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denoland-deno/cli/tsc/99_main_compiler.js

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JavaScript

// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
// @ts-check
/// <reference path="./compiler.d.ts" />
// deno-lint-ignore-file no-undef
// This module is the entry point for "compiler" isolate, ie. the one
// that is created when Deno needs to type check TypeScript, and in some
// instances convert TypeScript to JavaScript.
// Removes the `__proto__` for security reasons.
// https://tc39.es/ecma262/#sec-get-object.prototype.__proto__
delete Object.prototype.__proto__;
((/** @type {any} */ window) => {
/** @type {DenoCore} */
const core = window.Deno.core;
const ops = core.ops;
let logDebug = false;
let logSource = "JS";
// The map from the normalized specifier to the original.
// TypeScript normalizes the specifier in its internal processing,
// but the original specifier is needed when looking up the source from the runtime.
// This map stores that relationship, and the original can be restored by the
// normalized specifier.
// See: https://github.com/denoland/deno/issues/9277#issuecomment-769653834
/** @type {Map<string, string>} */
const normalizedToOriginalMap = new Map();
/** @type {ReadonlySet<string>} */
const unstableDenoProps = new Set([
"AtomicOperation",
"DatagramConn",
"Kv",
"KvListIterator",
"KvU64",
"UnixConnectOptions",
"UnixListenOptions",
"listen",
"listenDatagram",
"openKv",
]);
const unstableMsgSuggestion =
"If not, try changing the 'lib' compiler option to include 'deno.unstable' " +
"or add a triple-slash directive to the top of your entrypoint (main file): " +
'/// <reference lib="deno.unstable" />';
/**
* @param {unknown} value
* @returns {value is ts.CreateSourceFileOptions}
*/
function isCreateSourceFileOptions(value) {
return value != null && typeof value === "object" &&
"languageVersion" in value;
}
/**
* @param {ts.ScriptTarget | ts.CreateSourceFileOptions | undefined} versionOrOptions
* @returns {ts.CreateSourceFileOptions}
*/
function getCreateSourceFileOptions(versionOrOptions) {
return isCreateSourceFileOptions(versionOrOptions)
? versionOrOptions
: { languageVersion: versionOrOptions ?? ts.ScriptTarget.ESNext };
}
/**
* @param debug {boolean}
* @param source {string}
*/
function setLogDebug(debug, source) {
logDebug = debug;
if (source) {
logSource = source;
}
}
/** @param msg {string} */
function printStderr(msg) {
core.print(msg, true);
}
/** @param args {any[]} */
function debug(...args) {
if (logDebug) {
const stringifiedArgs = args.map((arg) =>
typeof arg === "string" ? arg : JSON.stringify(arg)
).join(" ");
printStderr(`DEBUG ${logSource} - ${stringifiedArgs}\n`);
}
}
/** @param args {any[]} */
function error(...args) {
const stringifiedArgs = args.map((arg) =>
typeof arg === "string" || arg instanceof Error
? String(arg)
: JSON.stringify(arg)
).join(" ");
printStderr(`ERROR ${logSource} = ${stringifiedArgs}\n`);
}
class AssertionError extends Error {
/** @param msg {string} */
constructor(msg) {
super(msg);
this.name = "AssertionError";
}
}
/** @param cond {boolean} */
function assert(cond, msg = "Assertion failed.") {
if (!cond) {
throw new AssertionError(msg);
}
}
// In the case of the LSP, this will only ever contain the assets.
/** @type {Map<string, ts.SourceFile>} */
const sourceFileCache = new Map();
/** @type {Map<string, string>} */
const sourceTextCache = new Map();
/** @type {Map<string, number>} */
const sourceRefCounts = new Map();
/** @type {Map<string, string>} */
const scriptVersionCache = new Map();
/** @type {Map<string, boolean>} */
const isNodeSourceFileCache = new Map();
/** @type {Map<string, boolean>} */
const isCjsCache = new Map();
// Maps asset specifiers to the first scope that the asset was loaded into.
/** @type {Map<string, string | null>} */
const assetScopes = new Map();
/** @type {number | null} */
let projectVersionCache = null;
/** @type {string | null} */
let lastRequestMethod = null;
/** @type {string | null} */
let lastRequestScope = null;
const ChangeKind = {
Opened: 0,
Modified: 1,
Closed: 2,
};
/**
* @param {ts.CompilerOptions | ts.MinimalResolutionCacheHost} settingsOrHost
* @returns {ts.CompilerOptions}
*/
function getCompilationSettings(settingsOrHost) {
if (typeof settingsOrHost.getCompilationSettings === "function") {
return settingsOrHost.getCompilationSettings();
}
return /** @type {ts.CompilerOptions} */ (settingsOrHost);
}
// We need to use a custom document registry in order to provide source files
// with an impliedNodeFormat to the ts language service
/** @type {Map<string, ts.SourceFile>} */
const documentRegistrySourceFileCache = new Map();
const { getKeyForCompilationSettings } = ts.createDocumentRegistry(); // reuse this code
/** @type {ts.DocumentRegistry} */
const documentRegistry = {
acquireDocument(
fileName,
compilationSettingsOrHost,
scriptSnapshot,
version,
scriptKind,
sourceFileOptions,
) {
const key = getKeyForCompilationSettings(
getCompilationSettings(compilationSettingsOrHost),
);
return this.acquireDocumentWithKey(
fileName,
/** @type {ts.Path} */ (fileName),
compilationSettingsOrHost,
key,
scriptSnapshot,
version,
scriptKind,
sourceFileOptions,
);
},
acquireDocumentWithKey(
fileName,
path,
_compilationSettingsOrHost,
key,
scriptSnapshot,
version,
scriptKind,
sourceFileOptions,
) {
const mapKey = path + key;
let sourceFile = documentRegistrySourceFileCache.get(mapKey);
if (!sourceFile || sourceFile.version !== version) {
sourceFile = ts.createLanguageServiceSourceFile(
fileName,
scriptSnapshot,
{
...getCreateSourceFileOptions(sourceFileOptions),
impliedNodeFormat: (isCjsCache.get(fileName) ?? false)
? ts.ModuleKind.CommonJS
: ts.ModuleKind.ESNext,
// in the lsp we want to be able to show documentation
jsDocParsingMode: ts.JSDocParsingMode.ParseAll,
},
version,
true,
scriptKind,
);
documentRegistrySourceFileCache.set(mapKey, sourceFile);
}
const sourceRefCount = sourceRefCounts.get(fileName) ?? 0;
sourceRefCounts.set(fileName, sourceRefCount + 1);
return sourceFile;
},
updateDocument(
fileName,
compilationSettingsOrHost,
scriptSnapshot,
version,
scriptKind,
sourceFileOptions,
) {
const key = getKeyForCompilationSettings(
getCompilationSettings(compilationSettingsOrHost),
);
return this.updateDocumentWithKey(
fileName,
/** @type {ts.Path} */ (fileName),
compilationSettingsOrHost,
key,
scriptSnapshot,
version,
scriptKind,
sourceFileOptions,
);
},
updateDocumentWithKey(
fileName,
path,
compilationSettingsOrHost,
key,
scriptSnapshot,
version,
scriptKind,
sourceFileOptions,
) {
const mapKey = path + key;
let sourceFile = documentRegistrySourceFileCache.get(mapKey) ??
this.acquireDocumentWithKey(
fileName,
path,
compilationSettingsOrHost,
key,
scriptSnapshot,
version,
scriptKind,
sourceFileOptions,
);
if (sourceFile.version !== version) {
sourceFile = ts.updateLanguageServiceSourceFile(
sourceFile,
scriptSnapshot,
version,
scriptSnapshot.getChangeRange(
/** @type {ts.IScriptSnapshot} */ (sourceFile.scriptSnapShot),
),
);
documentRegistrySourceFileCache.set(mapKey, sourceFile);
}
return sourceFile;
},
getKeyForCompilationSettings(settings) {
return getKeyForCompilationSettings(settings);
},
releaseDocument(
fileName,
compilationSettings,
scriptKind,
impliedNodeFormat,
) {
const key = getKeyForCompilationSettings(compilationSettings);
return this.releaseDocumentWithKey(
/** @type {ts.Path} */ (fileName),
key,
scriptKind,
impliedNodeFormat,
);
},
releaseDocumentWithKey(path, key, _scriptKind, _impliedNodeFormat) {
const sourceRefCount = sourceRefCounts.get(path) ?? 1;
if (sourceRefCount <= 1) {
sourceRefCounts.delete(path);
// We call `cleanupSemanticCache` for other purposes, don't bust the
// source cache in this case.
if (lastRequestMethod != "cleanupSemanticCache") {
const mapKey = path + key;
documentRegistrySourceFileCache.delete(mapKey);
sourceTextCache.delete(path);
ops.op_release(path);
}
} else {
sourceRefCounts.set(path, sourceRefCount - 1);
}
},
reportStats() {
return "[]";
},
};
ts.deno.setIsNodeSourceFileCallback((sourceFile) => {
const fileName = sourceFile.fileName;
let isNodeSourceFile = isNodeSourceFileCache.get(fileName);
if (isNodeSourceFile == null) {
const result = ops.op_is_node_file(fileName);
isNodeSourceFile = /** @type {boolean} */ (result);
isNodeSourceFileCache.set(fileName, isNodeSourceFile);
}
return isNodeSourceFile;
});
/**
* @param msg {string}
* @param code {number}
*/
function formatMessage(msg, code) {
switch (code) {
case 2304: {
if (msg === "Cannot find name 'Deno'.") {
msg += " Do you need to change your target library? " +
"Try changing the 'lib' compiler option to include 'deno.ns' " +
"or add a triple-slash directive to the top of your entrypoint " +
'(main file): /// <reference lib="deno.ns" />';
}
return msg;
}
case 2339: {
const property = getProperty();
if (property && unstableDenoProps.has(property)) {
return `${msg} 'Deno.${property}' is an unstable API. ${unstableMsgSuggestion}`;
}
return msg;
}
default: {
const property = getProperty();
if (property && unstableDenoProps.has(property)) {
const suggestion = getMsgSuggestion();
if (suggestion) {
return `${msg} 'Deno.${property}' is an unstable API. Did you mean '${suggestion}'? ${unstableMsgSuggestion}`;
}
}
return msg;
}
}
function getProperty() {
return /Property '([^']+)' does not exist on type 'typeof Deno'/
.exec(msg)?.[1];
}
function getMsgSuggestion() {
return / Did you mean '([^']+)'\?/.exec(msg)?.[1];
}
}
/** @param {ts.DiagnosticRelatedInformation} diagnostic */
function fromRelatedInformation({
start,
length,
file,
messageText: msgText,
...ri
}) {
let messageText;
let messageChain;
if (typeof msgText === "object") {
messageChain = msgText;
} else {
messageText = formatMessage(msgText, ri.code);
}
if (start !== undefined && length !== undefined && file) {
const startPos = file.getLineAndCharacterOfPosition(start);
const sourceLine = file.getFullText().split("\n")[startPos.line];
const fileName = file.fileName;
return {
start: startPos,
end: file.getLineAndCharacterOfPosition(start + length),
fileName,
messageChain,
messageText,
sourceLine,
...ri,
};
} else {
return {
messageChain,
messageText,
...ri,
};
}
}
/** @param {readonly ts.Diagnostic[]} diagnostics */
function fromTypeScriptDiagnostics(diagnostics) {
return diagnostics.map(({ relatedInformation: ri, source, ...diag }) => {
/** @type {any} */
const value = fromRelatedInformation(diag);
value.relatedInformation = ri
? ri.map(fromRelatedInformation)
: undefined;
value.source = source;
return value;
});
}
// Using incremental compile APIs requires that all
// paths must be either relative or absolute. Since
// analysis in Rust operates on fully resolved URLs,
// it makes sense to use the same scheme here.
const ASSETS_URL_PREFIX = "asset:///";
const CACHE_URL_PREFIX = "cache:///";
/** Diagnostics that are intentionally ignored when compiling TypeScript in
* Deno, as they provide misleading or incorrect information. */
const IGNORED_DIAGNOSTICS = [
// TS1452: 'resolution-mode' assertions are only supported when `moduleResolution` is `node16` or `nodenext`.
// We specify the resolution mode to be CommonJS for some npm files and this
// diagnostic gets generated even though we're using custom module resolution.
1452,
// TS2306: File '.../index.d.ts' is not a module.
// We get this for `x-typescript-types` declaration files which don't export
// anything. We prefer to treat these as modules with no exports.
2306,
// TS2688: Cannot find type definition file for '...'.
// We ignore because type definition files can end with '.ts'.
2688,
// TS2792: Cannot find module. Did you mean to set the 'moduleResolution'
// option to 'node', or to add aliases to the 'paths' option?
2792,
// TS2307: Cannot find module '{0}' or its corresponding type declarations.
2307,
// TS5009: Cannot find the common subdirectory path for the input files.
5009,
// TS5055: Cannot write file
// 'http://localhost:4545/subdir/mt_application_x_javascript.j4.js'
// because it would overwrite input file.
5055,
// TypeScript is overly opinionated that only CommonJS modules kinds can
// support JSON imports. Allegedly this was fixed in
// Microsoft/TypeScript#26825 but that doesn't seem to be working here,
// so we will ignore complaints about this compiler setting.
5070,
// TS7016: Could not find a declaration file for module '...'. '...'
// implicitly has an 'any' type. This is due to `allowJs` being off by
// default but importing of a JavaScript module.
7016,
];
const SNAPSHOT_COMPILE_OPTIONS = {
esModuleInterop: true,
jsx: ts.JsxEmit.React,
module: ts.ModuleKind.ESNext,
noEmit: true,
strict: true,
target: ts.ScriptTarget.ESNext,
lib: ["lib.deno.window.d.ts"],
};
// todo(dsherret): can we remove this and just use ts.OperationCanceledException?
/** Error thrown on cancellation. */
class OperationCanceledError extends Error {
}
/**
* This implementation calls into Rust to check if Tokio's cancellation token
* has already been canceled.
* @implements {ts.CancellationToken}
*/
class CancellationToken {
isCancellationRequested() {
return ops.op_is_cancelled();
}
throwIfCancellationRequested() {
if (this.isCancellationRequested()) {
throw new OperationCanceledError();
}
}
}
/** @typedef {{
* ls: ts.LanguageService & { [k:string]: any },
* compilerOptions: ts.CompilerOptions,
* }} LanguageServiceEntry */
/** @type {{ unscoped: LanguageServiceEntry, byScope: Map<string, LanguageServiceEntry> }} */
const languageServiceEntries = {
// @ts-ignore Will be set later.
unscoped: null,
byScope: new Map(),
};
/** @type {{ unscoped: string[], byScope: Map<string, string[]> } | null} */
let scriptNamesCache = null;
/** An object literal of the incremental compiler host, which provides the
* specific "bindings" to the Deno environment that tsc needs to work.
*
* @type {ts.CompilerHost & ts.LanguageServiceHost} */
const host = {
fileExists(specifier) {
if (logDebug) {
debug(`host.fileExists("${specifier}")`);
}
// TODO(bartlomieju): is this assumption still valid?
// this is used by typescript to find the libs path
// so we can completely ignore it
return false;
},
readFile(specifier) {
if (logDebug) {
debug(`host.readFile("${specifier}")`);
}
return ops.op_load(specifier)?.data;
},
getCancellationToken() {
// createLanguageService will call this immediately and cache it
return new CancellationToken();
},
getProjectVersion() {
if (
projectVersionCache
) {
debug(`getProjectVersion cache hit : ${projectVersionCache}`);
return projectVersionCache;
}
const projectVersion = ops.op_project_version();
projectVersionCache = projectVersion;
debug(`getProjectVersion cache miss : ${projectVersionCache}`);
return projectVersion;
},
// @ts-ignore Undocumented method.
getModuleSpecifierCache() {
return moduleSpecifierCache;
},
// @ts-ignore Undocumented method.
getCachedExportInfoMap() {
return exportMapCache;
},
getGlobalTypingsCacheLocation() {
return undefined;
},
// @ts-ignore Undocumented method.
toPath(fileName) {
// @ts-ignore Undocumented function.
ts.toPath(
fileName,
this.getCurrentDirectory(),
this.getCanonicalFileName.bind(this),
);
},
// @ts-ignore Undocumented method.
watchNodeModulesForPackageJsonChanges() {
return { close() {} };
},
getSourceFile(
specifier,
languageVersion,
_onError,
// this is not used by the lsp because source
// files are created in the document registry
_shouldCreateNewSourceFile,
) {
if (logDebug) {
debug(
`host.getSourceFile("${specifier}", ${
ts.ScriptTarget[
getCreateSourceFileOptions(languageVersion).languageVersion
]
})`,
);
}
// Needs the original specifier
specifier = normalizedToOriginalMap.get(specifier) ?? specifier;
let sourceFile = sourceFileCache.get(specifier);
if (sourceFile) {
return sourceFile;
}
/** @type {{ data: string; scriptKind: ts.ScriptKind; version: string; isCjs: boolean }} */
const fileInfo = ops.op_load(specifier);
if (!fileInfo) {
return undefined;
}
const { data, scriptKind, version, isCjs } = fileInfo;
assert(
data != null,
`"data" is unexpectedly null for "${specifier}".`,
);
isCjsCache.set(specifier, isCjs);
sourceFile = ts.createSourceFile(
specifier,
data,
{
...getCreateSourceFileOptions(languageVersion),
impliedNodeFormat: isCjs
? ts.ModuleKind.CommonJS
: ts.ModuleKind.ESNext,
// no need to parse docs for `deno check`
jsDocParsingMode: ts.JSDocParsingMode.ParseForTypeErrors,
},
false,
scriptKind,
);
sourceFile.moduleName = specifier;
sourceFile.version = version;
if (specifier.startsWith(ASSETS_URL_PREFIX)) {
sourceFile.version = "1";
}
sourceFileCache.set(specifier, sourceFile);
scriptVersionCache.set(specifier, version);
return sourceFile;
},
getDefaultLibFileName() {
return `${ASSETS_URL_PREFIX}lib.esnext.d.ts`;
},
getDefaultLibLocation() {
return ASSETS_URL_PREFIX;
},
writeFile(fileName, data, _writeByteOrderMark, _onError, _sourceFiles) {
if (logDebug) {
debug(`host.writeFile("${fileName}")`);
}
return ops.op_emit(
data,
fileName,
);
},
getCurrentDirectory() {
if (logDebug) {
debug(`host.getCurrentDirectory()`);
}
return CACHE_URL_PREFIX;
},
getCanonicalFileName(fileName) {
return fileName;
},
useCaseSensitiveFileNames() {
return true;
},
getNewLine() {
return "\n";
},
resolveTypeReferenceDirectives(
typeDirectiveNames,
containingFilePath,
redirectedReference,
options,
containingFileMode,
) {
return typeDirectiveNames.map((arg) => {
/** @type {ts.FileReference} */
const fileReference = typeof arg === "string"
? {
pos: -1,
end: -1,
fileName: arg,
}
: arg;
if (fileReference.fileName.startsWith("npm:")) {
/** @type {[string, ts.Extension] | undefined} */
const resolved = ops.op_resolve(
containingFilePath,
isCjsCache.get(containingFilePath) ?? false,
[fileReference.fileName],
)?.[0];
if (resolved) {
return {
primary: true,
resolvedFileName: resolved[0],
};
} else {
return undefined;
}
} else {
return ts.resolveTypeReferenceDirective(
fileReference.fileName,
containingFilePath,
options,
host,
redirectedReference,
undefined,
containingFileMode ?? fileReference.resolutionMode,
).resolvedTypeReferenceDirective;
}
});
},
resolveModuleNames(specifiers, base) {
if (logDebug) {
debug(`host.resolveModuleNames()`);
debug(` base: ${base}`);
debug(` specifiers: ${specifiers.join(", ")}`);
}
/** @type {Array<[string, ts.Extension] | undefined>} */
const resolved = ops.op_resolve(
base,
isCjsCache.get(base) ?? false,
specifiers,
);
if (resolved) {
const result = resolved.map((item) => {
if (item) {
const [resolvedFileName, extension] = item;
return {
resolvedFileName,
extension,
isExternalLibraryImport: false,
};
}
return undefined;
});
result.length = specifiers.length;
return result;
} else {
return new Array(specifiers.length);
}
},
createHash(data) {
return ops.op_create_hash(data);
},
// LanguageServiceHost
getCompilationSettings() {
if (logDebug) {
debug("host.getCompilationSettings()");
}
return (lastRequestScope
? languageServiceEntries.byScope.get(lastRequestScope)?.compilerOptions
: null) ?? languageServiceEntries.unscoped.compilerOptions;
},
getScriptFileNames() {
if (logDebug) {
debug("host.getScriptFileNames()");
}
if (!scriptNamesCache) {
const { unscoped, byScope } = ops.op_script_names();
scriptNamesCache = {
unscoped,
byScope: new Map(Object.entries(byScope)),
};
}
return (lastRequestScope
? scriptNamesCache.byScope.get(lastRequestScope)
: null) ?? scriptNamesCache.unscoped;
},
getScriptVersion(specifier) {
if (logDebug) {
debug(`host.getScriptVersion("${specifier}")`);
}
if (specifier.startsWith(ASSETS_URL_PREFIX)) {
return "1";
}
// tsc requests the script version multiple times even though it can't
// possibly have changed, so we will memoize it on a per request basis.
if (scriptVersionCache.has(specifier)) {
return scriptVersionCache.get(specifier);
}
const scriptVersion = ops.op_script_version(specifier);
scriptVersionCache.set(specifier, scriptVersion);
return scriptVersion;
},
getScriptSnapshot(specifier) {
if (logDebug) {
debug(`host.getScriptSnapshot("${specifier}")`);
}
const sourceFile = sourceFileCache.get(specifier);
if (sourceFile) {
if (!assetScopes.has(specifier)) {
assetScopes.set(specifier, lastRequestScope);
}
// This case only occurs for assets.
return ts.ScriptSnapshot.fromString(sourceFile.text);
}
let sourceText = sourceTextCache.get(specifier);
if (sourceText == undefined) {
/** @type {{ data: string, version: string, isCjs: boolean }} */
const fileInfo = ops.op_load(specifier);
if (!fileInfo) {
return undefined;
}
isCjsCache.set(specifier, fileInfo.isCjs);
sourceTextCache.set(specifier, fileInfo.data);
scriptVersionCache.set(specifier, fileInfo.version);
sourceText = fileInfo.data;
}
return ts.ScriptSnapshot.fromString(sourceText);
},
};
// @ts-ignore Undocumented function.
const moduleSpecifierCache = ts.server.createModuleSpecifierCache(host);
// @ts-ignore Undocumented function.
const exportMapCache = ts.createCacheableExportInfoMap(host);
// override the npm install @types package diagnostics to be deno specific
ts.setLocalizedDiagnosticMessages((() => {
const nodeMessage = "Cannot find name '{0}'."; // don't offer any suggestions
const jqueryMessage =
"Cannot find name '{0}'. Did you mean to import jQuery? Try adding `import $ from \"npm:jquery\";`.";
return {
"Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_node_Try_npm_i_save_dev_types_Slashno_2580":
nodeMessage,
"Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_node_Try_npm_i_save_dev_types_Slashno_2591":
nodeMessage,
"Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_jQuery_Try_npm_i_save_dev_types_Slash_2581":
jqueryMessage,
"Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_jQuery_Try_npm_i_save_dev_types_Slash_2592":
jqueryMessage,
};
})());
/** @type {Array<[string, number]>} */
const stats = [];
let statsStart = 0;
function performanceStart() {
stats.length = 0;
statsStart = Date.now();
ts.performance.enable();
}
/**
* @param {{ program: ts.Program | ts.EmitAndSemanticDiagnosticsBuilderProgram, fileCount?: number }} options
*/
function performanceProgram({ program, fileCount }) {
if (program) {
if ("getProgram" in program) {
program = program.getProgram();
}
stats.push(["Files", program.getSourceFiles().length]);
stats.push(["Nodes", program.getNodeCount()]);
stats.push(["Identifiers", program.getIdentifierCount()]);
stats.push(["Symbols", program.getSymbolCount()]);
stats.push(["Types", program.getTypeCount()]);
stats.push(["Instantiations", program.getInstantiationCount()]);
} else if (fileCount != null) {
stats.push(["Files", fileCount]);
}
const programTime = ts.performance.getDuration("Program");
const bindTime = ts.performance.getDuration("Bind");
const checkTime = ts.performance.getDuration("Check");
const emitTime = ts.performance.getDuration("Emit");
stats.push(["Parse time", programTime]);
stats.push(["Bind time", bindTime]);
stats.push(["Check time", checkTime]);
stats.push(["Emit time", emitTime]);
stats.push(
["Total TS time", programTime + bindTime + checkTime + emitTime],
);
}
function performanceEnd() {
const duration = Date.now() - statsStart;
stats.push(["Compile time", duration]);
return stats;
}
/**
* @typedef {object} Request
* @property {Record<string, any>} config
* @property {boolean} debug
* @property {string[]} rootNames
* @property {boolean} localOnly
*/
/**
* Checks the normalized version of the root name and stores it in
* `normalizedToOriginalMap`. If the normalized specifier is already
* registered for the different root name, it throws an AssertionError.
*
* @param {string} rootName
*/
function checkNormalizedPath(rootName) {
const normalized = ts.normalizePath(rootName);
const originalRootName = normalizedToOriginalMap.get(normalized);
if (typeof originalRootName === "undefined") {
normalizedToOriginalMap.set(normalized, rootName);
} else if (originalRootName !== rootName) {
// The different root names are normalizd to the same path.
// This will cause problem when looking up the source for each.
throw new AssertionError(
`The different names for the same normalized specifier are specified: normalized=${normalized}, rootNames=${originalRootName},${rootName}`,
);
}
}
/** @param {Record<string, unknown>} config */
function normalizeConfig(config) {
// the typescript compiler doesn't know about the precompile
// transform at the moment, so just tell it we're using react-jsx
if (config.jsx === "precompile") {
config.jsx = "react-jsx";
}
if (config.jsxPrecompileSkipElements) {
delete config.jsxPrecompileSkipElements;
}
return config;
}
/** @param {Record<string, unknown>} config */
function lspTsConfigToCompilerOptions(config) {
const normalizedConfig = normalizeConfig(config);
const { options, errors } = ts
.convertCompilerOptionsFromJson(normalizedConfig, "");
Object.assign(options, {
allowNonTsExtensions: true,
allowImportingTsExtensions: true,
module: ts.ModuleKind.NodeNext,
moduleResolution: ts.ModuleResolutionKind.NodeNext,
});
if (errors.length > 0 && logDebug) {
debug(ts.formatDiagnostics(errors, host));
}
return options;
}
/** The API that is called by Rust when executing a request.
* @param {Request} request
*/
function exec({ config, debug: debugFlag, rootNames, localOnly }) {
setLogDebug(debugFlag, "TS");
performanceStart();
config = normalizeConfig(config);
if (logDebug) {
debug(">>> exec start", { rootNames });
debug(config);
}
rootNames.forEach(checkNormalizedPath);
const { options, errors: configFileParsingDiagnostics } = ts
.convertCompilerOptionsFromJson(config, "");
// The `allowNonTsExtensions` is a "hidden" compiler option used in VSCode
// which is not allowed to be passed in JSON, we need it to allow special
// URLs which Deno supports. So we need to either ignore the diagnostic, or
// inject it ourselves.
Object.assign(options, { allowNonTsExtensions: true });
const program = ts.createIncrementalProgram({
rootNames,
options,
host,
configFileParsingDiagnostics,
});
const checkFiles = localOnly
? rootNames
.filter((n) => !n.startsWith("http"))
.map((checkName) => {
const sourceFile = program.getSourceFile(checkName);
if (sourceFile == null) {
throw new Error("Could not find source file for: " + checkName);
}
return sourceFile;
})
: undefined;
if (checkFiles != null) {
// When calling program.getSemanticDiagnostics(...) with a source file, we
// need to call this code first in order to get it to invalidate cached
// diagnostics correctly. This is what program.getSemanticDiagnostics()
// does internally when calling without any arguments.
const checkFileNames = new Set(checkFiles.map((f) => f.fileName));
while (
program.getSemanticDiagnosticsOfNextAffectedFile(
undefined,
/* ignoreSourceFile */ (s) => !checkFileNames.has(s.fileName),
)
) {
// keep going until there are no more affected files
}
}
const diagnostics = [
...program.getConfigFileParsingDiagnostics(),
...(checkFiles == null
? program.getSyntacticDiagnostics()
: ts.sortAndDeduplicateDiagnostics(
checkFiles.map((s) => program.getSyntacticDiagnostics(s)).flat(),
)),
...program.getOptionsDiagnostics(),
...program.getGlobalDiagnostics(),
...(checkFiles == null
? program.getSemanticDiagnostics()
: ts.sortAndDeduplicateDiagnostics(
checkFiles.map((s) => program.getSemanticDiagnostics(s)).flat(),
)),
].filter(filterMapDiagnostic);
// emit the tsbuildinfo file
// @ts-ignore: emitBuildInfo is not exposed (https://github.com/microsoft/TypeScript/issues/49871)
program.emitBuildInfo(host.writeFile);
performanceProgram({ program });
ops.op_respond({
diagnostics: fromTypeScriptDiagnostics(diagnostics),
stats: performanceEnd(),
});
debug("<<< exec stop");
}
/** @param {ts.Diagnostic} diagnostic */
function filterMapDiagnostic(diagnostic) {
if (IGNORED_DIAGNOSTICS.includes(diagnostic.code)) {
return false;
}
// make the diagnostic for using an `export =` in an es module a warning
if (diagnostic.code === 1203) {
diagnostic.category = ts.DiagnosticCategory.Warning;
if (typeof diagnostic.messageText === "string") {
const message =
" This will start erroring in a future version of Deno 2 " +
"in order to align with TypeScript.";
// seems typescript shares objects, so check if it's already been set
if (!diagnostic.messageText.endsWith(message)) {
diagnostic.messageText += message;
}
}
}
return true;
}
/**
* @param {any} e
* @returns {e is (OperationCanceledError | ts.OperationCanceledException)}
*/
function isCancellationError(e) {
return e instanceof OperationCanceledError ||
e instanceof ts.OperationCanceledException;
}
function getAssets() {
/** @type {{ specifier: string; text: string; }[]} */
const assets = [];
for (const sourceFile of sourceFileCache.values()) {
if (sourceFile.fileName.startsWith(ASSETS_URL_PREFIX)) {
assets.push({
specifier: sourceFile.fileName,
text: sourceFile.text,
});
}
}
return assets;
}
/**
* @param {number} _id
* @param {any} data
* @param {string | null} error
*/
// TODO(bartlomieju): this feels needlessly generic, both type checking
// and language server use it with inefficient serialization. Id is not used
// anyway...
function respond(_id, data = null, error = null) {
if (error) {
ops.op_respond(
"error",
error,
);
} else {
ops.op_respond(JSON.stringify(data), "");
}
}
/** @typedef {[[string, number][], number, [string, any][]] } PendingChange */
/**
* @template T
* @typedef {T | null} Option<T> */
/** @returns {Promise<[number, string, any[], string | null, Option<PendingChange>] | null>} */
async function pollRequests() {
return await ops.op_poll_requests();
}
let hasStarted = false;
/** @param {boolean} enableDebugLogging */
async function serverMainLoop(enableDebugLogging) {
if (hasStarted) {
throw new Error("The language server has already been initialized.");
}
hasStarted = true;
languageServiceEntries.unscoped = {
ls: ts.createLanguageService(
host,
documentRegistry,
),
compilerOptions: lspTsConfigToCompilerOptions({
"allowJs": true,
"esModuleInterop": true,
"experimentalDecorators": false,
"isolatedModules": true,
"lib": ["deno.ns", "deno.window", "deno.unstable"],
"module": "NodeNext",
"moduleResolution": "NodeNext",
"moduleDetection": "force",
"noEmit": true,
"noImplicitOverride": true,
"resolveJsonModule": true,
"strict": true,
"target": "esnext",
"useDefineForClassFields": true,
"jsx": "react",
"jsxFactory": "React.createElement",
"jsxFragmentFactory": "React.Fragment",
}),
};
setLogDebug(enableDebugLogging, "TSLS");
debug("serverInit()");
while (true) {
const request = await pollRequests();
if (request === null) {
break;
}
try {
serverRequest(
request[0],
request[1],
request[2],
request[3],
request[4],
);
} catch (err) {
error(`Internal error occurred processing request: ${err}`);
}
}
}
/**
* @param {any} error
* @param {any[] | null} args
*/
function formatErrorWithArgs(error, args) {
let errorString = "stack" in error
? error.stack.toString()
: error.toString();
if (args) {
errorString += `\nFor request: [${
args.map((v) => JSON.stringify(v)).join(", ")
}]`;
}
return errorString;
}
/**
* @param {number} id
* @param {string} method
* @param {any[]} args
* @param {string | null} scope
* @param {PendingChange | null} maybeChange
*/
function serverRequest(id, method, args, scope, maybeChange) {
if (logDebug) {
debug(`serverRequest()`, id, method, args, scope, maybeChange);
}
if (maybeChange !== null) {
const changedScripts = maybeChange[0];
const newProjectVersion = maybeChange[1];
const newConfigsByScope = maybeChange[2];
if (newConfigsByScope) {
isNodeSourceFileCache.clear();
assetScopes.clear();
/** @type { typeof languageServiceEntries.byScope } */
const newByScope = new Map();
for (const [scope, config] of newConfigsByScope) {
lastRequestScope = scope;
const oldEntry = languageServiceEntries.byScope.get(scope);
const ls = oldEntry
? oldEntry.ls
: ts.createLanguageService(host, documentRegistry);
const compilerOptions = lspTsConfigToCompilerOptions(config);
newByScope.set(scope, { ls, compilerOptions });
languageServiceEntries.byScope.delete(scope);
}
for (const oldEntry of languageServiceEntries.byScope.values()) {
oldEntry.ls.dispose();
}
languageServiceEntries.byScope = newByScope;
}
projectVersionCache = newProjectVersion;
let opened = false;
let closed = false;
for (const { 0: script, 1: changeKind } of changedScripts) {
if (changeKind === ChangeKind.Opened) {
opened = true;
} else if (changeKind === ChangeKind.Closed) {
closed = true;
}
scriptVersionCache.delete(script);
sourceTextCache.delete(script);
}
if (newConfigsByScope || opened || closed) {
scriptNamesCache = null;
}
}
// For requests pertaining to an asset document, we make it so that the
// passed scope is just its own specifier. We map it to an actual scope here
// based on the first scope that the asset was loaded into.
if (scope?.startsWith(ASSETS_URL_PREFIX)) {
scope = assetScopes.get(scope) ?? null;
}
lastRequestMethod = method;
lastRequestScope = scope;
const ls = (scope ? languageServiceEntries.byScope.get(scope)?.ls : null) ??
languageServiceEntries.unscoped.ls;
switch (method) {
case "$getSupportedCodeFixes": {
return respond(
id,
ts.getSupportedCodeFixes(),
);
}
case "$getAssets": {
return respond(id, getAssets());
}
case "$getDiagnostics": {
const projectVersion = args[1];
// there's a possibility that we receive a change notification
// but the diagnostic server queues a `$getDiagnostics` request
// with a stale project version. in that case, treat it as cancelled
// (it's about to be invalidated anyway).
if (projectVersionCache && projectVersion !== projectVersionCache) {
return respond(id, {});
}
try {
/** @type {Record<string, any[]>} */
const diagnosticMap = {};
for (const specifier of args[0]) {
diagnosticMap[specifier] = fromTypeScriptDiagnostics([
...ls.getSemanticDiagnostics(specifier),
...ls.getSuggestionDiagnostics(specifier),
...ls.getSyntacticDiagnostics(specifier),
].filter(filterMapDiagnostic));
}
return respond(id, diagnosticMap);
} catch (e) {
if (
!isCancellationError(e)
) {
return respond(
id,
{},
formatErrorWithArgs(e, [id, method, args, scope, maybeChange]),
);
}
return respond(id, {});
}
}
default:
if (typeof ls[method] === "function") {
// The `getCompletionEntryDetails()` method returns null if the
// `source` is `null` for whatever reason. It must be `undefined`.
if (method == "getCompletionEntryDetails") {
args[4] ??= undefined;
}
try {
return respond(id, ls[method](...args));
} catch (e) {
if (!isCancellationError(e)) {
return respond(
id,
null,
formatErrorWithArgs(e, [id, method, args, scope, maybeChange]),
);
}
return respond(id);
}
}
throw new TypeError(
// @ts-ignore exhausted case statement sets type to never
`Invalid request method for request: "${method}" (${id})`,
);
}
}
// A build time only op that provides some setup information that is used to
// ensure the snapshot is setup properly.
/** @type {{ buildSpecifier: string; libs: string[]; nodeBuiltInModuleNames: string[] }} */
const { buildSpecifier, libs } = ops.op_build_info();
// list of globals that should be kept in Node's globalThis
ts.deno.setNodeOnlyGlobalNames([
"__dirname",
"__filename",
"Buffer",
"BufferConstructor",
"BufferEncoding",
"clearImmediate",
"clearInterval",
"clearTimeout",
"console",
"Console",
"ErrorConstructor",
"gc",
"Global",
"ImportMeta",
"localStorage",
"queueMicrotask",
"RequestInit",
"ResponseInit",
"sessionStorage",
"setImmediate",
"setInterval",
"setTimeout",
]);
for (const lib of libs) {
const specifier = `lib.${lib}.d.ts`;
// we are using internal APIs here to "inject" our custom libraries into
// tsc, so things like `"lib": [ "deno.ns" ]` are supported.
if (!ts.libs.includes(lib)) {
ts.libs.push(lib);
ts.libMap.set(lib, `lib.${lib}.d.ts`);
}
// we are caching in memory common type libraries that will be re-used by
// tsc on when the snapshot is restored
assert(
!!host.getSourceFile(
`${ASSETS_URL_PREFIX}${specifier}`,
ts.ScriptTarget.ESNext,
),
`failed to load '${ASSETS_URL_PREFIX}${specifier}'`,
);
}
// this helps ensure as much as possible is in memory that is re-usable
// before the snapshotting is done, which helps unsure fast "startup" for
// subsequent uses of tsc in Deno.
const TS_SNAPSHOT_PROGRAM = ts.createProgram({
rootNames: [buildSpecifier],
options: SNAPSHOT_COMPILE_OPTIONS,
host,
});
assert(
ts.getPreEmitDiagnostics(TS_SNAPSHOT_PROGRAM).length === 0,
"lib.d.ts files have errors",
);
// remove this now that we don't need it anymore for warming up tsc
sourceFileCache.delete(buildSpecifier);
// exposes the functions that are called by `tsc::exec()` when type
// checking TypeScript.
/** @type {any} */
const global = globalThis;
global.exec = exec;
global.getAssets = getAssets;
// exposes the functions that are called when the compiler is used as a
// language service.
global.serverMainLoop = serverMainLoop;
})(this);