While for Bevy out of the box scripting is a non-goal, scripting support is being worked on. This crate is an attempt to make scripting a possibility with the current state of Bevy. It is by no means optimized, perfect or even complete so far. The API will likely change a lot as Bevy grows.
- Re-load your game logic without re-compiling the entire crate
- If your game logic is encapsulated with scripts it becomes easily moddable
- Allows writing game logic/UI in a smaller language, making development more accessible to non-coders on your team
- Script host interface
- Hot re-loading scripts (on script asset changes, scripts using those assets are re-started)
- Mlua integration
- Rhai integration
- Customisable script API's
- Event based hooks (i.e. on_update)
- Flexible event scheduling (i.e. allow handling events at handling stages based on the event)
- Multiple scripts per entity
- Multiple instances of the same script on one entity
- Extensive callback argument type support
- General Bevy API.
- Lua implementation of Bevy API (and support for more langauges incoming)
- Utilities for generating script native documentation
- Loading external lua libraries via
require
(enabled withunsafe_lua_modules
cargo feature due to potential unsafety)
Support for languages is expressed in three levels:
ScriptHost
implementation, scripts can be loaded, scheduled and run in this language with support for customAPIProvider
- A
<language>BevyAPIProvider
is implemented which enables access toentity
,world
etc and provides support for at least basic operations such asget_component
,add_component
,spawn
etc - Macros for generating proxy wrapper structures exist and can be used for custom types with the ability to add script-side functionality
- Macros instantiations are automatically generated for native Bevy structures
The languages currently supported are as follows:
Language | Support Level | Documentation Generation |
---|---|---|
Lua | 4 | Yes |
Rhai | 2 | No |
To install:
- Add this crate to your Cargo.toml file dependencies
- The crate is still in development so I recommended pinning to a git commit
- Add ScriptingPlugin to your app
- Add the ScriptHosts you plan on using (
add_script_host
)- Make sure to attach it to a system set running AFTER any systems which may generate modify/create/remove script components
- Add script handlers to capture events in the priority range you're expecting (
add_script_handler_to_set
,add_script_handler_to_base_set
) - Add systems which generate ScriptEvents corresponding to your script host
- Add systems which add ScriptCollection components to your entities and fill them with scripts
An example can be seen below
fn main() -> std::io::Result<()> {
let mut app = App::new();
app.add_plugin(ScriptingPlugin)
.add_plugins(DefaultPlugins)
// pick and register only the hosts you want to use
// use any system set AFTER any systems which add/remove/modify script components
// in order for your script updates to propagate in a single frame
.add_script_host_to_base_set::<RhaiScriptHost<MyRhaiArgStruct>,_>(CoreSet::PostUpdate)
.add_script_host_to_base_set::<LuaScriptHost<MyLuaArgStruct>,_>(CoreSet::PostUpdate)
// the handlers should be ran after any systems which produce script events.
// The PostUpdate set is okay only if your API doesn't require the core Bevy systems' commands
// to run beforehand.
// Note, this setup assumes a single script handler system set with all events having identical
// priority of zero (see examples for more complex scenarios)
.add_script_handler_to_base_set::<LuaScriptHost<MyLuaArg>, _, 0, 0>(
CoreSet::PostUpdate,
)
.add_script_handler_to_base_set::<RhaiScriptHost<RhaiEventArgs>, _, 0, 0>(
CoreSet::PostUpdate,
)
// generate events for scripts to pickup
.add_system(trigger_on_update_lua)
.add_system(trigger_on_update_rhai)
// attach script components to entities
.add_startup_system(load_a_script);
app.run();
Ok(())
}
Scripts are triggered by firing ScriptEvents
. This crate uses custom priority event writers and readers, so events are sent along with a priority. Together with your event pipeline this priority affects when your events are handled. A priority of 0 is the highest.
You can use this to create game loops akin to Unity's or other game engine's.
There are no guarantees that force the script callbacks to be executed fully for all scripts, i.e. before processing the next callback event, so this order guarantee only holds on a per script basis.
Examples of systems which generate callbacks can be seen below:
Use valid lua function names for hook names and any number of arguments which are to be passed on to the function.
Any types implementing the mlua::ToLua
trait can be used.
use bevy::prelude::*;
use bevy_mod_scripting::prelude::*;
// event callback generator for lua
#[cfg(feature = "lua")]
pub fn trigger_on_update_lua(mut w: PriorityEventWriter<LuaEvent<()>>) {
let event = LuaEvent::<()> {
hook_name: "on_update".to_string(),
args: (),
recipients: Recipients::All
};
w.send(event,0);
}
Rhai supports any rust types implementing FuncArgs as function arguments.
use bevy::prelude::*;
use bevy_mod_scripting::prelude::*;
#[cfg(feature = "rhai")]
#[derive(Clone)]
pub struct MyRhaiArgStruct {
// ...
}
#[cfg(feature = "rhai")]
impl FuncArgs for MyRhaiArgStruct {
fn parse<ARGS: Extend<rhai::Dynamic>>(self, _args: &mut ARGS) {
// ...
}
}
// event callback generator for rhai
// rhai event arguments can be any rust type implementing FuncArgs
#[cfg(feature = "rhai")]
pub fn trigger_on_update_rhai(mut w: PriorityEventWriter<RhaiEvent<MyRhaiArgStruct>>) {
let event = RhaiEvent {
hook_name: "on_update".to_string(),
args: MyRhaiArgStruct {},
recipients: Recipients::All
};
w.send(event,0);
}
A script consists of:
- an asset handle to their code file
- a name which is usually their path relative to the assets folder
Scripts are attached to entities in the form of bevy_mod_scripting::ScriptCollection
components as seen below:
use std::sync::Mutex;
use bevy::prelude::*;
use bevy_mod_scripting::prelude::*;
// An example of a startup system which loads the lua script "console_integration.lua"
// placed in "assets/scripts/" and attaches it to a new entity
#[cfg(feature = "lua")]
pub fn load_a_script(
server: Res<AssetServer>,
mut commands: Commands,
) {
// this handle is kept by the script so it will not be unloaded
let path = "scripts/console_integration.lua".to_string();
let handle = server.load::<LuaFile, &str>(&path);
commands.spawn(()).insert(ScriptCollection::<LuaFile> {
scripts: vec![Script::<LuaFile>::new(
path, handle,
)],
});
}
To expose an API to your scripts, implement the APIProvider trait. To register this API with your script host use the add_api_provider
of App
. APIProviders are a little bit like plugins, since they can also have access to the bevy App via one of the methods provided, and
use ::std::sync::Mutex;
use bevy_mod_scripting::prelude::*;
#[cfg(feature = "lua")]
#[derive(Default)]
pub struct LuaAPI;
/// the custom Lua api, world is provided via a global pointer,
/// and callbacks are defined only once at script creation
#[cfg(feature = "lua")]
impl APIProvider for LuaAPI {
type APITarget = Mutex<Lua>;
type DocTarget = LuaDocFragment;
type ScriptContext = Mutex<Lua>;
fn attach_api(&mut self, ctx: &mut Self::APITarget) -> Result<(),ScriptError> {
// generate API here
// world is provided via ctx see examples
// ...
Ok(())
}
}
#[cfg(feature = "rhai")]
#[derive(Default)]
pub struct RhaiAPI {}
#[cfg(feature = "rhai")]
impl APIProvider for RhaiAPI {
type APITarget = Engine;
type DocTarget = RhaiDocFragment;
type ScriptContext = RhaiContext;
fn attach_api(&mut self, ctx: &mut Self::APITarget) -> Result<(),ScriptError> {
// ...
Ok(())
}
}
Register the API providers like so:
app.add_plugins(DefaultPlugins)
.add_plugin(ScriptingPlugin)
.add_script_host_to_base_set::<LuaScriptHost<MyLuaArg>, _>(CoreSet::PostUpdate)
.add_script_host_to_base_set::<RhaiScriptHost<MyRhaiArg>, _>(CoreSet::PostUpdate)
.add_api_provider::<LuaScriptHost<MyLuaArg>>(Box::new(LuaAPIProvider))
.add_api_provider::<LuaScriptHost<MyRhaiArg>>(Box::new(RhaiAPIProvider))
//...
Note that the APIProvider
interface also contains setup_script
and get_doc_fragment
methods which are by default no-ops. These can be used to provide documentation (see examples) and guaranteed one-time-per-script setup (such as lua package path setup).
Documentation features are exposed at runtime via the update_documentation
builder trait method for App
:
use bevy::prelude::*;
use bevy_mod_scripting::prelude::*;
#[cfg(feature = "lua")]
fn main() -> std::io::Result<()> {
let mut app = App::new();
app.add_plugins(DefaultPlugins)
.add_plugin(ScriptingPlugin)
.add_script_host_to_base_set::<LuaScriptHost<()>, _>(CoreSet::PostUpdate)
// Note: This is a noop in optimized builds unless the `doc_always` feature is enabled!
// this will pickup any API providers added *BEFOREHAND* like this one
// .add_api_provider::<LuaScriptHost<()>>(Box::new(LuaAPIProvider))
.update_documentation::<LuaScriptHost<()>>()
.add_script_handler_to_base_set::<LuaScriptHost<()>, _, 0, 0>(
CoreSet::PostUpdate,
);
Ok(())
}
Currently we generate documentation at runtime due to the way tealr
works but this might change in the future as ideally this would be done statically.
It is probably a wise idea to set up a separate executable whose only purpose is to generate documentation, and run it every time before a release. But keeping this step in your main app will make sure your script environment is always set up correctly.
Lua documentation is provided by tealr
, a wrapper around the mlua
lua API which decorates their standard types. On top of providing documentation generation, it's also capable of generating d.tl
files which can be used to introduce static typing to lua via the teal
project (you do not need to use teal to generate documentation).
This can all be seen at work in this example.
Teal is the recommended way of introducing lua to your bevy game. This functionality is locked behind the teal
cargo feature however, since it's quite opinionanted when it comes to your asset structure (script
and scripts/build
, folders under assets
), and also requires lua
+ teal
+ tealr_doc_gen
(cargo install --git https://github.com/lenscas/tealr_doc_gen --rev 91afd4a528e7f5b746ac3a6b299c422b42c05db6
) to be installed (see https://github.com/teal-language/tl and tealr
).
Once enabled, .tl
files can be loaded as lua scripts in addition to .lua
files and compiled on the fly. With full hot-reloading support. When you're ready to release your game, you just need to run tl build
from the assets/scripts
directory to compile your teal files. This will generate .lua
files under assets/scripts/build
. You can manage loading scripts using the [bevy_mod_scripting::lua_path
] macro.
If teal
is enabled and you've added the update_documentation
step to your app, every time you run/build your app in development the following will be generated/synced: - a scripts/doc
directory containing documentation for your lua exposed API - a scripts/types
directory containing .d.tl
files for your lua IDE - a scripts/tlconfig.lua
file will be generated once if it does not yet exist - any scripts with a .tl
extension will be compiled to lua code and type checked
On optimized release builds none of this happens (no debug_asserts).
The recommended workflow is to use vscode and the official teal extension with an additional tlconfig.lua
file at the root of your workspace with the
following content:
return {
include_dir = {
"path_to_your_lib/",
}
}
Rhai currently does not have any existing utilities for generating documentation (for the rust provided API), once something comes out we'll include it.
SCRIPT_DOC_DIR
- documentation is generated inassets/scripts/docs
or to the path in this ENV variable if it's set.
The Script
components will persist a scene load, but their script contexts won't, after a scene load you must manually reload the scripts using Script::reload_script
To see more complex applications of this library have a look at the examples:
- lua - complex game loop
- lua - event recipients
- lua - bevy API
- rhai - bevy API
- generating statically typed lua wrappers + ScriptRef system
- lua - documentation generation + lua static typing
- lua - bevy console integration
- rhai - bevy console integration
- lua - game of life with teal
- rhai - game of life