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Introduction

This is a template project for using TypeScript and WebPack to build PlayCanvas projects.

PlayCanvas is a fantastic open source WebGL Engine and online Editor (which you can get access to for free or pay for an organisational license).

PlayCanvas have developed a shared model that means you can edit your 3D scenes as a collaborative experience with team mates around the office, or around the world - it's great. They have applied the same to code editing, which is fine for some use cases but imposes certain limitations:

  • No offline access to source code
  • You are stuck with their web editor - which is "ok" but no WebStorm, Sublime or VSCode
  • No source control
  • Someone else can change your file when you aren't looking and you'll never know who!
  • No ES6 features or type safety, just pure Javascript
  • No NPM ecosystem, meaning you are scrabbling for browserified versions of libraries or more often doing something again or just not bothering

All of this means that it is hard to choose PlayCanvas for serious development projects without going "Engine Only" and that loses you many of the advantages of having a fantastic online editor and layout tool. So now why choose PlayCanvas when Three.js would give you just as much if not more?

The answer has to be to produce code in a proper offline build environment with all the advantages of TypeScript, WebPack, NPM et al and still be able to use the output in the PlayCanvas online Editor. Mike Talbot paved the way for this project with his awesome babel-playcanvas-template project which I have forked and adapted for use with TypeScript.

Why ES6

If you are asking why you should use TypeScript and ES6 then I'd say it's for one simple reason: a programming language should try to get the hell out of your way and let you express what you want.

When we code Javascript for WebGL we are coding for the browser and nearly everything that touches the outside world will be async. Expressing async in traditional Javascript is messy as hell. Try writing a for-next loop that loads a list of things from the web in sequence using Promises or callbacks and it will become immediately obvious. With TypeScript and ES6 it's just a loop. Everything else is a christmas tree. Yes it's possible, but it's easy to have a hard to spot bug, so you do LESS of it than you would otherwise and refactoring is a scary prospect. That's not right. That's damaging your creativity to my mind.

function requestFromUrl(url, info) { return new Promise(/* code */)}

async function getData() {
    let urls = ["https://blah1.org", "https://blah1.org/blah", "https://blah2.org/blah/blah"];
    let data = "";
    for(let i = 0; i < urls.length; i++) {
        data = await requestFromUrl(urls[i], data);
    }
    return data;
}

I know this is a contrived example, but this "kind of thing" happens all of the time in my developments, and they are better for me being able to implement them easily. Write that as just promises or callbacks and it will be illegible to most developers without a lot of study.

ES6/ES7 etc exist to create a better programming language for the web, I say let's use it.

Not many browsers support ES6 let alone ES7

TypeScript takes care of that. If the browser doesn't support something, it provides that support for you. Plus it compiles your ES6 to ES5.

Why TypeScript

You might be wondering "Why add types to JavaScript?"

Types have proven ability to enhance code quality and understandability. Large teams (Google, Microsoft, Facebook) have continually arrived at this conclusion. Specifically:

  • Types increase your agility when doing refactoring. It's better for the compiler to catch errors than to have things fail at runtime.
  • Types are one of the best forms of documentation you can have. The function signature is a theorem and the function body is the proof.

However types have a way of being unnecessarily ceremonious. Thankfully TypeScript is very particular about keeping the barrier to entry as low as possible.

Why NPM

If you need some standard function, algorithm or procedure there's a good chance that there is tested code out there to install. with one line of shell script.

Why WebPack

WebPack is going to make building all of this and serving it to your browser an automated process.

Getting Started

The shortest way to get started is really simple.

Prerequisites

You must have a version of Node and NPM installed.

You can get that from here.

Installing the template project

EITHER

Download this repo, change to the directory and type:

npm install

OR

Make a directory and change to it

npm install typescript-playcanvas-template

Now in [YOUR_DIRECTORY]/node_modules/typescript-playcanvas-template are all of the files you need. Either develop in there or copy that whole directory structure somewhere you want to develop.

The entry point - which is where you will import your own code - is in src/main.ts

In the template this imports a bunch of PlayCanvas extensions and then a single example.ts script that uses a couple of ES6 and TypeScript features for a demo.

Writing your own code

Create a file in src or a sub directory and script what you like. Just make sure that it is imported by main.ts (note that paths are relative to src and must start with a ./).

When you start developing things that import each other, you just need to make sure that something in main.ts imports something that imports the code you add!

If you find that something didn't show up, that's probably why.

Using ES6 classes

Unfortunately, the way the PlayCanvas engine is architected makes it impossible to simply define scripts with the new ES6 class keyword. Using the convenience of decorators, this project allows you to do just that. So instead of this:

var Rotate = pc.createScript("rotate");

Rotate.prototype.update = function (dt) {
    this.entity.rotate(0, 10*dt, 0);
};

you can do this:

@createScript()
class Rotate extends ScriptTypeBase implements ScriptType {
    update(dt: number) {
        this.entity.rotate(0, 10 * dt, 0);
    }
}

This becomes especially useful when your script has a mix bag of public, private and static properties and methods allowing for cleaner, clearer code. Also makes the use of this a little easier.

Building, debugging and testing your code

Firstly we need to make a configuration file - there's an example called config.example.json.

The config file is in the root of the project (the parent of src) and needs to be called config.json. This will eventually also control the automatic upload of your code to PlayCanvas, but to start with, just copy the example to config.json.

You can build your code using either webpack or an automated process with npm.

So typing npm run build in the root folder of the project (the parent of src) the template will build a production version of your code into the build folder.

Either build your code with NPM

npm run build

Or build your production code with webpack

webpack --config webpack.production.config.js

The output file will be called main.build.js. To use that in PlayCanvas just drag and drop it onto the PlayCanvas editor for your project.

Now open your developer tools in the browser with the PlayCanvas Editor open and in the Javascript console type

config.accessToken

Copy the result of this and paste it into the config.json file as your bearer token.

Then in the javascript console type

config.project.id

And put that in the project id part of config.json

Finally if you haven't already done it, drag main.build.js and drop it in the PlayCanvas assets window.

When it's imported click on it and in the properties window on the right, take it's ID and put that in config.json as your assetId.

Now every time you run npm run build it will upload the result to PlayCanvas for you.

Local serving your development build

There's a better way to do ongoing development though, you only really need to upload your build when the attributes of something change, you add a new script or you want to publish your build.

This template project has a solution for that too. You will be able to see all of your source code in your developer tools when you use any means of making a development build.

Loading Screen Method

If you have a loading screen or can make one then you can use either the whole script in utility-scripts/loading_screen_scripts_2_0.js or add the utility-scripts/exerpt.js to the top of your own.

This will allow you to serve files locally if you add a ?local=http://localhost:8081 to your launch url query string AND you change the protocol of the launch page to be http. If you really need https then see the section later on how to do that instead.

PlayCanvas Script Method

This is less reliable. Create a script in PlayCanvas Editor. Copy utility-scripts/exerpt.js into it and set it's loading order to be before main.build.js.

See the instruction about the URL in the previous section on how to modify your launch to use it.

Starting the server

Now you can type npm start in the project root. This will, build and upload your code, then start a local server to serve any changes you make. When you change your code, your launch window will automatically update.

If you need to upload again, just stop the server with CTRL+C and type npm start again. Then refresh your launch and Editor windows.

Development builds without local serving

Type webpack --config webpack.development.config.js to build and (if configured) upload a development version of your code which will have source mapping to make it possible to see your own code when you debug.

Production Build

Just type npm run build any time you want a production build.

Production builds are minified and don't have source maps embedded (they are a separate file).

Using NPM

You can just use NPM like normal. Basically find the module you need and type

npm install --save <module-name>

You can then import it into the file you need it in by adding an import statement at the top of your file.

import blah from 'blah-module';

...

blah(something);

You may also use require syntax if the whole file is written that way.

Conclusion

Hopefully this will get you started using TypeScript, ES6 and modules with PlayCanvas. Feel free to ask for @neoflash on the PlayCanvas forum if you want to discuss.

Enjoy!

- Ends -


HTTPS serving

You can configure webpack to HTTPS serve instead of HTTP.

Use npm run https to start your local development build. Then:

  • Either: in a separate window navigate to https://localhost:8081/main.build.js and if you are warned it isn't safe, just proceed anyway. This will mean that you always see that the launch page is untrusted and may cause other issues, it's normally fine for me.

  • Or: get your browser to trust node_modules/webpack-dev-server/ssl/server.pem. This can be easier said than done. You can also replace server.pem with your own trusted localhost certificate. Just you'll have to pack it as a .pem file. (On Apple by default it will be a .p12, Google for how to change it).

Don't forget to change your launch URL and the local parameter ?local=http://localhost:8081 to HTTPS!!

Personally I've used Certificate Tools to make certs that work. Make sure you sent the Subject Alternative Name(s) DNS to localhost as well as Common Names. It also provides you with a thing to run to pack .p12 into a .pem after you've generated your certificate. It only took me about 5 tries to work out what I had to do with it!

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