Embed node.js as an unreal plugin. This enables you to embed cool things like: https://www.npmjs.com/.
Want to control unreal with javascript? consider using UnrealJs which is much more feature-rich. This plugin instead focuses on bringing node.js and npm api on background threads.
Currently in an early working state, may have bugs!
Novelty example controlling boxes using javascript with live reload in an async loop which shows upward of ~20k messages/sec not impacting game thread.
Got questions or problems? post to https://github.com/getnamo/NodeJs-Unreal/issues
or discuss in the Unreal forum thread
A lot of really useful programming solutions exist for node.js; all the npm modules can now be used with unreal. A small sample of possibilities:
Great native support for http and embedding simple servers. You could for example run a local embedded webserver and serve that webpage as a UI using e.g. https://github.com/getnamo/BLUI
- Websocket https://www.npmjs.com/package/ws
- WebRTC https://www.npmjs.com/package/simple-peer
- Socket.io server https://www.npmjs.com/package/socket.io
- email https://www.npmjs.com/package/nodemailer
- RSync https://www.npmjs.com/package/rsync
You can e.g. embed any other bat or commandline executable and parse args to control
- Shell https://www.npmjs.com/package/shelljs
- Arg parsing https://www.npmjs.com/package/argparse
- Zip https://www.npmjs.com/package/jszip
- Sandboxed js VM https://www.npmjs.com/package/vm2
- Image manipulation https://www.npmjs.com/package/sharp
- PDF Generation https://www.npmjs.com/package/pdfkit
- https://www.npmjs.com/
- https://github.com/bsonntag/cool-node-modules
- https://colorlib.com/wp/npm-packages-node-js/.
- Download Latest Release
- Create new or choose project.
- Browse to your project folder (typically found at Documents/Unreal Project/{Your Project Root})
- Copy Plugins folder into your Project root.
- Plugin should be now ready to use.
See NodeJSExampleProject-v0.4.2.7z in https://github.com/getnamo/NodeJs-Unreal/releases/tag/0.4.2 for a drag and drop example project.
Add a Node Component
to actor of choice
In your component properties set the name of the script you wish to run e.g. myscript.js
. This path is relative to {Your Project Root}/Content/Scripts/
.
Command line arguments are supported, just add them to the script path, separated by "|". Arguments which contain spaces should be enclosed in double quotes. Example:
myscript.js|--parameter=value "--parameter-with-spaces=value with spaces"
Now let's look at a basic script
Place your script files inside {Project Root}/Content/Scripts
The script files can be vanilla javascript, node.js, and/or include npm modules (since v0.2 ensure you add them to your folder's package.json to auto-resolve on run).
//1) simple basics work: Just log stuff!
const euclidean = (a, b) =>{
return ((a ** 2) + (b ** 2)) ** 0.5;
}
a = 3;
b = 4;
c = euclidean(a,b);
console.log('(a^2+b^2)^0.5: ' + c);
To listen to your script log bind to the node component event On Console Log
but what if you want to send data/receive data to your script?
Let's expand the script to include the npm module ipc-event-emitter
. We will use this to communicate events back and forth to our blueprint component
//2) Let's connect our euclidean function via IPC
//One liner include
const ipc = require('ipc-event-emitter').default(process);
const euclidean = (a, b) =>{
return ((a ** 2) + (b ** 2)) ** 0.5;
}
//Listen to 'myevent' event
ipc.on('myevent', (vars) => {
let c = euclidean(vars.x, vars.y);
console.log('Got a request (a^2+b^2)^0.5: ' + c);
//emit result back as a 'result' event
ipc.emit('result', c);
});
console.log('started');
On the blueprint side, our scripts start on begin play (a toggleable property on the node component) and has an event called OnScriptBegin
. We use that event to bind to the result
event first and then emit a vector2d with x and y float values and convert it to a SIOJsonValue, this will autoconvert to a json object in your script side.
When the script emits the result
event, it will return to our component OnEvent
event (you can also bind directly to a function see https://github.com/getnamo/socketio-client-ue4#binding-events-to-functions for example syntax). In the example above we simply re-encode the message to json and print to string.
That's the basics! There are some other events and functions for e.g. starting/stopping and getting notifications of those states, but largely anything else will be in your node.js script side.
Works since v0.5, just make sure to add the folder where your project Scripts are as additional non-asset directories to copy relative to the Content directory (e.g. for the typical Content/Scripts
folder add just Scripts
)
If you write an error in your script, it will spit it out in your output log. Hitting save and re-running the component will re-run the script.
Since v0.2 script errors caused by missing npm modules will auto-check the package.json
in your script folder for missing modules. If the dependency isn't listed it will warn you about it, if it does exist it will auto-resolve the dependencies and re-run your script after installation; auto-fixing your error.
Basically keep your script's package.json
up to date with the required dependencies and it will auto-install them as needed without performance implications (doesn't check every run, only on script error).
You can disable this auto-resolving and auto-run on npm install via the node component properties. Then you can resolve Npm dependencies at your own time with the node component function Resolve Npm Dependencies
.
Works, just add another component and all action for a script will be filtered to only communicate to the component that launched it.
This is supported, just download https://github.com/getnamo/NodeJs-Unreal/releases/download/0.5.0/nodejs-v0.5.0git-thirdparty-dependencies-only.7z in https://github.com/getnamo/NodeJs-Unreal/releases/tag/0.5.0 release and extract it into your project root (where the plugins folder is). This will add dependencies that are missing if you pulled a fresh clone from git.
Current builds are Win64 only.
Communication to embeded node.exe takes place internally via socket.io protocol with tcp. Comms and scripts run on background threads with callbacks on game thread (one subprocess for each script). This means nothing blocks while the scripts run, but sub-tick communcation latency is not possible as each message roundtrip will take at least one game tick. e.g. sending a message to your script on this tick will usually result in a callback on next tick.
Very large bandwidth may become an issue (e.g. feeding image data each tick), but hasn't been tested and there are some optimizations that can be used.