Repackaged version of @parcel/watcher
This is a convenience package that will install all prebuilds for all supported platforms, to the contrary to the upstream package that constraint the installation only to the runtime platform (os/cpu). This typically enable cross building an Electron application.
A native C++ Node module for querying and subscribing to filesystem events. Used by Parcel 2.
- Watch - subscribe to realtime recursive directory change notifications when files or directories are created, updated, or deleted.
- Query - performantly query for historical change events in a directory, even when your program is not running.
- Native - implemented in C++ for performance and low-level integration with the operating system.
- Cross platform - includes backends for macOS, Linux, Windows, FreeBSD, and Watchman.
-
Performant - events are throttled in C++ so the JavaScript thread is not overwhelmed during large filesystem changes (e.g.
git checkout
ornpm install
). - Scalable - tens of thousands of files can be watched or queried at once with good performance.
const watcher = require('@parcel/watcher');
const path = require('path');
// Subscribe to events
let subscription = await watcher.subscribe(process.cwd(), (err, events) => {
console.log(events);
});
// later on...
await subscription.unsubscribe();
// Get events since some saved snapshot in the past
let snapshotPath = path.join(process.cwd(), 'snapshot.txt');
let events = await watcher.getEventsSince(process.cwd(), snapshotPath);
// Save a snapshot for later
await watcher.writeSnapshot(process.cwd(), snapshotPath);
@parcel/watcher
supports subscribing to realtime notifications of changes in a directory. It works recursively, so changes in sub-directories will also be emitted.
Events are throttled and coalesced for performance during large changes like git checkout
or npm install
, and a single notification will be emitted with all of the events at the end.
Only one notification will be emitted per file. For example, if a file was both created and updated since the last event, you'll get only a create
event. If a file is both created and deleted, you will not be notifed of that file. Renames cause two events: a delete
for the old name, and a create
for the new name.
let subscription = await watcher.subscribe(process.cwd(), (err, events) => {
console.log(events);
});
Events have two properties:
-
type
- the event type:create
,update
, ordelete
. -
path
- the absolute path to the file or directory.
To unsubscribe from change notifications, call the unsubscribe
method on the returned subscription object.
await subscription.unsubscribe();
@parcel/watcher
has the following watcher backends, listed in priority order:
- FSEvents on macOS
- Watchman if installed
- inotify on Linux
- ReadDirectoryChangesW on Windows
- kqueue on FreeBSD, or as an alternative to FSEvents on macOS
You can specify the exact backend you wish to use by passing the backend
option. If that backend is not available on the current platform, the default backend will be used instead. See below for the list of backend names that can be passed to the options.
@parcel/watcher
also supports querying for historical changes made in a directory, even when your program is not running. This makes it easy to invalidate a cache and re-build only the files that have changed, for example. It can be significantly faster than traversing the entire filesystem to determine what files changed, depending on the platform.
In order to query for historical changes, you first need a previous snapshot to compare to. This can be saved to a file with the writeSnapshot
function, e.g. just before your program exits.
await watcher.writeSnapshot(dirPath, snapshotPath);
When your program starts up, you can query for changes that have occurred since that snapshot using the getEventsSince
function.
let events = await watcher.getEventsSince(dirPath, snapshotPath);
The events returned are exactly the same as the events that would be passed to the subscribe
callback (see above).
@parcel/watcher
has the following watcher backends, listed in priority order:
- FSEvents on macOS
- Watchman if installed
- fts (brute force) on Linux and FreeBSD
- FindFirstFile (brute force) on Windows
The FSEvents (macOS) and Watchman backends are significantly more performant than the brute force backends used by default on Linux and Windows, for example returning results in miliseconds instead of seconds for large directory trees. This is because a background daemon monitoring filesystem changes on those platforms allows us to query cached data rather than traversing the filesystem manually (brute force).
macOS has good performance with FSEvents by default. For the best performance on other platforms, install Watchman and it will be used by @parcel/watcher
automatically.
You can specify the exact backend you wish to use by passing the backend
option. If that backend is not available on the current platform, the default backend will be used instead. See below for the list of backend names that can be passed to the options.
All of the APIs in @parcel/watcher
support the following options, which are passed as an object as the last function argument.
-
ignore
- an array of paths or glob patterns to ignore. usesis-glob
to distinguish paths from globs. glob patterns are parsed withmicromatch
(see features).- paths can be relative or absolute and can either be files or directories. No events will be emitted about these files or directories or their children.
- glob patterns match on relative paths from the root that is watched. No events will be emitted for matching paths.
-
backend
- the name of an explicitly chosen backend to use. Allowed options are"fs-events"
,"watchman"
,"inotify"
,"kqueue"
,"windows"
, or"brute-force"
(only for querying). If the specified backend is not available on the current platform, the default backend will be used instead.
The @parcel/watcher-wasm
package can be used in place of @parcel/watcher
on unsupported platforms. It relies on the Node fs
module, so in non-Node environments such as browsers, an fs
polyfill will be needed.
Note: the WASM implementation is significantly less efficient than the native implementations because it must crawl the file system to watch each directory individually. Use the native @parcel/watcher
package wherever possible.
import {subscribe} from '@parcel/watcher-wasm';
// Use the module as documented above.
subscribe(/* ... */);
MIT