaining pathname by removing the # of URL segments the
// parentPathnameBase has, instead of removing based on character count.
// This is because we can't guarantee that incoming/outgoing encodings/
// decodings will match exactly.
// We decode paths before matching on a per-segment basis with
// decodeURIComponent(), but we re-encode pathnames via `new URL()` so they
// match what `window.location.pathname` would reflect. Those don't 100%
// align when it comes to encoded URI characters such as % and &.
//
// So we may end up with:
// pathname: "/descendant/a%25b/match"
// parentPathnameBase: "/descendant/a%b"
//
// And the direct substring removal approach won't work :/
let parentSegments = parentPathnameBase.replace(/^\//, "").split("/");
let segments = pathname.replace(/^\//, "").split("/");
remainingPathname = "/" + segments.slice(parentSegments.length).join("/");
}
let matches = router.matchRoutes(routes, {
pathname: remainingPathname
});
{
router.UNSAFE_warning(parentRoute || matches != null, "No routes matched location \"" + location.pathname + location.search + location.hash + "\" ") ;
router.UNSAFE_warning(matches == null || matches[matches.length - 1].route.element !== undefined || matches[matches.length - 1].route.Component !== undefined || matches[matches.length - 1].route.lazy !== undefined, "Matched leaf route at location \"" + location.pathname + location.search + location.hash + "\" " + "does not have an element or Component. This means it will render an <Outlet /> with a " + "null value by default resulting in an \"empty\" page.") ;
}
let renderedMatches = _renderMatches(matches && matches.map(match => Object.assign({}, match, {
params: Object.assign({}, parentParams, match.params),
pathname: router.joinPaths([parentPathnameBase,
// Re-encode pathnames that were decoded inside matchRoutes
navigator.encodeLocation ? navigator.encodeLocation(match.pathname).pathname : match.pathname]),
pathnameBase: match.pathnameBase === "/" ? parentPathnameBase : router.joinPaths([parentPathnameBase,
// Re-encode pathnames that were decoded inside matchRoutes
navigator.encodeLocation ? navigator.encodeLocation(match.pathnameBase).pathname : match.pathnameBase])
})), parentMatches, dataRouterState, future);
// When a user passes in a `locationArg`, the associated routes need to
// be wrapped in a new `LocationContext.Provider` in order for `useLocation`
// to use the scoped location instead of the global location.
if (locationArg && renderedMatches) {
return /*#__PURE__*/React__namespace.createElement(LocationContext.Provider, {
value: {
location: _extends({
pathname: "/",
search: "",
hash: "",
state: null,
key: "default"
}, location),
navigationType: router.Action.Pop
}
}, renderedMatches);
}
return renderedMatches;
}
function DefaultErrorComponent() {
let error = useRouteError();
let message = router.isRouteErrorResponse(error) ? error.status + " " + error.statusText : error instanceof Error ? error.message : JSON.stringify(error);
let stack = error instanceof Error ? error.stack : null;
let lightgrey = "rgba(200,200,200, 0.5)";
let preStyles = {
padding: "0.5rem",
backgroundColor: lightgrey
};
let codeStyles = {
padding: "2px 4px",
backgroundColor: lightgrey
};
let devInfo = null;
{
console.error("Error handled by React Router default ErrorBoundary:", error);
devInfo = /*#__PURE__*/React__namespace.createElement(React__namespace.Fragment, null, /*#__PURE__*/React__namespace.createElement("p", null, "\uD83D\uDCBF Hey developer \uD83D\uDC4B"), /*#__PURE__*/React__namespace.createElement("p", null, "You can provide a way better UX than this when your app throws errors by providing your own ", /*#__PURE__*/React__namespace.createElement("code", {
style: codeStyles
}, "ErrorBoundary"), " or", " ", /*#__PURE__*/React__namespace.createElement("code", {
style: codeStyles
}, "errorElement"), " prop on your route."));
}
return /*#__PURE__*/React__namespace.createElement(React__namespace.Fragment, null, /*#__PURE__*/React__namespace.createElement("h2", null, "Unexpected Application Error!"), /*#__PURE__*/React__namespace.createElement("h3", {
style: {
fontStyle: "italic"
}
}, message), stack ? /*#__PURE__*/React__namespace.createElement("pre", {
style: preStyles
}, stack) : null, devInfo);
}
const defaultErrorElement = /*#__PURE__*/React__namespace.createElement(DefaultErrorComponent, null);
class RenderErrorBoundary extends React__namespace.Component {
constructor(props) {
super(props);
this.state = {
location: props.location,
revalidation: props.revalidation,
error: props.error
};
}
static getDerivedStateFromError(error) {
return {
error: error
};
}
static getDerivedStateFromProps(props, state) {
// When we get into an error state, the user will likely click "back" to the
// previous page that didn't have an error. Because this wraps the entire
// application, that will have no effect--the error page continues to display.
// This gives us a mechanism to recover from the error when the location changes.
//
// Whether we're in an error state or not, we update the location in state
// so that when we are in an error state, it gets reset when a new location
// comes in and the user recovers from the error.
if (state.location !== props.location || state.revalidation !== "idle" && props.revalidation === "idle") {
return {
error: props.error,
location: props.location,
revalidation: props.revalidation
};
}
// If we're not changing locations, preserve the location but still surface
// any new errors that may come through. We retain the existing error, we do
// this because the error provided from the app state may be cleared without
// the location changing.
return {
error: props.error !== undefined ? props.error : state.error,
location: state.location,
revalidation: props.revalidation || state.revalidation
};
}
componentDidCatch(error, errorInfo) {
console.error("React Router caught the following error during render", error, errorInfo);
}
render() {
return this.state.error !== undefined ? /*#__PURE__*/React__namespace.createElement(RouteContext.Provider, {
value: this.props.routeContext
}, /*#__PURE__*/React__namespace.createElement(RouteErrorContext.Provider, {
value: this.state.error,
children: this.props.component
})) : this.props.children;
}
}
function RenderedRoute(_ref) {
let {
routeContext,
match,
children
} = _ref;
let dataRouterContext = React__namespace.useContext(DataRouterContext);
// Track how deep we got in our render pass to emulate SSR componentDidCatch
// in a DataStaticRouter
if (dataRouterContext && dataRouterContext.static && dataRouterContext.staticContext && (match.route.errorElement || match.route.ErrorBoundary)) {
dataRouterContext.staticContext._deepestRenderedBoundaryId = match.route.id;
}
return /*#__PURE__*/React__namespace.createElement(RouteContext.Provider, {
value: routeContext
}, children);
}
function _renderMatches(matches, parentMatches, dataRouterState, future) {
var _dataRouterState;
if (parentMatches === void 0) {
parentMatches = [];
}
if (dataRouterState === void 0) {
dataRouterState = null;
}
if (future === void 0) {
future = null;
}
if (matches == null) {
var _future;
if (!dataRouterState) {
return null;
}
if (dataRouterState.errors) {
// Don't bail if we have data router errors so we can render them in the
// boundary. Use the pre-matched (or shimmed) matches
matches = dataRouterState.matches;
} else if ((_future = future) != null && _future.v7_partialHydration && parentMatches.length === 0 && !dataRouterState.initialized && dataRouterState.matches.length > 0) {
// Don't bail if we're initializing with partial hydration and we have
// router matches. That means we're actively running `patchRoutesOnNavigation`
// so we should render down the partial matches to the appropriate
// `HydrateFallback`. We only do this if `parentMatches` is empty so it
// only impacts the root matches for `RouterProvider` and no descendant
// `<Routes>`
matches = dataRouterState.matches;
} else {
return null;
}
}
let renderedMatches = matches;
// If we have data errors, trim matches to the highest error boundary
let errors = (_dataRouterState = dataRouterState) == null ? void 0 : _dataRouterState.errors;
if (errors != null) {
let errorIndex = renderedMatches.findIndex(m => m.route.id && (errors == null ? void 0 : errors[m.route.id]) !== undefined);
!(errorIndex >= 0) ? router.UNSAFE_invariant(false, "Could not find a matching route for errors on route IDs: " + Object.keys(errors).join(",")) : void 0;
renderedMatches = renderedMatches.slice(0, Math.min(renderedMatches.length, errorIndex + 1));
}
// If we're in a partial hydration mode, detect if we need to render down to
// a given HydrateFallback while we load the rest of the hydration data
let renderFallback = false;
let fallbackIndex = -1;
if (dataRouterState && future && future.v7_partialHydration) {
for (let i = 0; i < renderedMatches.length; i++) {
let match = renderedMatches[i];
// Track the deepest fallback up until the first route without data
if (match.route.HydrateFallback || match.route.hydrateFallbackElement) {
fallbackIndex = i;
}
if (match.route.id) {
let {
loaderData,
errors
} = dataRouterState;
let needsToRunLoader = match.route.loader && loaderData[match.route.id] === undefined && (!errors || errors[match.route.id] === undefined);
if (match.route.lazy || needsToRunLoader) {
// We found the first route that's not ready to render (waiting on
// lazy, or has a loader that hasn't run yet). Flag that we need to
// render a fallback and render up until the appropriate fallback
renderFallback = true;
if (fallbackIndex >= 0) {
renderedMatches = renderedMatches.slice(0, fallbackIndex + 1);
} else {
renderedMatches = [renderedMatches[0]];
}
break;
}
}
}
}
return renderedMatches.reduceRight((outlet, match, index) => {
// Only data routers handle errors/fallbacks
let error;
let shouldRenderHydrateFallback = false;
let errorElement = null;
let hydrateFallbackElement = null;
if (dataRouterState) {
error = errors && match.route.id ? errors[match.route.id] : undefined;
errorElement = match.route.errorElement || defaultErrorElement;
if (renderFallback) {
if (fallbackIndex < 0 && index === 0) {
warningOnce("route-fallback", false, "No `HydrateFallback` element provided to render during initial hydration");
shouldRenderHydrateFallback = true;
hydrateFallbackElement = null;
} else if (fallbackIndex === index) {
shouldRenderHydrateFallback = true;
hydrateFallbackElement = match.route.hydrateFallbackElement || null;
}
}
}
let matches = parentMatches.concat(renderedMatches.slice(0, index + 1));
let getChildren = () => {
let children;
if (error) {
children = errorElement;
} else if (shouldRenderHydrateFallback) {
children = hydrateFallbackElement;
} else if (match.route.Component) {
// Note: This is a de-optimized path since React won't re-use the
// ReactElement since it's identity changes with each new
// React.createElement call. We keep this so folks can use
// `<Route Component={...}>` in `<Routes>` but generally `Component`
// usage is only advised in `RouterProvider` when we can convert it to
// `element` ahead of time.
children = /*#__PURE__*/React__namespace.createElement(match.route.Component, null);
} else if (match.route.element) {
children = match.route.element;
} else {
children = outlet;
}
return /*#__PURE__*/React__namespace.createElement(RenderedRoute, {
match: match,
routeContext: {
outlet,
matches,
isDataRoute: dataRouterState != null
},
children: children
});
};
// Only wrap in an error boundary within data router usages when we have an
// ErrorBoundary/errorElement on this route. Otherwise let it bubble up to
// an ancestor ErrorBoundary/errorElement
return dataRouterState && (match.route.ErrorBoundary || match.route.errorElement || index === 0) ? /*#__PURE__*/React__namespace.createElement(RenderErrorBoundary, {
location: dataRouterState.location,
revalidation: dataRouterState.revalidation,
component: errorElement,
error: error,
children: getChildren(),
routeContext: {
outlet: null,
matches,
isDataRoute: true
}
}) : getChildren();
}, null);
}
var DataRouterHook = /*#__PURE__*/function (DataRouterHook) {
DataRouterHook["UseBlocker"] = "useBlocker";
DataRouterHook["UseRevalidator"] = "useRevalidator";
DataRouterHook["UseNavigateStable"] = "useNavigate";
return DataRouterHook;
}(DataRouterHook || {});
var DataRouterStateHook = /*#__PURE__*/function (DataRouterStateHook) {
DataRouterStateHook["UseBlocker"] = "useBlocker";
DataRouterStateHook["UseLoaderData"] = "useLoaderData";
DataRouterStateHook["UseActionData"] = "useActionData";
DataRouterStateHook["UseRouteError"] = "useRouteError";
DataRouterStateHook["UseNavigation"] = "useNavigation";
DataRouterStateHook["UseRouteLoaderData"] = "useRouteLoaderData";
DataRouterStateHook["UseMatches"] = "useMatches";
DataRouterStateHook["UseRevalidator"] = "useRevalidator";
DataRouterStateHook["UseNavigateStable"] = "useNavigate";
DataRouterStateHook["UseRouteId"] = "useRouteId";
return DataRouterStateHook;
}(DataRouterStateHook || {});
function getDataRouterConsoleError(hookName) {
return hookName + " must be used within a data router. See https://reactrouter.com/routers/picking-a-router.";
}
function useDataRouterContext(hookName) {
let ctx = React__namespace.useContext(DataRouterContext);
!ctx ? router.UNSAFE_invariant(false, getDataRouterConsoleError(hookName)) : void 0;
return ctx;
}
function useDataRouterState(hookName) {
let state = React__namespace.useContext(DataRouterStateContext);
!state ? router.UNSAFE_invariant(false, getDataRouterConsoleError(hookName)) : void 0;
return state;
}
function useRouteContext(hookName) {
let route = React__namespace.useContext(RouteContext);
!route ? router.UNSAFE_invariant(false, getDataRouterConsoleError(hookName)) : void 0;
return route;
}
// Internal version with hookName-aware debugging
function useCurrentRouteId(hookName) {
let route = useRouteContext(hookName);
let thisRoute = route.matches[route.matches.length - 1];
!thisRoute.route.id ? router.UNSAFE_invariant(false, hookName + " can only be used on routes that contain a unique \"id\"") : void 0;
return thisRoute.route.id;
}
/**
* Returns the ID for the nearest contextual route
*/
function useRouteId() {
return useCurrentRouteId(DataRouterStateHook.UseRouteId);
}
/**
* Returns the current navigation, defaulting to an "idle" navigation when
* no navigation is in progress
*/
function useNavigation() {
let state = useDataRouterState(DataRouterStateHook.UseNavigation);
return state.navigation;
}
/**
* Returns a revalidate function for manually triggering revalidation, as well
* as the current state of any manual revalidations
*/
function useRevalidator() {
let dataRouterContext = useDataRouterContext(DataRouterHook.UseRevalidator);
let state = useDataRouterState(DataRouterStateHook.UseRevalidator);
return React__namespace.useMemo(() => ({
revalidate: dataRouterContext.router.revalidate,
state: state.revalidation
}), [dataRouterContext.router.revalidate, state.revalidation]);
}
/**
* Returns the active route matches, useful for accessing loaderData for
* parent/child routes or the route "handle" property
*/
function useMatches() {
let {
matches,
loaderData
} = useDataRouterState(DataRouterStateHook.UseMatches);
return React__namespace.useMemo(() => matches.map(m => router.UNSAFE_convertRouteMatchToUiMatch(m, loaderData)), [matches, loaderData]);
}
/**
* Returns the loader data for the nearest ancestor Route loader
*/
function useLoaderData() {
let state = useDataRouterState(DataRouterStateHook.UseLoaderData);
let routeId = useCurrentRouteId(DataRouterStateHook.UseLoaderData);
if (state.errors && state.errors[routeId] != null) {
console.error("You cannot `useLoaderData` in an errorElement (routeId: " + routeId + ")");
return undefined;
}
return state.loaderData[routeId];
}
/**
* Returns the loaderData for the given routeId
*/
function useRouteLoaderData(routeId) {
let state = useDataRouterState(DataRouterStateHook.UseRouteLoaderData);
return state.loaderData[routeId];
}
/**
* Returns the action data for the nearest ancestor Route action
*/
function useActionData() {
let state = useDataRouterState(DataRouterStateHook.UseActionData);
let routeId = useCurrentRouteId(DataRouterStateHook.UseLoaderData);
return state.actionData ? state.actionData[routeId] : undefined;
}
/**
* Returns the nearest ancestor Route error, which could be a loader/action
* error or a render error. This is intended to be called from your
* ErrorBoundary/errorElement to display a proper error message.
*/
function useRouteError() {
var _state$errors;
let error = React__namespace.useContext(RouteErrorContext);
let state = useDataRouterState(DataRouterStateHook.UseRouteError);
let routeId = useCurrentRouteId(DataRouterStateHook.UseRouteError);
// If this was a render error, we put it in a RouteError context inside
// of RenderErrorBoundary
if (error !== undefined) {
return error;
}
// Otherwise look for errors from our data router state
return (_state$errors = state.errors) == null ? void 0 : _state$errors[routeId];
}
/**
* Returns the happy-path data from the nearest ancestor `<Await />` value
*/
function useAsyncValue() {
let value = React__namespace.useContext(AwaitContext);
return value == null ? void 0 : value._data;
}
/**
* Returns the error from the nearest ancestor `<Await />` value
*/
function useAsyncError() {
let value = React__namespace.useContext(AwaitContext);
return value == null ? void 0 : value._error;
}
let blockerId = 0;
/**
* Allow the application to block navigations within the SPA and present the
* user a confirmation dialog to confirm the navigation. Mostly used to avoid
* using half-filled form data. This does not handle hard-reloads or
* cross-origin navigations.
*/
function useBlocker(shouldBlock) {
let {
router: router$1,
basename
} = useDataRouterContext(DataRouterHook.UseBlocker);
let state = useDataRouterState(DataRouterStateHook.UseBlocker);
let [blockerKey, setBlockerKey] = React__namespace.useState("");
let blockerFunction = React__namespace.useCallback(arg => {
if (typeof shouldBlock !== "function") {
return !!shouldBlock;
}
if (basename === "/") {
return shouldBlock(arg);
}
// If they provided us a function and we've got an active basename, strip
// it from the locations we expose to the user to match the behavior of
// useLocation
let {
currentLocation,
nextLocation,
historyAction
} = arg;
return shouldBlock({
currentLocation: _extends({}, currentLocation, {
pathname: router.stripBasename(currentLocation.pathname, basename) || currentLocation.pathname
}),
nextLocation: _extends({}, nextLocation, {
pathname: router.stripBasename(nextLocation.pathname, basename) || nextLocation.pathname
}),
historyAction
});
}, [basename, shouldBlock]);
// This effect is in charge of blocker key assignment and deletion (which is
// tightly coupled to the key)
React__namespace.useEffect(() => {
let key = String(++blockerId);
setBlockerKey(key);
return () => router$1.deleteBlocker(key);
}, [router$1]);
// This effect handles assigning the blockerFunction. This is to handle
// unstable blocker function identities, and happens only after the prior
// effect so we don't get an orphaned blockerFunction in the router with a
// key of "". Until then we just have the IDLE_BLOCKER.
React__namespace.useEffect(() => {
if (blockerKey !== "") {
router$1.getBlocker(blockerKey, blockerFunction);
}
}, [router$1, blockerKey, blockerFunction]);
// Prefer the blocker from `state` not `router.state` since DataRouterContext
// is memoized so this ensures we update on blocker state updates
return blockerKey && state.blockers.has(blockerKey) ? state.blockers.get(blockerKey) : router.IDLE_BLOCKER;
}
/**
* Stable version of useNavigate that is used when we are in the context of
* a RouterProvider.
*/
function useNavigateStable() {
let {
router: router$1
} = useDataRouterContext(DataRouterHook.UseNavigateStable);
let id = useCurrentRouteId(DataRouterStateHook.UseNavigateStable);
let activeRef = React__namespace.useRef(false);
useIsomorphicLayoutEffect(() => {
activeRef.current = true;
});
let navigate = React__namespace.useCallback(function (to, options) {
if (options === void 0) {
options = {};
}
router.UNSAFE_warning(activeRef.current, navigateEffectWarning) ;
// Short circuit here since if this happens on first render the navigate
// is useless because we haven't wired up our router subscriber yet
if (!activeRef.current) return;
if (typeof to === "number") {
router$1.navigate(to);
} else {
router$1.navigate(to, _extends({
fromRouteId: id
}, options));
}
}, [router$1, id]);
return navigate;
}
const alreadyWarned = {};
function warningOnce(key, cond, message) {
if (!cond && !alreadyWarned[key]) {
alreadyWarned[key] = true;
router.UNSAFE_warning(false, message) ;
}
}
/**
Webpack + React 17 fails to compile on any of the following because webpack
complains that `startTransition` doesn't exist in `React`:
* import { startTransition } from "react"
* import * as React from from "react";
"startTransition" in React ? React.startTransition(() => setState()) : setState()
* import * as React from from "react";
"startTransition" in React ? React["startTransition"](() => setState()) : setState()
Moving it to a constant such as the following solves the Webpack/React 17 issue:
* import * as React from from "react";
const START_TRANSITION = "startTransition";
START_TRANSITION in React ? React[START_TRANSITION](() => setState()) : setState()
However, that introduces webpack/terser minification issues in production builds
in React 18 where minification/obfuscation ends up removing the call of
React.startTransition entirely from the first half of the ternary. Grabbing
this exported reference once up front resolves that issue.
See https://github.com/remix-run/react-router/issues/10579
*/
const START_TRANSITION = "startTransition";
const startTransitionImpl = React__namespace[START_TRANSITION];
/**
* Given a Remix Router instance, render the appropriate UI
*/
function RouterProvider(_ref) {
let {
fallbackElement,
router: router$1,
future
} = _ref;
let [state, setStateImpl] = React__namespace.useState(router$1.state);
let {
v7_startTransition
} = future || {};
let setState = React__namespace.useCallback(newState => {
if (v7_startTransition && startTransitionImpl) {
startTransitionImpl(() => setStateImpl(newState));
} else {
setStateImpl(newState);
}
}, [setStateImpl, v7_startTransition]);
// Need to use a layout effect here so we are subscribed early enough to
// pick up on any render-driven redirects/navigations (useEffect/<Navigate>)
React__namespace.useLayoutEffect(() => router$1.subscribe(setState), [router$1, setState]);
React__namespace.useEffect(() => {
router.UNSAFE_warning(fallbackElement == null || !router$1.future.v7_partialHydration, "`<RouterProvider fallbackElement>` is deprecated when using " + "`v7_partialHydration`, use a `HydrateFallback` component instead") ;
// Only log this once on initial mount
// eslint-disable-next-line react-hooks/exhaustive-deps
}, []);
let navigator = React__namespace.useMemo(() => {
return {
createHref: router$1.createHref,
encodeLocation: router$1.encodeLocation,
go: n => router$1.navigate(n),
push: (to, state, opts) => router$1.navigate(to, {
state,
preventScrollReset: opts == null ? void 0 : opts.preventScrollReset
}),
replace: (to, state, opts) => router$1.navigate(to, {
replace: true,
state,
preventScrollReset: opts == null ? void 0 : opts.preventScrollReset
})
};
}, [router$1]);
let basename = router$1.basename || "/";
let dataRouterContext = React__namespace.useMemo(() => ({
router: router$1,
navigator,
static: false,
basename
}), [router$1, navigator, basename]);
// The fragment and {null} here are important! We need them to keep React 18's
// useId happy when we are server-rendering since we may have a <script> here
// containing the hydrated server-side staticContext (from StaticRouterProvider).
// useId relies on the component tree structure to generate deterministic id's
// so we need to ensure it remains the same on the client even though
// we don't need the <script> tag
return /*#__PURE__*/React__namespace.createElement(React__namespace.Fragment, null, /*#__PURE__*/React__namespace.createElement(DataRouterContext.Provider, {
value: dataRouterContext
}, /*#__PURE__*/React__namespace.createElement(DataRouterStateContext.Provider, {
value: state
}, /*#__PURE__*/React__namespace.createElement(Router, {
basename: basename,
location: state.location,
navigationType: state.historyAction,
navigator: navigator,
future: {
v7_relativeSplatPath: router$1.future.v7_relativeSplatPath
}
}, state.initialized || router$1.future.v7_partialHydration ? /*#__PURE__*/React__namespace.createElement(DataRoutes, {
routes: router$1.routes,
future: router$1.future,
state: state
}) : fallbackElement))), null);
}
function DataRoutes(_ref2) {
let {
routes,
future,
state
} = _ref2;
return useRoutesImpl(routes, undefined, state, future);
}
/**
* A `<Router>` that stores all entries in memory.
*
* @see https://reactrouter.com/router-components/memory-router
*/
function MemoryRouter(_ref3) {
let {
basename,
children,
initialEntries,
initialIndex,
future
} = _ref3;
let historyRef = React__namespace.useRef();
if (historyRef.current == null) {
historyRef.current = router.createMemoryHistory({
initialEntries,
initialIndex,
v5Compat: true
});
}
let history = historyRef.current;
let [state, setStateImpl] = React__namespace.useState({
action: history.action,
location: history.location
});
let {
v7_startTransition
} = future || {};
let setState = React__namespace.useCallback(newState => {
v7_startTransition && startTransitionImpl ? startTransitionImpl(() => setStateImpl(newState)) : setStateImpl(newState);
}, [setStateImpl, v7_startTransition]);
React__namespace.useLayoutEffect(() => history.listen(setState), [history, setState]);
return /*#__PURE__*/React__namespace.createElement(Router, {
basename: basename,
children: children,
location: state.location,
navigationType: state.action,
navigator: history,
future: future
});
}
/**
* Changes the current location.
*
* Note: This API is mostly useful in React.Component subclasses that are not
* able to use hooks. In functional components, we recommend you use the
* `useNavigate` hook instead.
*
* @see https://reactrouter.com/components/navigate
*/
function Navigate(_ref4) {
let {
to,
replace,
state,
relative
} = _ref4;
!useInRouterContext() ? router.UNSAFE_invariant(false, // TODO: This error is probably because they somehow have 2 versions of
// the router loaded. We can help them understand how to avoid that.
"<Navigate> may be used only in the context of a <Router> component.") : void 0;
let {
future,
static: isStatic
} = React__namespace.useContext(NavigationContext);
router.UNSAFE_warning(!isStatic, "<Navigate> must not be used on the initial render in a <StaticRouter>. " + "This is a no-op, but you should modify your code so the <Navigate> is " + "only ever rendered in response to some user interaction or state change.") ;
let {
matches
} = React__namespace.useContext(RouteContext);
let {
pathname: locationPathname
} = useLocation();
let navigate = useNavigate();
// Resolve the path outside of the effect so that when effects run twice in
// StrictMode they navigate to the same place
let path = router.resolveTo(to, router.UNSAFE_getResolveToMatches(matches, future.v7_relativeSplatPath), locationPathname, relative === "path");
let jsonPath = JSON.stringify(path);
React__namespace.useEffect(() => navigate(JSON.parse(jsonPath), {
replace,
state,
relative
}), [navigate, jsonPath, relative, replace, state]);
return null;
}
/**
* Renders the child route's element, if there is one.
*
* @see https://reactrouter.com/components/outlet
*/
function Outlet(props) {
return useOutlet(props.context);
}
/**
* Declares an element that should be rendered at a certain URL path.
*
* @see https://reactrouter.com/components/route
*/
function Route(_props) {
router.UNSAFE_invariant(false, "A <Route> is only ever to be used as the child of <Routes> element, " + "never rendered directly. Please wrap your <Route> in a <Routes>.") ;
}
/**
* Provides location context for the rest of the app.
*
* Note: You usually won't render a `<Router>` directly. Instead, you'll render a
* router that is more specific to your environment such as a `<BrowserRouter>`
* in web browsers or a `<StaticRouter>` for server rendering.
*
* @see https://reactrouter.com/router-components/router
*/
function Router(_ref5) {
let {
basename: basenameProp = "/",
children = null,
location: locationProp,
navigationType = router.Action.Pop,
navigator,
static: staticProp = false,
future
} = _ref5;
!!useInRouterContext() ? router.UNSAFE_invariant(false, "You cannot render a <Router> inside another <Router>." + " You should never have more than one in your app.") : void 0;
// Preserve trailing slashes on basename, so we can let the user control
// the enforcement of trailing slashes throughout the app
let basename = basenameProp.replace(/^\/*/, "/");
let navigationContext = React__namespace.useMemo(() => ({
basename,
navigator,
static: staticProp,
future: _extends({
v7_relativeSplatPath: false
}, future)
}), [basename, future, navigator, staticProp]);
if (typeof locationProp === "string") {
locationProp = router.parsePath(locationProp);
}
let {
pathname = "/",
search = "",
hash = "",
state = null,
key = "default"
} = locationProp;
let locationContext = React__namespace.useMemo(() => {
let trailingPathname = router.stripBasename(pathname, basename);
if (trailingPathname == null) {
return null;
}
return {
location: {
pathname: trailingPathname,
search,
hash,
state,
key
},
navigationType
};
}, [basename, pathname, search, hash, state, key, navigationType]);
router.UNSAFE_warning(locationContext != null, "<Router basename=\"" + basename + "\"> is not able to match the URL " + ("\"" + pathname + search + hash + "\" because it does not start with the ") + "basename, so the <Router> won't render anything.") ;
if (locationContext == null) {
return null;
}
return /*#__PURE__*/React__namespace.createElement(NavigationContext.Provider, {
value: navigationContext
}, /*#__PURE__*/React__namespace.createElement(LocationContext.Provider, {
children: children,
value: locationContext
}));
}
/**
* A container for a nested tree of `<Route>` elements that renders the branch
* that best matches the current location.
*
* @see https://reactrouter.com/components/routes
*/
function Routes(_ref6) {
let {
children,
location
} = _ref6;
return useRoutes(createRoutesFromChildren(children), location);
}
/**
* Component to use for rendering lazily loaded data from returning defer()
* in a loader function
*/
function Await(_ref7) {
let {
children,
errorElement,
resolve
} = _ref7;
return /*#__PURE__*/React__namespace.createElement(AwaitErrorBoundary, {
resolve: resolve,
errorElement: errorElement
}, /*#__PURE__*/React__namespace.createElement(ResolveAwait, null, children));
}
var AwaitRenderStatus = /*#__PURE__*/function (AwaitRenderStatus) {
AwaitRenderStatus[AwaitRenderStatus["pending"] = 0] = "pending";
AwaitRenderStatus[AwaitRenderStatus["success"] = 1] = "success";
AwaitRenderStatus[AwaitRenderStatus["error"] = 2] = "error";
return AwaitRenderStatus;
}(AwaitRenderStatus || {});
const neverSettledPromise = new Promise(() => {});
class AwaitErrorBoundary extends React__namespace.Component {
constructor(props) {
super(props);
this.state = {
error: null
};
}
static getDerivedStateFromError(error) {
return {
error
};
}
componentDidCatch(error, errorInfo) {
console.error("<Await> caught the following error during render", error, errorInfo);
}
render() {
let {
children,
errorElement,
resolve
} = this.props;
let promise = null;
let status = AwaitRenderStatus.pending;
if (!(resolve instanceof Promise)) {
// Didn't get a promise - provide as a resolved promise
status = AwaitRenderStatus.success;
promise = Promise.resolve();
Object.defineProperty(promise, "_tracked", {
get: () => true
});
Object.defineProperty(promise, "_data", {
get: () => resolve
});
} else if (this.state.error) {
// Caught a render error, provide it as a rejected promise
status = AwaitRenderStatus.error;
let renderError = this.state.error;
promise = Promise.reject().catch(() => {}); // Avoid unhandled rejection warnings
Object.defineProperty(promise, "_tracked", {
get: () => true
});
Object.defineProperty(promise, "_error", {
get: () => renderError
});
} else if (resolve._tracked) {
// Already tracked promise - check contents
promise = resolve;
status = "_error" in promise ? AwaitRenderStatus.error : "_data" in promise ? AwaitRenderStatus.success : AwaitRenderStatus.pending;
} else {
// Raw (untracked) promise - track it
status = AwaitRenderStatus.pending;
Object.defineProperty(resolve, "_tracked", {
get: () => true
});
promise = resolve.then(data => Object.defineProperty(resolve, "_data", {
get: () => data
}), error => Object.defineProperty(resolve, "_error", {
get: () => error
}));
}
if (status === AwaitRenderStatus.error && promise._error instanceof router.AbortedDeferredError) {
// Freeze the UI by throwing a never resolved promise
throw neverSettledPromise;
}
if (status === AwaitRenderStatus.error && !errorElement) {
// No errorElement, throw to the nearest route-level error boundary
throw promise._error;
}
if (status === AwaitRenderStatus.error) {
// Render via our errorElement
return /*#__PURE__*/React__namespace.createElement(AwaitContext.Provider, {
value: promise,
children: errorElement
});
}
if (status === AwaitRenderStatus.success) {
// Render children with resolved value
return /*#__PURE__*/React__namespace.createElement(AwaitContext.Provider, {
value: promise,
children: children
});
}
// Throw to the suspense boundary
throw promise;
}
}
/**
* @private
* Indirection to leverage useAsyncValue for a render-prop API on `<Await>`
*/
function ResolveAwait(_ref8) {
let {
children
} = _ref8;
let data = useAsyncValue();
let toRender = typeof children === "function" ? children(data) : children;
return /*#__PURE__*/React__namespace.createElement(React__namespace.Fragment, null, toRender);
}
///////////////////////////////////////////////////////////////////////////////
// UTILS
///////////////////////////////////////////////////////////////////////////////
/**
* Creates a route config from a React "children" object, which is usually
* either a `<Route>` element or an array of them. Used internally by
* `<Routes>` to create a route config from its children.
*
* @see https://reactrouter.com/utils/create-routes-from-children
*/
function createRoutesFromChildren(children, parentPath) {
if (parentPath === void 0) {
parentPath = [];
}
let routes = [];
React__namespace.Children.forEach(children, (element, index) => {
if (! /*#__PURE__*/React__namespace.isValidElement(element)) {
// Ignore non-elements. This allows people to more easily inline
// conditionals in their route config.
return;
}
let treePath = [...parentPath, index];
if (element.type === React__namespace.Fragment) {
// Transparently support React.Fragment and its children.
routes.push.apply(routes, createRoutesFromChildren(element.props.children, treePath));
return;
}
!(element.type === Route) ? router.UNSAFE_invariant(false, "[" + (typeof element.type === "string" ? element.type : element.type.name) + "] is not a <Route> component. All component children of <Routes> must be a <Route> or <React.Fragment>") : void 0;
!(!element.props.index || !element.props.children) ? router.UNSAFE_invariant(false, "An index route cannot have child routes.") : void 0;
let route = {
id: element.props.id || treePath.join("-"),
caseSensitive: element.props.caseSensitive,
element: element.props.element,
Component: element.props.Component,
index: element.props.index,
path: element.props.path,
loader: element.props.loader,
action: element.props.action,
errorElement: element.props.errorElement,
ErrorBoundary: element.props.ErrorBoundary,
hasErrorBoundary: element.props.ErrorBoundary != null || element.props.errorElement != null,
shouldRevalidate: element.props.shouldRevalidate,
handle: element.props.handle,
lazy: element.props.lazy
};
if (element.props.children) {
route.children = createRoutesFromChildren(element.props.children, treePath);
}
routes.push(route);
});
return routes;
}
/**
* Renders the result of `matchRoutes()` into a React element.
*/
function renderMatches(matches) {
return _renderMatches(matches);
}
function mapRouteProperties(route) {
let updates = {
// Note: this check also occurs in createRoutesFromChildren so update
// there if you change this -- please and thank you!
hasErrorBoundary: route.ErrorBoundary != null || route.errorElement != null
};
if (route.Component) {
{
if (route.element) {
router.UNSAFE_warning(false, "You should not include both `Component` and `element` on your route - " + "`Component` will be used.") ;
}
}
Object.assign(updates, {
element: /*#__PURE__*/React__namespace.createElement(route.Component),
Component: undefined
});
}
if (route.HydrateFallback) {
{
if (route.hydrateFallbackElement) {
router.UNSAFE_warning(false, "You should not include both `HydrateFallback` and `hydrateFallbackElement` on your route - " + "`HydrateFallback` will be used.") ;
}
}
Object.assign(updates, {
hydrateFallbackElement: /*#__PURE__*/React__namespace.createElement(route.HydrateFallback),
HydrateFallback: undefined
});
}
if (route.ErrorBoundary) {
{
if (route.errorElement) {
router.UNSAFE_warning(false, "You should not include both `ErrorBoundary` and `errorElement` on your route - " + "`ErrorBoundary` will be used.") ;
}
}
Object.assign(updates, {
errorElement: /*#__PURE__*/React__namespace.createElement(route.ErrorBoundary),
ErrorBoundary: undefined
});
}
return updates;
}
function createMemoryRouter(routes, opts) {
return router.createRouter({
basename: opts == null ? void 0 : opts.basename,
future: _extends({}, opts == null ? void 0 : opts.future, {
v7_prependBasename: true
}),
history: router.createMemoryHistory({
initialEntries: opts == null ? void 0 : opts.initialEntries,
initialIndex: opts == null ? void 0 : opts.initialIndex
}),
hydrationData: opts == null ? void 0 : opts.hydrationData,
routes,
mapRouteProperties,
unstable_dataStrategy: opts == null ? void 0 : opts.unstable_dataStrategy,
unstable_patchRoutesOnNavigation: opts == null ? void 0 : opts.unstable_patchRoutesOnNavigation
}).initialize();
}
Object.defineProperty(exports, 'AbortedDeferredError', {
enumerable: true,
get: function () { return router.AbortedDeferredError; }
});
Object.defineProperty(exports, 'NavigationType', {
enumerable: true,
get: function () { return router.Action; }
});
Object.defineProperty(exports, 'createPath', {
enumerable: true,
get: function () { return router.createPath; }
});
Object.defineProperty(exports, 'defer', {
enumerable: true,
get: function () { return router.defer; }
});
Object.defineProperty(exports, 'generatePath', {
enumerable: true,
get: function () { return router.generatePath; }
});
Object.defineProperty(exports, 'isRouteErrorResponse', {
enumerable: true,
get: function () { return router.isRouteErrorResponse; }
});
Object.defineProperty(exports, 'json', {
enumerable: true,
get: function () { return router.json; }
});
Object.defineProperty(exports, 'matchPath', {
enumerable: true,
get: function () { return router.matchPath; }
});
Object.defineProperty(exports, 'matchRoutes', {
enumerable: true,
get: function () { return router.matchRoutes; }
});
Object.defineProperty(exports, 'parsePath', {
enumerable: true,
get: function () { return router.parsePath; }
});
Object.defineProperty(exports, 'redirect', {
enumerable: true,
get: function () { return router.redirect; }
});
Object.defineProperty(exports, 'redirectDocument', {
enumerable: true,
get: function () { return router.redirectDocument; }
});
Object.defineProperty(exports, 'replace', {
enumerable: true,
get: function () { return router.replace; }
});
Object.defineProperty(exports, 'resolvePath', {
enumerable: true,
get: function () { return router.resolvePath; }
});
exports.Await = Await;
exports.MemoryRouter = MemoryRouter;
exports.Navigate = Navigate;
exports.Outlet = Outlet;
exports.Route = Route;
exports.Router = Router;
exports.RouterProvider = RouterProvider;
exports.Routes = Routes;
exports.UNSAFE_DataRouterContext = DataRouterContext;
exports.UNSAFE_DataRouterStateContext = DataRouterStateContext;
exports.UNSAFE_LocationContext = LocationContext;
exports.UNSAFE_NavigationContext = NavigationContext;
exports.UNSAFE_RouteContext = RouteContext;
exports.UNSAFE_mapRouteProperties = mapRouteProperties;
exports.UNSAFE_useRouteId = useRouteId;
exports.UNSAFE_useRoutesImpl = useRoutesImpl;
exports.createMemoryRouter = createMemoryRouter;
exports.createRoutesFromChildren = createRoutesFromChildren;
exports.createRoutesFromElements = createRoutesFromChildren;
exports.renderMatches = renderMatches;
exports.useActionData = useActionData;
exports.useAsyncError = useAsyncError;
exports.useAsyncValue = useAsyncValue;
exports.useBlocker = useBlocker;
exports.useHref = useHref;
exports.useInRouterContext = useInRouterContext;
exports.useLoaderData = useLoaderData;
exports.useLocation = useLocation;
exports.useMatch = useMatch;
exports.useMatches = useMatches;
exports.useNavigate = useNavigate;
exports.useNavigation = useNavigation;
exports.useNavigationType = useNavigationType;
exports.useOutlet = useOutlet;
exports.useOutletContext = useOutletContext;
exports.useParams = useParams;
exports.useResolvedPath = useResolvedPath;
exports.useRevalidator = useRevalidator;
exports.useRouteError = useRouteError;
exports.useRouteLoaderData = useRouteLoaderData;
exports.useRoutes = useRoutes;
Object.defineProperty(exports, '__esModule', { value: true });
}));
//# sourceMappingURL=react-router.development.js.map