"use strict"; global.__r = metroRequire; global[`${__METRO_GLOBAL_PREFIX__}__d`] = define; global.__c = clear; global.__registerSegment = registerSegment; var modules = clear(); const EMPTY = {}; const CYCLE_DETECTED = {}; const { hasOwnProperty } = {}; if (__DEV__) { global.$RefreshReg$ = global.$RefreshReg$ ?? (() => {}); global.$RefreshSig$ = global.$RefreshSig$ ?? (() => (type) => type); } function clear() { modules = new Map(); return modules; } if (__DEV__) { var verboseNamesToModuleIds = new Map(); var getModuleIdForVerboseName = (verboseName) => { const moduleId = verboseNamesToModuleIds.get(verboseName); if (moduleId == null) { throw new Error(`Unknown named module: "${verboseName}"`); } return moduleId; }; var initializingModuleIds = []; } function define(factory, moduleId, dependencyMap) { if (modules.has(moduleId)) { if (__DEV__) { const inverseDependencies = arguments[4]; if (inverseDependencies) { global.__accept(moduleId, factory, dependencyMap, inverseDependencies); } } return; } const mod = { dependencyMap, factory, hasError: false, importedAll: EMPTY, importedDefault: EMPTY, isInitialized: false, publicModule: { exports: {}, }, }; modules.set(moduleId, mod); if (__DEV__) { mod.hot = createHotReloadingObject(); const verboseName = arguments[3]; if (verboseName) { mod.verboseName = verboseName; verboseNamesToModuleIds.set(verboseName, moduleId); } } } function metroRequire(moduleId, maybeNameForDev) { if (moduleId === null) { if (__DEV__ && typeof maybeNameForDev === "string") { throw new Error("Cannot find module '" + maybeNameForDev + "'"); } throw new Error("Cannot find module"); } if (__DEV__ && typeof moduleId === "string") { const verboseName = moduleId; moduleId = getModuleIdForVerboseName(verboseName); console.warn( `Requiring module "${verboseName}" by name is only supported for ` + "debugging purposes and will BREAK IN PRODUCTION!", ); } const moduleIdReallyIsNumber = moduleId; if (__DEV__) { const initializingIndex = initializingModuleIds.indexOf( moduleIdReallyIsNumber, ); if (initializingIndex !== -1) { const cycle = initializingModuleIds .slice(initializingIndex) .map((id) => modules.get(id)?.verboseName ?? "[unknown]"); if (shouldPrintRequireCycle(cycle)) { cycle.push(cycle[0]); console.warn( `Require cycle: ${cycle.join(" -> ")}\n\n` + "Require cycles are allowed, but can result in uninitialized values. " + "Consider refactoring to remove the need for a cycle.", ); } } } const module = modules.get(moduleIdReallyIsNumber); return module && module.isInitialized ? module.publicModule.exports : guardedLoadModule(moduleIdReallyIsNumber, module); } function shouldPrintRequireCycle(modules) { const regExps = global[__METRO_GLOBAL_PREFIX__ + "__requireCycleIgnorePatterns"]; if (!Array.isArray(regExps)) { return true; } const isIgnored = (module) => module != null && regExps.some((regExp) => regExp.test(module)); return modules.every((module) => !isIgnored(module)); } function metroImportDefault(moduleId) { if (__DEV__ && typeof moduleId === "string") { const verboseName = moduleId; moduleId = getModuleIdForVerboseName(verboseName); } const moduleIdReallyIsNumber = moduleId; const maybeInitializedModule = modules.get(moduleIdReallyIsNumber); if ( maybeInitializedModule && maybeInitializedModule.importedDefault !== EMPTY ) { return maybeInitializedModule.importedDefault; } const exports = metroRequire(moduleIdReallyIsNumber); const importedDefault = exports && exports.__esModule ? exports.default : exports; const initializedModule = modules.get(moduleIdReallyIsNumber); return (initializedModule.importedDefault = importedDefault); } metroRequire.importDefault = metroImportDefault; function metroImportAll(moduleId) { if (__DEV__ && typeof moduleId === "string") { const verboseName = moduleId; moduleId = getModuleIdForVerboseName(verboseName); } const moduleIdReallyIsNumber = moduleId; const maybeInitializedModule = modules.get(moduleIdReallyIsNumber); if (maybeInitializedModule && maybeInitializedModule.importedAll !== EMPTY) { return maybeInitializedModule.importedAll; } const exports = metroRequire(moduleIdReallyIsNumber); let importedAll; if (exports && exports.__esModule) { importedAll = exports; } else { importedAll = {}; if (exports) { for (const key in exports) { if (hasOwnProperty.call(exports, key)) { importedAll[key] = exports[key]; } } } importedAll.default = exports; } const initializedModule = modules.get(moduleIdReallyIsNumber); return (initializedModule.importedAll = importedAll); } metroRequire.importAll = metroImportAll; metroRequire.context = function fallbackRequireContext() { if (__DEV__) { throw new Error( "The experimental Metro feature `require.context` is not enabled in your project.\nThis can be enabled by setting the `transformer.unstable_allowRequireContext` property to `true` in your Metro configuration.", ); } throw new Error( "The experimental Metro feature `require.context` is not enabled in your project.", ); }; metroRequire.resolveWeak = function fallbackRequireResolveWeak() { if (__DEV__) { throw new Error( "require.resolveWeak cannot be called dynamically. Ensure you are using the same version of `metro` and `metro-runtime`.", ); } throw new Error("require.resolveWeak cannot be called dynamically."); }; let inGuard = false; function guardedLoadModule(moduleId, module) { if (!inGuard && global.ErrorUtils) { inGuard = true; let returnValue; try { returnValue = loadModuleImplementation(moduleId, module); } catch (e) { global.ErrorUtils.reportFatalError(e); } inGuard = false; return returnValue; } else { return loadModuleImplementation(moduleId, module); } } const ID_MASK_SHIFT = 16; const LOCAL_ID_MASK = ~0 >>> ID_MASK_SHIFT; function unpackModuleId(moduleId) { const segmentId = moduleId >>> ID_MASK_SHIFT; const localId = moduleId & LOCAL_ID_MASK; return { segmentId, localId, }; } metroRequire.unpackModuleId = unpackModuleId; function packModuleId(value) { return (value.segmentId << ID_MASK_SHIFT) + value.localId; } metroRequire.packModuleId = packModuleId; const moduleDefinersBySegmentID = []; const definingSegmentByModuleID = new Map(); function registerSegment(segmentId, moduleDefiner, moduleIds) { moduleDefinersBySegmentID[segmentId] = moduleDefiner; if (__DEV__) { if (segmentId === 0 && moduleIds) { throw new Error( "registerSegment: Expected moduleIds to be null for main segment", ); } if (segmentId !== 0 && !moduleIds) { throw new Error( "registerSegment: Expected moduleIds to be passed for segment #" + segmentId, ); } } if (moduleIds) { moduleIds.forEach((moduleId) => { if (!modules.has(moduleId) && !definingSegmentByModuleID.has(moduleId)) { definingSegmentByModuleID.set(moduleId, segmentId); } }); } } function loadModuleImplementation(moduleId, module) { if (!module && moduleDefinersBySegmentID.length > 0) { const segmentId = definingSegmentByModuleID.get(moduleId) ?? 0; const definer = moduleDefinersBySegmentID[segmentId]; if (definer != null) { definer(moduleId); module = modules.get(moduleId); definingSegmentByModuleID.delete(moduleId); } } const nativeRequire = global.nativeRequire; if (!module && nativeRequire) { const { segmentId, localId } = unpackModuleId(moduleId); nativeRequire(localId, segmentId); module = modules.get(moduleId); } if (!module) { throw unknownModuleError(moduleId); } if (module.hasError) { throw module.error; } if (__DEV__) { var Systrace = requireSystrace(); var Refresh = requireRefresh(); } module.isInitialized = true; const { factory, dependencyMap } = module; if (__DEV__) { initializingModuleIds.push(moduleId); } try { if (__DEV__) { Systrace.beginEvent("JS_require_" + (module.verboseName || moduleId)); } const moduleObject = module.publicModule; if (__DEV__) { moduleObject.hot = module.hot; var prevRefreshReg = global.$RefreshReg$; var prevRefreshSig = global.$RefreshSig$; if (Refresh != null) { const RefreshRuntime = Refresh; global.$RefreshReg$ = (type, id) => { const prefixedModuleId = __METRO_GLOBAL_PREFIX__ + " " + moduleId + " " + id; RefreshRuntime.register(type, prefixedModuleId); }; global.$RefreshSig$ = RefreshRuntime.createSignatureFunctionForTransform; } } moduleObject.id = moduleId; factory( global, metroRequire, metroImportDefault, metroImportAll, moduleObject, moduleObject.exports, dependencyMap, ); if (!__DEV__) { module.factory = undefined; module.dependencyMap = undefined; } if (__DEV__) { Systrace.endEvent(); if (Refresh != null) { const prefixedModuleId = __METRO_GLOBAL_PREFIX__ + " " + moduleId; registerExportsForReactRefresh( Refresh, moduleObject.exports, prefixedModuleId, ); } } return moduleObject.exports; } catch (e) { module.hasError = true; module.error = e; module.isInitialized = false; module.publicModule.exports = undefined; throw e; } finally { if (__DEV__) { if (initializingModuleIds.pop() !== moduleId) { throw new Error( "initializingModuleIds is corrupt; something is terribly wrong", ); } global.$RefreshReg$ = prevRefreshReg; global.$RefreshSig$ = prevRefreshSig; } } } function unknownModuleError(id) { let message = 'Requiring unknown module "' + id + '".'; if (__DEV__) { message += " If you are sure the module exists, try restarting Metro. " + "You may also want to run `yarn` or `npm install`."; } return Error(message); } if (__DEV__) { metroRequire.Systrace = { beginEvent: () => {}, endEvent: () => {}, }; metroRequire.getModules = () => { return modules; }; var createHotReloadingObject = function () { const hot = { _acceptCallback: null, _disposeCallback: null, _didAccept: false, accept: (callback) => { hot._didAccept = true; hot._acceptCallback = callback; }, dispose: (callback) => { hot._disposeCallback = callback; }, }; return hot; }; let reactRefreshTimeout = null; const metroHotUpdateModule = function ( id, factory, dependencyMap, inverseDependencies, ) { const mod = modules.get(id); if (!mod) { if (factory) { return; } throw unknownModuleError(id); } const forceFullRefreshPatterns = global[__METRO_GLOBAL_PREFIX__ + "__unstable_forceFullRefreshPatterns"]; if ( forceFullRefreshPatterns != null && Array.isArray(forceFullRefreshPatterns) && mod.verboseName != null && forceFullRefreshPatterns.some((pattern) => pattern.test(mod.verboseName ?? ""), ) ) { performFullRefresh("Module matched unstable_forceFullRefreshPatterns", { source: mod, }); return; } if (!mod.hasError && !mod.isInitialized) { mod.factory = factory; mod.dependencyMap = dependencyMap; return; } const Refresh = requireRefresh(); const refreshBoundaryIDs = new Set(); let didBailOut = false; let updatedModuleIDs; try { updatedModuleIDs = topologicalSort( [id], (pendingID) => { const pendingModule = modules.get(pendingID); if (pendingModule == null) { return []; } const pendingHot = pendingModule.hot; if (pendingHot == null) { throw new Error( "[Refresh] Expected module.hot to always exist in DEV.", ); } let canAccept = pendingHot._didAccept; if (!canAccept && Refresh != null) { const isBoundary = isReactRefreshBoundary( Refresh, pendingModule.publicModule.exports, ); if (isBoundary) { canAccept = true; refreshBoundaryIDs.add(pendingID); } } if (canAccept) { return []; } const parentIDs = inverseDependencies[pendingID]; if (parentIDs.length === 0) { performFullRefresh("No root boundary", { source: mod, failed: pendingModule, }); didBailOut = true; return []; } return parentIDs; }, () => didBailOut, ).reverse(); } catch (e) { if (e === CYCLE_DETECTED) { performFullRefresh("Dependency cycle", { source: mod, }); return; } throw e; } if (didBailOut) { return; } const seenModuleIDs = new Set(); for (let i = 0; i < updatedModuleIDs.length; i++) { const updatedID = updatedModuleIDs[i]; if (seenModuleIDs.has(updatedID)) { continue; } seenModuleIDs.add(updatedID); const updatedMod = modules.get(updatedID); if (updatedMod == null) { throw new Error("[Refresh] Expected to find the updated module."); } const prevExports = updatedMod.publicModule.exports; const didError = runUpdatedModule( updatedID, updatedID === id ? factory : undefined, updatedID === id ? dependencyMap : undefined, ); const nextExports = updatedMod.publicModule.exports; if (didError) { return; } if (refreshBoundaryIDs.has(updatedID)) { const isNoLongerABoundary = !isReactRefreshBoundary( Refresh, nextExports, ); const didInvalidate = shouldInvalidateReactRefreshBoundary( Refresh, prevExports, nextExports, ); if (isNoLongerABoundary || didInvalidate) { const parentIDs = inverseDependencies[updatedID]; if (parentIDs.length === 0) { performFullRefresh( isNoLongerABoundary ? "No longer a boundary" : "Invalidated boundary", { source: mod, failed: updatedMod, }, ); return; } for (let j = 0; j < parentIDs.length; j++) { const parentID = parentIDs[j]; const parentMod = modules.get(parentID); if (parentMod == null) { throw new Error("[Refresh] Expected to find parent module."); } const canAcceptParent = isReactRefreshBoundary( Refresh, parentMod.publicModule.exports, ); if (canAcceptParent) { refreshBoundaryIDs.add(parentID); updatedModuleIDs.push(parentID); } else { performFullRefresh("Invalidated boundary", { source: mod, failed: parentMod, }); return; } } } } } if (Refresh != null) { if (reactRefreshTimeout == null) { reactRefreshTimeout = setTimeout(() => { reactRefreshTimeout = null; Refresh.performReactRefresh(); }, 30); } } }; const topologicalSort = function (roots, getEdges, earlyStop) { const result = []; const visited = new Set(); const stack = new Set(); function traverseDependentNodes(node) { if (stack.has(node)) { throw CYCLE_DETECTED; } if (visited.has(node)) { return; } visited.add(node); stack.add(node); const dependentNodes = getEdges(node); if (earlyStop(node)) { stack.delete(node); return; } dependentNodes.forEach((dependent) => { traverseDependentNodes(dependent); }); stack.delete(node); result.push(node); } roots.forEach((root) => { traverseDependentNodes(root); }); return result; }; const runUpdatedModule = function (id, factory, dependencyMap) { const mod = modules.get(id); if (mod == null) { throw new Error("[Refresh] Expected to find the module."); } const { hot } = mod; if (!hot) { throw new Error("[Refresh] Expected module.hot to always exist in DEV."); } if (hot._disposeCallback) { try { hot._disposeCallback(); } catch (error) { console.error( `Error while calling dispose handler for module ${id}: `, error, ); } } if (factory) { mod.factory = factory; } if (dependencyMap) { mod.dependencyMap = dependencyMap; } mod.hasError = false; mod.error = undefined; mod.importedAll = EMPTY; mod.importedDefault = EMPTY; mod.isInitialized = false; const prevExports = mod.publicModule.exports; mod.publicModule.exports = {}; hot._didAccept = false; hot._acceptCallback = null; hot._disposeCallback = null; metroRequire(id); if (mod.hasError) { mod.hasError = false; mod.isInitialized = true; mod.error = null; mod.publicModule.exports = prevExports; return true; } if (hot._acceptCallback) { try { hot._acceptCallback(); } catch (error) { console.error( `Error while calling accept handler for module ${id}: `, error, ); } } return false; }; const performFullRefresh = (reason, modules) => { if ( typeof window !== "undefined" && window.location != null && typeof window.location.reload === "function" ) { window.location.reload(); } else { const Refresh = requireRefresh(); if (Refresh != null) { const sourceName = modules.source?.verboseName ?? "unknown"; const failedName = modules.failed?.verboseName ?? "unknown"; Refresh.performFullRefresh( `Fast Refresh - ${reason} <${sourceName}> <${failedName}>`, ); } else { console.warn("Could not reload the application after an edit."); } } }; const isExportSafeToAccess = (moduleExports, key) => { return ( moduleExports?.__esModule || Object.getOwnPropertyDescriptor(moduleExports, key)?.get == null ); }; var isReactRefreshBoundary = function (Refresh, moduleExports) { if (Refresh.isLikelyComponentType(moduleExports)) { return true; } if (moduleExports == null || typeof moduleExports !== "object") { return false; } let hasExports = false; let areAllExportsComponents = true; for (const key in moduleExports) { hasExports = true; if (key === "__esModule") { continue; } else if (!isExportSafeToAccess(moduleExports, key)) { return false; } const exportValue = moduleExports[key]; if (!Refresh.isLikelyComponentType(exportValue)) { areAllExportsComponents = false; } } return hasExports && areAllExportsComponents; }; var shouldInvalidateReactRefreshBoundary = ( Refresh, prevExports, nextExports, ) => { const prevSignature = getRefreshBoundarySignature(Refresh, prevExports); const nextSignature = getRefreshBoundarySignature(Refresh, nextExports); if (prevSignature.length !== nextSignature.length) { return true; } for (let i = 0; i < nextSignature.length; i++) { if (prevSignature[i] !== nextSignature[i]) { return true; } } return false; }; var getRefreshBoundarySignature = (Refresh, moduleExports) => { const signature = []; signature.push(Refresh.getFamilyByType(moduleExports)); if (moduleExports == null || typeof moduleExports !== "object") { return signature; } for (const key in moduleExports) { if (key === "__esModule") { continue; } else if (!isExportSafeToAccess(moduleExports, key)) { continue; } const exportValue = moduleExports[key]; signature.push(key); signature.push(Refresh.getFamilyByType(exportValue)); } return signature; }; var registerExportsForReactRefresh = (Refresh, moduleExports, moduleID) => { Refresh.register(moduleExports, moduleID + " %exports%"); if (moduleExports == null || typeof moduleExports !== "object") { return; } for (const key in moduleExports) { if (!isExportSafeToAccess(moduleExports, key)) { continue; } const exportValue = moduleExports[key]; const typeID = moduleID + " %exports% " + key; Refresh.register(exportValue, typeID); } }; global.__accept = metroHotUpdateModule; } if (__DEV__) { var requireSystrace = function requireSystrace() { return ( global[__METRO_GLOBAL_PREFIX__ + "__SYSTRACE"] || metroRequire.Systrace ); }; var requireRefresh = function requireRefresh() { return ( global[__METRO_GLOBAL_PREFIX__ + "__ReactRefresh"] || global[global.__METRO_GLOBAL_PREFIX__ + "__ReactRefresh"] || metroRequire.Refresh ); }; }