wrangler-action/node_modules/vitest/dist/chunk-install-pkg.23da664c.js

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2023-08-07 22:11:15 +02:00
import $ from 'fs';
import f from 'path';
import { g as getDefaultExportFromCjs } from './vendor-_commonjsHelpers.7d1333e8.js';
import require$$2 from 'util';
import require$$0$1 from 'child_process';
import { p as pathKeyExports, s as signalExitExports, m as mergeStream$1, g as getStreamExports, c as crossSpawnExports } from './vendor-index.1f85e5f1.js';
import { o as onetimeExports } from './vendor-cli-api.bf4b62a8.js';
import require$$0 from 'os';
import 'node:buffer';
import 'node:path';
import 'node:child_process';
import 'node:process';
import 'node:url';
import 'node:os';
import 'assert';
import 'events';
import 'node:fs';
import 'buffer';
import 'stream';
import 'node:util';
import 'pathe';
import './vendor-constants.538d9b49.js';
import './vendor-coverage.2e41927a.js';
import './vendor-environments.392ddf08.js';
import 'node:console';
import 'local-pkg';
import 'picocolors';
import './vendor-index.23ac4e13.js';
import 'std-env';
import '@vitest/runner/utils';
import '@vitest/utils';
import './vendor-global.6795f91f.js';
import 'vite';
import 'vite-node/utils';
import 'vite-node/client';
import '@vitest/snapshot/manager';
import 'vite-node/server';
import './vendor-paths.84fc7a99.js';
import 'node:v8';
import './vendor-index.cc463d9e.js';
import 'node:worker_threads';
import 'tinypool';
import 'node:perf_hooks';
import './vendor-tasks.f9d75aed.js';
import 'node:module';
import 'node:crypto';
import 'node:fs/promises';
import 'module';
import 'acorn';
import 'acorn-walk';
import 'magic-string';
import 'strip-literal';
import 'node:readline';
import 'readline';
var findUp$1 = {exports: {}};
var locatePath = {exports: {}};
class Node {
/// value;
/// next;
constructor(value) {
this.value = value;
// TODO: Remove this when targeting Node.js 12.
this.next = undefined;
}
}
let Queue$1 = class Queue {
// TODO: Use private class fields when targeting Node.js 12.
// #_head;
// #_tail;
// #_size;
constructor() {
this.clear();
}
enqueue(value) {
const node = new Node(value);
if (this._head) {
this._tail.next = node;
this._tail = node;
} else {
this._head = node;
this._tail = node;
}
this._size++;
}
dequeue() {
const current = this._head;
if (!current) {
return;
}
this._head = this._head.next;
this._size--;
return current.value;
}
clear() {
this._head = undefined;
this._tail = undefined;
this._size = 0;
}
get size() {
return this._size;
}
* [Symbol.iterator]() {
let current = this._head;
while (current) {
yield current.value;
current = current.next;
}
}
};
var yoctoQueue = Queue$1;
const Queue = yoctoQueue;
const pLimit$1 = concurrency => {
if (!((Number.isInteger(concurrency) || concurrency === Infinity) && concurrency > 0)) {
throw new TypeError('Expected `concurrency` to be a number from 1 and up');
}
const queue = new Queue();
let activeCount = 0;
const next = () => {
activeCount--;
if (queue.size > 0) {
queue.dequeue()();
}
};
const run = async (fn, resolve, ...args) => {
activeCount++;
const result = (async () => fn(...args))();
resolve(result);
try {
await result;
} catch {}
next();
};
const enqueue = (fn, resolve, ...args) => {
queue.enqueue(run.bind(null, fn, resolve, ...args));
(async () => {
// This function needs to wait until the next microtask before comparing
// `activeCount` to `concurrency`, because `activeCount` is updated asynchronously
// when the run function is dequeued and called. The comparison in the if-statement
// needs to happen asynchronously as well to get an up-to-date value for `activeCount`.
await Promise.resolve();
if (activeCount < concurrency && queue.size > 0) {
queue.dequeue()();
}
})();
};
const generator = (fn, ...args) => new Promise(resolve => {
enqueue(fn, resolve, ...args);
});
Object.defineProperties(generator, {
activeCount: {
get: () => activeCount
},
pendingCount: {
get: () => queue.size
},
clearQueue: {
value: () => {
queue.clear();
}
}
});
return generator;
};
var pLimit_1 = pLimit$1;
const pLimit = pLimit_1;
class EndError extends Error {
constructor(value) {
super();
this.value = value;
}
}
// The input can also be a promise, so we await it
const testElement = async (element, tester) => tester(await element);
// The input can also be a promise, so we `Promise.all()` them both
const finder = async element => {
const values = await Promise.all(element);
if (values[1] === true) {
throw new EndError(values[0]);
}
return false;
};
const pLocate$1 = async (iterable, tester, options) => {
options = {
concurrency: Infinity,
preserveOrder: true,
...options
};
const limit = pLimit(options.concurrency);
// Start all the promises concurrently with optional limit
const items = [...iterable].map(element => [element, limit(testElement, element, tester)]);
// Check the promises either serially or concurrently
const checkLimit = pLimit(options.preserveOrder ? 1 : Infinity);
try {
await Promise.all(items.map(element => checkLimit(finder, element)));
} catch (error) {
if (error instanceof EndError) {
return error.value;
}
throw error;
}
};
var pLocate_1 = pLocate$1;
const path$1 = f;
const fs$1 = $;
const {promisify: promisify$1} = require$$2;
const pLocate = pLocate_1;
const fsStat = promisify$1(fs$1.stat);
const fsLStat = promisify$1(fs$1.lstat);
const typeMappings = {
directory: 'isDirectory',
file: 'isFile'
};
function checkType({type}) {
if (type in typeMappings) {
return;
}
throw new Error(`Invalid type specified: ${type}`);
}
const matchType = (type, stat) => type === undefined || stat[typeMappings[type]]();
locatePath.exports = async (paths, options) => {
options = {
cwd: process.cwd(),
type: 'file',
allowSymlinks: true,
...options
};
checkType(options);
const statFn = options.allowSymlinks ? fsStat : fsLStat;
return pLocate(paths, async path_ => {
try {
const stat = await statFn(path$1.resolve(options.cwd, path_));
return matchType(options.type, stat);
} catch {
return false;
}
}, options);
};
locatePath.exports.sync = (paths, options) => {
options = {
cwd: process.cwd(),
allowSymlinks: true,
type: 'file',
...options
};
checkType(options);
const statFn = options.allowSymlinks ? fs$1.statSync : fs$1.lstatSync;
for (const path_ of paths) {
try {
const stat = statFn(path$1.resolve(options.cwd, path_));
if (matchType(options.type, stat)) {
return path_;
}
} catch {}
}
};
var locatePathExports = locatePath.exports;
var pathExists = {exports: {}};
const fs = $;
const {promisify} = require$$2;
const pAccess = promisify(fs.access);
pathExists.exports = async path => {
try {
await pAccess(path);
return true;
} catch (_) {
return false;
}
};
pathExists.exports.sync = path => {
try {
fs.accessSync(path);
return true;
} catch (_) {
return false;
}
};
var pathExistsExports = pathExists.exports;
(function (module) {
const path = f;
const locatePath = locatePathExports;
const pathExists = pathExistsExports;
const stop = Symbol('findUp.stop');
module.exports = async (name, options = {}) => {
let directory = path.resolve(options.cwd || '');
const {root} = path.parse(directory);
const paths = [].concat(name);
const runMatcher = async locateOptions => {
if (typeof name !== 'function') {
return locatePath(paths, locateOptions);
}
const foundPath = await name(locateOptions.cwd);
if (typeof foundPath === 'string') {
return locatePath([foundPath], locateOptions);
}
return foundPath;
};
// eslint-disable-next-line no-constant-condition
while (true) {
// eslint-disable-next-line no-await-in-loop
const foundPath = await runMatcher({...options, cwd: directory});
if (foundPath === stop) {
return;
}
if (foundPath) {
return path.resolve(directory, foundPath);
}
if (directory === root) {
return;
}
directory = path.dirname(directory);
}
};
module.exports.sync = (name, options = {}) => {
let directory = path.resolve(options.cwd || '');
const {root} = path.parse(directory);
const paths = [].concat(name);
const runMatcher = locateOptions => {
if (typeof name !== 'function') {
return locatePath.sync(paths, locateOptions);
}
const foundPath = name(locateOptions.cwd);
if (typeof foundPath === 'string') {
return locatePath.sync([foundPath], locateOptions);
}
return foundPath;
};
// eslint-disable-next-line no-constant-condition
while (true) {
const foundPath = runMatcher({...options, cwd: directory});
if (foundPath === stop) {
return;
}
if (foundPath) {
return path.resolve(directory, foundPath);
}
if (directory === root) {
return;
}
directory = path.dirname(directory);
}
};
module.exports.exists = pathExists;
module.exports.sync.exists = pathExists.sync;
module.exports.stop = stop;
} (findUp$1));
var findUpExports = findUp$1.exports;
var findUp = /*@__PURE__*/getDefaultExportFromCjs(findUpExports);
var execa$2 = {exports: {}};
var stripFinalNewline$1 = input => {
const LF = typeof input === 'string' ? '\n' : '\n'.charCodeAt();
const CR = typeof input === 'string' ? '\r' : '\r'.charCodeAt();
if (input[input.length - 1] === LF) {
input = input.slice(0, input.length - 1);
}
if (input[input.length - 1] === CR) {
input = input.slice(0, input.length - 1);
}
return input;
};
var npmRunPath$1 = {exports: {}};
npmRunPath$1.exports;
(function (module) {
const path = f;
const pathKey = pathKeyExports;
const npmRunPath = options => {
options = {
cwd: process.cwd(),
path: process.env[pathKey()],
execPath: process.execPath,
...options
};
let previous;
let cwdPath = path.resolve(options.cwd);
const result = [];
while (previous !== cwdPath) {
result.push(path.join(cwdPath, 'node_modules/.bin'));
previous = cwdPath;
cwdPath = path.resolve(cwdPath, '..');
}
// Ensure the running `node` binary is used
const execPathDir = path.resolve(options.cwd, options.execPath, '..');
result.push(execPathDir);
return result.concat(options.path).join(path.delimiter);
};
module.exports = npmRunPath;
// TODO: Remove this for the next major release
module.exports.default = npmRunPath;
module.exports.env = options => {
options = {
env: process.env,
...options
};
const env = {...options.env};
const path = pathKey({env});
options.path = env[path];
env[path] = module.exports(options);
return env;
};
} (npmRunPath$1));
var npmRunPathExports = npmRunPath$1.exports;
var main = {};
var signals = {};
var core = {};
Object.defineProperty(core,"__esModule",{value:true});core.SIGNALS=void 0;
const SIGNALS=[
{
name:"SIGHUP",
number:1,
action:"terminate",
description:"Terminal closed",
standard:"posix"},
{
name:"SIGINT",
number:2,
action:"terminate",
description:"User interruption with CTRL-C",
standard:"ansi"},
{
name:"SIGQUIT",
number:3,
action:"core",
description:"User interruption with CTRL-\\",
standard:"posix"},
{
name:"SIGILL",
number:4,
action:"core",
description:"Invalid machine instruction",
standard:"ansi"},
{
name:"SIGTRAP",
number:5,
action:"core",
description:"Debugger breakpoint",
standard:"posix"},
{
name:"SIGABRT",
number:6,
action:"core",
description:"Aborted",
standard:"ansi"},
{
name:"SIGIOT",
number:6,
action:"core",
description:"Aborted",
standard:"bsd"},
{
name:"SIGBUS",
number:7,
action:"core",
description:
"Bus error due to misaligned, non-existing address or paging error",
standard:"bsd"},
{
name:"SIGEMT",
number:7,
action:"terminate",
description:"Command should be emulated but is not implemented",
standard:"other"},
{
name:"SIGFPE",
number:8,
action:"core",
description:"Floating point arithmetic error",
standard:"ansi"},
{
name:"SIGKILL",
number:9,
action:"terminate",
description:"Forced termination",
standard:"posix",
forced:true},
{
name:"SIGUSR1",
number:10,
action:"terminate",
description:"Application-specific signal",
standard:"posix"},
{
name:"SIGSEGV",
number:11,
action:"core",
description:"Segmentation fault",
standard:"ansi"},
{
name:"SIGUSR2",
number:12,
action:"terminate",
description:"Application-specific signal",
standard:"posix"},
{
name:"SIGPIPE",
number:13,
action:"terminate",
description:"Broken pipe or socket",
standard:"posix"},
{
name:"SIGALRM",
number:14,
action:"terminate",
description:"Timeout or timer",
standard:"posix"},
{
name:"SIGTERM",
number:15,
action:"terminate",
description:"Termination",
standard:"ansi"},
{
name:"SIGSTKFLT",
number:16,
action:"terminate",
description:"Stack is empty or overflowed",
standard:"other"},
{
name:"SIGCHLD",
number:17,
action:"ignore",
description:"Child process terminated, paused or unpaused",
standard:"posix"},
{
name:"SIGCLD",
number:17,
action:"ignore",
description:"Child process terminated, paused or unpaused",
standard:"other"},
{
name:"SIGCONT",
number:18,
action:"unpause",
description:"Unpaused",
standard:"posix",
forced:true},
{
name:"SIGSTOP",
number:19,
action:"pause",
description:"Paused",
standard:"posix",
forced:true},
{
name:"SIGTSTP",
number:20,
action:"pause",
description:"Paused using CTRL-Z or \"suspend\"",
standard:"posix"},
{
name:"SIGTTIN",
number:21,
action:"pause",
description:"Background process cannot read terminal input",
standard:"posix"},
{
name:"SIGBREAK",
number:21,
action:"terminate",
description:"User interruption with CTRL-BREAK",
standard:"other"},
{
name:"SIGTTOU",
number:22,
action:"pause",
description:"Background process cannot write to terminal output",
standard:"posix"},
{
name:"SIGURG",
number:23,
action:"ignore",
description:"Socket received out-of-band data",
standard:"bsd"},
{
name:"SIGXCPU",
number:24,
action:"core",
description:"Process timed out",
standard:"bsd"},
{
name:"SIGXFSZ",
number:25,
action:"core",
description:"File too big",
standard:"bsd"},
{
name:"SIGVTALRM",
number:26,
action:"terminate",
description:"Timeout or timer",
standard:"bsd"},
{
name:"SIGPROF",
number:27,
action:"terminate",
description:"Timeout or timer",
standard:"bsd"},
{
name:"SIGWINCH",
number:28,
action:"ignore",
description:"Terminal window size changed",
standard:"bsd"},
{
name:"SIGIO",
number:29,
action:"terminate",
description:"I/O is available",
standard:"other"},
{
name:"SIGPOLL",
number:29,
action:"terminate",
description:"Watched event",
standard:"other"},
{
name:"SIGINFO",
number:29,
action:"ignore",
description:"Request for process information",
standard:"other"},
{
name:"SIGPWR",
number:30,
action:"terminate",
description:"Device running out of power",
standard:"systemv"},
{
name:"SIGSYS",
number:31,
action:"core",
description:"Invalid system call",
standard:"other"},
{
name:"SIGUNUSED",
number:31,
action:"terminate",
description:"Invalid system call",
standard:"other"}];core.SIGNALS=SIGNALS;
var realtime = {};
Object.defineProperty(realtime,"__esModule",{value:true});realtime.SIGRTMAX=realtime.getRealtimeSignals=void 0;
const getRealtimeSignals=function(){
const length=SIGRTMAX-SIGRTMIN+1;
return Array.from({length},getRealtimeSignal);
};realtime.getRealtimeSignals=getRealtimeSignals;
const getRealtimeSignal=function(value,index){
return {
name:`SIGRT${index+1}`,
number:SIGRTMIN+index,
action:"terminate",
description:"Application-specific signal (realtime)",
standard:"posix"};
};
const SIGRTMIN=34;
const SIGRTMAX=64;realtime.SIGRTMAX=SIGRTMAX;
Object.defineProperty(signals,"__esModule",{value:true});signals.getSignals=void 0;var _os$1=require$$0;
var _core=core;
var _realtime$1=realtime;
const getSignals=function(){
const realtimeSignals=(0, _realtime$1.getRealtimeSignals)();
const signals=[..._core.SIGNALS,...realtimeSignals].map(normalizeSignal);
return signals;
};signals.getSignals=getSignals;
const normalizeSignal=function({
name,
number:defaultNumber,
description,
action,
forced=false,
standard})
{
const{
signals:{[name]:constantSignal}}=
_os$1.constants;
const supported=constantSignal!==undefined;
const number=supported?constantSignal:defaultNumber;
return {name,number,description,supported,action,forced,standard};
};
Object.defineProperty(main,"__esModule",{value:true});main.signalsByNumber=main.signalsByName=void 0;var _os=require$$0;
var _signals=signals;
var _realtime=realtime;
const getSignalsByName=function(){
const signals=(0, _signals.getSignals)();
return signals.reduce(getSignalByName,{});
};
const getSignalByName=function(
signalByNameMemo,
{name,number,description,supported,action,forced,standard})
{
return {
...signalByNameMemo,
[name]:{name,number,description,supported,action,forced,standard}};
};
const signalsByName$1=getSignalsByName();main.signalsByName=signalsByName$1;
const getSignalsByNumber=function(){
const signals=(0, _signals.getSignals)();
const length=_realtime.SIGRTMAX+1;
const signalsA=Array.from({length},(value,number)=>
getSignalByNumber(number,signals));
return Object.assign({},...signalsA);
};
const getSignalByNumber=function(number,signals){
const signal=findSignalByNumber(number,signals);
if(signal===undefined){
return {};
}
const{name,description,supported,action,forced,standard}=signal;
return {
[number]:{
name,
number,
description,
supported,
action,
forced,
standard}};
};
const findSignalByNumber=function(number,signals){
const signal=signals.find(({name})=>_os.constants.signals[name]===number);
if(signal!==undefined){
return signal;
}
return signals.find(signalA=>signalA.number===number);
};
const signalsByNumber=getSignalsByNumber();main.signalsByNumber=signalsByNumber;
const {signalsByName} = main;
const getErrorPrefix = ({timedOut, timeout, errorCode, signal, signalDescription, exitCode, isCanceled}) => {
if (timedOut) {
return `timed out after ${timeout} milliseconds`;
}
if (isCanceled) {
return 'was canceled';
}
if (errorCode !== undefined) {
return `failed with ${errorCode}`;
}
if (signal !== undefined) {
return `was killed with ${signal} (${signalDescription})`;
}
if (exitCode !== undefined) {
return `failed with exit code ${exitCode}`;
}
return 'failed';
};
const makeError$1 = ({
stdout,
stderr,
all,
error,
signal,
exitCode,
command,
escapedCommand,
timedOut,
isCanceled,
killed,
parsed: {options: {timeout}}
}) => {
// `signal` and `exitCode` emitted on `spawned.on('exit')` event can be `null`.
// We normalize them to `undefined`
exitCode = exitCode === null ? undefined : exitCode;
signal = signal === null ? undefined : signal;
const signalDescription = signal === undefined ? undefined : signalsByName[signal].description;
const errorCode = error && error.code;
const prefix = getErrorPrefix({timedOut, timeout, errorCode, signal, signalDescription, exitCode, isCanceled});
const execaMessage = `Command ${prefix}: ${command}`;
const isError = Object.prototype.toString.call(error) === '[object Error]';
const shortMessage = isError ? `${execaMessage}\n${error.message}` : execaMessage;
const message = [shortMessage, stderr, stdout].filter(Boolean).join('\n');
if (isError) {
error.originalMessage = error.message;
error.message = message;
} else {
error = new Error(message);
}
error.shortMessage = shortMessage;
error.command = command;
error.escapedCommand = escapedCommand;
error.exitCode = exitCode;
error.signal = signal;
error.signalDescription = signalDescription;
error.stdout = stdout;
error.stderr = stderr;
if (all !== undefined) {
error.all = all;
}
if ('bufferedData' in error) {
delete error.bufferedData;
}
error.failed = true;
error.timedOut = Boolean(timedOut);
error.isCanceled = isCanceled;
error.killed = killed && !timedOut;
return error;
};
var error = makeError$1;
var stdio = {exports: {}};
const aliases = ['stdin', 'stdout', 'stderr'];
const hasAlias = options => aliases.some(alias => options[alias] !== undefined);
const normalizeStdio$1 = options => {
if (!options) {
return;
}
const {stdio} = options;
if (stdio === undefined) {
return aliases.map(alias => options[alias]);
}
if (hasAlias(options)) {
throw new Error(`It's not possible to provide \`stdio\` in combination with one of ${aliases.map(alias => `\`${alias}\``).join(', ')}`);
}
if (typeof stdio === 'string') {
return stdio;
}
if (!Array.isArray(stdio)) {
throw new TypeError(`Expected \`stdio\` to be of type \`string\` or \`Array\`, got \`${typeof stdio}\``);
}
const length = Math.max(stdio.length, aliases.length);
return Array.from({length}, (value, index) => stdio[index]);
};
stdio.exports = normalizeStdio$1;
// `ipc` is pushed unless it is already present
stdio.exports.node = options => {
const stdio = normalizeStdio$1(options);
if (stdio === 'ipc') {
return 'ipc';
}
if (stdio === undefined || typeof stdio === 'string') {
return [stdio, stdio, stdio, 'ipc'];
}
if (stdio.includes('ipc')) {
return stdio;
}
return [...stdio, 'ipc'];
};
var stdioExports = stdio.exports;
const os = require$$0;
const onExit = signalExitExports;
const DEFAULT_FORCE_KILL_TIMEOUT = 1000 * 5;
// Monkey-patches `childProcess.kill()` to add `forceKillAfterTimeout` behavior
const spawnedKill$1 = (kill, signal = 'SIGTERM', options = {}) => {
const killResult = kill(signal);
setKillTimeout(kill, signal, options, killResult);
return killResult;
};
const setKillTimeout = (kill, signal, options, killResult) => {
if (!shouldForceKill(signal, options, killResult)) {
return;
}
const timeout = getForceKillAfterTimeout(options);
const t = setTimeout(() => {
kill('SIGKILL');
}, timeout);
// Guarded because there's no `.unref()` when `execa` is used in the renderer
// process in Electron. This cannot be tested since we don't run tests in
// Electron.
// istanbul ignore else
if (t.unref) {
t.unref();
}
};
const shouldForceKill = (signal, {forceKillAfterTimeout}, killResult) => {
return isSigterm(signal) && forceKillAfterTimeout !== false && killResult;
};
const isSigterm = signal => {
return signal === os.constants.signals.SIGTERM ||
(typeof signal === 'string' && signal.toUpperCase() === 'SIGTERM');
};
const getForceKillAfterTimeout = ({forceKillAfterTimeout = true}) => {
if (forceKillAfterTimeout === true) {
return DEFAULT_FORCE_KILL_TIMEOUT;
}
if (!Number.isFinite(forceKillAfterTimeout) || forceKillAfterTimeout < 0) {
throw new TypeError(`Expected the \`forceKillAfterTimeout\` option to be a non-negative integer, got \`${forceKillAfterTimeout}\` (${typeof forceKillAfterTimeout})`);
}
return forceKillAfterTimeout;
};
// `childProcess.cancel()`
const spawnedCancel$1 = (spawned, context) => {
const killResult = spawned.kill();
if (killResult) {
context.isCanceled = true;
}
};
const timeoutKill = (spawned, signal, reject) => {
spawned.kill(signal);
reject(Object.assign(new Error('Timed out'), {timedOut: true, signal}));
};
// `timeout` option handling
const setupTimeout$1 = (spawned, {timeout, killSignal = 'SIGTERM'}, spawnedPromise) => {
if (timeout === 0 || timeout === undefined) {
return spawnedPromise;
}
let timeoutId;
const timeoutPromise = new Promise((resolve, reject) => {
timeoutId = setTimeout(() => {
timeoutKill(spawned, killSignal, reject);
}, timeout);
});
const safeSpawnedPromise = spawnedPromise.finally(() => {
clearTimeout(timeoutId);
});
return Promise.race([timeoutPromise, safeSpawnedPromise]);
};
const validateTimeout$1 = ({timeout}) => {
if (timeout !== undefined && (!Number.isFinite(timeout) || timeout < 0)) {
throw new TypeError(`Expected the \`timeout\` option to be a non-negative integer, got \`${timeout}\` (${typeof timeout})`);
}
};
// `cleanup` option handling
const setExitHandler$1 = async (spawned, {cleanup, detached}, timedPromise) => {
if (!cleanup || detached) {
return timedPromise;
}
const removeExitHandler = onExit(() => {
spawned.kill();
});
return timedPromise.finally(() => {
removeExitHandler();
});
};
var kill = {
spawnedKill: spawnedKill$1,
spawnedCancel: spawnedCancel$1,
setupTimeout: setupTimeout$1,
validateTimeout: validateTimeout$1,
setExitHandler: setExitHandler$1
};
const isStream$1 = stream =>
stream !== null &&
typeof stream === 'object' &&
typeof stream.pipe === 'function';
isStream$1.writable = stream =>
isStream$1(stream) &&
stream.writable !== false &&
typeof stream._write === 'function' &&
typeof stream._writableState === 'object';
isStream$1.readable = stream =>
isStream$1(stream) &&
stream.readable !== false &&
typeof stream._read === 'function' &&
typeof stream._readableState === 'object';
isStream$1.duplex = stream =>
isStream$1.writable(stream) &&
isStream$1.readable(stream);
isStream$1.transform = stream =>
isStream$1.duplex(stream) &&
typeof stream._transform === 'function';
var isStream_1 = isStream$1;
const isStream = isStream_1;
const getStream = getStreamExports;
const mergeStream = mergeStream$1;
// `input` option
const handleInput$1 = (spawned, input) => {
// Checking for stdin is workaround for https://github.com/nodejs/node/issues/26852
// @todo remove `|| spawned.stdin === undefined` once we drop support for Node.js <=12.2.0
if (input === undefined || spawned.stdin === undefined) {
return;
}
if (isStream(input)) {
input.pipe(spawned.stdin);
} else {
spawned.stdin.end(input);
}
};
// `all` interleaves `stdout` and `stderr`
const makeAllStream$1 = (spawned, {all}) => {
if (!all || (!spawned.stdout && !spawned.stderr)) {
return;
}
const mixed = mergeStream();
if (spawned.stdout) {
mixed.add(spawned.stdout);
}
if (spawned.stderr) {
mixed.add(spawned.stderr);
}
return mixed;
};
// On failure, `result.stdout|stderr|all` should contain the currently buffered stream
const getBufferedData = async (stream, streamPromise) => {
if (!stream) {
return;
}
stream.destroy();
try {
return await streamPromise;
} catch (error) {
return error.bufferedData;
}
};
const getStreamPromise = (stream, {encoding, buffer, maxBuffer}) => {
if (!stream || !buffer) {
return;
}
if (encoding) {
return getStream(stream, {encoding, maxBuffer});
}
return getStream.buffer(stream, {maxBuffer});
};
// Retrieve result of child process: exit code, signal, error, streams (stdout/stderr/all)
const getSpawnedResult$1 = async ({stdout, stderr, all}, {encoding, buffer, maxBuffer}, processDone) => {
const stdoutPromise = getStreamPromise(stdout, {encoding, buffer, maxBuffer});
const stderrPromise = getStreamPromise(stderr, {encoding, buffer, maxBuffer});
const allPromise = getStreamPromise(all, {encoding, buffer, maxBuffer: maxBuffer * 2});
try {
return await Promise.all([processDone, stdoutPromise, stderrPromise, allPromise]);
} catch (error) {
return Promise.all([
{error, signal: error.signal, timedOut: error.timedOut},
getBufferedData(stdout, stdoutPromise),
getBufferedData(stderr, stderrPromise),
getBufferedData(all, allPromise)
]);
}
};
const validateInputSync$1 = ({input}) => {
if (isStream(input)) {
throw new TypeError('The `input` option cannot be a stream in sync mode');
}
};
var stream = {
handleInput: handleInput$1,
makeAllStream: makeAllStream$1,
getSpawnedResult: getSpawnedResult$1,
validateInputSync: validateInputSync$1
};
const nativePromisePrototype = (async () => {})().constructor.prototype;
const descriptors = ['then', 'catch', 'finally'].map(property => [
property,
Reflect.getOwnPropertyDescriptor(nativePromisePrototype, property)
]);
// The return value is a mixin of `childProcess` and `Promise`
const mergePromise$1 = (spawned, promise) => {
for (const [property, descriptor] of descriptors) {
// Starting the main `promise` is deferred to avoid consuming streams
const value = typeof promise === 'function' ?
(...args) => Reflect.apply(descriptor.value, promise(), args) :
descriptor.value.bind(promise);
Reflect.defineProperty(spawned, property, {...descriptor, value});
}
return spawned;
};
// Use promises instead of `child_process` events
const getSpawnedPromise$1 = spawned => {
return new Promise((resolve, reject) => {
spawned.on('exit', (exitCode, signal) => {
resolve({exitCode, signal});
});
spawned.on('error', error => {
reject(error);
});
if (spawned.stdin) {
spawned.stdin.on('error', error => {
reject(error);
});
}
});
};
var promise = {
mergePromise: mergePromise$1,
getSpawnedPromise: getSpawnedPromise$1
};
const normalizeArgs = (file, args = []) => {
if (!Array.isArray(args)) {
return [file];
}
return [file, ...args];
};
const NO_ESCAPE_REGEXP = /^[\w.-]+$/;
const DOUBLE_QUOTES_REGEXP = /"/g;
const escapeArg = arg => {
if (typeof arg !== 'string' || NO_ESCAPE_REGEXP.test(arg)) {
return arg;
}
return `"${arg.replace(DOUBLE_QUOTES_REGEXP, '\\"')}"`;
};
const joinCommand$1 = (file, args) => {
return normalizeArgs(file, args).join(' ');
};
const getEscapedCommand$1 = (file, args) => {
return normalizeArgs(file, args).map(arg => escapeArg(arg)).join(' ');
};
const SPACES_REGEXP = / +/g;
// Handle `execa.command()`
const parseCommand$1 = command => {
const tokens = [];
for (const token of command.trim().split(SPACES_REGEXP)) {
// Allow spaces to be escaped by a backslash if not meant as a delimiter
const previousToken = tokens[tokens.length - 1];
if (previousToken && previousToken.endsWith('\\')) {
// Merge previous token with current one
tokens[tokens.length - 1] = `${previousToken.slice(0, -1)} ${token}`;
} else {
tokens.push(token);
}
}
return tokens;
};
var command = {
joinCommand: joinCommand$1,
getEscapedCommand: getEscapedCommand$1,
parseCommand: parseCommand$1
};
const path = f;
const childProcess = require$$0$1;
const crossSpawn = crossSpawnExports;
const stripFinalNewline = stripFinalNewline$1;
const npmRunPath = npmRunPathExports;
const onetime = onetimeExports;
const makeError = error;
const normalizeStdio = stdioExports;
const {spawnedKill, spawnedCancel, setupTimeout, validateTimeout, setExitHandler} = kill;
const {handleInput, getSpawnedResult, makeAllStream, validateInputSync} = stream;
const {mergePromise, getSpawnedPromise} = promise;
const {joinCommand, parseCommand, getEscapedCommand} = command;
const DEFAULT_MAX_BUFFER = 1000 * 1000 * 100;
const getEnv = ({env: envOption, extendEnv, preferLocal, localDir, execPath}) => {
const env = extendEnv ? {...process.env, ...envOption} : envOption;
if (preferLocal) {
return npmRunPath.env({env, cwd: localDir, execPath});
}
return env;
};
const handleArguments = (file, args, options = {}) => {
const parsed = crossSpawn._parse(file, args, options);
file = parsed.command;
args = parsed.args;
options = parsed.options;
options = {
maxBuffer: DEFAULT_MAX_BUFFER,
buffer: true,
stripFinalNewline: true,
extendEnv: true,
preferLocal: false,
localDir: options.cwd || process.cwd(),
execPath: process.execPath,
encoding: 'utf8',
reject: true,
cleanup: true,
all: false,
windowsHide: true,
...options
};
options.env = getEnv(options);
options.stdio = normalizeStdio(options);
if (process.platform === 'win32' && path.basename(file, '.exe') === 'cmd') {
// #116
args.unshift('/q');
}
return {file, args, options, parsed};
};
const handleOutput = (options, value, error) => {
if (typeof value !== 'string' && !Buffer.isBuffer(value)) {
// When `execa.sync()` errors, we normalize it to '' to mimic `execa()`
return error === undefined ? undefined : '';
}
if (options.stripFinalNewline) {
return stripFinalNewline(value);
}
return value;
};
const execa = (file, args, options) => {
const parsed = handleArguments(file, args, options);
const command = joinCommand(file, args);
const escapedCommand = getEscapedCommand(file, args);
validateTimeout(parsed.options);
let spawned;
try {
spawned = childProcess.spawn(parsed.file, parsed.args, parsed.options);
} catch (error) {
// Ensure the returned error is always both a promise and a child process
const dummySpawned = new childProcess.ChildProcess();
const errorPromise = Promise.reject(makeError({
error,
stdout: '',
stderr: '',
all: '',
command,
escapedCommand,
parsed,
timedOut: false,
isCanceled: false,
killed: false
}));
return mergePromise(dummySpawned, errorPromise);
}
const spawnedPromise = getSpawnedPromise(spawned);
const timedPromise = setupTimeout(spawned, parsed.options, spawnedPromise);
const processDone = setExitHandler(spawned, parsed.options, timedPromise);
const context = {isCanceled: false};
spawned.kill = spawnedKill.bind(null, spawned.kill.bind(spawned));
spawned.cancel = spawnedCancel.bind(null, spawned, context);
const handlePromise = async () => {
const [{error, exitCode, signal, timedOut}, stdoutResult, stderrResult, allResult] = await getSpawnedResult(spawned, parsed.options, processDone);
const stdout = handleOutput(parsed.options, stdoutResult);
const stderr = handleOutput(parsed.options, stderrResult);
const all = handleOutput(parsed.options, allResult);
if (error || exitCode !== 0 || signal !== null) {
const returnedError = makeError({
error,
exitCode,
signal,
stdout,
stderr,
all,
command,
escapedCommand,
parsed,
timedOut,
isCanceled: context.isCanceled,
killed: spawned.killed
});
if (!parsed.options.reject) {
return returnedError;
}
throw returnedError;
}
return {
command,
escapedCommand,
exitCode: 0,
stdout,
stderr,
all,
failed: false,
timedOut: false,
isCanceled: false,
killed: false
};
};
const handlePromiseOnce = onetime(handlePromise);
handleInput(spawned, parsed.options.input);
spawned.all = makeAllStream(spawned, parsed.options);
return mergePromise(spawned, handlePromiseOnce);
};
execa$2.exports = execa;
execa$2.exports.sync = (file, args, options) => {
const parsed = handleArguments(file, args, options);
const command = joinCommand(file, args);
const escapedCommand = getEscapedCommand(file, args);
validateInputSync(parsed.options);
let result;
try {
result = childProcess.spawnSync(parsed.file, parsed.args, parsed.options);
} catch (error) {
throw makeError({
error,
stdout: '',
stderr: '',
all: '',
command,
escapedCommand,
parsed,
timedOut: false,
isCanceled: false,
killed: false
});
}
const stdout = handleOutput(parsed.options, result.stdout, result.error);
const stderr = handleOutput(parsed.options, result.stderr, result.error);
if (result.error || result.status !== 0 || result.signal !== null) {
const error = makeError({
stdout,
stderr,
error: result.error,
signal: result.signal,
exitCode: result.status,
command,
escapedCommand,
parsed,
timedOut: result.error && result.error.code === 'ETIMEDOUT',
isCanceled: false,
killed: result.signal !== null
});
if (!parsed.options.reject) {
return error;
}
throw error;
}
return {
command,
escapedCommand,
exitCode: 0,
stdout,
stderr,
failed: false,
timedOut: false,
isCanceled: false,
killed: false
};
};
execa$2.exports.command = (command, options) => {
const [file, ...args] = parseCommand(command);
return execa(file, args, options);
};
execa$2.exports.commandSync = (command, options) => {
const [file, ...args] = parseCommand(command);
return execa.sync(file, args, options);
};
execa$2.exports.node = (scriptPath, args, options = {}) => {
if (args && !Array.isArray(args) && typeof args === 'object') {
options = args;
args = [];
}
const stdio = normalizeStdio.node(options);
const defaultExecArgv = process.execArgv.filter(arg => !arg.startsWith('--inspect'));
const {
nodePath = process.execPath,
nodeOptions = defaultExecArgv
} = options;
return execa(
nodePath,
[
...nodeOptions,
scriptPath,
...(Array.isArray(args) ? args : [])
],
{
...options,
stdin: undefined,
stdout: undefined,
stderr: undefined,
stdio,
shell: false
}
);
};
var execaExports = execa$2.exports;
var execa$1 = /*@__PURE__*/getDefaultExportFromCjs(execaExports);
// src/detect.ts
var AGENTS = ["pnpm", "yarn", "npm", "pnpm@6", "yarn@berry", "bun"];
var LOCKS = {
"bun.lockb": "bun",
"pnpm-lock.yaml": "pnpm",
"yarn.lock": "yarn",
"package-lock.json": "npm",
"npm-shrinkwrap.json": "npm"
};
async function detectPackageManager(cwd = process.cwd()) {
let agent = null;
const lockPath = await findUp(Object.keys(LOCKS), { cwd });
let packageJsonPath;
if (lockPath)
packageJsonPath = f.resolve(lockPath, "../package.json");
else
packageJsonPath = await findUp("package.json", { cwd });
if (packageJsonPath && $.existsSync(packageJsonPath)) {
try {
const pkg = JSON.parse($.readFileSync(packageJsonPath, "utf8"));
if (typeof pkg.packageManager === "string") {
const [name, version] = pkg.packageManager.split("@");
if (name === "yarn" && parseInt(version) > 1)
agent = "yarn@berry";
else if (name === "pnpm" && parseInt(version) < 7)
agent = "pnpm@6";
else if (name in AGENTS)
agent = name;
else
console.warn("[ni] Unknown packageManager:", pkg.packageManager);
}
} catch {
}
}
if (!agent && lockPath)
agent = LOCKS[f.basename(lockPath)];
return agent;
}
async function installPackage(names, options = {}) {
const detectedAgent = options.packageManager || await detectPackageManager(options.cwd) || "npm";
const [agent] = detectedAgent.split("@");
if (!Array.isArray(names))
names = [names];
const args = options.additionalArgs || [];
if (options.preferOffline) {
if (detectedAgent === "yarn@berry")
args.unshift("--cached");
else
args.unshift("--prefer-offline");
}
return execa$1(
agent,
[
agent === "yarn" ? "add" : "install",
options.dev ? "-D" : "",
...args,
...names
].filter(Boolean),
{
stdio: options.silent ? "ignore" : "inherit",
cwd: options.cwd
}
);
}
export { detectPackageManager, installPackage };