/** * Prefix for resolved Ids that are not valid browser import specifiers */ const VALID_ID_PREFIX = "/@id/", NULL_BYTE_PLACEHOLDER = "__x00__"; let SOURCEMAPPING_URL = "sourceMa"; SOURCEMAPPING_URL += "ppingURL"; const ERR_OUTDATED_OPTIMIZED_DEP = "ERR_OUTDATED_OPTIMIZED_DEP", isWindows = typeof process < "u" && process.platform === "win32"; /** * Undo {@link wrapId}'s `/@id/` and null byte replacements. */ function unwrapId(id) { return id.startsWith(VALID_ID_PREFIX) ? id.slice(VALID_ID_PREFIX.length).replace(NULL_BYTE_PLACEHOLDER, "\0") : id; } const windowsSlashRE = /\\/g; function slash(p) { return p.replace(windowsSlashRE, "/"); } const postfixRE = /[?#].*$/; function cleanUrl(url) { return url.replace(postfixRE, ""); } function isPrimitive(value) { return !value || typeof value != "object" && typeof value != "function"; } const AsyncFunction = async function() {}.constructor; let asyncFunctionDeclarationPaddingLineCount; function getAsyncFunctionDeclarationPaddingLineCount() { if (asyncFunctionDeclarationPaddingLineCount === void 0) { let body = "/*code*/", source = new AsyncFunction("a", "b", body).toString(); asyncFunctionDeclarationPaddingLineCount = source.slice(0, source.indexOf(body)).split("\n").length - 1; } return asyncFunctionDeclarationPaddingLineCount; } function promiseWithResolvers() { let resolve$1, reject, promise = new Promise((_resolve, _reject) => { resolve$1 = _resolve, reject = _reject; }); return { promise, resolve: resolve$1, reject }; } const _DRIVE_LETTER_START_RE = /^[A-Za-z]:\//; function normalizeWindowsPath(input = "") { return input && input.replace(/\\/g, "/").replace(_DRIVE_LETTER_START_RE, (r) => r.toUpperCase()); } const _IS_ABSOLUTE_RE = /^[/\\](?![/\\])|^[/\\]{2}(?!\.)|^[A-Za-z]:[/\\]/, _DRIVE_LETTER_RE = /^[A-Za-z]:$/; function cwd() { return typeof process < "u" && typeof process.cwd == "function" ? process.cwd().replace(/\\/g, "/") : "/"; } const resolve = function(...arguments_) { arguments_ = arguments_.map((argument) => normalizeWindowsPath(argument)); let resolvedPath = "", resolvedAbsolute = !1; for (let index = arguments_.length - 1; index >= -1 && !resolvedAbsolute; index--) { let path = index >= 0 ? arguments_[index] : cwd(); !path || path.length === 0 || (resolvedPath = `${path}/${resolvedPath}`, resolvedAbsolute = isAbsolute(path)); } return resolvedPath = normalizeString(resolvedPath, !resolvedAbsolute), resolvedAbsolute && !isAbsolute(resolvedPath) ? `/${resolvedPath}` : resolvedPath.length > 0 ? resolvedPath : "."; }; function normalizeString(path, allowAboveRoot) { let res = "", lastSegmentLength = 0, lastSlash = -1, dots = 0, char = null; for (let index = 0; index <= path.length; ++index) { if (index < path.length) char = path[index]; else if (char === "/") break; else char = "/"; if (char === "/") { if (!(lastSlash === index - 1 || dots === 1)) if (dots === 2) { if (res.length < 2 || lastSegmentLength !== 2 || res[res.length - 1] !== "." || res[res.length - 2] !== ".") { if (res.length > 2) { let lastSlashIndex = res.lastIndexOf("/"); lastSlashIndex === -1 ? (res = "", lastSegmentLength = 0) : (res = res.slice(0, lastSlashIndex), lastSegmentLength = res.length - 1 - res.lastIndexOf("/")), lastSlash = index, dots = 0; continue; } else if (res.length > 0) { res = "", lastSegmentLength = 0, lastSlash = index, dots = 0; continue; } } allowAboveRoot && (res += res.length > 0 ? "/.." : "..", lastSegmentLength = 2); } else res.length > 0 ? res += `/${path.slice(lastSlash + 1, index)}` : res = path.slice(lastSlash + 1, index), lastSegmentLength = index - lastSlash - 1; lastSlash = index, dots = 0; } else char === "." && dots !== -1 ? ++dots : dots = -1; } return res; } const isAbsolute = function(p) { return _IS_ABSOLUTE_RE.test(p); }, dirname = function(p) { let segments = normalizeWindowsPath(p).replace(/\/$/, "").split("/").slice(0, -1); return segments.length === 1 && _DRIVE_LETTER_RE.test(segments[0]) && (segments[0] += "/"), segments.join("/") || (isAbsolute(p) ? "/" : "."); }, decodeBase64 = typeof atob < "u" ? atob : (str) => Buffer.from(str, "base64").toString("utf-8"), CHAR_FORWARD_SLASH = 47, CHAR_BACKWARD_SLASH = 92, percentRegEx = /%/g, backslashRegEx = /\\/g, newlineRegEx = /\n/g, carriageReturnRegEx = /\r/g, tabRegEx = /\t/g, questionRegex = /\?/g, hashRegex = /#/g; function encodePathChars(filepath) { return filepath.indexOf("%") !== -1 && (filepath = filepath.replace(percentRegEx, "%25")), !isWindows && filepath.indexOf("\\") !== -1 && (filepath = filepath.replace(backslashRegEx, "%5C")), filepath.indexOf("\n") !== -1 && (filepath = filepath.replace(newlineRegEx, "%0A")), filepath.indexOf("\r") !== -1 && (filepath = filepath.replace(carriageReturnRegEx, "%0D")), filepath.indexOf(" ") !== -1 && (filepath = filepath.replace(tabRegEx, "%09")), filepath; } const posixDirname = dirname, posixResolve = resolve; function posixPathToFileHref(posixPath) { let resolved = posixResolve(posixPath), filePathLast = posixPath.charCodeAt(posixPath.length - 1); return (filePathLast === CHAR_FORWARD_SLASH || isWindows && filePathLast === CHAR_BACKWARD_SLASH) && resolved[resolved.length - 1] !== "/" && (resolved += "/"), resolved = encodePathChars(resolved), resolved.indexOf("?") !== -1 && (resolved = resolved.replace(questionRegex, "%3F")), resolved.indexOf("#") !== -1 && (resolved = resolved.replace(hashRegex, "%23")), new URL(`file://${resolved}`).href; } function toWindowsPath(path) { return path.replace(/\//g, "\\"); } const comma = 44, semicolon = 59, chars = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/", intToChar = new Uint8Array(64), charToInt = new Uint8Array(128); for (let i = 0; i < 64; i++) { let c = chars.charCodeAt(i); intToChar[i] = c, charToInt[c] = i; } function decodeInteger(reader, relative) { let value = 0, shift = 0, integer = 0; do { let c = reader.next(); integer = charToInt[c], value |= (integer & 31) << shift, shift += 5; } while (integer & 32); let shouldNegate = value & 1; return value >>>= 1, shouldNegate && (value = -2147483648 | -value), relative + value; } function hasMoreVlq(reader, max) { return reader.pos >= max ? !1 : reader.peek() !== comma; } const bufLength = 1024 * 16; var StringReader = class { constructor(buffer) { this.pos = 0, this.buffer = buffer; } next() { return this.buffer.charCodeAt(this.pos++); } peek() { return this.buffer.charCodeAt(this.pos); } indexOf(char) { let { buffer, pos } = this, idx = buffer.indexOf(char, pos); return idx === -1 ? buffer.length : idx; } }; function decode(mappings) { let { length } = mappings, reader = new StringReader(mappings), decoded = [], genColumn = 0, sourcesIndex = 0, sourceLine = 0, sourceColumn = 0, namesIndex = 0; do { let semi = reader.indexOf(";"), line = [], sorted = !0, lastCol = 0; for (genColumn = 0; reader.pos < semi;) { let seg; genColumn = decodeInteger(reader, genColumn), genColumn < lastCol && (sorted = !1), lastCol = genColumn, hasMoreVlq(reader, semi) ? (sourcesIndex = decodeInteger(reader, sourcesIndex), sourceLine = decodeInteger(reader, sourceLine), sourceColumn = decodeInteger(reader, sourceColumn), hasMoreVlq(reader, semi) ? (namesIndex = decodeInteger(reader, namesIndex), seg = [ genColumn, sourcesIndex, sourceLine, sourceColumn, namesIndex ]) : seg = [ genColumn, sourcesIndex, sourceLine, sourceColumn ]) : seg = [genColumn], line.push(seg), reader.pos++; } sorted || sort(line), decoded.push(line), reader.pos = semi + 1; } while (reader.pos <= length); return decoded; } function sort(line) { line.sort(sortComparator); } function sortComparator(a, b) { return a[0] - b[0]; } var COLUMN = 0, SOURCES_INDEX = 1, SOURCE_LINE = 2, SOURCE_COLUMN = 3, NAMES_INDEX = 4, found = !1; function binarySearch(haystack, needle, low, high) { for (; low <= high;) { let mid = low + (high - low >> 1), cmp = haystack[mid][COLUMN] - needle; if (cmp === 0) return found = !0, mid; cmp < 0 ? low = mid + 1 : high = mid - 1; } return found = !1, low - 1; } function upperBound(haystack, needle, index) { for (let i = index + 1; i < haystack.length && haystack[i][COLUMN] === needle; index = i++); return index; } function lowerBound(haystack, needle, index) { for (let i = index - 1; i >= 0 && haystack[i][COLUMN] === needle; index = i--); return index; } function memoizedBinarySearch(haystack, needle, state, key) { let { lastKey, lastNeedle, lastIndex } = state, low = 0, high = haystack.length - 1; if (key === lastKey) { if (needle === lastNeedle) return found = lastIndex !== -1 && haystack[lastIndex][COLUMN] === needle, lastIndex; needle >= lastNeedle ? low = lastIndex === -1 ? 0 : lastIndex : high = lastIndex; } return state.lastKey = key, state.lastNeedle = needle, state.lastIndex = binarySearch(haystack, needle, low, high); } var LINE_GTR_ZERO = "`line` must be greater than 0 (lines start at line 1)", COL_GTR_EQ_ZERO = "`column` must be greater than or equal to 0 (columns start at column 0)", LEAST_UPPER_BOUND = -1, GREATEST_LOWER_BOUND = 1; function cast(map) { return map; } function decodedMappings(map) { var _a; return (_a = cast(map))._decoded || (_a._decoded = decode(cast(map)._encoded)); } function originalPositionFor(map, needle) { let { line, column, bias } = needle; if (line--, line < 0) throw Error(LINE_GTR_ZERO); if (column < 0) throw Error(COL_GTR_EQ_ZERO); let decoded = decodedMappings(map); if (line >= decoded.length) return OMapping(null, null, null, null); let segments = decoded[line], index = traceSegmentInternal(segments, cast(map)._decodedMemo, line, column, bias || GREATEST_LOWER_BOUND); if (index === -1) return OMapping(null, null, null, null); let segment = segments[index]; if (segment.length === 1) return OMapping(null, null, null, null); let { names, resolvedSources } = map; return OMapping(resolvedSources[segment[SOURCES_INDEX]], segment[SOURCE_LINE] + 1, segment[SOURCE_COLUMN], segment.length === 5 ? names[segment[NAMES_INDEX]] : null); } function OMapping(source, line, column, name) { return { source, line, column, name }; } function traceSegmentInternal(segments, memo, line, column, bias) { let index = memoizedBinarySearch(segments, column, memo, line); return found ? index = (bias === LEAST_UPPER_BOUND ? upperBound : lowerBound)(segments, column, index) : bias === LEAST_UPPER_BOUND && index++, index === -1 || index === segments.length ? -1 : index; } var DecodedMap = class { _encoded; _decoded; _decodedMemo; url; version; names = []; resolvedSources; constructor(map, from) { this.map = map; let { mappings, names, sources } = map; this.version = map.version, this.names = names || [], this._encoded = mappings || "", this._decodedMemo = memoizedState(), this.url = from, this.resolvedSources = (sources || []).map((s) => posixResolve(s || "", from)); } }; function memoizedState() { return { lastKey: -1, lastNeedle: -1, lastIndex: -1 }; } function getOriginalPosition(map, needle) { let result = originalPositionFor(map, needle); return result.column == null ? null : result; } const MODULE_RUNNER_SOURCEMAPPING_REGEXP = /* @__PURE__ */ RegExp(`//# ${SOURCEMAPPING_URL}=data:application/json;base64,(.+)`); var EvaluatedModuleNode = class { importers = /* @__PURE__ */ new Set(); imports = /* @__PURE__ */ new Set(); evaluated = !1; meta; promise; exports; file; map; constructor(id, url) { this.id = id, this.url = url, this.file = cleanUrl(id); } }, EvaluatedModules = class { idToModuleMap = /* @__PURE__ */ new Map(); fileToModulesMap = /* @__PURE__ */ new Map(); urlToIdModuleMap = /* @__PURE__ */ new Map(); /** * Returns the module node by the resolved module ID. Usually, module ID is * the file system path with query and/or hash. It can also be a virtual module. * * Module runner graph will have 1 to 1 mapping with the server module graph. * @param id Resolved module ID */ getModuleById(id) { return this.idToModuleMap.get(id); } /** * Returns all modules related to the file system path. Different modules * might have different query parameters or hash, so it's possible to have * multiple modules for the same file. * @param file The file system path of the module */ getModulesByFile(file) { return this.fileToModulesMap.get(file); } /** * Returns the module node by the URL that was used in the import statement. * Unlike module graph on the server, the URL is not resolved and is used as is. * @param url Server URL that was used in the import statement */ getModuleByUrl(url) { return this.urlToIdModuleMap.get(unwrapId(url)); } /** * Ensure that module is in the graph. If the module is already in the graph, * it will return the existing module node. Otherwise, it will create a new * module node and add it to the graph. * @param id Resolved module ID * @param url URL that was used in the import statement */ ensureModule(id, url) { if (id = normalizeModuleId(id), this.idToModuleMap.has(id)) { let moduleNode$1 = this.idToModuleMap.get(id); return this.urlToIdModuleMap.set(url, moduleNode$1), moduleNode$1; } let moduleNode = new EvaluatedModuleNode(id, url); this.idToModuleMap.set(id, moduleNode), this.urlToIdModuleMap.set(url, moduleNode); let fileModules = this.fileToModulesMap.get(moduleNode.file) || /* @__PURE__ */ new Set(); return fileModules.add(moduleNode), this.fileToModulesMap.set(moduleNode.file, fileModules), moduleNode; } invalidateModule(node) { node.evaluated = !1, node.meta = void 0, node.map = void 0, node.promise = void 0, node.exports = void 0, node.imports.clear(); } /** * Extracts the inlined source map from the module code and returns the decoded * source map. If the source map is not inlined, it will return null. * @param id Resolved module ID */ getModuleSourceMapById(id) { let mod = this.getModuleById(id); if (!mod) return null; if (mod.map) return mod.map; if (!mod.meta || !("code" in mod.meta)) return null; let mapString = MODULE_RUNNER_SOURCEMAPPING_REGEXP.exec(mod.meta.code)?.[1]; return mapString ? (mod.map = new DecodedMap(JSON.parse(decodeBase64(mapString)), mod.file), mod.map) : null; } clear() { this.idToModuleMap.clear(), this.fileToModulesMap.clear(), this.urlToIdModuleMap.clear(); } }; const prefixedBuiltins = new Set([ "node:sea", "node:sqlite", "node:test", "node:test/reporters" ]); function normalizeModuleId(file) { if (prefixedBuiltins.has(file)) return file; let unixFile = slash(file).replace(/^\/@fs\//, isWindows ? "" : "/").replace(/^node:/, "").replace(/^\/+/, "/"); return unixFile.replace(/^file:\//, "/"); } var HMRContext = class { newListeners; constructor(hmrClient, ownerPath) { this.hmrClient = hmrClient, this.ownerPath = ownerPath, hmrClient.dataMap.has(ownerPath) || hmrClient.dataMap.set(ownerPath, {}); let mod = hmrClient.hotModulesMap.get(ownerPath); mod && (mod.callbacks = []); let staleListeners = hmrClient.ctxToListenersMap.get(ownerPath); if (staleListeners) for (let [event, staleFns] of staleListeners) { let listeners = hmrClient.customListenersMap.get(event); listeners && hmrClient.customListenersMap.set(event, listeners.filter((l) => !staleFns.includes(l))); } this.newListeners = /* @__PURE__ */ new Map(), hmrClient.ctxToListenersMap.set(ownerPath, this.newListeners); } get data() { return this.hmrClient.dataMap.get(this.ownerPath); } accept(deps, callback) { if (typeof deps == "function" || !deps) this.acceptDeps([this.ownerPath], ([mod]) => deps?.(mod)); else if (typeof deps == "string") this.acceptDeps([deps], ([mod]) => callback?.(mod)); else if (Array.isArray(deps)) this.acceptDeps(deps, callback); else throw Error("invalid hot.accept() usage."); } acceptExports(_, callback) { this.acceptDeps([this.ownerPath], ([mod]) => callback?.(mod)); } dispose(cb) { this.hmrClient.disposeMap.set(this.ownerPath, cb); } prune(cb) { this.hmrClient.pruneMap.set(this.ownerPath, cb); } decline() {} invalidate(message) { let firstInvalidatedBy = this.hmrClient.currentFirstInvalidatedBy ?? this.ownerPath; this.hmrClient.notifyListeners("vite:invalidate", { path: this.ownerPath, message, firstInvalidatedBy }), this.send("vite:invalidate", { path: this.ownerPath, message, firstInvalidatedBy }), this.hmrClient.logger.debug(`invalidate ${this.ownerPath}${message ? `: ${message}` : ""}`); } on(event, cb) { let addToMap = (map) => { let existing = map.get(event) || []; existing.push(cb), map.set(event, existing); }; addToMap(this.hmrClient.customListenersMap), addToMap(this.newListeners); } off(event, cb) { let removeFromMap = (map) => { let existing = map.get(event); if (existing === void 0) return; let pruned = existing.filter((l) => l !== cb); if (pruned.length === 0) { map.delete(event); return; } map.set(event, pruned); }; removeFromMap(this.hmrClient.customListenersMap), removeFromMap(this.newListeners); } send(event, data) { this.hmrClient.send({ type: "custom", event, data }); } acceptDeps(deps, callback = () => {}) { let mod = this.hmrClient.hotModulesMap.get(this.ownerPath) || { id: this.ownerPath, callbacks: [] }; mod.callbacks.push({ deps, fn: callback }), this.hmrClient.hotModulesMap.set(this.ownerPath, mod); } }, HMRClient = class { hotModulesMap = /* @__PURE__ */ new Map(); disposeMap = /* @__PURE__ */ new Map(); pruneMap = /* @__PURE__ */ new Map(); dataMap = /* @__PURE__ */ new Map(); customListenersMap = /* @__PURE__ */ new Map(); ctxToListenersMap = /* @__PURE__ */ new Map(); currentFirstInvalidatedBy; constructor(logger, transport, importUpdatedModule) { this.logger = logger, this.transport = transport, this.importUpdatedModule = importUpdatedModule; } async notifyListeners(event, data) { let cbs = this.customListenersMap.get(event); cbs && await Promise.allSettled(cbs.map((cb) => cb(data))); } send(payload) { this.transport.send(payload).catch((err) => { this.logger.error(err); }); } clear() { this.hotModulesMap.clear(), this.disposeMap.clear(), this.pruneMap.clear(), this.dataMap.clear(), this.customListenersMap.clear(), this.ctxToListenersMap.clear(); } async prunePaths(paths) { await Promise.all(paths.map((path) => { let disposer = this.disposeMap.get(path); if (disposer) return disposer(this.dataMap.get(path)); })), paths.forEach((path) => { let fn = this.pruneMap.get(path); fn && fn(this.dataMap.get(path)); }); } warnFailedUpdate(err, path) { (!(err instanceof Error) || !err.message.includes("fetch")) && this.logger.error(err), this.logger.error(`Failed to reload ${path}. This could be due to syntax errors or importing non-existent modules. (see errors above)`); } updateQueue = []; pendingUpdateQueue = !1; /** * buffer multiple hot updates triggered by the same src change * so that they are invoked in the same order they were sent. * (otherwise the order may be inconsistent because of the http request round trip) */ async queueUpdate(payload) { if (this.updateQueue.push(this.fetchUpdate(payload)), !this.pendingUpdateQueue) { this.pendingUpdateQueue = !0, await Promise.resolve(), this.pendingUpdateQueue = !1; let loading = [...this.updateQueue]; this.updateQueue = [], (await Promise.all(loading)).forEach((fn) => fn && fn()); } } async fetchUpdate(update) { let { path, acceptedPath, firstInvalidatedBy } = update, mod = this.hotModulesMap.get(path); if (!mod) return; let fetchedModule, isSelfUpdate = path === acceptedPath, qualifiedCallbacks = mod.callbacks.filter(({ deps }) => deps.includes(acceptedPath)); if (isSelfUpdate || qualifiedCallbacks.length > 0) { let disposer = this.disposeMap.get(acceptedPath); disposer && await disposer(this.dataMap.get(acceptedPath)); try { fetchedModule = await this.importUpdatedModule(update); } catch (e) { this.warnFailedUpdate(e, acceptedPath); } } return () => { try { this.currentFirstInvalidatedBy = firstInvalidatedBy; for (let { deps, fn } of qualifiedCallbacks) fn(deps.map((dep) => dep === acceptedPath ? fetchedModule : void 0)); let loggedPath = isSelfUpdate ? path : `${acceptedPath} via ${path}`; this.logger.debug(`hot updated: ${loggedPath}`); } finally { this.currentFirstInvalidatedBy = void 0; } }; } }; /** * Vite converts `import { } from 'foo'` to `const _ = __vite_ssr_import__('foo')`. * Top-level imports and dynamic imports work slightly differently in Node.js. * This function normalizes the differences so it matches prod behaviour. */ function analyzeImportedModDifference(mod, rawId, moduleType, metadata) { if (!metadata?.isDynamicImport && metadata?.importedNames?.length) { let missingBindings = metadata.importedNames.filter((s) => !(s in mod)); if (missingBindings.length) { let lastBinding = missingBindings[missingBindings.length - 1]; throw moduleType === "module" ? SyntaxError(`[vite] The requested module '${rawId}' does not provide an export named '${lastBinding}'`) : SyntaxError(`\ [vite] Named export '${lastBinding}' not found. The requested module '${rawId}' is a CommonJS module, which may not support all module.exports as named exports. CommonJS modules can always be imported via the default export, for example using: import pkg from '${rawId}'; const {${missingBindings.join(", ")}} = pkg; `); } } } let urlAlphabet = "useandom-26T198340PX75pxJACKVERYMINDBUSHWOLF_GQZbfghjklqvwyzrict", nanoid = (size = 21) => { let id = "", i = size | 0; for (; i--;) id += urlAlphabet[Math.random() * 64 | 0]; return id; }; function reviveInvokeError(e) { let error = Error(e.message || "Unknown invoke error"); return Object.assign(error, e, { runnerError: /* @__PURE__ */ Error("RunnerError") }), error; } const createInvokeableTransport = (transport) => { if (transport.invoke) return { ...transport, async invoke(name, data) { let result = await transport.invoke({ type: "custom", event: "vite:invoke", data: { id: "send", name, data } }); if ("error" in result) throw reviveInvokeError(result.error); return result.result; } }; if (!transport.send || !transport.connect) throw Error("transport must implement send and connect when invoke is not implemented"); let rpcPromises = /* @__PURE__ */ new Map(); return { ...transport, connect({ onMessage, onDisconnection }) { return transport.connect({ onMessage(payload) { if (payload.type === "custom" && payload.event === "vite:invoke") { let data = payload.data; if (data.id.startsWith("response:")) { let invokeId = data.id.slice(9), promise = rpcPromises.get(invokeId); if (!promise) return; promise.timeoutId && clearTimeout(promise.timeoutId), rpcPromises.delete(invokeId); let { error, result } = data.data; error ? promise.reject(error) : promise.resolve(result); return; } } onMessage(payload); }, onDisconnection }); }, disconnect() { return rpcPromises.forEach((promise) => { promise.reject(/* @__PURE__ */ Error(`transport was disconnected, cannot call ${JSON.stringify(promise.name)}`)); }), rpcPromises.clear(), transport.disconnect?.(); }, send(data) { return transport.send(data); }, async invoke(name, data) { let promiseId = nanoid(), wrappedData = { type: "custom", event: "vite:invoke", data: { name, id: `send:${promiseId}`, data } }, sendPromise = transport.send(wrappedData), { promise, resolve: resolve$1, reject } = promiseWithResolvers(), timeout = transport.timeout ?? 6e4, timeoutId; timeout > 0 && (timeoutId = setTimeout(() => { rpcPromises.delete(promiseId), reject(/* @__PURE__ */ Error(`transport invoke timed out after ${timeout}ms (data: ${JSON.stringify(wrappedData)})`)); }, timeout), timeoutId?.unref?.()), rpcPromises.set(promiseId, { resolve: resolve$1, reject, name, timeoutId }), sendPromise && sendPromise.catch((err) => { clearTimeout(timeoutId), rpcPromises.delete(promiseId), reject(err); }); try { return await promise; } catch (err) { throw reviveInvokeError(err); } } }; }, normalizeModuleRunnerTransport = (transport) => { let invokeableTransport = createInvokeableTransport(transport), isConnected = !invokeableTransport.connect, connectingPromise; return { ...transport, ...invokeableTransport.connect ? { async connect(onMessage) { if (isConnected) return; if (connectingPromise) { await connectingPromise; return; } let maybePromise = invokeableTransport.connect({ onMessage: onMessage ?? (() => {}), onDisconnection() { isConnected = !1; } }); maybePromise && (connectingPromise = maybePromise, await connectingPromise, connectingPromise = void 0), isConnected = !0; } } : {}, ...invokeableTransport.disconnect ? { async disconnect() { isConnected && (connectingPromise && await connectingPromise, isConnected = !1, await invokeableTransport.disconnect()); } } : {}, async send(data) { if (invokeableTransport.send) { if (!isConnected) if (connectingPromise) await connectingPromise; else throw Error("send was called before connect"); await invokeableTransport.send(data); } }, async invoke(name, data) { if (!isConnected) if (connectingPromise) await connectingPromise; else throw Error("invoke was called before connect"); return invokeableTransport.invoke(name, data); } }; }, createWebSocketModuleRunnerTransport = (options) => { let pingInterval = options.pingInterval ?? 3e4, ws, pingIntervalId; return { async connect({ onMessage, onDisconnection }) { let socket = options.createConnection(); socket.addEventListener("message", async ({ data }) => { onMessage(JSON.parse(data)); }); let isOpened = socket.readyState === socket.OPEN; isOpened || await new Promise((resolve$1, reject) => { socket.addEventListener("open", () => { isOpened = !0, resolve$1(); }, { once: !0 }), socket.addEventListener("close", async () => { if (!isOpened) { reject(/* @__PURE__ */ Error("WebSocket closed without opened.")); return; } onMessage({ type: "custom", event: "vite:ws:disconnect", data: { webSocket: socket } }), onDisconnection(); }); }), onMessage({ type: "custom", event: "vite:ws:connect", data: { webSocket: socket } }), ws = socket, pingIntervalId = setInterval(() => { socket.readyState === socket.OPEN && socket.send(JSON.stringify({ type: "ping" })); }, pingInterval); }, disconnect() { clearInterval(pingIntervalId), ws?.close(); }, send(data) { ws.send(JSON.stringify(data)); } }; }, ssrModuleExportsKey = "__vite_ssr_exports__", ssrImportKey = "__vite_ssr_import__", ssrDynamicImportKey = "__vite_ssr_dynamic_import__", ssrExportAllKey = "__vite_ssr_exportAll__", ssrExportNameKey = "__vite_ssr_exportName__", ssrImportMetaKey = "__vite_ssr_import_meta__", noop = () => {}, silentConsole = { debug: noop, error: noop }, hmrLogger = { debug: (...msg) => console.log("[vite]", ...msg), error: (error) => console.log("[vite]", error) }; function createHMRHandler(handler) { let queue = new Queue(); return (payload) => queue.enqueue(() => handler(payload)); } var Queue = class { queue = []; pending = !1; enqueue(promise) { return new Promise((resolve$1, reject) => { this.queue.push({ promise, resolve: resolve$1, reject }), this.dequeue(); }); } dequeue() { if (this.pending) return !1; let item = this.queue.shift(); return item ? (this.pending = !0, item.promise().then(item.resolve).catch(item.reject).finally(() => { this.pending = !1, this.dequeue(); }), !0) : !1; } }; function createHMRHandlerForRunner(runner) { return createHMRHandler(async (payload) => { let hmrClient = runner.hmrClient; if (!(!hmrClient || runner.isClosed())) switch (payload.type) { case "connected": hmrClient.logger.debug("connected."); break; case "update": await hmrClient.notifyListeners("vite:beforeUpdate", payload), await Promise.all(payload.updates.map(async (update) => { if (update.type === "js-update") return update.acceptedPath = unwrapId(update.acceptedPath), update.path = unwrapId(update.path), hmrClient.queueUpdate(update); hmrClient.logger.error("css hmr is not supported in runner mode."); })), await hmrClient.notifyListeners("vite:afterUpdate", payload); break; case "custom": await hmrClient.notifyListeners(payload.event, payload.data); break; case "full-reload": { let { triggeredBy } = payload, clearEntrypointUrls = triggeredBy ? getModulesEntrypoints(runner, getModulesByFile(runner, slash(triggeredBy))) : findAllEntrypoints(runner); if (!clearEntrypointUrls.size) break; hmrClient.logger.debug("program reload"), await hmrClient.notifyListeners("vite:beforeFullReload", payload), runner.evaluatedModules.clear(); for (let url of clearEntrypointUrls) try { await runner.import(url); } catch (err) { err.code !== ERR_OUTDATED_OPTIMIZED_DEP && hmrClient.logger.error(`An error happened during full reload\n${err.message}\n${err.stack}`); } break; } case "prune": await hmrClient.notifyListeners("vite:beforePrune", payload), await hmrClient.prunePaths(payload.paths); break; case "error": { await hmrClient.notifyListeners("vite:error", payload); let err = payload.err; hmrClient.logger.error(`Internal Server Error\n${err.message}\n${err.stack}`); break; } case "ping": break; default: { let check = payload; return check; } } }); } function getModulesByFile(runner, file) { let nodes = runner.evaluatedModules.getModulesByFile(file); return nodes ? [...nodes].map((node) => node.id) : []; } function getModulesEntrypoints(runner, modules, visited = /* @__PURE__ */ new Set(), entrypoints = /* @__PURE__ */ new Set()) { for (let moduleId of modules) { if (visited.has(moduleId)) continue; visited.add(moduleId); let module = runner.evaluatedModules.getModuleById(moduleId); if (!module) continue; if (!module.importers.size) { entrypoints.add(module.url); continue; } for (let importer of module.importers) getModulesEntrypoints(runner, [importer], visited, entrypoints); } return entrypoints; } function findAllEntrypoints(runner, entrypoints = /* @__PURE__ */ new Set()) { for (let mod of runner.evaluatedModules.idToModuleMap.values()) mod.importers.size || entrypoints.add(mod.url); return entrypoints; } const sourceMapCache = {}, fileContentsCache = {}, evaluatedModulesCache = /* @__PURE__ */ new Set(), retrieveFileHandlers = /* @__PURE__ */ new Set(), retrieveSourceMapHandlers = /* @__PURE__ */ new Set(), createExecHandlers = (handlers) => (...args) => { for (let handler of handlers) { let result = handler(...args); if (result) return result; } return null; }, retrieveFileFromHandlers = createExecHandlers(retrieveFileHandlers), retrieveSourceMapFromHandlers = createExecHandlers(retrieveSourceMapHandlers); let overridden = !1; const originalPrepare = Error.prepareStackTrace; function resetInterceptor(runner, options) { evaluatedModulesCache.delete(runner.evaluatedModules), options.retrieveFile && retrieveFileHandlers.delete(options.retrieveFile), options.retrieveSourceMap && retrieveSourceMapHandlers.delete(options.retrieveSourceMap), evaluatedModulesCache.size === 0 && (Error.prepareStackTrace = originalPrepare, overridden = !1); } function interceptStackTrace(runner, options = {}) { return overridden || (Error.prepareStackTrace = prepareStackTrace, overridden = !0), evaluatedModulesCache.add(runner.evaluatedModules), options.retrieveFile && retrieveFileHandlers.add(options.retrieveFile), options.retrieveSourceMap && retrieveSourceMapHandlers.add(options.retrieveSourceMap), () => resetInterceptor(runner, options); } function supportRelativeURL(file, url) { if (!file) return url; let dir = posixDirname(slash(file)), match = /^\w+:\/\/[^/]*/.exec(dir), protocol = match ? match[0] : "", startPath = dir.slice(protocol.length); return protocol && /^\/\w:/.test(startPath) ? (protocol += "/", protocol + slash(posixResolve(startPath, url))) : protocol + posixResolve(startPath, url); } function getRunnerSourceMap(position) { for (let moduleGraph of evaluatedModulesCache) { let sourceMap = moduleGraph.getModuleSourceMapById(position.source); if (sourceMap) return { url: position.source, map: sourceMap, vite: !0 }; } return null; } function retrieveFile(path) { if (path in fileContentsCache) return fileContentsCache[path]; let content = retrieveFileFromHandlers(path); return typeof content == "string" ? (fileContentsCache[path] = content, content) : null; } function retrieveSourceMapURL(source) { let fileData = retrieveFile(source); if (!fileData) return null; let re = /\/\/[@#]\s*sourceMappingURL=([^\s'"]+)\s*$|\/\*[@#]\s*sourceMappingURL=[^\s*'"]+\s*\*\/\s*$/gm, lastMatch, match; for (; match = re.exec(fileData);) lastMatch = match; return lastMatch ? lastMatch[1] : null; } const reSourceMap = /^data:application\/json[^,]+base64,/; function retrieveSourceMap(source) { let urlAndMap = retrieveSourceMapFromHandlers(source); if (urlAndMap) return urlAndMap; let sourceMappingURL = retrieveSourceMapURL(source); if (!sourceMappingURL) return null; let sourceMapData; if (reSourceMap.test(sourceMappingURL)) { let rawData = sourceMappingURL.slice(sourceMappingURL.indexOf(",") + 1); sourceMapData = Buffer.from(rawData, "base64").toString(), sourceMappingURL = source; } else sourceMappingURL = supportRelativeURL(source, sourceMappingURL), sourceMapData = retrieveFile(sourceMappingURL); return sourceMapData ? { url: sourceMappingURL, map: sourceMapData } : null; } function mapSourcePosition(position) { if (!position.source) return position; let sourceMap = getRunnerSourceMap(position); if (sourceMap ||= sourceMapCache[position.source], !sourceMap) { let urlAndMap = retrieveSourceMap(position.source); if (urlAndMap && urlAndMap.map) { let url = urlAndMap.url; sourceMap = sourceMapCache[position.source] = { url, map: new DecodedMap(typeof urlAndMap.map == "string" ? JSON.parse(urlAndMap.map) : urlAndMap.map, url) }; let contents = sourceMap.map?.map.sourcesContent; sourceMap.map && contents && sourceMap.map.resolvedSources.forEach((source, i) => { let content = contents[i]; if (content && source && url) { let contentUrl = supportRelativeURL(url, source); fileContentsCache[contentUrl] = content; } }); } else sourceMap = sourceMapCache[position.source] = { url: null, map: null }; } if (sourceMap.map && sourceMap.url) { let originalPosition = getOriginalPosition(sourceMap.map, position); if (originalPosition && originalPosition.source != null) return originalPosition.source = supportRelativeURL(sourceMap.url, originalPosition.source), sourceMap.vite && (originalPosition._vite = !0), originalPosition; } return position; } function mapEvalOrigin(origin) { let match = /^eval at ([^(]+) \((.+):(\d+):(\d+)\)$/.exec(origin); if (match) { let position = mapSourcePosition({ name: null, source: match[2], line: +match[3], column: match[4] - 1 }); return `eval at ${match[1]} (${position.source}:${position.line}:${position.column + 1})`; } return match = /^eval at ([^(]+) \((.+)\)$/.exec(origin), match ? `eval at ${match[1]} (${mapEvalOrigin(match[2])})` : origin; } function CallSiteToString() { let fileName, fileLocation = ""; if (this.isNative()) fileLocation = "native"; else { fileName = this.getScriptNameOrSourceURL(), !fileName && this.isEval() && (fileLocation = this.getEvalOrigin(), fileLocation += ", "), fileName ? fileLocation += fileName : fileLocation += ""; let lineNumber = this.getLineNumber(); if (lineNumber != null) { fileLocation += `:${lineNumber}`; let columnNumber = this.getColumnNumber(); columnNumber && (fileLocation += `:${columnNumber}`); } } let line = "", functionName = this.getFunctionName(), addSuffix = !0, isConstructor = this.isConstructor(), isMethodCall = !(this.isToplevel() || isConstructor); if (isMethodCall) { let typeName = this.getTypeName(); typeName === "[object Object]" && (typeName = "null"); let methodName = this.getMethodName(); functionName ? (typeName && functionName.indexOf(typeName) !== 0 && (line += `${typeName}.`), line += functionName, methodName && functionName.indexOf(`.${methodName}`) !== functionName.length - methodName.length - 1 && (line += ` [as ${methodName}]`)) : line += `${typeName}.${methodName || ""}`; } else isConstructor ? line += `new ${functionName || ""}` : functionName ? line += functionName : (line += fileLocation, addSuffix = !1); return addSuffix && (line += ` (${fileLocation})`), line; } function cloneCallSite(frame) { let object = {}; return Object.getOwnPropertyNames(Object.getPrototypeOf(frame)).forEach((name) => { let key = name; object[key] = /^(?:is|get)/.test(name) ? function() { return frame[key].call(frame); } : frame[key]; }), object.toString = CallSiteToString, object; } function wrapCallSite(frame, state) { if (state === void 0 && (state = { nextPosition: null, curPosition: null }), frame.isNative()) return state.curPosition = null, frame; let source = frame.getFileName() || frame.getScriptNameOrSourceURL(); if (source) { let line = frame.getLineNumber(), column = frame.getColumnNumber() - 1, headerLength = 62; line === 1 && column > headerLength && !frame.isEval() && (column -= headerLength); let position = mapSourcePosition({ name: null, source, line, column }); state.curPosition = position, frame = cloneCallSite(frame); let originalFunctionName = frame.getFunctionName; return frame.getFunctionName = function() { let name = (() => state.nextPosition == null ? originalFunctionName() : state.nextPosition.name || originalFunctionName())(); return name === "eval" && "_vite" in position ? null : name; }, frame.getFileName = function() { return position.source ?? null; }, frame.getLineNumber = function() { return position.line; }, frame.getColumnNumber = function() { return position.column + 1; }, frame.getScriptNameOrSourceURL = function() { return position.source; }, frame; } let origin = frame.isEval() && frame.getEvalOrigin(); return origin ? (origin = mapEvalOrigin(origin), frame = cloneCallSite(frame), frame.getEvalOrigin = function() { return origin || void 0; }, frame) : frame; } function prepareStackTrace(error, stack) { let name = error.name || "Error", message = error.message || "", errorString = `${name}: ${message}`, state = { nextPosition: null, curPosition: null }, processedStack = []; for (let i = stack.length - 1; i >= 0; i--) processedStack.push(`\n at ${wrapCallSite(stack[i], state)}`), state.nextPosition = state.curPosition; return state.curPosition = state.nextPosition = null, errorString + processedStack.reverse().join(""); } function enableSourceMapSupport(runner) { if (runner.options.sourcemapInterceptor === "node") { if (typeof process > "u") throw TypeError("Cannot use \"sourcemapInterceptor: 'node'\" because global \"process\" variable is not available."); if (typeof process.setSourceMapsEnabled != "function") throw TypeError("Cannot use \"sourcemapInterceptor: 'node'\" because \"process.setSourceMapsEnabled\" function is not available. Please use Node >= 16.6.0."); let isEnabledAlready = process.sourceMapsEnabled ?? !1; return process.setSourceMapsEnabled(!0), () => !isEnabledAlready && process.setSourceMapsEnabled(!1); } return interceptStackTrace(runner, typeof runner.options.sourcemapInterceptor == "object" ? runner.options.sourcemapInterceptor : void 0); } var ESModulesEvaluator = class { startOffset = getAsyncFunctionDeclarationPaddingLineCount(); async runInlinedModule(context, code) { let initModule = new AsyncFunction(ssrModuleExportsKey, ssrImportMetaKey, ssrImportKey, ssrDynamicImportKey, ssrExportAllKey, ssrExportNameKey, "\"use strict\";" + code); await initModule(context[ssrModuleExportsKey], context[ssrImportMetaKey], context[ssrImportKey], context[ssrDynamicImportKey], context[ssrExportAllKey], context[ssrExportNameKey]), Object.seal(context[ssrModuleExportsKey]); } runExternalModule(filepath) { return import(filepath); } }, ModuleRunner = class { evaluatedModules; hmrClient; envProxy = new Proxy({}, { get(_, p) { throw Error(`[module runner] Dynamic access of "import.meta.env" is not supported. Please, use "import.meta.env.${String(p)}" instead.`); } }); transport; resetSourceMapSupport; concurrentModuleNodePromises = /* @__PURE__ */ new Map(); closed = !1; constructor(options, evaluator = new ESModulesEvaluator(), debug) { if (this.options = options, this.evaluator = evaluator, this.debug = debug, this.evaluatedModules = options.evaluatedModules ?? new EvaluatedModules(), this.transport = normalizeModuleRunnerTransport(options.transport), options.hmr !== !1) { let optionsHmr = options.hmr ?? !0, resolvedHmrLogger = optionsHmr === !0 || optionsHmr.logger === void 0 ? hmrLogger : optionsHmr.logger === !1 ? silentConsole : optionsHmr.logger; if (this.hmrClient = new HMRClient(resolvedHmrLogger, this.transport, ({ acceptedPath }) => this.import(acceptedPath)), !this.transport.connect) throw Error("HMR is not supported by this runner transport, but `hmr` option was set to true"); this.transport.connect(createHMRHandlerForRunner(this)); } else this.transport.connect?.(); options.sourcemapInterceptor !== !1 && (this.resetSourceMapSupport = enableSourceMapSupport(this)); } /** * URL to execute. Accepts file path, server path or id relative to the root. */ async import(url) { let fetchedModule = await this.cachedModule(url); return await this.cachedRequest(url, fetchedModule); } /** * Clear all caches including HMR listeners. */ clearCache() { this.evaluatedModules.clear(), this.hmrClient?.clear(); } /** * Clears all caches, removes all HMR listeners, and resets source map support. * This method doesn't stop the HMR connection. */ async close() { this.resetSourceMapSupport?.(), this.clearCache(), this.hmrClient = void 0, this.closed = !0, await this.transport.disconnect?.(); } /** * Returns `true` if the runtime has been closed by calling `close()` method. */ isClosed() { return this.closed; } processImport(exports, fetchResult, metadata) { if (!("externalize" in fetchResult)) return exports; let { url, type } = fetchResult; return type !== "module" && type !== "commonjs" || analyzeImportedModDifference(exports, url, type, metadata), exports; } isCircularModule(mod) { for (let importedFile of mod.imports) if (mod.importers.has(importedFile)) return !0; return !1; } isCircularImport(importers, moduleUrl, visited = /* @__PURE__ */ new Set()) { for (let importer of importers) { if (visited.has(importer)) continue; if (visited.add(importer), importer === moduleUrl) return !0; let mod = this.evaluatedModules.getModuleById(importer); if (mod && mod.importers.size && this.isCircularImport(mod.importers, moduleUrl, visited)) return !0; } return !1; } async cachedRequest(url, mod, callstack = [], metadata) { let meta = mod.meta, moduleId = meta.id, { importers } = mod, importee = callstack[callstack.length - 1]; if (importee && importers.add(importee), (callstack.includes(moduleId) || this.isCircularModule(mod) || this.isCircularImport(importers, moduleId)) && mod.exports) return this.processImport(mod.exports, meta, metadata); let debugTimer; this.debug && (debugTimer = setTimeout(() => { let getStack = () => `stack:\n${[...callstack, moduleId].reverse().map((p) => ` - ${p}`).join("\n")}`; this.debug(`[module runner] module ${moduleId} takes over 2s to load.\n${getStack()}`); }, 2e3)); try { if (mod.promise) return this.processImport(await mod.promise, meta, metadata); let promise = this.directRequest(url, mod, callstack); return mod.promise = promise, mod.evaluated = !1, this.processImport(await promise, meta, metadata); } finally { mod.evaluated = !0, debugTimer && clearTimeout(debugTimer); } } async cachedModule(url, importer) { let cached = this.concurrentModuleNodePromises.get(url); if (cached) this.debug?.("[module runner] using cached module info for", url); else { let cachedModule = this.evaluatedModules.getModuleByUrl(url); cached = this.getModuleInformation(url, importer, cachedModule).finally(() => { this.concurrentModuleNodePromises.delete(url); }), this.concurrentModuleNodePromises.set(url, cached); } return cached; } async getModuleInformation(url, importer, cachedModule) { if (this.closed) throw Error("Vite module runner has been closed."); this.debug?.("[module runner] fetching", url); let isCached = !!(typeof cachedModule == "object" && cachedModule.meta), fetchedModule = url.startsWith("data:") ? { externalize: url, type: "builtin" } : await this.transport.invoke("fetchModule", [ url, importer, { cached: isCached, startOffset: this.evaluator.startOffset } ]); if ("cache" in fetchedModule) { if (!cachedModule || !cachedModule.meta) throw Error(`Module "${url}" was mistakenly invalidated during fetch phase.`); return cachedModule; } let moduleId = "externalize" in fetchedModule ? fetchedModule.externalize : fetchedModule.id, moduleUrl = "url" in fetchedModule ? fetchedModule.url : url, module = this.evaluatedModules.ensureModule(moduleId, moduleUrl); return "invalidate" in fetchedModule && fetchedModule.invalidate && this.evaluatedModules.invalidateModule(module), fetchedModule.url = moduleUrl, fetchedModule.id = moduleId, module.meta = fetchedModule, module; } async directRequest(url, mod, _callstack) { let fetchResult = mod.meta, moduleId = fetchResult.id, callstack = [..._callstack, moduleId], request = async (dep, metadata) => { let importer = "file" in fetchResult && fetchResult.file || moduleId, depMod = await this.cachedModule(dep, importer); return depMod.importers.add(moduleId), mod.imports.add(depMod.id), this.cachedRequest(dep, depMod, callstack, metadata); }, dynamicRequest = async (dep) => (dep = String(dep), dep[0] === "." && (dep = posixResolve(posixDirname(url), dep)), request(dep, { isDynamicImport: !0 })); if ("externalize" in fetchResult) { let { externalize } = fetchResult; this.debug?.("[module runner] externalizing", externalize); let exports$1 = await this.evaluator.runExternalModule(externalize); return mod.exports = exports$1, exports$1; } let { code, file } = fetchResult; if (code == null) { let importer = callstack[callstack.length - 2]; throw Error(`[module runner] Failed to load "${url}"${importer ? ` imported from ${importer}` : ""}`); } let modulePath = cleanUrl(file || moduleId), href = posixPathToFileHref(modulePath), filename = modulePath, dirname$1 = posixDirname(modulePath), meta = { filename: isWindows ? toWindowsPath(filename) : filename, dirname: isWindows ? toWindowsPath(dirname$1) : dirname$1, url: href, env: this.envProxy, resolve(_id, _parent) { throw Error("[module runner] \"import.meta.resolve\" is not supported."); }, glob() { throw Error("[module runner] \"import.meta.glob\" is statically replaced during file transformation. Make sure to reference it by the full name."); } }, exports = Object.create(null); Object.defineProperty(exports, Symbol.toStringTag, { value: "Module", enumerable: !1, configurable: !1 }), mod.exports = exports; let hotContext; this.hmrClient && Object.defineProperty(meta, "hot", { enumerable: !0, get: () => { if (!this.hmrClient) throw Error("[module runner] HMR client was closed."); return this.debug?.("[module runner] creating hmr context for", mod.url), hotContext ||= new HMRContext(this.hmrClient, mod.url), hotContext; }, set: (value) => { hotContext = value; } }); let context = { [ssrImportKey]: request, [ssrDynamicImportKey]: dynamicRequest, [ssrModuleExportsKey]: exports, [ssrExportAllKey]: (obj) => exportAll(exports, obj), [ssrExportNameKey]: (name, getter) => Object.defineProperty(exports, name, { enumerable: !0, configurable: !0, get: getter }), [ssrImportMetaKey]: meta }; return this.debug?.("[module runner] executing", href), await this.evaluator.runInlinedModule(context, code, mod), exports; } }; function exportAll(exports, sourceModule) { if (exports !== sourceModule && !(isPrimitive(sourceModule) || Array.isArray(sourceModule) || sourceModule instanceof Promise)) { for (let key in sourceModule) if (key !== "default" && key !== "__esModule" && !(key in exports)) try { Object.defineProperty(exports, key, { enumerable: !0, configurable: !0, get: () => sourceModule[key] }); } catch {} } } export { ESModulesEvaluator, EvaluatedModules, ModuleRunner, createWebSocketModuleRunnerTransport, normalizeModuleId, ssrDynamicImportKey, ssrExportAllKey, ssrExportNameKey, ssrImportKey, ssrImportMetaKey, ssrModuleExportsKey };