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| Viewing file: Select action/file-type: "use strict";Object.defineProperty(exports, "__esModule", {value: true}); function _interopRequireWildcard(obj) { if (obj && obj.__esModule) { return obj; } else { var newObj = {}; if (obj != null) { for (var key in obj) { if (Object.prototype.hasOwnProperty.call(obj, key)) { newObj[key] = obj[key]; } } } newObj.default = obj; return newObj; } } function _nullishCoalesce(lhs, rhsFn) { if (lhs != null) { return lhs; } else { return rhsFn(); } } function _optionalChain(ops) { let lastAccessLHS = undefined; let value = ops[0]; let i = 1; while (i < ops.length) { const op = ops[i]; const fn = ops[i + 1]; i += 2; if ((op === 'optionalAccess' || op === 'optionalCall') && value == null) { return undefined; } if (op === 'access' || op === 'optionalAccess') { lastAccessLHS = value; value = fn(value); } else if (op === 'call' || op === 'optionalCall') { value = fn((...args) => value.call(lastAccessLHS, ...args)); lastAccessLHS = undefined; } } return value; }/**
* react-router v7.9.6
*
* 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
*/
var __typeError = (msg) => {
throw TypeError(msg);
};
var __accessCheck = (obj, member, msg) => member.has(obj) || __typeError("Cannot " + msg);
var __privateGet = (obj, member, getter) => (__accessCheck(obj, member, "read from private field"), getter ? getter.call(obj) : member.get(obj));
var __privateAdd = (obj, member, value) => member.has(obj) ? __typeError("Cannot add the same private member more than once") : member instanceof WeakSet ? member.add(obj) : member.set(obj, value);
// lib/router/history.ts
var Action = /* @__PURE__ */ ((Action2) => {
Action2["Pop"] = "POP";
Action2["Push"] = "PUSH";
Action2["Replace"] = "REPLACE";
return Action2;
})(Action || {});
var PopStateEventType = "popstate";
function createMemoryHistory(options = {}) {
let { initialEntries = ["/"], initialIndex, v5Compat = false } = options;
let entries;
entries = initialEntries.map(
(entry, index2) => createMemoryLocation(
entry,
typeof entry === "string" ? null : entry.state,
index2 === 0 ? "default" : void 0
)
);
let index = clampIndex(
initialIndex == null ? entries.length - 1 : initialIndex
);
let action = "POP" /* Pop */;
let listener = null;
function clampIndex(n) {
return Math.min(Math.max(n, 0), entries.length - 1);
}
function getCurrentLocation() {
return entries[index];
}
function createMemoryLocation(to, state = null, key) {
let location = createLocation(
entries ? getCurrentLocation().pathname : "/",
to,
state,
key
);
warning(
location.pathname.charAt(0) === "/",
`relative pathnames are not supported in memory history: ${JSON.stringify(
to
)}`
);
return location;
}
function createHref(to) {
return typeof to === "string" ? to : createPath(to);
}
let history = {
get index() {
return index;
},
get action() {
return action;
},
get location() {
return getCurrentLocation();
},
createHref,
createURL(to) {
return new URL(createHref(to), "http://localhost");
},
encodeLocation(to) {
let path = typeof to === "string" ? parsePath(to) : to;
return {
pathname: path.pathname || "",
search: path.search || "",
hash: path.hash || ""
};
},
push(to, state) {
action = "PUSH" /* Push */;
let nextLocation = createMemoryLocation(to, state);
index += 1;
entries.splice(index, entries.length, nextLocation);
if (v5Compat && listener) {
listener({ action, location: nextLocation, delta: 1 });
}
},
replace(to, state) {
action = "REPLACE" /* Replace */;
let nextLocation = createMemoryLocation(to, state);
entries[index] = nextLocation;
if (v5Compat && listener) {
listener({ action, location: nextLocation, delta: 0 });
}
},
go(delta) {
action = "POP" /* Pop */;
let nextIndex = clampIndex(index + delta);
let nextLocation = entries[nextIndex];
index = nextIndex;
if (listener) {
listener({ action, location: nextLocation, delta });
}
},
listen(fn) {
listener = fn;
return () => {
listener = null;
};
}
};
return history;
}
function createBrowserHistory(options = {}) {
function createBrowserLocation(window2, globalHistory) {
let { pathname, search, hash } = window2.location;
return createLocation(
"",
{ pathname, search, hash },
// state defaults to `null` because `window.history.state` does
globalHistory.state && globalHistory.state.usr || null,
globalHistory.state && globalHistory.state.key || "default"
);
}
function createBrowserHref(window2, to) {
return typeof to === "string" ? to : createPath(to);
}
return getUrlBasedHistory(
createBrowserLocation,
createBrowserHref,
null,
options
);
}
function createHashHistory(options = {}) {
function createHashLocation(window2, globalHistory) {
let {
pathname = "/",
search = "",
hash = ""
} = parsePath(window2.location.hash.substring(1));
if (!pathname.startsWith("/") && !pathname.startsWith(".")) {
pathname = "/" + pathname;
}
return createLocation(
"",
{ pathname, search, hash },
// state defaults to `null` because `window.history.state` does
globalHistory.state && globalHistory.state.usr || null,
globalHistory.state && globalHistory.state.key || "default"
);
}
function createHashHref(window2, to) {
let base = window2.document.querySelector("base");
let href = "";
if (base && base.getAttribute("href")) {
let url = window2.location.href;
let hashIndex = url.indexOf("#");
href = hashIndex === -1 ? url : url.slice(0, hashIndex);
}
return href + "#" + (typeof to === "string" ? to : createPath(to));
}
function validateHashLocation(location, to) {
warning(
location.pathname.charAt(0) === "/",
`relative pathnames are not supported in hash history.push(${JSON.stringify(
to
)})`
);
}
return getUrlBasedHistory(
createHashLocation,
createHashHref,
validateHashLocation,
options
);
}
function invariant(value, message) {
if (value === false || value === null || typeof value === "undefined") {
throw new Error(message);
}
}
function warning(cond, message) {
if (!cond) {
if (typeof console !== "undefined") console.warn(message);
try {
throw new Error(message);
} catch (e) {
}
}
}
function createKey() {
return Math.random().toString(36).substring(2, 10);
}
function getHistoryState(location, index) {
return {
usr: location.state,
key: location.key,
idx: index
};
}
function createLocation(current, to, state = null, key) {
let location = {
pathname: typeof current === "string" ? current : current.pathname,
search: "",
hash: "",
...typeof to === "string" ? parsePath(to) : to,
state,
// TODO: This could be cleaned up. push/replace should probably just take
// full Locations now and avoid the need to run through this flow at all
// But that's a pretty big refactor to the current test suite so going to
// keep as is for the time being and just let any incoming keys take precedence
key: to && to.key || key || createKey()
};
return location;
}
function createPath({
pathname = "/",
search = "",
hash = ""
}) {
if (search && search !== "?")
pathname += search.charAt(0) === "?" ? search : "?" + search;
if (hash && hash !== "#")
pathname += hash.charAt(0) === "#" ? hash : "#" + hash;
return pathname;
}
function parsePath(path) {
let parsedPath = {};
if (path) {
let hashIndex = path.indexOf("#");
if (hashIndex >= 0) {
parsedPath.hash = path.substring(hashIndex);
path = path.substring(0, hashIndex);
}
let searchIndex = path.indexOf("?");
if (searchIndex >= 0) {
parsedPath.search = path.substring(searchIndex);
path = path.substring(0, searchIndex);
}
if (path) {
parsedPath.pathname = path;
}
}
return parsedPath;
}
function getUrlBasedHistory(getLocation, createHref, validateLocation, options = {}) {
let { window: window2 = document.defaultView, v5Compat = false } = options;
let globalHistory = window2.history;
let action = "POP" /* Pop */;
let listener = null;
let index = getIndex();
if (index == null) {
index = 0;
globalHistory.replaceState({ ...globalHistory.state, idx: index }, "");
}
function getIndex() {
let state = globalHistory.state || { idx: null };
return state.idx;
}
function handlePop() {
action = "POP" /* Pop */;
let nextIndex = getIndex();
let delta = nextIndex == null ? null : nextIndex - index;
index = nextIndex;
if (listener) {
listener({ action, location: history.location, delta });
}
}
function push(to, state) {
action = "PUSH" /* Push */;
let location = createLocation(history.location, to, state);
if (validateLocation) validateLocation(location, to);
index = getIndex() + 1;
let historyState = getHistoryState(location, index);
let url = history.createHref(location);
try {
globalHistory.pushState(historyState, "", url);
} catch (error) {
if (error instanceof DOMException && error.name === "DataCloneError") {
throw error;
}
window2.location.assign(url);
}
if (v5Compat && listener) {
listener({ action, location: history.location, delta: 1 });
}
}
function replace2(to, state) {
action = "REPLACE" /* Replace */;
let location = createLocation(history.location, to, state);
if (validateLocation) validateLocation(location, to);
index = getIndex();
let historyState = getHistoryState(location, index);
let url = history.createHref(location);
globalHistory.replaceState(historyState, "", url);
if (v5Compat && listener) {
listener({ action, location: history.location, delta: 0 });
}
}
function createURL(to) {
return createBrowserURLImpl(to);
}
let history = {
get action() {
return action;
},
get location() {
return getLocation(window2, globalHistory);
},
listen(fn) {
if (listener) {
throw new Error("A history only accepts one active listener");
}
window2.addEventListener(PopStateEventType, handlePop);
listener = fn;
return () => {
window2.removeEventListener(PopStateEventType, handlePop);
listener = null;
};
},
createHref(to) {
return createHref(window2, to);
},
createURL,
encodeLocation(to) {
let url = createURL(to);
return {
pathname: url.pathname,
search: url.search,
hash: url.hash
};
},
push,
replace: replace2,
go(n) {
return globalHistory.go(n);
}
};
return history;
}
function createBrowserURLImpl(to, isAbsolute = false) {
let base = "http://localhost";
if (typeof window !== "undefined") {
base = window.location.origin !== "null" ? window.location.origin : window.location.href;
}
invariant(base, "No window.location.(origin|href) available to create URL");
let href = typeof to === "string" ? to : createPath(to);
href = href.replace(/ $/, "%20");
if (!isAbsolute && href.startsWith("//")) {
href = base + href;
}
return new URL(href, base);
}
// lib/router/utils.ts
function createContext(defaultValue) {
return { defaultValue };
}
var _map;
var RouterContextProvider = class {
/**
* Create a new `RouterContextProvider` instance
* @param init An optional initial context map to populate the provider with
*/
constructor(init) {
__privateAdd(this, _map, /* @__PURE__ */ new Map());
if (init) {
for (let [context, value] of init) {
this.set(context, value);
}
}
}
/**
* Access a value from the context. If no value has been set for the context,
* it will return the context's `defaultValue` if provided, or throw an error
* if no `defaultValue` was set.
* @param context The context to get the value for
* @returns The value for the context, or the context's `defaultValue` if no
* value was set
*/
get(context) {
if (__privateGet(this, _map).has(context)) {
return __privateGet(this, _map).get(context);
}
if (context.defaultValue !== void 0) {
return context.defaultValue;
}
throw new Error("No value found for context");
}
/**
* Set a value for the context. If the context already has a value set, this
* will overwrite it.
*
* @param context The context to set the value for
* @param value The value to set for the context
* @returns {void}
*/
set(context, value) {
__privateGet(this, _map).set(context, value);
}
};
_map = new WeakMap();
var unsupportedLazyRouteObjectKeys = /* @__PURE__ */ new Set([
"lazy",
"caseSensitive",
"path",
"id",
"index",
"children"
]);
function isUnsupportedLazyRouteObjectKey(key) {
return unsupportedLazyRouteObjectKeys.has(
key
);
}
var unsupportedLazyRouteFunctionKeys = /* @__PURE__ */ new Set([
"lazy",
"caseSensitive",
"path",
"id",
"index",
"middleware",
"children"
]);
function isUnsupportedLazyRouteFunctionKey(key) {
return unsupportedLazyRouteFunctionKeys.has(
key
);
}
function isIndexRoute(route) {
return route.index === true;
}
function convertRoutesToDataRoutes(routes, mapRouteProperties2, parentPath = [], manifest = {}, allowInPlaceMutations = false) {
return routes.map((route, index) => {
let treePath = [...parentPath, String(index)];
let id = typeof route.id === "string" ? route.id : treePath.join("-");
invariant(
route.index !== true || !route.children,
`Cannot specify children on an index route`
);
invariant(
allowInPlaceMutations || !manifest[id],
`Found a route id collision on id "${id}". Route id's must be globally unique within Data Router usages`
);
if (isIndexRoute(route)) {
let indexRoute = {
...route,
id
};
manifest[id] = mergeRouteUpdates(
indexRoute,
mapRouteProperties2(indexRoute)
);
return indexRoute;
} else {
let pathOrLayoutRoute = {
...route,
id,
children: void 0
};
manifest[id] = mergeRouteUpdates(
pathOrLayoutRoute,
mapRouteProperties2(pathOrLayoutRoute)
);
if (route.children) {
pathOrLayoutRoute.children = convertRoutesToDataRoutes(
route.children,
mapRouteProperties2,
treePath,
manifest,
allowInPlaceMutations
);
}
return pathOrLayoutRoute;
}
});
}
function mergeRouteUpdates(route, updates) {
return Object.assign(route, {
...updates,
...typeof updates.lazy === "object" && updates.lazy != null ? {
lazy: {
...route.lazy,
...updates.lazy
}
} : {}
});
}
function matchRoutes(routes, locationArg, basename = "/") {
return matchRoutesImpl(routes, locationArg, basename, false);
}
function matchRoutesImpl(routes, locationArg, basename, allowPartial) {
let location = typeof locationArg === "string" ? parsePath(locationArg) : locationArg;
let pathname = stripBasename(location.pathname || "/", basename);
if (pathname == null) {
return null;
}
let branches = flattenRoutes(routes);
rankRouteBranches(branches);
let matches = null;
for (let i = 0; matches == null && i < branches.length; ++i) {
let decoded = decodePath(pathname);
matches = matchRouteBranch(
branches[i],
decoded,
allowPartial
);
}
return matches;
}
function convertRouteMatchToUiMatch(match, loaderData) {
let { route, pathname, params } = match;
return {
id: route.id,
pathname,
params,
data: loaderData[route.id],
loaderData: loaderData[route.id],
handle: route.handle
};
}
function flattenRoutes(routes, branches = [], parentsMeta = [], parentPath = "", _hasParentOptionalSegments = false) {
let flattenRoute = (route, index, hasParentOptionalSegments = _hasParentOptionalSegments, relativePath) => {
let meta = {
relativePath: relativePath === void 0 ? route.path || "" : relativePath,
caseSensitive: route.caseSensitive === true,
childrenIndex: index,
route
};
if (meta.relativePath.startsWith("/")) {
if (!meta.relativePath.startsWith(parentPath) && hasParentOptionalSegments) {
return;
}
invariant(
meta.relativePath.startsWith(parentPath),
`Absolute route path "${meta.relativePath}" nested under path "${parentPath}" is not valid. An absolute child route path must start with the combined path of all its parent routes.`
);
meta.relativePath = meta.relativePath.slice(parentPath.length);
}
let path = joinPaths([parentPath, meta.relativePath]);
let routesMeta = parentsMeta.concat(meta);
if (route.children && route.children.length > 0) {
invariant(
// Our types know better, but runtime JS may not!
// @ts-expect-error
route.index !== true,
`Index routes must not have child routes. Please remove all child routes from route path "${path}".`
);
flattenRoutes(
route.children,
branches,
routesMeta,
path,
hasParentOptionalSegments
);
}
if (route.path == null && !route.index) {
return;
}
branches.push({
path,
score: computeScore(path, route.index),
routesMeta
});
};
routes.forEach((route, index) => {
if (route.path === "" || !_optionalChain([route, 'access', _2 => _2.path, 'optionalAccess', _3 => _3.includes, 'call', _4 => _4("?")])) {
flattenRoute(route, index);
} else {
for (let exploded of explodeOptionalSegments(route.path)) {
flattenRoute(route, index, true, exploded);
}
}
});
return branches;
}
function explodeOptionalSegments(path) {
let segments = path.split("/");
if (segments.length === 0) return [];
let [first, ...rest] = segments;
let isOptional = first.endsWith("?");
let required = first.replace(/\?$/, "");
if (rest.length === 0) {
return isOptional ? [required, ""] : [required];
}
let restExploded = explodeOptionalSegments(rest.join("/"));
let result = [];
result.push(
...restExploded.map(
(subpath) => subpath === "" ? required : [required, subpath].join("/")
)
);
if (isOptional) {
result.push(...restExploded);
}
return result.map(
(exploded) => path.startsWith("/") && exploded === "" ? "/" : exploded
);
}
function rankRouteBranches(branches) {
branches.sort(
(a, b) => a.score !== b.score ? b.score - a.score : compareIndexes(
a.routesMeta.map((meta) => meta.childrenIndex),
b.routesMeta.map((meta) => meta.childrenIndex)
)
);
}
var paramRe = /^:[\w-]+$/;
var dynamicSegmentValue = 3;
var indexRouteValue = 2;
var emptySegmentValue = 1;
var staticSegmentValue = 10;
var splatPenalty = -2;
var isSplat = (s) => s === "*";
function computeScore(path, index) {
let segments = path.split("/");
let initialScore = segments.length;
if (segments.some(isSplat)) {
initialScore += splatPenalty;
}
if (index) {
initialScore += indexRouteValue;
}
return segments.filter((s) => !isSplat(s)).reduce(
(score, segment) => score + (paramRe.test(segment) ? dynamicSegmentValue : segment === "" ? emptySegmentValue : staticSegmentValue),
initialScore
);
}
function compareIndexes(a, b) {
let siblings = a.length === b.length && a.slice(0, -1).every((n, i) => n === b[i]);
return siblings ? (
// If two routes are siblings, we should try to match the earlier sibling
// first. This allows people to have fine-grained control over the matching
// behavior by simply putting routes with identical paths in the order they
// want them tried.
a[a.length - 1] - b[b.length - 1]
) : (
// Otherwise, it doesn't really make sense to rank non-siblings by index,
// so they sort equally.
0
);
}
function matchRouteBranch(branch, pathname, allowPartial = false) {
let { routesMeta } = branch;
let matchedParams = {};
let matchedPathname = "/";
let matches = [];
for (let i = 0; i < routesMeta.length; ++i) {
let meta = routesMeta[i];
let end = i === routesMeta.length - 1;
let remainingPathname = matchedPathname === "/" ? pathname : pathname.slice(matchedPathname.length) || "/";
let match = matchPath(
{ path: meta.relativePath, caseSensitive: meta.caseSensitive, end },
remainingPathname
);
let route = meta.route;
if (!match && end && allowPartial && !routesMeta[routesMeta.length - 1].route.index) {
match = matchPath(
{
path: meta.relativePath,
caseSensitive: meta.caseSensitive,
end: false
},
remainingPathname
);
}
if (!match) {
return null;
}
Object.assign(matchedParams, match.params);
matches.push({
// TODO: Can this as be avoided?
params: matchedParams,
pathname: joinPaths([matchedPathname, match.pathname]),
pathnameBase: normalizePathname(
joinPaths([matchedPathname, match.pathnameBase])
),
route
});
if (match.pathnameBase !== "/") {
matchedPathname = joinPaths([matchedPathname, match.pathnameBase]);
}
}
return matches;
}
function generatePath(originalPath, params = {}) {
let path = originalPath;
if (path.endsWith("*") && path !== "*" && !path.endsWith("/*")) {
warning(
false,
`Route path "${path}" will be treated as if it were "${path.replace(/\*$/, "/*")}" because the \`*\` character must always follow a \`/\` in the pattern. To get rid of this warning, please change the route path to "${path.replace(/\*$/, "/*")}".`
);
path = path.replace(/\*$/, "/*");
}
const prefix = path.startsWith("/") ? "/" : "";
const stringify2 = (p) => p == null ? "" : typeof p === "string" ? p : String(p);
const segments = path.split(/\/+/).map((segment, index, array) => {
const isLastSegment = index === array.length - 1;
if (isLastSegment && segment === "*") {
const star = "*";
return stringify2(params[star]);
}
const keyMatch = segment.match(/^:([\w-]+)(\??)$/);
if (keyMatch) {
const [, key, optional] = keyMatch;
let param = params[key];
invariant(optional === "?" || param != null, `Missing ":${key}" param`);
return encodeURIComponent(stringify2(param));
}
return segment.replace(/\?$/g, "");
}).filter((segment) => !!segment);
return prefix + segments.join("/");
}
function matchPath(pattern, pathname) {
if (typeof pattern === "string") {
pattern = { path: pattern, caseSensitive: false, end: true };
}
let [matcher, compiledParams] = compilePath(
pattern.path,
pattern.caseSensitive,
pattern.end
);
let match = pathname.match(matcher);
if (!match) return null;
let matchedPathname = match[0];
let pathnameBase = matchedPathname.replace(/(.)\/+$/, "$1");
let captureGroups = match.slice(1);
let params = compiledParams.reduce(
(memo2, { paramName, isOptional }, index) => {
if (paramName === "*") {
let splatValue = captureGroups[index] || "";
pathnameBase = matchedPathname.slice(0, matchedPathname.length - splatValue.length).replace(/(.)\/+$/, "$1");
}
const value = captureGroups[index];
if (isOptional && !value) {
memo2[paramName] = void 0;
} else {
memo2[paramName] = (value || "").replace(/%2F/g, "/");
}
return memo2;
},
{}
);
return {
params,
pathname: matchedPathname,
pathnameBase,
pattern
};
}
function compilePath(path, caseSensitive = false, end = true) {
warning(
path === "*" || !path.endsWith("*") || path.endsWith("/*"),
`Route path "${path}" will be treated as if it were "${path.replace(/\*$/, "/*")}" because the \`*\` character must always follow a \`/\` in the pattern. To get rid of this warning, please change the route path to "${path.replace(/\*$/, "/*")}".`
);
let params = [];
let regexpSource = "^" + path.replace(/\/*\*?$/, "").replace(/^\/*/, "/").replace(/[\\.*+^${}|()[\]]/g, "\\$&").replace(
/\/:([\w-]+)(\?)?/g,
(_, paramName, isOptional) => {
params.push({ paramName, isOptional: isOptional != null });
return isOptional ? "/?([^\\/]+)?" : "/([^\\/]+)";
}
).replace(/\/([\w-]+)\?(\/|$)/g, "(/$1)?$2");
if (path.endsWith("*")) {
params.push({ paramName: "*" });
regexpSource += path === "*" || path === "/*" ? "(.*)$" : "(?:\\/(.+)|\\/*)$";
} else if (end) {
regexpSource += "\\/*$";
} else if (path !== "" && path !== "/") {
regexpSource += "(?:(?=\\/|$))";
} else {
}
let matcher = new RegExp(regexpSource, caseSensitive ? void 0 : "i");
return [matcher, params];
}
function decodePath(value) {
try {
return value.split("/").map((v) => decodeURIComponent(v).replace(/\//g, "%2F")).join("/");
} catch (error) {
warning(
false,
`The URL path "${value}" could not be decoded because it is a malformed URL segment. This is probably due to a bad percent encoding (${error}).`
);
return value;
}
}
function stripBasename(pathname, basename) {
if (basename === "/") return pathname;
if (!pathname.toLowerCase().startsWith(basename.toLowerCase())) {
return null;
}
let startIndex = basename.endsWith("/") ? basename.length - 1 : basename.length;
let nextChar = pathname.charAt(startIndex);
if (nextChar && nextChar !== "/") {
return null;
}
return pathname.slice(startIndex) || "/";
}
function prependBasename({
basename,
pathname
}) {
return pathname === "/" ? basename : joinPaths([basename, pathname]);
}
var ABSOLUTE_URL_REGEX = /^(?:[a-z][a-z0-9+.-]*:|\/\/)/i;
var isAbsoluteUrl = (url) => ABSOLUTE_URL_REGEX.test(url);
function resolvePath(to, fromPathname = "/") {
let {
pathname: toPathname,
search = "",
hash = ""
} = typeof to === "string" ? parsePath(to) : to;
let pathname;
if (toPathname) {
if (isAbsoluteUrl(toPathname)) {
pathname = toPathname;
} else {
if (toPathname.includes("//")) {
let oldPathname = toPathname;
toPathname = toPathname.replace(/\/\/+/g, "/");
warning(
false,
`Pathnames cannot have embedded double slashes - normalizing ${oldPathname} -> ${toPathname}`
);
}
if (toPathname.startsWith("/")) {
pathname = resolvePathname(toPathname.substring(1), "/");
} else {
pathname = resolvePathname(toPathname, fromPathname);
}
}
} else {
pathname = fromPathname;
}
return {
pathname,
search: normalizeSearch(search),
hash: normalizeHash(hash)
};
}
function resolvePathname(relativePath, fromPathname) {
let segments = fromPathname.replace(/\/+$/, "").split("/");
let relativeSegments = relativePath.split("/");
relativeSegments.forEach((segment) => {
if (segment === "..") {
if (segments.length > 1) segments.pop();
} else if (segment !== ".") {
segments.push(segment);
}
});
return segments.length > 1 ? segments.join("/") : "/";
}
function getInvalidPathError(char, field, dest, path) {
return `Cannot include a '${char}' character in a manually specified \`to.${field}\` field [${JSON.stringify(
path
)}]. Please separate it out to the \`to.${dest}\` field. Alternatively you may provide the full path as a string in <Link to="..."> and the router will parse it for you.`;
}
function getPathContributingMatches(matches) {
return matches.filter(
(match, index) => index === 0 || match.route.path && match.route.path.length > 0
);
}
function getResolveToMatches(matches) {
let pathMatches = getPathContributingMatches(matches);
return pathMatches.map(
(match, idx) => idx === pathMatches.length - 1 ? match.pathname : match.pathnameBase
);
}
function resolveTo(toArg, routePathnames, locationPathname, isPathRelative = false) {
let to;
if (typeof toArg === "string") {
to = parsePath(toArg);
} else {
to = { ...toArg };
invariant(
!to.pathname || !to.pathname.includes("?"),
getInvalidPathError("?", "pathname", "search", to)
);
invariant(
!to.pathname || !to.pathname.includes("#"),
getInvalidPathError("#", "pathname", "hash", to)
);
invariant(
!to.search || !to.search.includes("#"),
getInvalidPathError("#", "search", "hash", to)
);
}
let isEmptyPath = toArg === "" || to.pathname === "";
let toPathname = isEmptyPath ? "/" : to.pathname;
let from;
if (toPathname == null) {
from = locationPathname;
} else {
let routePathnameIndex = routePathnames.length - 1;
if (!isPathRelative && toPathname.startsWith("..")) {
let toSegments = toPathname.split("/");
while (toSegments[0] === "..") {
toSegments.shift();
routePathnameIndex -= 1;
}
to.pathname = toSegments.join("/");
}
from = routePathnameIndex >= 0 ? routePathnames[routePathnameIndex] : "/";
}
let path = resolvePath(to, from);
let hasExplicitTrailingSlash = toPathname && toPathname !== "/" && toPathname.endsWith("/");
let hasCurrentTrailingSlash = (isEmptyPath || toPathname === ".") && locationPathname.endsWith("/");
if (!path.pathname.endsWith("/") && (hasExplicitTrailingSlash || hasCurrentTrailingSlash)) {
path.pathname += "/";
}
return path;
}
var joinPaths = (paths) => paths.join("/").replace(/\/\/+/g, "/");
var normalizePathname = (pathname) => pathname.replace(/\/+$/, "").replace(/^\/*/, "/");
var normalizeSearch = (search) => !search || search === "?" ? "" : search.startsWith("?") ? search : "?" + search;
var normalizeHash = (hash) => !hash || hash === "#" ? "" : hash.startsWith("#") ? hash : "#" + hash;
var DataWithResponseInit = class {
constructor(data2, init) {
this.type = "DataWithResponseInit";
this.data = data2;
this.init = init || null;
}
};
function data(data2, init) {
return new DataWithResponseInit(
data2,
typeof init === "number" ? { status: init } : init
);
}
var redirect = (url, init = 302) => {
let responseInit = init;
if (typeof responseInit === "number") {
responseInit = { status: responseInit };
} else if (typeof responseInit.status === "undefined") {
responseInit.status = 302;
}
let headers = new Headers(responseInit.headers);
headers.set("Location", url);
return new Response(null, { ...responseInit, headers });
};
var redirectDocument = (url, init) => {
let response = redirect(url, init);
response.headers.set("X-Remix-Reload-Document", "true");
return response;
};
var replace = (url, init) => {
let response = redirect(url, init);
response.headers.set("X-Remix-Replace", "true");
return response;
};
var ErrorResponseImpl = class {
constructor(status, statusText, data2, internal = false) {
this.status = status;
this.statusText = statusText || "";
this.internal = internal;
if (data2 instanceof Error) {
this.data = data2.toString();
this.error = data2;
} else {
this.data = data2;
}
}
};
function isRouteErrorResponse(error) {
return error != null && typeof error.status === "number" && typeof error.statusText === "string" && typeof error.internal === "boolean" && "data" in error;
}
function getRoutePattern(paths) {
return paths.filter(Boolean).join("/").replace(/\/\/*/g, "/") || "/";
}
// lib/router/instrumentation.ts
var UninstrumentedSymbol = Symbol("Uninstrumented");
function getRouteInstrumentationUpdates(fns, route) {
let aggregated = {
lazy: [],
"lazy.loader": [],
"lazy.action": [],
"lazy.middleware": [],
middleware: [],
loader: [],
action: []
};
fns.forEach(
(fn) => fn({
id: route.id,
index: route.index,
path: route.path,
instrument(i) {
let keys = Object.keys(aggregated);
for (let key of keys) {
if (i[key]) {
aggregated[key].push(i[key]);
}
}
}
})
);
let updates = {};
if (typeof route.lazy === "function" && aggregated.lazy.length > 0) {
let instrumented = wrapImpl(aggregated.lazy, route.lazy, () => void 0);
if (instrumented) {
updates.lazy = instrumented;
}
}
if (typeof route.lazy === "object") {
let lazyObject = route.lazy;
["middleware", "loader", "action"].forEach((key) => {
let lazyFn = lazyObject[key];
let instrumentations = aggregated[`lazy.${key}`];
if (typeof lazyFn === "function" && instrumentations.length > 0) {
let instrumented = wrapImpl(instrumentations, lazyFn, () => void 0);
if (instrumented) {
updates.lazy = Object.assign(updates.lazy || {}, {
[key]: instrumented
});
}
}
});
}
["loader", "action"].forEach((key) => {
let handler = route[key];
if (typeof handler === "function" && aggregated[key].length > 0) {
let original = _nullishCoalesce(handler[UninstrumentedSymbol], () => ( handler));
let instrumented = wrapImpl(
aggregated[key],
original,
(...args) => getHandlerInfo(args[0])
);
if (instrumented) {
instrumented[UninstrumentedSymbol] = original;
updates[key] = instrumented;
}
}
});
if (route.middleware && route.middleware.length > 0 && aggregated.middleware.length > 0) {
updates.middleware = route.middleware.map((middleware) => {
let original = _nullishCoalesce(middleware[UninstrumentedSymbol], () => ( middleware));
let instrumented = wrapImpl(
aggregated.middleware,
original,
(...args) => getHandlerInfo(args[0])
);
if (instrumented) {
instrumented[UninstrumentedSymbol] = original;
return instrumented;
}
return middleware;
});
}
return updates;
}
function instrumentClientSideRouter(router, fns) {
let aggregated = {
navigate: [],
fetch: []
};
fns.forEach(
(fn) => fn({
instrument(i) {
let keys = Object.keys(i);
for (let key of keys) {
if (i[key]) {
aggregated[key].push(i[key]);
}
}
}
})
);
if (aggregated.navigate.length > 0) {
let navigate = _nullishCoalesce(router.navigate[UninstrumentedSymbol], () => ( router.navigate));
let instrumentedNavigate = wrapImpl(
aggregated.navigate,
navigate,
(...args) => {
let [to, opts] = args;
return {
to: typeof to === "number" || typeof to === "string" ? to : to ? createPath(to) : ".",
...getRouterInfo(router, _nullishCoalesce(opts, () => ( {})))
};
}
);
if (instrumentedNavigate) {
instrumentedNavigate[UninstrumentedSymbol] = navigate;
router.navigate = instrumentedNavigate;
}
}
if (aggregated.fetch.length > 0) {
let fetch2 = _nullishCoalesce(router.fetch[UninstrumentedSymbol], () => ( router.fetch));
let instrumentedFetch = wrapImpl(aggregated.fetch, fetch2, (...args) => {
let [key, , href, opts] = args;
return {
href: _nullishCoalesce(href, () => ( ".")),
fetcherKey: key,
...getRouterInfo(router, _nullishCoalesce(opts, () => ( {})))
};
});
if (instrumentedFetch) {
instrumentedFetch[UninstrumentedSymbol] = fetch2;
router.fetch = instrumentedFetch;
}
}
return router;
}
function instrumentHandler(handler, fns) {
let aggregated = {
request: []
};
fns.forEach(
(fn) => fn({
instrument(i) {
let keys = Object.keys(i);
for (let key of keys) {
if (i[key]) {
aggregated[key].push(i[key]);
}
}
}
})
);
let instrumentedHandler = handler;
if (aggregated.request.length > 0) {
instrumentedHandler = wrapImpl(aggregated.request, handler, (...args) => {
let [request, context] = args;
return {
request: getReadonlyRequest(request),
context: context != null ? getReadonlyContext(context) : context
};
});
}
return instrumentedHandler;
}
function wrapImpl(impls, handler, getInfo) {
if (impls.length === 0) {
return null;
}
return async (...args) => {
let result = await recurseRight(
impls,
getInfo(...args),
() => handler(...args),
impls.length - 1
);
if (result.type === "error") {
throw result.value;
}
return result.value;
};
}
async function recurseRight(impls, info, handler, index) {
let impl = impls[index];
let result;
if (!impl) {
try {
let value = await handler();
result = { type: "success", value };
} catch (e) {
result = { type: "error", value: e };
}
} else {
let handlerPromise = void 0;
let callHandler = async () => {
if (handlerPromise) {
console.error("You cannot call instrumented handlers more than once");
} else {
handlerPromise = recurseRight(impls, info, handler, index - 1);
}
result = await handlerPromise;
invariant(result, "Expected a result");
if (result.type === "error" && result.value instanceof Error) {
return { status: "error", error: result.value };
}
return { status: "success", error: void 0 };
};
try {
await impl(callHandler, info);
} catch (e) {
console.error("An instrumentation function threw an error:", e);
}
if (!handlerPromise) {
await callHandler();
}
await handlerPromise;
}
if (result) {
return result;
}
return {
type: "error",
value: new Error("No result assigned in instrumentation chain.")
};
}
function getHandlerInfo(args) {
let { request, context, params, unstable_pattern } = args;
return {
request: getReadonlyRequest(request),
params: { ...params },
unstable_pattern,
context: getReadonlyContext(context)
};
}
function getRouterInfo(router, opts) {
return {
currentUrl: createPath(router.state.location),
..."formMethod" in opts ? { formMethod: opts.formMethod } : {},
..."formEncType" in opts ? { formEncType: opts.formEncType } : {},
..."formData" in opts ? { formData: opts.formData } : {},
..."body" in opts ? { body: opts.body } : {}
};
}
function getReadonlyRequest(request) {
return {
method: request.method,
url: request.url,
headers: {
get: (...args) => request.headers.get(...args)
}
};
}
function getReadonlyContext(context) {
if (isPlainObject(context)) {
let frozen = { ...context };
Object.freeze(frozen);
return frozen;
} else {
return {
get: (ctx) => context.get(ctx)
};
}
}
var objectProtoNames = Object.getOwnPropertyNames(Object.prototype).sort().join("\0");
function isPlainObject(thing) {
if (thing === null || typeof thing !== "object") {
return false;
}
const proto = Object.getPrototypeOf(thing);
return proto === Object.prototype || proto === null || Object.getOwnPropertyNames(proto).sort().join("\0") === objectProtoNames;
}
// lib/router/router.ts
var validMutationMethodsArr = [
"POST",
"PUT",
"PATCH",
"DELETE"
];
var validMutationMethods = new Set(
validMutationMethodsArr
);
var validRequestMethodsArr = [
"GET",
...validMutationMethodsArr
];
var validRequestMethods = new Set(validRequestMethodsArr);
var redirectStatusCodes = /* @__PURE__ */ new Set([301, 302, 303, 307, 308]);
var redirectPreserveMethodStatusCodes = /* @__PURE__ */ new Set([307, 308]);
var IDLE_NAVIGATION = {
state: "idle",
location: void 0,
formMethod: void 0,
formAction: void 0,
formEncType: void 0,
formData: void 0,
json: void 0,
text: void 0
};
var IDLE_FETCHER = {
state: "idle",
data: void 0,
formMethod: void 0,
formAction: void 0,
formEncType: void 0,
formData: void 0,
json: void 0,
text: void 0
};
var IDLE_BLOCKER = {
state: "unblocked",
proceed: void 0,
reset: void 0,
location: void 0
};
var defaultMapRouteProperties = (route) => ({
hasErrorBoundary: Boolean(route.hasErrorBoundary)
});
var TRANSITIONS_STORAGE_KEY = "remix-router-transitions";
var ResetLoaderDataSymbol = Symbol("ResetLoaderData");
function createRouter(init) {
const routerWindow = init.window ? init.window : typeof window !== "undefined" ? window : void 0;
const isBrowser = typeof routerWindow !== "undefined" && typeof routerWindow.document !== "undefined" && typeof routerWindow.document.createElement !== "undefined";
invariant(
init.routes.length > 0,
"You must provide a non-empty routes array to createRouter"
);
let hydrationRouteProperties2 = init.hydrationRouteProperties || [];
let _mapRouteProperties = init.mapRouteProperties || defaultMapRouteProperties;
let mapRouteProperties2 = _mapRouteProperties;
if (init.unstable_instrumentations) {
let instrumentations = init.unstable_instrumentations;
mapRouteProperties2 = (route) => {
return {
..._mapRouteProperties(route),
...getRouteInstrumentationUpdates(
instrumentations.map((i) => i.route).filter(Boolean),
route
)
};
};
}
let manifest = {};
let dataRoutes = convertRoutesToDataRoutes(
init.routes,
mapRouteProperties2,
void 0,
manifest
);
let inFlightDataRoutes;
let basename = init.basename || "/";
if (!basename.startsWith("/")) {
basename = `/${basename}`;
}
let dataStrategyImpl = init.dataStrategy || defaultDataStrategyWithMiddleware;
let future = {
...init.future
};
let unlistenHistory = null;
let subscribers = /* @__PURE__ */ new Set();
let savedScrollPositions = null;
let getScrollRestorationKey = null;
let getScrollPosition = null;
let initialScrollRestored = init.hydrationData != null;
let initialMatches = matchRoutes(dataRoutes, init.history.location, basename);
let initialMatchesIsFOW = false;
let initialErrors = null;
let initialized;
if (initialMatches == null && !init.patchRoutesOnNavigation) {
let error = getInternalRouterError(404, {
pathname: init.history.location.pathname
});
let { matches, route } = getShortCircuitMatches(dataRoutes);
initialized = true;
initialMatches = matches;
initialErrors = { [route.id]: error };
} else {
if (initialMatches && !init.hydrationData) {
let fogOfWar = checkFogOfWar(
initialMatches,
dataRoutes,
init.history.location.pathname
);
if (fogOfWar.active) {
initialMatches = null;
}
}
if (!initialMatches) {
initialized = false;
initialMatches = [];
let fogOfWar = checkFogOfWar(
null,
dataRoutes,
init.history.location.pathname
);
if (fogOfWar.active && fogOfWar.matches) {
initialMatchesIsFOW = true;
initialMatches = fogOfWar.matches;
}
} else if (initialMatches.some((m) => m.route.lazy)) {
initialized = false;
} else if (!initialMatches.some((m) => routeHasLoaderOrMiddleware(m.route))) {
initialized = true;
} else {
let loaderData = init.hydrationData ? init.hydrationData.loaderData : null;
let errors = init.hydrationData ? init.hydrationData.errors : null;
if (errors) {
let idx = initialMatches.findIndex(
(m) => errors[m.route.id] !== void 0
);
initialized = initialMatches.slice(0, idx + 1).every(
(m) => !shouldLoadRouteOnHydration(m.route, loaderData, errors)
);
} else {
initialized = initialMatches.every(
(m) => !shouldLoadRouteOnHydration(m.route, loaderData, errors)
);
}
}
}
let router;
let state = {
historyAction: init.history.action,
location: init.history.location,
matches: initialMatches,
initialized,
navigation: IDLE_NAVIGATION,
// Don't restore on initial updateState() if we were SSR'd
restoreScrollPosition: init.hydrationData != null ? false : null,
preventScrollReset: false,
revalidation: "idle",
loaderData: init.hydrationData && init.hydrationData.loaderData || {},
actionData: init.hydrationData && init.hydrationData.actionData || null,
errors: init.hydrationData && init.hydrationData.errors || initialErrors,
fetchers: /* @__PURE__ */ new Map(),
blockers: /* @__PURE__ */ new Map()
};
let pendingAction = "POP" /* Pop */;
let pendingPreventScrollReset = false;
let pendingNavigationController;
let pendingViewTransitionEnabled = false;
let appliedViewTransitions = /* @__PURE__ */ new Map();
let removePageHideEventListener = null;
let isUninterruptedRevalidation = false;
let isRevalidationRequired = false;
let cancelledFetcherLoads = /* @__PURE__ */ new Set();
let fetchControllers = /* @__PURE__ */ new Map();
let incrementingLoadId = 0;
let pendingNavigationLoadId = -1;
let fetchReloadIds = /* @__PURE__ */ new Map();
let fetchRedirectIds = /* @__PURE__ */ new Set();
let fetchLoadMatches = /* @__PURE__ */ new Map();
let activeFetchers = /* @__PURE__ */ new Map();
let fetchersQueuedForDeletion = /* @__PURE__ */ new Set();
let blockerFunctions = /* @__PURE__ */ new Map();
let unblockBlockerHistoryUpdate = void 0;
let pendingRevalidationDfd = null;
function initialize() {
unlistenHistory = init.history.listen(
({ action: historyAction, location, delta }) => {
if (unblockBlockerHistoryUpdate) {
unblockBlockerHistoryUpdate();
unblockBlockerHistoryUpdate = void 0;
return;
}
warning(
blockerFunctions.size === 0 || delta != null,
"You are trying to use a blocker on a POP navigation to a location that was not created by @remix-run/router. This will fail silently in production. This can happen if you are navigating outside the router via `window.history.pushState`/`window.location.hash` instead of using router navigation APIs. This can also happen if you are using createHashRouter and the user manually changes the URL."
);
let blockerKey = shouldBlockNavigation({
currentLocation: state.location,
nextLocation: location,
historyAction
});
if (blockerKey && delta != null) {
let nextHistoryUpdatePromise = new Promise((resolve) => {
unblockBlockerHistoryUpdate = resolve;
});
init.history.go(delta * -1);
updateBlocker(blockerKey, {
state: "blocked",
location,
proceed() {
updateBlocker(blockerKey, {
state: "proceeding",
proceed: void 0,
reset: void 0,
location
});
nextHistoryUpdatePromise.then(() => init.history.go(delta));
},
reset() {
let blockers = new Map(state.blockers);
blockers.set(blockerKey, IDLE_BLOCKER);
updateState({ blockers });
}
});
return;
}
return startNavigation(historyAction, location);
}
);
if (isBrowser) {
restoreAppliedTransitions(routerWindow, appliedViewTransitions);
let _saveAppliedTransitions = () => persistAppliedTransitions(routerWindow, appliedViewTransitions);
routerWindow.addEventListener("pagehide", _saveAppliedTransitions);
removePageHideEventListener = () => routerWindow.removeEventListener("pagehide", _saveAppliedTransitions);
}
if (!state.initialized) {
startNavigation("POP" /* Pop */, state.location, {
initialHydration: true
});
}
return router;
}
function dispose() {
if (unlistenHistory) {
unlistenHistory();
}
if (removePageHideEventListener) {
removePageHideEventListener();
}
subscribers.clear();
pendingNavigationController && pendingNavigationController.abort();
state.fetchers.forEach((_, key) => deleteFetcher(key));
state.blockers.forEach((_, key) => deleteBlocker(key));
}
function subscribe(fn) {
subscribers.add(fn);
return () => subscribers.delete(fn);
}
function updateState(newState, opts = {}) {
if (newState.matches) {
newState.matches = newState.matches.map((m) => {
let route = manifest[m.route.id];
let matchRoute = m.route;
if (matchRoute.element !== route.element || matchRoute.errorElement !== route.errorElement || matchRoute.hydrateFallbackElement !== route.hydrateFallbackElement) {
return {
...m,
route
};
}
return m;
});
}
state = {
...state,
...newState
};
let unmountedFetchers = [];
let mountedFetchers = [];
state.fetchers.forEach((fetcher, key) => {
if (fetcher.state === "idle") {
if (fetchersQueuedForDeletion.has(key)) {
unmountedFetchers.push(key);
} else {
mountedFetchers.push(key);
}
}
});
fetchersQueuedForDeletion.forEach((key) => {
if (!state.fetchers.has(key) && !fetchControllers.has(key)) {
unmountedFetchers.push(key);
}
});
[...subscribers].forEach(
(subscriber) => subscriber(state, {
deletedFetchers: unmountedFetchers,
viewTransitionOpts: opts.viewTransitionOpts,
flushSync: opts.flushSync === true
})
);
unmountedFetchers.forEach((key) => deleteFetcher(key));
mountedFetchers.forEach((key) => state.fetchers.delete(key));
}
function completeNavigation(location, newState, { flushSync } = {}) {
let isActionReload = state.actionData != null && state.navigation.formMethod != null && isMutationMethod(state.navigation.formMethod) && state.navigation.state === "loading" && _optionalChain([location, 'access', _5 => _5.state, 'optionalAccess', _6 => _6._isRedirect]) !== true;
let actionData;
if (newState.actionData) {
if (Object.keys(newState.actionData).length > 0) {
actionData = newState.actionData;
} else {
actionData = null;
}
} else if (isActionReload) {
actionData = state.actionData;
} else {
actionData = null;
}
let loaderData = newState.loaderData ? mergeLoaderData(
state.loaderData,
newState.loaderData,
newState.matches || [],
newState.errors
) : state.loaderData;
let blockers = state.blockers;
if (blockers.size > 0) {
blockers = new Map(blockers);
blockers.forEach((_, k) => blockers.set(k, IDLE_BLOCKER));
}
let restoreScrollPosition = isUninterruptedRevalidation ? false : getSavedScrollPosition(location, newState.matches || state.matches);
let preventScrollReset = pendingPreventScrollReset === true || state.navigation.formMethod != null && isMutationMethod(state.navigation.formMethod) && _optionalChain([location, 'access', _7 => _7.state, 'optionalAccess', _8 => _8._isRedirect]) !== true;
if (inFlightDataRoutes) {
dataRoutes = inFlightDataRoutes;
inFlightDataRoutes = void 0;
}
if (isUninterruptedRevalidation) {
} else if (pendingAction === "POP" /* Pop */) {
} else if (pendingAction === "PUSH" /* Push */) {
init.history.push(location, location.state);
} else if (pendingAction === "REPLACE" /* Replace */) {
init.history.replace(location, location.state);
}
let viewTransitionOpts;
if (pendingAction === "POP" /* Pop */) {
let priorPaths = appliedViewTransitions.get(state.location.pathname);
if (priorPaths && priorPaths.has(location.pathname)) {
viewTransitionOpts = {
currentLocation: state.location,
nextLocation: location
};
} else if (appliedViewTransitions.has(location.pathname)) {
viewTransitionOpts = {
currentLocation: location,
nextLocation: state.location
};
}
} else if (pendingViewTransitionEnabled) {
let toPaths = appliedViewTransitions.get(state.location.pathname);
if (toPaths) {
toPaths.add(location.pathname);
} else {
toPaths = /* @__PURE__ */ new Set([location.pathname]);
appliedViewTransitions.set(state.location.pathname, toPaths);
}
viewTransitionOpts = {
currentLocation: state.location,
nextLocation: location
};
}
updateState(
{
...newState,
// matches, errors, fetchers go through as-is
actionData,
loaderData,
historyAction: pendingAction,
location,
initialized: true,
navigation: IDLE_NAVIGATION,
revalidation: "idle",
restoreScrollPosition,
preventScrollReset,
blockers
},
{
viewTransitionOpts,
flushSync: flushSync === true
}
);
pendingAction = "POP" /* Pop */;
pendingPreventScrollReset = false;
pendingViewTransitionEnabled = false;
isUninterruptedRevalidation = false;
isRevalidationRequired = false;
_optionalChain([pendingRevalidationDfd, 'optionalAccess', _9 => _9.resolve, 'call', _10 => _10()]);
pendingRevalidationDfd = null;
}
async function navigate(to, opts) {
if (typeof to === "number") {
init.history.go(to);
return;
}
let normalizedPath = normalizeTo(
state.location,
state.matches,
basename,
to,
_optionalChain([opts, 'optionalAccess', _11 => _11.fromRouteId]),
_optionalChain([opts, 'optionalAccess', _12 => _12.relative])
);
let { path, submission, error } = normalizeNavigateOptions(
false,
normalizedPath,
opts
);
let currentLocation = state.location;
let nextLocation = createLocation(state.location, path, opts && opts.state);
nextLocation = {
...nextLocation,
...init.history.encodeLocation(nextLocation)
};
let userReplace = opts && opts.replace != null ? opts.replace : void 0;
let historyAction = "PUSH" /* Push */;
if (userReplace === true) {
historyAction = "REPLACE" /* Replace */;
} else if (userReplace === false) {
} else if (submission != null && isMutationMethod(submission.formMethod) && submission.formAction === state.location.pathname + state.location.search) {
historyAction = "REPLACE" /* Replace */;
}
let preventScrollReset = opts && "preventScrollReset" in opts ? opts.preventScrollReset === true : void 0;
let flushSync = (opts && opts.flushSync) === true;
let blockerKey = shouldBlockNavigation({
currentLocation,
nextLocation,
historyAction
});
if (blockerKey) {
updateBlocker(blockerKey, {
state: "blocked",
location: nextLocation,
proceed() {
updateBlocker(blockerKey, {
state: "proceeding",
proceed: void 0,
reset: void 0,
location: nextLocation
});
navigate(to, opts);
},
reset() {
let blockers = new Map(state.blockers);
blockers.set(blockerKey, IDLE_BLOCKER);
updateState({ blockers });
}
});
return;
}
await startNavigation(historyAction, nextLocation, {
submission,
// Send through the formData serialization error if we have one so we can
// render at the right error boundary after we match routes
pendingError: error,
preventScrollReset,
replace: opts && opts.replace,
enableViewTransition: opts && opts.viewTransition,
flushSync
});
}
function revalidate() {
if (!pendingRevalidationDfd) {
pendingRevalidationDfd = createDeferred();
}
interruptActiveLoads();
updateState({ revalidation: "loading" });
let promise = pendingRevalidationDfd.promise;
if (state.navigation.state === "submitting") {
return promise;
}
if (state.navigation.state === "idle") {
startNavigation(state.historyAction, state.location, {
startUninterruptedRevalidation: true
});
return promise;
}
startNavigation(
pendingAction || state.historyAction,
state.navigation.location,
{
overrideNavigation: state.navigation,
// Proxy through any rending view transition
enableViewTransition: pendingViewTransitionEnabled === true
}
);
return promise;
}
async function startNavigation(historyAction, location, opts) {
pendingNavigationController && pendingNavigationController.abort();
pendingNavigationController = null;
pendingAction = historyAction;
isUninterruptedRevalidation = (opts && opts.startUninterruptedRevalidation) === true;
saveScrollPosition(state.location, state.matches);
pendingPreventScrollReset = (opts && opts.preventScrollReset) === true;
pendingViewTransitionEnabled = (opts && opts.enableViewTransition) === true;
let routesToUse = inFlightDataRoutes || dataRoutes;
let loadingNavigation = opts && opts.overrideNavigation;
let matches = _optionalChain([opts, 'optionalAccess', _13 => _13.initialHydration]) && state.matches && state.matches.length > 0 && !initialMatchesIsFOW ? (
// `matchRoutes()` has already been called if we're in here via `router.initialize()`
state.matches
) : matchRoutes(routesToUse, location, basename);
let flushSync = (opts && opts.flushSync) === true;
if (matches && state.initialized && !isRevalidationRequired && isHashChangeOnly(state.location, location) && !(opts && opts.submission && isMutationMethod(opts.submission.formMethod))) {
completeNavigation(location, { matches }, { flushSync });
return;
}
let fogOfWar = checkFogOfWar(matches, routesToUse, location.pathname);
if (fogOfWar.active && fogOfWar.matches) {
matches = fogOfWar.matches;
}
if (!matches) {
let { error, notFoundMatches, route } = handleNavigational404(
location.pathname
);
completeNavigation(
location,
{
matches: notFoundMatches,
loaderData: {},
errors: {
[route.id]: error
}
},
{ flushSync }
);
return;
}
pendingNavigationController = new AbortController();
let request = createClientSideRequest(
init.history,
location,
pendingNavigationController.signal,
opts && opts.submission
);
let scopedContext = init.getContext ? await init.getContext() : new RouterContextProvider();
let pendingActionResult;
if (opts && opts.pendingError) {
pendingActionResult = [
findNearestBoundary(matches).route.id,
{ type: "error" /* error */, error: opts.pendingError }
];
} else if (opts && opts.submission && isMutationMethod(opts.submission.formMethod)) {
let actionResult = await handleAction(
request,
location,
opts.submission,
matches,
scopedContext,
fogOfWar.active,
opts && opts.initialHydration === true,
{ replace: opts.replace, flushSync }
);
if (actionResult.shortCircuited) {
return;
}
if (actionResult.pendingActionResult) {
let [routeId, result] = actionResult.pendingActionResult;
if (isErrorResult(result) && isRouteErrorResponse(result.error) && result.error.status === 404) {
pendingNavigationController = null;
completeNavigation(location, {
matches: actionResult.matches,
loaderData: {},
errors: {
[routeId]: result.error
}
});
return;
}
}
matches = actionResult.matches || matches;
pendingActionResult = actionResult.pendingActionResult;
loadingNavigation = getLoadingNavigation(location, opts.submission);
flushSync = false;
fogOfWar.active = false;
request = createClientSideRequest(
init.history,
request.url,
request.signal
);
}
let {
shortCircuited,
matches: updatedMatches,
loaderData,
errors
} = await handleLoaders(
request,
location,
matches,
scopedContext,
fogOfWar.active,
loadingNavigation,
opts && opts.submission,
opts && opts.fetcherSubmission,
opts && opts.replace,
opts && opts.initialHydration === true,
flushSync,
pendingActionResult
);
if (shortCircuited) {
return;
}
pendingNavigationController = null;
completeNavigation(location, {
matches: updatedMatches || matches,
...getActionDataForCommit(pendingActionResult),
loaderData,
errors
});
}
async function handleAction(request, location, submission, matches, scopedContext, isFogOfWar, initialHydration, opts = {}) {
interruptActiveLoads();
let navigation = getSubmittingNavigation(location, submission);
updateState({ navigation }, { flushSync: opts.flushSync === true });
if (isFogOfWar) {
let discoverResult = await discoverRoutes(
matches,
location.pathname,
request.signal
);
if (discoverResult.type === "aborted") {
return { shortCircuited: true };
} else if (discoverResult.type === "error") {
if (discoverResult.partialMatches.length === 0) {
let { matches: matches2, route } = getShortCircuitMatches(dataRoutes);
return {
matches: matches2,
pendingActionResult: [
route.id,
{
type: "error" /* error */,
error: discoverResult.error
}
]
};
}
let boundaryId = findNearestBoundary(discoverResult.partialMatches).route.id;
return {
matches: discoverResult.partialMatches,
pendingActionResult: [
boundaryId,
{
type: "error" /* error */,
error: discoverResult.error
}
]
};
} else if (!discoverResult.matches) {
let { notFoundMatches, error, route } = handleNavigational404(
location.pathname
);
return {
matches: notFoundMatches,
pendingActionResult: [
route.id,
{
type: "error" /* error */,
error
}
]
};
} else {
matches = discoverResult.matches;
}
}
let result;
let actionMatch = getTargetMatch(matches, location);
if (!actionMatch.route.action && !actionMatch.route.lazy) {
result = {
type: "error" /* error */,
error: getInternalRouterError(405, {
method: request.method,
pathname: location.pathname,
routeId: actionMatch.route.id
})
};
} else {
let dsMatches = getTargetedDataStrategyMatches(
mapRouteProperties2,
manifest,
request,
matches,
actionMatch,
initialHydration ? [] : hydrationRouteProperties2,
scopedContext
);
let results = await callDataStrategy(
request,
dsMatches,
scopedContext,
null
);
result = results[actionMatch.route.id];
if (!result) {
for (let match of matches) {
if (results[match.route.id]) {
result = results[match.route.id];
break;
}
}
}
if (request.signal.aborted) {
return { shortCircuited: true };
}
}
if (isRedirectResult(result)) {
let replace2;
if (opts && opts.replace != null) {
replace2 = opts.replace;
} else {
let location2 = normalizeRedirectLocation(
result.response.headers.get("Location"),
new URL(request.url),
basename
);
replace2 = location2 === state.location.pathname + state.location.search;
}
await startRedirectNavigation(request, result, true, {
submission,
replace: replace2
});
return { shortCircuited: true };
}
if (isErrorResult(result)) {
let boundaryMatch = findNearestBoundary(matches, actionMatch.route.id);
if ((opts && opts.replace) !== true) {
pendingAction = "PUSH" /* Push */;
}
return {
matches,
pendingActionResult: [
boundaryMatch.route.id,
result,
actionMatch.route.id
]
};
}
return {
matches,
pendingActionResult: [actionMatch.route.id, result]
};
}
async function handleLoaders(request, location, matches, scopedContext, isFogOfWar, overrideNavigation, submission, fetcherSubmission, replace2, initialHydration, flushSync, pendingActionResult) {
let loadingNavigation = overrideNavigation || getLoadingNavigation(location, submission);
let activeSubmission = submission || fetcherSubmission || getSubmissionFromNavigation(loadingNavigation);
let shouldUpdateNavigationState = !isUninterruptedRevalidation && !initialHydration;
if (isFogOfWar) {
if (shouldUpdateNavigationState) {
let actionData = getUpdatedActionData(pendingActionResult);
updateState(
{
navigation: loadingNavigation,
...actionData !== void 0 ? { actionData } : {}
},
{
flushSync
}
);
}
let discoverResult = await discoverRoutes(
matches,
location.pathname,
request.signal
);
if (discoverResult.type === "aborted") {
return { shortCircuited: true };
} else if (discoverResult.type === "error") {
if (discoverResult.partialMatches.length === 0) {
let { matches: matches2, route } = getShortCircuitMatches(dataRoutes);
return {
matches: matches2,
loaderData: {},
errors: {
[route.id]: discoverResult.error
}
};
}
let boundaryId = findNearestBoundary(discoverResult.partialMatches).route.id;
return {
matches: discoverResult.partialMatches,
loaderData: {},
errors: {
[boundaryId]: discoverResult.error
}
};
} else if (!discoverResult.matches) {
let { error, notFoundMatches, route } = handleNavigational404(
location.pathname
);
return {
matches: notFoundMatches,
loaderData: {},
errors: {
[route.id]: error
}
};
} else {
matches = discoverResult.matches;
}
}
let routesToUse = inFlightDataRoutes || dataRoutes;
let { dsMatches, revalidatingFetchers } = getMatchesToLoad(
request,
scopedContext,
mapRouteProperties2,
manifest,
init.history,
state,
matches,
activeSubmission,
location,
initialHydration ? [] : hydrationRouteProperties2,
initialHydration === true,
isRevalidationRequired,
cancelledFetcherLoads,
fetchersQueuedForDeletion,
fetchLoadMatches,
fetchRedirectIds,
routesToUse,
basename,
init.patchRoutesOnNavigation != null,
pendingActionResult
);
pendingNavigationLoadId = ++incrementingLoadId;
if (!init.dataStrategy && !dsMatches.some((m) => m.shouldLoad) && !dsMatches.some(
(m) => m.route.middleware && m.route.middleware.length > 0
) && revalidatingFetchers.length === 0) {
let updatedFetchers2 = markFetchRedirectsDone();
completeNavigation(
location,
{
matches,
loaderData: {},
// Commit pending error if we're short circuiting
errors: pendingActionResult && isErrorResult(pendingActionResult[1]) ? { [pendingActionResult[0]]: pendingActionResult[1].error } : null,
...getActionDataForCommit(pendingActionResult),
...updatedFetchers2 ? { fetchers: new Map(state.fetchers) } : {}
},
{ flushSync }
);
return { shortCircuited: true };
}
if (shouldUpdateNavigationState) {
let updates = {};
if (!isFogOfWar) {
updates.navigation = loadingNavigation;
let actionData = getUpdatedActionData(pendingActionResult);
if (actionData !== void 0) {
updates.actionData = actionData;
}
}
if (revalidatingFetchers.length > 0) {
updates.fetchers = getUpdatedRevalidatingFetchers(revalidatingFetchers);
}
updateState(updates, { flushSync });
}
revalidatingFetchers.forEach((rf) => {
abortFetcher(rf.key);
if (rf.controller) {
fetchControllers.set(rf.key, rf.controller);
}
});
let abortPendingFetchRevalidations = () => revalidatingFetchers.forEach((f) => abortFetcher(f.key));
if (pendingNavigationController) {
pendingNavigationController.signal.addEventListener(
"abort",
abortPendingFetchRevalidations
);
}
let { loaderResults, fetcherResults } = await callLoadersAndMaybeResolveData(
dsMatches,
revalidatingFetchers,
request,
scopedContext
);
if (request.signal.aborted) {
return { shortCircuited: true };
}
if (pendingNavigationController) {
pendingNavigationController.signal.removeEventListener(
"abort",
abortPendingFetchRevalidations
);
}
revalidatingFetchers.forEach((rf) => fetchControllers.delete(rf.key));
let redirect2 = findRedirect(loaderResults);
if (redirect2) {
await startRedirectNavigation(request, redirect2.result, true, {
replace: replace2
});
return { shortCircuited: true };
}
redirect2 = findRedirect(fetcherResults);
if (redirect2) {
fetchRedirectIds.add(redirect2.key);
await startRedirectNavigation(request, redirect2.result, true, {
replace: replace2
});
return { shortCircuited: true };
}
let { loaderData, errors } = processLoaderData(
state,
matches,
loaderResults,
pendingActionResult,
revalidatingFetchers,
fetcherResults
);
if (initialHydration && state.errors) {
errors = { ...state.errors, ...errors };
}
let updatedFetchers = markFetchRedirectsDone();
let didAbortFetchLoads = abortStaleFetchLoads(pendingNavigationLoadId);
let shouldUpdateFetchers = updatedFetchers || didAbortFetchLoads || revalidatingFetchers.length > 0;
return {
matches,
loaderData,
errors,
...shouldUpdateFetchers ? { fetchers: new Map(state.fetchers) } : {}
};
}
function getUpdatedActionData(pendingActionResult) {
if (pendingActionResult && !isErrorResult(pendingActionResult[1])) {
return {
[pendingActionResult[0]]: pendingActionResult[1].data
};
} else if (state.actionData) {
if (Object.keys(state.actionData).length === 0) {
return null;
} else {
return state.actionData;
}
}
}
function getUpdatedRevalidatingFetchers(revalidatingFetchers) {
revalidatingFetchers.forEach((rf) => {
let fetcher = state.fetchers.get(rf.key);
let revalidatingFetcher = getLoadingFetcher(
void 0,
fetcher ? fetcher.data : void 0
);
state.fetchers.set(rf.key, revalidatingFetcher);
});
return new Map(state.fetchers);
}
async function fetch2(key, routeId, href, opts) {
abortFetcher(key);
let flushSync = (opts && opts.flushSync) === true;
let routesToUse = inFlightDataRoutes || dataRoutes;
let normalizedPath = normalizeTo(
state.location,
state.matches,
basename,
href,
routeId,
_optionalChain([opts, 'optionalAccess', _14 => _14.relative])
);
let matches = matchRoutes(routesToUse, normalizedPath, basename);
let fogOfWar = checkFogOfWar(matches, routesToUse, normalizedPath);
if (fogOfWar.active && fogOfWar.matches) {
matches = fogOfWar.matches;
}
if (!matches) {
setFetcherError(
key,
routeId,
getInternalRouterError(404, { pathname: normalizedPath }),
{ flushSync }
);
return;
}
let { path, submission, error } = normalizeNavigateOptions(
true,
normalizedPath,
opts
);
if (error) {
setFetcherError(key, routeId, error, { flushSync });
return;
}
let scopedContext = init.getContext ? await init.getContext() : new RouterContextProvider();
let preventScrollReset = (opts && opts.preventScrollReset) === true;
if (submission && isMutationMethod(submission.formMethod)) {
await handleFetcherAction(
key,
routeId,
path,
matches,
scopedContext,
fogOfWar.active,
flushSync,
preventScrollReset,
submission
);
return;
}
fetchLoadMatches.set(key, { routeId, path });
await handleFetcherLoader(
key,
routeId,
path,
matches,
scopedContext,
fogOfWar.active,
flushSync,
preventScrollReset,
submission
);
}
async function handleFetcherAction(key, routeId, path, requestMatches, scopedContext, isFogOfWar, flushSync, preventScrollReset, submission) {
interruptActiveLoads();
fetchLoadMatches.delete(key);
let existingFetcher = state.fetchers.get(key);
updateFetcherState(key, getSubmittingFetcher(submission, existingFetcher), {
flushSync
});
let abortController = new AbortController();
let fetchRequest = createClientSideRequest(
init.history,
path,
abortController.signal,
submission
);
if (isFogOfWar) {
let discoverResult = await discoverRoutes(
requestMatches,
new URL(fetchRequest.url).pathname,
fetchRequest.signal,
key
);
if (discoverResult.type === "aborted") {
return;
} else if (discoverResult.type === "error") {
setFetcherError(key, routeId, discoverResult.error, { flushSync });
return;
} else if (!discoverResult.matches) {
setFetcherError(
key,
routeId,
getInternalRouterError(404, { pathname: path }),
{ flushSync }
);
return;
} else {
requestMatches = discoverResult.matches;
}
}
let match = getTargetMatch(requestMatches, path);
if (!match.route.action && !match.route.lazy) {
let error = getInternalRouterError(405, {
method: submission.formMethod,
pathname: path,
routeId
});
setFetcherError(key, routeId, error, { flushSync });
return;
}
fetchControllers.set(key, abortController);
let originatingLoadId = incrementingLoadId;
let fetchMatches = getTargetedDataStrategyMatches(
mapRouteProperties2,
manifest,
fetchRequest,
requestMatches,
match,
hydrationRouteProperties2,
scopedContext
);
let actionResults = await callDataStrategy(
fetchRequest,
fetchMatches,
scopedContext,
key
);
let actionResult = actionResults[match.route.id];
if (!actionResult) {
for (let match2 of fetchMatches) {
if (actionResults[match2.route.id]) {
actionResult = actionResults[match2.route.id];
break;
}
}
}
if (fetchRequest.signal.aborted) {
if (fetchControllers.get(key) === abortController) {
fetchControllers.delete(key);
}
return;
}
if (fetchersQueuedForDeletion.has(key)) {
if (isRedirectResult(actionResult) || isErrorResult(actionResult)) {
updateFetcherState(key, getDoneFetcher(void 0));
return;
}
} else {
if (isRedirectResult(actionResult)) {
fetchControllers.delete(key);
if (pendingNavigationLoadId > originatingLoadId) {
updateFetcherState(key, getDoneFetcher(void 0));
return;
} else {
fetchRedirectIds.add(key);
updateFetcherState(key, getLoadingFetcher(submission));
return startRedirectNavigation(fetchRequest, actionResult, false, {
fetcherSubmission: submission,
preventScrollReset
});
}
}
if (isErrorResult(actionResult)) {
setFetcherError(key, routeId, actionResult.error);
return;
}
}
let nextLocation = state.navigation.location || state.location;
let revalidationRequest = createClientSideRequest(
init.history,
nextLocation,
abortController.signal
);
let routesToUse = inFlightDataRoutes || dataRoutes;
let matches = state.navigation.state !== "idle" ? matchRoutes(routesToUse, state.navigation.location, basename) : state.matches;
invariant(matches, "Didn't find any matches after fetcher action");
let loadId = ++incrementingLoadId;
fetchReloadIds.set(key, loadId);
let loadFetcher = getLoadingFetcher(submission, actionResult.data);
state.fetchers.set(key, loadFetcher);
let { dsMatches, revalidatingFetchers } = getMatchesToLoad(
revalidationRequest,
scopedContext,
mapRouteProperties2,
manifest,
init.history,
state,
matches,
submission,
nextLocation,
hydrationRouteProperties2,
false,
isRevalidationRequired,
cancelledFetcherLoads,
fetchersQueuedForDeletion,
fetchLoadMatches,
fetchRedirectIds,
routesToUse,
basename,
init.patchRoutesOnNavigation != null,
[match.route.id, actionResult]
);
revalidatingFetchers.filter((rf) => rf.key !== key).forEach((rf) => {
let staleKey = rf.key;
let existingFetcher2 = state.fetchers.get(staleKey);
let revalidatingFetcher = getLoadingFetcher(
void 0,
existingFetcher2 ? existingFetcher2.data : void 0
);
state.fetchers.set(staleKey, revalidatingFetcher);
abortFetcher(staleKey);
if (rf.controller) {
fetchControllers.set(staleKey, rf.controller);
}
});
updateState({ fetchers: new Map(state.fetchers) });
let abortPendingFetchRevalidations = () => revalidatingFetchers.forEach((rf) => abortFetcher(rf.key));
abortController.signal.addEventListener(
"abort",
abortPendingFetchRevalidations
);
let { loaderResults, fetcherResults } = await callLoadersAndMaybeResolveData(
dsMatches,
revalidatingFetchers,
revalidationRequest,
scopedContext
);
if (abortController.signal.aborted) {
return;
}
abortController.signal.removeEventListener(
"abort",
abortPendingFetchRevalidations
);
fetchReloadIds.delete(key);
fetchControllers.delete(key);
revalidatingFetchers.forEach((r) => fetchControllers.delete(r.key));
if (state.fetchers.has(key)) {
let doneFetcher = getDoneFetcher(actionResult.data);
state.fetchers.set(key, doneFetcher);
}
let redirect2 = findRedirect(loaderResults);
if (redirect2) {
return startRedirectNavigation(
revalidationRequest,
redirect2.result,
false,
{ preventScrollReset }
);
}
redirect2 = findRedirect(fetcherResults);
if (redirect2) {
fetchRedirectIds.add(redirect2.key);
return startRedirectNavigation(
revalidationRequest,
redirect2.result,
false,
{ preventScrollReset }
);
}
let { loaderData, errors } = processLoaderData(
state,
matches,
loaderResults,
void 0,
revalidatingFetchers,
fetcherResults
);
abortStaleFetchLoads(loadId);
if (state.navigation.state === "loading" && loadId > pendingNavigationLoadId) {
invariant(pendingAction, "Expected pending action");
pendingNavigationController && pendingNavigationController.abort();
completeNavigation(state.navigation.location, {
matches,
loaderData,
errors,
fetchers: new Map(state.fetchers)
});
} else {
updateState({
errors,
loaderData: mergeLoaderData(
state.loaderData,
loaderData,
matches,
errors
),
fetchers: new Map(state.fetchers)
});
isRevalidationRequired = false;
}
}
async function handleFetcherLoader(key, routeId, path, matches, scopedContext, isFogOfWar, flushSync, preventScrollReset, submission) {
let existingFetcher = state.fetchers.get(key);
updateFetcherState(
key,
getLoadingFetcher(
submission,
existingFetcher ? existingFetcher.data : void 0
),
{ flushSync }
);
let abortController = new AbortController();
let fetchRequest = createClientSideRequest(
init.history,
path,
abortController.signal
);
if (isFogOfWar) {
let discoverResult = await discoverRoutes(
matches,
new URL(fetchRequest.url).pathname,
fetchRequest.signal,
key
);
if (discoverResult.type === "aborted") {
return;
} else if (discoverResult.type === "error") {
setFetcherError(key, routeId, discoverResult.error, { flushSync });
return;
} else if (!discoverResult.matches) {
setFetcherError(
key,
routeId,
getInternalRouterError(404, { pathname: path }),
{ flushSync }
);
return;
} else {
matches = discoverResult.matches;
}
}
let match = getTargetMatch(matches, path);
fetchControllers.set(key, abortController);
let originatingLoadId = incrementingLoadId;
let dsMatches = getTargetedDataStrategyMatches(
mapRouteProperties2,
manifest,
fetchRequest,
matches,
match,
hydrationRouteProperties2,
scopedContext
);
let results = await callDataStrategy(
fetchRequest,
dsMatches,
scopedContext,
key
);
let result = results[match.route.id];
if (fetchControllers.get(key) === abortController) {
fetchControllers.delete(key);
}
if (fetchRequest.signal.aborted) {
return;
}
if (fetchersQueuedForDeletion.has(key)) {
updateFetcherState(key, getDoneFetcher(void 0));
return;
}
if (isRedirectResult(result)) {
if (pendingNavigationLoadId > originatingLoadId) {
updateFetcherState(key, getDoneFetcher(void 0));
return;
} else {
fetchRedirectIds.add(key);
await startRedirectNavigation(fetchRequest, result, false, {
preventScrollReset
});
return;
}
}
if (isErrorResult(result)) {
setFetcherError(key, routeId, result.error);
return;
}
updateFetcherState(key, getDoneFetcher(result.data));
}
async function startRedirectNavigation(request, redirect2, isNavigation, {
submission,
fetcherSubmission,
preventScrollReset,
replace: replace2
} = {}) {
if (redirect2.response.headers.has("X-Remix-Revalidate")) {
isRevalidationRequired = true;
}
let location = redirect2.response.headers.get("Location");
invariant(location, "Expected a Location header on the redirect Response");
location = normalizeRedirectLocation(
location,
new URL(request.url),
basename
);
let redirectLocation = createLocation(state.location, location, {
_isRedirect: true
});
if (isBrowser) {
let isDocumentReload = false;
if (redirect2.response.headers.has("X-Remix-Reload-Document")) {
isDocumentReload = true;
} else if (isAbsoluteUrl(location)) {
const url = createBrowserURLImpl(location, true);
isDocumentReload = // Hard reload if it's an absolute URL to a new origin
url.origin !== routerWindow.location.origin || // Hard reload if it's an absolute URL that does not match our basename
stripBasename(url.pathname, basename) == null;
}
if (isDocumentReload) {
if (replace2) {
routerWindow.location.replace(location);
} else {
routerWindow.location.assign(location);
}
return;
}
}
pendingNavigationController = null;
let redirectNavigationType = replace2 === true || redirect2.response.headers.has("X-Remix-Replace") ? "REPLACE" /* Replace */ : "PUSH" /* Push */;
let { formMethod, formAction, formEncType } = state.navigation;
if (!submission && !fetcherSubmission && formMethod && formAction && formEncType) {
submission = getSubmissionFromNavigation(state.navigation);
}
let activeSubmission = submission || fetcherSubmission;
if (redirectPreserveMethodStatusCodes.has(redirect2.response.status) && activeSubmission && isMutationMethod(activeSubmission.formMethod)) {
await startNavigation(redirectNavigationType, redirectLocation, {
submission: {
...activeSubmission,
formAction: location
},
// Preserve these flags across redirects
preventScrollReset: preventScrollReset || pendingPreventScrollReset,
enableViewTransition: isNavigation ? pendingViewTransitionEnabled : void 0
});
} else {
let overrideNavigation = getLoadingNavigation(
redirectLocation,
submission
);
await startNavigation(redirectNavigationType, redirectLocation, {
overrideNavigation,
// Send fetcher submissions through for shouldRevalidate
fetcherSubmission,
// Preserve these flags across redirects
preventScrollReset: preventScrollReset || pendingPreventScrollReset,
enableViewTransition: isNavigation ? pendingViewTransitionEnabled : void 0
});
}
}
async function callDataStrategy(request, matches, scopedContext, fetcherKey) {
let results;
let dataResults = {};
try {
results = await callDataStrategyImpl(
dataStrategyImpl,
request,
matches,
fetcherKey,
scopedContext,
false
);
} catch (e) {
matches.filter((m) => m.shouldLoad).forEach((m) => {
dataResults[m.route.id] = {
type: "error" /* error */,
error: e
};
});
return dataResults;
}
if (request.signal.aborted) {
return dataResults;
}
for (let [routeId, result] of Object.entries(results)) {
if (isRedirectDataStrategyResult(result)) {
let response = result.result;
dataResults[routeId] = {
type: "redirect" /* redirect */,
response: normalizeRelativeRoutingRedirectResponse(
response,
request,
routeId,
matches,
basename
)
};
} else {
dataResults[routeId] = await convertDataStrategyResultToDataResult(result);
}
}
return dataResults;
}
async function callLoadersAndMaybeResolveData(matches, fetchersToLoad, request, scopedContext) {
let loaderResultsPromise = callDataStrategy(
request,
matches,
scopedContext,
null
);
let fetcherResultsPromise = Promise.all(
fetchersToLoad.map(async (f) => {
if (f.matches && f.match && f.request && f.controller) {
let results = await callDataStrategy(
f.request,
f.matches,
scopedContext,
f.key
);
let result = results[f.match.route.id];
return { [f.key]: result };
} else {
return Promise.resolve({
[f.key]: {
type: "error" /* error */,
error: getInternalRouterError(404, {
pathname: f.path
})
}
});
}
})
);
let loaderResults = await loaderResultsPromise;
let fetcherResults = (await fetcherResultsPromise).reduce(
(acc, r) => Object.assign(acc, r),
{}
);
return {
loaderResults,
fetcherResults
};
}
function interruptActiveLoads() {
isRevalidationRequired = true;
fetchLoadMatches.forEach((_, key) => {
if (fetchControllers.has(key)) {
cancelledFetcherLoads.add(key);
}
abortFetcher(key);
});
}
function updateFetcherState(key, fetcher, opts = {}) {
state.fetchers.set(key, fetcher);
updateState(
{ fetchers: new Map(state.fetchers) },
{ flushSync: (opts && opts.flushSync) === true }
);
}
function setFetcherError(key, routeId, error, opts = {}) {
let boundaryMatch = findNearestBoundary(state.matches, routeId);
deleteFetcher(key);
updateState(
{
errors: {
[boundaryMatch.route.id]: error
},
fetchers: new Map(state.fetchers)
},
{ flushSync: (opts && opts.flushSync) === true }
);
}
function getFetcher(key) {
activeFetchers.set(key, (activeFetchers.get(key) || 0) + 1);
if (fetchersQueuedForDeletion.has(key)) {
fetchersQueuedForDeletion.delete(key);
}
return state.fetchers.get(key) || IDLE_FETCHER;
}
function resetFetcher(key, opts) {
abortFetcher(key, _optionalChain([opts, 'optionalAccess', _15 => _15.reason]));
updateFetcherState(key, getDoneFetcher(null));
}
function deleteFetcher(key) {
let fetcher = state.fetchers.get(key);
if (fetchControllers.has(key) && !(fetcher && fetcher.state === "loading" && fetchReloadIds.has(key))) {
abortFetcher(key);
}
fetchLoadMatches.delete(key);
fetchReloadIds.delete(key);
fetchRedirectIds.delete(key);
fetchersQueuedForDeletion.delete(key);
cancelledFetcherLoads.delete(key);
state.fetchers.delete(key);
}
function queueFetcherForDeletion(key) {
let count = (activeFetchers.get(key) || 0) - 1;
if (count <= 0) {
activeFetchers.delete(key);
fetchersQueuedForDeletion.add(key);
} else {
activeFetchers.set(key, count);
}
updateState({ fetchers: new Map(state.fetchers) });
}
function abortFetcher(key, reason) {
let controller = fetchControllers.get(key);
if (controller) {
controller.abort(reason);
fetchControllers.delete(key);
}
}
function markFetchersDone(keys) {
for (let key of keys) {
let fetcher = getFetcher(key);
let doneFetcher = getDoneFetcher(fetcher.data);
state.fetchers.set(key, doneFetcher);
}
}
function markFetchRedirectsDone() {
let doneKeys = [];
let updatedFetchers = false;
for (let key of fetchRedirectIds) {
let fetcher = state.fetchers.get(key);
invariant(fetcher, `Expected fetcher: ${key}`);
if (fetcher.state === "loading") {
fetchRedirectIds.delete(key);
doneKeys.push(key);
updatedFetchers = true;
}
}
markFetchersDone(doneKeys);
return updatedFetchers;
}
function abortStaleFetchLoads(landedId) {
let yeetedKeys = [];
for (let [key, id] of fetchReloadIds) {
if (id < landedId) {
let fetcher = state.fetchers.get(key);
invariant(fetcher, `Expected fetcher: ${key}`);
if (fetcher.state === "loading") {
abortFetcher(key);
fetchReloadIds.delete(key);
yeetedKeys.push(key);
}
}
}
markFetchersDone(yeetedKeys);
return yeetedKeys.length > 0;
}
function getBlocker(key, fn) {
let blocker = state.blockers.get(key) || IDLE_BLOCKER;
if (blockerFunctions.get(key) !== fn) {
blockerFunctions.set(key, fn);
}
return blocker;
}
function deleteBlocker(key) {
state.blockers.delete(key);
blockerFunctions.delete(key);
}
function updateBlocker(key, newBlocker) {
let blocker = state.blockers.get(key) || IDLE_BLOCKER;
invariant(
blocker.state === "unblocked" && newBlocker.state === "blocked" || blocker.state === "blocked" && newBlocker.state === "blocked" || blocker.state === "blocked" && newBlocker.state === "proceeding" || blocker.state === "blocked" && newBlocker.state === "unblocked" || blocker.state === "proceeding" && newBlocker.state === "unblocked",
`Invalid blocker state transition: ${blocker.state} -> ${newBlocker.state}`
);
let blockers = new Map(state.blockers);
blockers.set(key, newBlocker);
updateState({ blockers });
}
function shouldBlockNavigation({
currentLocation,
nextLocation,
historyAction
}) {
if (blockerFunctions.size === 0) {
return;
}
if (blockerFunctions.size > 1) {
warning(false, "A router only supports one blocker at a time");
}
let entries = Array.from(blockerFunctions.entries());
let [blockerKey, blockerFunction] = entries[entries.length - 1];
let blocker = state.blockers.get(blockerKey);
if (blocker && blocker.state === "proceeding") {
return;
}
if (blockerFunction({ currentLocation, nextLocation, historyAction })) {
return blockerKey;
}
}
function handleNavigational404(pathname) {
let error = getInternalRouterError(404, { pathname });
let routesToUse = inFlightDataRoutes || dataRoutes;
let { matches, route } = getShortCircuitMatches(routesToUse);
return { notFoundMatches: matches, route, error };
}
function enableScrollRestoration(positions, getPosition, getKey) {
savedScrollPositions = positions;
getScrollPosition = getPosition;
getScrollRestorationKey = getKey || null;
if (!initialScrollRestored && state.navigation === IDLE_NAVIGATION) {
initialScrollRestored = true;
let y = getSavedScrollPosition(state.location, state.matches);
if (y != null) {
updateState({ restoreScrollPosition: y });
}
}
return () => {
savedScrollPositions = null;
getScrollPosition = null;
getScrollRestorationKey = null;
};
}
function getScrollKey(location, matches) {
if (getScrollRestorationKey) {
let key = getScrollRestorationKey(
location,
matches.map((m) => convertRouteMatchToUiMatch(m, state.loaderData))
);
return key || location.key;
}
return location.key;
}
function saveScrollPosition(location, matches) {
if (savedScrollPositions && getScrollPosition) {
let key = getScrollKey(location, matches);
savedScrollPositions[key] = getScrollPosition();
}
}
function getSavedScrollPosition(location, matches) {
if (savedScrollPositions) {
let key = getScrollKey(location, matches);
let y = savedScrollPositions[key];
if (typeof y === "number") {
return y;
}
}
return null;
}
function checkFogOfWar(matches, routesToUse, pathname) {
if (init.patchRoutesOnNavigation) {
if (!matches) {
let fogMatches = matchRoutesImpl(
routesToUse,
pathname,
basename,
true
);
return { active: true, matches: fogMatches || [] };
} else {
if (Object.keys(matches[0].params).length > 0) {
let partialMatches = matchRoutesImpl(
routesToUse,
pathname,
basename,
true
);
return { active: true, matches: partialMatches };
}
}
}
return { active: false, matches: null };
}
async function discoverRoutes(matches, pathname, signal, fetcherKey) {
if (!init.patchRoutesOnNavigation) {
return { type: "success", matches };
}
let partialMatches = matches;
while (true) {
let isNonHMR = inFlightDataRoutes == null;
let routesToUse = inFlightDataRoutes || dataRoutes;
let localManifest = manifest;
try {
await init.patchRoutesOnNavigation({
signal,
path: pathname,
matches: partialMatches,
fetcherKey,
patch: (routeId, children) => {
if (signal.aborted) return;
patchRoutesImpl(
routeId,
children,
routesToUse,
localManifest,
mapRouteProperties2,
false
);
}
});
} catch (e) {
return { type: "error", error: e, partialMatches };
} finally {
if (isNonHMR && !signal.aborted) {
dataRoutes = [...dataRoutes];
}
}
if (signal.aborted) {
return { type: "aborted" };
}
let newMatches = matchRoutes(routesToUse, pathname, basename);
let newPartialMatches = null;
if (newMatches) {
if (Object.keys(newMatches[0].params).length === 0) {
return { type: "success", matches: newMatches };
} else {
newPartialMatches = matchRoutesImpl(
routesToUse,
pathname,
basename,
true
);
let matchedDeeper = newPartialMatches && partialMatches.length < newPartialMatches.length && compareMatches(
partialMatches,
newPartialMatches.slice(0, partialMatches.length)
);
if (!matchedDeeper) {
return { type: "success", matches: newMatches };
}
}
}
if (!newPartialMatches) {
newPartialMatches = matchRoutesImpl(
routesToUse,
pathname,
basename,
true
);
}
if (!newPartialMatches || compareMatches(partialMatches, newPartialMatches)) {
return { type: "success", matches: null };
}
partialMatches = newPartialMatches;
}
}
function compareMatches(a, b) {
return a.length === b.length && a.every((m, i) => m.route.id === b[i].route.id);
}
function _internalSetRoutes(newRoutes) {
manifest = {};
inFlightDataRoutes = convertRoutesToDataRoutes(
newRoutes,
mapRouteProperties2,
void 0,
manifest
);
}
function patchRoutes(routeId, children, unstable_allowElementMutations = false) {
let isNonHMR = inFlightDataRoutes == null;
let routesToUse = inFlightDataRoutes || dataRoutes;
patchRoutesImpl(
routeId,
children,
routesToUse,
manifest,
mapRouteProperties2,
unstable_allowElementMutations
);
if (isNonHMR) {
dataRoutes = [...dataRoutes];
updateState({});
}
}
router = {
get basename() {
return basename;
},
get future() {
return future;
},
get state() {
return state;
},
get routes() {
return dataRoutes;
},
get window() {
return routerWindow;
},
initialize,
subscribe,
enableScrollRestoration,
navigate,
fetch: fetch2,
revalidate,
// Passthrough to history-aware createHref used by useHref so we get proper
// hash-aware URLs in DOM paths
createHref: (to) => init.history.createHref(to),
encodeLocation: (to) => init.history.encodeLocation(to),
getFetcher,
resetFetcher,
deleteFetcher: queueFetcherForDeletion,
dispose,
getBlocker,
deleteBlocker,
patchRoutes,
_internalFetchControllers: fetchControllers,
// TODO: Remove setRoutes, it's temporary to avoid dealing with
// updating the tree while validating the update algorithm.
_internalSetRoutes,
_internalSetStateDoNotUseOrYouWillBreakYourApp(newState) {
updateState(newState);
}
};
if (init.unstable_instrumentations) {
router = instrumentClientSideRouter(
router,
init.unstable_instrumentations.map((i) => i.router).filter(Boolean)
);
}
return router;
}
function createStaticHandler(routes, opts) {
invariant(
routes.length > 0,
"You must provide a non-empty routes array to createStaticHandler"
);
let manifest = {};
let basename = (opts ? opts.basename : null) || "/";
let _mapRouteProperties = _optionalChain([opts, 'optionalAccess', _16 => _16.mapRouteProperties]) || defaultMapRouteProperties;
let mapRouteProperties2 = _mapRouteProperties;
if (_optionalChain([opts, 'optionalAccess', _17 => _17.unstable_instrumentations])) {
let instrumentations = opts.unstable_instrumentations;
mapRouteProperties2 = (route) => {
return {
..._mapRouteProperties(route),
...getRouteInstrumentationUpdates(
instrumentations.map((i) => i.route).filter(Boolean),
route
)
};
};
}
let dataRoutes = convertRoutesToDataRoutes(
routes,
mapRouteProperties2,
void 0,
manifest
);
async function query(request, {
requestContext,
filterMatchesToLoad,
skipLoaderErrorBubbling,
skipRevalidation,
dataStrategy,
generateMiddlewareResponse
} = {}) {
let url = new URL(request.url);
let method = request.method;
let location = createLocation("", createPath(url), null, "default");
let matches = matchRoutes(dataRoutes, location, basename);
requestContext = requestContext != null ? requestContext : new RouterContextProvider();
if (!isValidMethod(method) && method !== "HEAD") {
let error = getInternalRouterError(405, { method });
let { matches: methodNotAllowedMatches, route } = getShortCircuitMatches(dataRoutes);
let staticContext = {
basename,
location,
matches: methodNotAllowedMatches,
loaderData: {},
actionData: null,
errors: {
[route.id]: error
},
statusCode: error.status,
loaderHeaders: {},
actionHeaders: {}
};
return generateMiddlewareResponse ? generateMiddlewareResponse(() => Promise.resolve(staticContext)) : staticContext;
} else if (!matches) {
let error = getInternalRouterError(404, { pathname: location.pathname });
let { matches: notFoundMatches, route } = getShortCircuitMatches(dataRoutes);
let staticContext = {
basename,
location,
matches: notFoundMatches,
loaderData: {},
actionData: null,
errors: {
[route.id]: error
},
statusCode: error.status,
loaderHeaders: {},
actionHeaders: {}
};
return generateMiddlewareResponse ? generateMiddlewareResponse(() => Promise.resolve(staticContext)) : staticContext;
}
if (generateMiddlewareResponse) {
invariant(
requestContext instanceof RouterContextProvider,
"When using middleware in `staticHandler.query()`, any provided `requestContext` must be an instance of `RouterContextProvider`"
);
try {
await loadLazyMiddlewareForMatches(
matches,
manifest,
mapRouteProperties2
);
let renderedStaticContext;
let response = await runServerMiddlewarePipeline(
{
request,
unstable_pattern: getRoutePattern(matches.map((m) => m.route.path)),
matches,
params: matches[0].params,
// If we're calling middleware then it must be enabled so we can cast
// this to the proper type knowing it's not an `AppLoadContext`
context: requestContext
},
async () => {
let res = await generateMiddlewareResponse(
async (revalidationRequest, opts2 = {}) => {
let result2 = await queryImpl(
revalidationRequest,
location,
matches,
requestContext,
dataStrategy || null,
skipLoaderErrorBubbling === true,
null,
"filterMatchesToLoad" in opts2 ? _nullishCoalesce(opts2.filterMatchesToLoad, () => ( null)) : _nullishCoalesce(filterMatchesToLoad, () => ( null)),
skipRevalidation === true
);
if (isResponse(result2)) {
return result2;
}
renderedStaticContext = { location, basename, ...result2 };
return renderedStaticContext;
}
);
return res;
},
async (error, routeId) => {
if (isRedirectResponse(error)) {
return error;
}
if (isResponse(error)) {
try {
error = new ErrorResponseImpl(
error.status,
error.statusText,
await parseResponseBody(error)
);
} catch (e) {
error = e;
}
}
if (isDataWithResponseInit(error)) {
error = dataWithResponseInitToErrorResponse(error);
}
if (renderedStaticContext) {
if (routeId in renderedStaticContext.loaderData) {
renderedStaticContext.loaderData[routeId] = void 0;
}
let staticContext = getStaticContextFromError(
dataRoutes,
renderedStaticContext,
error,
skipLoaderErrorBubbling ? routeId : findNearestBoundary(matches, routeId).route.id
);
return generateMiddlewareResponse(
() => Promise.resolve(staticContext)
);
} else {
let boundaryRouteId = skipLoaderErrorBubbling ? routeId : findNearestBoundary(
matches,
_optionalChain([matches, 'access', _18 => _18.find, 'call', _19 => _19(
(m) => m.route.id === routeId || m.route.loader
), 'optionalAccess', _20 => _20.route, 'access', _21 => _21.id]) || routeId
).route.id;
let staticContext = {
matches,
location,
basename,
loaderData: {},
actionData: null,
errors: {
[boundaryRouteId]: error
},
statusCode: isRouteErrorResponse(error) ? error.status : 500,
actionHeaders: {},
loaderHeaders: {}
};
return generateMiddlewareResponse(
() => Promise.resolve(staticContext)
);
}
}
);
invariant(isResponse(response), "Expected a response in query()");
return response;
} catch (e) {
if (isResponse(e)) {
return e;
}
throw e;
}
}
let result = await queryImpl(
request,
location,
matches,
requestContext,
dataStrategy || null,
skipLoaderErrorBubbling === true,
null,
filterMatchesToLoad || null,
skipRevalidation === true
);
if (isResponse(result)) {
return result;
}
return { location, basename, ...result };
}
async function queryRoute(request, {
routeId,
requestContext,
dataStrategy,
generateMiddlewareResponse
} = {}) {
let url = new URL(request.url);
let method = request.method;
let location = createLocation("", createPath(url), null, "default");
let matches = matchRoutes(dataRoutes, location, basename);
requestContext = requestContext != null ? requestContext : new RouterContextProvider();
if (!isValidMethod(method) && method !== "HEAD" && method !== "OPTIONS") {
throw getInternalRouterError(405, { method });
} else if (!matches) {
throw getInternalRouterError(404, { pathname: location.pathname });
}
let match = routeId ? matches.find((m) => m.route.id === routeId) : getTargetMatch(matches, location);
if (routeId && !match) {
throw getInternalRouterError(403, {
pathname: location.pathname,
routeId
});
} else if (!match) {
throw getInternalRouterError(404, { pathname: location.pathname });
}
if (generateMiddlewareResponse) {
invariant(
requestContext instanceof RouterContextProvider,
"When using middleware in `staticHandler.queryRoute()`, any provided `requestContext` must be an instance of `RouterContextProvider`"
);
await loadLazyMiddlewareForMatches(matches, manifest, mapRouteProperties2);
let response = await runServerMiddlewarePipeline(
{
request,
unstable_pattern: getRoutePattern(matches.map((m) => m.route.path)),
matches,
params: matches[0].params,
// If we're calling middleware then it must be enabled so we can cast
// this to the proper type knowing it's not an `AppLoadContext`
context: requestContext
},
async () => {
let res = await generateMiddlewareResponse(
async (innerRequest) => {
let result2 = await queryImpl(
innerRequest,
location,
matches,
requestContext,
dataStrategy || null,
false,
match,
null,
false
);
let processed = handleQueryResult(result2);
return isResponse(processed) ? processed : typeof processed === "string" ? new Response(processed) : Response.json(processed);
}
);
return res;
},
(error) => {
if (isDataWithResponseInit(error)) {
return Promise.resolve(dataWithResponseInitToResponse(error));
}
if (isResponse(error)) {
return Promise.resolve(error);
}
throw error;
}
);
return response;
}
let result = await queryImpl(
request,
location,
matches,
requestContext,
dataStrategy || null,
false,
match,
null,
false
);
return handleQueryResult(result);
function handleQueryResult(result2) {
if (isResponse(result2)) {
return result2;
}
let error = result2.errors ? Object.values(result2.errors)[0] : void 0;
if (error !== void 0) {
throw error;
}
if (result2.actionData) {
return Object.values(result2.actionData)[0];
}
if (result2.loaderData) {
return Object.values(result2.loaderData)[0];
}
return void 0;
}
}
async function queryImpl(request, location, matches, requestContext, dataStrategy, skipLoaderErrorBubbling, routeMatch, filterMatchesToLoad, skipRevalidation) {
invariant(
request.signal,
"query()/queryRoute() requests must contain an AbortController signal"
);
try {
if (isMutationMethod(request.method)) {
let result2 = await submit(
request,
matches,
routeMatch || getTargetMatch(matches, location),
requestContext,
dataStrategy,
skipLoaderErrorBubbling,
routeMatch != null,
filterMatchesToLoad,
skipRevalidation
);
return result2;
}
let result = await loadRouteData(
request,
matches,
requestContext,
dataStrategy,
skipLoaderErrorBubbling,
routeMatch,
filterMatchesToLoad
);
return isResponse(result) ? result : {
...result,
actionData: null,
actionHeaders: {}
};
} catch (e) {
if (isDataStrategyResult(e) && isResponse(e.result)) {
if (e.type === "error" /* error */) {
throw e.result;
}
return e.result;
}
if (isRedirectResponse(e)) {
return e;
}
throw e;
}
}
async function submit(request, matches, actionMatch, requestContext, dataStrategy, skipLoaderErrorBubbling, isRouteRequest, filterMatchesToLoad, skipRevalidation) {
let result;
if (!actionMatch.route.action && !actionMatch.route.lazy) {
let error = getInternalRouterError(405, {
method: request.method,
pathname: new URL(request.url).pathname,
routeId: actionMatch.route.id
});
if (isRouteRequest) {
throw error;
}
result = {
type: "error" /* error */,
error
};
} else {
let dsMatches = getTargetedDataStrategyMatches(
mapRouteProperties2,
manifest,
request,
matches,
actionMatch,
[],
requestContext
);
let results = await callDataStrategy(
request,
dsMatches,
isRouteRequest,
requestContext,
dataStrategy
);
result = results[actionMatch.route.id];
if (request.signal.aborted) {
throwStaticHandlerAbortedError(request, isRouteRequest);
}
}
if (isRedirectResult(result)) {
throw new Response(null, {
status: result.response.status,
headers: {
Location: result.response.headers.get("Location")
}
});
}
if (isRouteRequest) {
if (isErrorResult(result)) {
throw result.error;
}
return {
matches: [actionMatch],
loaderData: {},
actionData: { [actionMatch.route.id]: result.data },
errors: null,
// Note: statusCode + headers are unused here since queryRoute will
// return the raw Response or value
statusCode: 200,
loaderHeaders: {},
actionHeaders: {}
};
}
if (skipRevalidation) {
if (isErrorResult(result)) {
let boundaryMatch = skipLoaderErrorBubbling ? actionMatch : findNearestBoundary(matches, actionMatch.route.id);
return {
statusCode: isRouteErrorResponse(result.error) ? result.error.status : result.statusCode != null ? result.statusCode : 500,
actionData: null,
actionHeaders: {
...result.headers ? { [actionMatch.route.id]: result.headers } : {}
},
matches,
loaderData: {},
errors: {
[boundaryMatch.route.id]: result.error
},
loaderHeaders: {}
};
} else {
return {
actionData: {
[actionMatch.route.id]: result.data
},
actionHeaders: result.headers ? { [actionMatch.route.id]: result.headers } : {},
matches,
loaderData: {},
errors: null,
statusCode: result.statusCode || 200,
loaderHeaders: {}
};
}
}
let loaderRequest = new Request(request.url, {
headers: request.headers,
redirect: request.redirect,
signal: request.signal
});
if (isErrorResult(result)) {
let boundaryMatch = skipLoaderErrorBubbling ? actionMatch : findNearestBoundary(matches, actionMatch.route.id);
let handlerContext2 = await loadRouteData(
loaderRequest,
matches,
requestContext,
dataStrategy,
skipLoaderErrorBubbling,
null,
filterMatchesToLoad,
[boundaryMatch.route.id, result]
);
return {
...handlerContext2,
statusCode: isRouteErrorResponse(result.error) ? result.error.status : result.statusCode != null ? result.statusCode : 500,
actionData: null,
actionHeaders: {
...result.headers ? { [actionMatch.route.id]: result.headers } : {}
}
};
}
let handlerContext = await loadRouteData(
loaderRequest,
matches,
requestContext,
dataStrategy,
skipLoaderErrorBubbling,
null,
filterMatchesToLoad
);
return {
...handlerContext,
actionData: {
[actionMatch.route.id]: result.data
},
// action status codes take precedence over loader status codes
...result.statusCode ? { statusCode: result.statusCode } : {},
actionHeaders: result.headers ? { [actionMatch.route.id]: result.headers } : {}
};
}
async function loadRouteData(request, matches, requestContext, dataStrategy, skipLoaderErrorBubbling, routeMatch, filterMatchesToLoad, pendingActionResult) {
let isRouteRequest = routeMatch != null;
if (isRouteRequest && !_optionalChain([routeMatch, 'optionalAccess', _22 => _22.route, 'access', _23 => _23.loader]) && !_optionalChain([routeMatch, 'optionalAccess', _24 => _24.route, 'access', _25 => _25.lazy])) {
throw getInternalRouterError(400, {
method: request.method,
pathname: new URL(request.url).pathname,
routeId: _optionalChain([routeMatch, 'optionalAccess', _26 => _26.route, 'access', _27 => _27.id])
});
}
let dsMatches;
if (routeMatch) {
dsMatches = getTargetedDataStrategyMatches(
mapRouteProperties2,
manifest,
request,
matches,
routeMatch,
[],
requestContext
);
} else {
let maxIdx = pendingActionResult && isErrorResult(pendingActionResult[1]) ? (
// Up to but not including the boundary
matches.findIndex((m) => m.route.id === pendingActionResult[0]) - 1
) : void 0;
let pattern = getRoutePattern(matches.map((m) => m.route.path));
dsMatches = matches.map((match, index) => {
if (maxIdx != null && index > maxIdx) {
return getDataStrategyMatch(
mapRouteProperties2,
manifest,
request,
pattern,
match,
[],
requestContext,
false
);
}
return getDataStrategyMatch(
mapRouteProperties2,
manifest,
request,
pattern,
match,
[],
requestContext,
(match.route.loader || match.route.lazy) != null && (!filterMatchesToLoad || filterMatchesToLoad(match))
);
});
}
if (!dataStrategy && !dsMatches.some((m) => m.shouldLoad)) {
return {
matches,
loaderData: {},
errors: pendingActionResult && isErrorResult(pendingActionResult[1]) ? {
[pendingActionResult[0]]: pendingActionResult[1].error
} : null,
statusCode: 200,
loaderHeaders: {}
};
}
let results = await callDataStrategy(
request,
dsMatches,
isRouteRequest,
requestContext,
dataStrategy
);
if (request.signal.aborted) {
throwStaticHandlerAbortedError(request, isRouteRequest);
}
let handlerContext = processRouteLoaderData(
matches,
results,
pendingActionResult,
true,
skipLoaderErrorBubbling
);
return {
...handlerContext,
matches
};
}
async function callDataStrategy(request, matches, isRouteRequest, requestContext, dataStrategy) {
let results = await callDataStrategyImpl(
dataStrategy || defaultDataStrategy,
request,
matches,
null,
requestContext,
true
);
let dataResults = {};
await Promise.all(
matches.map(async (match) => {
if (!(match.route.id in results)) {
return;
}
let result = results[match.route.id];
if (isRedirectDataStrategyResult(result)) {
let response = result.result;
throw normalizeRelativeRoutingRedirectResponse(
response,
request,
match.route.id,
matches,
basename
);
}
if (isRouteRequest) {
if (isResponse(result.result)) {
throw result;
} else if (isDataWithResponseInit(result.result)) {
throw dataWithResponseInitToResponse(result.result);
}
}
dataResults[match.route.id] = await convertDataStrategyResultToDataResult(result);
})
);
return dataResults;
}
return {
dataRoutes,
query,
queryRoute
};
}
function getStaticContextFromError(routes, handlerContext, error, boundaryId) {
let errorBoundaryId = boundaryId || handlerContext._deepestRenderedBoundaryId || routes[0].id;
return {
...handlerContext,
statusCode: isRouteErrorResponse(error) ? error.status : 500,
errors: {
[errorBoundaryId]: error
}
};
}
function throwStaticHandlerAbortedError(request, isRouteRequest) {
if (request.signal.reason !== void 0) {
throw request.signal.reason;
}
let method = isRouteRequest ? "queryRoute" : "query";
throw new Error(
`${method}() call aborted without an \`AbortSignal.reason\`: ${request.method} ${request.url}`
);
}
function isSubmissionNavigation(opts) {
return opts != null && ("formData" in opts && opts.formData != null || "body" in opts && opts.body !== void 0);
}
function normalizeTo(location, matches, basename, to, fromRouteId, relative) {
let contextualMatches;
let activeRouteMatch;
if (fromRouteId) {
contextualMatches = [];
for (let match of matches) {
contextualMatches.push(match);
if (match.route.id === fromRouteId) {
activeRouteMatch = match;
break;
}
}
} else {
contextualMatches = matches;
activeRouteMatch = matches[matches.length - 1];
}
let path = resolveTo(
to ? to : ".",
getResolveToMatches(contextualMatches),
stripBasename(location.pathname, basename) || location.pathname,
relative === "path"
);
if (to == null) {
path.search = location.search;
path.hash = location.hash;
}
if ((to == null || to === "" || to === ".") && activeRouteMatch) {
let nakedIndex = hasNakedIndexQuery(path.search);
if (activeRouteMatch.route.index && !nakedIndex) {
path.search = path.search ? path.search.replace(/^\?/, "?index&") : "?index";
} else if (!activeRouteMatch.route.index && nakedIndex) {
let params = new URLSearchParams(path.search);
let indexValues = params.getAll("index");
params.delete("index");
indexValues.filter((v) => v).forEach((v) => params.append("index", v));
let qs = params.toString();
path.search = qs ? `?${qs}` : "";
}
}
if (basename !== "/") {
path.pathname = prependBasename({ basename, pathname: path.pathname });
}
return createPath(path);
}
function normalizeNavigateOptions(isFetcher, path, opts) {
if (!opts || !isSubmissionNavigation(opts)) {
return { path };
}
if (opts.formMethod && !isValidMethod(opts.formMethod)) {
return {
path,
error: getInternalRouterError(405, { method: opts.formMethod })
};
}
let getInvalidBodyError = () => ({
path,
error: getInternalRouterError(400, { type: "invalid-body" })
});
let rawFormMethod = opts.formMethod || "get";
let formMethod = rawFormMethod.toUpperCase();
let formAction = stripHashFromPath(path);
if (opts.body !== void 0) {
if (opts.formEncType === "text/plain") {
if (!isMutationMethod(formMethod)) {
return getInvalidBodyError();
}
let text = typeof opts.body === "string" ? opts.body : opts.body instanceof FormData || opts.body instanceof URLSearchParams ? (
// https://html.spec.whatwg.org/multipage/form-control-infrastructure.html#plain-text-form-data
Array.from(opts.body.entries()).reduce(
(acc, [name, value]) => `${acc}${name}=${value}
`,
""
)
) : String(opts.body);
return {
path,
submission: {
formMethod,
formAction,
formEncType: opts.formEncType,
formData: void 0,
json: void 0,
text
}
};
} else if (opts.formEncType === "application/json") {
if (!isMutationMethod(formMethod)) {
return getInvalidBodyError();
}
try {
let json = typeof opts.body === "string" ? JSON.parse(opts.body) : opts.body;
return {
path,
submission: {
formMethod,
formAction,
formEncType: opts.formEncType,
formData: void 0,
json,
text: void 0
}
};
} catch (e) {
return getInvalidBodyError();
}
}
}
invariant(
typeof FormData === "function",
"FormData is not available in this environment"
);
let searchParams;
let formData;
if (opts.formData) {
searchParams = convertFormDataToSearchParams(opts.formData);
formData = opts.formData;
} else if (opts.body instanceof FormData) {
searchParams = convertFormDataToSearchParams(opts.body);
formData = opts.body;
} else if (opts.body instanceof URLSearchParams) {
searchParams = opts.body;
formData = convertSearchParamsToFormData(searchParams);
} else if (opts.body == null) {
searchParams = new URLSearchParams();
formData = new FormData();
} else {
try {
searchParams = new URLSearchParams(opts.body);
formData = convertSearchParamsToFormData(searchParams);
} catch (e) {
return getInvalidBodyError();
}
}
let submission = {
formMethod,
formAction,
formEncType: opts && opts.formEncType || "application/x-www-form-urlencoded",
formData,
json: void 0,
text: void 0
};
if (isMutationMethod(submission.formMethod)) {
return { path, submission };
}
let parsedPath = parsePath(path);
if (isFetcher && parsedPath.search && hasNakedIndexQuery(parsedPath.search)) {
searchParams.append("index", "");
}
parsedPath.search = `?${searchParams}`;
return { path: createPath(parsedPath), submission };
}
function getMatchesToLoad(request, scopedContext, mapRouteProperties2, manifest, history, state, matches, submission, location, lazyRoutePropertiesToSkip, initialHydration, isRevalidationRequired, cancelledFetcherLoads, fetchersQueuedForDeletion, fetchLoadMatches, fetchRedirectIds, routesToUse, basename, hasPatchRoutesOnNavigation, pendingActionResult) {
let actionResult = pendingActionResult ? isErrorResult(pendingActionResult[1]) ? pendingActionResult[1].error : pendingActionResult[1].data : void 0;
let currentUrl = history.createURL(state.location);
let nextUrl = history.createURL(location);
let maxIdx;
if (initialHydration && state.errors) {
let boundaryId = Object.keys(state.errors)[0];
maxIdx = matches.findIndex((m) => m.route.id === boundaryId);
} else if (pendingActionResult && isErrorResult(pendingActionResult[1])) {
let boundaryId = pendingActionResult[0];
maxIdx = matches.findIndex((m) => m.route.id === boundaryId) - 1;
}
let actionStatus = pendingActionResult ? pendingActionResult[1].statusCode : void 0;
let shouldSkipRevalidation = actionStatus && actionStatus >= 400;
let baseShouldRevalidateArgs = {
currentUrl,
currentParams: _optionalChain([state, 'access', _28 => _28.matches, 'access', _29 => _29[0], 'optionalAccess', _30 => _30.params]) || {},
nextUrl,
nextParams: matches[0].params,
...submission,
actionResult,
actionStatus
};
let pattern = getRoutePattern(matches.map((m) => m.route.path));
let dsMatches = matches.map((match, index) => {
let { route } = match;
let forceShouldLoad = null;
if (maxIdx != null && index > maxIdx) {
forceShouldLoad = false;
} else if (route.lazy) {
forceShouldLoad = true;
} else if (!routeHasLoaderOrMiddleware(route)) {
forceShouldLoad = false;
} else if (initialHydration) {
forceShouldLoad = shouldLoadRouteOnHydration(
route,
state.loaderData,
state.errors
);
} else if (isNewLoader(state.loaderData, state.matches[index], match)) {
forceShouldLoad = true;
}
if (forceShouldLoad !== null) {
return getDataStrategyMatch(
mapRouteProperties2,
manifest,
request,
pattern,
match,
lazyRoutePropertiesToSkip,
scopedContext,
forceShouldLoad
);
}
let defaultShouldRevalidate = shouldSkipRevalidation ? false : (
// Forced revalidation due to submission, useRevalidator, or X-Remix-Revalidate
isRevalidationRequired || currentUrl.pathname + currentUrl.search === nextUrl.pathname + nextUrl.search || // Search params affect all loaders
currentUrl.search !== nextUrl.search || isNewRouteInstance(state.matches[index], match)
);
let shouldRevalidateArgs = {
...baseShouldRevalidateArgs,
defaultShouldRevalidate
};
let shouldLoad = shouldRevalidateLoader(match, shouldRevalidateArgs);
return getDataStrategyMatch(
mapRouteProperties2,
manifest,
request,
pattern,
match,
lazyRoutePropertiesToSkip,
scopedContext,
shouldLoad,
shouldRevalidateArgs
);
});
let revalidatingFetchers = [];
fetchLoadMatches.forEach((f, key) => {
if (initialHydration || !matches.some((m) => m.route.id === f.routeId) || fetchersQueuedForDeletion.has(key)) {
return;
}
let fetcher = state.fetchers.get(key);
let isMidInitialLoad = fetcher && fetcher.state !== "idle" && fetcher.data === void 0;
let fetcherMatches = matchRoutes(routesToUse, f.path, basename);
if (!fetcherMatches) {
if (hasPatchRoutesOnNavigation && isMidInitialLoad) {
return;
}
revalidatingFetchers.push({
key,
routeId: f.routeId,
path: f.path,
matches: null,
match: null,
request: null,
controller: null
});
return;
}
if (fetchRedirectIds.has(key)) {
return;
}
let fetcherMatch = getTargetMatch(fetcherMatches, f.path);
let fetchController = new AbortController();
let fetchRequest = createClientSideRequest(
history,
f.path,
fetchController.signal
);
let fetcherDsMatches = null;
if (cancelledFetcherLoads.has(key)) {
cancelledFetcherLoads.delete(key);
fetcherDsMatches = getTargetedDataStrategyMatches(
mapRouteProperties2,
manifest,
fetchRequest,
fetcherMatches,
fetcherMatch,
lazyRoutePropertiesToSkip,
scopedContext
);
} else if (isMidInitialLoad) {
if (isRevalidationRequired) {
fetcherDsMatches = getTargetedDataStrategyMatches(
mapRouteProperties2,
manifest,
fetchRequest,
fetcherMatches,
fetcherMatch,
lazyRoutePropertiesToSkip,
scopedContext
);
}
} else {
let shouldRevalidateArgs = {
...baseShouldRevalidateArgs,
defaultShouldRevalidate: shouldSkipRevalidation ? false : isRevalidationRequired
};
if (shouldRevalidateLoader(fetcherMatch, shouldRevalidateArgs)) {
fetcherDsMatches = getTargetedDataStrategyMatches(
mapRouteProperties2,
manifest,
fetchRequest,
fetcherMatches,
fetcherMatch,
lazyRoutePropertiesToSkip,
scopedContext,
shouldRevalidateArgs
);
}
}
if (fetcherDsMatches) {
revalidatingFetchers.push({
key,
routeId: f.routeId,
path: f.path,
matches: fetcherDsMatches,
match: fetcherMatch,
request: fetchRequest,
controller: fetchController
});
}
});
return { dsMatches, revalidatingFetchers };
}
function routeHasLoaderOrMiddleware(route) {
return route.loader != null || route.middleware != null && route.middleware.length > 0;
}
function shouldLoadRouteOnHydration(route, loaderData, errors) {
if (route.lazy) {
return true;
}
if (!routeHasLoaderOrMiddleware(route)) {
return false;
}
let hasData = loaderData != null && route.id in loaderData;
let hasError = errors != null && errors[route.id] !== void 0;
if (!hasData && hasError) {
return false;
}
if (typeof route.loader === "function" && route.loader.hydrate === true) {
return true;
}
return !hasData && !hasError;
}
function isNewLoader(currentLoaderData, currentMatch, match) {
let isNew = (
// [a] -> [a, b]
!currentMatch || // [a, b] -> [a, c]
match.route.id !== currentMatch.route.id
);
let isMissingData = !currentLoaderData.hasOwnProperty(match.route.id);
return isNew || isMissingData;
}
function isNewRouteInstance(currentMatch, match) {
let currentPath = currentMatch.route.path;
return (
// param change for this match, /users/123 -> /users/456
currentMatch.pathname !== match.pathname || // splat param changed, which is not present in match.path
// e.g. /files/images/avatar.jpg -> files/finances.xls
currentPath != null && currentPath.endsWith("*") && currentMatch.params["*"] !== match.params["*"]
);
}
function shouldRevalidateLoader(loaderMatch, arg) {
if (loaderMatch.route.shouldRevalidate) {
let routeChoice = loaderMatch.route.shouldRevalidate(arg);
if (typeof routeChoice === "boolean") {
return routeChoice;
}
}
return arg.defaultShouldRevalidate;
}
function patchRoutesImpl(routeId, children, routesToUse, manifest, mapRouteProperties2, allowElementMutations) {
let childrenToPatch;
if (routeId) {
let route = manifest[routeId];
invariant(
route,
`No route found to patch children into: routeId = ${routeId}`
);
if (!route.children) {
route.children = [];
}
childrenToPatch = route.children;
} else {
childrenToPatch = routesToUse;
}
let uniqueChildren = [];
let existingChildren = [];
children.forEach((newRoute) => {
let existingRoute = childrenToPatch.find(
(existingRoute2) => isSameRoute(newRoute, existingRoute2)
);
if (existingRoute) {
existingChildren.push({ existingRoute, newRoute });
} else {
uniqueChildren.push(newRoute);
}
});
if (uniqueChildren.length > 0) {
let newRoutes = convertRoutesToDataRoutes(
uniqueChildren,
mapRouteProperties2,
[routeId || "_", "patch", String(_optionalChain([childrenToPatch, 'optionalAccess', _31 => _31.length]) || "0")],
manifest
);
childrenToPatch.push(...newRoutes);
}
if (allowElementMutations && existingChildren.length > 0) {
for (let i = 0; i < existingChildren.length; i++) {
let { existingRoute, newRoute } = existingChildren[i];
let existingRouteTyped = existingRoute;
let [newRouteTyped] = convertRoutesToDataRoutes(
[newRoute],
mapRouteProperties2,
[],
// Doesn't matter for mutated routes since they already have an id
{},
// Don't touch the manifest here since we're updating in place
true
);
Object.assign(existingRouteTyped, {
element: newRouteTyped.element ? newRouteTyped.element : existingRouteTyped.element,
errorElement: newRouteTyped.errorElement ? newRouteTyped.errorElement : existingRouteTyped.errorElement,
hydrateFallbackElement: newRouteTyped.hydrateFallbackElement ? newRouteTyped.hydrateFallbackElement : existingRouteTyped.hydrateFallbackElement
});
}
}
}
function isSameRoute(newRoute, existingRoute) {
if ("id" in newRoute && "id" in existingRoute && newRoute.id === existingRoute.id) {
return true;
}
if (!(newRoute.index === existingRoute.index && newRoute.path === existingRoute.path && newRoute.caseSensitive === existingRoute.caseSensitive)) {
return false;
}
if ((!newRoute.children || newRoute.children.length === 0) && (!existingRoute.children || existingRoute.children.length === 0)) {
return true;
}
return newRoute.children.every(
(aChild, i) => _optionalChain([existingRoute, 'access', _32 => _32.children, 'optionalAccess', _33 => _33.some, 'call', _34 => _34((bChild) => isSameRoute(aChild, bChild))])
);
}
var lazyRoutePropertyCache = /* @__PURE__ */ new WeakMap();
var loadLazyRouteProperty = ({
key,
route,
manifest,
mapRouteProperties: mapRouteProperties2
}) => {
let routeToUpdate = manifest[route.id];
invariant(routeToUpdate, "No route found in manifest");
if (!routeToUpdate.lazy || typeof routeToUpdate.lazy !== "object") {
return;
}
let lazyFn = routeToUpdate.lazy[key];
if (!lazyFn) {
return;
}
let cache = lazyRoutePropertyCache.get(routeToUpdate);
if (!cache) {
cache = {};
lazyRoutePropertyCache.set(routeToUpdate, cache);
}
let cachedPromise = cache[key];
if (cachedPromise) {
return cachedPromise;
}
let propertyPromise = (async () => {
let isUnsupported = isUnsupportedLazyRouteObjectKey(key);
let staticRouteValue = routeToUpdate[key];
let isStaticallyDefined = staticRouteValue !== void 0 && key !== "hasErrorBoundary";
if (isUnsupported) {
warning(
!isUnsupported,
"Route property " + key + " is not a supported lazy route property. This property will be ignored."
);
cache[key] = Promise.resolve();
} else if (isStaticallyDefined) {
warning(
false,
`Route "${routeToUpdate.id}" has a static property "${key}" defined. The lazy property will be ignored.`
);
} else {
let value = await lazyFn();
if (value != null) {
Object.assign(routeToUpdate, { [key]: value });
Object.assign(routeToUpdate, mapRouteProperties2(routeToUpdate));
}
}
if (typeof routeToUpdate.lazy === "object") {
routeToUpdate.lazy[key] = void 0;
if (Object.values(routeToUpdate.lazy).every((value) => value === void 0)) {
routeToUpdate.lazy = void 0;
}
}
})();
cache[key] = propertyPromise;
return propertyPromise;
};
var lazyRouteFunctionCache = /* @__PURE__ */ new WeakMap();
function loadLazyRoute(route, type, manifest, mapRouteProperties2, lazyRoutePropertiesToSkip) {
let routeToUpdate = manifest[route.id];
invariant(routeToUpdate, "No route found in manifest");
if (!route.lazy) {
return {
lazyRoutePromise: void 0,
lazyHandlerPromise: void 0
};
}
if (typeof route.lazy === "function") {
let cachedPromise = lazyRouteFunctionCache.get(routeToUpdate);
if (cachedPromise) {
return {
lazyRoutePromise: cachedPromise,
lazyHandlerPromise: cachedPromise
};
}
let lazyRoutePromise2 = (async () => {
invariant(
typeof route.lazy === "function",
"No lazy route function found"
);
let lazyRoute = await route.lazy();
let routeUpdates = {};
for (let lazyRouteProperty in lazyRoute) {
let lazyValue = lazyRoute[lazyRouteProperty];
if (lazyValue === void 0) {
continue;
}
let isUnsupported = isUnsupportedLazyRouteFunctionKey(lazyRouteProperty);
let staticRouteValue = routeToUpdate[lazyRouteProperty];
let isStaticallyDefined = staticRouteValue !== void 0 && // This property isn't static since it should always be updated based
// on the route updates
lazyRouteProperty !== "hasErrorBoundary";
if (isUnsupported) {
warning(
!isUnsupported,
"Route property " + lazyRouteProperty + " is not a supported property to be returned from a lazy route function. This property will be ignored."
);
} else if (isStaticallyDefined) {
warning(
!isStaticallyDefined,
`Route "${routeToUpdate.id}" has a static property "${lazyRouteProperty}" defined but its lazy function is also returning a value for this property. The lazy route property "${lazyRouteProperty}" will be ignored.`
);
} else {
routeUpdates[lazyRouteProperty] = lazyValue;
}
}
Object.assign(routeToUpdate, routeUpdates);
Object.assign(routeToUpdate, {
// To keep things framework agnostic, we use the provided `mapRouteProperties`
// function to set the framework-aware properties (`element`/`hasErrorBoundary`)
// since the logic will differ between frameworks.
...mapRouteProperties2(routeToUpdate),
lazy: void 0
});
})();
lazyRouteFunctionCache.set(routeToUpdate, lazyRoutePromise2);
lazyRoutePromise2.catch(() => {
});
return {
lazyRoutePromise: lazyRoutePromise2,
lazyHandlerPromise: lazyRoutePromise2
};
}
let lazyKeys = Object.keys(route.lazy);
let lazyPropertyPromises = [];
let lazyHandlerPromise = void 0;
for (let key of lazyKeys) {
if (lazyRoutePropertiesToSkip && lazyRoutePropertiesToSkip.includes(key)) {
continue;
}
let promise = loadLazyRouteProperty({
key,
route,
manifest,
mapRouteProperties: mapRouteProperties2
});
if (promise) {
lazyPropertyPromises.push(promise);
if (key === type) {
lazyHandlerPromise = promise;
}
}
}
let lazyRoutePromise = lazyPropertyPromises.length > 0 ? Promise.all(lazyPropertyPromises).then(() => {
}) : void 0;
_optionalChain([lazyRoutePromise, 'optionalAccess', _35 => _35.catch, 'call', _36 => _36(() => {
})]);
_optionalChain([lazyHandlerPromise, 'optionalAccess', _37 => _37.catch, 'call', _38 => _38(() => {
})]);
return {
lazyRoutePromise,
lazyHandlerPromise
};
}
function isNonNullable(value) {
return value !== void 0;
}
function loadLazyMiddlewareForMatches(matches, manifest, mapRouteProperties2) {
let promises = matches.map(({ route }) => {
if (typeof route.lazy !== "object" || !route.lazy.middleware) {
return void 0;
}
return loadLazyRouteProperty({
key: "middleware",
route,
manifest,
mapRouteProperties: mapRouteProperties2
});
}).filter(isNonNullable);
return promises.length > 0 ? Promise.all(promises) : void 0;
}
async function defaultDataStrategy(args) {
let matchesToLoad = args.matches.filter((m) => m.shouldLoad);
let keyedResults = {};
let results = await Promise.all(matchesToLoad.map((m) => m.resolve()));
results.forEach((result, i) => {
keyedResults[matchesToLoad[i].route.id] = result;
});
return keyedResults;
}
async function defaultDataStrategyWithMiddleware(args) {
if (!args.matches.some((m) => m.route.middleware)) {
return defaultDataStrategy(args);
}
return runClientMiddlewarePipeline(args, () => defaultDataStrategy(args));
}
function runServerMiddlewarePipeline(args, handler, errorHandler) {
return runMiddlewarePipeline(
args,
handler,
processResult,
isResponse,
errorHandler
);
function processResult(result) {
return isDataWithResponseInit(result) ? dataWithResponseInitToResponse(result) : result;
}
}
function runClientMiddlewarePipeline(args, handler) {
return runMiddlewarePipeline(
args,
handler,
(r) => r,
// No post-processing needed on the client
isDataStrategyResults,
errorHandler
);
function errorHandler(error, routeId, nextResult) {
if (nextResult) {
return Promise.resolve(
Object.assign(nextResult.value, {
[routeId]: { type: "error", result: error }
})
);
} else {
let { matches } = args;
let maxBoundaryIdx = Math.min(
// Throwing route
Math.max(
matches.findIndex((m) => m.route.id === routeId),
0
),
// or the shallowest route that needs to load data
Math.max(
matches.findIndex((m) => m.unstable_shouldCallHandler()),
0
)
);
let boundaryRouteId = findNearestBoundary(
matches,
matches[maxBoundaryIdx].route.id
).route.id;
return Promise.resolve({
[boundaryRouteId]: { type: "error", result: error }
});
}
}
}
async function runMiddlewarePipeline(args, handler, processResult, isResult, errorHandler) {
let { matches, request, params, context, unstable_pattern } = args;
let tuples = matches.flatMap(
(m) => m.route.middleware ? m.route.middleware.map((fn) => [m.route.id, fn]) : []
);
let result = await callRouteMiddleware(
{
request,
params,
context,
unstable_pattern
},
tuples,
handler,
processResult,
isResult,
errorHandler
);
return result;
}
async function callRouteMiddleware(args, middlewares, handler, processResult, isResult, errorHandler, idx = 0) {
let { request } = args;
if (request.signal.aborted) {
throw _nullishCoalesce(request.signal.reason, () => ( new Error(`Request aborted: ${request.method} ${request.url}`)));
}
let tuple = middlewares[idx];
if (!tuple) {
let result = await handler();
return result;
}
let [routeId, middleware] = tuple;
let nextResult;
let next = async () => {
if (nextResult) {
throw new Error("You may only call `next()` once per middleware");
}
try {
let result = await callRouteMiddleware(
args,
middlewares,
handler,
processResult,
isResult,
errorHandler,
idx + 1
);
nextResult = { value: result };
return nextResult.value;
} catch (error) {
nextResult = { value: await errorHandler(error, routeId, nextResult) };
return nextResult.value;
}
};
try {
let value = await middleware(args, next);
let result = value != null ? processResult(value) : void 0;
if (isResult(result)) {
return result;
} else if (nextResult) {
return _nullishCoalesce(result, () => ( nextResult.value));
} else {
nextResult = { value: await next() };
return nextResult.value;
}
} catch (error) {
let response = await errorHandler(error, routeId, nextResult);
return response;
}
}
function getDataStrategyMatchLazyPromises(mapRouteProperties2, manifest, request, match, lazyRoutePropertiesToSkip) {
let lazyMiddlewarePromise = loadLazyRouteProperty({
key: "middleware",
route: match.route,
manifest,
mapRouteProperties: mapRouteProperties2
});
let lazyRoutePromises = loadLazyRoute(
match.route,
isMutationMethod(request.method) ? "action" : "loader",
manifest,
mapRouteProperties2,
lazyRoutePropertiesToSkip
);
return {
middleware: lazyMiddlewarePromise,
route: lazyRoutePromises.lazyRoutePromise,
handler: lazyRoutePromises.lazyHandlerPromise
};
}
function getDataStrategyMatch(mapRouteProperties2, manifest, request, unstable_pattern, match, lazyRoutePropertiesToSkip, scopedContext, shouldLoad, unstable_shouldRevalidateArgs = null) {
let isUsingNewApi = false;
let _lazyPromises = getDataStrategyMatchLazyPromises(
mapRouteProperties2,
manifest,
request,
match,
lazyRoutePropertiesToSkip
);
return {
...match,
_lazyPromises,
shouldLoad,
unstable_shouldRevalidateArgs,
unstable_shouldCallHandler(defaultShouldRevalidate) {
isUsingNewApi = true;
if (!unstable_shouldRevalidateArgs) {
return shouldLoad;
}
if (typeof defaultShouldRevalidate === "boolean") {
return shouldRevalidateLoader(match, {
...unstable_shouldRevalidateArgs,
defaultShouldRevalidate
});
}
return shouldRevalidateLoader(match, unstable_shouldRevalidateArgs);
},
resolve(handlerOverride) {
let { lazy, loader, middleware } = match.route;
let callHandler = isUsingNewApi || shouldLoad || handlerOverride && !isMutationMethod(request.method) && (lazy || loader);
let isMiddlewareOnlyRoute = middleware && middleware.length > 0 && !loader && !lazy;
if (callHandler && (isMutationMethod(request.method) || !isMiddlewareOnlyRoute)) {
return callLoaderOrAction({
request,
unstable_pattern,
match,
lazyHandlerPromise: _optionalChain([_lazyPromises, 'optionalAccess', _39 => _39.handler]),
lazyRoutePromise: _optionalChain([_lazyPromises, 'optionalAccess', _40 => _40.route]),
handlerOverride,
scopedContext
});
}
return Promise.resolve({ type: "data" /* data */, result: void 0 });
}
};
}
function getTargetedDataStrategyMatches(mapRouteProperties2, manifest, request, matches, targetMatch, lazyRoutePropertiesToSkip, scopedContext, shouldRevalidateArgs = null) {
return matches.map((match) => {
if (match.route.id !== targetMatch.route.id) {
return {
...match,
shouldLoad: false,
unstable_shouldRevalidateArgs: shouldRevalidateArgs,
unstable_shouldCallHandler: () => false,
_lazyPromises: getDataStrategyMatchLazyPromises(
mapRouteProperties2,
manifest,
request,
match,
lazyRoutePropertiesToSkip
),
resolve: () => Promise.resolve({ type: "data", result: void 0 })
};
}
return getDataStrategyMatch(
mapRouteProperties2,
manifest,
request,
getRoutePattern(matches.map((m) => m.route.path)),
match,
lazyRoutePropertiesToSkip,
scopedContext,
true,
shouldRevalidateArgs
);
});
}
async function callDataStrategyImpl(dataStrategyImpl, request, matches, fetcherKey, scopedContext, isStaticHandler) {
if (matches.some((m) => _optionalChain([m, 'access', _41 => _41._lazyPromises, 'optionalAccess', _42 => _42.middleware]))) {
await Promise.all(matches.map((m) => _optionalChain([m, 'access', _43 => _43._lazyPromises, 'optionalAccess', _44 => _44.middleware])));
}
let dataStrategyArgs = {
request,
unstable_pattern: getRoutePattern(matches.map((m) => m.route.path)),
params: matches[0].params,
context: scopedContext,
matches
};
let runClientMiddleware = isStaticHandler ? () => {
throw new Error(
"You cannot call `runClientMiddleware()` from a static handler `dataStrategy`. Middleware is run outside of `dataStrategy` during SSR in order to bubble up the Response. You can enable middleware via the `respond` API in `query`/`queryRoute`"
);
} : (cb) => {
let typedDataStrategyArgs = dataStrategyArgs;
return runClientMiddlewarePipeline(typedDataStrategyArgs, () => {
return cb({
...typedDataStrategyArgs,
fetcherKey,
runClientMiddleware: () => {
throw new Error(
"Cannot call `runClientMiddleware()` from within an `runClientMiddleware` handler"
);
}
});
});
};
let results = await dataStrategyImpl({
...dataStrategyArgs,
fetcherKey,
runClientMiddleware
});
try {
await Promise.all(
matches.flatMap((m) => [
_optionalChain([m, 'access', _45 => _45._lazyPromises, 'optionalAccess', _46 => _46.handler]),
_optionalChain([m, 'access', _47 => _47._lazyPromises, 'optionalAccess', _48 => _48.route])
])
);
} catch (e) {
}
return results;
}
async function callLoaderOrAction({
request,
unstable_pattern,
match,
lazyHandlerPromise,
lazyRoutePromise,
handlerOverride,
scopedContext
}) {
let result;
let onReject;
let isAction = isMutationMethod(request.method);
let type = isAction ? "action" : "loader";
let runHandler = (handler) => {
let reject;
let abortPromise = new Promise((_, r) => reject = r);
onReject = () => reject();
request.signal.addEventListener("abort", onReject);
let actualHandler = (ctx) => {
if (typeof handler !== "function") {
return Promise.reject(
new Error(
`You cannot call the handler for a route which defines a boolean "${type}" [routeId: ${match.route.id}]`
)
);
}
return handler(
{
request,
unstable_pattern,
params: match.params,
context: scopedContext
},
...ctx !== void 0 ? [ctx] : []
);
};
let handlerPromise = (async () => {
try {
let val = await (handlerOverride ? handlerOverride((ctx) => actualHandler(ctx)) : actualHandler());
return { type: "data", result: val };
} catch (e) {
return { type: "error", result: e };
}
})();
return Promise.race([handlerPromise, abortPromise]);
};
try {
let handler = isAction ? match.route.action : match.route.loader;
if (lazyHandlerPromise || lazyRoutePromise) {
if (handler) {
let handlerError;
let [value] = await Promise.all([
// If the handler throws, don't let it immediately bubble out,
// since we need to let the lazy() execution finish so we know if this
// route has a boundary that can handle the error
runHandler(handler).catch((e) => {
handlerError = e;
}),
// Ensure all lazy route promises are resolved before continuing
lazyHandlerPromise,
lazyRoutePromise
]);
if (handlerError !== void 0) {
throw handlerError;
}
result = value;
} else {
await lazyHandlerPromise;
let handler2 = isAction ? match.route.action : match.route.loader;
if (handler2) {
[result] = await Promise.all([runHandler(handler2), lazyRoutePromise]);
} else if (type === "action") {
let url = new URL(request.url);
let pathname = url.pathname + url.search;
throw getInternalRouterError(405, {
method: request.method,
pathname,
routeId: match.route.id
});
} else {
return { type: "data" /* data */, result: void 0 };
}
}
} else if (!handler) {
let url = new URL(request.url);
let pathname = url.pathname + url.search;
throw getInternalRouterError(404, {
pathname
});
} else {
result = await runHandler(handler);
}
} catch (e) {
return { type: "error" /* error */, result: e };
} finally {
if (onReject) {
request.signal.removeEventListener("abort", onReject);
}
}
return result;
}
async function parseResponseBody(response) {
let contentType = response.headers.get("Content-Type");
if (contentType && /\bapplication\/json\b/.test(contentType)) {
return response.body == null ? null : response.json();
}
return response.text();
}
async function convertDataStrategyResultToDataResult(dataStrategyResult) {
let { result, type } = dataStrategyResult;
if (isResponse(result)) {
let data2;
try {
data2 = await parseResponseBody(result);
} catch (e) {
return { type: "error" /* error */, error: e };
}
if (type === "error" /* error */) {
return {
type: "error" /* error */,
error: new ErrorResponseImpl(result.status, result.statusText, data2),
statusCode: result.status,
headers: result.headers
};
}
return {
type: "data" /* data */,
data: data2,
statusCode: result.status,
headers: result.headers
};
}
if (type === "error" /* error */) {
if (isDataWithResponseInit(result)) {
if (result.data instanceof Error) {
return {
type: "error" /* error */,
error: result.data,
statusCode: _optionalChain([result, 'access', _49 => _49.init, 'optionalAccess', _50 => _50.status]),
headers: _optionalChain([result, 'access', _51 => _51.init, 'optionalAccess', _52 => _52.headers]) ? new Headers(result.init.headers) : void 0
};
}
return {
type: "error" /* error */,
error: new ErrorResponseImpl(
_optionalChain([result, 'access', _53 => _53.init, 'optionalAccess', _54 => _54.status]) || 500,
void 0,
result.data
),
statusCode: isRouteErrorResponse(result) ? result.status : void 0,
headers: _optionalChain([result, 'access', _55 => _55.init, 'optionalAccess', _56 => _56.headers]) ? new Headers(result.init.headers) : void 0
};
}
return {
type: "error" /* error */,
error: result,
statusCode: isRouteErrorResponse(result) ? result.status : void 0
};
}
if (isDataWithResponseInit(result)) {
return {
type: "data" /* data */,
data: result.data,
statusCode: _optionalChain([result, 'access', _57 => _57.init, 'optionalAccess', _58 => _58.status]),
headers: _optionalChain([result, 'access', _59 => _59.init, 'optionalAccess', _60 => _60.headers]) ? new Headers(result.init.headers) : void 0
};
}
return { type: "data" /* data */, data: result };
}
function normalizeRelativeRoutingRedirectResponse(response, request, routeId, matches, basename) {
let location = response.headers.get("Location");
invariant(
location,
"Redirects returned/thrown from loaders/actions must have a Location header"
);
if (!isAbsoluteUrl(location)) {
let trimmedMatches = matches.slice(
0,
matches.findIndex((m) => m.route.id === routeId) + 1
);
location = normalizeTo(
new URL(request.url),
trimmedMatches,
basename,
location
);
response.headers.set("Location", location);
}
return response;
}
function normalizeRedirectLocation(location, currentUrl, basename) {
if (isAbsoluteUrl(location)) {
let normalizedLocation = location;
let url = normalizedLocation.startsWith("//") ? new URL(currentUrl.protocol + normalizedLocation) : new URL(normalizedLocation);
let isSameBasename = stripBasename(url.pathname, basename) != null;
if (url.origin === currentUrl.origin && isSameBasename) {
return url.pathname + url.search + url.hash;
}
}
return location;
}
function createClientSideRequest(history, location, signal, submission) {
let url = history.createURL(stripHashFromPath(location)).toString();
let init = { signal };
if (submission && isMutationMethod(submission.formMethod)) {
let { formMethod, formEncType } = submission;
init.method = formMethod.toUpperCase();
if (formEncType === "application/json") {
init.headers = new Headers({ "Content-Type": formEncType });
init.body = JSON.stringify(submission.json);
} else if (formEncType === "text/plain") {
init.body = submission.text;
} else if (formEncType === "application/x-www-form-urlencoded" && submission.formData) {
init.body = convertFormDataToSearchParams(submission.formData);
} else {
init.body = submission.formData;
}
}
return new Request(url, init);
}
function convertFormDataToSearchParams(formData) {
let searchParams = new URLSearchParams();
for (let [key, value] of formData.entries()) {
searchParams.append(key, typeof value === "string" ? value : value.name);
}
return searchParams;
}
function convertSearchParamsToFormData(searchParams) {
let formData = new FormData();
for (let [key, value] of searchParams.entries()) {
formData.append(key, value);
}
return formData;
}
function processRouteLoaderData(matches, results, pendingActionResult, isStaticHandler = false, skipLoaderErrorBubbling = false) {
let loaderData = {};
let errors = null;
let statusCode;
let foundError = false;
let loaderHeaders = {};
let pendingError = pendingActionResult && isErrorResult(pendingActionResult[1]) ? pendingActionResult[1].error : void 0;
matches.forEach((match) => {
if (!(match.route.id in results)) {
return;
}
let id = match.route.id;
let result = results[id];
invariant(
!isRedirectResult(result),
"Cannot handle redirect results in processLoaderData"
);
if (isErrorResult(result)) {
let error = result.error;
if (pendingError !== void 0) {
error = pendingError;
pendingError = void 0;
}
errors = errors || {};
if (skipLoaderErrorBubbling) {
errors[id] = error;
} else {
let boundaryMatch = findNearestBoundary(matches, id);
if (errors[boundaryMatch.route.id] == null) {
errors[boundaryMatch.route.id] = error;
}
}
if (!isStaticHandler) {
loaderData[id] = ResetLoaderDataSymbol;
}
if (!foundError) {
foundError = true;
statusCode = isRouteErrorResponse(result.error) ? result.error.status : 500;
}
if (result.headers) {
loaderHeaders[id] = result.headers;
}
} else {
loaderData[id] = result.data;
if (result.statusCode && result.statusCode !== 200 && !foundError) {
statusCode = result.statusCode;
}
if (result.headers) {
loaderHeaders[id] = result.headers;
}
}
});
if (pendingError !== void 0 && pendingActionResult) {
errors = { [pendingActionResult[0]]: pendingError };
if (pendingActionResult[2]) {
loaderData[pendingActionResult[2]] = void 0;
}
}
return {
loaderData,
errors,
statusCode: statusCode || 200,
loaderHeaders
};
}
function processLoaderData(state, matches, results, pendingActionResult, revalidatingFetchers, fetcherResults) {
let { loaderData, errors } = processRouteLoaderData(
matches,
results,
pendingActionResult
);
revalidatingFetchers.filter((f) => !f.matches || f.matches.some((m) => m.shouldLoad)).forEach((rf) => {
let { key, match, controller } = rf;
if (controller && controller.signal.aborted) {
return;
}
let result = fetcherResults[key];
invariant(result, "Did not find corresponding fetcher result");
if (isErrorResult(result)) {
let boundaryMatch = findNearestBoundary(state.matches, _optionalChain([match, 'optionalAccess', _61 => _61.route, 'access', _62 => _62.id]));
if (!(errors && errors[boundaryMatch.route.id])) {
errors = {
...errors,
[boundaryMatch.route.id]: result.error
};
}
state.fetchers.delete(key);
} else if (isRedirectResult(result)) {
invariant(false, "Unhandled fetcher revalidation redirect");
} else {
let doneFetcher = getDoneFetcher(result.data);
state.fetchers.set(key, doneFetcher);
}
});
return { loaderData, errors };
}
function mergeLoaderData(loaderData, newLoaderData, matches, errors) {
let mergedLoaderData = Object.entries(newLoaderData).filter(([, v]) => v !== ResetLoaderDataSymbol).reduce((merged, [k, v]) => {
merged[k] = v;
return merged;
}, {});
for (let match of matches) {
let id = match.route.id;
if (!newLoaderData.hasOwnProperty(id) && loaderData.hasOwnProperty(id) && match.route.loader) {
mergedLoaderData[id] = loaderData[id];
}
if (errors && errors.hasOwnProperty(id)) {
break;
}
}
return mergedLoaderData;
}
function getActionDataForCommit(pendingActionResult) {
if (!pendingActionResult) {
return {};
}
return isErrorResult(pendingActionResult[1]) ? {
// Clear out prior actionData on errors
actionData: {}
} : {
actionData: {
[pendingActionResult[0]]: pendingActionResult[1].data
}
};
}
function findNearestBoundary(matches, routeId) {
let eligibleMatches = routeId ? matches.slice(0, matches.findIndex((m) => m.route.id === routeId) + 1) : [...matches];
return eligibleMatches.reverse().find((m) => m.route.hasErrorBoundary === true) || matches[0];
}
function getShortCircuitMatches(routes) {
let route = routes.length === 1 ? routes[0] : routes.find((r) => r.index || !r.path || r.path === "/") || {
id: `__shim-error-route__`
};
return {
matches: [
{
params: {},
pathname: "",
pathnameBase: "",
route
}
],
route
};
}
function getInternalRouterError(status, {
pathname,
routeId,
method,
type,
message
} = {}) {
let statusText = "Unknown Server Error";
let errorMessage = "Unknown @remix-run/router error";
if (status === 400) {
statusText = "Bad Request";
if (method && pathname && routeId) {
errorMessage = `You made a ${method} request to "${pathname}" but did not provide a \`loader\` for route "${routeId}", so there is no way to handle the request.`;
} else if (type === "invalid-body") {
errorMessage = "Unable to encode submission body";
}
} else if (status === 403) {
statusText = "Forbidden";
errorMessage = `Route "${routeId}" does not match URL "${pathname}"`;
} else if (status === 404) {
statusText = "Not Found";
errorMessage = `No route matches URL "${pathname}"`;
} else if (status === 405) {
statusText = "Method Not Allowed";
if (method && pathname && routeId) {
errorMessage = `You made a ${method.toUpperCase()} request to "${pathname}" but did not provide an \`action\` for route "${routeId}", so there is no way to handle the request.`;
} else if (method) {
errorMessage = `Invalid request method "${method.toUpperCase()}"`;
}
}
return new ErrorResponseImpl(
status || 500,
statusText,
new Error(errorMessage),
true
);
}
function findRedirect(results) {
let entries = Object.entries(results);
for (let i = entries.length - 1; i >= 0; i--) {
let [key, result] = entries[i];
if (isRedirectResult(result)) {
return { key, result };
}
}
}
function stripHashFromPath(path) {
let parsedPath = typeof path === "string" ? parsePath(path) : path;
return createPath({ ...parsedPath, hash: "" });
}
function isHashChangeOnly(a, b) {
if (a.pathname !== b.pathname || a.search !== b.search) {
return false;
}
if (a.hash === "") {
return b.hash !== "";
} else if (a.hash === b.hash) {
return true;
} else if (b.hash !== "") {
return true;
}
return false;
}
function dataWithResponseInitToResponse(data2) {
return Response.json(data2.data, _nullishCoalesce(data2.init, () => ( void 0)));
}
function dataWithResponseInitToErrorResponse(data2) {
return new ErrorResponseImpl(
_nullishCoalesce(_optionalChain([data2, 'access', _63 => _63.init, 'optionalAccess', _64 => _64.status]), () => ( 500)),
_nullishCoalesce(_optionalChain([data2, 'access', _65 => _65.init, 'optionalAccess', _66 => _66.statusText]), () => ( "Internal Server Error")),
data2.data
);
}
function isDataStrategyResults(result) {
return result != null && typeof result === "object" && Object.entries(result).every(
([key, value]) => typeof key === "string" && isDataStrategyResult(value)
);
}
function isDataStrategyResult(result) {
return result != null && typeof result === "object" && "type" in result && "result" in result && (result.type === "data" /* data */ || result.type === "error" /* error */);
}
function isRedirectDataStrategyResult(result) {
return isResponse(result.result) && redirectStatusCodes.has(result.result.status);
}
function isErrorResult(result) {
return result.type === "error" /* error */;
}
function isRedirectResult(result) {
return (result && result.type) === "redirect" /* redirect */;
}
function isDataWithResponseInit(value) {
return typeof value === "object" && value != null && "type" in value && "data" in value && "init" in value && value.type === "DataWithResponseInit";
}
function isResponse(value) {
return value != null && typeof value.status === "number" && typeof value.statusText === "string" && typeof value.headers === "object" && typeof value.body !== "undefined";
}
function isRedirectStatusCode(statusCode) {
return redirectStatusCodes.has(statusCode);
}
function isRedirectResponse(result) {
return isResponse(result) && isRedirectStatusCode(result.status) && result.headers.has("Location");
}
function isValidMethod(method) {
return validRequestMethods.has(method.toUpperCase());
}
function isMutationMethod(method) {
return validMutationMethods.has(method.toUpperCase());
}
function hasNakedIndexQuery(search) {
return new URLSearchParams(search).getAll("index").some((v) => v === "");
}
function getTargetMatch(matches, location) {
let search = typeof location === "string" ? parsePath(location).search : location.search;
if (matches[matches.length - 1].route.index && hasNakedIndexQuery(search || "")) {
return matches[matches.length - 1];
}
let pathMatches = getPathContributingMatches(matches);
return pathMatches[pathMatches.length - 1];
}
function getSubmissionFromNavigation(navigation) {
let { formMethod, formAction, formEncType, text, formData, json } = navigation;
if (!formMethod || !formAction || !formEncType) {
return;
}
if (text != null) {
return {
formMethod,
formAction,
formEncType,
formData: void 0,
json: void 0,
text
};
} else if (formData != null) {
return {
formMethod,
formAction,
formEncType,
formData,
json: void 0,
text: void 0
};
} else if (json !== void 0) {
return {
formMethod,
formAction,
formEncType,
formData: void 0,
json,
text: void 0
};
}
}
function getLoadingNavigation(location, submission) {
if (submission) {
let navigation = {
state: "loading",
location,
formMethod: submission.formMethod,
formAction: submission.formAction,
formEncType: submission.formEncType,
formData: submission.formData,
json: submission.json,
text: submission.text
};
return navigation;
} else {
let navigation = {
state: "loading",
location,
formMethod: void 0,
formAction: void 0,
formEncType: void 0,
formData: void 0,
json: void 0,
text: void 0
};
return navigation;
}
}
function getSubmittingNavigation(location, submission) {
let navigation = {
state: "submitting",
location,
formMethod: submission.formMethod,
formAction: submission.formAction,
formEncType: submission.formEncType,
formData: submission.formData,
json: submission.json,
text: submission.text
};
return navigation;
}
function getLoadingFetcher(submission, data2) {
if (submission) {
let fetcher = {
state: "loading",
formMethod: submission.formMethod,
formAction: submission.formAction,
formEncType: submission.formEncType,
formData: submission.formData,
json: submission.json,
text: submission.text,
data: data2
};
return fetcher;
} else {
let fetcher = {
state: "loading",
formMethod: void 0,
formAction: void 0,
formEncType: void 0,
formData: void 0,
json: void 0,
text: void 0,
data: data2
};
return fetcher;
}
}
function getSubmittingFetcher(submission, existingFetcher) {
let fetcher = {
state: "submitting",
formMethod: submission.formMethod,
formAction: submission.formAction,
formEncType: submission.formEncType,
formData: submission.formData,
json: submission.json,
text: submission.text,
data: existingFetcher ? existingFetcher.data : void 0
};
return fetcher;
}
function getDoneFetcher(data2) {
let fetcher = {
state: "idle",
formMethod: void 0,
formAction: void 0,
formEncType: void 0,
formData: void 0,
json: void 0,
text: void 0,
data: data2
};
return fetcher;
}
function restoreAppliedTransitions(_window, transitions) {
try {
let sessionPositions = _window.sessionStorage.getItem(
TRANSITIONS_STORAGE_KEY
);
if (sessionPositions) {
let json = JSON.parse(sessionPositions);
for (let [k, v] of Object.entries(json || {})) {
if (v && Array.isArray(v)) {
transitions.set(k, new Set(v || []));
}
}
}
} catch (e) {
}
}
function persistAppliedTransitions(_window, transitions) {
if (transitions.size > 0) {
let json = {};
for (let [k, v] of transitions) {
json[k] = [...v];
}
try {
_window.sessionStorage.setItem(
TRANSITIONS_STORAGE_KEY,
JSON.stringify(json)
);
} catch (error) {
warning(
false,
`Failed to save applied view transitions in sessionStorage (${error}).`
);
}
}
}
function createDeferred() {
let resolve;
let reject;
let promise = new Promise((res, rej) => {
resolve = async (val) => {
res(val);
try {
await promise;
} catch (e) {
}
};
reject = async (error) => {
rej(error);
try {
await promise;
} catch (e) {
}
};
});
return {
promise,
//@ts-ignore
resolve,
//@ts-ignore
reject
};
}
// lib/dom/ssr/single-fetch.tsx
var _react = require('react'); var React = _interopRequireWildcard(_react); var React2 = _interopRequireWildcard(_react); var React3 = _interopRequireWildcard(_react); var React8 = _interopRequireWildcard(_react); var React7 = _interopRequireWildcard(_react); var React6 = _interopRequireWildcard(_react); var React5 = _interopRequireWildcard(_react); var React4 = _interopRequireWildcard(_react); var React9 = _interopRequireWildcard(_react);
// vendor/turbo-stream-v2/utils.ts
var HOLE = -1;
var NAN = -2;
var NEGATIVE_INFINITY = -3;
var NEGATIVE_ZERO = -4;
var NULL = -5;
var POSITIVE_INFINITY = -6;
var UNDEFINED = -7;
var TYPE_BIGINT = "B";
var TYPE_DATE = "D";
var TYPE_ERROR = "E";
var TYPE_MAP = "M";
var TYPE_NULL_OBJECT = "N";
var TYPE_PROMISE = "P";
var TYPE_REGEXP = "R";
var TYPE_SET = "S";
var TYPE_SYMBOL = "Y";
var TYPE_URL = "U";
var TYPE_PREVIOUS_RESOLVED = "Z";
var Deferred = class {
constructor() {
this.promise = new Promise((resolve, reject) => {
this.resolve = resolve;
this.reject = reject;
});
}
};
function createLineSplittingTransform() {
const decoder = new TextDecoder();
let leftover = "";
return new TransformStream({
transform(chunk, controller) {
const str = decoder.decode(chunk, { stream: true });
const parts = (leftover + str).split("\n");
leftover = parts.pop() || "";
for (const part of parts) {
controller.enqueue(part);
}
},
flush(controller) {
if (leftover) {
controller.enqueue(leftover);
}
}
});
}
// vendor/turbo-stream-v2/flatten.ts
function flatten(input) {
const { indices } = this;
const existing = indices.get(input);
if (existing) return [existing];
if (input === void 0) return UNDEFINED;
if (input === null) return NULL;
if (Number.isNaN(input)) return NAN;
if (input === Number.POSITIVE_INFINITY) return POSITIVE_INFINITY;
if (input === Number.NEGATIVE_INFINITY) return NEGATIVE_INFINITY;
if (input === 0 && 1 / input < 0) return NEGATIVE_ZERO;
const index = this.index++;
indices.set(input, index);
stringify.call(this, input, index);
return index;
}
function stringify(input, index) {
const { deferred, plugins, postPlugins } = this;
const str = this.stringified;
const stack = [[input, index]];
while (stack.length > 0) {
const [input2, index2] = stack.pop();
const partsForObj = (obj) => Object.keys(obj).map((k) => `"_${flatten.call(this, k)}":${flatten.call(this, obj[k])}`).join(",");
let error = null;
switch (typeof input2) {
case "boolean":
case "number":
case "string":
str[index2] = JSON.stringify(input2);
break;
case "bigint":
str[index2] = `["${TYPE_BIGINT}","${input2}"]`;
break;
case "symbol": {
const keyFor = Symbol.keyFor(input2);
if (!keyFor) {
error = new Error(
"Cannot encode symbol unless created with Symbol.for()"
);
} else {
str[index2] = `["${TYPE_SYMBOL}",${JSON.stringify(keyFor)}]`;
}
break;
}
case "object": {
if (!input2) {
str[index2] = `${NULL}`;
break;
}
const isArray = Array.isArray(input2);
let pluginHandled = false;
if (!isArray && plugins) {
for (const plugin of plugins) {
const pluginResult = plugin(input2);
if (Array.isArray(pluginResult)) {
pluginHandled = true;
const [pluginIdentifier, ...rest] = pluginResult;
str[index2] = `[${JSON.stringify(pluginIdentifier)}`;
if (rest.length > 0) {
str[index2] += `,${rest.map((v) => flatten.call(this, v)).join(",")}`;
}
str[index2] += "]";
break;
}
}
}
if (!pluginHandled) {
let result = isArray ? "[" : "{";
if (isArray) {
for (let i = 0; i < input2.length; i++)
result += (i ? "," : "") + (i in input2 ? flatten.call(this, input2[i]) : HOLE);
str[index2] = `${result}]`;
} else if (input2 instanceof Date) {
const dateTime = input2.getTime();
str[index2] = `["${TYPE_DATE}",${Number.isNaN(dateTime) ? JSON.stringify("invalid") : dateTime}]`;
} else if (input2 instanceof URL) {
str[index2] = `["${TYPE_URL}",${JSON.stringify(input2.href)}]`;
} else if (input2 instanceof RegExp) {
str[index2] = `["${TYPE_REGEXP}",${JSON.stringify(
input2.source
)},${JSON.stringify(input2.flags)}]`;
} else if (input2 instanceof Set) {
if (input2.size > 0) {
str[index2] = `["${TYPE_SET}",${[...input2].map((val) => flatten.call(this, val)).join(",")}]`;
} else {
str[index2] = `["${TYPE_SET}"]`;
}
} else if (input2 instanceof Map) {
if (input2.size > 0) {
str[index2] = `["${TYPE_MAP}",${[...input2].flatMap(([k, v]) => [
flatten.call(this, k),
flatten.call(this, v)
]).join(",")}]`;
} else {
str[index2] = `["${TYPE_MAP}"]`;
}
} else if (input2 instanceof Promise) {
str[index2] = `["${TYPE_PROMISE}",${index2}]`;
deferred[index2] = input2;
} else if (input2 instanceof Error) {
str[index2] = `["${TYPE_ERROR}",${JSON.stringify(input2.message)}`;
if (input2.name !== "Error") {
str[index2] += `,${JSON.stringify(input2.name)}`;
}
str[index2] += "]";
} else if (Object.getPrototypeOf(input2) === null) {
str[index2] = `["${TYPE_NULL_OBJECT}",{${partsForObj(input2)}}]`;
} else if (isPlainObject2(input2)) {
str[index2] = `{${partsForObj(input2)}}`;
} else {
error = new Error("Cannot encode object with prototype");
}
}
break;
}
default: {
const isArray = Array.isArray(input2);
let pluginHandled = false;
if (!isArray && plugins) {
for (const plugin of plugins) {
const pluginResult = plugin(input2);
if (Array.isArray(pluginResult)) {
pluginHandled = true;
const [pluginIdentifier, ...rest] = pluginResult;
str[index2] = `[${JSON.stringify(pluginIdentifier)}`;
if (rest.length > 0) {
str[index2] += `,${rest.map((v) => flatten.call(this, v)).join(",")}`;
}
str[index2] += "]";
break;
}
}
}
if (!pluginHandled) {
error = new Error("Cannot encode function or unexpected type");
}
}
}
if (error) {
let pluginHandled = false;
if (postPlugins) {
for (const plugin of postPlugins) {
const pluginResult = plugin(input2);
if (Array.isArray(pluginResult)) {
pluginHandled = true;
const [pluginIdentifier, ...rest] = pluginResult;
str[index2] = `[${JSON.stringify(pluginIdentifier)}`;
if (rest.length > 0) {
str[index2] += `,${rest.map((v) => flatten.call(this, v)).join(",")}`;
}
str[index2] += "]";
break;
}
}
}
if (!pluginHandled) {
throw error;
}
}
}
}
var objectProtoNames2 = Object.getOwnPropertyNames(Object.prototype).sort().join("\0");
function isPlainObject2(thing) {
const proto = Object.getPrototypeOf(thing);
return proto === Object.prototype || proto === null || Object.getOwnPropertyNames(proto).sort().join("\0") === objectProtoNames2;
}
// vendor/turbo-stream-v2/unflatten.ts
var globalObj = typeof window !== "undefined" ? window : typeof globalThis !== "undefined" ? globalThis : void 0;
function unflatten(parsed) {
const { hydrated, values } = this;
if (typeof parsed === "number") return hydrate.call(this, parsed);
if (!Array.isArray(parsed) || !parsed.length) throw new SyntaxError();
const startIndex = values.length;
for (const value of parsed) {
values.push(value);
}
hydrated.length = values.length;
return hydrate.call(this, startIndex);
}
function hydrate(index) {
const { hydrated, values, deferred, plugins } = this;
let result;
const stack = [
[
index,
(v) => {
result = v;
}
]
];
let postRun = [];
while (stack.length > 0) {
const [index2, set] = stack.pop();
switch (index2) {
case UNDEFINED:
set(void 0);
continue;
case NULL:
set(null);
continue;
case NAN:
set(NaN);
continue;
case POSITIVE_INFINITY:
set(Infinity);
continue;
case NEGATIVE_INFINITY:
set(-Infinity);
continue;
case NEGATIVE_ZERO:
set(-0);
continue;
}
if (hydrated[index2]) {
set(hydrated[index2]);
continue;
}
const value = values[index2];
if (!value || typeof value !== "object") {
hydrated[index2] = value;
set(value);
continue;
}
if (Array.isArray(value)) {
if (typeof value[0] === "string") {
const [type, b, c] = value;
switch (type) {
case TYPE_DATE:
set(hydrated[index2] = new Date(b));
continue;
case TYPE_URL:
set(hydrated[index2] = new URL(b));
continue;
case TYPE_BIGINT:
set(hydrated[index2] = BigInt(b));
continue;
case TYPE_REGEXP:
set(hydrated[index2] = new RegExp(b, c));
continue;
case TYPE_SYMBOL:
set(hydrated[index2] = Symbol.for(b));
continue;
case TYPE_SET:
const newSet = /* @__PURE__ */ new Set();
hydrated[index2] = newSet;
for (let i = value.length - 1; i > 0; i--)
stack.push([
value[i],
(v) => {
newSet.add(v);
}
]);
set(newSet);
continue;
case TYPE_MAP:
const map = /* @__PURE__ */ new Map();
hydrated[index2] = map;
for (let i = value.length - 2; i > 0; i -= 2) {
const r = [];
stack.push([
value[i + 1],
(v) => {
r[1] = v;
}
]);
stack.push([
value[i],
(k) => {
r[0] = k;
}
]);
postRun.push(() => {
map.set(r[0], r[1]);
});
}
set(map);
continue;
case TYPE_NULL_OBJECT:
const obj = /* @__PURE__ */ Object.create(null);
hydrated[index2] = obj;
for (const key of Object.keys(b).reverse()) {
const r = [];
stack.push([
b[key],
(v) => {
r[1] = v;
}
]);
stack.push([
Number(key.slice(1)),
(k) => {
r[0] = k;
}
]);
postRun.push(() => {
obj[r[0]] = r[1];
});
}
set(obj);
continue;
case TYPE_PROMISE:
if (hydrated[b]) {
set(hydrated[index2] = hydrated[b]);
} else {
const d = new Deferred();
deferred[b] = d;
set(hydrated[index2] = d.promise);
}
continue;
case TYPE_ERROR:
const [, message, errorType] = value;
let error = errorType && globalObj && globalObj[errorType] ? new globalObj[errorType](message) : new Error(message);
hydrated[index2] = error;
set(error);
continue;
case TYPE_PREVIOUS_RESOLVED:
set(hydrated[index2] = hydrated[b]);
continue;
default:
if (Array.isArray(plugins)) {
const r = [];
const vals = value.slice(1);
for (let i = 0; i < vals.length; i++) {
const v = vals[i];
stack.push([
v,
(v2) => {
r[i] = v2;
}
]);
}
postRun.push(() => {
for (const plugin of plugins) {
const result2 = plugin(value[0], ...r);
if (result2) {
set(hydrated[index2] = result2.value);
return;
}
}
throw new SyntaxError();
});
continue;
}
throw new SyntaxError();
}
} else {
const array = [];
hydrated[index2] = array;
for (let i = 0; i < value.length; i++) {
const n = value[i];
if (n !== HOLE) {
stack.push([
n,
(v) => {
array[i] = v;
}
]);
}
}
set(array);
continue;
}
} else {
const object = {};
hydrated[index2] = object;
for (const key of Object.keys(value).reverse()) {
const r = [];
stack.push([
value[key],
(v) => {
r[1] = v;
}
]);
stack.push([
Number(key.slice(1)),
(k) => {
r[0] = k;
}
]);
postRun.push(() => {
object[r[0]] = r[1];
});
}
set(object);
continue;
}
}
while (postRun.length > 0) {
postRun.pop()();
}
return result;
}
// vendor/turbo-stream-v2/turbo-stream.ts
async function decode(readable, options) {
const { plugins } = _nullishCoalesce(options, () => ( {}));
const done = new Deferred();
const reader = readable.pipeThrough(createLineSplittingTransform()).getReader();
const decoder = {
values: [],
hydrated: [],
deferred: {},
plugins
};
const decoded = await decodeInitial.call(decoder, reader);
let donePromise = done.promise;
if (decoded.done) {
done.resolve();
} else {
donePromise = decodeDeferred.call(decoder, reader).then(done.resolve).catch((reason) => {
for (const deferred of Object.values(decoder.deferred)) {
deferred.reject(reason);
}
done.reject(reason);
});
}
return {
done: donePromise.then(() => reader.closed),
value: decoded.value
};
}
async function decodeInitial(reader) {
const read = await reader.read();
if (!read.value) {
throw new SyntaxError();
}
let line;
try {
line = JSON.parse(read.value);
} catch (reason) {
throw new SyntaxError();
}
return {
done: read.done,
value: unflatten.call(this, line)
};
}
async function decodeDeferred(reader) {
let read = await reader.read();
while (!read.done) {
if (!read.value) continue;
const line = read.value;
switch (line[0]) {
case TYPE_PROMISE: {
const colonIndex = line.indexOf(":");
const deferredId = Number(line.slice(1, colonIndex));
const deferred = this.deferred[deferredId];
if (!deferred) {
throw new Error(`Deferred ID ${deferredId} not found in stream`);
}
const lineData = line.slice(colonIndex + 1);
let jsonLine;
try {
jsonLine = JSON.parse(lineData);
} catch (reason) {
throw new SyntaxError();
}
const value = unflatten.call(this, jsonLine);
deferred.resolve(value);
break;
}
case TYPE_ERROR: {
const colonIndex = line.indexOf(":");
const deferredId = Number(line.slice(1, colonIndex));
const deferred = this.deferred[deferredId];
if (!deferred) {
throw new Error(`Deferred ID ${deferredId} not found in stream`);
}
const lineData = line.slice(colonIndex + 1);
let jsonLine;
try {
jsonLine = JSON.parse(lineData);
} catch (reason) {
throw new SyntaxError();
}
const value = unflatten.call(this, jsonLine);
deferred.reject(value);
break;
}
default:
throw new SyntaxError();
}
read = await reader.read();
}
}
function encode(input, options) {
const { plugins, postPlugins, signal } = _nullishCoalesce(options, () => ( {}));
const encoder = {
deferred: {},
index: 0,
indices: /* @__PURE__ */ new Map(),
stringified: [],
plugins,
postPlugins,
signal
};
const textEncoder = new TextEncoder();
let lastSentIndex = 0;
const readable = new ReadableStream({
async start(controller) {
const id = flatten.call(encoder, input);
if (Array.isArray(id)) {
throw new Error("This should never happen");
}
if (id < 0) {
controller.enqueue(textEncoder.encode(`${id}
`));
} else {
controller.enqueue(
textEncoder.encode(`[${encoder.stringified.join(",")}]
`)
);
lastSentIndex = encoder.stringified.length - 1;
}
const seenPromises = /* @__PURE__ */ new WeakSet();
if (Object.keys(encoder.deferred).length) {
let raceDone;
const racePromise = new Promise((resolve, reject) => {
raceDone = resolve;
if (signal) {
const rejectPromise = () => reject(signal.reason || new Error("Signal was aborted."));
if (signal.aborted) {
rejectPromise();
} else {
signal.addEventListener("abort", (event) => {
rejectPromise();
});
}
}
});
while (Object.keys(encoder.deferred).length > 0) {
for (const [deferredId, deferred] of Object.entries(
encoder.deferred
)) {
if (seenPromises.has(deferred)) continue;
seenPromises.add(
// biome-ignore lint/suspicious/noAssignInExpressions: <explanation>
encoder.deferred[Number(deferredId)] = Promise.race([
racePromise,
deferred
]).then(
(resolved) => {
const id2 = flatten.call(encoder, resolved);
if (Array.isArray(id2)) {
controller.enqueue(
textEncoder.encode(
`${TYPE_PROMISE}${deferredId}:[["${TYPE_PREVIOUS_RESOLVED}",${id2[0]}]]
`
)
);
encoder.index++;
lastSentIndex++;
} else if (id2 < 0) {
controller.enqueue(
textEncoder.encode(
`${TYPE_PROMISE}${deferredId}:${id2}
`
)
);
} else {
const values = encoder.stringified.slice(lastSentIndex + 1).join(",");
controller.enqueue(
textEncoder.encode(
`${TYPE_PROMISE}${deferredId}:[${values}]
`
)
);
lastSentIndex = encoder.stringified.length - 1;
}
},
(reason) => {
if (!reason || typeof reason !== "object" || !(reason instanceof Error)) {
reason = new Error("An unknown error occurred");
}
const id2 = flatten.call(encoder, reason);
if (Array.isArray(id2)) {
controller.enqueue(
textEncoder.encode(
`${TYPE_ERROR}${deferredId}:[["${TYPE_PREVIOUS_RESOLVED}",${id2[0]}]]
`
)
);
encoder.index++;
lastSentIndex++;
} else if (id2 < 0) {
controller.enqueue(
textEncoder.encode(
`${TYPE_ERROR}${deferredId}:${id2}
`
)
);
} else {
const values = encoder.stringified.slice(lastSentIndex + 1).join(",");
controller.enqueue(
textEncoder.encode(
`${TYPE_ERROR}${deferredId}:[${values}]
`
)
);
lastSentIndex = encoder.stringified.length - 1;
}
}
).finally(() => {
delete encoder.deferred[Number(deferredId)];
})
);
}
await Promise.race(Object.values(encoder.deferred));
}
raceDone();
}
await Promise.all(Object.values(encoder.deferred));
controller.close();
}
});
return readable;
}
// lib/dom/ssr/data.ts
async function createRequestInit(request) {
let init = { signal: request.signal };
if (request.method !== "GET") {
init.method = request.method;
let contentType = request.headers.get("Content-Type");
if (contentType && /\bapplication\/json\b/.test(contentType)) {
init.headers = { "Content-Type": contentType };
init.body = JSON.stringify(await request.json());
} else if (contentType && /\btext\/plain\b/.test(contentType)) {
init.headers = { "Content-Type": contentType };
init.body = await request.text();
} else if (contentType && /\bapplication\/x-www-form-urlencoded\b/.test(contentType)) {
init.body = new URLSearchParams(await request.text());
} else {
init.body = await request.formData();
}
}
return init;
}
// lib/dom/ssr/markup.ts
var ESCAPE_LOOKUP = {
"&": "\\u0026",
">": "\\u003e",
"<": "\\u003c",
"\u2028": "\\u2028",
"\u2029": "\\u2029"
};
var ESCAPE_REGEX = /[&><\u2028\u2029]/g;
function escapeHtml(html) {
return html.replace(ESCAPE_REGEX, (match) => ESCAPE_LOOKUP[match]);
}
// lib/dom/ssr/invariant.ts
function invariant2(value, message) {
if (value === false || value === null || typeof value === "undefined") {
throw new Error(message);
}
}
// lib/dom/ssr/single-fetch.tsx
var SingleFetchRedirectSymbol = Symbol("SingleFetchRedirect");
var SingleFetchNoResultError = class extends Error {
};
var SINGLE_FETCH_REDIRECT_STATUS = 202;
var NO_BODY_STATUS_CODES = /* @__PURE__ */ new Set([100, 101, 204, 205]);
function StreamTransfer({
context,
identifier,
reader,
textDecoder,
nonce
}) {
if (!context.renderMeta || !context.renderMeta.didRenderScripts) {
return null;
}
if (!context.renderMeta.streamCache) {
context.renderMeta.streamCache = {};
}
let { streamCache } = context.renderMeta;
let promise = streamCache[identifier];
if (!promise) {
promise = streamCache[identifier] = reader.read().then((result) => {
streamCache[identifier].result = {
done: result.done,
value: textDecoder.decode(result.value, { stream: true })
};
}).catch((e) => {
streamCache[identifier].error = e;
});
}
if (promise.error) {
throw promise.error;
}
if (promise.result === void 0) {
throw promise;
}
let { done, value } = promise.result;
let scriptTag = value ? /* @__PURE__ */ React.createElement(
"script",
{
nonce,
dangerouslySetInnerHTML: {
__html: `window.__reactRouterContext.streamController.enqueue(${escapeHtml(
JSON.stringify(value)
)});`
}
}
) : null;
if (done) {
return /* @__PURE__ */ React.createElement(React.Fragment, null, scriptTag, /* @__PURE__ */ React.createElement(
"script",
{
nonce,
dangerouslySetInnerHTML: {
__html: `window.__reactRouterContext.streamController.close();`
}
}
));
} else {
return /* @__PURE__ */ React.createElement(React.Fragment, null, scriptTag, /* @__PURE__ */ React.createElement(React.Suspense, null, /* @__PURE__ */ React.createElement(
StreamTransfer,
{
context,
identifier: identifier + 1,
reader,
textDecoder,
nonce
}
)));
}
}
function getTurboStreamSingleFetchDataStrategy(getRouter, manifest, routeModules, ssr, basename) {
let dataStrategy = getSingleFetchDataStrategyImpl(
getRouter,
(match) => {
let manifestRoute = manifest.routes[match.route.id];
invariant2(manifestRoute, "Route not found in manifest");
let routeModule = routeModules[match.route.id];
return {
hasLoader: manifestRoute.hasLoader,
hasClientLoader: manifestRoute.hasClientLoader,
hasShouldRevalidate: Boolean(_optionalChain([routeModule, 'optionalAccess', _67 => _67.shouldRevalidate]))
};
},
fetchAndDecodeViaTurboStream,
ssr,
basename
);
return async (args) => args.runClientMiddleware(dataStrategy);
}
function getSingleFetchDataStrategyImpl(getRouter, getRouteInfo, fetchAndDecode, ssr, basename, shouldAllowOptOut = () => true) {
return async (args) => {
let { request, matches, fetcherKey } = args;
let router = getRouter();
if (request.method !== "GET") {
return singleFetchActionStrategy(args, fetchAndDecode, basename);
}
let foundRevalidatingServerLoader = matches.some((m) => {
let { hasLoader, hasClientLoader } = getRouteInfo(m);
return m.unstable_shouldCallHandler() && hasLoader && !hasClientLoader;
});
if (!ssr && !foundRevalidatingServerLoader) {
return nonSsrStrategy(args, getRouteInfo, fetchAndDecode, basename);
}
if (fetcherKey) {
return singleFetchLoaderFetcherStrategy(args, fetchAndDecode, basename);
}
return singleFetchLoaderNavigationStrategy(
args,
router,
getRouteInfo,
fetchAndDecode,
ssr,
basename,
shouldAllowOptOut
);
};
}
async function singleFetchActionStrategy(args, fetchAndDecode, basename) {
let actionMatch = args.matches.find((m) => m.unstable_shouldCallHandler());
invariant2(actionMatch, "No action match found");
let actionStatus = void 0;
let result = await actionMatch.resolve(async (handler) => {
let result2 = await handler(async () => {
let { data: data2, status } = await fetchAndDecode(args, basename, [
actionMatch.route.id
]);
actionStatus = status;
return unwrapSingleFetchResult(data2, actionMatch.route.id);
});
return result2;
});
if (isResponse(result.result) || isRouteErrorResponse(result.result) || isDataWithResponseInit(result.result)) {
return { [actionMatch.route.id]: result };
}
return {
[actionMatch.route.id]: {
type: result.type,
result: data(result.result, actionStatus)
}
};
}
async function nonSsrStrategy(args, getRouteInfo, fetchAndDecode, basename) {
let matchesToLoad = args.matches.filter(
(m) => m.unstable_shouldCallHandler()
);
let results = {};
await Promise.all(
matchesToLoad.map(
(m) => m.resolve(async (handler) => {
try {
let { hasClientLoader } = getRouteInfo(m);
let routeId = m.route.id;
let result = hasClientLoader ? await handler(async () => {
let { data: data2 } = await fetchAndDecode(args, basename, [routeId]);
return unwrapSingleFetchResult(data2, routeId);
}) : await handler();
results[m.route.id] = { type: "data", result };
} catch (e) {
results[m.route.id] = { type: "error", result: e };
}
})
)
);
return results;
}
async function singleFetchLoaderNavigationStrategy(args, router, getRouteInfo, fetchAndDecode, ssr, basename, shouldAllowOptOut = () => true) {
let routesParams = /* @__PURE__ */ new Set();
let foundOptOutRoute = false;
let routeDfds = args.matches.map(() => createDeferred2());
let singleFetchDfd = createDeferred2();
let results = {};
let resolvePromise = Promise.all(
args.matches.map(
async (m, i) => m.resolve(async (handler) => {
routeDfds[i].resolve();
let routeId = m.route.id;
let { hasLoader, hasClientLoader, hasShouldRevalidate } = getRouteInfo(m);
let defaultShouldRevalidate = !m.unstable_shouldRevalidateArgs || m.unstable_shouldRevalidateArgs.actionStatus == null || m.unstable_shouldRevalidateArgs.actionStatus < 400;
let shouldCall = m.unstable_shouldCallHandler(defaultShouldRevalidate);
if (!shouldCall) {
foundOptOutRoute || (foundOptOutRoute = m.unstable_shouldRevalidateArgs != null && // This is a revalidation,
hasLoader && // for a route with a server loader,
hasShouldRevalidate === true);
return;
}
if (shouldAllowOptOut(m) && hasClientLoader) {
if (hasLoader) {
foundOptOutRoute = true;
}
try {
let result = await handler(async () => {
let { data: data2 } = await fetchAndDecode(args, basename, [routeId]);
return unwrapSingleFetchResult(data2, routeId);
});
results[routeId] = { type: "data", result };
} catch (e) {
results[routeId] = { type: "error", result: e };
}
return;
}
if (hasLoader) {
routesParams.add(routeId);
}
try {
let result = await handler(async () => {
let data2 = await singleFetchDfd.promise;
return unwrapSingleFetchResult(data2, routeId);
});
results[routeId] = { type: "data", result };
} catch (e) {
results[routeId] = { type: "error", result: e };
}
})
)
);
await Promise.all(routeDfds.map((d) => d.promise));
let isInitialLoad = !router.state.initialized && router.state.navigation.state === "idle";
if ((isInitialLoad || routesParams.size === 0) && !window.__reactRouterHdrActive) {
singleFetchDfd.resolve({ routes: {} });
} else {
let targetRoutes = ssr && foundOptOutRoute && routesParams.size > 0 ? [...routesParams.keys()] : void 0;
try {
let data2 = await fetchAndDecode(args, basename, targetRoutes);
singleFetchDfd.resolve(data2.data);
} catch (e) {
singleFetchDfd.reject(e);
}
}
await resolvePromise;
await bubbleMiddlewareErrors(
singleFetchDfd.promise,
args.matches,
routesParams,
results
);
return results;
}
async function bubbleMiddlewareErrors(singleFetchPromise, matches, routesParams, results) {
try {
let middlewareError;
let fetchedData = await singleFetchPromise;
if ("routes" in fetchedData) {
for (let match of matches) {
if (match.route.id in fetchedData.routes) {
let routeResult = fetchedData.routes[match.route.id];
if ("error" in routeResult) {
middlewareError = routeResult.error;
if (_optionalChain([results, 'access', _68 => _68[match.route.id], 'optionalAccess', _69 => _69.result]) == null) {
results[match.route.id] = {
type: "error",
result: middlewareError
};
}
break;
}
}
}
}
if (middlewareError !== void 0) {
Array.from(routesParams.values()).forEach((routeId) => {
if (results[routeId].result instanceof SingleFetchNoResultError) {
results[routeId].result = middlewareError;
}
});
}
} catch (e) {
}
}
async function singleFetchLoaderFetcherStrategy(args, fetchAndDecode, basename) {
let fetcherMatch = args.matches.find((m) => m.unstable_shouldCallHandler());
invariant2(fetcherMatch, "No fetcher match found");
let routeId = fetcherMatch.route.id;
let result = await fetcherMatch.resolve(
async (handler) => handler(async () => {
let { data: data2 } = await fetchAndDecode(args, basename, [routeId]);
return unwrapSingleFetchResult(data2, routeId);
})
);
return { [fetcherMatch.route.id]: result };
}
function stripIndexParam(url) {
let indexValues = url.searchParams.getAll("index");
url.searchParams.delete("index");
let indexValuesToKeep = [];
for (let indexValue of indexValues) {
if (indexValue) {
indexValuesToKeep.push(indexValue);
}
}
for (let toKeep of indexValuesToKeep) {
url.searchParams.append("index", toKeep);
}
return url;
}
function singleFetchUrl(reqUrl, basename, extension) {
let url = typeof reqUrl === "string" ? new URL(
reqUrl,
// This can be called during the SSR flow via PrefetchPageLinksImpl so
// don't assume window is available
typeof window === "undefined" ? "server://singlefetch/" : window.location.origin
) : reqUrl;
if (url.pathname === "/") {
url.pathname = `_root.${extension}`;
} else if (basename && stripBasename(url.pathname, basename) === "/") {
url.pathname = `${basename.replace(/\/$/, "")}/_root.${extension}`;
} else {
url.pathname = `${url.pathname.replace(/\/$/, "")}.${extension}`;
}
return url;
}
async function fetchAndDecodeViaTurboStream(args, basename, targetRoutes) {
let { request } = args;
let url = singleFetchUrl(request.url, basename, "data");
if (request.method === "GET") {
url = stripIndexParam(url);
if (targetRoutes) {
url.searchParams.set("_routes", targetRoutes.join(","));
}
}
let res = await fetch(url, await createRequestInit(request));
if (res.status >= 400 && !res.headers.has("X-Remix-Response")) {
throw new ErrorResponseImpl(res.status, res.statusText, await res.text());
}
if (res.status === 204 && res.headers.has("X-Remix-Redirect")) {
return {
status: SINGLE_FETCH_REDIRECT_STATUS,
data: {
redirect: {
redirect: res.headers.get("X-Remix-Redirect"),
status: Number(res.headers.get("X-Remix-Status") || "302"),
revalidate: res.headers.get("X-Remix-Revalidate") === "true",
reload: res.headers.get("X-Remix-Reload-Document") === "true",
replace: res.headers.get("X-Remix-Replace") === "true"
}
}
};
}
if (NO_BODY_STATUS_CODES.has(res.status)) {
let routes = {};
if (targetRoutes && request.method !== "GET") {
routes[targetRoutes[0]] = { data: void 0 };
}
return {
status: res.status,
data: { routes }
};
}
invariant2(res.body, "No response body to decode");
try {
let decoded = await decodeViaTurboStream(res.body, window);
let data2;
if (request.method === "GET") {
let typed = decoded.value;
if (SingleFetchRedirectSymbol in typed) {
data2 = { redirect: typed[SingleFetchRedirectSymbol] };
} else {
data2 = { routes: typed };
}
} else {
let typed = decoded.value;
let routeId = _optionalChain([targetRoutes, 'optionalAccess', _70 => _70[0]]);
invariant2(routeId, "No routeId found for single fetch call decoding");
if ("redirect" in typed) {
data2 = { redirect: typed };
} else {
data2 = { routes: { [routeId]: typed } };
}
}
return { status: res.status, data: data2 };
} catch (e) {
throw new Error("Unable to decode turbo-stream response");
}
}
function decodeViaTurboStream(body, global) {
return decode(body, {
plugins: [
(type, ...rest) => {
if (type === "SanitizedError") {
let [name, message, stack] = rest;
let Constructor = Error;
if (name && name in global && typeof global[name] === "function") {
Constructor = global[name];
}
let error = new Constructor(message);
error.stack = stack;
return { value: error };
}
if (type === "ErrorResponse") {
let [data2, status, statusText] = rest;
return {
value: new ErrorResponseImpl(status, statusText, data2)
};
}
if (type === "SingleFetchRedirect") {
return { value: { [SingleFetchRedirectSymbol]: rest[0] } };
}
if (type === "SingleFetchClassInstance") {
return { value: rest[0] };
}
if (type === "SingleFetchFallback") {
return { value: void 0 };
}
}
]
});
}
function unwrapSingleFetchResult(result, routeId) {
if ("redirect" in result) {
let {
redirect: location,
revalidate,
reload,
replace: replace2,
status
} = result.redirect;
throw redirect(location, {
status,
headers: {
// Three R's of redirecting (lol Veep)
...revalidate ? { "X-Remix-Revalidate": "yes" } : null,
...reload ? { "X-Remix-Reload-Document": "yes" } : null,
...replace2 ? { "X-Remix-Replace": "yes" } : null
}
});
}
let routeResult = result.routes[routeId];
if (routeResult == null) {
throw new SingleFetchNoResultError(
`No result found for routeId "${routeId}"`
);
} else if ("error" in routeResult) {
throw routeResult.error;
} else if ("data" in routeResult) {
return routeResult.data;
} else {
throw new Error(`Invalid response found for routeId "${routeId}"`);
}
}
function createDeferred2() {
let resolve;
let reject;
let promise = new Promise((res, rej) => {
resolve = async (val) => {
res(val);
try {
await promise;
} catch (e) {
}
};
reject = async (error) => {
rej(error);
try {
await promise;
} catch (e) {
}
};
});
return {
promise,
//@ts-ignore
resolve,
//@ts-ignore
reject
};
}
// lib/context.ts
var DataRouterContext = React2.createContext(null);
DataRouterContext.displayName = "DataRouter";
var DataRouterStateContext = React2.createContext(null);
DataRouterStateContext.displayName = "DataRouterState";
var RSCRouterContext = React2.createContext(false);
function useIsRSCRouterContext() {
return React2.useContext(RSCRouterContext);
}
var ViewTransitionContext = React2.createContext({
isTransitioning: false
});
ViewTransitionContext.displayName = "ViewTransition";
var FetchersContext = React2.createContext(
/* @__PURE__ */ new Map()
);
FetchersContext.displayName = "Fetchers";
var AwaitContext = React2.createContext(null);
AwaitContext.displayName = "Await";
var AwaitContextProvider = (props) => React2.createElement(AwaitContext.Provider, props);
var NavigationContext = React2.createContext(
null
);
NavigationContext.displayName = "Navigation";
var LocationContext = React2.createContext(
null
);
LocationContext.displayName = "Location";
var RouteContext = React2.createContext({
outlet: null,
matches: [],
isDataRoute: false
});
RouteContext.displayName = "Route";
var RouteErrorContext = React2.createContext(null);
RouteErrorContext.displayName = "RouteError";
var ENABLE_DEV_WARNINGS = true;
// lib/hooks.tsx
function useHref(to, { relative } = {}) {
invariant(
useInRouterContext(),
// 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.`
);
let { basename, navigator } = React3.useContext(NavigationContext);
let { hash, pathname, search } = useResolvedPath(to, { relative });
let joinedPathname = pathname;
if (basename !== "/") {
joinedPathname = pathname === "/" ? basename : joinPaths([basename, pathname]);
}
return navigator.createHref({ pathname: joinedPathname, search, hash });
}
function useInRouterContext() {
return React3.useContext(LocationContext) != null;
}
function useLocation() {
invariant(
useInRouterContext(),
// 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.`
);
return React3.useContext(LocationContext).location;
}
function useNavigationType() {
return React3.useContext(LocationContext).navigationType;
}
function useMatch(pattern) {
invariant(
useInRouterContext(),
// 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.`
);
let { pathname } = useLocation();
return React3.useMemo(
() => matchPath(pattern, decodePath(pathname)),
[pathname, pattern]
);
}
var navigateEffectWarning = `You should call navigate() in a React.useEffect(), not when your component is first rendered.`;
function useIsomorphicLayoutEffect(cb) {
let isStatic = React3.useContext(NavigationContext).static;
if (!isStatic) {
React3.useLayoutEffect(cb);
}
}
function useNavigate() {
let { isDataRoute } = React3.useContext(RouteContext);
return isDataRoute ? useNavigateStable() : useNavigateUnstable();
}
function useNavigateUnstable() {
invariant(
useInRouterContext(),
// 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.`
);
let dataRouterContext = React3.useContext(DataRouterContext);
let { basename, navigator } = React3.useContext(NavigationContext);
let { matches } = React3.useContext(RouteContext);
let { pathname: locationPathname } = useLocation();
let routePathnamesJson = JSON.stringify(getResolveToMatches(matches));
let activeRef = React3.useRef(false);
useIsomorphicLayoutEffect(() => {
activeRef.current = true;
});
let navigate = React3.useCallback(
(to, options = {}) => {
warning(activeRef.current, navigateEffectWarning);
if (!activeRef.current) return;
if (typeof to === "number") {
navigator.go(to);
return;
}
let path = resolveTo(
to,
JSON.parse(routePathnamesJson),
locationPathname,
options.relative === "path"
);
if (dataRouterContext == null && basename !== "/") {
path.pathname = path.pathname === "/" ? basename : joinPaths([basename, path.pathname]);
}
(!!options.replace ? navigator.replace : navigator.push)(
path,
options.state,
options
);
},
[
basename,
navigator,
routePathnamesJson,
locationPathname,
dataRouterContext
]
);
return navigate;
}
var OutletContext = React3.createContext(null);
function useOutletContext() {
return React3.useContext(OutletContext);
}
function useOutlet(context) {
let outlet = React3.useContext(RouteContext).outlet;
return React3.useMemo(
() => outlet && /* @__PURE__ */ React3.createElement(OutletContext.Provider, { value: context }, outlet),
[outlet, context]
);
}
function useParams() {
let { matches } = React3.useContext(RouteContext);
let routeMatch = matches[matches.length - 1];
return routeMatch ? routeMatch.params : {};
}
function useResolvedPath(to, { relative } = {}) {
let { matches } = React3.useContext(RouteContext);
let { pathname: locationPathname } = useLocation();
let routePathnamesJson = JSON.stringify(getResolveToMatches(matches));
return React3.useMemo(
() => resolveTo(
to,
JSON.parse(routePathnamesJson),
locationPathname,
relative === "path"
),
[to, routePathnamesJson, locationPathname, relative]
);
}
function useRoutes(routes, locationArg) {
return useRoutesImpl(routes, locationArg);
}
function useRoutesImpl(routes, locationArg, dataRouterState, unstable_onError, future) {
invariant(
useInRouterContext(),
// 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.`
);
let { navigator } = React3.useContext(NavigationContext);
let { matches: parentMatches } = React3.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;
if (ENABLE_DEV_WARNINGS) {
let parentPath = parentRoute && parentRoute.path || "";
warningOnce(
parentPathname,
!parentRoute || parentPath.endsWith("*") || parentPath.endsWith("*?"),
`You rendered descendant <Routes> (or called \`useRoutes()\`) at "${parentPathname}" (under <Route path="${parentPath}">) but the parent route path has no trailing "*". This means if you navigate deeper, the parent won't match anymore and therefore the child routes will never render.
Please change the parent <Route path="${parentPath}"> to <Route path="${parentPath === "/" ? "*" : `${parentPath}/*`}">.`
);
}
let locationFromContext = useLocation();
let location;
if (locationArg) {
let parsedLocationArg = typeof locationArg === "string" ? parsePath(locationArg) : locationArg;
invariant(
parentPathnameBase === "/" || _optionalChain([parsedLocationArg, 'access', _71 => _71.pathname, 'optionalAccess', _72 => _72.startsWith, 'call', _73 => _73(parentPathnameBase)]),
`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.`
);
location = parsedLocationArg;
} else {
location = locationFromContext;
}
let pathname = location.pathname || "/";
let remainingPathname = pathname;
if (parentPathnameBase !== "/") {
let parentSegments = parentPathnameBase.replace(/^\//, "").split("/");
let segments = pathname.replace(/^\//, "").split("/");
remainingPathname = "/" + segments.slice(parentSegments.length).join("/");
}
let matches = matchRoutes(routes, { pathname: remainingPathname });
if (ENABLE_DEV_WARNINGS) {
warning(
parentRoute || matches != null,
`No routes matched location "${location.pathname}${location.search}${location.hash}" `
);
warning(
matches == null || matches[matches.length - 1].route.element !== void 0 || matches[matches.length - 1].route.Component !== void 0 || matches[matches.length - 1].route.lazy !== void 0,
`Matched leaf route at location "${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: joinPaths([
parentPathnameBase,
// Re-encode pathnames that were decoded inside matchRoutes.
// Pre-encode `?` and `#` ahead of `encodeLocation` because it uses
// `new URL()` internally and we need to prevent it from treating
// them as separators
navigator.encodeLocation ? navigator.encodeLocation(
match.pathname.replace(/\?/g, "%3F").replace(/#/g, "%23")
).pathname : match.pathname
]),
pathnameBase: match.pathnameBase === "/" ? parentPathnameBase : joinPaths([
parentPathnameBase,
// Re-encode pathnames that were decoded inside matchRoutes
// Pre-encode `?` and `#` ahead of `encodeLocation` because it uses
// `new URL()` internally and we need to prevent it from treating
// them as separators
navigator.encodeLocation ? navigator.encodeLocation(
match.pathnameBase.replace(/\?/g, "%3F").replace(/#/g, "%23")
).pathname : match.pathnameBase
])
})
),
parentMatches,
dataRouterState,
unstable_onError,
future
);
if (locationArg && renderedMatches) {
return /* @__PURE__ */ React3.createElement(
LocationContext.Provider,
{
value: {
location: {
pathname: "/",
search: "",
hash: "",
state: null,
key: "default",
...location
},
navigationType: "POP" /* Pop */
}
},
renderedMatches
);
}
return renderedMatches;
}
function DefaultErrorComponent() {
let error = useRouteError();
let message = 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;
if (ENABLE_DEV_WARNINGS) {
console.error(
"Error handled by React Router default ErrorBoundary:",
error
);
devInfo = /* @__PURE__ */ React3.createElement(React3.Fragment, null, /* @__PURE__ */ React3.createElement("p", null, "\u{1F4BF} Hey developer \u{1F44B}"), /* @__PURE__ */ React3.createElement("p", null, "You can provide a way better UX than this when your app throws errors by providing your own ", /* @__PURE__ */ React3.createElement("code", { style: codeStyles }, "ErrorBoundary"), " or", " ", /* @__PURE__ */ React3.createElement("code", { style: codeStyles }, "errorElement"), " prop on your route."));
}
return /* @__PURE__ */ React3.createElement(React3.Fragment, null, /* @__PURE__ */ React3.createElement("h2", null, "Unexpected Application Error!"), /* @__PURE__ */ React3.createElement("h3", { style: { fontStyle: "italic" } }, message), stack ? /* @__PURE__ */ React3.createElement("pre", { style: preStyles }, stack) : null, devInfo);
}
var defaultErrorElement = /* @__PURE__ */ React3.createElement(DefaultErrorComponent, null);
var RenderErrorBoundary = class extends React3.Component {
constructor(props) {
super(props);
this.state = {
location: props.location,
revalidation: props.revalidation,
error: props.error
};
}
static getDerivedStateFromError(error) {
return { error };
}
static getDerivedStateFromProps(props, state) {
if (state.location !== props.location || state.revalidation !== "idle" && props.revalidation === "idle") {
return {
error: props.error,
location: props.location,
revalidation: props.revalidation
};
}
return {
error: props.error !== void 0 ? props.error : state.error,
location: state.location,
revalidation: props.revalidation || state.revalidation
};
}
componentDidCatch(error, errorInfo) {
if (this.props.onError) {
this.props.onError(error, errorInfo);
} else {
console.error(
"React Router caught the following error during render",
error
);
}
}
render() {
return this.state.error !== void 0 ? /* @__PURE__ */ React3.createElement(RouteContext.Provider, { value: this.props.routeContext }, /* @__PURE__ */ React3.createElement(
RouteErrorContext.Provider,
{
value: this.state.error,
children: this.props.component
}
)) : this.props.children;
}
};
function RenderedRoute({ routeContext, match, children }) {
let dataRouterContext = React3.useContext(DataRouterContext);
if (dataRouterContext && dataRouterContext.static && dataRouterContext.staticContext && (match.route.errorElement || match.route.ErrorBoundary)) {
dataRouterContext.staticContext._deepestRenderedBoundaryId = match.route.id;
}
return /* @__PURE__ */ React3.createElement(RouteContext.Provider, { value: routeContext }, children);
}
function _renderMatches(matches, parentMatches = [], dataRouterState = null, unstable_onError = null, future = null) {
if (matches == null) {
if (!dataRouterState) {
return null;
}
if (dataRouterState.errors) {
matches = dataRouterState.matches;
} else if (parentMatches.length === 0 && !dataRouterState.initialized && dataRouterState.matches.length > 0) {
matches = dataRouterState.matches;
} else {
return null;
}
}
let renderedMatches = matches;
let errors = _optionalChain([dataRouterState, 'optionalAccess', _74 => _74.errors]);
if (errors != null) {
let errorIndex = renderedMatches.findIndex(
(m) => m.route.id && _optionalChain([errors, 'optionalAccess', _75 => _75[m.route.id]]) !== void 0
);
invariant(
errorIndex >= 0,
`Could not find a matching route for errors on route IDs: ${Object.keys(
errors
).join(",")}`
);
renderedMatches = renderedMatches.slice(
0,
Math.min(renderedMatches.length, errorIndex + 1)
);
}
let renderFallback = false;
let fallbackIndex = -1;
if (dataRouterState) {
for (let i = 0; i < renderedMatches.length; i++) {
let match = renderedMatches[i];
if (match.route.HydrateFallback || match.route.hydrateFallbackElement) {
fallbackIndex = i;
}
if (match.route.id) {
let { loaderData, errors: errors2 } = dataRouterState;
let needsToRunLoader = match.route.loader && !loaderData.hasOwnProperty(match.route.id) && (!errors2 || errors2[match.route.id] === void 0);
if (match.route.lazy || needsToRunLoader) {
renderFallback = true;
if (fallbackIndex >= 0) {
renderedMatches = renderedMatches.slice(0, fallbackIndex + 1);
} else {
renderedMatches = [renderedMatches[0]];
}
break;
}
}
}
}
let onError = dataRouterState && unstable_onError ? (error, errorInfo) => {
unstable_onError(error, {
location: dataRouterState.location,
params: _nullishCoalesce(_optionalChain([dataRouterState, 'access', _76 => _76.matches, 'optionalAccess', _77 => _77[0], 'optionalAccess', _78 => _78.params]), () => ( {})),
errorInfo
});
} : void 0;
return renderedMatches.reduceRight(
(outlet, match, index) => {
let error;
let shouldRenderHydrateFallback = false;
let errorElement = null;
let hydrateFallbackElement = null;
if (dataRouterState) {
error = errors && match.route.id ? errors[match.route.id] : void 0;
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 matches2 = 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) {
children = /* @__PURE__ */ React3.createElement(match.route.Component, null);
} else if (match.route.element) {
children = match.route.element;
} else {
children = outlet;
}
return /* @__PURE__ */ React3.createElement(
RenderedRoute,
{
match,
routeContext: {
outlet,
matches: matches2,
isDataRoute: dataRouterState != null
},
children
}
);
};
return dataRouterState && (match.route.ErrorBoundary || match.route.errorElement || index === 0) ? /* @__PURE__ */ React3.createElement(
RenderErrorBoundary,
{
location: dataRouterState.location,
revalidation: dataRouterState.revalidation,
component: errorElement,
error,
children: getChildren(),
routeContext: { outlet: null, matches: matches2, isDataRoute: true },
onError
}
) : getChildren();
},
null
);
}
function getDataRouterConsoleError(hookName) {
return `${hookName} must be used within a data router. See https://reactrouter.com/en/main/routers/picking-a-router.`;
}
function useDataRouterContext(hookName) {
let ctx = React3.useContext(DataRouterContext);
invariant(ctx, getDataRouterConsoleError(hookName));
return ctx;
}
function useDataRouterState(hookName) {
let state = React3.useContext(DataRouterStateContext);
invariant(state, getDataRouterConsoleError(hookName));
return state;
}
function useRouteContext(hookName) {
let route = React3.useContext(RouteContext);
invariant(route, getDataRouterConsoleError(hookName));
return route;
}
function useCurrentRouteId(hookName) {
let route = useRouteContext(hookName);
let thisRoute = route.matches[route.matches.length - 1];
invariant(
thisRoute.route.id,
`${hookName} can only be used on routes that contain a unique "id"`
);
return thisRoute.route.id;
}
function useRouteId() {
return useCurrentRouteId("useRouteId" /* UseRouteId */);
}
function useNavigation() {
let state = useDataRouterState("useNavigation" /* UseNavigation */);
return state.navigation;
}
function useRevalidator() {
let dataRouterContext = useDataRouterContext("useRevalidator" /* UseRevalidator */);
let state = useDataRouterState("useRevalidator" /* UseRevalidator */);
let revalidate = React3.useCallback(async () => {
await dataRouterContext.router.revalidate();
}, [dataRouterContext.router]);
return React3.useMemo(
() => ({ revalidate, state: state.revalidation }),
[revalidate, state.revalidation]
);
}
function useMatches() {
let { matches, loaderData } = useDataRouterState(
"useMatches" /* UseMatches */
);
return React3.useMemo(
() => matches.map((m) => convertRouteMatchToUiMatch(m, loaderData)),
[matches, loaderData]
);
}
function useLoaderData() {
let state = useDataRouterState("useLoaderData" /* UseLoaderData */);
let routeId = useCurrentRouteId("useLoaderData" /* UseLoaderData */);
return state.loaderData[routeId];
}
function useRouteLoaderData(routeId) {
let state = useDataRouterState("useRouteLoaderData" /* UseRouteLoaderData */);
return state.loaderData[routeId];
}
function useActionData() {
let state = useDataRouterState("useActionData" /* UseActionData */);
let routeId = useCurrentRouteId("useLoaderData" /* UseLoaderData */);
return state.actionData ? state.actionData[routeId] : void 0;
}
function useRouteError() {
let error = React3.useContext(RouteErrorContext);
let state = useDataRouterState("useRouteError" /* UseRouteError */);
let routeId = useCurrentRouteId("useRouteError" /* UseRouteError */);
if (error !== void 0) {
return error;
}
return _optionalChain([state, 'access', _79 => _79.errors, 'optionalAccess', _80 => _80[routeId]]);
}
function useAsyncValue() {
let value = React3.useContext(AwaitContext);
return _optionalChain([value, 'optionalAccess', _81 => _81._data]);
}
function useAsyncError() {
let value = React3.useContext(AwaitContext);
return _optionalChain([value, 'optionalAccess', _82 => _82._error]);
}
var blockerId = 0;
function useBlocker(shouldBlock) {
let { router, basename } = useDataRouterContext("useBlocker" /* UseBlocker */);
let state = useDataRouterState("useBlocker" /* UseBlocker */);
let [blockerKey, setBlockerKey] = React3.useState("");
let blockerFunction = React3.useCallback(
(arg) => {
if (typeof shouldBlock !== "function") {
return !!shouldBlock;
}
if (basename === "/") {
return shouldBlock(arg);
}
let { currentLocation, nextLocation, historyAction } = arg;
return shouldBlock({
currentLocation: {
...currentLocation,
pathname: stripBasename(currentLocation.pathname, basename) || currentLocation.pathname
},
nextLocation: {
...nextLocation,
pathname: stripBasename(nextLocation.pathname, basename) || nextLocation.pathname
},
historyAction
});
},
[basename, shouldBlock]
);
React3.useEffect(() => {
let key = String(++blockerId);
setBlockerKey(key);
return () => router.deleteBlocker(key);
}, [router]);
React3.useEffect(() => {
if (blockerKey !== "") {
router.getBlocker(blockerKey, blockerFunction);
}
}, [router, blockerKey, blockerFunction]);
return blockerKey && state.blockers.has(blockerKey) ? state.blockers.get(blockerKey) : IDLE_BLOCKER;
}
function useNavigateStable() {
let { router } = useDataRouterContext("useNavigate" /* UseNavigateStable */);
let id = useCurrentRouteId("useNavigate" /* UseNavigateStable */);
let activeRef = React3.useRef(false);
useIsomorphicLayoutEffect(() => {
activeRef.current = true;
});
let navigate = React3.useCallback(
async (to, options = {}) => {
warning(activeRef.current, navigateEffectWarning);
if (!activeRef.current) return;
if (typeof to === "number") {
router.navigate(to);
} else {
await router.navigate(to, { fromRouteId: id, ...options });
}
},
[router, id]
);
return navigate;
}
var alreadyWarned = {};
function warningOnce(key, cond, message) {
if (!cond && !alreadyWarned[key]) {
alreadyWarned[key] = true;
warning(false, message);
}
}
function useRoute(...args) {
const currentRouteId = useCurrentRouteId(
"useRoute" /* UseRoute */
);
const id = _nullishCoalesce(args[0], () => ( currentRouteId));
const state = useDataRouterState("useRoute" /* UseRoute */);
const route = state.matches.find(({ route: route2 }) => route2.id === id);
if (route === void 0) return void 0;
return {
handle: route.route.handle,
loaderData: state.loaderData[id],
actionData: _optionalChain([state, 'access', _83 => _83.actionData, 'optionalAccess', _84 => _84[id]])
};
}
// lib/dom/ssr/errorBoundaries.tsx
// lib/dom/ssr/components.tsx
// lib/dom/ssr/routeModules.ts
async function loadRouteModule(route, routeModulesCache) {
if (route.id in routeModulesCache) {
return routeModulesCache[route.id];
}
try {
let routeModule = await Promise.resolve().then(() => _interopRequireWildcard(require(
/* @vite-ignore */
/* webpackIgnore: true */
route.module
)));
routeModulesCache[route.id] = routeModule;
return routeModule;
} catch (error) {
console.error(
`Error loading route module \`${route.module}\`, reloading page...`
);
console.error(error);
if (window.__reactRouterContext && window.__reactRouterContext.isSpaMode && // @ts-expect-error
void 0) {
throw error;
}
window.location.reload();
return new Promise(() => {
});
}
}
// lib/dom/ssr/links.ts
function getKeyedLinksForMatches(matches, routeModules, manifest) {
let descriptors = matches.map((match) => {
let module = routeModules[match.route.id];
let route = manifest.routes[match.route.id];
return [
route && route.css ? route.css.map((href) => ({ rel: "stylesheet", href })) : [],
_optionalChain([module, 'optionalAccess', _85 => _85.links, 'optionalCall', _86 => _86()]) || []
];
}).flat(2);
let preloads = getModuleLinkHrefs(matches, manifest);
return dedupeLinkDescriptors(descriptors, preloads);
}
function getRouteCssDescriptors(route) {
if (!route.css) return [];
return route.css.map((href) => ({ rel: "stylesheet", href }));
}
async function prefetchRouteCss(route) {
if (!route.css) return;
let descriptors = getRouteCssDescriptors(route);
await Promise.all(descriptors.map(prefetchStyleLink));
}
async function prefetchStyleLinks(route, routeModule) {
if (!route.css && !routeModule.links || !isPreloadSupported()) return;
let descriptors = [];
if (route.css) {
descriptors.push(...getRouteCssDescriptors(route));
}
if (routeModule.links) {
descriptors.push(...routeModule.links());
}
if (descriptors.length === 0) return;
let styleLinks = [];
for (let descriptor of descriptors) {
if (!isPageLinkDescriptor(descriptor) && descriptor.rel === "stylesheet") {
styleLinks.push({
...descriptor,
rel: "preload",
as: "style"
});
}
}
await Promise.all(styleLinks.map(prefetchStyleLink));
}
async function prefetchStyleLink(descriptor) {
return new Promise((resolve) => {
if (descriptor.media && !window.matchMedia(descriptor.media).matches || document.querySelector(
`link[rel="stylesheet"][href="${descriptor.href}"]`
)) {
return resolve();
}
let link = document.createElement("link");
Object.assign(link, descriptor);
function removeLink() {
if (document.head.contains(link)) {
document.head.removeChild(link);
}
}
link.onload = () => {
removeLink();
resolve();
};
link.onerror = () => {
removeLink();
resolve();
};
document.head.appendChild(link);
});
}
function isPageLinkDescriptor(object) {
return object != null && typeof object.page === "string";
}
function isHtmlLinkDescriptor(object) {
if (object == null) {
return false;
}
if (object.href == null) {
return object.rel === "preload" && typeof object.imageSrcSet === "string" && typeof object.imageSizes === "string";
}
return typeof object.rel === "string" && typeof object.href === "string";
}
async function getKeyedPrefetchLinks(matches, manifest, routeModules) {
let links = await Promise.all(
matches.map(async (match) => {
let route = manifest.routes[match.route.id];
if (route) {
let mod = await loadRouteModule(route, routeModules);
return mod.links ? mod.links() : [];
}
return [];
})
);
return dedupeLinkDescriptors(
links.flat(1).filter(isHtmlLinkDescriptor).filter((link) => link.rel === "stylesheet" || link.rel === "preload").map(
(link) => link.rel === "stylesheet" ? { ...link, rel: "prefetch", as: "style" } : { ...link, rel: "prefetch" }
)
);
}
function getNewMatchesForLinks(page, nextMatches, currentMatches, manifest, location, mode) {
let isNew = (match, index) => {
if (!currentMatches[index]) return true;
return match.route.id !== currentMatches[index].route.id;
};
let matchPathChanged = (match, index) => {
return (
// param change, /users/123 -> /users/456
currentMatches[index].pathname !== match.pathname || // splat param changed, which is not present in match.path
// e.g. /files/images/avatar.jpg -> files/finances.xls
_optionalChain([currentMatches, 'access', _87 => _87[index], 'access', _88 => _88.route, 'access', _89 => _89.path, 'optionalAccess', _90 => _90.endsWith, 'call', _91 => _91("*")]) && currentMatches[index].params["*"] !== match.params["*"]
);
};
if (mode === "assets") {
return nextMatches.filter(
(match, index) => isNew(match, index) || matchPathChanged(match, index)
);
}
if (mode === "data") {
return nextMatches.filter((match, index) => {
let manifestRoute = manifest.routes[match.route.id];
if (!manifestRoute || !manifestRoute.hasLoader) {
return false;
}
if (isNew(match, index) || matchPathChanged(match, index)) {
return true;
}
if (match.route.shouldRevalidate) {
let routeChoice = match.route.shouldRevalidate({
currentUrl: new URL(
location.pathname + location.search + location.hash,
window.origin
),
currentParams: _optionalChain([currentMatches, 'access', _92 => _92[0], 'optionalAccess', _93 => _93.params]) || {},
nextUrl: new URL(page, window.origin),
nextParams: match.params,
defaultShouldRevalidate: true
});
if (typeof routeChoice === "boolean") {
return routeChoice;
}
}
return true;
});
}
return [];
}
function getModuleLinkHrefs(matches, manifest, { includeHydrateFallback } = {}) {
return dedupeHrefs(
matches.map((match) => {
let route = manifest.routes[match.route.id];
if (!route) return [];
let hrefs = [route.module];
if (route.clientActionModule) {
hrefs = hrefs.concat(route.clientActionModule);
}
if (route.clientLoaderModule) {
hrefs = hrefs.concat(route.clientLoaderModule);
}
if (includeHydrateFallback && route.hydrateFallbackModule) {
hrefs = hrefs.concat(route.hydrateFallbackModule);
}
if (route.imports) {
hrefs = hrefs.concat(route.imports);
}
return hrefs;
}).flat(1)
);
}
function dedupeHrefs(hrefs) {
return [...new Set(hrefs)];
}
function sortKeys(obj) {
let sorted = {};
let keys = Object.keys(obj).sort();
for (let key of keys) {
sorted[key] = obj[key];
}
return sorted;
}
function dedupeLinkDescriptors(descriptors, preloads) {
let set = /* @__PURE__ */ new Set();
let preloadsSet = new Set(preloads);
return descriptors.reduce((deduped, descriptor) => {
let alreadyModulePreload = preloads && !isPageLinkDescriptor(descriptor) && descriptor.as === "script" && descriptor.href && preloadsSet.has(descriptor.href);
if (alreadyModulePreload) {
return deduped;
}
let key = JSON.stringify(sortKeys(descriptor));
if (!set.has(key)) {
set.add(key);
deduped.push({ key, link: descriptor });
}
return deduped;
}, []);
}
var _isPreloadSupported;
function isPreloadSupported() {
if (_isPreloadSupported !== void 0) {
return _isPreloadSupported;
}
let el = document.createElement("link");
_isPreloadSupported = el.relList.supports("preload");
el = null;
return _isPreloadSupported;
}
// lib/server-runtime/warnings.ts
var alreadyWarned2 = {};
function warnOnce(condition, message) {
if (!condition && !alreadyWarned2[message]) {
alreadyWarned2[message] = true;
console.warn(message);
}
}
// lib/dom/ssr/fog-of-war.ts
// lib/dom/ssr/routes.tsx
// lib/dom/ssr/fallback.tsx
function RemixRootDefaultHydrateFallback() {
return /* @__PURE__ */ React4.createElement(BoundaryShell, { title: "Loading...", renderScripts: true }, ENABLE_DEV_WARNINGS ? /* @__PURE__ */ React4.createElement(
"script",
{
dangerouslySetInnerHTML: {
__html: `
console.log(
"\u{1F4BF} Hey developer \u{1F44B}. You can provide a way better UX than this " +
"when your app is loading JS modules and/or running \`clientLoader\` " +
"functions. Check out https://reactrouter.com/start/framework/route-module#hydratefallback " +
"for more information."
);
`
}
}
) : null);
}
// lib/dom/ssr/routes.tsx
function groupRoutesByParentId(manifest) {
let routes = {};
Object.values(manifest).forEach((route) => {
if (route) {
let parentId = route.parentId || "";
if (!routes[parentId]) {
routes[parentId] = [];
}
routes[parentId].push(route);
}
});
return routes;
}
function getRouteComponents(route, routeModule, isSpaMode) {
let Component4 = getRouteModuleComponent(routeModule);
let HydrateFallback = routeModule.HydrateFallback && (!isSpaMode || route.id === "root") ? routeModule.HydrateFallback : route.id === "root" ? RemixRootDefaultHydrateFallback : void 0;
let ErrorBoundary = routeModule.ErrorBoundary ? routeModule.ErrorBoundary : route.id === "root" ? () => /* @__PURE__ */ React5.createElement(RemixRootDefaultErrorBoundary, { error: useRouteError() }) : void 0;
if (route.id === "root" && routeModule.Layout) {
return {
...Component4 ? {
element: /* @__PURE__ */ React5.createElement(routeModule.Layout, null, /* @__PURE__ */ React5.createElement(Component4, null))
} : { Component: Component4 },
...ErrorBoundary ? {
errorElement: /* @__PURE__ */ React5.createElement(routeModule.Layout, null, /* @__PURE__ */ React5.createElement(ErrorBoundary, null))
} : { ErrorBoundary },
...HydrateFallback ? {
hydrateFallbackElement: /* @__PURE__ */ React5.createElement(routeModule.Layout, null, /* @__PURE__ */ React5.createElement(HydrateFallback, null))
} : { HydrateFallback }
};
}
return { Component: Component4, ErrorBoundary, HydrateFallback };
}
function createServerRoutes(manifest, routeModules, future, isSpaMode, parentId = "", routesByParentId = groupRoutesByParentId(manifest), spaModeLazyPromise = Promise.resolve({ Component: () => null })) {
return (routesByParentId[parentId] || []).map((route) => {
let routeModule = routeModules[route.id];
invariant2(
routeModule,
"No `routeModule` available to create server routes"
);
let dataRoute = {
...getRouteComponents(route, routeModule, isSpaMode),
caseSensitive: route.caseSensitive,
id: route.id,
index: route.index,
path: route.path,
handle: routeModule.handle,
// For SPA Mode, all routes are lazy except root. However we tell the
// router root is also lazy here too since we don't need a full
// implementation - we just need a `lazy` prop to tell the RR rendering
// where to stop which is always at the root route in SPA mode
lazy: isSpaMode ? () => spaModeLazyPromise : void 0,
// For partial hydration rendering, we need to indicate when the route
// has a loader/clientLoader, but it won't ever be called during the static
// render, so just give it a no-op function so we can render down to the
// proper fallback
loader: route.hasLoader || route.hasClientLoader ? () => null : void 0
// We don't need middleware/action/shouldRevalidate on these routes since
// they're for a static render
};
let children = createServerRoutes(
manifest,
routeModules,
future,
isSpaMode,
route.id,
routesByParentId,
spaModeLazyPromise
);
if (children.length > 0) dataRoute.children = children;
return dataRoute;
});
}
function createClientRoutesWithHMRRevalidationOptOut(needsRevalidation, manifest, routeModulesCache, initialState, ssr, isSpaMode) {
return createClientRoutes(
manifest,
routeModulesCache,
initialState,
ssr,
isSpaMode,
"",
groupRoutesByParentId(manifest),
needsRevalidation
);
}
function preventInvalidServerHandlerCall(type, route) {
if (type === "loader" && !route.hasLoader || type === "action" && !route.hasAction) {
let fn = type === "action" ? "serverAction()" : "serverLoader()";
let msg = `You are trying to call ${fn} on a route that does not have a server ${type} (routeId: "${route.id}")`;
console.error(msg);
throw new ErrorResponseImpl(400, "Bad Request", new Error(msg), true);
}
}
function noActionDefinedError(type, routeId) {
let article = type === "clientAction" ? "a" : "an";
let msg = `Route "${routeId}" does not have ${article} ${type}, but you are trying to submit to it. To fix this, please add ${article} \`${type}\` function to the route`;
console.error(msg);
throw new ErrorResponseImpl(405, "Method Not Allowed", new Error(msg), true);
}
function createClientRoutes(manifest, routeModulesCache, initialState, ssr, isSpaMode, parentId = "", routesByParentId = groupRoutesByParentId(manifest), needsRevalidation) {
return (routesByParentId[parentId] || []).map((route) => {
let routeModule = routeModulesCache[route.id];
function fetchServerHandler(singleFetch) {
invariant2(
typeof singleFetch === "function",
"No single fetch function available for route handler"
);
return singleFetch();
}
function fetchServerLoader(singleFetch) {
if (!route.hasLoader) return Promise.resolve(null);
return fetchServerHandler(singleFetch);
}
function fetchServerAction(singleFetch) {
if (!route.hasAction) {
throw noActionDefinedError("action", route.id);
}
return fetchServerHandler(singleFetch);
}
function prefetchModule(modulePath) {
Promise.resolve().then(() => _interopRequireWildcard(require(
/* @vite-ignore */
/* webpackIgnore: true */
modulePath
)));
}
function prefetchRouteModuleChunks(route2) {
if (route2.clientActionModule) {
prefetchModule(route2.clientActionModule);
}
if (route2.clientLoaderModule) {
prefetchModule(route2.clientLoaderModule);
}
}
async function prefetchStylesAndCallHandler(handler) {
let cachedModule = routeModulesCache[route.id];
let linkPrefetchPromise = cachedModule ? prefetchStyleLinks(route, cachedModule) : Promise.resolve();
try {
return handler();
} finally {
await linkPrefetchPromise;
}
}
let dataRoute = {
id: route.id,
index: route.index,
path: route.path
};
if (routeModule) {
Object.assign(dataRoute, {
...dataRoute,
...getRouteComponents(route, routeModule, isSpaMode),
middleware: routeModule.clientMiddleware,
handle: routeModule.handle,
shouldRevalidate: getShouldRevalidateFunction(
dataRoute.path,
routeModule,
route,
ssr,
needsRevalidation
)
});
let hasInitialData = initialState && initialState.loaderData && route.id in initialState.loaderData;
let initialData = hasInitialData ? _optionalChain([initialState, 'optionalAccess', _94 => _94.loaderData, 'optionalAccess', _95 => _95[route.id]]) : void 0;
let hasInitialError = initialState && initialState.errors && route.id in initialState.errors;
let initialError = hasInitialError ? _optionalChain([initialState, 'optionalAccess', _96 => _96.errors, 'optionalAccess', _97 => _97[route.id]]) : void 0;
let isHydrationRequest = needsRevalidation == null && (_optionalChain([routeModule, 'access', _98 => _98.clientLoader, 'optionalAccess', _99 => _99.hydrate]) === true || !route.hasLoader);
dataRoute.loader = async ({ request, params, context, unstable_pattern }, singleFetch) => {
try {
let result = await prefetchStylesAndCallHandler(async () => {
invariant2(
routeModule,
"No `routeModule` available for critical-route loader"
);
if (!routeModule.clientLoader) {
return fetchServerLoader(singleFetch);
}
return routeModule.clientLoader({
request,
params,
context,
unstable_pattern,
async serverLoader() {
preventInvalidServerHandlerCall("loader", route);
if (isHydrationRequest) {
if (hasInitialData) {
return initialData;
}
if (hasInitialError) {
throw initialError;
}
}
return fetchServerLoader(singleFetch);
}
});
});
return result;
} finally {
isHydrationRequest = false;
}
};
dataRoute.loader.hydrate = shouldHydrateRouteLoader(
route.id,
routeModule.clientLoader,
route.hasLoader,
isSpaMode
);
dataRoute.action = ({ request, params, context, unstable_pattern }, singleFetch) => {
return prefetchStylesAndCallHandler(async () => {
invariant2(
routeModule,
"No `routeModule` available for critical-route action"
);
if (!routeModule.clientAction) {
if (isSpaMode) {
throw noActionDefinedError("clientAction", route.id);
}
return fetchServerAction(singleFetch);
}
return routeModule.clientAction({
request,
params,
context,
unstable_pattern,
async serverAction() {
preventInvalidServerHandlerCall("action", route);
return fetchServerAction(singleFetch);
}
});
});
};
} else {
if (!route.hasClientLoader) {
dataRoute.loader = (_, singleFetch) => prefetchStylesAndCallHandler(() => {
return fetchServerLoader(singleFetch);
});
}
if (!route.hasClientAction) {
dataRoute.action = (_, singleFetch) => prefetchStylesAndCallHandler(() => {
if (isSpaMode) {
throw noActionDefinedError("clientAction", route.id);
}
return fetchServerAction(singleFetch);
});
}
let lazyRoutePromise;
async function getLazyRoute() {
if (lazyRoutePromise) {
return await lazyRoutePromise;
}
lazyRoutePromise = (async () => {
if (route.clientLoaderModule || route.clientActionModule) {
await new Promise((resolve) => setTimeout(resolve, 0));
}
let routeModulePromise = loadRouteModuleWithBlockingLinks(
route,
routeModulesCache
);
prefetchRouteModuleChunks(route);
return await routeModulePromise;
})();
return await lazyRoutePromise;
}
dataRoute.lazy = {
loader: route.hasClientLoader ? async () => {
let { clientLoader } = route.clientLoaderModule ? await Promise.resolve().then(() => _interopRequireWildcard(require(
/* @vite-ignore */
/* webpackIgnore: true */
route.clientLoaderModule
))) : await getLazyRoute();
invariant2(clientLoader, "No `clientLoader` export found");
return (args, singleFetch) => clientLoader({
...args,
async serverLoader() {
preventInvalidServerHandlerCall("loader", route);
return fetchServerLoader(singleFetch);
}
});
} : void 0,
action: route.hasClientAction ? async () => {
let clientActionPromise = route.clientActionModule ? Promise.resolve().then(() => _interopRequireWildcard(require(
/* @vite-ignore */
/* webpackIgnore: true */
route.clientActionModule
))) : getLazyRoute();
prefetchRouteModuleChunks(route);
let { clientAction } = await clientActionPromise;
invariant2(clientAction, "No `clientAction` export found");
return (args, singleFetch) => clientAction({
...args,
async serverAction() {
preventInvalidServerHandlerCall("action", route);
return fetchServerAction(singleFetch);
}
});
} : void 0,
middleware: route.hasClientMiddleware ? async () => {
let { clientMiddleware } = route.clientMiddlewareModule ? await Promise.resolve().then(() => _interopRequireWildcard(require(
/* @vite-ignore */
/* webpackIgnore: true */
route.clientMiddlewareModule
))) : await getLazyRoute();
invariant2(clientMiddleware, "No `clientMiddleware` export found");
return clientMiddleware;
} : void 0,
shouldRevalidate: async () => {
let lazyRoute = await getLazyRoute();
return getShouldRevalidateFunction(
dataRoute.path,
lazyRoute,
route,
ssr,
needsRevalidation
);
},
handle: async () => (await getLazyRoute()).handle,
// No need to wrap these in layout since the root route is never
// loaded via route.lazy()
Component: async () => (await getLazyRoute()).Component,
ErrorBoundary: route.hasErrorBoundary ? async () => (await getLazyRoute()).ErrorBoundary : void 0
};
}
let children = createClientRoutes(
manifest,
routeModulesCache,
initialState,
ssr,
isSpaMode,
route.id,
routesByParentId,
needsRevalidation
);
if (children.length > 0) dataRoute.children = children;
return dataRoute;
});
}
function getShouldRevalidateFunction(path, route, manifestRoute, ssr, needsRevalidation) {
if (needsRevalidation) {
return wrapShouldRevalidateForHdr(
manifestRoute.id,
route.shouldRevalidate,
needsRevalidation
);
}
if (!ssr && manifestRoute.hasLoader && !manifestRoute.hasClientLoader) {
let myParams = path ? compilePath(path)[1].map((p) => p.paramName) : [];
const didParamsChange = (opts) => myParams.some((p) => opts.currentParams[p] !== opts.nextParams[p]);
if (route.shouldRevalidate) {
let fn = route.shouldRevalidate;
return (opts) => fn({
...opts,
defaultShouldRevalidate: didParamsChange(opts)
});
} else {
return (opts) => didParamsChange(opts);
}
}
if (ssr && route.shouldRevalidate) {
let fn = route.shouldRevalidate;
return (opts) => fn({ ...opts, defaultShouldRevalidate: true });
}
return route.shouldRevalidate;
}
function wrapShouldRevalidateForHdr(routeId, routeShouldRevalidate, needsRevalidation) {
let handledRevalidation = false;
return (arg) => {
if (!handledRevalidation) {
handledRevalidation = true;
return needsRevalidation.has(routeId);
}
return routeShouldRevalidate ? routeShouldRevalidate(arg) : arg.defaultShouldRevalidate;
};
}
async function loadRouteModuleWithBlockingLinks(route, routeModules) {
let routeModulePromise = loadRouteModule(route, routeModules);
let prefetchRouteCssPromise = prefetchRouteCss(route);
let routeModule = await routeModulePromise;
await Promise.all([
prefetchRouteCssPromise,
prefetchStyleLinks(route, routeModule)
]);
return {
Component: getRouteModuleComponent(routeModule),
ErrorBoundary: routeModule.ErrorBoundary,
clientMiddleware: routeModule.clientMiddleware,
clientAction: routeModule.clientAction,
clientLoader: routeModule.clientLoader,
handle: routeModule.handle,
links: routeModule.links,
meta: routeModule.meta,
shouldRevalidate: routeModule.shouldRevalidate
};
}
function getRouteModuleComponent(routeModule) {
if (routeModule.default == null) return void 0;
let isEmptyObject = typeof routeModule.default === "object" && Object.keys(routeModule.default).length === 0;
if (!isEmptyObject) {
return routeModule.default;
}
}
function shouldHydrateRouteLoader(routeId, clientLoader, hasLoader, isSpaMode) {
return isSpaMode && routeId !== "root" || clientLoader != null && (clientLoader.hydrate === true || hasLoader !== true);
}
// lib/dom/ssr/fog-of-war.ts
var nextPaths = /* @__PURE__ */ new Set();
var discoveredPathsMaxSize = 1e3;
var discoveredPaths = /* @__PURE__ */ new Set();
var URL_LIMIT = 7680;
function isFogOfWarEnabled(routeDiscovery, ssr) {
return routeDiscovery.mode === "lazy" && ssr === true;
}
function getPartialManifest({ sri, ...manifest }, router) {
let routeIds = new Set(router.state.matches.map((m) => m.route.id));
let segments = router.state.location.pathname.split("/").filter(Boolean);
let paths = ["/"];
segments.pop();
while (segments.length > 0) {
paths.push(`/${segments.join("/")}`);
segments.pop();
}
paths.forEach((path) => {
let matches = matchRoutes(router.routes, path, router.basename);
if (matches) {
matches.forEach((m) => routeIds.add(m.route.id));
}
});
let initialRoutes = [...routeIds].reduce(
(acc, id) => Object.assign(acc, { [id]: manifest.routes[id] }),
{}
);
return {
...manifest,
routes: initialRoutes,
sri: sri ? true : void 0
};
}
function getPatchRoutesOnNavigationFunction(manifest, routeModules, ssr, routeDiscovery, isSpaMode, basename) {
if (!isFogOfWarEnabled(routeDiscovery, ssr)) {
return void 0;
}
return async ({ path, patch, signal, fetcherKey }) => {
if (discoveredPaths.has(path)) {
return;
}
await fetchAndApplyManifestPatches(
[path],
fetcherKey ? window.location.href : path,
manifest,
routeModules,
ssr,
isSpaMode,
basename,
routeDiscovery.manifestPath,
patch,
signal
);
};
}
function useFogOFWarDiscovery(router, manifest, routeModules, ssr, routeDiscovery, isSpaMode) {
React6.useEffect(() => {
if (!isFogOfWarEnabled(routeDiscovery, ssr) || // @ts-expect-error - TS doesn't know about this yet
_optionalChain([window, 'access', _100 => _100.navigator, 'optionalAccess', _101 => _101.connection, 'optionalAccess', _102 => _102.saveData]) === true) {
return;
}
function registerElement(el) {
let path = el.tagName === "FORM" ? el.getAttribute("action") : el.getAttribute("href");
if (!path) {
return;
}
let pathname = el.tagName === "A" ? el.pathname : new URL(path, window.location.origin).pathname;
if (!discoveredPaths.has(pathname)) {
nextPaths.add(pathname);
}
}
async function fetchPatches() {
document.querySelectorAll("a[data-discover], form[data-discover]").forEach(registerElement);
let lazyPaths = Array.from(nextPaths.keys()).filter((path) => {
if (discoveredPaths.has(path)) {
nextPaths.delete(path);
return false;
}
return true;
});
if (lazyPaths.length === 0) {
return;
}
try {
await fetchAndApplyManifestPatches(
lazyPaths,
null,
manifest,
routeModules,
ssr,
isSpaMode,
router.basename,
routeDiscovery.manifestPath,
router.patchRoutes
);
} catch (e) {
console.error("Failed to fetch manifest patches", e);
}
}
let debouncedFetchPatches = debounce(fetchPatches, 100);
fetchPatches();
let observer = new MutationObserver(() => debouncedFetchPatches());
observer.observe(document.documentElement, {
subtree: true,
childList: true,
attributes: true,
attributeFilter: ["data-discover", "href", "action"]
});
return () => observer.disconnect();
}, [ssr, isSpaMode, manifest, routeModules, router, routeDiscovery]);
}
function getManifestPath(_manifestPath, basename) {
let manifestPath = _manifestPath || "/__manifest";
if (basename == null) {
return manifestPath;
}
return `${basename}${manifestPath}`.replace(/\/+/g, "/");
}
var MANIFEST_VERSION_STORAGE_KEY = "react-router-manifest-version";
async function fetchAndApplyManifestPatches(paths, errorReloadPath, manifest, routeModules, ssr, isSpaMode, basename, manifestPath, patchRoutes, signal) {
const searchParams = new URLSearchParams();
searchParams.set("paths", paths.sort().join(","));
searchParams.set("version", manifest.version);
let url = new URL(
getManifestPath(manifestPath, basename),
window.location.origin
);
url.search = searchParams.toString();
if (url.toString().length > URL_LIMIT) {
nextPaths.clear();
return;
}
let serverPatches;
try {
let res = await fetch(url, { signal });
if (!res.ok) {
throw new Error(`${res.status} ${res.statusText}`);
} else if (res.status === 204 && res.headers.has("X-Remix-Reload-Document")) {
if (!errorReloadPath) {
console.warn(
"Detected a manifest version mismatch during eager route discovery. The next navigation/fetch to an undiscovered route will result in a new document navigation to sync up with the latest manifest."
);
return;
}
try {
if (sessionStorage.getItem(MANIFEST_VERSION_STORAGE_KEY) === manifest.version) {
console.error(
"Unable to discover routes due to manifest version mismatch."
);
return;
}
sessionStorage.setItem(MANIFEST_VERSION_STORAGE_KEY, manifest.version);
} catch (e2) {
}
window.location.href = errorReloadPath;
console.warn("Detected manifest version mismatch, reloading...");
await new Promise(() => {
});
} else if (res.status >= 400) {
throw new Error(await res.text());
}
try {
sessionStorage.removeItem(MANIFEST_VERSION_STORAGE_KEY);
} catch (e3) {
}
serverPatches = await res.json();
} catch (e) {
if (_optionalChain([signal, 'optionalAccess', _103 => _103.aborted])) return;
throw e;
}
let knownRoutes = new Set(Object.keys(manifest.routes));
let patches = Object.values(serverPatches).reduce((acc, route) => {
if (route && !knownRoutes.has(route.id)) {
acc[route.id] = route;
}
return acc;
}, {});
Object.assign(manifest.routes, patches);
paths.forEach((p) => addToFifoQueue(p, discoveredPaths));
let parentIds = /* @__PURE__ */ new Set();
Object.values(patches).forEach((patch) => {
if (patch && (!patch.parentId || !patches[patch.parentId])) {
parentIds.add(patch.parentId);
}
});
parentIds.forEach(
(parentId) => patchRoutes(
parentId || null,
createClientRoutes(patches, routeModules, null, ssr, isSpaMode, parentId)
)
);
}
function addToFifoQueue(path, queue) {
if (queue.size >= discoveredPathsMaxSize) {
let first = queue.values().next().value;
queue.delete(first);
}
queue.add(path);
}
function debounce(callback, wait) {
let timeoutId;
return (...args) => {
window.clearTimeout(timeoutId);
timeoutId = window.setTimeout(() => callback(...args), wait);
};
}
// lib/dom/ssr/components.tsx
function useDataRouterContext2() {
let context = React7.useContext(DataRouterContext);
invariant2(
context,
"You must render this element inside a <DataRouterContext.Provider> element"
);
return context;
}
function useDataRouterStateContext() {
let context = React7.useContext(DataRouterStateContext);
invariant2(
context,
"You must render this element inside a <DataRouterStateContext.Provider> element"
);
return context;
}
var FrameworkContext = React7.createContext(void 0);
FrameworkContext.displayName = "FrameworkContext";
function useFrameworkContext() {
let context = React7.useContext(FrameworkContext);
invariant2(
context,
"You must render this element inside a <HydratedRouter> element"
);
return context;
}
function usePrefetchBehavior(prefetch, theirElementProps) {
let frameworkContext = React7.useContext(FrameworkContext);
let [maybePrefetch, setMaybePrefetch] = React7.useState(false);
let [shouldPrefetch, setShouldPrefetch] = React7.useState(false);
let { onFocus, onBlur, onMouseEnter, onMouseLeave, onTouchStart } = theirElementProps;
let ref = React7.useRef(null);
React7.useEffect(() => {
if (prefetch === "render") {
setShouldPrefetch(true);
}
if (prefetch === "viewport") {
let callback = (entries) => {
entries.forEach((entry) => {
setShouldPrefetch(entry.isIntersecting);
});
};
let observer = new IntersectionObserver(callback, { threshold: 0.5 });
if (ref.current) observer.observe(ref.current);
return () => {
observer.disconnect();
};
}
}, [prefetch]);
React7.useEffect(() => {
if (maybePrefetch) {
let id = setTimeout(() => {
setShouldPrefetch(true);
}, 100);
return () => {
clearTimeout(id);
};
}
}, [maybePrefetch]);
let setIntent = () => {
setMaybePrefetch(true);
};
let cancelIntent = () => {
setMaybePrefetch(false);
setShouldPrefetch(false);
};
if (!frameworkContext) {
return [false, ref, {}];
}
if (prefetch !== "intent") {
return [shouldPrefetch, ref, {}];
}
return [
shouldPrefetch,
ref,
{
onFocus: composeEventHandlers(onFocus, setIntent),
onBlur: composeEventHandlers(onBlur, cancelIntent),
onMouseEnter: composeEventHandlers(onMouseEnter, setIntent),
onMouseLeave: composeEventHandlers(onMouseLeave, cancelIntent),
onTouchStart: composeEventHandlers(onTouchStart, setIntent)
}
];
}
function composeEventHandlers(theirHandler, ourHandler) {
return (event) => {
theirHandler && theirHandler(event);
if (!event.defaultPrevented) {
ourHandler(event);
}
};
}
function getActiveMatches(matches, errors, isSpaMode) {
if (isSpaMode && !isHydrated) {
return [matches[0]];
}
if (errors) {
let errorIdx = matches.findIndex((m) => errors[m.route.id] !== void 0);
return matches.slice(0, errorIdx + 1);
}
return matches;
}
var CRITICAL_CSS_DATA_ATTRIBUTE = "data-react-router-critical-css";
function Links({ nonce }) {
let { isSpaMode, manifest, routeModules, criticalCss } = useFrameworkContext();
let { errors, matches: routerMatches } = useDataRouterStateContext();
let matches = getActiveMatches(routerMatches, errors, isSpaMode);
let keyedLinks = React7.useMemo(
() => getKeyedLinksForMatches(matches, routeModules, manifest),
[matches, routeModules, manifest]
);
return /* @__PURE__ */ React7.createElement(React7.Fragment, null, typeof criticalCss === "string" ? /* @__PURE__ */ React7.createElement(
"style",
{
...{ [CRITICAL_CSS_DATA_ATTRIBUTE]: "" },
dangerouslySetInnerHTML: { __html: criticalCss }
}
) : null, typeof criticalCss === "object" ? /* @__PURE__ */ React7.createElement(
"link",
{
...{ [CRITICAL_CSS_DATA_ATTRIBUTE]: "" },
rel: "stylesheet",
href: criticalCss.href,
nonce
}
) : null, keyedLinks.map(
({ key, link }) => isPageLinkDescriptor(link) ? /* @__PURE__ */ React7.createElement(PrefetchPageLinks, { key, nonce, ...link }) : /* @__PURE__ */ React7.createElement("link", { key, nonce, ...link })
));
}
function PrefetchPageLinks({ page, ...linkProps }) {
let { router } = useDataRouterContext2();
let matches = React7.useMemo(
() => matchRoutes(router.routes, page, router.basename),
[router.routes, page, router.basename]
);
if (!matches) {
return null;
}
return /* @__PURE__ */ React7.createElement(PrefetchPageLinksImpl, { page, matches, ...linkProps });
}
function useKeyedPrefetchLinks(matches) {
let { manifest, routeModules } = useFrameworkContext();
let [keyedPrefetchLinks, setKeyedPrefetchLinks] = React7.useState([]);
React7.useEffect(() => {
let interrupted = false;
void getKeyedPrefetchLinks(matches, manifest, routeModules).then(
(links) => {
if (!interrupted) {
setKeyedPrefetchLinks(links);
}
}
);
return () => {
interrupted = true;
};
}, [matches, manifest, routeModules]);
return keyedPrefetchLinks;
}
function PrefetchPageLinksImpl({
page,
matches: nextMatches,
...linkProps
}) {
let location = useLocation();
let { manifest, routeModules } = useFrameworkContext();
let { basename } = useDataRouterContext2();
let { loaderData, matches } = useDataRouterStateContext();
let newMatchesForData = React7.useMemo(
() => getNewMatchesForLinks(
page,
nextMatches,
matches,
manifest,
location,
"data"
),
[page, nextMatches, matches, manifest, location]
);
let newMatchesForAssets = React7.useMemo(
() => getNewMatchesForLinks(
page,
nextMatches,
matches,
manifest,
location,
"assets"
),
[page, nextMatches, matches, manifest, location]
);
let dataHrefs = React7.useMemo(() => {
if (page === location.pathname + location.search + location.hash) {
return [];
}
let routesParams = /* @__PURE__ */ new Set();
let foundOptOutRoute = false;
nextMatches.forEach((m) => {
let manifestRoute = manifest.routes[m.route.id];
if (!manifestRoute || !manifestRoute.hasLoader) {
return;
}
if (!newMatchesForData.some((m2) => m2.route.id === m.route.id) && m.route.id in loaderData && _optionalChain([routeModules, 'access', _104 => _104[m.route.id], 'optionalAccess', _105 => _105.shouldRevalidate])) {
foundOptOutRoute = true;
} else if (manifestRoute.hasClientLoader) {
foundOptOutRoute = true;
} else {
routesParams.add(m.route.id);
}
});
if (routesParams.size === 0) {
return [];
}
let url = singleFetchUrl(page, basename, "data");
if (foundOptOutRoute && routesParams.size > 0) {
url.searchParams.set(
"_routes",
nextMatches.filter((m) => routesParams.has(m.route.id)).map((m) => m.route.id).join(",")
);
}
return [url.pathname + url.search];
}, [
basename,
loaderData,
location,
manifest,
newMatchesForData,
nextMatches,
page,
routeModules
]);
let moduleHrefs = React7.useMemo(
() => getModuleLinkHrefs(newMatchesForAssets, manifest),
[newMatchesForAssets, manifest]
);
let keyedPrefetchLinks = useKeyedPrefetchLinks(newMatchesForAssets);
return /* @__PURE__ */ React7.createElement(React7.Fragment, null, dataHrefs.map((href) => /* @__PURE__ */ React7.createElement("link", { key: href, rel: "prefetch", as: "fetch", href, ...linkProps })), moduleHrefs.map((href) => /* @__PURE__ */ React7.createElement("link", { key: href, rel: "modulepreload", href, ...linkProps })), keyedPrefetchLinks.map(({ key, link }) => (
// these don't spread `linkProps` because they are full link descriptors
// already with their own props
/* @__PURE__ */ React7.createElement("link", { key, nonce: linkProps.nonce, ...link })
)));
}
function Meta() {
let { isSpaMode, routeModules } = useFrameworkContext();
let {
errors,
matches: routerMatches,
loaderData
} = useDataRouterStateContext();
let location = useLocation();
let _matches = getActiveMatches(routerMatches, errors, isSpaMode);
let error = null;
if (errors) {
error = errors[_matches[_matches.length - 1].route.id];
}
let meta = [];
let leafMeta = null;
let matches = [];
for (let i = 0; i < _matches.length; i++) {
let _match = _matches[i];
let routeId = _match.route.id;
let data2 = loaderData[routeId];
let params = _match.params;
let routeModule = routeModules[routeId];
let routeMeta = [];
let match = {
id: routeId,
data: data2,
loaderData: data2,
meta: [],
params: _match.params,
pathname: _match.pathname,
handle: _match.route.handle,
error
};
matches[i] = match;
if (_optionalChain([routeModule, 'optionalAccess', _106 => _106.meta])) {
routeMeta = typeof routeModule.meta === "function" ? routeModule.meta({
data: data2,
loaderData: data2,
params,
location,
matches,
error
}) : Array.isArray(routeModule.meta) ? [...routeModule.meta] : routeModule.meta;
} else if (leafMeta) {
routeMeta = [...leafMeta];
}
routeMeta = routeMeta || [];
if (!Array.isArray(routeMeta)) {
throw new Error(
"The route at " + _match.route.path + " returns an invalid value. All route meta functions must return an array of meta objects.\n\nTo reference the meta function API, see https://remix.run/route/meta"
);
}
match.meta = routeMeta;
matches[i] = match;
meta = [...routeMeta];
leafMeta = meta;
}
return /* @__PURE__ */ React7.createElement(React7.Fragment, null, meta.flat().map((metaProps) => {
if (!metaProps) {
return null;
}
if ("tagName" in metaProps) {
let { tagName, ...rest } = metaProps;
if (!isValidMetaTag(tagName)) {
console.warn(
`A meta object uses an invalid tagName: ${tagName}. Expected either 'link' or 'meta'`
);
return null;
}
let Comp = tagName;
return /* @__PURE__ */ React7.createElement(Comp, { key: JSON.stringify(rest), ...rest });
}
if ("title" in metaProps) {
return /* @__PURE__ */ React7.createElement("title", { key: "title" }, String(metaProps.title));
}
if ("charset" in metaProps) {
_nullishCoalesce(metaProps.charSet, () => ( (metaProps.charSet = metaProps.charset)));
delete metaProps.charset;
}
if ("charSet" in metaProps && metaProps.charSet != null) {
return typeof metaProps.charSet === "string" ? /* @__PURE__ */ React7.createElement("meta", { key: "charSet", charSet: metaProps.charSet }) : null;
}
if ("script:ld+json" in metaProps) {
try {
let json = JSON.stringify(metaProps["script:ld+json"]);
return /* @__PURE__ */ React7.createElement(
"script",
{
key: `script:ld+json:${json}`,
type: "application/ld+json",
dangerouslySetInnerHTML: { __html: escapeHtml(json) }
}
);
} catch (err) {
return null;
}
}
return /* @__PURE__ */ React7.createElement("meta", { key: JSON.stringify(metaProps), ...metaProps });
}));
}
function isValidMetaTag(tagName) {
return typeof tagName === "string" && /^(meta|link)$/.test(tagName);
}
var isHydrated = false;
function setIsHydrated() {
isHydrated = true;
}
function Scripts(scriptProps) {
let {
manifest,
serverHandoffString,
isSpaMode,
renderMeta,
routeDiscovery,
ssr
} = useFrameworkContext();
let { router, static: isStatic, staticContext } = useDataRouterContext2();
let { matches: routerMatches } = useDataRouterStateContext();
let isRSCRouterContext = useIsRSCRouterContext();
let enableFogOfWar = isFogOfWarEnabled(routeDiscovery, ssr);
if (renderMeta) {
renderMeta.didRenderScripts = true;
}
let matches = getActiveMatches(routerMatches, null, isSpaMode);
React7.useEffect(() => {
setIsHydrated();
}, []);
let initialScripts = React7.useMemo(() => {
if (isRSCRouterContext) {
return null;
}
let streamScript = "window.__reactRouterContext.stream = new ReadableStream({start(controller){window.__reactRouterContext.streamController = controller;}}).pipeThrough(new TextEncoderStream());";
let contextScript = staticContext ? `window.__reactRouterContext = ${serverHandoffString};${streamScript}` : " ";
let routeModulesScript = !isStatic ? " " : `${_optionalChain([manifest, 'access', _107 => _107.hmr, 'optionalAccess', _108 => _108.runtime]) ? `import ${JSON.stringify(manifest.hmr.runtime)};` : ""}${!enableFogOfWar ? `import ${JSON.stringify(manifest.url)}` : ""};
${matches.map((match, routeIndex) => {
let routeVarName = `route${routeIndex}`;
let manifestEntry = manifest.routes[match.route.id];
invariant2(manifestEntry, `Route ${match.route.id} not found in manifest`);
let {
clientActionModule,
clientLoaderModule,
clientMiddlewareModule,
hydrateFallbackModule,
module
} = manifestEntry;
let chunks = [
...clientActionModule ? [
{
module: clientActionModule,
varName: `${routeVarName}_clientAction`
}
] : [],
...clientLoaderModule ? [
{
module: clientLoaderModule,
varName: `${routeVarName}_clientLoader`
}
] : [],
...clientMiddlewareModule ? [
{
module: clientMiddlewareModule,
varName: `${routeVarName}_clientMiddleware`
}
] : [],
...hydrateFallbackModule ? [
{
module: hydrateFallbackModule,
varName: `${routeVarName}_HydrateFallback`
}
] : [],
{ module, varName: `${routeVarName}_main` }
];
if (chunks.length === 1) {
return `import * as ${routeVarName} from ${JSON.stringify(module)};`;
}
let chunkImportsSnippet = chunks.map((chunk) => `import * as ${chunk.varName} from "${chunk.module}";`).join("\n");
let mergedChunksSnippet = `const ${routeVarName} = {${chunks.map((chunk) => `...${chunk.varName}`).join(",")}};`;
return [chunkImportsSnippet, mergedChunksSnippet].join("\n");
}).join("\n")}
${enableFogOfWar ? (
// Inline a minimal manifest with the SSR matches
`window.__reactRouterManifest = ${JSON.stringify(
getPartialManifest(manifest, router),
null,
2
)};`
) : ""}
window.__reactRouterRouteModules = {${matches.map((match, index) => `${JSON.stringify(match.route.id)}:route${index}`).join(",")}};
import(${JSON.stringify(manifest.entry.module)});`;
return /* @__PURE__ */ React7.createElement(React7.Fragment, null, /* @__PURE__ */ React7.createElement(
"script",
{
...scriptProps,
suppressHydrationWarning: true,
dangerouslySetInnerHTML: { __html: contextScript },
type: void 0
}
), /* @__PURE__ */ React7.createElement(
"script",
{
...scriptProps,
suppressHydrationWarning: true,
dangerouslySetInnerHTML: { __html: routeModulesScript },
type: "module",
async: true
}
));
}, []);
let preloads = isHydrated || isRSCRouterContext ? [] : dedupe(
manifest.entry.imports.concat(
getModuleLinkHrefs(matches, manifest, {
includeHydrateFallback: true
})
)
);
let sri = typeof manifest.sri === "object" ? manifest.sri : {};
warnOnce(
!isRSCRouterContext,
"The <Scripts /> element is a no-op when using RSC and can be safely removed."
);
return isHydrated || isRSCRouterContext ? null : /* @__PURE__ */ React7.createElement(React7.Fragment, null, typeof manifest.sri === "object" ? /* @__PURE__ */ React7.createElement(
"script",
{
"rr-importmap": "",
type: "importmap",
suppressHydrationWarning: true,
dangerouslySetInnerHTML: {
__html: JSON.stringify({
integrity: sri
})
}
}
) : null, !enableFogOfWar ? /* @__PURE__ */ React7.createElement(
"link",
{
rel: "modulepreload",
href: manifest.url,
crossOrigin: scriptProps.crossOrigin,
integrity: sri[manifest.url],
suppressHydrationWarning: true
}
) : null, /* @__PURE__ */ React7.createElement(
"link",
{
rel: "modulepreload",
href: manifest.entry.module,
crossOrigin: scriptProps.crossOrigin,
integrity: sri[manifest.entry.module],
suppressHydrationWarning: true
}
), preloads.map((path) => /* @__PURE__ */ React7.createElement(
"link",
{
key: path,
rel: "modulepreload",
href: path,
crossOrigin: scriptProps.crossOrigin,
integrity: sri[path],
suppressHydrationWarning: true
}
)), initialScripts);
}
function dedupe(array) {
return [...new Set(array)];
}
function mergeRefs(...refs) {
return (value) => {
refs.forEach((ref) => {
if (typeof ref === "function") {
ref(value);
} else if (ref != null) {
ref.current = value;
}
});
};
}
// lib/dom/ssr/errorBoundaries.tsx
var RemixErrorBoundary = class extends React8.Component {
constructor(props) {
super(props);
this.state = { error: props.error || null, location: props.location };
}
static getDerivedStateFromError(error) {
return { error };
}
static getDerivedStateFromProps(props, state) {
if (state.location !== props.location) {
return { error: props.error || null, location: props.location };
}
return { error: props.error || state.error, location: state.location };
}
render() {
if (this.state.error) {
return /* @__PURE__ */ React8.createElement(
RemixRootDefaultErrorBoundary,
{
error: this.state.error,
isOutsideRemixApp: true
}
);
} else {
return this.props.children;
}
}
};
function RemixRootDefaultErrorBoundary({
error,
isOutsideRemixApp
}) {
console.error(error);
let heyDeveloper = /* @__PURE__ */ React8.createElement(
"script",
{
dangerouslySetInnerHTML: {
__html: `
console.log(
"\u{1F4BF} Hey developer \u{1F44B}. You can provide a way better UX than this when your app throws errors. Check out https://reactrouter.com/how-to/error-boundary for more information."
);
`
}
}
);
if (isRouteErrorResponse(error)) {
return /* @__PURE__ */ React8.createElement(BoundaryShell, { title: "Unhandled Thrown Response!" }, /* @__PURE__ */ React8.createElement("h1", { style: { fontSize: "24px" } }, error.status, " ", error.statusText), ENABLE_DEV_WARNINGS ? heyDeveloper : null);
}
let errorInstance;
if (error instanceof Error) {
errorInstance = error;
} else {
let errorString = error == null ? "Unknown Error" : typeof error === "object" && "toString" in error ? error.toString() : JSON.stringify(error);
errorInstance = new Error(errorString);
}
return /* @__PURE__ */ React8.createElement(
BoundaryShell,
{
title: "Application Error!",
isOutsideRemixApp
},
/* @__PURE__ */ React8.createElement("h1", { style: { fontSize: "24px" } }, "Application Error"),
/* @__PURE__ */ React8.createElement(
"pre",
{
style: {
padding: "2rem",
background: "hsla(10, 50%, 50%, 0.1)",
color: "red",
overflow: "auto"
}
},
errorInstance.stack
),
heyDeveloper
);
}
function BoundaryShell({
title,
renderScripts,
isOutsideRemixApp,
children
}) {
let { routeModules } = useFrameworkContext();
if (_optionalChain([routeModules, 'access', _109 => _109.root, 'optionalAccess', _110 => _110.Layout]) && !isOutsideRemixApp) {
return children;
}
return /* @__PURE__ */ React8.createElement("html", { lang: "en" }, /* @__PURE__ */ React8.createElement("head", null, /* @__PURE__ */ React8.createElement("meta", { charSet: "utf-8" }), /* @__PURE__ */ React8.createElement(
"meta",
{
name: "viewport",
content: "width=device-width,initial-scale=1,viewport-fit=cover"
}
), /* @__PURE__ */ React8.createElement("title", null, title)), /* @__PURE__ */ React8.createElement("body", null, /* @__PURE__ */ React8.createElement("main", { style: { fontFamily: "system-ui, sans-serif", padding: "2rem" } }, children, renderScripts ? /* @__PURE__ */ React8.createElement(Scripts, null) : null)));
}
// lib/components.tsx
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.hasErrorBoundary || route.ErrorBoundary != null || route.errorElement != null
};
if (route.Component) {
if (ENABLE_DEV_WARNINGS) {
if (route.element) {
warning(
false,
"You should not include both `Component` and `element` on your route - `Component` will be used."
);
}
}
Object.assign(updates, {
element: React9.createElement(route.Component),
Component: void 0
});
}
if (route.HydrateFallback) {
if (ENABLE_DEV_WARNINGS) {
if (route.hydrateFallbackElement) {
warning(
false,
"You should not include both `HydrateFallback` and `hydrateFallbackElement` on your route - `HydrateFallback` will be used."
);
}
}
Object.assign(updates, {
hydrateFallbackElement: React9.createElement(route.HydrateFallback),
HydrateFallback: void 0
});
}
if (route.ErrorBoundary) {
if (ENABLE_DEV_WARNINGS) {
if (route.errorElement) {
warning(
false,
"You should not include both `ErrorBoundary` and `errorElement` on your route - `ErrorBoundary` will be used."
);
}
}
Object.assign(updates, {
errorElement: React9.createElement(route.ErrorBoundary),
ErrorBoundary: void 0
});
}
return updates;
}
var hydrationRouteProperties = [
"HydrateFallback",
"hydrateFallbackElement"
];
function createMemoryRouter(routes, opts) {
return createRouter({
basename: _optionalChain([opts, 'optionalAccess', _111 => _111.basename]),
getContext: _optionalChain([opts, 'optionalAccess', _112 => _112.getContext]),
future: _optionalChain([opts, 'optionalAccess', _113 => _113.future]),
history: createMemoryHistory({
initialEntries: _optionalChain([opts, 'optionalAccess', _114 => _114.initialEntries]),
initialIndex: _optionalChain([opts, 'optionalAccess', _115 => _115.initialIndex])
}),
hydrationData: _optionalChain([opts, 'optionalAccess', _116 => _116.hydrationData]),
routes,
hydrationRouteProperties,
mapRouteProperties,
dataStrategy: _optionalChain([opts, 'optionalAccess', _117 => _117.dataStrategy]),
patchRoutesOnNavigation: _optionalChain([opts, 'optionalAccess', _118 => _118.patchRoutesOnNavigation]),
unstable_instrumentations: _optionalChain([opts, 'optionalAccess', _119 => _119.unstable_instrumentations])
}).initialize();
}
var Deferred2 = class {
constructor() {
this.status = "pending";
this.promise = new Promise((resolve, reject) => {
this.resolve = (value) => {
if (this.status === "pending") {
this.status = "resolved";
resolve(value);
}
};
this.reject = (reason) => {
if (this.status === "pending") {
this.status = "rejected";
reject(reason);
}
};
});
}
};
function shallowDiff(a, b) {
if (a === b) {
return false;
}
let aKeys = Object.keys(a);
let bKeys = Object.keys(b);
if (aKeys.length !== bKeys.length) {
return true;
}
for (let key of aKeys) {
if (a[key] !== b[key]) {
return true;
}
}
return false;
}
function UNSTABLE_TransitionEnabledRouterProvider({
router,
flushSync: reactDomFlushSyncImpl,
unstable_onError
}) {
let fetcherData = React9.useRef(/* @__PURE__ */ new Map());
let [revalidating, startRevalidation] = React9.useTransition();
let [state, setState] = React9.useState(router.state);
router.__setPendingRerender = (promise) => startRevalidation(
// @ts-expect-error - need react 19 types for this to be async
async () => {
const rerender = await promise;
startRevalidation(() => {
rerender();
});
}
);
let navigator = React9.useMemo(() => {
return {
createHref: router.createHref,
encodeLocation: router.encodeLocation,
go: (n) => router.navigate(n),
push: (to, state2, opts) => router.navigate(to, {
state: state2,
preventScrollReset: _optionalChain([opts, 'optionalAccess', _120 => _120.preventScrollReset])
}),
replace: (to, state2, opts) => router.navigate(to, {
replace: true,
state: state2,
preventScrollReset: _optionalChain([opts, 'optionalAccess', _121 => _121.preventScrollReset])
})
};
}, [router]);
let basename = router.basename || "/";
let dataRouterContext = React9.useMemo(
() => ({
router,
navigator,
static: false,
basename,
unstable_onError
}),
[router, navigator, basename, unstable_onError]
);
React9.useLayoutEffect(() => {
return router.subscribe(
(newState, { deletedFetchers, flushSync, viewTransitionOpts }) => {
newState.fetchers.forEach((fetcher, key) => {
if (fetcher.data !== void 0) {
fetcherData.current.set(key, fetcher.data);
}
});
deletedFetchers.forEach((key) => fetcherData.current.delete(key));
const diff = shallowDiff(state, newState);
if (!diff) return;
if (flushSync) {
if (reactDomFlushSyncImpl) {
reactDomFlushSyncImpl(() => setState(newState));
} else {
setState(newState);
}
} else {
React9.startTransition(() => {
setState(newState);
});
}
}
);
}, [router, reactDomFlushSyncImpl, state]);
return /* @__PURE__ */ React9.createElement(React9.Fragment, null, /* @__PURE__ */ React9.createElement(DataRouterContext.Provider, { value: dataRouterContext }, /* @__PURE__ */ React9.createElement(
DataRouterStateContext.Provider,
{
value: {
...state,
revalidation: revalidating ? "loading" : state.revalidation
}
},
/* @__PURE__ */ React9.createElement(FetchersContext.Provider, { value: fetcherData.current }, /* @__PURE__ */ React9.createElement(
Router,
{
basename,
location: state.location,
navigationType: state.historyAction,
navigator
},
/* @__PURE__ */ React9.createElement(
MemoizedDataRoutes,
{
routes: router.routes,
future: router.future,
state,
unstable_onError
}
)
))
)), null);
}
function RouterProvider({
router,
flushSync: reactDomFlushSyncImpl,
unstable_onError
}) {
let [state, setStateImpl] = React9.useState(router.state);
let [pendingState, setPendingState] = React9.useState();
let [vtContext, setVtContext] = React9.useState({
isTransitioning: false
});
let [renderDfd, setRenderDfd] = React9.useState();
let [transition, setTransition] = React9.useState();
let [interruption, setInterruption] = React9.useState();
let fetcherData = React9.useRef(/* @__PURE__ */ new Map());
let logErrorsAndSetState = React9.useCallback(
(newState) => {
setStateImpl((prevState) => {
if (newState.errors && unstable_onError) {
Object.entries(newState.errors).forEach(([routeId, error]) => {
if (_optionalChain([prevState, 'access', _122 => _122.errors, 'optionalAccess', _123 => _123[routeId]]) !== error) {
unstable_onError(error, {
location: newState.location,
params: _nullishCoalesce(_optionalChain([newState, 'access', _124 => _124.matches, 'access', _125 => _125[0], 'optionalAccess', _126 => _126.params]), () => ( {}))
});
}
});
}
return newState;
});
},
[unstable_onError]
);
let setState = React9.useCallback(
(newState, { deletedFetchers, flushSync, viewTransitionOpts }) => {
newState.fetchers.forEach((fetcher, key) => {
if (fetcher.data !== void 0) {
fetcherData.current.set(key, fetcher.data);
}
});
deletedFetchers.forEach((key) => fetcherData.current.delete(key));
warnOnce(
flushSync === false || reactDomFlushSyncImpl != null,
'You provided the `flushSync` option to a router update, but you are not using the `<RouterProvider>` from `react-router/dom` so `ReactDOM.flushSync()` is unavailable. Please update your app to `import { RouterProvider } from "react-router/dom"` and ensure you have `react-dom` installed as a dependency to use the `flushSync` option.'
);
let isViewTransitionAvailable = router.window != null && router.window.document != null && typeof router.window.document.startViewTransition === "function";
warnOnce(
viewTransitionOpts == null || isViewTransitionAvailable,
"You provided the `viewTransition` option to a router update, but you do not appear to be running in a DOM environment as `window.startViewTransition` is not available."
);
if (!viewTransitionOpts || !isViewTransitionAvailable) {
if (reactDomFlushSyncImpl && flushSync) {
reactDomFlushSyncImpl(() => logErrorsAndSetState(newState));
} else {
React9.startTransition(() => logErrorsAndSetState(newState));
}
return;
}
if (reactDomFlushSyncImpl && flushSync) {
reactDomFlushSyncImpl(() => {
if (transition) {
renderDfd && renderDfd.resolve();
transition.skipTransition();
}
setVtContext({
isTransitioning: true,
flushSync: true,
currentLocation: viewTransitionOpts.currentLocation,
nextLocation: viewTransitionOpts.nextLocation
});
});
let t = router.window.document.startViewTransition(() => {
reactDomFlushSyncImpl(() => logErrorsAndSetState(newState));
});
t.finished.finally(() => {
reactDomFlushSyncImpl(() => {
setRenderDfd(void 0);
setTransition(void 0);
setPendingState(void 0);
setVtContext({ isTransitioning: false });
});
});
reactDomFlushSyncImpl(() => setTransition(t));
return;
}
if (transition) {
renderDfd && renderDfd.resolve();
transition.skipTransition();
setInterruption({
state: newState,
currentLocation: viewTransitionOpts.currentLocation,
nextLocation: viewTransitionOpts.nextLocation
});
} else {
setPendingState(newState);
setVtContext({
isTransitioning: true,
flushSync: false,
currentLocation: viewTransitionOpts.currentLocation,
nextLocation: viewTransitionOpts.nextLocation
});
}
},
[
router.window,
reactDomFlushSyncImpl,
transition,
renderDfd,
logErrorsAndSetState
]
);
React9.useLayoutEffect(() => router.subscribe(setState), [router, setState]);
React9.useEffect(() => {
if (vtContext.isTransitioning && !vtContext.flushSync) {
setRenderDfd(new Deferred2());
}
}, [vtContext]);
React9.useEffect(() => {
if (renderDfd && pendingState && router.window) {
let newState = pendingState;
let renderPromise = renderDfd.promise;
let transition2 = router.window.document.startViewTransition(async () => {
React9.startTransition(() => logErrorsAndSetState(newState));
await renderPromise;
});
transition2.finished.finally(() => {
setRenderDfd(void 0);
setTransition(void 0);
setPendingState(void 0);
setVtContext({ isTransitioning: false });
});
setTransition(transition2);
}
}, [pendingState, renderDfd, router.window, logErrorsAndSetState]);
React9.useEffect(() => {
if (renderDfd && pendingState && state.location.key === pendingState.location.key) {
renderDfd.resolve();
}
}, [renderDfd, transition, state.location, pendingState]);
React9.useEffect(() => {
if (!vtContext.isTransitioning && interruption) {
setPendingState(interruption.state);
setVtContext({
isTransitioning: true,
flushSync: false,
currentLocation: interruption.currentLocation,
nextLocation: interruption.nextLocation
});
setInterruption(void 0);
}
}, [vtContext.isTransitioning, interruption]);
let navigator = React9.useMemo(() => {
return {
createHref: router.createHref,
encodeLocation: router.encodeLocation,
go: (n) => router.navigate(n),
push: (to, state2, opts) => router.navigate(to, {
state: state2,
preventScrollReset: _optionalChain([opts, 'optionalAccess', _127 => _127.preventScrollReset])
}),
replace: (to, state2, opts) => router.navigate(to, {
replace: true,
state: state2,
preventScrollReset: _optionalChain([opts, 'optionalAccess', _128 => _128.preventScrollReset])
})
};
}, [router]);
let basename = router.basename || "/";
let dataRouterContext = React9.useMemo(
() => ({
router,
navigator,
static: false,
basename,
unstable_onError
}),
[router, navigator, basename, unstable_onError]
);
return /* @__PURE__ */ React9.createElement(React9.Fragment, null, /* @__PURE__ */ React9.createElement(DataRouterContext.Provider, { value: dataRouterContext }, /* @__PURE__ */ React9.createElement(DataRouterStateContext.Provider, { value: state }, /* @__PURE__ */ React9.createElement(FetchersContext.Provider, { value: fetcherData.current }, /* @__PURE__ */ React9.createElement(ViewTransitionContext.Provider, { value: vtContext }, /* @__PURE__ */ React9.createElement(
Router,
{
basename,
location: state.location,
navigationType: state.historyAction,
navigator
},
/* @__PURE__ */ React9.createElement(
MemoizedDataRoutes,
{
routes: router.routes,
future: router.future,
state,
unstable_onError
}
)
))))), null);
}
var MemoizedDataRoutes = React9.memo(DataRoutes);
function DataRoutes({
routes,
future,
state,
unstable_onError
}) {
return useRoutesImpl(routes, void 0, state, unstable_onError, future);
}
function MemoryRouter({
basename,
children,
initialEntries,
initialIndex
}) {
let historyRef = React9.useRef();
if (historyRef.current == null) {
historyRef.current = createMemoryHistory({
initialEntries,
initialIndex,
v5Compat: true
});
}
let history = historyRef.current;
let [state, setStateImpl] = React9.useState({
action: history.action,
location: history.location
});
let setState = React9.useCallback(
(newState) => {
React9.startTransition(() => setStateImpl(newState));
},
[setStateImpl]
);
React9.useLayoutEffect(() => history.listen(setState), [history, setState]);
return /* @__PURE__ */ React9.createElement(
Router,
{
basename,
children,
location: state.location,
navigationType: state.action,
navigator: history
}
);
}
function Navigate({
to,
replace: replace2,
state,
relative
}) {
invariant(
useInRouterContext(),
// 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.`
);
let { static: isStatic } = React9.useContext(NavigationContext);
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 } = React9.useContext(RouteContext);
let { pathname: locationPathname } = useLocation();
let navigate = useNavigate();
let path = resolveTo(
to,
getResolveToMatches(matches),
locationPathname,
relative === "path"
);
let jsonPath = JSON.stringify(path);
React9.useEffect(() => {
navigate(JSON.parse(jsonPath), { replace: replace2, state, relative });
}, [navigate, jsonPath, relative, replace2, state]);
return null;
}
function Outlet(props) {
return useOutlet(props.context);
}
function Route(props) {
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>.`
);
}
function Router({
basename: basenameProp = "/",
children = null,
location: locationProp,
navigationType = "POP" /* Pop */,
navigator,
static: staticProp = false
}) {
invariant(
!useInRouterContext(),
`You cannot render a <Router> inside another <Router>. You should never have more than one in your app.`
);
let basename = basenameProp.replace(/^\/*/, "/");
let navigationContext = React9.useMemo(
() => ({
basename,
navigator,
static: staticProp,
future: {}
}),
[basename, navigator, staticProp]
);
if (typeof locationProp === "string") {
locationProp = parsePath(locationProp);
}
let {
pathname = "/",
search = "",
hash = "",
state = null,
key = "default"
} = locationProp;
let locationContext = React9.useMemo(() => {
let trailingPathname = stripBasename(pathname, basename);
if (trailingPathname == null) {
return null;
}
return {
location: {
pathname: trailingPathname,
search,
hash,
state,
key
},
navigationType
};
}, [basename, pathname, search, hash, state, key, navigationType]);
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__ */ React9.createElement(NavigationContext.Provider, { value: navigationContext }, /* @__PURE__ */ React9.createElement(LocationContext.Provider, { children, value: locationContext }));
}
function Routes({
children,
location
}) {
return useRoutes(createRoutesFromChildren(children), location);
}
function Await({
children,
errorElement,
resolve
}) {
let dataRouterContext = React9.useContext(DataRouterContext);
let dataRouterStateContext = React9.useContext(DataRouterStateContext);
let onError = React9.useCallback(
(error, errorInfo) => {
if (dataRouterContext && dataRouterContext.unstable_onError && dataRouterStateContext) {
dataRouterContext.unstable_onError(error, {
location: dataRouterStateContext.location,
params: _optionalChain([dataRouterStateContext, 'access', _129 => _129.matches, 'optionalAccess', _130 => _130[0], 'optionalAccess', _131 => _131.params]) || {},
errorInfo
});
}
},
[dataRouterContext, dataRouterStateContext]
);
return /* @__PURE__ */ React9.createElement(
AwaitErrorBoundary,
{
resolve,
errorElement,
onError
},
/* @__PURE__ */ React9.createElement(ResolveAwait, null, children)
);
}
var AwaitErrorBoundary = class extends React9.Component {
constructor(props) {
super(props);
this.state = { error: null };
}
static getDerivedStateFromError(error) {
return { error };
}
componentDidCatch(error, errorInfo) {
if (this.props.onError) {
this.props.onError(error, errorInfo);
} else {
console.error(
"<Await> caught the following error during render",
error,
errorInfo
);
}
}
render() {
let { children, errorElement, resolve } = this.props;
let promise = null;
let status = 0 /* pending */;
if (!(resolve instanceof Promise)) {
status = 1 /* success */;
promise = Promise.resolve();
Object.defineProperty(promise, "_tracked", { get: () => true });
Object.defineProperty(promise, "_data", { get: () => resolve });
} else if (this.state.error) {
status = 2 /* error */;
let renderError = this.state.error;
promise = Promise.reject().catch(() => {
});
Object.defineProperty(promise, "_tracked", { get: () => true });
Object.defineProperty(promise, "_error", { get: () => renderError });
} else if (resolve._tracked) {
promise = resolve;
status = "_error" in promise ? 2 /* error */ : "_data" in promise ? 1 /* success */ : 0 /* pending */;
} else {
status = 0 /* pending */;
Object.defineProperty(resolve, "_tracked", { get: () => true });
promise = resolve.then(
(data2) => Object.defineProperty(resolve, "_data", { get: () => data2 }),
(error) => {
_optionalChain([this, 'access', _132 => _132.props, 'access', _133 => _133.onError, 'optionalCall', _134 => _134(error)]);
Object.defineProperty(resolve, "_error", { get: () => error });
}
);
}
if (status === 2 /* error */ && !errorElement) {
throw promise._error;
}
if (status === 2 /* error */) {
return /* @__PURE__ */ React9.createElement(AwaitContext.Provider, { value: promise, children: errorElement });
}
if (status === 1 /* success */) {
return /* @__PURE__ */ React9.createElement(AwaitContext.Provider, { value: promise, children });
}
throw promise;
}
};
function ResolveAwait({
children
}) {
let data2 = useAsyncValue();
let toRender = typeof children === "function" ? children(data2) : children;
return /* @__PURE__ */ React9.createElement(React9.Fragment, null, toRender);
}
function createRoutesFromChildren(children, parentPath = []) {
let routes = [];
React9.Children.forEach(children, (element, index) => {
if (!React9.isValidElement(element)) {
return;
}
let treePath = [...parentPath, index];
if (element.type === React9.Fragment) {
routes.push.apply(
routes,
createRoutesFromChildren(element.props.children, treePath)
);
return;
}
invariant(
element.type === Route,
`[${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>`
);
invariant(
!element.props.index || !element.props.children,
"An index route cannot have child routes."
);
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,
middleware: element.props.middleware,
loader: element.props.loader,
action: element.props.action,
hydrateFallbackElement: element.props.hydrateFallbackElement,
HydrateFallback: element.props.HydrateFallback,
errorElement: element.props.errorElement,
ErrorBoundary: element.props.ErrorBoundary,
hasErrorBoundary: element.props.hasErrorBoundary === true || 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;
}
var createRoutesFromElements = createRoutesFromChildren;
function renderMatches(matches) {
return _renderMatches(matches);
}
function useRouteComponentProps() {
return {
params: useParams(),
loaderData: useLoaderData(),
actionData: useActionData(),
matches: useMatches()
};
}
function WithComponentProps({
children
}) {
const props = useRouteComponentProps();
return React9.cloneElement(children, props);
}
function withComponentProps(Component4) {
return function WithComponentProps2() {
const props = useRouteComponentProps();
return React9.createElement(Component4, props);
};
}
function useHydrateFallbackProps() {
return {
params: useParams(),
loaderData: useLoaderData(),
actionData: useActionData()
};
}
function WithHydrateFallbackProps({
children
}) {
const props = useHydrateFallbackProps();
return React9.cloneElement(children, props);
}
function withHydrateFallbackProps(HydrateFallback) {
return function WithHydrateFallbackProps2() {
const props = useHydrateFallbackProps();
return React9.createElement(HydrateFallback, props);
};
}
function useErrorBoundaryProps() {
return {
params: useParams(),
loaderData: useLoaderData(),
actionData: useActionData(),
error: useRouteError()
};
}
function WithErrorBoundaryProps({
children
}) {
const props = useErrorBoundaryProps();
return React9.cloneElement(children, props);
}
function withErrorBoundaryProps(ErrorBoundary) {
return function WithErrorBoundaryProps2() {
const props = useErrorBoundaryProps();
return React9.createElement(ErrorBoundary, props);
};
}
exports.Action = Action; exports.createBrowserHistory = createBrowserHistory; exports.createHashHistory = createHashHistory; exports.invariant = invariant; exports.warning = warning; exports.createPath = createPath; exports.parsePath = parsePath; exports.createContext = createContext; exports.RouterContextProvider = RouterContextProvider; exports.convertRoutesToDataRoutes = convertRoutesToDataRoutes; exports.matchRoutes = matchRoutes; exports.generatePath = generatePath; exports.matchPath = matchPath; exports.stripBasename = stripBasename; exports.resolvePath = resolvePath; exports.joinPaths = joinPaths; exports.data = data; exports.redirect = redirect; exports.redirectDocument = redirectDocument; exports.replace = replace; exports.ErrorResponseImpl = ErrorResponseImpl; exports.isRouteErrorResponse = isRouteErrorResponse; exports.escapeHtml = escapeHtml; exports.encode = encode; exports.instrumentHandler = instrumentHandler; exports.IDLE_NAVIGATION = IDLE_NAVIGATION; exports.IDLE_FETCHER = IDLE_FETCHER; exports.IDLE_BLOCKER = IDLE_BLOCKER; exports.createRouter = createRouter; exports.createStaticHandler = createStaticHandler; exports.getStaticContextFromError = getStaticContextFromError; exports.isDataWithResponseInit = isDataWithResponseInit; exports.isResponse = isResponse; exports.isRedirectStatusCode = isRedirectStatusCode; exports.isRedirectResponse = isRedirectResponse; exports.isMutationMethod = isMutationMethod; exports.createRequestInit = createRequestInit; exports.SingleFetchRedirectSymbol = SingleFetchRedirectSymbol; exports.SINGLE_FETCH_REDIRECT_STATUS = SINGLE_FETCH_REDIRECT_STATUS; exports.NO_BODY_STATUS_CODES = NO_BODY_STATUS_CODES; exports.StreamTransfer = StreamTransfer; exports.getTurboStreamSingleFetchDataStrategy = getTurboStreamSingleFetchDataStrategy; exports.getSingleFetchDataStrategyImpl = getSingleFetchDataStrategyImpl; exports.stripIndexParam = stripIndexParam; exports.singleFetchUrl = singleFetchUrl; exports.decodeViaTurboStream = decodeViaTurboStream; exports.DataRouterContext = DataRouterContext; exports.DataRouterStateContext = DataRouterStateContext; exports.RSCRouterContext = RSCRouterContext; exports.ViewTransitionContext = ViewTransitionContext; exports.FetchersContext = FetchersContext; exports.AwaitContextProvider = AwaitContextProvider; exports.NavigationContext = NavigationContext; exports.LocationContext = LocationContext; exports.RouteContext = RouteContext; exports.ENABLE_DEV_WARNINGS = ENABLE_DEV_WARNINGS; exports.warnOnce = warnOnce; exports.useHref = useHref; exports.useInRouterContext = useInRouterContext; exports.useLocation = useLocation; exports.useNavigationType = useNavigationType; exports.useMatch = useMatch; exports.useNavigate = useNavigate; exports.useOutletContext = useOutletContext; exports.useOutlet = useOutlet; exports.useParams = useParams; exports.useResolvedPath = useResolvedPath; exports.useRoutes = useRoutes; exports.useRoutesImpl = useRoutesImpl; exports.useRouteId = useRouteId; exports.useNavigation = useNavigation; exports.useRevalidator = useRevalidator; exports.useMatches = useMatches; exports.useLoaderData = useLoaderData; exports.useRouteLoaderData = useRouteLoaderData; exports.useActionData = useActionData; exports.useRouteError = useRouteError; exports.useAsyncValue = useAsyncValue; exports.useAsyncError = useAsyncError; exports.useBlocker = useBlocker; exports.useRoute = useRoute; exports.RemixErrorBoundary = RemixErrorBoundary; exports.createServerRoutes = createServerRoutes; exports.createClientRoutesWithHMRRevalidationOptOut = createClientRoutesWithHMRRevalidationOptOut; exports.noActionDefinedError = noActionDefinedError; exports.createClientRoutes = createClientRoutes; exports.shouldHydrateRouteLoader = shouldHydrateRouteLoader; exports.getPatchRoutesOnNavigationFunction = getPatchRoutesOnNavigationFunction; exports.useFogOFWarDiscovery = useFogOFWarDiscovery; exports.getManifestPath = getManifestPath; exports.FrameworkContext = FrameworkContext; exports.usePrefetchBehavior = usePrefetchBehavior; exports.CRITICAL_CSS_DATA_ATTRIBUTE = CRITICAL_CSS_DATA_ATTRIBUTE; exports.Links = Links; exports.PrefetchPageLinks = PrefetchPageLinks; exports.Meta = Meta; exports.setIsHydrated = setIsHydrated; exports.Scripts = Scripts; exports.mergeRefs = mergeRefs; exports.mapRouteProperties = mapRouteProperties; exports.hydrationRouteProperties = hydrationRouteProperties; exports.createMemoryRouter = createMemoryRouter; exports.UNSTABLE_TransitionEnabledRouterProvider = UNSTABLE_TransitionEnabledRouterProvider; exports.RouterProvider = RouterProvider; exports.MemoryRouter = MemoryRouter; exports.Navigate = Navigate; exports.Outlet = Outlet; exports.Route = Route; exports.Router = Router; exports.Routes = Routes; exports.Await = Await; exports.createRoutesFromChildren = createRoutesFromChildren; exports.createRoutesFromElements = createRoutesFromElements; exports.renderMatches = renderMatches; exports.WithComponentProps = WithComponentProps; exports.withComponentProps = withComponentProps; exports.WithHydrateFallbackProps = WithHydrateFallbackProps; exports.withHydrateFallbackProps = withHydrateFallbackProps; exports.WithErrorBoundaryProps = WithErrorBoundaryProps; exports.withErrorBoundaryProps = withErrorBoundaryProps;
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