From 14ff3429ae734f48d78c869b33c5a8882e9bb776 Mon Sep 17 00:00:00 2001 From: Kristoffer K Date: Fri, 21 Jun 2024 02:12:45 +0200 Subject: [PATCH] fix(compat): update patch for `typescript@5.5.2` (#6349) **What's the problem this PR addresses?** The PnP compatibility patch for TypeScript doesn't apply to `typescript@5.5.2`. Ref https://github.com/microsoft/TypeScript/pull/35206 **How did you fix it?** Rebased it. **Checklist** - [x] I have read the [Contributing Guide](https://yarnpkg.com/advanced/contributing). - [x] I have set the packages that need to be released for my changes to be effective. - [x] I will check that all automated PR checks pass before the PR gets reviewed. --- .yarn/versions/cab716b2.yml | 23 + .../extra/typescript/gen-typescript-patch.js | 9 +- ...atch-51ab57a4392bdf0fe1e44f78309540a3.diff | 8 +- ...atch-d6f4469677c4a233add73638f77090a1.diff | 1051 +++++++++++++++++ .../sources/patches/typescript.patch.ts | 2 +- 5 files changed, 1087 insertions(+), 6 deletions(-) create mode 100644 .yarn/versions/cab716b2.yml create mode 100644 packages/plugin-compat/extra/typescript/patch-d6f4469677c4a233add73638f77090a1.diff diff --git a/.yarn/versions/cab716b2.yml b/.yarn/versions/cab716b2.yml new file mode 100644 index 000000000000..1494bd471424 --- /dev/null +++ b/.yarn/versions/cab716b2.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 96423f5610be..cba6873049c5 100644 --- a/packages/plugin-compat/extra/typescript/gen-typescript-patch.js +++ b/packages/plugin-compat/extra/typescript/gen-typescript-patch.js @@ -274,7 +274,14 @@ const SLICES = [ from: `f90eb7508e66a3d5066b1d8a06606c6c23f3df43`, to: `43d2cbd6ac423e35a5a095a509fc90c03f0c22ba`, onto: `b574864abc989d0f8b15367baea1058819e126ba`, - range: `>=5.5.0-beta`, + range: `>=5.5.0-beta <5.5.2`, + }, + // https://github.com/yarnpkg/TypeScript/tree/merceyz/pnp-5.5 + { + from: `5b321aa5835f9f4dba6d55553fd559985d44b1a9`, + to: `c41328460d8dba2fac56c220803c68ca961d7cd5`, + onto: `ce2e60e4ea15a65992e54a9e8877d16be9d42abb`, + range: `>=5.5.2`, }, ]; diff --git a/packages/plugin-compat/extra/typescript/patch-51ab57a4392bdf0fe1e44f78309540a3.diff b/packages/plugin-compat/extra/typescript/patch-51ab57a4392bdf0fe1e44f78309540a3.diff index d1ac33c2ca97..05c729e6520e 100644 --- a/packages/plugin-compat/extra/typescript/patch-51ab57a4392bdf0fe1e44f78309540a3.diff +++ b/packages/plugin-compat/extra/typescript/patch-51ab57a4392bdf0fe1e44f78309540a3.diff @@ -1,6 +1,6 @@ diff --git a/lib/tsc.js b/lib/tsc.js index 06f7f5ec9..4a7e28076 100644 -semver exclusivity >=5.5.0-beta +semver exclusivity >=5.5.0-beta <5.5.2 --- a/lib/tsc.js +++ b/lib/tsc.js @@ -5120,6 +5120,9 @@ var sys = (() => { @@ -347,7 +347,7 @@ semver exclusivity >=5.5.0-beta function reloadFileNamesFromConfigFile() { diff --git a/lib/tsserver.js b/lib/tsserver.js index 50cc6659c..9cefc330a 100644 -semver exclusivity >=5.5.0-beta +semver exclusivity >=5.5.0-beta <5.5.2 --- a/lib/tsserver.js +++ b/lib/tsserver.js @@ -33,6 +33,25 @@ var __reExport = (target, mod, secondTarget) => (__copyProps(target, mod, "defau @@ -400,7 +400,7 @@ semver exclusivity >=5.5.0-beta this.installer.on("message", (m) => this.handleMessage(m)); diff --git a/lib/typescript.d.ts b/lib/typescript.d.ts index f4c59a844..631850d94 100644 -semver exclusivity >=5.5.0-beta +semver exclusivity >=5.5.0-beta <5.5.2 --- a/lib/typescript.d.ts +++ b/lib/typescript.d.ts @@ -9339,6 +9339,8 @@ declare namespace ts { @@ -414,7 +414,7 @@ semver exclusivity >=5.5.0-beta function resolveTripleslashReference(moduleName: string, containingFile: string): string; diff --git a/lib/typescript.js b/lib/typescript.js index 6b52dd675..22cf43d26 100644 -semver exclusivity >=5.5.0-beta +semver exclusivity >=5.5.0-beta <5.5.2 --- a/lib/typescript.js +++ b/lib/typescript.js @@ -8708,6 +8708,9 @@ var sys = (() => { diff --git a/packages/plugin-compat/extra/typescript/patch-d6f4469677c4a233add73638f77090a1.diff b/packages/plugin-compat/extra/typescript/patch-d6f4469677c4a233add73638f77090a1.diff new file mode 100644 index 000000000000..65dd15fd1994 --- /dev/null +++ b/packages/plugin-compat/extra/typescript/patch-d6f4469677c4a233add73638f77090a1.diff @@ -0,0 +1,1051 @@ +diff --git a/lib/tsc.js b/lib/tsc.js +index e3dc24d79..d287f962a 100644 +semver exclusivity >=5.5.2 +--- a/lib/tsc.js ++++ b/lib/tsc.js +@@ -5067,6 +5067,9 @@ var sys = (() => { + } + } + function isFileSystemCaseSensitive() { ++ if (typeof process.versions.pnp !== `undefined`) { ++ return true; ++ } + if (platform === "win32" || platform === "win64") { + return false; + } +@@ -38558,6 +38561,48 @@ 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)); +@@ -38775,7 +38820,7 @@ function getEffectiveTypeRoots(options, host) { + return getDefaultTypeRoots(currentDirectory); + } + } +-function getDefaultTypeRoots(currentDirectory) { ++function getNodeModulesTypeRoots(currentDirectory) { + let typeRoots; + forEachAncestorDirectory(normalizePath(currentDirectory), (directory) => { + const atTypes = combinePaths(directory, nodeModulesAtTypes); +@@ -38788,6 +38833,15 @@ 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); +@@ -40676,7 +40730,15 @@ function loadModuleFromNearestNodeModulesDirectoryWorker(extensions, moduleName, + return lookup(secondaryExtensions); + } + function lookup(extensions2) { +- return forEachAncestorDirectory(normalizeSlashes(directory), (ancestorDirectory) => { ++ 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 forEachAncestorDirectory(issuer, (ancestorDirectory) => { + if (getBaseFileName(ancestorDirectory) !== "node_modules") { + const resolutionFromCache = tryFindNonRelativeModuleNameInCache(cache, moduleName, mode, ancestorDirectory, redirectedReference, state); + if (resolutionFromCache) { +@@ -40711,11 +40773,40 @@ 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"))) { +@@ -41016,6 +41107,18 @@ 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) { +@@ -44433,7 +44536,15 @@ 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; + } +@@ -44724,7 +44835,41 @@ 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; + } +@@ -44761,14 +44906,16 @@ 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); +@@ -44781,9 +44928,9 @@ function tryGetModuleNameAsNodeModule({ path, isRedirect }, { getCanonicalFileNa + const importMode = overrideMode || importingSourceFile.impliedNodeFormat; + 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, packageJsonContent.exports, conditions) : void 0; ++ const fromExports = (packageJsonContent == null ? void 0 : packageJsonContent.exports) ? tryGetModuleNameFromExports(options, host, path, packageRootPath, packageName, packageJsonContent.exports, conditions) : void 0; + if (fromExports) { + return { ...fromExports, verbatimFromExports: true }; + } +@@ -125757,6 +125904,11 @@ 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; +@@ -125819,6 +125971,10 @@ 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) { +@@ -125854,7 +126010,7 @@ function createWatchProgram(host) { + function getCurrentProgram() { + return builderProgram && builderProgram.getProgramOrUndefined(); + } +- function synchronizeProgram() { ++ function synchronizeProgram(forceAllFilesAsInvalidated = false) { + writeLog(`Synchronizing program`); + Debug.assert(compilerOptions); + Debug.assert(rootFileNames); +@@ -125866,7 +126022,7 @@ function createWatchProgram(host) { + resolutionCache.onChangesAffectModuleResolution(); + } + } +- const { hasInvalidatedResolutions, hasInvalidatedLibResolutions } = resolutionCache.createHasInvalidatedResolutions(customHasInvalidatedResolutions, customHasInvalidLibResolutions); ++ const { hasInvalidatedResolutions, hasInvalidatedLibResolutions } = resolutionCache.createHasInvalidatedResolutions(forceAllFilesAsInvalidated ? returnTrue : customHasInvalidatedResolutions, customHasInvalidLibResolutions); + const { + originalReadFile, + originalFileExists, +@@ -126074,13 +126230,19 @@ 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; + updateProgram(); + } + function updateProgram() { +- var _a, _b, _c, _d; ++ var _a, _b, _c, _d, _e; + switch (updateLevel) { + case 1 /* RootNamesAndUpdate */: + (_a = perfLogger) == null ? void 0 : _a.logStartUpdateProgram("PartialConfigReload"); +@@ -126090,12 +126252,19 @@ function createWatchProgram(host) { + (_b = perfLogger) == null ? void 0 : _b.logStartUpdateProgram("FullConfigReload"); + reloadConfigFile(); + break; ++ case 3 /* Resolutions */: ++ (_c = perfLogger) == null ? void 0 : _c.logStartUpdateProgram("SynchronizeProgramWithResolutions"); ++ synchronizeProgram( ++ /*forceAllFilesAsInvalidated*/ ++ true ++ ); ++ break; + default: +- (_c = perfLogger) == null ? void 0 : _c.logStartUpdateProgram("SynchronizeProgram"); ++ (_d = perfLogger) == null ? void 0 : _d.logStartUpdateProgram("SynchronizeProgram"); + synchronizeProgram(); + break; + } +- (_d = perfLogger) == null ? void 0 : _d.logStopUpdateProgram("Done"); ++ (_e = perfLogger) == null ? void 0 : _e.logStopUpdateProgram("Done"); + return getCurrentBuilderProgram(); + } + function reloadFileNamesFromConfigFile() { +diff --git a/lib/tsserver.js b/lib/tsserver.js +index 398a3a1ed..8a81feff1 100644 +semver exclusivity >=5.5.2 +--- a/lib/tsserver.js ++++ b/lib/tsserver.js +@@ -33,6 +33,25 @@ var __reExport = (target, mod, secondTarget) => (__copyProps(target, mod, "defau + var typescript_exports = {}; + __reExport(typescript_exports, require("./typescript.js")); + ++// 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) { +@@ -237,6 +256,10 @@ 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)}`); + } +@@ -417,6 +440,10 @@ 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 = childProcess.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 fbb3e4912..e601e3d32 100644 +semver exclusivity >=5.5.2 +--- a/lib/typescript.d.ts ++++ b/lib/typescript.d.ts +@@ -9350,6 +9350,8 @@ 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 714953f46..e30a70401 100644 +semver exclusivity >=5.5.2 +--- a/lib/typescript.js ++++ b/lib/typescript.js +@@ -8626,6 +8626,9 @@ var sys = (() => { + } + } + function isFileSystemCaseSensitive() { ++ if (typeof process.versions.pnp !== `undefined`) { ++ return true; ++ } + if (platform === "win32" || platform === "win64") { + return false; + } +@@ -43044,6 +43047,69 @@ 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)); +@@ -43269,7 +43335,7 @@ function getEffectiveTypeRoots(options, host) { + return getDefaultTypeRoots(currentDirectory); + } + } +-function getDefaultTypeRoots(currentDirectory) { ++function getNodeModulesTypeRoots(currentDirectory) { + let typeRoots; + forEachAncestorDirectory(normalizePath(currentDirectory), (directory) => { + const atTypes = combinePaths(directory, nodeModulesAtTypes); +@@ -43282,6 +43348,15 @@ 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); +@@ -43531,6 +43606,21 @@ 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 forEachAncestorDirectory(containingDirectory, (ancestorDirectory) => { + if (getBaseFileName(ancestorDirectory) !== "node_modules") { + const nodeModulesFolder = combinePaths(ancestorDirectory, "node_modules"); +@@ -45322,7 +45412,15 @@ function loadModuleFromNearestNodeModulesDirectoryWorker(extensions, moduleName, + return lookup(secondaryExtensions); + } + function lookup(extensions2) { +- return forEachAncestorDirectory(normalizeSlashes(directory), (ancestorDirectory) => { ++ 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 forEachAncestorDirectory(issuer, (ancestorDirectory) => { + if (getBaseFileName(ancestorDirectory) !== "node_modules") { + const resolutionFromCache = tryFindNonRelativeModuleNameInCache(cache, moduleName, mode, ancestorDirectory, redirectedReference, state); + if (resolutionFromCache) { +@@ -45357,11 +45455,40 @@ 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"))) { +@@ -45662,6 +45789,18 @@ 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) => { +@@ -49197,7 +49336,15 @@ 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; + } +@@ -49488,7 +49635,41 @@ 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; + } +@@ -49525,14 +49706,16 @@ 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); +@@ -49545,9 +49728,9 @@ function tryGetModuleNameAsNodeModule({ path, isRedirect }, { getCanonicalFileNa + const importMode = overrideMode || importingSourceFile.impliedNodeFormat; + 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, packageJsonContent.exports, conditions) : void 0; ++ const fromExports = (packageJsonContent == null ? void 0 : packageJsonContent.exports) ? tryGetModuleNameFromExports(options, host, path, packageRootPath, packageName, packageJsonContent.exports, conditions) : void 0; + if (fromExports) { + return { ...fromExports, verbatimFromExports: true }; + } +@@ -122919,6 +123102,7 @@ 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) { +@@ -130823,6 +131007,11 @@ 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; +@@ -130885,6 +131074,10 @@ 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) { +@@ -130920,7 +131113,7 @@ function createWatchProgram(host) { + function getCurrentProgram() { + return builderProgram && builderProgram.getProgramOrUndefined(); + } +- function synchronizeProgram() { ++ function synchronizeProgram(forceAllFilesAsInvalidated = false) { + writeLog(`Synchronizing program`); + Debug.assert(compilerOptions); + Debug.assert(rootFileNames); +@@ -130932,7 +131125,7 @@ function createWatchProgram(host) { + resolutionCache.onChangesAffectModuleResolution(); + } + } +- const { hasInvalidatedResolutions, hasInvalidatedLibResolutions } = resolutionCache.createHasInvalidatedResolutions(customHasInvalidatedResolutions, customHasInvalidLibResolutions); ++ const { hasInvalidatedResolutions, hasInvalidatedLibResolutions } = resolutionCache.createHasInvalidatedResolutions(forceAllFilesAsInvalidated ? returnTrue : customHasInvalidatedResolutions, customHasInvalidLibResolutions); + const { + originalReadFile, + originalFileExists, +@@ -131140,13 +131333,19 @@ 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; + updateProgram(); + } + function updateProgram() { +- var _a, _b, _c, _d; ++ var _a, _b, _c, _d, _e; + switch (updateLevel) { + case 1 /* RootNamesAndUpdate */: + (_a = perfLogger) == null ? void 0 : _a.logStartUpdateProgram("PartialConfigReload"); +@@ -131156,12 +131355,19 @@ function createWatchProgram(host) { + (_b = perfLogger) == null ? void 0 : _b.logStartUpdateProgram("FullConfigReload"); + reloadConfigFile(); + break; ++ case 3 /* Resolutions */: ++ (_c = perfLogger) == null ? void 0 : _c.logStartUpdateProgram("SynchronizeProgramWithResolutions"); ++ synchronizeProgram( ++ /*forceAllFilesAsInvalidated*/ ++ true ++ ); ++ break; + default: +- (_c = perfLogger) == null ? void 0 : _c.logStartUpdateProgram("SynchronizeProgram"); ++ (_d = perfLogger) == null ? void 0 : _d.logStartUpdateProgram("SynchronizeProgram"); + synchronizeProgram(); + break; + } +- (_d = perfLogger) == null ? void 0 : _d.logStopUpdateProgram("Done"); ++ (_e = perfLogger) == null ? void 0 : _e.logStopUpdateProgram("Done"); + return getCurrentBuilderProgram(); + } + function reloadFileNamesFromConfigFile() { +@@ -137947,7 +138153,14 @@ 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( +@@ -138520,6 +138733,9 @@ function isImportableFile(program, from, to, preferences, packageJsonFilter, mod + return hasImportablePath; + } + function isImportablePath(fromPath, toPath3, getCanonicalFileName, globalCachePath) { ++ if (getPnpApi(fromPath)) { ++ return isImportablePathPnp(fromPath, toPath3); ++ } + const toNodeModules = forEachAncestorDirectory(toPath3, (ancestor) => getBaseFileName(ancestor) === "node_modules" ? ancestor : void 0); + const toNodeModulesParent = toNodeModules && getDirectoryPath(getCanonicalFileName(toNodeModules)); + return toNodeModulesParent === void 0 || startsWith(getCanonicalFileName(fromPath), toNodeModulesParent) || !!globalCachePath && startsWith(getCanonicalFileName(globalCachePath), toNodeModulesParent); +@@ -166819,7 +167035,33 @@ function getCompletionEntriesForNonRelativeModules(fragment, scriptPath, mode, c + ); + } + }; +- 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, ++ 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); +@@ -166838,34 +167080,52 @@ function getCompletionEntriesForNonRelativeModules(fragment, scriptPath, mode, c + 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, + host, +- keys, +- (key) => singleElementArray(getPatternFromFirstMatchingCondition(exports2[key], conditions)), +- comparePatternKeys ++ /*moduleSpecifierIsRelative*/ ++ false, ++ /*exclude*/ ++ void 0, ++ result + ); +- return; + } + } +- return nodeModulesDirectoryLookup(ancestor); +- }; ++ } ++ } else { ++ forEachAncestorDirectory(scriptPath, ancestorLookup); + } +- forEachAncestorDirectory(scriptPath, ancestorLookup); + } + } + return arrayFrom(result.values()); +@@ -166996,9 +167256,15 @@ function getCompletionEntriesFromTypings(host, options, 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) { +@@ -184315,6 +184581,29 @@ var ConfiguredProject2 = class extends Project3 { + 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; + } +@@ -185029,6 +185318,7 @@ var _ProjectService = class _ProjectService { + log, + getDetailWatchInfo + ); ++ this.pnpWatcher = this.watchPnpFile(); + (_a = opts.incrementalVerifier) == null ? void 0 : _a.call(opts, this); + } + toPath(fileName) { +@@ -186911,7 +187201,7 @@ 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) { +@@ -186960,6 +187250,8 @@ 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(); + } + } + } +@@ -187958,6 +188250,29 @@ Dynamic files must always be opened with service's current directory or service + }); + } + /** @internal */ ++ 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 ++ ); ++ } ++ /** @internal */ + 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 22345be7b774..367947b607af 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; }