test
Ableton.js lets you control your instance or instances of Ableton using Node.js. It tries to cover as many functions as possible.
This package is still a work-in-progress. My goal is to expose all of Ableton's MIDI Remote Script functions to TypeScript. If you'd like to contribute, please feel free to do so.
I've used Ableton.js to build a setlist manager called AbleSet. AbleSet allows you to easily manage and control your Ableton setlists from any device, re-order songs and add notes to them, and get an overview of the current state of your set.
To use this library, you'll need to install and activate the MIDI Remote Script
in Ableton.js. To do that, copy the midi-script
folder of this repo to
Ableton's Remote Scripts folder and rename it to AbletonJS
. The MIDI Remote
Scripts folder is usually located at:
- Windows: {path to Ableton}\Resources\MIDI\Remote Scripts
- macOS: /Applications/Ableton Live {version}/Contents/App-Resources/MIDI Remote Scripts
After starting Ableton Live, add the script to your list of control surfaces:
If you've forked this project on macOS, you can also use yarn to do that for
you. Running yarn ableton:start
will copy the midi-script
folder, open
Ableton and show a stream of log messages until you kill it.
This library exposes an Ableton
class which lets you control the entire
application. You can instantiate it once and use TS to explore available
features.
Example:
import { Ableton } from "ableton-js";
const ableton = new Ableton();
const test = async () => {
// Establishes a connection with Live
await ableton.start();
// Observe the current playback state and tempo
ableton.song.addListener("is_playing", (p) => console.log("Playing:", p));
ableton.song.addListener("tempo", (t) => console.log("Tempo:", t));
// Get the current tempo
const tempo = await ableton.song.get("tempo");
console.log(tempo);
// Set the tempo
await ableton.song.set("tempo", 85);
};
test();
There are a few events you can use to get more under-the-hood insights:
// A connection to Ableton is established
ab.on("connect", (e) => console.log("Connect", e));
// Connection to Ableton was lost,
// also happens when you load a new project
ab.on("disconnect", (e) => console.log("Disconnect", e));
// A raw message was received from Ableton
ab.on("message", (m) => console.log("Message:", m));
// A received message could not be parsed
ab.on("error", (e) => console.error("Error:", e));
// Fires on every response with the current ping
ab.on("ping", (ping) => console.log("Ping:", ping, "ms"));
Ableton.js uses UDP to communicate with the MIDI Script. Each message is a JSON object containing required data and a UUID so request and response can be associated with each other.
Both the client and the server bind to a random available port and store that port in a local file so the other side knows which port to send messages to.
To allow sending large JSON payloads, requests to and responses from the MIDI Script are compressed using gzip and chunked every 7500 bytes. The first byte of every message contains the chunk index (0x00-0xFF) followed by the gzipped chunk. The last chunk always has the index 0xFF. This indicates to the JS library that the previous received messages should be stiched together, unzipped, and processed.
Certain props are cached on the client to reduce the bandwidth over UDP. To do this, the Ableton plugin generates an MD5 hash of the prop, called ETag, and sends it to the client along with the data.
The client stores both the ETag and the data in an LRU cache and sends the latest stored ETag to the plugin the next time the same prop is requested. If the data still matches the ETag, the plugin responds with a placeholder object and the client returns the cached data.
A command payload consists of the following properties:
{
"uuid": "a20f25a0-83e2-11e9-bbe1-bd3a580ef903", // A unique command id
"ns": "song", // The command namespace
"nsid": null, // The namespace id, for example to address a specific track or device
"name": "get_prop", // Command name
"args": { "prop": "current_song_time" }, // Command arguments
"etag": "4e0794e44c7eb58bdbbbf7268e8237b4", // MD5 hash of the data if it might be cached locally
"cache": true // If this is true, the plugin will calculate an etag and return a placeholder if it matches the provided one
}
The MIDI Script answers with a JSON object looking like this:
{
"data": 0.0, // The command's return value, can be of any JSON-compatible type
"event": "result", // This can be 'result' or 'error'
"uuid": "a20f25a0-83e2-11e9-bbe1-bd3a580ef903" // The same UUID that was used to send the command
}
If you're getting a cached prop, the JSON object could look like this:
{
"data": { "data": 0.0, "etag": "4e0794e44c7eb58bdbbbf7268e8237b4" },
"event": "result", // This can be 'result' or 'error'
"uuid": "a20f25a0-83e2-11e9-bbe1-bd3a580ef903" // The same UUID that was used to send the command
}
Or, if the data hasn't changed, it looks like this:
{
"data": { "__cached": true },
"event": "result", // This can be 'result' or 'error'
"uuid": "a20f25a0-83e2-11e9-bbe1-bd3a580ef903" // The same UUID that was used to send the command
}
To attach an event listener to a specific property, the client sends a command object:
{
"uuid": "922d54d0-83e3-11e9-ba7c-917478f8b91b", // A unique command id
"ns": "song", // The command namespace
"name": "add_listener", // The command to add an event listener
"args": {
"prop": "current_song_time", // The property that should be watched
"eventId": "922d2dc0-83e3-11e9-ba7c-917478f8b91b" // A unique event id
}
}
The MIDI Script answers with a JSON object looking like this to confirm that the listener has been attached:
{
"data": "922d2dc0-83e3-11e9-ba7c-917478f8b91b", // The unique event id
"event": "result", // Should be result, is error when something goes wrong
"uuid": "922d54d0-83e3-11e9-ba7c-917478f8b91b" // The unique command id
}
From now on, when the observed property changes, the MIDI Script sends an event object:
{
"data": 68.0, // The new value, can be any JSON-compatible type
"event": "922d2dc0-83e3-11e9-ba7c-917478f8b91b", // The event id
"uuid": null // Is always null and may be removed in future versions
}
Note that for some values, this event is emitted multiple times per second. 20-30 updates per second are not unusual.
The MIDI Script sends events when it starts and when it shuts down. These look like this:
{
"data": null, // Is always null
"event": "connect", // Can be connect or disconnect
"uuid": null // Is always null and may be removed in future versions
}
When you open a new Project in Ableton, the script will shut down and start again.
When Ableton.js receives a disconnect event, it clears all current event
listeners and pending commands. It is usually a good idea to attach all event
listeners and get properties each time the connect
event is emitted.
In this section, I'll note interesting pieces of information related to Ableton's Python framework that I stumble upon during the development of this library.