diff --git a/.yarn/versions/ef453d28.yml b/.yarn/versions/ef453d28.yml new file mode 100644 index 000000000000..1494bd471424 --- /dev/null +++ b/.yarn/versions/ef453d28.yml @@ -0,0 +1,23 @@ +releases: + "@yarnpkg/cli": patch + "@yarnpkg/plugin-compat": patch + +declined: + - "@yarnpkg/plugin-constraints" + - "@yarnpkg/plugin-dlx" + - "@yarnpkg/plugin-essentials" + - "@yarnpkg/plugin-init" + - "@yarnpkg/plugin-interactive-tools" + - "@yarnpkg/plugin-nm" + - "@yarnpkg/plugin-npm-cli" + - "@yarnpkg/plugin-pack" + - "@yarnpkg/plugin-patch" + - "@yarnpkg/plugin-pnp" + - "@yarnpkg/plugin-pnpm" + - "@yarnpkg/plugin-stage" + - "@yarnpkg/plugin-typescript" + - "@yarnpkg/plugin-version" + - "@yarnpkg/plugin-workspace-tools" + - "@yarnpkg/builder" + - "@yarnpkg/core" + - "@yarnpkg/doctor" diff --git a/packages/plugin-compat/extra/typescript/gen-typescript-patch.js b/packages/plugin-compat/extra/typescript/gen-typescript-patch.js index 8addde041bf8..c988085fc2d0 100644 --- a/packages/plugin-compat/extra/typescript/gen-typescript-patch.js +++ b/packages/plugin-compat/extra/typescript/gen-typescript-patch.js @@ -295,7 +295,14 @@ const SLICES = [ from: `0102e47303cb33503219740015f711e2fe7d89ab`, to: `0102e47303cb33503219740015f711e2fe7d89ab`, onto: `6212132b835145b1a8fd49982680ac668caf3ddc`, - range: `>=5.6.1-rc`, + range: `>=5.6.1-rc <5.7.0-beta`, + }, + // https://github.com/yarnpkg/TypeScript/tree/merceyz/pnp-5.7-beta + { + from: `18776a771f795ecc2535ee56705ea9fdb786a569`, + to: `519971751e31f38542a608abf21ba3d61c5c3f93`, + onto: `69fb689edbbce517a4615be9d356c6c812639849`, + range: `>=5.7.0-beta`, }, ]; diff --git a/packages/plugin-compat/extra/typescript/patch-3171c5f0d6ba563d63efef87d42d0baf.diff b/packages/plugin-compat/extra/typescript/patch-3171c5f0d6ba563d63efef87d42d0baf.diff index 7fdd70e1c35d..7b50e28c59fe 100644 --- a/packages/plugin-compat/extra/typescript/patch-3171c5f0d6ba563d63efef87d42d0baf.diff +++ b/packages/plugin-compat/extra/typescript/patch-3171c5f0d6ba563d63efef87d42d0baf.diff @@ -1,6 +1,6 @@ diff --git a/lib/tsc.js b/lib/tsc.js index 1af7d4794..74d702d96 100644 -semver exclusivity >=5.6.1-rc +semver exclusivity >=5.6.1-rc <5.7.0-beta --- a/lib/tsc.js +++ b/lib/tsc.js @@ -5064,6 +5064,9 @@ var sys = (() => { @@ -335,7 +335,7 @@ semver exclusivity >=5.6.1-rc break; diff --git a/lib/tsserver.js b/lib/tsserver.js index f38266561..a38dfeb1c 100644 -semver exclusivity >=5.6.1-rc +semver exclusivity >=5.6.1-rc <5.7.0-beta --- a/lib/tsserver.js +++ b/lib/tsserver.js @@ -53,6 +53,25 @@ var import_net = __toESM(require("net")); @@ -388,7 +388,7 @@ semver exclusivity >=5.6.1-rc this.installer.on("message", (m) => this.handleMessage(m)); diff --git a/lib/typescript.d.ts b/lib/typescript.d.ts index 963c5732b..1ea17a9bc 100644 -semver exclusivity >=5.6.1-rc +semver exclusivity >=5.6.1-rc <5.7.0-beta --- a/lib/typescript.d.ts +++ b/lib/typescript.d.ts @@ -3242,6 +3242,7 @@ declare namespace ts { @@ -418,7 +418,7 @@ semver exclusivity >=5.6.1-rc function resolveTripleslashReference(moduleName: string, containingFile: string): string; diff --git a/lib/typescript.js b/lib/typescript.js index 4dae4289c..842eaf260 100644 -semver exclusivity >=5.6.1-rc +semver exclusivity >=5.6.1-rc <5.7.0-beta --- a/lib/typescript.js +++ b/lib/typescript.js @@ -8450,6 +8450,9 @@ var sys = (() => { diff --git a/packages/plugin-compat/extra/typescript/patch-b601255e50c8a4967082b099fe071483.diff b/packages/plugin-compat/extra/typescript/patch-b601255e50c8a4967082b099fe071483.diff new file mode 100644 index 000000000000..3722fd07c511 --- /dev/null +++ b/packages/plugin-compat/extra/typescript/patch-b601255e50c8a4967082b099fe071483.diff @@ -0,0 +1,1040 @@ +diff --git a/lib/_tsc.js b/lib/_tsc.js +index 083c2456e..8cd0eb3e7 100644 +semver exclusivity >=5.7.0-beta +--- a/lib/_tsc.js ++++ b/lib/_tsc.js +@@ -5104,6 +5104,9 @@ var sys = (() => { + } + } + function isFileSystemCaseSensitive() { ++ if (typeof process.versions.pnp !== `undefined`) { ++ return true; ++ } + if (platform === "win32" || platform === "win64") { + return false; + } +@@ -39255,6 +39258,48 @@ function getDefaultValueForOption(option) { + } + } + ++// src/compiler/pnpapi.ts ++function getPnpApi(path) { ++ if (typeof process.versions.pnp === "undefined") { ++ return; ++ } ++ const { findPnpApi } = require("module"); ++ if (findPnpApi) { ++ return findPnpApi(`${path}/`); ++ } ++} ++function getPnpApiPath(path) { ++ var _a; ++ return (_a = getPnpApi(path)) == null ? void 0 : _a.resolveRequest( ++ "pnpapi", ++ /*issuer*/ ++ null ++ ); ++} ++ ++// src/compiler/pnp.ts ++function getPnpTypeRoots(currentDirectory) { ++ const pnpApi = getPnpApi(currentDirectory); ++ if (!pnpApi) { ++ return []; ++ } ++ currentDirectory = resolvePath(currentDirectory); ++ const currentPackage = pnpApi.findPackageLocator(`${currentDirectory}/`); ++ if (!currentPackage) { ++ return []; ++ } ++ const { packageDependencies } = pnpApi.getPackageInformation(currentPackage); ++ const typeRoots = []; ++ for (const [name, referencish] of Array.from(packageDependencies.entries())) { ++ if (name.startsWith(`@types/`) && referencish !== null) { ++ const dependencyLocator = pnpApi.getLocator(name, referencish); ++ const { packageLocation } = pnpApi.getPackageInformation(dependencyLocator); ++ typeRoots.push(getDirectoryPath(packageLocation)); ++ } ++ } ++ return typeRoots; ++} ++ + // src/compiler/moduleNameResolver.ts + function trace(host, message, ...args) { + host.trace(formatMessage(message, ...args)); +@@ -39472,7 +39517,7 @@ function getEffectiveTypeRoots(options, host) { + return getDefaultTypeRoots(currentDirectory); + } + } +-function getDefaultTypeRoots(currentDirectory) { ++function getNodeModulesTypeRoots(currentDirectory) { + let typeRoots; + forEachAncestorDirectory(normalizePath(currentDirectory), (directory) => { + const atTypes = combinePaths(directory, nodeModulesAtTypes); +@@ -39485,6 +39530,15 @@ function arePathsEqual(path1, path2, host) { + const useCaseSensitiveFileNames2 = typeof host.useCaseSensitiveFileNames === "function" ? host.useCaseSensitiveFileNames() : host.useCaseSensitiveFileNames; + return comparePaths(path1, path2, !useCaseSensitiveFileNames2) === 0 /* EqualTo */; + } ++function getDefaultTypeRoots(currentDirectory) { ++ const nmTypes = getNodeModulesTypeRoots(currentDirectory); ++ const pnpTypes = getPnpTypeRoots(currentDirectory); ++ if (nmTypes == null ? void 0 : nmTypes.length) { ++ return [...nmTypes, ...pnpTypes]; ++ } else if (pnpTypes.length) { ++ return pnpTypes; ++ } ++} + function getOriginalAndResolvedFileName(fileName, host, traceEnabled) { + const resolvedFileName = realPath(fileName, host, traceEnabled); + const pathsAreEqual = arePathsEqual(fileName, resolvedFileName, host); +@@ -41365,6 +41419,14 @@ function loadModuleFromNearestNodeModulesDirectoryWorker(extensions, moduleName, + return lookup(secondaryExtensions); + } + function lookup(extensions2) { ++ const issuer = normalizeSlashes(directory); ++ if (getPnpApi(issuer)) { ++ const resolutionFromCache = tryFindNonRelativeModuleNameInCache(cache, moduleName, mode, issuer, redirectedReference, state); ++ if (resolutionFromCache) { ++ return resolutionFromCache; ++ } ++ return toSearchResult(loadModuleFromImmediateNodeModulesDirectoryPnP(extensions2, moduleName, issuer, state, typesScopeOnly, cache, redirectedReference)); ++ } + return forEachAncestorDirectoryStoppingAtGlobalCache( + state.host, + normalizeSlashes(directory), +@@ -41413,11 +41475,40 @@ function loadModuleFromImmediateNodeModulesDirectory(extensions, moduleName, dir + return loadModuleFromSpecificNodeModulesDirectory(4 /* Declaration */, mangleScopedPackageNameWithTrace(moduleName, state), nodeModulesAtTypes2, nodeModulesAtTypesExists, state, cache, redirectedReference); + } + } ++function loadModuleFromImmediateNodeModulesDirectoryPnP(extensions, moduleName, directory, state, typesScopeOnly, cache, redirectedReference) { ++ const issuer = normalizeSlashes(directory); ++ if (!typesScopeOnly) { ++ const packageResult = tryLoadModuleUsingPnpResolution(extensions, moduleName, issuer, state, cache, redirectedReference); ++ if (packageResult) { ++ return packageResult; ++ } ++ } ++ if (extensions & 4 /* Declaration */) { ++ return tryLoadModuleUsingPnpResolution(4 /* Declaration */, `@types/${mangleScopedPackageNameWithTrace(moduleName, state)}`, issuer, state, cache, redirectedReference); ++ } ++} + function loadModuleFromSpecificNodeModulesDirectory(extensions, moduleName, nodeModulesDirectory, nodeModulesDirectoryExists, state, cache, redirectedReference) { +- var _a, _b; + const candidate = normalizePath(combinePaths(nodeModulesDirectory, moduleName)); + const { packageName, rest } = parsePackageName(moduleName); + const packageDirectory = combinePaths(nodeModulesDirectory, packageName); ++ return loadModuleFromSpecificNodeModulesDirectoryImpl(extensions, nodeModulesDirectoryExists, state, cache, redirectedReference, candidate, rest, packageDirectory); ++} ++function loadModuleFromPnpResolution(extensions, packageDirectory, rest, state, cache, redirectedReference) { ++ const candidate = normalizePath(combinePaths(packageDirectory, rest)); ++ return loadModuleFromSpecificNodeModulesDirectoryImpl( ++ extensions, ++ /*nodeModulesDirectoryExists*/ ++ true, ++ state, ++ cache, ++ redirectedReference, ++ candidate, ++ rest, ++ packageDirectory ++ ); ++} ++function loadModuleFromSpecificNodeModulesDirectoryImpl(extensions, nodeModulesDirectoryExists, state, cache, redirectedReference, candidate, rest, packageDirectory) { ++ var _a, _b; + let rootPackageInfo; + let packageInfo = getPackageJsonInfo(candidate, !nodeModulesDirectoryExists, state); + if (rest !== "" && packageInfo && (!(state.features & 8 /* Exports */) || !hasProperty(((_a = rootPackageInfo = getPackageJsonInfo(packageDirectory, !nodeModulesDirectoryExists, state)) == null ? void 0 : _a.contents.packageJsonContent) ?? emptyArray, "exports"))) { +@@ -41712,6 +41803,18 @@ function traceIfEnabled(state, diagnostic, ...args) { + function useCaseSensitiveFileNames(state) { + return !state.host.useCaseSensitiveFileNames ? true : typeof state.host.useCaseSensitiveFileNames === "boolean" ? state.host.useCaseSensitiveFileNames : state.host.useCaseSensitiveFileNames(); + } ++function loadPnpPackageResolution(packageName, containingDirectory) { ++ try { ++ const resolution = getPnpApi(containingDirectory).resolveToUnqualified(packageName, `${containingDirectory}/`, { considerBuiltins: false }); ++ return normalizeSlashes(resolution).replace(/\/$/, ""); ++ } catch { ++ } ++} ++function tryLoadModuleUsingPnpResolution(extensions, moduleName, containingDirectory, state, cache, redirectedReference) { ++ const { packageName, rest } = parsePackageName(moduleName); ++ const packageResolution = loadPnpPackageResolution(packageName, containingDirectory); ++ return packageResolution ? loadModuleFromPnpResolution(extensions, packageResolution, rest, state, cache, redirectedReference) : void 0; ++} + + // src/compiler/binder.ts + function getModuleInstanceState(node, visited) { +@@ -45223,7 +45326,15 @@ function getAllModulePathsWorker(info, importedFileName, host, compilerOptions, + /*preferSymlinks*/ + true, + (path, isRedirect) => { +- const isInNodeModules = pathContainsNodeModules(path); ++ let isInNodeModules = pathContainsNodeModules(path); ++ const pnpapi = getPnpApi(path); ++ if (!isInNodeModules && pnpapi) { ++ const fromLocator = pnpapi.findPackageLocator(info.importingSourceFileName); ++ const toLocator = pnpapi.findPackageLocator(path); ++ if (fromLocator && toLocator && fromLocator !== toLocator) { ++ isInNodeModules = true; ++ } ++ } + allFileNames.set(path, { path: info.getCanonicalFileName(path), isRedirect, isInNodeModules }); + importedFileFromNodeModules = importedFileFromNodeModules || isInNodeModules; + } +@@ -45539,7 +45650,41 @@ function tryGetModuleNameAsNodeModule({ path, isRedirect }, { getCanonicalFileNa + if (!host.fileExists || !host.readFile) { + return void 0; + } +- const parts = getNodeModulePathParts(path); ++ let parts = getNodeModulePathParts(path); ++ let pnpPackageName; ++ const pnpApi = getPnpApi(path); ++ if (pnpApi) { ++ const fromLocator = pnpApi.findPackageLocator(importingSourceFile.fileName); ++ const toLocator = pnpApi.findPackageLocator(path); ++ if (fromLocator === toLocator) { ++ return void 0; ++ } ++ if (fromLocator && toLocator) { ++ const fromInfo = pnpApi.getPackageInformation(fromLocator); ++ if (toLocator.reference === fromInfo.packageDependencies.get(toLocator.name)) { ++ pnpPackageName = toLocator.name; ++ } else { ++ for (const [name, reference] of fromInfo.packageDependencies) { ++ if (Array.isArray(reference)) { ++ if (reference[0] === toLocator.name && reference[1] === toLocator.reference) { ++ pnpPackageName = name; ++ break; ++ } ++ } ++ } ++ } ++ if (!parts) { ++ const toInfo = pnpApi.getPackageInformation(toLocator); ++ parts = { ++ topLevelNodeModulesIndex: void 0, ++ topLevelPackageNameIndex: void 0, ++ // The last character from packageLocation is the trailing "/", we want to point to it ++ packageRootIndex: toInfo.packageLocation.length - 1, ++ fileNameIndex: path.lastIndexOf(`/`) ++ }; ++ } ++ } ++ } + if (!parts) { + return void 0; + } +@@ -45576,14 +45721,16 @@ function tryGetModuleNameAsNodeModule({ path, isRedirect }, { getCanonicalFileNa + if (isRedirect && !isPackageRootPath) { + return void 0; + } +- const globalTypingsCacheLocation = host.getGlobalTypingsCacheLocation && host.getGlobalTypingsCacheLocation(); +- const pathToTopLevelNodeModules = getCanonicalFileName(moduleSpecifier.substring(0, parts.topLevelNodeModulesIndex)); +- if (!(startsWith(canonicalSourceDirectory, pathToTopLevelNodeModules) || globalTypingsCacheLocation && startsWith(getCanonicalFileName(globalTypingsCacheLocation), pathToTopLevelNodeModules))) { +- return void 0; ++ if (typeof process.versions.pnp === "undefined") { ++ const globalTypingsCacheLocation = host.getGlobalTypingsCacheLocation && host.getGlobalTypingsCacheLocation(); ++ const pathToTopLevelNodeModules = getCanonicalFileName(moduleSpecifier.substring(0, parts.topLevelNodeModulesIndex)); ++ if (!(startsWith(canonicalSourceDirectory, pathToTopLevelNodeModules) || globalTypingsCacheLocation && startsWith(getCanonicalFileName(globalTypingsCacheLocation), pathToTopLevelNodeModules))) { ++ return void 0; ++ } + } +- const nodeModulesDirectoryName = moduleSpecifier.substring(parts.topLevelPackageNameIndex + 1); +- const packageName = getPackageNameFromTypesPackageName(nodeModulesDirectoryName); +- return getEmitModuleResolutionKind(options) === 1 /* Classic */ && packageName === nodeModulesDirectoryName ? void 0 : packageName; ++ const nodeModulesDirectoryName = typeof pnpPackageName !== "undefined" ? pnpPackageName + moduleSpecifier.substring(parts.packageRootIndex) : moduleSpecifier.substring(parts.topLevelPackageNameIndex + 1); ++ const packageNameFromPath = getPackageNameFromTypesPackageName(nodeModulesDirectoryName); ++ return getEmitModuleResolutionKind(options) === 1 /* Classic */ && packageNameFromPath === nodeModulesDirectoryName ? void 0 : packageNameFromPath; + function tryDirectoryWithPackageJson(packageRootIndex) { + var _a, _b; + const packageRootPath = path.substring(0, packageRootIndex); +@@ -45596,14 +45743,14 @@ function tryGetModuleNameAsNodeModule({ path, isRedirect }, { getCanonicalFileNa + const importMode = overrideMode || getDefaultResolutionModeForFile(importingSourceFile, host, options); + if (getResolvePackageJsonExports(options)) { + const nodeModulesDirectoryName2 = packageRootPath.substring(parts.topLevelPackageNameIndex + 1); +- const packageName2 = getPackageNameFromTypesPackageName(nodeModulesDirectoryName2); ++ const packageName = getPackageNameFromTypesPackageName(pnpPackageName ? pnpPackageName : nodeModulesDirectoryName2); + const conditions = getConditions(options, importMode); + const fromExports = (packageJsonContent == null ? void 0 : packageJsonContent.exports) ? tryGetModuleNameFromExports( + options, + host, + path, + packageRootPath, +- packageName2, ++ packageName, + packageJsonContent.exports, + conditions + ) : void 0; +@@ -127555,6 +127702,11 @@ function createWatchProgram(host) { + if (configFileName) { + configFileWatcher = watchFile2(configFileName, scheduleProgramReload, 2e3 /* High */, watchOptions, WatchType.ConfigFile); + } ++ let pnpFileWatcher; ++ const pnpApiPath = getPnpApiPath(__filename); ++ if (pnpApiPath) { ++ pnpFileWatcher = watchFile2(pnpApiPath, scheduleResolutionReload, 2e3 /* High */, watchOptions, WatchType.ConfigFile); ++ } + const compilerHost = createCompilerHostFromProgramHost(host, () => compilerOptions, directoryStructureHost); + setGetSourceFileAsHashVersioned(compilerHost); + const getNewSourceFile = compilerHost.getSourceFile; +@@ -127616,6 +127768,10 @@ function createWatchProgram(host) { + configFileWatcher.close(); + configFileWatcher = void 0; + } ++ if (pnpFileWatcher) { ++ pnpFileWatcher.close(); ++ pnpFileWatcher = void 0; ++ } + extendedConfigCache == null ? void 0 : extendedConfigCache.clear(); + extendedConfigCache = void 0; + if (sharedExtendedConfigFileWatchers) { +@@ -127651,7 +127807,7 @@ function createWatchProgram(host) { + function getCurrentProgram() { + return builderProgram && builderProgram.getProgramOrUndefined(); + } +- function synchronizeProgram() { ++ function synchronizeProgram(forceAllFilesAsInvalidated = false) { + writeLog(`Synchronizing program`); + Debug.assert(compilerOptions); + Debug.assert(rootFileNames); +@@ -127663,7 +127819,7 @@ function createWatchProgram(host) { + resolutionCache.onChangesAffectModuleResolution(); + } + } +- const { hasInvalidatedResolutions, hasInvalidatedLibResolutions } = resolutionCache.createHasInvalidatedResolutions(customHasInvalidatedResolutions, customHasInvalidLibResolutions); ++ const { hasInvalidatedResolutions, hasInvalidatedLibResolutions } = resolutionCache.createHasInvalidatedResolutions(forceAllFilesAsInvalidated ? returnTrue : customHasInvalidatedResolutions, customHasInvalidLibResolutions); + const { + originalReadFile, + originalFileExists, +@@ -127881,6 +128037,12 @@ function createWatchProgram(host) { + updateLevel = 2 /* Full */; + scheduleProgramUpdate(); + } ++ function scheduleResolutionReload() { ++ writeLog("Clearing resolutions"); ++ resolutionCache.clear(); ++ updateLevel = 3 /* Resolutions */; ++ scheduleProgramUpdate(); ++ } + function updateProgramWithWatchStatus() { + timerToUpdateProgram = void 0; + reportFileChangeDetectedOnCreateProgram = true; +@@ -127894,6 +128056,12 @@ function createWatchProgram(host) { + case 2 /* Full */: + reloadConfigFile(); + break; ++ case 3 /* Resolutions */: ++ synchronizeProgram( ++ /*forceAllFilesAsInvalidated*/ ++ true ++ ); ++ break; + default: + synchronizeProgram(); + break; +diff --git a/lib/_tsserver.js b/lib/_tsserver.js +index 473b8d224..ee2581d3d 100644 +semver exclusivity >=5.7.0-beta +--- a/lib/_tsserver.js ++++ b/lib/_tsserver.js +@@ -53,6 +53,25 @@ var import_net = __toESM(require("net")); + var import_os = __toESM(require("os")); + var import_readline = __toESM(require("readline")); + ++// src/compiler/pnpapi.ts ++function getPnpApi(path) { ++ if (typeof process.versions.pnp === "undefined") { ++ return; ++ } ++ const { findPnpApi } = require("module"); ++ if (findPnpApi) { ++ return findPnpApi(`${path}/`); ++ } ++} ++function getPnpApiPath(path) { ++ var _a; ++ return (_a = getPnpApi(path)) == null ? void 0 : _a.resolveRequest( ++ "pnpapi", ++ /*issuer*/ ++ null ++ ); ++} ++ + // src/tsserver/common.ts + function getLogLevel(level) { + if (level) { +@@ -243,6 +262,10 @@ function initializeNodeSystem() { + } + try { + const args = [(0, typescript_exports.combinePaths)(libDirectory, "watchGuard.js"), path]; ++ const pnpApiPath = getPnpApiPath(__filename); ++ if (pnpApiPath) { ++ args.unshift("-r", pnpApiPath); ++ } + if (logger.hasLevel(typescript_exports.server.LogLevel.verbose)) { + logger.info(`Starting ${process.execPath} with args:${typescript_exports.server.stringifyIndented(args)}`); + } +@@ -419,6 +442,10 @@ function startNodeSession(options, logger, cancellationToken) { + break; + } + } ++ const pnpApiPath = getPnpApiPath(__filename); ++ if (pnpApiPath) { ++ execArgv.unshift("-r", pnpApiPath); ++ } + const typingsInstaller = (0, typescript_exports.combinePaths)((0, typescript_exports.getDirectoryPath)(typescript_exports.sys.getExecutingFilePath()), "typingsInstaller.js"); + this.installer = import_child_process.default.fork(typingsInstaller, args, { execArgv }); + this.installer.on("message", (m) => this.handleMessage(m)); +diff --git a/lib/typescript.d.ts b/lib/typescript.d.ts +index 0ed1d1e83..0e64ca342 100644 +semver exclusivity >=5.7.0-beta +--- a/lib/typescript.d.ts ++++ b/lib/typescript.d.ts +@@ -3284,6 +3284,7 @@ declare namespace ts { + private packageJsonFilesMap; + private incompleteCompletionsCache; + private performanceEventHandler?; ++ private pnpWatcher?; + private pendingPluginEnablements?; + private currentPluginEnablementPromise?; + readonly jsDocParsingMode: JSDocParsingMode | undefined; +@@ -3409,6 +3410,7 @@ declare namespace ts { + private enableRequestedPluginsAsync; + private enableRequestedPluginsWorker; + configurePlugin(args: protocol.ConfigurePluginRequestArguments): void; ++ private watchPnpFile; + private watchPackageJsonFile; + private onPackageJsonChange; + } +@@ -9477,6 +9479,8 @@ declare namespace ts { + * - Updating the program + */ + Full = 2, ++ /** Reload the resolutions */ ++ Resolutions = 3, + } + function findConfigFile(searchPath: string, fileExists: (fileName: string) => boolean, configName?: string): string | undefined; + function resolveTripleslashReference(moduleName: string, containingFile: string): string; +diff --git a/lib/typescript.js b/lib/typescript.js +index 3e8556611..aafcef8c2 100644 +semver exclusivity >=5.7.0-beta +--- a/lib/typescript.js ++++ b/lib/typescript.js +@@ -8469,6 +8469,9 @@ var sys = (() => { + } + } + function isFileSystemCaseSensitive() { ++ if (typeof process.versions.pnp !== `undefined`) { ++ return true; ++ } + if (platform === "win32" || platform === "win64") { + return false; + } +@@ -43579,6 +43582,69 @@ function getDefaultValueForOption(option) { + } + } + ++// src/compiler/pnpapi.ts ++function getPnpApi(path) { ++ if (typeof process.versions.pnp === "undefined") { ++ return; ++ } ++ const { findPnpApi } = require("module"); ++ if (findPnpApi) { ++ return findPnpApi(`${path}/`); ++ } ++} ++function getPnpApiPath(path) { ++ var _a; ++ return (_a = getPnpApi(path)) == null ? void 0 : _a.resolveRequest( ++ "pnpapi", ++ /*issuer*/ ++ null ++ ); ++} ++ ++// src/compiler/pnp.ts ++function getPnpTypeRoots(currentDirectory) { ++ const pnpApi = getPnpApi(currentDirectory); ++ if (!pnpApi) { ++ return []; ++ } ++ currentDirectory = resolvePath(currentDirectory); ++ const currentPackage = pnpApi.findPackageLocator(`${currentDirectory}/`); ++ if (!currentPackage) { ++ return []; ++ } ++ const { packageDependencies } = pnpApi.getPackageInformation(currentPackage); ++ const typeRoots = []; ++ for (const [name, referencish] of Array.from(packageDependencies.entries())) { ++ if (name.startsWith(`@types/`) && referencish !== null) { ++ const dependencyLocator = pnpApi.getLocator(name, referencish); ++ const { packageLocation } = pnpApi.getPackageInformation(dependencyLocator); ++ typeRoots.push(getDirectoryPath(packageLocation)); ++ } ++ } ++ return typeRoots; ++} ++function isImportablePathPnp(fromPath, toPath3) { ++ const pnpApi = getPnpApi(fromPath); ++ const fromLocator = pnpApi.findPackageLocator(fromPath); ++ const toLocator = pnpApi.findPackageLocator(toPath3); ++ if (toLocator === null) { ++ return false; ++ } ++ const fromInfo = pnpApi.getPackageInformation(fromLocator); ++ const toReference = fromInfo.packageDependencies.get(toLocator.name); ++ if (toReference) { ++ return toReference === toLocator.reference; ++ } ++ for (const reference of fromInfo.packageDependencies.values()) { ++ if (Array.isArray(reference)) { ++ if (reference[0] === toLocator.name && reference[1] === toLocator.reference) { ++ return true; ++ } ++ } ++ } ++ return false; ++} ++ + // src/compiler/moduleNameResolver.ts + function trace(host, message, ...args) { + host.trace(formatMessage(message, ...args)); +@@ -43804,7 +43870,7 @@ function getEffectiveTypeRoots(options, host) { + return getDefaultTypeRoots(currentDirectory); + } + } +-function getDefaultTypeRoots(currentDirectory) { ++function getNodeModulesTypeRoots(currentDirectory) { + let typeRoots; + forEachAncestorDirectory(normalizePath(currentDirectory), (directory) => { + const atTypes = combinePaths(directory, nodeModulesAtTypes); +@@ -43817,6 +43883,15 @@ function arePathsEqual(path1, path2, host) { + const useCaseSensitiveFileNames2 = typeof host.useCaseSensitiveFileNames === "function" ? host.useCaseSensitiveFileNames() : host.useCaseSensitiveFileNames; + return comparePaths(path1, path2, !useCaseSensitiveFileNames2) === 0 /* EqualTo */; + } ++function getDefaultTypeRoots(currentDirectory) { ++ const nmTypes = getNodeModulesTypeRoots(currentDirectory); ++ const pnpTypes = getPnpTypeRoots(currentDirectory); ++ if (nmTypes == null ? void 0 : nmTypes.length) { ++ return [...nmTypes, ...pnpTypes]; ++ } else if (pnpTypes.length) { ++ return pnpTypes; ++ } ++} + function getOriginalAndResolvedFileName(fileName, host, traceEnabled) { + const resolvedFileName = realPath(fileName, host, traceEnabled); + const pathsAreEqual = arePathsEqual(fileName, resolvedFileName, host); +@@ -44066,6 +44141,21 @@ function getConditions(options, resolutionMode) { + } + function resolvePackageNameToPackageJson(packageName, containingDirectory, options, host, cache) { + const moduleResolutionState = getTemporaryModuleResolutionState(cache == null ? void 0 : cache.getPackageJsonInfoCache(), host, options); ++ const pnpapi = getPnpApi(containingDirectory); ++ if (pnpapi) { ++ try { ++ const resolution = pnpapi.resolveToUnqualified(packageName, `${containingDirectory}/`, { considerBuiltins: false }); ++ const candidate = normalizeSlashes(resolution).replace(/\/$/, ""); ++ return getPackageJsonInfo( ++ candidate, ++ /*onlyRecordFailures*/ ++ false, ++ moduleResolutionState ++ ); ++ } catch { ++ return; ++ } ++ } + return forEachAncestorDirectoryStoppingAtGlobalCache(host, containingDirectory, (ancestorDirectory) => { + if (getBaseFileName(ancestorDirectory) !== "node_modules") { + const nodeModulesFolder = combinePaths(ancestorDirectory, "node_modules"); +@@ -45850,6 +45940,14 @@ function loadModuleFromNearestNodeModulesDirectoryWorker(extensions, moduleName, + return lookup(secondaryExtensions); + } + function lookup(extensions2) { ++ const issuer = normalizeSlashes(directory); ++ if (getPnpApi(issuer)) { ++ const resolutionFromCache = tryFindNonRelativeModuleNameInCache(cache, moduleName, mode, issuer, redirectedReference, state); ++ if (resolutionFromCache) { ++ return resolutionFromCache; ++ } ++ return toSearchResult(loadModuleFromImmediateNodeModulesDirectoryPnP(extensions2, moduleName, issuer, state, typesScopeOnly, cache, redirectedReference)); ++ } + return forEachAncestorDirectoryStoppingAtGlobalCache( + state.host, + normalizeSlashes(directory), +@@ -45898,11 +45996,40 @@ function loadModuleFromImmediateNodeModulesDirectory(extensions, moduleName, dir + return loadModuleFromSpecificNodeModulesDirectory(4 /* Declaration */, mangleScopedPackageNameWithTrace(moduleName, state), nodeModulesAtTypes2, nodeModulesAtTypesExists, state, cache, redirectedReference); + } + } ++function loadModuleFromImmediateNodeModulesDirectoryPnP(extensions, moduleName, directory, state, typesScopeOnly, cache, redirectedReference) { ++ const issuer = normalizeSlashes(directory); ++ if (!typesScopeOnly) { ++ const packageResult = tryLoadModuleUsingPnpResolution(extensions, moduleName, issuer, state, cache, redirectedReference); ++ if (packageResult) { ++ return packageResult; ++ } ++ } ++ if (extensions & 4 /* Declaration */) { ++ return tryLoadModuleUsingPnpResolution(4 /* Declaration */, `@types/${mangleScopedPackageNameWithTrace(moduleName, state)}`, issuer, state, cache, redirectedReference); ++ } ++} + function loadModuleFromSpecificNodeModulesDirectory(extensions, moduleName, nodeModulesDirectory, nodeModulesDirectoryExists, state, cache, redirectedReference) { +- var _a, _b; + const candidate = normalizePath(combinePaths(nodeModulesDirectory, moduleName)); + const { packageName, rest } = parsePackageName(moduleName); + const packageDirectory = combinePaths(nodeModulesDirectory, packageName); ++ return loadModuleFromSpecificNodeModulesDirectoryImpl(extensions, nodeModulesDirectoryExists, state, cache, redirectedReference, candidate, rest, packageDirectory); ++} ++function loadModuleFromPnpResolution(extensions, packageDirectory, rest, state, cache, redirectedReference) { ++ const candidate = normalizePath(combinePaths(packageDirectory, rest)); ++ return loadModuleFromSpecificNodeModulesDirectoryImpl( ++ extensions, ++ /*nodeModulesDirectoryExists*/ ++ true, ++ state, ++ cache, ++ redirectedReference, ++ candidate, ++ rest, ++ packageDirectory ++ ); ++} ++function loadModuleFromSpecificNodeModulesDirectoryImpl(extensions, nodeModulesDirectoryExists, state, cache, redirectedReference, candidate, rest, packageDirectory) { ++ var _a, _b; + let rootPackageInfo; + let packageInfo = getPackageJsonInfo(candidate, !nodeModulesDirectoryExists, state); + if (rest !== "" && packageInfo && (!(state.features & 8 /* Exports */) || !hasProperty(((_a = rootPackageInfo = getPackageJsonInfo(packageDirectory, !nodeModulesDirectoryExists, state)) == null ? void 0 : _a.contents.packageJsonContent) ?? emptyArray, "exports"))) { +@@ -46197,6 +46324,18 @@ function traceIfEnabled(state, diagnostic, ...args) { + function useCaseSensitiveFileNames(state) { + return !state.host.useCaseSensitiveFileNames ? true : typeof state.host.useCaseSensitiveFileNames === "boolean" ? state.host.useCaseSensitiveFileNames : state.host.useCaseSensitiveFileNames(); + } ++function loadPnpPackageResolution(packageName, containingDirectory) { ++ try { ++ const resolution = getPnpApi(containingDirectory).resolveToUnqualified(packageName, `${containingDirectory}/`, { considerBuiltins: false }); ++ return normalizeSlashes(resolution).replace(/\/$/, ""); ++ } catch { ++ } ++} ++function tryLoadModuleUsingPnpResolution(extensions, moduleName, containingDirectory, state, cache, redirectedReference) { ++ const { packageName, rest } = parsePackageName(moduleName); ++ const packageResolution = loadPnpPackageResolution(packageName, containingDirectory); ++ return packageResolution ? loadModuleFromPnpResolution(extensions, packageResolution, rest, state, cache, redirectedReference) : void 0; ++} + + // src/compiler/binder.ts + var ModuleInstanceState = /* @__PURE__ */ ((ModuleInstanceState2) => { +@@ -49826,7 +49965,15 @@ function getAllModulePathsWorker(info, importedFileName, host, compilerOptions, + /*preferSymlinks*/ + true, + (path, isRedirect) => { +- const isInNodeModules = pathContainsNodeModules(path); ++ let isInNodeModules = pathContainsNodeModules(path); ++ const pnpapi = getPnpApi(path); ++ if (!isInNodeModules && pnpapi) { ++ const fromLocator = pnpapi.findPackageLocator(info.importingSourceFileName); ++ const toLocator = pnpapi.findPackageLocator(path); ++ if (fromLocator && toLocator && fromLocator !== toLocator) { ++ isInNodeModules = true; ++ } ++ } + allFileNames.set(path, { path: info.getCanonicalFileName(path), isRedirect, isInNodeModules }); + importedFileFromNodeModules = importedFileFromNodeModules || isInNodeModules; + } +@@ -50142,7 +50289,41 @@ function tryGetModuleNameAsNodeModule({ path, isRedirect }, { getCanonicalFileNa + if (!host.fileExists || !host.readFile) { + return void 0; + } +- const parts = getNodeModulePathParts(path); ++ let parts = getNodeModulePathParts(path); ++ let pnpPackageName; ++ const pnpApi = getPnpApi(path); ++ if (pnpApi) { ++ const fromLocator = pnpApi.findPackageLocator(importingSourceFile.fileName); ++ const toLocator = pnpApi.findPackageLocator(path); ++ if (fromLocator === toLocator) { ++ return void 0; ++ } ++ if (fromLocator && toLocator) { ++ const fromInfo = pnpApi.getPackageInformation(fromLocator); ++ if (toLocator.reference === fromInfo.packageDependencies.get(toLocator.name)) { ++ pnpPackageName = toLocator.name; ++ } else { ++ for (const [name, reference] of fromInfo.packageDependencies) { ++ if (Array.isArray(reference)) { ++ if (reference[0] === toLocator.name && reference[1] === toLocator.reference) { ++ pnpPackageName = name; ++ break; ++ } ++ } ++ } ++ } ++ if (!parts) { ++ const toInfo = pnpApi.getPackageInformation(toLocator); ++ parts = { ++ topLevelNodeModulesIndex: void 0, ++ topLevelPackageNameIndex: void 0, ++ // The last character from packageLocation is the trailing "/", we want to point to it ++ packageRootIndex: toInfo.packageLocation.length - 1, ++ fileNameIndex: path.lastIndexOf(`/`) ++ }; ++ } ++ } ++ } + if (!parts) { + return void 0; + } +@@ -50179,14 +50360,16 @@ function tryGetModuleNameAsNodeModule({ path, isRedirect }, { getCanonicalFileNa + if (isRedirect && !isPackageRootPath) { + return void 0; + } +- const globalTypingsCacheLocation = host.getGlobalTypingsCacheLocation && host.getGlobalTypingsCacheLocation(); +- const pathToTopLevelNodeModules = getCanonicalFileName(moduleSpecifier.substring(0, parts.topLevelNodeModulesIndex)); +- if (!(startsWith(canonicalSourceDirectory, pathToTopLevelNodeModules) || globalTypingsCacheLocation && startsWith(getCanonicalFileName(globalTypingsCacheLocation), pathToTopLevelNodeModules))) { +- return void 0; ++ if (typeof process.versions.pnp === "undefined") { ++ const globalTypingsCacheLocation = host.getGlobalTypingsCacheLocation && host.getGlobalTypingsCacheLocation(); ++ const pathToTopLevelNodeModules = getCanonicalFileName(moduleSpecifier.substring(0, parts.topLevelNodeModulesIndex)); ++ if (!(startsWith(canonicalSourceDirectory, pathToTopLevelNodeModules) || globalTypingsCacheLocation && startsWith(getCanonicalFileName(globalTypingsCacheLocation), pathToTopLevelNodeModules))) { ++ return void 0; ++ } + } +- const nodeModulesDirectoryName = moduleSpecifier.substring(parts.topLevelPackageNameIndex + 1); +- const packageName = getPackageNameFromTypesPackageName(nodeModulesDirectoryName); +- return getEmitModuleResolutionKind(options) === 1 /* Classic */ && packageName === nodeModulesDirectoryName ? void 0 : packageName; ++ const nodeModulesDirectoryName = typeof pnpPackageName !== "undefined" ? pnpPackageName + moduleSpecifier.substring(parts.packageRootIndex) : moduleSpecifier.substring(parts.topLevelPackageNameIndex + 1); ++ const packageNameFromPath = getPackageNameFromTypesPackageName(nodeModulesDirectoryName); ++ return getEmitModuleResolutionKind(options) === 1 /* Classic */ && packageNameFromPath === nodeModulesDirectoryName ? void 0 : packageNameFromPath; + function tryDirectoryWithPackageJson(packageRootIndex) { + var _a, _b; + const packageRootPath = path.substring(0, packageRootIndex); +@@ -50199,14 +50382,14 @@ function tryGetModuleNameAsNodeModule({ path, isRedirect }, { getCanonicalFileNa + const importMode = overrideMode || getDefaultResolutionModeForFile(importingSourceFile, host, options); + if (getResolvePackageJsonExports(options)) { + const nodeModulesDirectoryName2 = packageRootPath.substring(parts.topLevelPackageNameIndex + 1); +- const packageName2 = getPackageNameFromTypesPackageName(nodeModulesDirectoryName2); ++ const packageName = getPackageNameFromTypesPackageName(pnpPackageName ? pnpPackageName : nodeModulesDirectoryName2); + const conditions = getConditions(options, importMode); + const fromExports = (packageJsonContent == null ? void 0 : packageJsonContent.exports) ? tryGetModuleNameFromExports( + options, + host, + path, + packageRootPath, +- packageName2, ++ packageName, + packageJsonContent.exports, + conditions + ) : void 0; +@@ -124275,6 +124458,7 @@ var ProgramUpdateLevel = /* @__PURE__ */ ((ProgramUpdateLevel2) => { + ProgramUpdateLevel2[ProgramUpdateLevel2["Update"] = 0] = "Update"; + ProgramUpdateLevel2[ProgramUpdateLevel2["RootNamesAndUpdate"] = 1] = "RootNamesAndUpdate"; + ProgramUpdateLevel2[ProgramUpdateLevel2["Full"] = 2] = "Full"; ++ ProgramUpdateLevel2[ProgramUpdateLevel2["Resolutions"] = 3] = "Resolutions"; + return ProgramUpdateLevel2; + })(ProgramUpdateLevel || {}); + function updateSharedExtendedConfigFileWatcher(projectPath, options, extendedConfigFilesMap, createExtendedConfigFileWatch, toPath3) { +@@ -132483,6 +132667,11 @@ function createWatchProgram(host) { + if (configFileName) { + configFileWatcher = watchFile2(configFileName, scheduleProgramReload, 2e3 /* High */, watchOptions, WatchType.ConfigFile); + } ++ let pnpFileWatcher; ++ const pnpApiPath = getPnpApiPath(__filename); ++ if (pnpApiPath) { ++ pnpFileWatcher = watchFile2(pnpApiPath, scheduleResolutionReload, 2e3 /* High */, watchOptions, WatchType.ConfigFile); ++ } + const compilerHost = createCompilerHostFromProgramHost(host, () => compilerOptions, directoryStructureHost); + setGetSourceFileAsHashVersioned(compilerHost); + const getNewSourceFile = compilerHost.getSourceFile; +@@ -132544,6 +132733,10 @@ function createWatchProgram(host) { + configFileWatcher.close(); + configFileWatcher = void 0; + } ++ if (pnpFileWatcher) { ++ pnpFileWatcher.close(); ++ pnpFileWatcher = void 0; ++ } + extendedConfigCache == null ? void 0 : extendedConfigCache.clear(); + extendedConfigCache = void 0; + if (sharedExtendedConfigFileWatchers) { +@@ -132579,7 +132772,7 @@ function createWatchProgram(host) { + function getCurrentProgram() { + return builderProgram && builderProgram.getProgramOrUndefined(); + } +- function synchronizeProgram() { ++ function synchronizeProgram(forceAllFilesAsInvalidated = false) { + writeLog(`Synchronizing program`); + Debug.assert(compilerOptions); + Debug.assert(rootFileNames); +@@ -132591,7 +132784,7 @@ function createWatchProgram(host) { + resolutionCache.onChangesAffectModuleResolution(); + } + } +- const { hasInvalidatedResolutions, hasInvalidatedLibResolutions } = resolutionCache.createHasInvalidatedResolutions(customHasInvalidatedResolutions, customHasInvalidLibResolutions); ++ const { hasInvalidatedResolutions, hasInvalidatedLibResolutions } = resolutionCache.createHasInvalidatedResolutions(forceAllFilesAsInvalidated ? returnTrue : customHasInvalidatedResolutions, customHasInvalidLibResolutions); + const { + originalReadFile, + originalFileExists, +@@ -132809,6 +133002,12 @@ function createWatchProgram(host) { + updateLevel = 2 /* Full */; + scheduleProgramUpdate(); + } ++ function scheduleResolutionReload() { ++ writeLog("Clearing resolutions"); ++ resolutionCache.clear(); ++ updateLevel = 3 /* Resolutions */; ++ scheduleProgramUpdate(); ++ } + function updateProgramWithWatchStatus() { + timerToUpdateProgram = void 0; + reportFileChangeDetectedOnCreateProgram = true; +@@ -132822,6 +133021,12 @@ function createWatchProgram(host) { + case 2 /* Full */: + reloadConfigFile(); + break; ++ case 3 /* Resolutions */: ++ synchronizeProgram( ++ /*forceAllFilesAsInvalidated*/ ++ true ++ ); ++ break; + default: + synchronizeProgram(); + break; +@@ -140244,7 +140449,14 @@ function createPackageJsonImportFilter(fromFile, preferences, host) { + return false; + } + function getNodeModulesPackageNameFromFileName(importedFileName, moduleSpecifierResolutionHost) { +- if (!importedFileName.includes("node_modules")) { ++ const pnpapi = getPnpApi(importedFileName); ++ if (pnpapi) { ++ const fromLocator = pnpapi.findPackageLocator(fromFile.fileName); ++ const toLocator = pnpapi.findPackageLocator(importedFileName); ++ if (!(fromLocator && toLocator)) { ++ return void 0; ++ } ++ } else if (!importedFileName.includes("node_modules")) { + return void 0; + } + const specifier = ts_moduleSpecifiers_exports.getNodeModulesPackageName( +@@ -140811,6 +141023,9 @@ function fileContainsPackageImport(sourceFile, packageName) { + return sourceFile.imports && sourceFile.imports.some((i) => i.text === packageName || i.text.startsWith(packageName + "/")); + } + function isImportablePath(fromPath, toPath3, getCanonicalFileName, globalCachePath, host) { ++ if (getPnpApi(fromPath)) { ++ return isImportablePathPnp(fromPath, toPath3); ++ } + const toNodeModules = forEachAncestorDirectoryStoppingAtGlobalCache( + host, + toPath3, +@@ -169863,7 +170078,34 @@ function getCompletionEntriesForNonRelativeModules(fragment, scriptPath, mode, p + ); + } + }; +- if (fragmentDirectory && getResolvePackageJsonExports(compilerOptions)) { ++ const checkExports = (packageFile, packageDirectory, fragmentSubpath) => { ++ const packageJson = readJson(packageFile, host); ++ const exports2 = packageJson.exports; ++ if (exports2) { ++ if (typeof exports2 !== "object" || exports2 === null) { ++ return true; ++ } ++ const keys = getOwnKeys(exports2); ++ const conditions = getConditions(compilerOptions, mode); ++ addCompletionEntriesFromPathsOrExports( ++ result, ++ /*isExports*/ ++ true, ++ fragmentSubpath, ++ packageDirectory, ++ extensionOptions, ++ program, ++ host, ++ keys, ++ (key) => singleElementArray(getPatternFromFirstMatchingCondition(exports2[key], conditions)), ++ comparePatternKeys ++ ); ++ return true; ++ } ++ return false; ++ }; ++ const shouldCheckExports = fragmentDirectory && getResolvePackageJsonExports(compilerOptions); ++ if (shouldCheckExports) { + const nodeModulesDirectoryLookup = ancestorLookup; + ancestorLookup = (ancestor) => { + const components = getPathComponents(fragment); +@@ -169882,35 +170124,53 @@ function getCompletionEntriesForNonRelativeModules(fragment, scriptPath, mode, p + const packageDirectory = combinePaths(ancestor, "node_modules", packagePath); + const packageFile = combinePaths(packageDirectory, "package.json"); + if (tryFileExists(host, packageFile)) { +- const packageJson = readJson(packageFile, host); +- const exports2 = packageJson.exports; +- if (exports2) { +- if (typeof exports2 !== "object" || exports2 === null) { +- return; ++ const fragmentSubpath = components.join("/") + (components.length && hasTrailingDirectorySeparator(fragment) ? "/" : ""); ++ if (checkExports(packageFile, packageDirectory, fragmentSubpath)) { ++ return; ++ } ++ } ++ return nodeModulesDirectoryLookup(ancestor); ++ }; ++ } ++ const pnpApi = getPnpApi(scriptPath); ++ if (pnpApi) { ++ const pathRegExp = /^(?![a-zA-Z]:[\\/]|\\\\|\.{0,2}(?:\/|$))((?:@[^/]+\/)?[^/]+)\/*(.*|)$/; ++ const dependencyNameMatch = fragment.match(pathRegExp); ++ if (dependencyNameMatch) { ++ const [, dependencyName, subPath] = dependencyNameMatch; ++ let unqualified; ++ try { ++ unqualified = pnpApi.resolveToUnqualified(dependencyName, scriptPath, { considerBuiltins: false }); ++ } catch { ++ } ++ if (unqualified) { ++ const packageDirectory = normalizePath(unqualified); ++ let shouldGetCompletions = true; ++ if (shouldCheckExports) { ++ const packageFile = combinePaths(packageDirectory, "package.json"); ++ if (tryFileExists(host, packageFile) && checkExports(packageFile, packageDirectory, subPath)) { ++ shouldGetCompletions = false; + } +- const keys = getOwnKeys(exports2); +- const fragmentSubpath = components.join("/") + (components.length && hasTrailingDirectorySeparator(fragment) ? "/" : ""); +- const conditions = getConditions(compilerOptions, mode); +- addCompletionEntriesFromPathsOrExports( +- result, +- /*isExports*/ +- true, +- fragmentSubpath, ++ } ++ if (shouldGetCompletions) { ++ getCompletionEntriesForDirectoryFragment( ++ subPath, + packageDirectory, + extensionOptions, + program, + host, +- keys, +- (key) => singleElementArray(getPatternFromFirstMatchingCondition(exports2[key], conditions)), +- comparePatternKeys ++ /*moduleSpecifierIsRelative*/ ++ false, ++ /*exclude*/ ++ void 0, ++ result + ); +- return; + } + } +- return nodeModulesDirectoryLookup(ancestor); +- }; ++ } ++ } else { ++ forEachAncestorDirectoryStoppingAtGlobalCache(host, scriptPath, ancestorLookup); + } +- forEachAncestorDirectoryStoppingAtGlobalCache(host, scriptPath, ancestorLookup); + } + } + return arrayFrom(result.values()); +@@ -170044,9 +170304,15 @@ function getCompletionEntriesFromTypings(host, program, scriptPath, fragmentDire + for (const root of typeRoots) { + getCompletionEntriesFromDirectories(root); + } +- for (const packageJson of findPackageJsons(scriptPath, host)) { +- const typesDir = combinePaths(getDirectoryPath(packageJson), "node_modules/@types"); +- getCompletionEntriesFromDirectories(typesDir); ++ if (getPnpApi(scriptPath)) { ++ for (const root of getPnpTypeRoots(scriptPath)) { ++ getCompletionEntriesFromDirectories(root); ++ } ++ } else { ++ for (const packageJson of findPackageJsons(scriptPath, host)) { ++ const typesDir = combinePaths(getDirectoryPath(packageJson), "node_modules/@types"); ++ getCompletionEntriesFromDirectories(typesDir); ++ } + } + return result; + function getCompletionEntriesFromDirectories(directory) { +@@ -187340,6 +187606,29 @@ var ConfiguredProject2 = class extends Project2 { + return this.projectReferences; + } + updateReferences(refs) { ++ if (typeof process.versions.pnp !== `undefined`) { ++ const basePath = this.getCurrentDirectory(); ++ const getPnpPath = (path) => { ++ try { ++ const pnpApi = getPnpApi(`${path}/`); ++ if (!pnpApi) { ++ return path; ++ } ++ const targetLocator = pnpApi.findPackageLocator(`${path}/`); ++ const { packageLocation } = pnpApi.getPackageInformation(targetLocator); ++ const request = combinePaths(targetLocator.name, getRelativePathFromDirectory( ++ packageLocation, ++ path, ++ /*ignoreCase*/ ++ false ++ )); ++ return pnpApi.resolveToUnqualified(request, `${basePath}/`); ++ } catch { ++ return path; ++ } ++ }; ++ refs = refs == null ? void 0 : refs.map((r) => ({ ...r, path: getPnpPath(r.path) })); ++ } + this.projectReferences = refs; + this.potentialProjectReferences = void 0; + } +@@ -188145,6 +188434,7 @@ var _ProjectService = class _ProjectService { + getDetailWatchInfo + ); + this.canUseWatchEvents = getCanUseWatchEvents(this, opts.canUseWatchEvents); ++ this.pnpWatcher = this.watchPnpFile(); + (_a = opts.incrementalVerifier) == null ? void 0 : _a.call(opts, this); + } + toPath(fileName) { +@@ -190099,7 +190389,7 @@ Dynamic files must always be opened with service's current directory or service + this.performanceEventHandler = performanceEventHandler; + } + setHostConfiguration(args) { +- var _a; ++ var _a, _b; + if (args.file) { + const info = this.getScriptInfoForNormalizedPath(toNormalizedPath(args.file)); + if (info) { +@@ -190148,6 +190438,8 @@ Dynamic files must always be opened with service's current directory or service + this.hostConfiguration.watchOptions = substitution; + this.hostConfiguration.beforeSubstitution = substitution === watchOptions ? void 0 : watchOptions; + this.logger.info(`Host watch options changed to ${JSON.stringify(this.hostConfiguration.watchOptions)}, it will be take effect for next watches.`); ++ (_b = this.pnpWatcher) == null ? void 0 : _b.close(); ++ this.watchPnpFile(); + } + } + } +@@ -191343,6 +191635,28 @@ Dynamic files must always be opened with service's current directory or service + } + ); + } ++ watchPnpFile() { ++ const pnpApiPath = getPnpApiPath(__filename); ++ if (!pnpApiPath) { ++ return; ++ } ++ return this.watchFactory.watchFile( ++ pnpApiPath, ++ () => { ++ this.forEachProject((project) => { ++ for (const info of project.getScriptInfos()) { ++ project.resolutionCache.invalidateResolutionOfFile(info.path); ++ } ++ project.markAsDirty(); ++ updateProjectIfDirty(project); ++ }); ++ this.delayEnsureProjectForOpenFiles(); ++ }, ++ 250 /* Low */, ++ this.hostConfiguration.watchOptions, ++ WatchType.ConfigFile ++ ); ++ } + watchPackageJsonFile(file, path, project) { + Debug.assert(project !== void 0); + let result = (this.packageJsonFilesMap ?? (this.packageJsonFilesMap = /* @__PURE__ */ new Map())).get(path); diff --git a/packages/plugin-compat/sources/patches/typescript.patch.ts b/packages/plugin-compat/sources/patches/typescript.patch.ts index 0dcd76baf0ea..9d55a8d9b4b8 100644 --- a/packages/plugin-compat/sources/patches/typescript.patch.ts +++ b/packages/plugin-compat/sources/patches/typescript.patch.ts @@ -2,7 +2,7 @@ let patch: string; export function getPatch() { if (typeof patch === `undefined`) - patch = require(`zlib`).brotliDecompressSync(Buffer.from(`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`, `base64`)).toString(); + patch = require(`zlib`).brotliDecompressSync(Buffer.from(`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`, `base64`)).toString(); return patch; }