A hackable template for creating small and fast browser games.
Goodluck is great for:
- Learning game programming and game design.
- Prototyping gameplay ideas.
- Building size-constrained games.
- Experimenting with algorithms and APIs.
- Modeling problems through animated simulations.
Goodluck is not a typical library. You don't install it via npm install.
Instead, use it as a template: generate a new repository from it, remove
features you don't need, and hack away.
- Create a new repository using Goodluck as a template.
- Clone the newly created repository.
npm installthe build tools.npm startthe development server.
Goodluck is a template for creating small browser games which fit in a few kilobytes. Apart from the game loop and the rendering pipeline, Goodluck doesn't give you much more code. We like to think of Goodluck as a set of good practices, architecture decisions, and tools.
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Write code that you need just for this game. Don't design extensible abstractions. Your goal is to ship a game, not to build an engine.
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Write data-driven code. Goodluck uses the ECS architecture; separate the data (components) from the logic (systems).
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Prefer simple procedural code and closed type systems. Instead of designing class inheritance hierarchies, use union types and
switchbetween the variants.
Goodluck implements the entity-component-system (ECS) architecture:
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Entities are indices into arrays storing component data. A special array called
Maskstores masks defining which components are enabled for which entities. Component masks are implemented using bitflags, which limits the total number of available components to 32. This should still be plenty for small and even medium-sized games. -
Components are simple objects storing data, and only data. No logic goes into components. Each component defines an interface describing its data. Component data is stored in arrays in
Worldinstances. -
Systems store the game logic which runs for entities which have certain components enabled. Systems are executed in a deterministic order in
Game#Update, once per animation frame, as managed by the browser.
Goodluck is written in TypeScript, but it only uses a small subset of its features. The goal is to take advantage of the typing system and excellent editor support, while reducing any overhead in the final build. Hence, most features are strictly compile-only: they compile to zero bytes of JavaScript.
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Interfaces describe the shapes of components. The data is then stored in plain object literals matching these shapes.
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const enumsact as non-iterableenums. They are replaced by their number value during compilation. -
typealiases offer a way to create discriminated type unions. A closed typed system works well for Goodluck because the code is only written with the current project in mind, and you have the total control over all types used across the project.
When you're ready to start a new project, copy or rename one of the existing
examples to src. NewProject2D and NewProject3D are two minimal examples
which can provide a good general base for your work. WebGL2 is like
NewProject3D but it uses WebGL2 which isn't supported in Safari nor iOS.
Feel free to copy components and systems from other examples as needed, but keep in mind that you might need to adjust the code slightly to make it work for your use-case.
When copying components, remember to add corresponding Has enum variants in
components/com_index.ts. If the added components store data, make room for
it in World in world.ts.
Once you've copied everything you need, feel free to remove all other project directories in the repository! It's completely yours to hack and customize.
Production builds are bundled into a single .js file and optimized for
size. You can find them in play/.
- (Optional) Edit the
EXAMPLEpath inplay/Makefileif you called your source directory something other thansrc. make -C play- Open
play/index.htmlin the browser.