chokidar vs fsevents vs gaze vs node-watch vs watch
File System Watchers
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File System Watchers

File system watcher libraries in Node.js provide tools for monitoring changes in the file system, such as modifications, additions, or deletions of files and directories. These libraries are essential for tasks like live-reloading during development, synchronizing files, or triggering actions based on file changes. They offer various levels of abstraction and performance optimizations, making it easier for developers to implement efficient file-watching functionality in their applications. chokidar is a fast and efficient watcher with support for large directories and various events, while fsevents is a macOS-specific library that leverages native file system events for optimal performance. gaze is a simple and flexible watcher that supports glob patterns, node-watch is a lightweight watcher with a minimal API, and watch is a basic watcher with a focus on simplicity and ease of use.

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chokidar70,259,51811,84982.1 kB33a month agoMIT
fsevents17,186,616568173 kB152 years agoMIT
gaze1,561,2171,154-688 years agoMIT
node-watch568,74134126.1 kB72 years agoMIT
watch545,2741,281-599 years agoApache-2.0
Feature Comparison: chokidar vs fsevents vs gaze vs node-watch vs watch

Cross-Platform Support

  • chokidar:

    chokidar provides excellent cross-platform support, making it a reliable choice for applications that need to run on Windows, macOS, and Linux. It handles platform-specific quirks and optimizes performance across different operating systems.

  • fsevents:

    fsevents is designed specifically for macOS and does not provide cross-platform support. It leverages macOS-native APIs for file system events, making it highly efficient on that platform but unusable on others.

  • gaze:

    gaze offers cross-platform support, allowing it to work on Windows, macOS, and Linux. It uses Node.js's built-in fs module for watching files, making it a versatile choice for multi-platform applications.

  • node-watch:

    node-watch is a cross-platform watcher that works on Windows, macOS, and Linux. It provides a simple API for watching files and directories, making it suitable for applications that need to run on multiple operating systems.

  • watch:

    watch supports cross-platform file watching, allowing it to function on Windows, macOS, and Linux. Its simplicity makes it a good choice for basic file-watching needs across different platforms.

Performance

  • chokidar:

    chokidar is known for its high performance and efficient handling of large directories. It uses native file system events where available and falls back to polling only when necessary, minimizing resource usage.

  • fsevents:

    fsevents offers the best performance for file watching on macOS by using native APIs. It is highly efficient and consumes minimal resources, making it ideal for applications that require fast and reliable file system event handling on macOS.

  • gaze:

    gaze provides decent performance for watching files and directories, but it may not be as efficient as chokidar for large-scale watching. It is suitable for smaller projects or applications where performance is not the primary concern.

  • node-watch:

    node-watch is lightweight and performs well for watching small to medium-sized directories. Its minimalistic approach ensures low overhead, making it a good choice for applications that need efficient watching without complex features.

  • watch:

    watch is a simple watcher that performs adequately for basic file-watching tasks. However, it may not be optimized for high-performance scenarios or large directories.

API Design

  • chokidar:

    chokidar offers a rich and intuitive API that supports various events such as add, change, and unlink. It allows for fine-grained control over watching behavior and provides options for debouncing, ignoring files, and more.

  • fsevents:

    fsevents provides a low-level API for accessing macOS file system events. It is designed for developers who need direct access to these events but may require more effort to integrate compared to higher-level watchers.

  • gaze:

    gaze has a simple API that supports watching files and directories using glob patterns. It allows for easy registration of event handlers and provides a straightforward interface for managing watchers.

  • node-watch:

    node-watch features a minimalistic API for watching files and directories. It is easy to use and requires little configuration, making it ideal for quick implementations.

  • watch:

    watch provides a basic API for watching files and directories. Its simplicity makes it easy to use, but it lacks advanced features and customization options.

Resource Usage

  • chokidar:

    chokidar is designed to be resource-efficient, using native file system events whenever possible to minimize CPU and memory usage. It only resorts to polling when necessary, which helps keep resource consumption low.

  • fsevents:

    fsevents is highly efficient in terms of resource usage on macOS, as it leverages native APIs for file system events. This makes it a lightweight option for applications that need to monitor file changes without significant overhead.

  • gaze:

    gaze uses Node.js's fs module for watching files, which can lead to higher resource usage compared to native event-based watchers. However, it is generally suitable for small to medium-sized projects.

  • node-watch:

    node-watch is lightweight and has low resource usage, making it a good choice for applications that need to watch files without consuming significant system resources.

  • watch:

    watch is a simple watcher that uses minimal resources, but it may not be optimized for large-scale watching or high-frequency file changes.

Ease of Use: Code Examples

  • chokidar:

    chokidar provides clear and comprehensive documentation, making it easy for developers to understand and use its features. Its API is well-designed, with examples that demonstrate common use cases.

  • fsevents:

    fsevents has documentation that explains its macOS-specific functionality, but it may be more challenging for developers unfamiliar with native file system events. It is best suited for those with experience in macOS development.

  • gaze:

    gaze offers straightforward documentation and examples, making it easy to use for developers who need a simple file-watching solution. Its support for glob patterns is well-documented.

  • node-watch:

    node-watch has simple documentation that highlights its minimalistic API. It is easy to understand and use, especially for developers looking for a quick and lightweight watcher.

  • watch:

    watch provides basic documentation that covers its core functionality. Its simplicity makes it easy to use, but it may lack detailed examples and advanced usage guidelines.

Ease of Use: Code Examples

  • chokidar:

    chokidar is easy to use for both simple and complex file-watching tasks. Its intuitive API and comprehensive feature set make it a popular choice for developers of all skill levels.

  • fsevents:

    fsevents is easy to use for developers familiar with macOS file system events. However, it may require additional effort to integrate into applications compared to higher-level watchers.

  • gaze:

    gaze is user-friendly and easy to implement, especially for projects that require simple file watching with support for glob patterns. Its API is straightforward, making it accessible to developers.

  • node-watch:

    node-watch is very easy to use, with a simple API that allows for quick implementation of file-watching functionality. It is ideal for developers who need a no-frills solution.

  • watch:

    watch is easy to use for basic file-watching needs. Its simplicity makes it accessible to developers, but it may not be suitable for more complex scenarios.

Code Example

  • chokidar:

    chokidar example

    const chokidar = require('chokidar');

// Initialize watcher
const watcher = chokidar.watch('path/to/dir', {
  ignored: /(^|[\/\\])\../, // Ignore dotfiles
  persistent: true
});

// Add event listeners
watcher
  .on('add', path => console.log(`File ${path} has been added`))
  .on('change', path => console.log(`File ${path} has been changed`))
  .on('unlink', path => console.log(`File ${path} has been removed`));
  • fsevents:

    fsevents example

    const { watch } = require('fsevents');

// Watch a directory for changes
const stop = watch('path/to/dir', (path, flags) => {
  const info = watch.getInfo(flags);
  console.log(`File ${path} has been ${info.event}`);
});

// To stop watching
// stop();
  • gaze:

    gaze example

    const Gaze = require('gaze');

// Watch files using glob patterns
gaze('path/to/dir/**/*.js', (err, watcher) => {
  if (err) throw err;

  // Listen for file additions
  watcher.on('added', filepath => {
    console.log(`File ${filepath} has been added`);
  });

  // Listen for file changes
  watcher.on('changed', filepath => {
    console.log(`File ${filepath} has been changed`);
  });

  // Listen for file deletions
  watcher.on('deleted', filepath => {
    console.log(`File ${filepath} has been deleted`);
  });
});
  • node-watch:

    node-watch example

    const watch = require('node-watch');

// Watch a directory for changes
watch('path/to/dir', { recursive: true }, (evt, name) => {
  if (evt === 'update') console.log(`File ${name} has been updated`);
  if (evt === 'remove') console.log(`File ${name} has been removed`);
});
  • watch:

    watch example

    const watch = require('watch');

// Watch a directory for changes
watch.watchTree('path/to/dir', (f, curr, prev) => {
  if (typeof f === 'object' && prev === null && curr === null) {
    console.log('Watching directory for changes...');
  } else if (prev === null) {
    console.log(`File ${f} has been added`);
  } else if (curr.nlink === 0) {
    console.log(`File ${f} has been removed`);
  } else {
    console.log(`File ${f} has been modified`);
  }
});
How to Choose: chokidar vs fsevents vs gaze vs node-watch vs watch
  • chokidar:

    Choose chokidar if you need a reliable and efficient watcher that works across platforms and handles large directories with ease. It is particularly useful for projects that require robust file-watching capabilities with minimal resource usage.

  • fsevents:

    Choose fsevents if you are developing exclusively for macOS and want to leverage native file system events for the best performance. This library is ideal for applications that need high-performance watching on macOS but do not require cross-platform support.

  • gaze:

    Choose gaze if you need a simple watcher that supports glob patterns and allows for easy customization. It is suitable for projects that require flexible watching capabilities without a lot of overhead.

  • node-watch:

    Choose node-watch if you need a lightweight and straightforward watcher with a minimal API. It is ideal for small projects or scripts where simplicity and low resource usage are important.

  • watch:

    Choose watch if you need a basic watcher that is easy to use and does not require complex configuration. It is suitable for simple applications that need to monitor file changes without advanced features.

Similar Npm Packages to chokidar

chokidar is a popular file-watching library for Node.js applications. It provides a simple and efficient way to monitor file changes in real-time, making it an essential tool for tasks such as live reloading during development, automated build processes, and file synchronization. Chokidar is known for its performance and reliability, as it uses native file system events to minimize resource usage while maintaining accuracy.

While chokidar is a robust choice for file watching, there are several alternatives available in the Node.js ecosystem. Here are a few noteworthy options:

  • gaze is a file-watching library that provides a simple API for monitoring file changes. It supports glob patterns, allowing users to watch multiple files or directories easily. Gaze is particularly useful for projects that require a straightforward solution for file watching without the need for advanced features. Its simplicity makes it a good choice for smaller projects or scripts where minimal configuration is desired.

  • node-watch is another lightweight file-watching library for Node.js. It provides a simple interface for monitoring changes to files and directories, and it can handle both file additions and deletions. Node-watch is easy to set up and can be a good alternative for developers looking for a minimalistic solution without the overhead of more complex libraries.

  • sane is a file-watching library that focuses on performance and efficiency. It uses a polling mechanism to watch files, which can be beneficial in certain scenarios where native file system events may not be reliable. Sane is particularly useful for projects that require compatibility across different operating systems or environments where file system events may behave inconsistently.

  • watchpack is a file-watching library that is often used in conjunction with build tools like Webpack. It provides a more advanced API for monitoring file changes and is designed to work efficiently with large codebases. Watchpack is ideal for developers who need a powerful solution for file watching in complex build systems and want to leverage its integration with other tools.

To explore how chokidar compares with its alternatives, check out the comparison: Comparing chokidar vs gaze vs node-watch vs sane vs watchpack.

Similar Npm Packages to fsevents

fsevents is a native Node.js module that provides an interface for file system events on macOS. It allows developers to listen for changes in the file system, such as file creation, modification, and deletion, making it particularly useful for applications that need to monitor directories for changes. While fsevents is a powerful tool for macOS users, there are several alternatives that can be used across different platforms or provide additional features. Here are a few notable alternatives:

  • chokidar is a popular file watching library for Node.js that is built on top of the native file system events. It provides a simple and efficient API for watching files and directories, and it works across different operating systems, including macOS, Windows, and Linux. Chokidar is known for its performance and reliability, making it an excellent choice for applications that require robust file watching capabilities.
  • fs-extra is an extension of the built-in Node.js fs module that adds additional file system methods and functionality. While it does not provide file watching capabilities out of the box, it can be used in conjunction with other libraries like chokidar to enhance file system operations. If you need a comprehensive file system utility library that includes methods for copying, moving, and removing files, fs-extra is a great choice.
  • gaze is another file watching library that provides a simple API for watching files and directories. It supports multiple platforms and can be used to monitor changes in files, triggering events when modifications occur. Gaze is particularly useful for projects that require a straightforward file watching solution without the overhead of more complex libraries.
  • node-watch is a lightweight file watching library that allows you to monitor changes in files and directories. It is easy to use and works across different operating systems. Node-watch is suitable for projects that require basic file watching functionality without additional features or complexity.
  • watchpack is a file watching library that is designed for use with Webpack. It provides a more advanced file watching solution, allowing for efficient monitoring of file changes in large projects. If you are using Webpack for your build process and need a robust file watching solution, watchpack is a great option.

For a detailed comparison of these packages, check out the link: Comparing chokidar vs fs-extra vs fsevents vs gaze vs node-watch vs watchpack.

Similar Npm Packages to gaze

gaze is a file watching library for Node.js that allows developers to monitor file changes in a directory. It is particularly useful for tasks such as automatically rebuilding projects, reloading servers, or triggering other actions when files are modified. While gaze is a solid choice for file watching, there are several alternatives available that provide similar functionality. Here are a few noteworthy options:

  • chokidar is a widely used file watching library that is known for its performance and efficiency. It uses native file system events to provide a more reliable and faster experience compared to other libraries. Chokidar is capable of watching large directories and can handle a variety of file system events, making it a popular choice for projects that require robust file watching capabilities. If you need a reliable and efficient solution for monitoring file changes, chokidar is an excellent option.
  • node-watch is another lightweight file watching library for Node.js. It provides a simple API for watching files and directories, and it supports both synchronous and asynchronous file change detection. Node-watch is easy to set up and can be a good choice for smaller projects or for developers who prefer a minimalistic approach to file watching.
  • nodemon is a utility that monitors for changes in your Node.js application and automatically restarts the server when file changes are detected. While it is primarily used for development purposes, nodemon can also be considered a file watching tool. It is particularly useful for developers who want to streamline their workflow by automatically restarting their applications during development.
  • watch is a simple file watching library that provides basic functionality for monitoring file changes. It is lightweight and easy to use, making it suitable for smaller projects or for developers who need a straightforward solution without additional complexity.

To see how gaze compares with chokidar, node-watch, nodemon, and watch, check out the comparison: Comparing chokidar vs gaze vs node-watch vs nodemon vs watch.

Similar Npm Packages to node-watch

node-watch is a simple and efficient file watching library for Node.js applications. It allows developers to monitor changes in the filesystem, such as file additions, deletions, and modifications, enabling automated tasks like rebuilding, reloading, or executing scripts in response to these changes. While node-watch is a solid choice for file watching, there are several alternatives available that offer similar or enhanced functionality. Here are a few noteworthy options:

  • chokidar is a popular file watching library that provides a more robust and feature-rich alternative to node-watch. It is built on top of the native file watching APIs and offers better performance and reliability. Chokidar supports a wide range of features, including debounce and throttle options, ignoring specific files or directories, and handling large directories efficiently. If you need a powerful and flexible file watcher for your Node.js applications, chokidar is an excellent choice.
  • gaze is another file watching library that focuses on simplicity and ease of use. It allows you to watch files and directories for changes and execute callbacks when changes occur. Gaze is particularly useful for smaller projects or when you need a straightforward solution without the additional complexity of more feature-rich libraries. If you want a lightweight option for file watching, gaze is worth considering.
  • nodemon is primarily a development tool that automatically restarts your Node.js application when file changes are detected. While it is not a dedicated file watching library like node-watch, it leverages file watching capabilities to enhance the development experience. Nodemon is particularly useful for Node.js developers who want to streamline their workflow by automatically reloading their applications during development.
  • sane is a file watching library that aims to provide a simple and efficient solution for monitoring file changes. It uses a polling mechanism to detect changes, making it suitable for environments where native file watching APIs may not be available or reliable. If you need a straightforward file watcher that works across various platforms, sane is a good option.
  • watch is a minimalistic file watching library that provides a simple API for monitoring file changes. It is designed to be lightweight and easy to use, making it suitable for smaller projects or scripts where you need basic file watching functionality without additional overhead.

To explore how these libraries compare, check out the comparison: Comparing chokidar vs gaze vs node-watch vs nodemon vs sane vs watch.

Similar Npm Packages to watch

watch is a simple file watching library for Node.js applications. It allows developers to monitor changes in files and directories, triggering specified actions when changes are detected. While watch provides a straightforward solution for file watching, there are several alternatives in the Node.js ecosystem that offer additional features or improved performance. Here are a few notable alternatives:

  • chokidar is a highly efficient file watcher that is built on top of the native file watching capabilities of the operating system. It provides a rich API and is known for its performance and reliability. chokidar is particularly useful for applications that require real-time file watching, such as build tools or development servers. Its ability to handle large numbers of files and directories with minimal overhead makes it a popular choice among developers.
  • fsevents is a native file system event listener for macOS, specifically designed to provide efficient file watching capabilities on Apple’s operating system. It leverages the native file system events API, making it extremely fast and efficient for monitoring changes in files and directories. While fsevents is macOS-specific, it is often used in conjunction with other libraries to provide cross-platform file watching capabilities.
  • gaze is another file watching library that offers a simple API for monitoring file changes. It supports multiple file patterns and can watch files in subdirectories. gaze is particularly useful for projects that require a straightforward solution for file watching without the complexity of more advanced libraries. Its ease of use makes it a good choice for smaller projects or scripts.
  • node-watch is a minimalistic file watching library for Node.js that provides a simple API for monitoring file changes. It is lightweight and easy to use, making it suitable for projects that need basic file watching capabilities without additional overhead. node-watch is a good option for developers looking for a straightforward solution without the need for advanced features.

To compare these packages, check out the link: Comparing chokidar vs fsevents vs gaze vs node-watch vs watch.

README for chokidar

Chokidar Weekly downloads

Minimal and efficient cross-platform file watching library

Why?

There are many reasons to prefer Chokidar to raw fs.watch / fs.watchFile in 2026:

  • Events are properly reported
    • macOS events report filenames
    • events are not reported twice
    • changes are reported as add / change / unlink instead of useless rename
  • Atomic writes are supported, using atomic option
    • Some file editors use them
  • Chunked writes are supported, using awaitWriteFinish option
    • Large files are commonly written in chunks
  • File / dir filtering is supported
  • Symbolic links are supported
  • Recursive watching is always supported, instead of partial when using raw events
    • Includes a way to limit recursion depth

Chokidar relies on the Node.js core fs module, but when using fs.watch and fs.watchFile for watching, it normalizes the events it receives, often checking for truth by getting file stats and/or dir contents. The fs.watch-based implementation is the default, which avoids polling and keeps CPU usage down. Be advised that chokidar will initiate watchers recursively for everything within scope of the paths that have been specified, so be judicious about not wasting system resources by watching much more than needed. For some cases, fs.watchFile, which utilizes polling and uses more resources, is used.

Made for Brunch in 2012, it is now used in ~30 million repositories and has proven itself in production environments.

  • Nov 2025 update: v5 is out. Makes package ESM-only and increases minimum node.js requirement to v20.
  • Sep 2024 update: v4 is out! It decreases dependency count from 13 to 1, removes support for globs, adds support for ESM / Common.js modules, and bumps minimum node.js version from v8 to v14. Check out upgrading.

Getting started

Install with npm:

npm install chokidar

Use it in your code:

import chokidar from 'chokidar';

// One-liner for current directory
chokidar.watch('.').on('all', (event, path) => {
  console.log(event, path);
});

// Extended options
// ----------------

// Initialize watcher.
const watcher = chokidar.watch('file, dir, or array', {
  ignored: (path, stats) => stats?.isFile() && !path.endsWith('.js'), // only watch js files
  persistent: true,
});

// Something to use when events are received.
const log = console.log.bind(console);
// Add event listeners.
watcher
  .on('add', (path) => log(`File ${path} has been added`))
  .on('change', (path) => log(`File ${path} has been changed`))
  .on('unlink', (path) => log(`File ${path} has been removed`));

// More possible events.
watcher
  .on('addDir', (path) => log(`Directory ${path} has been added`))
  .on('unlinkDir', (path) => log(`Directory ${path} has been removed`))
  .on('error', (error) => log(`Watcher error: ${error}`))
  .on('ready', () => log('Initial scan complete. Ready for changes'))
  .on('raw', (event, path, details) => {
    // internal
    log('Raw event info:', event, path, details);
  });

// 'add', 'addDir' and 'change' events also receive stat() results as second
// argument when available: https://nodejs.org/api/fs.html#fs_class_fs_stats
watcher.on('change', (path, stats) => {
  if (stats) console.log(`File ${path} changed size to ${stats.size}`);
});

// Watch new files.
watcher.add('new-file');
watcher.add(['new-file-2', 'new-file-3']);

// Get list of actual paths being watched on the filesystem
let watchedPaths = watcher.getWatched();

// Un-watch some files.
await watcher.unwatch('new-file');

// Stop watching. The method is async!
await watcher.close().then(() => console.log('closed'));

// Full list of options. See below for descriptions.
// Do not use this example!
chokidar.watch('file', {
  persistent: true,

  // ignore .txt files
  ignored: (file) => file.endsWith('.txt'),
  // watch only .txt files
  // ignored: (file, _stats) => _stats?.isFile() && !file.endsWith('.txt'),

  awaitWriteFinish: true, // emit single event when chunked writes are completed
  atomic: true, // emit proper events when "atomic writes" (mv _tmp file) are used

  // The options also allow specifying custom intervals in ms
  // awaitWriteFinish: {
  //   stabilityThreshold: 2000,
  //   pollInterval: 100
  // },
  // atomic: 100,

  interval: 100,
  binaryInterval: 300,

  cwd: '.',
  depth: 99,

  followSymlinks: true,
  ignoreInitial: false,
  ignorePermissionErrors: false,
  usePolling: false,
  alwaysStat: false,
});

chokidar.watch(paths, [options])

  • paths (string or array of strings). Paths to files, dirs to be watched recursively.
  • options (object) Options object as defined below:

Persistence

  • persistent (default: true). Indicates whether the process should continue to run as long as files are being watched.

Path filtering

  • ignored function, regex, or path. Defines files/paths to be ignored. The whole relative or absolute path is tested, not just filename. If a function with two arguments is provided, it gets called twice per path - once with a single argument (the path), second time with two arguments (the path and the fs.Stats object of that path).
  • ignoreInitial (default: false). If set to false then add/addDir events are also emitted for matching paths while instantiating the watching as chokidar discovers these file paths (before the ready event).
  • followSymlinks (default: true). When false, only the symlinks themselves will be watched for changes instead of following the link references and bubbling events through the link's path.
  • cwd (no default). The base directory from which watch paths are to be derived. Paths emitted with events will be relative to this.

Performance

  • usePolling (default: false). Whether to use fs.watchFile (backed by polling), or fs.watch. If polling leads to high CPU utilization, consider setting this to false. It is typically necessary to set this to true to successfully watch files over a network, and it may be necessary to successfully watch files in other non-standard situations. Setting to true explicitly on MacOS overrides the useFsEvents default. You may also set the CHOKIDAR_USEPOLLING env variable to true (1) or false (0) in order to override this option.
  • Polling-specific settings (effective when usePolling: true)
    • interval (default: 100). Interval of file system polling, in milliseconds. You may also set the CHOKIDAR_INTERVAL env variable to override this option.
    • binaryInterval (default: 300). Interval of file system polling for binary files. (see list of binary extensions)
  • alwaysStat (default: false). If relying upon the fs.Stats object that may get passed with add, addDir, and change events, set this to true to ensure it is provided even in cases where it wasn't already available from the underlying watch events.
  • depth (default: undefined). If set, limits how many levels of subdirectories will be traversed.
  • awaitWriteFinish (default: false). By default, the add event will fire when a file first appears on disk, before the entire file has been written. Furthermore, in some cases some change events will be emitted while the file is being written. In some cases, especially when watching for large files there will be a need to wait for the write operation to finish before responding to a file creation or modification. Setting awaitWriteFinish to true (or a truthy value) will poll file size, holding its add and change events until the size does not change for a configurable amount of time. The appropriate duration setting is heavily dependent on the OS and hardware. For accurate detection this parameter should be relatively high, making file watching much less responsive. Use with caution.
    • options.awaitWriteFinish can be set to an object in order to adjust timing params:
    • awaitWriteFinish.stabilityThreshold (default: 2000). Amount of time in milliseconds for a file size to remain constant before emitting its event.
    • awaitWriteFinish.pollInterval (default: 100). File size polling interval, in milliseconds.

Errors

  • ignorePermissionErrors (default: false). Indicates whether to watch files that don't have read permissions if possible. If watching fails due to EPERM or EACCES with this set to true, the errors will be suppressed silently.
  • atomic (default: true if useFsEvents and usePolling are false). Automatically filters out artifacts that occur when using editors that use "atomic writes" instead of writing directly to the source file. If a file is re-added within 100 ms of being deleted, Chokidar emits a change event rather than unlink then add. If the default of 100 ms does not work well for you, you can override it by setting atomic to a custom value, in milliseconds.

Methods & Events

chokidar.watch() produces an instance of FSWatcher. Methods of FSWatcher:

  • .add(path / paths): Add files, directories for tracking. Takes an array of strings or just one string.
  • .on(event, callback): Listen for an FS event. Available events: add, addDir, change, unlink, unlinkDir, ready, raw, error. Additionally all is available which gets emitted with the underlying event name and path for every event other than ready, raw, and error. raw is internal, use it carefully.
  • .unwatch(path / paths): Stop watching files or directories. Takes an array of strings or just one string.
  • .close(): async Removes all listeners from watched files. Asynchronous, returns Promise. Use with await to ensure bugs don't happen.
  • .getWatched(): Returns an object representing all the paths on the file system being watched by this FSWatcher instance. The object's keys are all the directories (using absolute paths unless the cwd option was used), and the values are arrays of the names of the items contained in each directory.

CLI

Check out third party chokidar-cli, which allows to execute a command on each change, or get a stdio stream of change events.

Troubleshooting

Sometimes, Chokidar runs out of file handles, causing EMFILE and ENOSP errors:

  • bash: cannot set terminal process group (-1): Inappropriate ioctl for device bash: no job control in this shell
  • Error: watch /home/ ENOSPC

There are two things that can cause it.

  1. Exhausted file handles for generic fs operations
    • Can be solved by using graceful-fs, which can monkey-patch native fs module used by chokidar: let fs = require('fs'); let grfs = require('graceful-fs'); grfs.gracefulify(fs);
    • Can also be solved by tuning OS: echo fs.inotify.max_user_watches=524288 | sudo tee -a /etc/sysctl.conf && sudo sysctl -p.
  2. Exhausted file handles for fs.watch
    • Can't seem to be solved by graceful-fs or OS tuning
    • It's possible to start using usePolling: true, which will switch backend to resource-intensive fs.watchFile

All fsevents-related issues (WARN optional dep failed, fsevents is not a constructor) are solved by upgrading to v4+.

Changelog

  • v4 (Sep 2024): remove glob support and bundled fsevents. Decrease dependency count from 13 to 1. Rewrite in typescript. Bumps minimum node.js requirement to v14+
  • v3 (Apr 2019): massive CPU & RAM consumption improvements; reduces deps / package size by a factor of 17x and bumps Node.js requirement to v8.16+.
  • v2 (Dec 2017): globs are now posix-style-only. Tons of bugfixes.
  • v1 (Apr 2015): glob support, symlink support, tons of bugfixes. Node 0.8+ is supported
  • v0.1 (Apr 2012): Initial release, extracted from Brunch

Upgrading

If you've used globs before and want do replicate the functionality with v4:

// v3
chok.watch('**/*.js');
chok.watch('./directory/**/*');

// v4
chok.watch('.', {
  ignored: (path, stats) => stats?.isFile() && !path.endsWith('.js'), // only watch js files
});
chok.watch('./directory');

// other way
import { glob } from 'node:fs/promises';
const watcher = watch(await Array.fromAsync(glob('**/*.js')));

// unwatching
// v3
chok.unwatch('**/*.js');
// v4
chok.unwatch(await Array.fromAsync(glob('**/*.js')));

Also

Why was chokidar named this way? What's the meaning behind it?

Chowkidar is a transliteration of a Hindi word meaning 'watchman, gatekeeper', चौकीदार. This ultimately comes from Sanskrit _ चतुष्क_ (crossway, quadrangle, consisting-of-four). This word is also used in other languages like Urdu as (چوکیدار) which is widely used in Pakistan and India.

License

MIT (c) Paul Miller (https://paulmillr.com), see LICENSE file.

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