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Batuhan Berk Başoğlu 2021-03-10 20:43:28 -05:00
parent f59686eae0
commit 6d3ba1a714
1203 changed files with 140782 additions and 5 deletions
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4
node_modules/nodemon/lib/monitor/index.js generated vendored Normal file
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module.exports = {
run: require('./run'),
watch: require('./watch').watch,
};

276
node_modules/nodemon/lib/monitor/match.js generated vendored Normal file
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const minimatch = require('minimatch');
const path = require('path');
const fs = require('fs');
const debug = require('debug')('nodemon:match');
const utils = require('../utils');
module.exports = match;
module.exports.rulesToMonitor = rulesToMonitor;
function rulesToMonitor(watch, ignore, config) {
var monitor = [];
if (!Array.isArray(ignore)) {
if (ignore) {
ignore = [ignore];
} else {
ignore = [];
}
}
if (!Array.isArray(watch)) {
if (watch) {
watch = [watch];
} else {
watch = [];
}
}
if (watch && watch.length) {
monitor = utils.clone(watch);
}
if (ignore) {
[].push.apply(monitor, (ignore || []).map(function (rule) {
return '!' + rule;
}));
}
var cwd = process.cwd();
// next check if the monitored paths are actual directories
// or just patterns - and expand the rule to include *.*
monitor = monitor.map(function (rule) {
var not = rule.slice(0, 1) === '!';
if (not) {
rule = rule.slice(1);
}
if (rule === '.' || rule === '.*') {
rule = '*.*';
}
var dir = path.resolve(cwd, rule);
try {
var stat = fs.statSync(dir);
if (stat.isDirectory()) {
rule = dir;
if (rule.slice(-1) !== '/') {
rule += '/';
}
rule += '**/*';
// `!not` ... sorry.
if (!not) {
config.dirs.push(dir);
}
} else {
// ensures we end up in the check that tries to get a base directory
// and then adds it to the watch list
throw new Error();
}
} catch (e) {
var base = tryBaseDir(dir);
if (!not && base) {
if (config.dirs.indexOf(base) === -1) {
config.dirs.push(base);
}
}
}
if (rule.slice(-1) === '/') {
// just slap on a * anyway
rule += '*';
}
// if the url ends with * but not **/* and not *.*
// then convert to **/* - somehow it was missed :-\
if (rule.slice(-4) !== '**/*' &&
rule.slice(-1) === '*' &&
rule.indexOf('*.') === -1) {
if (rule.slice(-2) !== '**') {
rule += '*/*';
}
}
return (not ? '!' : '') + rule;
});
return monitor;
}
function tryBaseDir(dir) {
var stat;
if (/[?*\{\[]+/.test(dir)) { // if this is pattern, then try to find the base
try {
var base = path.dirname(dir.replace(/([?*\{\[]+.*$)/, 'foo'));
stat = fs.statSync(base);
if (stat.isDirectory()) {
return base;
}
} catch (error) {
// console.log(error);
}
} else {
try {
stat = fs.statSync(dir);
// if this path is actually a single file that exists, then just monitor
// that, *specifically*.
if (stat.isFile() || stat.isDirectory()) {
return dir;
}
} catch (e) { }
}
return false;
}
function match(files, monitor, ext) {
// sort the rules by highest specificity (based on number of slashes)
// ignore rules (!) get sorted highest as they take precedent
const cwd = process.cwd();
var rules = monitor.sort(function (a, b) {
var r = b.split(path.sep).length - a.split(path.sep).length;
var aIsIgnore = a.slice(0, 1) === '!';
var bIsIgnore = b.slice(0, 1) === '!';
if (aIsIgnore || bIsIgnore) {
if (aIsIgnore) {
return -1;
}
return 1;
}
if (r === 0) {
return b.length - a.length;
}
return r;
}).map(function (s) {
var prefix = s.slice(0, 1);
if (prefix === '!') {
if (s.indexOf('!' + cwd) === 0) {
return s;
}
// if it starts with a period, then let's get the relative path
if (s.indexOf('!.') === 0) {
return '!' + path.resolve(cwd, s.substring(1));
}
return '!**' + (prefix !== path.sep ? path.sep : '') + s.slice(1);
}
// if it starts with a period, then let's get the relative path
if (s.indexOf('.') === 0) {
return path.resolve(cwd, s);
}
if (s.indexOf(cwd) === 0) {
return s;
}
return '**' + (prefix !== path.sep ? path.sep : '') + s;
});
debug('rules', rules);
var good = [];
var whitelist = []; // files that we won't check against the extension
var ignored = 0;
var watched = 0;
var usedRules = [];
var minimatchOpts = {
dot: true,
};
// enable case-insensitivity on Windows
if (utils.isWindows) {
minimatchOpts.nocase = true;
}
files.forEach(function (file) {
file = path.resolve(cwd, file);
var matched = false;
for (var i = 0; i < rules.length; i++) {
if (rules[i].slice(0, 1) === '!') {
if (!minimatch(file, rules[i], minimatchOpts)) {
debug('ignored', file, 'rule:', rules[i]);
ignored++;
matched = true;
break;
}
} else {
debug('matched', file, 'rule:', rules[i]);
if (minimatch(file, rules[i], minimatchOpts)) {
watched++;
// don't repeat the output if a rule is matched
if (usedRules.indexOf(rules[i]) === -1) {
usedRules.push(rules[i]);
utils.log.detail('matched rule: ' + rules[i]);
}
// if the rule doesn't match the WATCH EVERYTHING
// but *does* match a rule that ends with *.*, then
// white list it - in that we don't run it through
// the extension check too.
if (rules[i] !== '**' + path.sep + '*.*' &&
rules[i].slice(-3) === '*.*') {
whitelist.push(file);
} else if (path.basename(file) === path.basename(rules[i])) {
// if the file matches the actual rule, then it's put on whitelist
whitelist.push(file);
} else {
good.push(file);
}
matched = true;
break;
} else {
// utils.log.detail('no match: ' + rules[i], file);
}
}
}
if (!matched) {
ignored++;
}
});
debug('good', good)
// finally check the good files against the extensions that we're monitoring
if (ext) {
if (ext.indexOf(',') === -1) {
ext = '**/*.' + ext;
} else {
ext = '**/*.{' + ext + '}';
}
good = good.filter(function (file) {
// only compare the filename to the extension test
return minimatch(path.basename(file), ext, minimatchOpts);
});
} // else assume *.*
var result = good.concat(whitelist);
if (utils.isWindows) {
// fix for windows testing - I *think* this is okay to do
result = result.map(function (file) {
return file.slice(0, 1).toLowerCase() + file.slice(1);
});
}
return {
result: result,
ignored: ignored,
watched: watched,
total: files.length,
};
}

474
node_modules/nodemon/lib/monitor/run.js generated vendored Normal file
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var debug = require('debug')('nodemon:run');
const statSync = require('fs').statSync;
var utils = require('../utils');
var bus = utils.bus;
var childProcess = require('child_process');
var spawn = childProcess.spawn;
var exec = childProcess.exec;
var fork = childProcess.fork;
var watch = require('./watch').watch;
var config = require('../config');
var child = null; // the actual child process we spawn
var killedAfterChange = false;
var noop = () => {};
var restart = null;
var psTree = require('pstree.remy');
var path = require('path');
var signals = require('./signals');
function run(options) {
var cmd = config.command.raw;
// moved up
// we need restart function below in the global scope for run.kill
/*jshint validthis:true*/
restart = run.bind(this, options);
run.restart = restart;
// binding options with instance of run
// so that we can use it in run.kill
run.options = options;
var runCmd = !options.runOnChangeOnly || config.lastStarted !== 0;
if (runCmd) {
utils.log.status('starting `' + config.command.string + '`');
} else {
// should just watch file if command is not to be run
// had another alternate approach
// to stop process being forked/spawned in the below code
// but this approach does early exit and makes code cleaner
debug('start watch on: %s', config.options.watch);
if (config.options.watch !== false) {
watch();
return;
}
}
config.lastStarted = Date.now();
var stdio = ['pipe', 'pipe', 'pipe'];
if (config.options.stdout) {
stdio = ['pipe', process.stdout, process.stderr];
}
if (config.options.stdin === false) {
stdio = [process.stdin, process.stdout, process.stderr];
}
var sh = 'sh';
var shFlag = '-c';
const binPath = process.cwd() + '/node_modules/.bin';
const spawnOptions = {
env: Object.assign({}, process.env, options.execOptions.env, {
PATH: binPath + ':' + process.env.PATH,
}),
stdio: stdio,
}
var executable = cmd.executable;
if (utils.isWindows) {
// if the exec includes a forward slash, reverse it for windows compat
// but *only* apply to the first command, and none of the arguments.
// ref #1251 and #1236
if (executable.indexOf('/') !== -1) {
executable = executable.split(' ').map((e, i) => {
if (i === 0) {
return path.normalize(e);
}
return e;
}).join(' ');
}
// taken from npm's cli: https://git.io/vNFD4
sh = process.env.comspec || 'cmd';
shFlag = '/d /s /c';
spawnOptions.windowsVerbatimArguments = true;
}
var args = runCmd ? utils.stringify(executable, cmd.args) : ':';
var spawnArgs = [sh, [shFlag, args], spawnOptions];
const firstArg = cmd.args[0] || '';
var inBinPath = false;
try {
inBinPath = statSync(`${binPath}/${executable}`).isFile();
} catch (e) {}
// hasStdio allows us to correctly handle stdin piping
// see: https://git.io/vNtX3
const hasStdio = utils.satisfies('>= 6.4.0 || < 5');
// forking helps with sub-process handling and tends to clean up better
// than spawning, but it should only be used under specific conditions
const shouldFork =
!config.options.spawn &&
!inBinPath &&
!(firstArg.indexOf('-') === 0) && // don't fork if there's a node exec arg
firstArg !== 'inspect' && // don't fork it's `inspect` debugger
executable === 'node' && // only fork if node
utils.version.major > 4 // only fork if node version > 4
if (shouldFork) {
// this assumes the first argument is the script and slices it out, since
// we're forking
var forkArgs = cmd.args.slice(1);
var env = utils.merge(options.execOptions.env, process.env);
stdio.push('ipc');
child = fork(options.execOptions.script, forkArgs, {
env: env,
stdio: stdio,
silent: !hasStdio,
});
utils.log.detail('forking');
debug('fork', sh, shFlag, args)
} else {
utils.log.detail('spawning');
child = spawn.apply(null, spawnArgs);
debug('spawn', sh, shFlag, args);
}
if (config.required) {
var emit = {
stdout: function (data) {
bus.emit('stdout', data);
},
stderr: function (data) {
bus.emit('stderr', data);
},
};
// now work out what to bind to...
if (config.options.stdout) {
child.on('stdout', emit.stdout).on('stderr', emit.stderr);
} else {
child.stdout.on('data', emit.stdout);
child.stderr.on('data', emit.stderr);
bus.stdout = child.stdout;
bus.stderr = child.stderr;
}
if (shouldFork) {
child.on('message', function (message, sendHandle) {
bus.emit('message', message, sendHandle);
});
}
}
bus.emit('start');
utils.log.detail('child pid: ' + child.pid);
child.on('error', function (error) {
bus.emit('error', error);
if (error.code === 'ENOENT') {
utils.log.error('unable to run executable: "' + cmd.executable + '"');
process.exit(1);
} else {
utils.log.error('failed to start child process: ' + error.code);
throw error;
}
});
child.on('exit', function (code, signal) {
if (child && child.stdin) {
process.stdin.unpipe(child.stdin);
}
if (code === 127) {
utils.log.error('failed to start process, "' + cmd.executable +
'" exec not found');
bus.emit('error', code);
process.exit();
}
// If the command failed with code 2, it may or may not be a syntax error
// See: http://git.io/fNOAR
// We will only assume a parse error, if the child failed quickly
if (code === 2 && Date.now() < config.lastStarted + 500) {
utils.log.error('process failed, unhandled exit code (2)');
utils.log.error('');
utils.log.error('Either the command has a syntax error,');
utils.log.error('or it is exiting with reserved code 2.');
utils.log.error('');
utils.log.error('To keep nodemon running even after a code 2,');
utils.log.error('add this to the end of your command: || exit 1');
utils.log.error('');
utils.log.error('Read more here: https://git.io/fNOAG');
utils.log.error('');
utils.log.error('nodemon will stop now so that you can fix the command.');
utils.log.error('');
bus.emit('error', code);
process.exit();
}
// In case we killed the app ourselves, set the signal thusly
if (killedAfterChange) {
killedAfterChange = false;
signal = config.signal;
}
// this is nasty, but it gives it windows support
if (utils.isWindows && signal === 'SIGTERM') {
signal = config.signal;
}
if (signal === config.signal || code === 0) {
// this was a clean exit, so emit exit, rather than crash
debug('bus.emit(exit) via ' + config.signal);
bus.emit('exit', signal);
// exit the monitor, but do it gracefully
if (signal === config.signal) {
return restart();
}
if (code === 0) { // clean exit - wait until file change to restart
if (runCmd) {
utils.log.status('clean exit - waiting for changes before restart');
}
child = null;
}
} else {
bus.emit('crash');
if (options.exitcrash) {
utils.log.fail('app crashed');
if (!config.required) {
process.exit(1);
}
} else {
utils.log.fail('app crashed - waiting for file changes before' +
' starting...');
child = null;
}
}
if (config.options.restartable) {
// stdin needs to kick in again to be able to listen to the
// restart command
process.stdin.resume();
}
});
// moved the run.kill outside to handle both the cases
// intial start
// no start
// connect stdin to the child process (options.stdin is on by default)
if (options.stdin) {
process.stdin.resume();
// FIXME decide whether or not we need to decide the encoding
// process.stdin.setEncoding('utf8');
// swallow the stdin error if it happens
// ref: https://github.com/remy/nodemon/issues/1195
if (hasStdio) {
child.stdin.on('error', () => { });
process.stdin.pipe(child.stdin);
} else {
if (child.stdout) {
child.stdout.pipe(process.stdout);
} else {
utils.log.error('running an unsupported version of node ' +
process.version);
utils.log.error('nodemon may not work as expected - ' +
'please consider upgrading to LTS');
}
}
bus.once('exit', function () {
if (child && process.stdin.unpipe) { // node > 0.8
process.stdin.unpipe(child.stdin);
}
});
}
debug('start watch on: %s', config.options.watch);
if (config.options.watch !== false) {
watch();
}
}
function waitForSubProcesses(pid, callback) {
debug('checking ps tree for pids of ' + pid);
psTree(pid, (err, pids) => {
if (!pids.length) {
return callback();
}
utils.log.status(`still waiting for ${pids.length} sub-process${
pids.length > 2 ? 'es' : ''} to finish...`);
setTimeout(() => waitForSubProcesses(pid, callback), 1000);
});
}
function kill(child, signal, callback) {
if (!callback) {
callback = function () { };
}
if (utils.isWindows) {
// When using CoffeeScript under Windows, child's process is not node.exe
// Instead coffee.cmd is launched, which launches cmd.exe, which starts
// node.exe as a child process child.kill() would only kill cmd.exe, not
// node.exe
// Therefore we use the Windows taskkill utility to kill the process and all
// its children (/T for tree).
// Force kill (/F) the whole child tree (/T) by PID (/PID 123)
exec('taskkill /pid ' + child.pid + ' /T /F');
callback();
} else {
// we use psTree to kill the full subtree of nodemon, because when
// spawning processes like `coffee` under the `--debug` flag, it'll spawn
// it's own child, and that can't be killed by nodemon, so psTree gives us
// an array of PIDs that have spawned under nodemon, and we send each the
// configured signal (default: SIGUSR2) signal, which fixes #335
// note that psTree also works if `ps` is missing by looking in /proc
let sig = signal.replace('SIG', '');
psTree(child.pid, function (err, pids) {
// if ps isn't native to the OS, then we need to send the numeric value
// for the signal during the kill, `signals` is a lookup table for that.
if (!psTree.hasPS) {
sig = signals[signal];
}
// the sub processes need to be killed from smallest to largest
debug('sending kill signal to ' + pids.join(', '));
child.kill(signal);
pids.sort().forEach(pid => exec(`kill -${sig} ${pid}`, noop));
waitForSubProcesses(child.pid, () => {
// finally kill the main user process
exec(`kill -${sig} ${child.pid}`, callback);
});
});
}
}
run.kill = function (noRestart, callback) {
// I hate code like this :( - Remy (author of said code)
if (typeof noRestart === 'function') {
callback = noRestart;
noRestart = false;
}
if (!callback) {
callback = noop;
}
if (child !== null) {
// if the stdin piping is on, we need to unpipe, but also close stdin on
// the child, otherwise linux can throw EPIPE or ECONNRESET errors.
if (run.options.stdin) {
process.stdin.unpipe(child.stdin);
}
// For the on('exit', ...) handler above the following looks like a
// crash, so we set the killedAfterChange flag if a restart is planned
if (!noRestart) {
killedAfterChange = true;
}
/* Now kill the entire subtree of processes belonging to nodemon */
var oldPid = child.pid;
if (child) {
kill(child, config.signal, function () {
// this seems to fix the 0.11.x issue with the "rs" restart command,
// though I'm unsure why. it seems like more data is streamed in to
// stdin after we close.
if (child && run.options.stdin && child.stdin && oldPid === child.pid) {
child.stdin.end();
}
callback();
});
}
} else if (!noRestart) {
// if there's no child, then we need to manually start the process
// this is because as there was no child, the child.on('exit') event
// handler doesn't exist which would normally trigger the restart.
bus.once('start', callback);
run.restart();
} else {
callback();
}
};
run.restart = noop;
bus.on('quit', function onQuit(code) {
if (code === undefined) {
code = 0;
}
// remove event listener
var exitTimer = null;
var exit = function () {
clearTimeout(exitTimer);
exit = noop; // null out in case of race condition
child = null;
if (!config.required) {
// Execute all other quit listeners.
bus.listeners('quit').forEach(function (listener) {
if (listener !== onQuit) {
listener();
}
});
process.exit(code);
} else {
bus.emit('exit');
}
};
// if we're not running already, don't bother with trying to kill
if (config.run === false) {
return exit();
}
// immediately try to stop any polling
config.run = false;
if (child) {
// give up waiting for the kids after 10 seconds
exitTimer = setTimeout(exit, 10 * 1000);
child.removeAllListeners('exit');
child.once('exit', exit);
kill(child, 'SIGINT');
} else {
exit();
}
});
bus.on('restart', function () {
// run.kill will send a SIGINT to the child process, which will cause it
// to terminate, which in turn uses the 'exit' event handler to restart
run.kill();
});
// remove the child file on exit
process.on('exit', function () {
utils.log.detail('exiting');
if (child) { child.kill(); }
});
// because windows borks when listening for the SIG* events
if (!utils.isWindows) {
bus.once('boot', () => {
// usual suspect: ctrl+c exit
process.once('SIGINT', () => bus.emit('quit', 130));
process.once('SIGTERM', () => {
bus.emit('quit', 143);
if (child) { child.kill('SIGTERM'); }
});
})
}
module.exports = run;

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node_modules/nodemon/lib/monitor/signals.js generated vendored Normal file
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module.exports = {
SIGHUP: 1,
SIGINT: 2,
SIGQUIT: 3,
SIGILL: 4,
SIGTRAP: 5,
SIGABRT: 6,
SIGBUS: 7,
SIGFPE: 8,
SIGKILL: 9,
SIGUSR1: 10,
SIGSEGV: 11,
SIGUSR2: 12,
SIGPIPE: 13,
SIGALRM: 14,
SIGTERM: 15,
SIGSTKFLT: 16,
SIGCHLD: 17,
SIGCONT: 18,
SIGSTOP: 19,
SIGTSTP: 20,
SIGTTIN: 21,
SIGTTOU: 22,
SIGURG: 23,
SIGXCPU: 24,
SIGXFSZ: 25,
SIGVTALRM: 26,
SIGPROF: 27,
SIGWINCH: 28,
SIGIO: 29,
SIGPWR: 30,
SIGSYS: 31,
SIGRTMIN: 35,
}

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node_modules/nodemon/lib/monitor/watch.js generated vendored Normal file
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module.exports.watch = watch;
module.exports.resetWatchers = resetWatchers;
var debug = require('debug')('nodemon:watch');
var debugRoot = require('debug')('nodemon');
var chokidar = require('chokidar');
var undefsafe = require('undefsafe');
var config = require('../config');
var path = require('path');
var utils = require('../utils');
var bus = utils.bus;
var match = require('./match');
var watchers = [];
var debouncedBus;
bus.on('reset', resetWatchers);
function resetWatchers() {
debugRoot('resetting watchers');
watchers.forEach(function (watcher) {
watcher.close();
});
watchers = [];
}
function watch() {
if (watchers.length) {
debug('early exit on watch, still watching (%s)', watchers.length);
return;
}
var dirs = [].slice.call(config.dirs);
debugRoot('start watch on: %s', dirs.join(', '));
const rootIgnored = config.options.ignore;
debugRoot('ignored', rootIgnored);
var watchedFiles = [];
const promise = new Promise(function (resolve) {
const dotFilePattern = /[/\\]\./;
var ignored = match.rulesToMonitor(
[], // not needed
Array.from(rootIgnored),
config
).map(pattern => pattern.slice(1));
const addDotFile = dirs.filter(dir => dir.match(dotFilePattern));
// don't ignore dotfiles if explicitly watched.
if (addDotFile.length === 0) {
ignored.push(dotFilePattern);
}
var watchOptions = {
ignorePermissionErrors: true,
ignored: ignored,
persistent: true,
usePolling: config.options.legacyWatch || false,
interval: config.options.pollingInterval,
// note to future developer: I've gone back and forth on adding `cwd`
// to the props and in some cases it fixes bugs but typically it causes
// bugs elsewhere (since nodemon is used is so many ways). the final
// decision is to *not* use it at all and work around it
// cwd: ...
};
if (utils.isWindows) {
watchOptions.disableGlobbing = true;
}
if (process.env.TEST) {
watchOptions.useFsEvents = false;
}
var watcher = chokidar.watch(
dirs,
Object.assign({}, watchOptions, config.options.watchOptions || {})
);
watcher.ready = false;
var total = 0;
watcher.on('change', filterAndRestart);
watcher.on('add', function (file) {
if (watcher.ready) {
return filterAndRestart(file);
}
watchedFiles.push(file);
bus.emit('watching', file);
debug('chokidar watching: %s', file);
});
watcher.on('ready', function () {
watchedFiles = Array.from(new Set(watchedFiles)); // ensure no dupes
total = watchedFiles.length;
watcher.ready = true;
resolve(total);
debugRoot('watch is complete');
});
watcher.on('error', function (error) {
if (error.code === 'EINVAL') {
utils.log.error(
'Internal watch failed. Likely cause: too many ' +
'files being watched (perhaps from the root of a drive?\n' +
'See https://github.com/paulmillr/chokidar/issues/229 for details'
);
} else {
utils.log.error('Internal watch failed: ' + error.message);
process.exit(1);
}
});
watchers.push(watcher);
});
return promise.catch(e => {
// this is a core error and it should break nodemon - so I have to break
// out of a promise using the setTimeout
setTimeout(() => {
throw e;
});
}).then(function () {
utils.log.detail(`watching ${watchedFiles.length} file${
watchedFiles.length === 1 ? '' : 's'}`);
return watchedFiles;
});
}
function filterAndRestart(files) {
if (!Array.isArray(files)) {
files = [files];
}
if (files.length) {
var cwd = process.cwd();
if (this.options && this.options.cwd) {
cwd = this.options.cwd;
}
utils.log.detail(
'files triggering change check: ' +
files
.map(file => {
const res = path.relative(cwd, file);
return res;
})
.join(', ')
);
// make sure the path is right and drop an empty
// filenames (sometimes on windows)
files = files.filter(Boolean).map(file => {
return path.relative(process.cwd(), path.relative(cwd, file));
});
if (utils.isWindows) {
// ensure the drive letter is in uppercase (c:\foo -> C:\foo)
files = files.map(f => {
if (f.indexOf(':') === -1) { return f; }
return f[0].toUpperCase() + f.slice(1);
});
}
debug('filterAndRestart on', files);
var matched = match(
files,
config.options.monitor,
undefsafe(config, 'options.execOptions.ext')
);
debug('matched?', JSON.stringify(matched));
// if there's no matches, then test to see if the changed file is the
// running script, if so, let's allow a restart
if (config.options.execOptions && config.options.execOptions.script) {
const script = path.resolve(config.options.execOptions.script);
if (matched.result.length === 0 && script) {
const length = script.length;
files.find(file => {
if (file.substr(-length, length) === script) {
matched = {
result: [file],
total: 1,
};
return true;
}
});
}
}
utils.log.detail(
'changes after filters (before/after): ' +
[files.length, matched.result.length].join('/')
);
// reset the last check so we're only looking at recently modified files
config.lastStarted = Date.now();
if (matched.result.length) {
if (config.options.delay > 0) {
utils.log.detail('delaying restart for ' + config.options.delay + 'ms');
if (debouncedBus === undefined) {
debouncedBus = debounce(restartBus, config.options.delay);
}
debouncedBus(matched);
} else {
return restartBus(matched);
}
}
}
}
function restartBus(matched) {
utils.log.status('restarting due to changes...');
matched.result.map(file => {
utils.log.detail(path.relative(process.cwd(), file));
});
if (config.options.verbose) {
utils.log._log('');
}
bus.emit('restart', matched.result);
}
function debounce(fn, delay) {
var timer = null;
return function () {
const context = this;
const args = arguments;
clearTimeout(timer);
timer = setTimeout(() =>fn.apply(context, args), delay);
};
}