Merge pull request 'Expose structs to Lua and write Lua type annotations' (#28) from feat/lua-type-defs into main
CI / build (push) Failing after 2m43s Details

Reviewed-on: #28
This commit is contained in:
SeanOMik 2024-10-19 11:16:33 -04:00
commit b2d259ac71
74 changed files with 5360 additions and 1427 deletions

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@ -1,4 +1,4 @@
HAS_SETUP_WINDOW = false local is_window_setup = false
---Return the userdata's name from its metatable. ---Return the userdata's name from its metatable.
--- ---
@ -15,9 +15,22 @@ function udname(val)
return tbl.__name return tbl.__name
end end
function dump(o)
if type(o) == 'table' then
local s = '{ '
for k,v in pairs(o) do
if type(k) ~= 'number' then k = '"'..k..'"' end
s = s .. '['..k..'] = ' .. dump(v) .. ','
end
return s .. '} '
else
return tostring(o)
end
end
function on_init() function on_init()
local cube = world:request_res("../assets/cube-texture-embedded.gltf") local cube = world:request_asset("../assets/cube-texture-embedded.gltf") --[[@as GltfHandle]]
print("Loaded textured cube (" .. udname(cube) .. ")") print("Loaded textured cube (" .. udname(cube) .. ")")
cube:wait_until_loaded() cube:wait_until_loaded()
@ -31,17 +44,31 @@ function on_init()
end end
function on_first() function on_first()
if not HAS_SETUP_WINDOW then if not is_window_setup then
world:view(function (w) world:view(
---@param w Window
function (w)
if w.cursor_grab == CursorGrabMode.NONE then if w.cursor_grab == CursorGrabMode.NONE then
w.cursor_grab = CursorGrabMode.LOCKED w.cursor_grab = CursorGrabMode.LOCKED
w.cursor_visible = false w.cursor_visible = false
return w return w
else else
HAS_SETUP_WINDOW = true is_window_setup = true
print("Window setup") print("Window setup")
end end
end, Window) end, Window
)
end
---@type EventReader
local reader = world:read_event(DeviceEvent)
---@param ev DeviceEvent
for ev in reader:read() do
if ev.event.kind == DeviceEventKind.MOTION then
local motion_ev = ev.event --[[@as DeviceEventMotion]]
print("axis: " .. tostring(motion_ev.axis) .. " = " .. tostring(motion_ev.value))
end
end end
end end
@ -66,10 +93,26 @@ function on_update()
---@type number ---@type number
local dt = world:resource(DeltaTime) local dt = world:resource(DeltaTime)
world:view(function (t) world:view(
---@param t Transform
---@param wt WorldTransform
function (t, wt)
print("Entity is at: " .. tostring(wt))
t:translate(0, 0.15 * dt, 0) t:translate(0, 0.15 * dt, 0)
return t return t
end, Transform) end, Transform, WorldTransform
)
--[[ world:view(
---@param c Camera
function (c)
c.transform:translate(0, 0.15 * dt, 0)
print("Moving camera to: " .. tostring(c.transform))
return c
end, Camera
) ]]
end end
--[[ function on_post_update() --[[ function on_post_update()

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@ -1,19 +1,10 @@
use lyra_engine::{ use lyra_engine::{
assets::{gltf::Gltf, ResourceManager}, assets::{gltf::Gltf, ResourceManager}, game::App, input::{
game::App,
input::{
Action, ActionHandler, ActionKind, ActionMapping, ActionMappingId, ActionSource, Action, ActionHandler, ActionKind, ActionMapping, ActionMappingId, ActionSource,
InputActionPlugin, KeyCode, LayoutId, MouseAxis, MouseInput, InputActionPlugin, KeyCode, LayoutId, MouseAxis, MouseInput,
}, }, math::{self, Transform, Vec3}, render::light::directional::DirectionalLight, scene::{
lua::{LuaScript, LuaScriptingPlugin}, self, CameraComponent, FreeFlyCamera, FreeFlyCameraPlugin, WorldTransform, ACTLBL_LOOK_LEFT_RIGHT, ACTLBL_LOOK_ROLL, ACTLBL_LOOK_UP_DOWN, ACTLBL_MOVE_FORWARD_BACKWARD, ACTLBL_MOVE_LEFT_RIGHT, ACTLBL_MOVE_UP_DOWN
math::{self, Transform, Vec3}, }, script::{lua::{LuaScript, LuaScriptingPlugin}, Script, ScriptList}
render::light::directional::DirectionalLight,
scene::{
CameraComponent, FreeFlyCamera, FreeFlyCameraPlugin, WorldTransform,
ACTLBL_LOOK_LEFT_RIGHT, ACTLBL_LOOK_ROLL, ACTLBL_LOOK_UP_DOWN,
ACTLBL_MOVE_FORWARD_BACKWARD, ACTLBL_MOVE_LEFT_RIGHT, ACTLBL_MOVE_UP_DOWN,
},
Script, ScriptList,
}; };
#[async_std::main] #[async_std::main]
@ -92,6 +83,11 @@ async fn main() {
app.with_plugin(setup_scene_plugin); app.with_plugin(setup_scene_plugin);
app.with_plugin(action_handler_plugin); app.with_plugin(action_handler_plugin);
app.with_plugin(setup_script_plugin); app.with_plugin(setup_script_plugin);
app.with_system(
"update_world_transforms",
scene::system_update_world_transforms,
&[],
);
//app.with_plugin(camera_debug_plugin); //app.with_plugin(camera_debug_plugin);
app.with_plugin(FreeFlyCameraPlugin); app.with_plugin(FreeFlyCameraPlugin);
app.run(); app.run();

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@ -196,7 +196,7 @@ fn setup_scene_plugin(app: &mut App) {
fn camera_debug_plugin(app: &mut App) { fn camera_debug_plugin(app: &mut App) {
let sys = |handler: Res<ActionHandler>, view: View<&mut CameraComponent>| -> anyhow::Result<()> { let sys = |handler: Res<ActionHandler>, view: View<&mut CameraComponent>| -> anyhow::Result<()> {
if handler.was_action_just_pressed("Debug") { if let Some(true) = handler.was_action_just_pressed("Debug") {
for mut cam in view.into_iter() { for mut cam in view.into_iter() {
cam.debug = !cam.debug; cam.debug = !cam.debug;
} }

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@ -1,12 +1,12 @@
use lyra_engine::{ use lyra_engine::{
assets::{gltf::Gltf, ResourceManager}, ecs::query::View, game::App, input::{ assets::{gltf::Gltf, ResourceManager}, ecs::query::View, game::App, input::{
Action, ActionHandler, ActionKind, ActionMapping, ActionMappingId, ActionSource, Action, ActionHandler, ActionKind, ActionMapping, ActionMappingId, ActionSource,
InputActionPlugin, KeyCode, LayoutId, MouseAxis, MouseInput, InputActionPlugin, KeyCode, LayoutId,
}, math::{self, Transform, Vec3}, render::{light::directional::DirectionalLight, window::WindowOptions}, scene::{ }, math::{self, Transform, Vec3}, render::light::directional::DirectionalLight, scene::{
CameraComponent, FreeFlyCamera, FreeFlyCameraPlugin, WorldTransform, CameraComponent, FreeFlyCamera, FreeFlyCameraPlugin, WorldTransform,
ACTLBL_LOOK_LEFT_RIGHT, ACTLBL_LOOK_ROLL, ACTLBL_LOOK_UP_DOWN, ACTLBL_LOOK_LEFT_RIGHT, ACTLBL_LOOK_ROLL, ACTLBL_LOOK_UP_DOWN,
ACTLBL_MOVE_FORWARD_BACKWARD, ACTLBL_MOVE_LEFT_RIGHT, ACTLBL_MOVE_UP_DOWN, ACTLBL_MOVE_FORWARD_BACKWARD, ACTLBL_MOVE_LEFT_RIGHT, ACTLBL_MOVE_UP_DOWN,
} }, winit::WindowOptions
}; };
#[async_std::main] #[async_std::main]
@ -82,7 +82,6 @@ async fn main() {
let mut a = App::new(); let mut a = App::new();
a.with_plugin(lyra_engine::DefaultPlugins) a.with_plugin(lyra_engine::DefaultPlugins)
.with_system("mouse_pos_print", mouse_pos_system, &[])
.with_plugin(setup_scene_plugin) .with_plugin(setup_scene_plugin)
.with_plugin(action_handler_plugin) .with_plugin(action_handler_plugin)
//.with_plugin(camera_debug_plugin) //.with_plugin(camera_debug_plugin)
@ -141,11 +140,3 @@ fn setup_scene_plugin(app: &mut App) {
camera.transform.translation += math::Vec3::new(0.0, 0.0, 5.5); camera.transform.translation += math::Vec3::new(0.0, 0.0, 5.5);
world.spawn((camera, FreeFlyCamera::default())); world.spawn((camera, FreeFlyCamera::default()));
} }
fn mouse_pos_system(view: View<&WindowOptions>) -> anyhow::Result<()> {
for win in view.iter() {
//println!("Mouse pos: {:?}", win.cursor_position());
}
Ok(())
}

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@ -1,7 +1,27 @@
use std::ptr::NonNull; use std::ptr::NonNull;
use lyra_engine::{assets::gltf::Gltf, ecs::{query::{Res, View}, system::{Criteria, CriteriaSchedule, IntoSystem}, Component, World}, game::App, input::{Action, ActionHandler, ActionKind, ActionMapping, ActionMappingId, ActionSource, InputActionPlugin, KeyCode, LayoutId, MouseAxis, MouseInput}, math::{self, Quat, Transform, Vec3}, render::{light::{directional::DirectionalLight, PointLight, SpotLight}, window::{CursorGrabMode, WindowOptions}}, scene::{self, CameraComponent, FreeFlyCamera, FreeFlyCameraPlugin, WorldTransform, ACTLBL_LOOK_LEFT_RIGHT, ACTLBL_LOOK_ROLL, ACTLBL_LOOK_UP_DOWN, ACTLBL_MOVE_FORWARD_BACKWARD, ACTLBL_MOVE_LEFT_RIGHT, ACTLBL_MOVE_UP_DOWN}, DeltaTime};
use lyra_engine::assets::ResourceManager; use lyra_engine::assets::ResourceManager;
use lyra_engine::{
assets::gltf::Gltf,
ecs::{
query::{Res, View},
system::{Criteria, CriteriaSchedule, IntoSystem},
Component, World,
},
game::App,
input::{
Action, ActionHandler, ActionKind, ActionMapping, ActionMappingId, ActionSource,
InputActionPlugin, KeyCode, LayoutId, MouseAxis, MouseInput,
},
math::{self, Quat, Transform, Vec3},
render::light::{directional::DirectionalLight, PointLight, SpotLight},
scene::{
self, CameraComponent, FreeFlyCamera, FreeFlyCameraPlugin, WorldTransform,
ACTLBL_LOOK_LEFT_RIGHT, ACTLBL_LOOK_ROLL, ACTLBL_LOOK_UP_DOWN,
ACTLBL_MOVE_FORWARD_BACKWARD, ACTLBL_MOVE_LEFT_RIGHT, ACTLBL_MOVE_UP_DOWN,
},
DeltaTime,
};
struct FixedTimestep { struct FixedTimestep {
max_tps: u32, max_tps: u32,
@ -71,9 +91,11 @@ impl Criteria for FixedTimestep {
} }
} }
#[allow(dead_code)]
#[derive(Clone)] #[derive(Clone)]
struct TpsAccumulator(f32); struct TpsAccumulator(f32);
#[allow(dead_code)]
#[derive(Component)] #[derive(Component)]
struct CubeFlag; struct CubeFlag;
@ -90,27 +112,29 @@ async fn main() {
//let diffuse_texture = resman.request::<Texture>("assets/happy-tree.png").unwrap(); //let diffuse_texture = resman.request::<Texture>("assets/happy-tree.png").unwrap();
//let antique_camera_model = resman.request::<Model>("assets/AntiqueCamera.glb").unwrap(); //let antique_camera_model = resman.request::<Model>("assets/AntiqueCamera.glb").unwrap();
//let cube_model = resman.request::<Model>("assets/cube-texture-bin.glb").unwrap(); //let cube_model = resman.request::<Model>("assets/cube-texture-bin.glb").unwrap();
let cube_gltf = resman.request::<Gltf>("../assets/texture-sep/texture-sep.gltf").unwrap(); let cube_gltf = resman
.request::<Gltf>("../assets/texture-sep/texture-sep.gltf")
.unwrap();
/*let crate_gltf = resman.request::<Gltf>("assets/crate/crate.gltf").unwrap(); /*let crate_gltf = resman.request::<Gltf>("assets/crate/crate.gltf").unwrap();
let separate_gltf = resman.request::<Gltf>("assets/pos-testing/child-node-cubes.glb").unwrap(); */ let separate_gltf = resman.request::<Gltf>("assets/pos-testing/child-node-cubes.glb").unwrap(); */
//drop(resman); //drop(resman);
cube_gltf.wait_recurse_dependencies_load(); cube_gltf.wait_recurse_dependencies_load();
let cube_mesh = &cube_gltf.data_ref() let cube_mesh = &cube_gltf.data_ref().unwrap().meshes[0];
.unwrap().meshes[0];
/* let crate_mesh = &crate_gltf.data_ref() /* let crate_mesh = &crate_gltf.data_ref()
.unwrap().meshes[0]; .unwrap().meshes[0];
let separate_scene = &separate_gltf.data_ref() let separate_scene = &separate_gltf.data_ref()
.unwrap().scenes[0]; */ .unwrap().scenes[0]; */
let sponza_model = resman.request::<Gltf>("../assets/sponza/Sponza.gltf").unwrap(); let sponza_model = resman
.request::<Gltf>("../assets/sponza/Sponza.gltf")
.unwrap();
drop(resman); drop(resman);
sponza_model.wait_recurse_dependencies_load(); sponza_model.wait_recurse_dependencies_load();
let sponza_scene = &sponza_model.data_ref() let sponza_scene = &sponza_model.data_ref().unwrap().scenes[0];
.unwrap().scenes[0];
world.spawn(( world.spawn((
sponza_scene.clone(), sponza_scene.clone(),
@ -127,8 +151,7 @@ async fn main() {
DirectionalLight { DirectionalLight {
enabled: true, enabled: true,
color: Vec3::ONE, color: Vec3::ONE,
intensity: 0.35 intensity: 0.35, //..Default::default()
//..Default::default()
}, },
light_tran, light_tran,
)); ));
@ -139,7 +162,6 @@ async fn main() {
//Vec3::new(-5.0, 1.0, -1.28), //Vec3::new(-5.0, 1.0, -1.28),
Vec3::new(-5.0, 1.0, -0.0), Vec3::new(-5.0, 1.0, -0.0),
//Vec3::new(-10.0, 0.94, -0.28), //Vec3::new(-10.0, 0.94, -0.28),
Quat::IDENTITY, Quat::IDENTITY,
Vec3::new(0.25, 0.25, 0.25), Vec3::new(0.25, 0.25, 0.25),
); );
@ -161,7 +183,6 @@ async fn main() {
Vec3::new(-3.0, 0.2, -1.5), Vec3::new(-3.0, 0.2, -1.5),
//Vec3::new(-5.0, 1.0, -0.28), //Vec3::new(-5.0, 1.0, -0.28),
//Vec3::new(-10.0, 0.94, -0.28), //Vec3::new(-10.0, 0.94, -0.28),
Quat::IDENTITY, Quat::IDENTITY,
Vec3::new(0.15, 0.15, 0.15), Vec3::new(0.15, 0.15, 0.15),
); );
@ -183,7 +204,6 @@ async fn main() {
Vec3::new(0.0, 0.2, -1.5), Vec3::new(0.0, 0.2, -1.5),
//Vec3::new(-5.0, 1.0, -0.28), //Vec3::new(-5.0, 1.0, -0.28),
//Vec3::new(-10.0, 0.94, -0.28), //Vec3::new(-10.0, 0.94, -0.28),
Quat::IDENTITY, Quat::IDENTITY,
Vec3::new(0.15, 0.15, 0.15), Vec3::new(0.15, 0.15, 0.15),
); );
@ -252,7 +272,7 @@ async fn main() {
camera.transform = Transform::new( camera.transform = Transform::new(
Vec3::new(-10.0, 0.94, -0.28), Vec3::new(-10.0, 0.94, -0.28),
Quat::from_xyzw(0.03375484, -0.7116095, 0.0342693, 0.70092666), Quat::from_xyzw(0.03375484, -0.7116095, 0.0342693, 0.70092666),
Vec3::ONE Vec3::ONE,
); );
//camera.transform.translation += math::Vec3::new(0.0, 0.0, 5.5); //camera.transform.translation += math::Vec3::new(0.0, 0.0, 5.5);
world.spawn((camera, FreeFlyCamera::default())); world.spawn((camera, FreeFlyCamera::default()));
@ -261,8 +281,9 @@ async fn main() {
}; };
let camera_debug_plugin = move |app: &mut App| { let camera_debug_plugin = move |app: &mut App| {
let sys = |handler: Res<ActionHandler>, view: View<&mut CameraComponent>| -> anyhow::Result<()> { let sys =
if handler.was_action_just_pressed("Debug") { |handler: Res<ActionHandler>, view: View<&mut CameraComponent>| -> anyhow::Result<()> {
if let Some(true) = handler.was_action_just_pressed("Debug") {
for mut cam in view.into_iter() { for mut cam in view.into_iter() {
cam.debug = !cam.debug; cam.debug = !cam.debug;
} }
@ -272,13 +293,16 @@ async fn main() {
}; };
app.with_system("camera_debug_trigger", sys, &[]); app.with_system("camera_debug_trigger", sys, &[]);
app.with_system("update_world_transforms", scene::system_update_world_transforms, &[]); app.with_system(
"update_world_transforms",
scene::system_update_world_transforms,
&[],
);
}; };
let action_handler_plugin = |app: &mut App| { let action_handler_plugin = |app: &mut App| {
let action_handler = ActionHandler::builder() let action_handler = ActionHandler::builder()
.add_layout(LayoutId::from(0)) .add_layout(LayoutId::from(0))
.add_action(ACTLBL_MOVE_FORWARD_BACKWARD, Action::new(ActionKind::Axis)) .add_action(ACTLBL_MOVE_FORWARD_BACKWARD, Action::new(ActionKind::Axis))
.add_action(ACTLBL_MOVE_LEFT_RIGHT, Action::new(ActionKind::Axis)) .add_action(ACTLBL_MOVE_LEFT_RIGHT, Action::new(ActionKind::Axis))
.add_action(ACTLBL_MOVE_UP_DOWN, Action::new(ActionKind::Axis)) .add_action(ACTLBL_MOVE_UP_DOWN, Action::new(ActionKind::Axis))
@ -286,41 +310,61 @@ async fn main() {
.add_action(ACTLBL_LOOK_UP_DOWN, Action::new(ActionKind::Axis)) .add_action(ACTLBL_LOOK_UP_DOWN, Action::new(ActionKind::Axis))
.add_action(ACTLBL_LOOK_ROLL, Action::new(ActionKind::Axis)) .add_action(ACTLBL_LOOK_ROLL, Action::new(ActionKind::Axis))
.add_action("Debug", Action::new(ActionKind::Button)) .add_action("Debug", Action::new(ActionKind::Button))
.add_mapping(
.add_mapping(ActionMapping::builder(LayoutId::from(0), ActionMappingId::from(0)) ActionMapping::builder(LayoutId::from(0), ActionMappingId::from(0))
.bind(ACTLBL_MOVE_FORWARD_BACKWARD, &[ .bind(
ACTLBL_MOVE_FORWARD_BACKWARD,
&[
ActionSource::Keyboard(KeyCode::KeyW).into_binding_modifier(1.0), ActionSource::Keyboard(KeyCode::KeyW).into_binding_modifier(1.0),
ActionSource::Keyboard(KeyCode::KeyS).into_binding_modifier(-1.0) ActionSource::Keyboard(KeyCode::KeyS).into_binding_modifier(-1.0),
]) ],
.bind(ACTLBL_MOVE_LEFT_RIGHT, &[ )
.bind(
ACTLBL_MOVE_LEFT_RIGHT,
&[
ActionSource::Keyboard(KeyCode::KeyA).into_binding_modifier(-1.0), ActionSource::Keyboard(KeyCode::KeyA).into_binding_modifier(-1.0),
ActionSource::Keyboard(KeyCode::KeyD).into_binding_modifier(1.0) ActionSource::Keyboard(KeyCode::KeyD).into_binding_modifier(1.0),
]) ],
.bind(ACTLBL_MOVE_UP_DOWN, &[ )
.bind(
ACTLBL_MOVE_UP_DOWN,
&[
ActionSource::Keyboard(KeyCode::KeyC).into_binding_modifier(1.0), ActionSource::Keyboard(KeyCode::KeyC).into_binding_modifier(1.0),
ActionSource::Keyboard(KeyCode::KeyZ).into_binding_modifier(-1.0) ActionSource::Keyboard(KeyCode::KeyZ).into_binding_modifier(-1.0),
]) ],
.bind(ACTLBL_LOOK_LEFT_RIGHT, &[ )
.bind(
ACTLBL_LOOK_LEFT_RIGHT,
&[
ActionSource::Mouse(MouseInput::Axis(MouseAxis::X)).into_binding(), ActionSource::Mouse(MouseInput::Axis(MouseAxis::X)).into_binding(),
ActionSource::Keyboard(KeyCode::ArrowLeft).into_binding_modifier(-1.0), ActionSource::Keyboard(KeyCode::ArrowLeft).into_binding_modifier(-1.0),
ActionSource::Keyboard(KeyCode::ArrowRight).into_binding_modifier(1.0), ActionSource::Keyboard(KeyCode::ArrowRight).into_binding_modifier(1.0),
//ActionSource::Gamepad(GamepadFormat::DualAxis, GamepadInput::Axis(GamepadAxis::RThumbstickX)).into_binding(), //ActionSource::Gamepad(GamepadFormat::DualAxis, GamepadInput::Axis(GamepadAxis::RThumbstickX)).into_binding(),
]) ],
.bind(ACTLBL_LOOK_UP_DOWN, &[ )
.bind(
ACTLBL_LOOK_UP_DOWN,
&[
ActionSource::Mouse(MouseInput::Axis(MouseAxis::Y)).into_binding(), ActionSource::Mouse(MouseInput::Axis(MouseAxis::Y)).into_binding(),
ActionSource::Keyboard(KeyCode::ArrowUp).into_binding_modifier(-1.0), ActionSource::Keyboard(KeyCode::ArrowUp).into_binding_modifier(-1.0),
ActionSource::Keyboard(KeyCode::ArrowDown).into_binding_modifier(1.0), ActionSource::Keyboard(KeyCode::ArrowDown).into_binding_modifier(1.0),
//ActionSource::Gamepad(GamepadFormat::DualAxis, GamepadInput::Axis(GamepadAxis::RThumbstickY)).into_binding(), //ActionSource::Gamepad(GamepadFormat::DualAxis, GamepadInput::Axis(GamepadAxis::RThumbstickY)).into_binding(),
]) ],
.bind(ACTLBL_LOOK_ROLL, &[ )
.bind(
ACTLBL_LOOK_ROLL,
&[
ActionSource::Keyboard(KeyCode::KeyE).into_binding_modifier(-1.0), ActionSource::Keyboard(KeyCode::KeyE).into_binding_modifier(-1.0),
ActionSource::Keyboard(KeyCode::KeyQ).into_binding_modifier(1.0), ActionSource::Keyboard(KeyCode::KeyQ).into_binding_modifier(1.0),
]) ],
.bind("Debug", &[ )
ActionSource::Keyboard(KeyCode::KeyB).into_binding(), .bind(
]) "Debug",
.finish() &[ActionSource::Keyboard(KeyCode::KeyB).into_binding()],
).finish(); )
.finish(),
)
.finish();
let world = &mut app.world; let world = &mut app.world;
world.add_resource(action_handler); world.add_resource(action_handler);

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@ -1,119 +0,0 @@
use std::ops::{DerefMut, Deref};
/// A change tracker. This tracks changes of the data it owns.
/// Tracking changes can cause false positives since it actually tracks calls to `deref_mut()`
/// If you mutably dereference this, make sure its only when you change the data.
pub struct Ct<T> {
data: T,
changed: bool,
}
impl<T> Ct<T> {
pub fn new(data: T) -> Self {
Self {
data,
changed: false,
}
}
/// Create a new change tracker with data
pub fn new_true(data: T) -> Self {
Self {
data,
changed: true,
}
}
/// Returns true if there was a change. Will reset back to false after this is called.
pub fn changed(&mut self) -> bool {
let before = self.changed;
self.reset();
before
}
/// Returns true if there was a change, will NOT reset back to false.
pub fn peek_changed(&self) -> bool {
self.changed
}
/// Resets the changed tracker to be false
pub fn reset(&mut self) {
self.changed = false;
}
/// Triggers the change tracker to be true
pub fn trigger(&mut self) {
self.changed = true;
}
/// Silently mutate the inner data, this wont be tracked
pub fn silently_mutate(&mut self) -> &mut T {
&mut self.data
}
/// Consumes self and returns the data stored inside.
pub fn take(self) -> T {
self.data
}
}
impl<T> Deref for Ct<T> {
type Target = T;
fn deref(&self) -> &Self::Target {
&self.data
}
}
impl<T> DerefMut for Ct<T> {
fn deref_mut(&mut self) -> &mut Self::Target {
self.changed = true;
&mut self.data
}
}
#[cfg(test)]
mod tests {
use super::Ct;
#[test]
fn new() {
let mut c = Ct::new(100);
assert!(!c.changed());
let mut c = Ct::new_true(100);
assert!(c.changed());
assert!(!c.changed()); // it should've reset itself
}
#[test]
fn change_tracking() {
let mut c = Ct::new(100);
assert!(!c.changed());
*c = 10;
assert!(c.changed());
assert!(!c.changed()); // should now be not changed
}
#[test]
fn silent_mutate() {
let mut c = Ct::new(100);
let a = c.silently_mutate();
*a = 10;
assert!(!c.changed());
}
#[test]
fn reset_trigger() {
let mut c = Ct::new(100);
*c = 10;
c.reset();
assert!(!c.changed()); // should not be changed because of reset
let mut c = Ct::new(100);
c.trigger();
assert!(c.changed()); // should changed because of trigger
assert!(!c.changed()); // should've reset itself
}
}

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@ -1,4 +1,4 @@
use std::{cell::RefCell, rc::Rc, sync::Arc}; use std::sync::Arc;
use atomic_refcell::AtomicRefCell; use atomic_refcell::AtomicRefCell;
use lyra_ecs::{query::{ResMut, WorldTick}, system::FnArgFetcher, Tick}; use lyra_ecs::{query::{ResMut, WorldTick}, system::FnArgFetcher, Tick};
@ -99,7 +99,7 @@ impl<T: Event> Events<T> {
pub fn reader(&self) -> EventReader<T> { pub fn reader(&self) -> EventReader<T> {
EventReader { EventReader {
events: self.events.clone(), events: self.events.clone(),
cursor: Rc::new(RefCell::new(0)), cursor: Arc::new(AtomicRefCell::new(0)),
} }
} }
@ -112,11 +112,11 @@ impl<T: Event> Events<T> {
pub struct EventReader<T: Event> { pub struct EventReader<T: Event> {
events: Arc<AtomicRefCell<WaterfallVec<T>>>, events: Arc<AtomicRefCell<WaterfallVec<T>>>,
cursor: Rc<RefCell<usize>>, cursor: Arc<AtomicRefCell<usize>>,
} }
impl<T: Event> EventReader<T> { impl<T: Event> EventReader<T> {
pub fn read(&mut self) -> Option<atomic_refcell::AtomicRef<T>> { pub fn read(&self) -> Option<atomic_refcell::AtomicRef<T>> {
let events = self.events.borrow(); let events = self.events.borrow();
let mut cursor = self.cursor.borrow_mut(); let mut cursor = self.cursor.borrow_mut();
@ -136,7 +136,7 @@ pub struct EventWriter<T: Event> {
} }
impl<T: Event> EventWriter<T> { impl<T: Event> EventWriter<T> {
pub fn write(&mut self, event: T) { pub fn write(&self, event: T) {
let mut events = self.events.borrow_mut(); let mut events = self.events.borrow_mut();
events.push(event); events.push(event);
} }
@ -167,12 +167,12 @@ where
} }
impl<T: Event> FnArgFetcher for EventReader<T> { impl<T: Event> FnArgFetcher for EventReader<T> {
type State = Rc<RefCell<usize>>; type State = Arc<AtomicRefCell<usize>>;
type Arg<'a, 'state> = EventReader<T>; type Arg<'a, 'state> = EventReader<T>;
fn create_state(_: std::ptr::NonNull<lyra_ecs::World>) -> Self::State { fn create_state(_: std::ptr::NonNull<lyra_ecs::World>) -> Self::State {
Rc::new(RefCell::new(0)) Arc::new(AtomicRefCell::new(0))
} }
unsafe fn get<'a, 'state>(state: &'state mut Self::State, world: std::ptr::NonNull<lyra_ecs::World>) -> Self::Arg<'a, 'state> { unsafe fn get<'a, 'state>(state: &'state mut Self::State, world: std::ptr::NonNull<lyra_ecs::World>) -> Self::Arg<'a, 'state> {

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@ -358,66 +358,61 @@ impl ActionHandler {
/// Returns true if the action is pressed (or was just pressed). /// Returns true if the action is pressed (or was just pressed).
/// ///
/// This will panic if the action name does not correspond to an action. /// Returns `None` if the action was not found.
pub fn is_action_pressed<L>(&self, action: L) -> bool pub fn is_action_pressed<L>(&self, action: L) -> Option<bool>
where where
L: ActionLabel L: ActionLabel
{ {
let action = self.actions.get(&action.label_hash()) let action = self.actions.get(&action.label_hash())?;
.unwrap_or_else(|| panic!("Action {action:?} was not found"));
matches!(action.state, ActionState::Pressed(_) | ActionState::JustPressed(_)) Some(matches!(action.state, ActionState::Pressed(_) | ActionState::JustPressed(_)))
} }
/// Returns true if the action was just pressed. /// Returns true if the action was just pressed.
/// ///
/// This will panic if the action name does not correspond to an action. /// Returns `None` if the action was not found.
pub fn was_action_just_pressed<L>(&self, action: L) -> bool pub fn was_action_just_pressed<L>(&self, action: L) -> Option<bool>
where where
L: ActionLabel L: ActionLabel
{ {
let action = self.actions.get(&action.label_hash()) let action = self.actions.get(&action.label_hash())?;
.unwrap_or_else(|| panic!("Action {action:?} was not found"));
matches!(action.state, ActionState::JustPressed(_)) Some(matches!(action.state, ActionState::JustPressed(_)))
} }
/// Returns true if the action was just released. /// Returns true if the action was just released.
/// ///
/// This will panic if the action name does not correspond to an action. /// Returns `None` if the action was not found.
pub fn was_action_just_released<L>(&self, action: L) -> bool pub fn was_action_just_released<L>(&self, action: L) -> Option<bool>
where where
L: ActionLabel L: ActionLabel
{ {
let action = self.actions.get(&action.label_hash()) let action = self.actions.get(&action.label_hash())?;
.unwrap_or_else(|| panic!("Action {action:?} was not found"));
matches!(action.state, ActionState::JustReleased) Some(matches!(action.state, ActionState::JustReleased))
} }
/// Returns an action's state. /// Returns an action's state.
/// ///
/// This will panic if the action name does not correspond to an action. /// Returns `None` if the action was not found.
pub fn get_action_state<L>(&self, action: L) -> ActionState pub fn get_action_state<L>(&self, action: L) -> Option<ActionState>
where where
L: ActionLabel L: ActionLabel
{ {
let action = self.actions.get(&action.label_hash()) let action = self.actions.get(&action.label_hash())?;
.unwrap_or_else(|| panic!("Action {action:?} was not found"));
action.state Some(action.state)
} }
/// Returns the action's modifier if it is pressed (or was just pressed). /// Returns the action's modifier if it is pressed (or was just pressed).
/// Returns `None` if the action's state is not `ActionState::Pressed` or `ActionState::JustPressed`.
/// ///
/// This will panic if the action name does not correspond to an action. /// Returns `None` if the action's state is not `ActionState::Pressed`, `ActionState::JustPressed`,
/// or if the action was not found.
pub fn get_pressed_modifier<L>(&self, action: L) -> Option<f32> pub fn get_pressed_modifier<L>(&self, action: L) -> Option<f32>
where where
L: ActionLabel L: ActionLabel
{ {
let action = self.actions.get(&action.label_hash()) let action = self.actions.get(&action.label_hash())?;
.unwrap_or_else(|| panic!("Action {action:?} was not found"));
match action.state { match action.state {
ActionState::Pressed(v) | ActionState::JustPressed(v) => Some(v), ActionState::Pressed(v) | ActionState::JustPressed(v) => Some(v),
@ -426,15 +421,14 @@ impl ActionHandler {
} }
/// Returns the action's modifier if it was just pressed. /// Returns the action's modifier if it was just pressed.
/// Returns `None` if the action's state is not `ActionState::JustPressed`.
/// ///
/// This will panic if the action name does not correspond to an action. /// Returns `None` if the action's state is not `ActionState::JustPressed`,
/// or if the action was not found.
pub fn get_just_pressed_modifier<L>(&self, action: L) -> Option<f32> pub fn get_just_pressed_modifier<L>(&self, action: L) -> Option<f32>
where where
L: ActionLabel L: ActionLabel
{ {
let action = self.actions.get(&action.label_hash()) let action = self.actions.get(&action.label_hash())?;
.unwrap_or_else(|| panic!("Action {action:?} was not found"));
match action.state { match action.state {
ActionState::JustPressed(v) => Some(v), ActionState::JustPressed(v) => Some(v),
@ -443,15 +437,14 @@ impl ActionHandler {
} }
/// Returns the action's modifier if its an updated axis. /// Returns the action's modifier if its an updated axis.
/// Returns `None` if the action's state is not `ActionState::Axis`.
/// ///
/// This will panic if the action name does not correspond to an action. /// Returns `None` if the action's state is not `ActionState::Axis`,
/// or if the action was not found.
pub fn get_axis_modifier<L>(&self, action: L) -> Option<f32> pub fn get_axis_modifier<L>(&self, action: L) -> Option<f32>
where where
L: ActionLabel L: ActionLabel
{ {
let action = self.actions.get(&action.label_hash()) let action = self.actions.get(&action.label_hash())?;
.unwrap_or_else(|| panic!("Action {action:?} was not found"));
match action.state { match action.state {
ActionState::Axis(v) => Some(v), ActionState::Axis(v) => Some(v),

File diff suppressed because it is too large Load Diff

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@ -6,7 +6,7 @@ use winit::{event::{MouseScrollDelta, WindowEvent}, keyboard::PhysicalKey};
use crate::{game::GameStages, plugin::Plugin, winit::DeviceEventPair, EventReader, EventWriter}; use crate::{game::GameStages, plugin::Plugin, winit::DeviceEventPair, EventReader, EventWriter};
use super::{events::*, InputButtons}; use super::{events::*, InputButtons, KeyCode};
fn write_scroll_delta(mouse_scroll_ev: &mut EventWriter<MouseScroll>, delta: &MouseScrollDelta) { fn write_scroll_delta(mouse_scroll_ev: &mut EventWriter<MouseScroll>, delta: &MouseScrollDelta) {
let event = match delta { let event = match delta {
@ -21,24 +21,24 @@ fn write_scroll_delta(mouse_scroll_ev: &mut EventWriter<MouseScroll>, delta: &Mo
mouse_scroll_ev.write(event); mouse_scroll_ev.write(event);
} }
fn write_key_event(key_buttons: &mut ResMut<InputButtons<winit::keyboard::KeyCode>>, physical_key: winit::keyboard::PhysicalKey, state: winit::event::ElementState) { fn write_key_event(key_buttons: &mut ResMut<InputButtons<KeyCode>>, physical_key: PhysicalKey, state: winit::event::ElementState) {
if let PhysicalKey::Code(code) = physical_key { if let PhysicalKey::Code(code) = physical_key {
key_buttons.add_input_from_winit(code, state); key_buttons.add_input_from_winit(KeyCode::from(code), state);
} }
} }
pub fn input_system( pub fn input_system(
mut key_code_res: ResMut<InputButtons<winit::keyboard::KeyCode>>, mut key_code_res: ResMut<InputButtons<KeyCode>>,
mut mouse_btn_res: ResMut<InputButtons<MouseButton>>, mut mouse_btn_res: ResMut<InputButtons<MouseButton>>,
mut touches_res: ResMut<Touches>, mut touches_res: ResMut<Touches>,
mut window_ev: EventReader<WindowEvent>, window_ev: EventReader<WindowEvent>,
mut device_ev: EventReader<DeviceEventPair>, device_ev: EventReader<DeviceEventPair>,
mut mouse_scroll_ev: EventWriter<MouseScroll>, mut mouse_scroll_ev: EventWriter<MouseScroll>,
mut mouse_btn_ev: EventWriter<MouseButton>, mouse_btn_ev: EventWriter<MouseButton>,
mut mouse_exact_ev: EventWriter<MouseExact>, mouse_exact_ev: EventWriter<MouseExact>,
mut mouse_entered_ev: EventWriter<CursorEnteredWindow>, mouse_entered_ev: EventWriter<CursorEnteredWindow>,
mut mouse_left_ev: EventWriter<CursorLeftWindow>, mouse_left_ev: EventWriter<CursorLeftWindow>,
mut mouse_motion_ev: EventWriter<MouseMotion>, mouse_motion_ev: EventWriter<MouseMotion>,
) -> anyhow::Result<()> { ) -> anyhow::Result<()> {
while let Some(event) = window_ev.read() { while let Some(event) = window_ev.read() {
match event.deref() { match event.deref() {
@ -122,7 +122,7 @@ pub struct InputPlugin;
impl Plugin for InputPlugin { impl Plugin for InputPlugin {
fn setup(&mut self, app: &mut crate::game::App) { fn setup(&mut self, app: &mut crate::game::App) {
app.add_resource(InputButtons::<winit::keyboard::KeyCode>::default()); app.add_resource(InputButtons::<KeyCode>::default());
app.add_resource(InputButtons::<MouseButton>::default()); app.add_resource(InputButtons::<MouseButton>::default());
app.add_resource(Touches::default()); app.add_resource(Touches::default());

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@ -11,7 +11,6 @@ pub mod input;
pub mod winit; pub mod winit;
pub mod as_any; pub mod as_any;
pub mod plugin; pub mod plugin;
pub mod change_tracker;
mod event; mod event;
pub use event::*; pub use event::*;
@ -29,7 +28,4 @@ pub use lyra_ecs as ecs;
pub use lyra_math as math; pub use lyra_math as math;
pub use lyra_reflect as reflect; pub use lyra_reflect as reflect;
#[cfg(feature = "scripting")]
pub use lyra_scripting as script;
pub use plugin::DefaultPlugins; pub use plugin::DefaultPlugins;

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@ -1,8 +1,9 @@
use lyra_reflect::Reflect;
use winit::dpi::PhysicalSize; use winit::dpi::PhysicalSize;
use crate::{math::{Angle, OPENGL_TO_WGPU_MATRIX}, scene::CameraComponent}; use crate::{math::{Angle, OPENGL_TO_WGPU_MATRIX}, scene::CameraComponent};
#[derive(Debug, Clone, PartialEq, Eq)] #[derive(Debug, Clone, Copy, PartialEq, Eq, Reflect)]
pub enum CameraProjectionMode { pub enum CameraProjectionMode {
/// 3d camera projection /// 3d camera projection
Perspective, Perspective,

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@ -1,8 +1,9 @@
use lyra_ecs::Component; use lyra_ecs::Component;
use lyra_reflect::Reflect;
use crate::{math::{Angle, Transform}, render::camera::CameraProjectionMode}; use crate::{math::{Angle, Transform}, render::camera::CameraProjectionMode};
#[derive(Clone, Component)] #[derive(Clone, Component, Reflect)]
pub struct CameraComponent { pub struct CameraComponent {
pub transform: Transform, pub transform: Transform,
pub fov: Angle, pub fov: Angle,

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@ -1,5 +1,6 @@
use glam::{EulerRot, Quat, Vec3}; use glam::{EulerRot, Quat, Vec3};
use lyra_ecs::{query::{Res, View}, Component}; use lyra_ecs::{query::{Res, View}, Component};
use lyra_reflect::Reflect;
use crate::{game::App, input::ActionHandler, plugin::Plugin, DeltaTime}; use crate::{game::App, input::ActionHandler, plugin::Plugin, DeltaTime};
@ -12,36 +13,29 @@ pub const ACTLBL_LOOK_LEFT_RIGHT: &str = "LookLeftRight";
pub const ACTLBL_LOOK_UP_DOWN: &str = "LookUpDown"; pub const ACTLBL_LOOK_UP_DOWN: &str = "LookUpDown";
pub const ACTLBL_LOOK_ROLL: &str = "LookRoll"; pub const ACTLBL_LOOK_ROLL: &str = "LookRoll";
#[derive(Clone, Component)] #[derive(Clone, Component, Reflect)]
pub struct FreeFlyCamera { pub struct FreeFlyCamera {
pub speed: f32, pub speed: f32,
pub slow_speed_factor: f32,
pub look_speed: f32, pub look_speed: f32,
pub mouse_sensitivity: f32, pub mouse_sensitivity: f32,
pub look_with_keys: bool,
} }
impl Default for FreeFlyCamera { impl Default for FreeFlyCamera {
fn default() -> Self { fn default() -> Self {
Self { Self {
speed: 4.0, speed: 4.0,
slow_speed_factor: 0.25,
look_speed: 0.5, look_speed: 0.5,
mouse_sensitivity: 0.9, mouse_sensitivity: 0.9,
look_with_keys: false,
} }
} }
} }
impl FreeFlyCamera { impl FreeFlyCamera {
#[allow(dead_code)] pub fn new(speed: f32, look_speed: f32, mouse_sensitivity: f32) -> Self {
pub fn new(speed: f32, slow_speed_factor: f32, look_speed: f32, mouse_sensitivity: f32, look_with_keys: bool) -> Self {
Self { Self {
speed, speed,
slow_speed_factor,
look_speed, look_speed,
mouse_sensitivity, mouse_sensitivity,
look_with_keys,
} }
} }
} }

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@ -1,37 +0,0 @@
use lyra_ecs::Component;
use lyra_reflect::Reflect;
use lyra_resource::{gltf::Mesh, ResHandle};
#[derive(Clone, Component, Reflect)]
pub struct MeshComponent {
#[reflect(skip)]
pub mesh: ResHandle<Mesh>,
}
impl From<ResHandle<Mesh>> for MeshComponent {
fn from(value: ResHandle<Mesh>) -> Self {
Self {
mesh: value
}
}
}
impl std::ops::Deref for MeshComponent {
type Target = ResHandle<Mesh>;
fn deref(&self) -> &Self::Target {
&self.mesh
}
}
impl std::ops::DerefMut for MeshComponent {
fn deref_mut(&mut self) -> &mut Self::Target {
&mut self.mesh
}
}
impl MeshComponent {
pub fn new(mesh: ResHandle<Mesh>) -> Self {
Self::from(mesh)
}
}

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@ -1,6 +1,3 @@
pub mod mesh;
pub use mesh::*;
pub mod camera; pub mod camera;
pub use camera::*; pub use camera::*;

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@ -4,3 +4,5 @@ pub use plugin::*;
mod window; mod window;
pub use window::*; pub use window::*;
pub use winit::dpi as dpi;

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@ -3,6 +3,7 @@ use std::{collections::VecDeque, sync::Arc};
use async_std::task::block_on; use async_std::task::block_on;
use glam::{DVec2, IVec2, UVec2}; use glam::{DVec2, IVec2, UVec2};
use lyra_ecs::Entity; use lyra_ecs::Entity;
use lyra_reflect::Reflect;
use rustc_hash::FxHashMap; use rustc_hash::FxHashMap;
use tracing::{debug, error, warn}; use tracing::{debug, error, warn};
use winit::{ use winit::{
@ -12,6 +13,9 @@ use winit::{
window::{Window, WindowAttributes, WindowId}, window::{Window, WindowAttributes, WindowId},
}; };
pub use winit::event::{DeviceId, DeviceEvent, MouseScrollDelta, ElementState, RawKeyEvent};
pub use winit::keyboard::PhysicalKey;
use crate::{ use crate::{
game::{App, WindowState}, game::{App, WindowState},
plugin::Plugin, plugin::Plugin,
@ -22,10 +26,12 @@ use super::WindowOptions;
/// A struct that contains a [`DeviceEvent`](winit::event::DeviceEvent) with its source /// A struct that contains a [`DeviceEvent`](winit::event::DeviceEvent) with its source
/// [`DeviceId`](winit::event::DeviceId). /// [`DeviceId`](winit::event::DeviceId).
#[derive(Debug, Clone)] #[derive(Debug, Clone, Reflect)]
pub struct DeviceEventPair { pub struct DeviceEventPair {
pub device_src: winit::event::DeviceId, #[reflect(skip)]
pub event: winit::event::DeviceEvent, pub device_src: DeviceId,
#[reflect(skip)]
pub event: DeviceEvent,
} }
pub struct WinitPlugin { pub struct WinitPlugin {

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@ -28,10 +28,6 @@ impl Default for Transform {
// TODO: https://www.brainvoyager.com/bv/doc/UsersGuide/CoordsAndTransforms/SpatialTransformationMatrices.html // TODO: https://www.brainvoyager.com/bv/doc/UsersGuide/CoordsAndTransforms/SpatialTransformationMatrices.html
#[allow(dead_code)]
const ZERO_V3: Vec3 = Vec3::new(0.0, 0.0, 0.0);
const ONE_V3: Vec3 = Vec3::new(1.0, 1.0, 1.0);
#[allow(dead_code)] #[allow(dead_code)]
impl Transform { impl Transform {
pub fn new(translation: Vec3, rotation: Quat, scale: Vec3) -> Self { pub fn new(translation: Vec3, rotation: Quat, scale: Vec3) -> Self {
@ -43,33 +39,42 @@ impl Transform {
} }
pub fn from_translation(translation: Vec3) -> Self { pub fn from_translation(translation: Vec3) -> Self {
Self::new(translation, Quat::IDENTITY, ONE_V3) Self::new(translation, Quat::IDENTITY, Vec3::ONE)
} }
pub fn from_xyz(x: f32, y: f32, z: f32) -> Self { pub fn from_xyz(x: f32, y: f32, z: f32) -> Self {
Self::new(Vec3::new(x, y, z), Quat::IDENTITY, ONE_V3) Self::new(Vec3::new(x, y, z), Quat::IDENTITY, Vec3::ONE)
} }
pub fn calculate_mat4(&self) -> Mat4 { pub fn calculate_mat4(&self) -> Mat4 {
Mat4::from_scale_rotation_translation(self.scale, self.rotation, self.translation) Mat4::from_scale_rotation_translation(self.scale, self.rotation, self.translation)
} }
/// Get the forward vector of the Transform. /// Returns a normalized vector pointing in the direction the Transform is facing.
///
/// This represents the front of the object can be used for movement, camera orientation, and
/// other directional calculations.
pub fn forward(&self) -> Vec3 { pub fn forward(&self) -> Vec3 {
(self.rotation * -Vec3::Z).normalize() (self.rotation * -Vec3::Z).normalize()
} }
/// Get the left vector of the Transform. /// Returns a normalized vector pointing to the left side of the Transform.
///
/// The vector is in local space. This represents the direction that is
/// perpendicular to the object's forward direction.
pub fn left(&self) -> Vec3 { pub fn left(&self) -> Vec3 {
(self.rotation * Vec3::X).normalize() (self.rotation * Vec3::X).normalize()
} }
/// Get the up vector of the Transform. /// Returns a normalized vector that indicates the upward direction of the Transform.
///
/// This vector is commonly used to define an object's orientation and is essential for maintaining
/// consistent vertical alignment in 3D environments, such as for camera positioning and object alignment.
pub fn up(&self) -> Vec3 { pub fn up(&self) -> Vec3 {
(self.rotation * Vec3::Y).normalize() (self.rotation * Vec3::Y).normalize()
} }
/// Rotate this transform using a Quaternion /// Rotate this transform using a Quaternion.
pub fn rotate(&mut self, rotation: Quat) { pub fn rotate(&mut self, rotation: Quat) {
self.rotation = (rotation * self.rotation).normalize(); self.rotation = (rotation * self.rotation).normalize();
} }
@ -110,7 +115,7 @@ impl Transform {
let mut res = *self; let mut res = *self;
res.translation = self.translation.lerp(rhs.translation, alpha); res.translation = self.translation.lerp(rhs.translation, alpha);
// normalize rotation here to avoid panics // normalize rotation here to avoid panics
res.rotation = self.rotation.lerp(rhs.rotation.normalize(), alpha); res.rotation = self.rotation.normalize().lerp(rhs.rotation.normalize(), alpha);
res.scale = self.scale.lerp(rhs.scale, alpha); res.scale = self.scale.lerp(rhs.scale, alpha);
res res
} else { } else {

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@ -1,6 +1,7 @@
use lyra_math::Angle;
use lyra_reflect_derive::{impl_reflect_simple_struct, impl_reflect_trait_value}; use lyra_reflect_derive::{impl_reflect_simple_struct, impl_reflect_trait_value};
use crate::{lyra_engine, Method, Reflect}; use crate::{lyra_engine, Enum, Method, Reflect, ReflectMut, ReflectRef};
impl_reflect_simple_struct!(lyra_math::Vec2, fields(x = f32, y = f32)); impl_reflect_simple_struct!(lyra_math::Vec2, fields(x = f32, y = f32));
impl_reflect_simple_struct!(lyra_math::Vec3, fields(x = f32, y = f32, z = f32)); impl_reflect_simple_struct!(lyra_math::Vec3, fields(x = f32, y = f32, z = f32));
@ -17,3 +18,131 @@ impl_reflect_simple_struct!(
); );
impl_reflect_trait_value!(lyra_math::Mat4); impl_reflect_trait_value!(lyra_math::Mat4);
impl Reflect for Angle {
fn name(&self) -> String {
"Angle".into()
}
fn type_id(&self) -> std::any::TypeId {
std::any::TypeId::of::<Self>()
}
fn as_any(&self) -> &dyn std::any::Any {
self
}
fn as_any_mut(&mut self) -> &mut dyn std::any::Any {
self
}
fn as_boxed_any(self: Box<Self>) -> Box<dyn std::any::Any> {
self
}
fn apply(&mut self, val: &dyn Reflect) {
if let ReflectRef::Enum(e) = val.reflect_ref() {
let s = e.as_any().downcast_ref::<Self>()
.expect("cannot apply mismatched reflected enum");
*self = *s;
} else {
panic!("Provided value was not an enum!");
}
}
fn clone_inner(&self) -> Box<dyn Reflect> {
Box::new(self.clone())
}
fn reflect_ref(&self) -> crate::ReflectRef {
ReflectRef::Enum(self)
}
fn reflect_mut(&mut self) -> crate::ReflectMut {
ReflectMut::Enum(self)
}
fn reflect_val(&self) -> &dyn Reflect {
self
}
fn reflect_val_mut(&mut self) -> &mut dyn Reflect {
self
}
}
impl Enum for Angle {
fn field(&self, _: &str) -> Option<&dyn Reflect> {
// no struct variants
None
}
fn field_mut(&mut self, _: &str) -> Option<&mut dyn Reflect> {
// no struct variants
None
}
fn field_at(&self, idx: usize) -> Option<&dyn Reflect> {
// all variants only have one tuple field
if idx != 0 {
return None;
}
match self {
Angle::Degrees(v) => Some(v),
Angle::Radians(v) => Some(v),
}
}
fn field_at_mut(&mut self, idx: usize) -> Option<&mut dyn Reflect> {
// all variants only have one tuple field
if idx != 0 {
return None;
}
match self {
Angle::Degrees(v) => Some(v),
Angle::Radians(v) => Some(v),
}
}
fn field_name_at(&self, _: usize) -> Option<String> {
// no struct variants
None
}
fn has_field(&self, _: &str) -> bool {
// no struct variants
false
}
fn fields_len(&self) -> usize {
1
}
fn variants_len(&self) -> usize {
2
}
fn variant_name(&self) -> String {
match self {
Angle::Degrees(_) => "degrees".into(),
Angle::Radians(_) => "radians".into(),
}
}
fn variant_index(&self) -> usize {
match self {
Angle::Degrees(_) => 0,
Angle::Radians(_) => 1,
}
}
fn is_variant_name(&self, name: &str) -> bool {
self.variant_name() == name
}
fn variant_type(&self) -> crate::EnumType {
crate::EnumType::Tuple
}
}

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@ -2,6 +2,7 @@ use std::ops::Deref;
use lyra_ecs::{query::{filter::{Has, Not}, Entities, View}, relation::{ChildOf, RelationOriginComponent}, Component, Entity, World}; use lyra_ecs::{query::{filter::{Has, Not}, Entities, View}, relation::{ChildOf, RelationOriginComponent}, Component, Entity, World};
use lyra_math::Transform; use lyra_math::Transform;
use lyra_reflect::Reflect;
use crate::lyra_engine; use crate::lyra_engine;
/// The world transform of an entity. /// The world transform of an entity.
@ -11,7 +12,7 @@ use crate::lyra_engine;
/// you should use its [`Transform`]. You cannot mutate [`WorldTransform`] as its managed completey /// you should use its [`Transform`]. You cannot mutate [`WorldTransform`] as its managed completey
/// by the [`system_update_world_transforms`] system. For the WorldTransform to work properly, you /// by the [`system_update_world_transforms`] system. For the WorldTransform to work properly, you
/// must have both a [`Transform`] and [`WorldTransform`] on the entities in the scene. /// must have both a [`Transform`] and [`WorldTransform`] on the entities in the scene.
#[derive(Debug, Copy, Clone, PartialEq, Default, Component)] #[derive(Debug, Copy, Clone, PartialEq, Default, Component, Reflect)]
pub struct WorldTransform(pub(crate) Transform); pub struct WorldTransform(pub(crate) Transform);
impl Deref for WorldTransform { impl Deref for WorldTransform {

View File

@ -0,0 +1,143 @@
use syn::{parenthesized, token, Token};
pub(crate) enum FieldType {
Unknown,
Type(syn::Path),
Wrapped(syn::Path),
}
impl FieldType {
pub fn is_unknown(&self) -> bool {
matches!(self, FieldType::Unknown)
}
pub fn is_wrapped(&self) -> bool {
matches!(self, FieldType::Wrapped(_))
}
pub fn get_type_path(&self) -> Option<&syn::Path> {
match self {
FieldType::Unknown => None,
FieldType::Type(path) => Some(path),
FieldType::Wrapped(path) => Some(path),
}
}
}
pub(crate) struct Field {
pub field: syn::Ident,
pub field_ty: FieldType,
pub skip_setter: bool,
pub setter: Option<syn::Block>,
pub getter: Option<syn::Block>,
}
impl Field {
fn parse_extended(input: syn::parse::ParseStream) -> syn::Result<Self> {
let field_name = input.parse()?;
let fty = if input.peek(Token![:]) {
let _col: Token![:] = input.parse()?;
let s: syn::Path = input.parse()?;
let mut fty = FieldType::Type(s.clone());
if let Some(ident) = s.get_ident() {
if ident.to_string() == "wrap" {
let content;
let _parens: token::Paren = parenthesized!(content in input);
fty = FieldType::Wrapped(content.parse()?);
}
}
fty
} else {
FieldType::Unknown
};
let mut s = Self {
field: field_name,
field_ty: fty,
skip_setter: false,
setter: None,
getter: None,
};
while input.peek(Token![,]) {
let _: Token![,] = input.parse()?;
if input.peek(syn::Ident) {
let ident: syn::Ident = input.parse()?;
let ident_str = ident.to_string();
let ident_str = ident_str.as_str();
match ident_str {
"skip_set" => {
s.skip_setter = true;
}
"set" => {
let _eq: Token![=] = input.parse()?;
s.setter = Some(input.parse()?);
}
"get" => {
let _eq: Token![=] = input.parse()?;
s.getter = Some(input.parse()?);
}
_ => {
return Err(syn::Error::new_spanned(ident, "unknown wrapper command"));
}
}
}
}
if (s.getter.is_some() || s.setter.is_some()) && s.field_ty.is_wrapped() {
return Err(syn::Error::new(
input.span(),
"cannot specify custom getter or setter \
with wrapped type",
));
}
Ok(s)
}
}
impl syn::parse::Parse for Field {
fn parse(input: syn::parse::ParseStream) -> syn::Result<Self> {
if input.peek(token::Paren) {
let content;
let _parens: token::Paren = parenthesized!(content in input);
Self::parse_extended(&content)
} else {
let field_name = input.parse()?;
let fty = if input.peek(Token![:]) {
let _col: Token![:] = input.parse()?;
let s: syn::Path = input.parse()?;
let mut fty = FieldType::Type(s.clone());
if let Some(ident) = s.get_ident() {
if ident.to_string() == "wrap" {
let content;
let _parens: token::Paren = parenthesized!(content in input);
fty = FieldType::Wrapped(content.parse()?);
}
}
fty
} else {
FieldType::Unknown
};
Ok(Self {
field: field_name,
field_ty: fty,
skip_setter: false,
setter: None,
getter: None,
})
}
}
}

View File

@ -1,10 +1,10 @@
use quote::{format_ident, quote}; use quote::{format_ident, quote};
use syn::{braced, parenthesized, parse_macro_input, token, Ident, Path, Token}; use syn::{braced, parenthesized, parse_macro_input, token, Ident, Path, Token};
struct FieldGetter { pub(crate) struct FieldGetter {
field: Ident, pub field: Ident,
body: Option<syn::Block>, pub body: Option<syn::Block>,
wrapper_type: Option<syn::Path>, pub wrapper_type: Option<syn::Path>,
} }
impl FieldGetter { impl FieldGetter {
@ -131,6 +131,7 @@ impl syn::parse::Parse for HandleWrapUsage {
pub(crate) fn lua_wrap_handle_impl(input: proc_macro::TokenStream) -> proc_macro::TokenStream { pub(crate) fn lua_wrap_handle_impl(input: proc_macro::TokenStream) -> proc_macro::TokenStream {
let input = parse_macro_input!(input as HandleWrapUsage); let input = parse_macro_input!(input as HandleWrapUsage);
let handle_path = &input.type_path;
let handle_name = &input.type_path.segments.last().unwrap().ident; let handle_name = &input.type_path.segments.last().unwrap().ident;
let base_name = input.override_name.unwrap_or_else(|| handle_name.clone()); let base_name = input.override_name.unwrap_or_else(|| handle_name.clone());
@ -145,7 +146,7 @@ pub(crate) fn lua_wrap_handle_impl(input: proc_macro::TokenStream) -> proc_macro
let field_creator = match &g.wrapper_type { let field_creator = match &g.wrapper_type {
Some(wrap) => { Some(wrap) => {
quote!(#wrap(data.#field).into_lua(lua)) quote!(#wrap(data.#field.clone()).into_lua(lua))
}, },
None => match &g.body { None => match &g.body {
Some(body) => { Some(body) => {
@ -170,18 +171,18 @@ pub(crate) fn lua_wrap_handle_impl(input: proc_macro::TokenStream) -> proc_macro
quote! { quote! {
#[derive(Clone, Reflect)] #[derive(Clone, Reflect)]
pub struct #wrapper_name(pub ResHandle<#handle_name>); pub struct #wrapper_name(pub ResHandle<#handle_path>);
impl Deref for #wrapper_name { impl Deref for #wrapper_name {
type Target = ResHandle<#handle_name>; type Target = ResHandle<#handle_path>;
fn deref(&self) -> &Self::Target { fn deref(&self) -> &Self::Target {
&self.0 &self.0
} }
} }
impl From<ResHandle<#handle_name>> for #wrapper_name { impl From<ResHandle<#handle_path>> for #wrapper_name {
fn from(value: ResHandle<#handle_name>) -> Self { fn from(value: ResHandle<#handle_path>) -> Self {
#wrapper_name(value) #wrapper_name(value)
} }
} }
@ -224,7 +225,7 @@ pub(crate) fn lua_wrap_handle_impl(input: proc_macro::TokenStream) -> proc_macro
}); });
methods.add_function(FN_NAME_INTERNAL_REFLECT_TYPE, |_, ()| { methods.add_function(FN_NAME_INTERNAL_REFLECT_TYPE, |_, ()| {
Ok(ScriptBorrow::from_component::<ResHandle<#handle_name>>(None)) Ok(ScriptBorrow::from_component::<ResHandle<#handle_path>>(None))
}); });
methods.add_method(FN_NAME_INTERNAL_REFLECT, |_, this, ()| { methods.add_method(FN_NAME_INTERNAL_REFLECT, |_, this, ()| {
Ok(ScriptBorrow::from_component(Some(this.0.clone()))) Ok(ScriptBorrow::from_component(Some(this.0.clone())))
@ -246,8 +247,22 @@ pub(crate) fn lua_wrap_handle_impl(input: proc_macro::TokenStream) -> proc_macro
} }
impl LuaWrapper for #wrapper_name { impl LuaWrapper for #wrapper_name {
type Wrap = ResHandle<#handle_path>;
fn wrapped_type_id() -> std::any::TypeId { fn wrapped_type_id() -> std::any::TypeId {
TypeId::of::<ResHandle<#handle_name>>() TypeId::of::<ResHandle<#handle_path>>()
}
fn into_wrapped(self) -> Self::Wrap {
self.0
}
}
impl LuaHandleWrapper for #wrapper_name {
type ResourceType = #handle_path;
fn from_handle(handle: ResHandle<Self::ResourceType>) -> Self {
Self(handle)
} }
} }
}.into() }.into()

View File

@ -5,9 +5,12 @@ use syn::{parse_macro_input, Token};
mod mat_wrapper; mod mat_wrapper;
mod vec_wrapper; mod vec_wrapper;
use to_lua_macro::to_lua_struct_impl;
use vec_wrapper::VecWrapper; use vec_wrapper::VecWrapper;
mod lua_macro; mod lua_macro;
mod to_lua_macro;
mod field;
mod handle_macro; mod handle_macro;
@ -24,6 +27,11 @@ pub fn lua_wrap_handle(input: proc_macro::TokenStream) -> proc_macro::TokenStrea
lua_wrap_handle_impl(input) lua_wrap_handle_impl(input)
} }
#[proc_macro]
pub fn to_lua_convert(input: proc_macro::TokenStream) -> proc_macro::TokenStream {
to_lua_struct_impl(input)
}
pub(crate) struct VecExtensionInputs { pub(crate) struct VecExtensionInputs {
#[allow(dead_code)] #[allow(dead_code)]
pub type_path: syn::Path, pub type_path: syn::Path,

View File

@ -1,13 +1,16 @@
use proc_macro2::Span; use proc_macro2::Span;
use quote::quote; use quote::quote;
use syn::{parenthesized, parse_macro_input, punctuated::Punctuated, token, Ident, Path, Token}; use syn::{
braced, parenthesized, parse_macro_input, punctuated::Punctuated, token, Ident, Path, Token,
};
use crate::{FN_NAME_INTERNAL_REFLECT, FN_NAME_INTERNAL_REFLECT_TYPE}; use crate::{field::{Field, FieldType}, FN_NAME_INTERNAL_REFLECT, FN_NAME_INTERNAL_REFLECT_TYPE};
#[derive(Clone, Copy, Debug, PartialEq)] #[derive(Clone, Copy, Debug, PartialEq)]
enum SkipType { enum SkipType {
/// Skips implementing /// Skips implementing
LuaReflect LuaReflect,
LuaWrapper,
} }
impl syn::parse::Parse for SkipType { impl syn::parse::Parse for SkipType {
@ -17,9 +20,8 @@ impl syn::parse::Parse for SkipType {
match name_str.as_str() { match name_str.as_str() {
"lua_reflect" => Ok(Self::LuaReflect), "lua_reflect" => Ok(Self::LuaReflect),
_ => { "lua_wrapper" => Ok(Self::LuaWrapper),
Err(syn::Error::new_spanned(name, "unknown skip type")) _ => Err(syn::Error::new_spanned(name, "unknown skip type")),
}
} }
} }
} }
@ -43,12 +45,8 @@ impl MetaMethod {
let mm_str = mm_str.as_str(); let mm_str = mm_str.as_str();
match mm_str { match mm_str {
"Add" | "Sub" | "Div" | "Mul" | "Mod" | "Eq" | "Shl" | "Shr" | "BAnd" | "BOr" "Add" | "Sub" | "Div" | "Mul" | "Mod" | "Eq" | "Shl" | "Shr" | "BAnd" | "BOr"
| "BXor" => { | "BXor" => true,
true "Unm" | "BNot" | "ToString" => false,
},
"Unm" | "BNot" | "ToString" => {
false
},
_ => todo!(), _ => todo!(),
} }
} }
@ -58,7 +56,10 @@ impl MetaMethod {
/// Parameters /// Parameters
/// * `metamethod` - The ident of the metamethod that is being implemented. /// * `metamethod` - The ident of the metamethod that is being implemented.
/// * `other` - The tokens of the argument used in the metamethod. /// * `other` - The tokens of the argument used in the metamethod.
fn get_method_body(metamethod: &Ident, other: proc_macro2::TokenStream) -> proc_macro2::TokenStream { fn get_method_body(
metamethod: &Ident,
other: proc_macro2::TokenStream,
) -> proc_macro2::TokenStream {
let mm_str = metamethod.to_string(); let mm_str = metamethod.to_string();
let mm_str = mm_str.as_str(); let mm_str = mm_str.as_str();
match mm_str { match mm_str {
@ -75,17 +76,17 @@ impl MetaMethod {
quote! { quote! {
Ok(Self(this.0 #symbol #other)) Ok(Self(this.0 #symbol #other))
} }
}, }
"Unm" => { "Unm" => {
quote! { quote! {
Ok(Self(-this.0)) Ok(Self(-this.0))
} }
}, }
"Eq" => { "Eq" => {
quote! { quote! {
Ok(this.0 == #other) Ok(this.0 == #other)
} }
}, }
"Shl" => { "Shl" => {
quote! { quote! {
Ok(Self(this.0 << #other)) Ok(Self(this.0 << #other))
@ -95,41 +96,47 @@ impl MetaMethod {
quote! { quote! {
Ok(Self(this.0 >> #other)) Ok(Self(this.0 >> #other))
} }
}, }
"BAnd" | "BOr" | "BXor" => { "BAnd" | "BOr" | "BXor" => {
let symbol = match mm_str { let symbol = match mm_str {
"BAnd" => { "BAnd" => {
quote!(&) quote!(&)
}, }
"BOr" => { "BOr" => {
quote!(|) quote!(|)
}, }
"BXor" => { "BXor" => {
quote!(^) quote!(^)
}, }
_ => unreachable!() // the string was just checked to be one of these _ => unreachable!(), // the string was just checked to be one of these
}; };
quote! { quote! {
Ok(Self(this.0 #symbol #other)) Ok(Self(this.0 #symbol #other))
} }
}, }
"BNot" => { "BNot" => {
quote! { quote! {
Ok(Self(!this.0)) Ok(Self(!this.0))
} }
}, }
"ToString" => { "ToString" => {
quote! { quote! {
Ok(format!("{:?}", this.0)) Ok(format!("{:?}", this.0))
} }
}, }
_ => syn::Error::new_spanned(metamethod, _ => {
"unsupported auto implementation of metamethod").to_compile_error(), syn::Error::new_spanned(metamethod, "unsupported auto implementation of metamethod")
.to_compile_error()
}
} }
} }
fn get_body_for_arg(mt_ident: &Ident, arg_ident: &Ident, arg_param: proc_macro2::TokenStream) -> proc_macro2::TokenStream { fn get_body_for_arg(
mt_ident: &Ident,
arg_ident: &Ident,
arg_param: proc_macro2::TokenStream,
) -> proc_macro2::TokenStream {
let other: proc_macro2::TokenStream = if Self::is_arg_wrapper(arg_ident) { let other: proc_macro2::TokenStream = if Self::is_arg_wrapper(arg_ident) {
// Lua wrappers must be dereferenced // Lua wrappers must be dereferenced
quote! { quote! {
@ -167,7 +174,6 @@ impl MetaMethod {
}); });
} }
} }
} else if self.arg.len() == 1 { } else if self.arg.len() == 1 {
let first = self.arg.iter().next().unwrap(); let first = self.arg.iter().next().unwrap();
let body = Self::get_body_for_arg(&self.name, first, quote!(v)); let body = Self::get_body_for_arg(&self.name, first, quote!(v));
@ -184,26 +190,30 @@ impl MetaMethod {
let is = i.to_string(); let is = i.to_string();
let is = is.as_str(); let is = is.as_str();
match is { match is {
"u8" | "u16" | "u32" | "u64" | "u128" "u8" | "u16" | "u32" | "u64" | "u128" | "i8" | "i16" | "i32" | "i64"
| "i8" | "i16" | "i32" | "i64" | "i128" | "i128" | "f32" | "f64" => true,
| "f32" | "f64" => true,
_ => false, _ => false,
} }
}); });
if let Some(num_ident) = num_ident { if let Some(num_ident) = num_ident {
let body = Self::get_body_for_arg(&self.name, num_ident, quote!(n as #num_ident)); let body =
Self::get_body_for_arg(&self.name, num_ident, quote!(n as #num_ident));
quote! { quote! {
mlua::Value::Number(n) => { mlua::Value::Number(n) => {
#body #body
}, },
} }
} else { quote!() } } else {
quote!()
}
}; };
let userdata_arm = { let userdata_arm = {
let wrappers: Vec<&Ident> = self.arg.iter() let wrappers: Vec<&Ident> = self
.arg
.iter()
.filter(|i| Self::is_arg_wrapper(i)) .filter(|i| Self::is_arg_wrapper(i))
.collect(); .collect();
@ -215,7 +225,6 @@ impl MetaMethod {
#body #body
} }
} }
}); });
quote! { quote! {
@ -274,17 +283,15 @@ impl syn::parse::Parse for MetaMethod {
fn parse(input: syn::parse::ParseStream) -> syn::Result<Self> { fn parse(input: syn::parse::ParseStream) -> syn::Result<Self> {
let name: Ident = input.parse()?; let name: Ident = input.parse()?;
let mut s = Self { let mut s = Self { name, arg: vec![] };
name,
arg: vec![],
};
// try to parse args // try to parse args
if input.peek(syn::token::Paren) { if input.peek(syn::token::Paren) {
let content; let content;
let _parens: syn::token::Paren = parenthesized!(content in input); let _parens: syn::token::Paren = parenthesized!(content in input);
let arg: Punctuated<Ident, Token![,]> = content.parse_terminated(Ident::parse, Token![,])?; let arg: Punctuated<Ident, Token![,]> =
content.parse_terminated(Ident::parse, Token![,])?;
s.arg = arg.into_iter().collect(); // convert to Vec<Ident> s.arg = arg.into_iter().collect(); // convert to Vec<Ident>
} }
@ -296,7 +303,7 @@ struct WrapUsage {
type_path: syn::Path, type_path: syn::Path,
/// The extra derives of the type. /// The extra derives of the type.
override_name: Option<Ident>, override_name: Option<Ident>,
auto_fields: Vec<Ident>, auto_fields: Vec<Field>,
auto_derives: Vec<Ident>, auto_derives: Vec<Ident>,
auto_new: bool, auto_new: bool,
meta_methods: Vec<MetaMethod>, meta_methods: Vec<MetaMethod>,
@ -337,62 +344,72 @@ impl syn::parse::Parse for WrapUsage {
let name: Ident = input.parse()?; let name: Ident = input.parse()?;
s.override_name = Some(name); s.override_name = Some(name);
}, }
"new" => { "new" => {
s.auto_new = true; s.auto_new = true;
new_ident = Some(ident.clone()); new_ident = Some(ident.clone());
}, }
"skip" => { "skip" => {
let content; let content;
let _parens: token::Paren = parenthesized!(content in input); let _parens: token::Paren = parenthesized!(content in input);
let terminated = content.parse_terminated(SkipType::parse, Token![,])?; let terminated = content.parse_terminated(SkipType::parse, Token![,])?;
s.skips = terminated.into_iter().collect(); s.skips = terminated.into_iter().collect();
}, }
"derives" => { "derives" => {
if input.peek(token::Paren) { if input.peek(token::Paren) {
let content; let content;
let _parens: token::Paren = parenthesized!(content in input); let _parens: token::Paren = parenthesized!(content in input);
let derives: Punctuated<Ident, Token![,]> = content.parse_terminated(Ident::parse, Token![,])?; let derives: Punctuated<Ident, Token![,]> =
content.parse_terminated(Ident::parse, Token![,])?;
s.auto_derives = derives.into_iter().collect(); s.auto_derives = derives.into_iter().collect();
} }
},
"fields" => {
if input.peek(token::Paren) {
let content;
let _parens: token::Paren = parenthesized!(content in input);
let fields: Punctuated<Ident, Token![,]> = content.parse_terminated(Ident::parse, Token![,])?;
s.auto_fields = fields.into_iter().collect();
} }
}, "fields" => {
let _eq: Token![=] = input.parse()?;
if input.peek(token::Brace) {
let content;
let _braced: token::Brace = braced!(content in input);
let terminated = content.parse_terminated(Field::parse, Token![,])?;
s.auto_fields.extend(terminated.into_iter());
}
}
"metamethods" => { "metamethods" => {
if input.peek(token::Paren) { if input.peek(token::Paren) {
let content; let content;
let _bracket: token::Paren = parenthesized!(content in input); let _bracket: token::Paren = parenthesized!(content in input);
let meta_methods: Punctuated<MetaMethod, Token![,]> = content.parse_terminated(MetaMethod::parse, Token![,])?; let meta_methods: Punctuated<MetaMethod, Token![,]> =
content.parse_terminated(MetaMethod::parse, Token![,])?;
s.meta_methods = meta_methods.into_iter().collect(); s.meta_methods = meta_methods.into_iter().collect();
} }
}, }
"extra_fields" => { "extra_fields" => {
let _eq: Token![=] = input.parse()?; let _eq: Token![=] = input.parse()?;
s.extra_fields = Some(input.parse::<syn::Block>()?); s.extra_fields = Some(input.parse::<syn::Block>()?);
}, }
"extra_methods" => { "extra_methods" => {
let _eq: Token![=] = input.parse()?; let _eq: Token![=] = input.parse()?;
s.extra_methods = Some(input.parse::<syn::Block>()?); s.extra_methods = Some(input.parse::<syn::Block>()?);
}, }
_ => { _ => {
return Err(syn::Error::new_spanned(ident, format!("unknown wrapper command: '{}'", ident_str))); return Err(syn::Error::new_spanned(
ident,
format!("unknown wrapper command: '{}'", ident_str),
));
} }
} }
} }
} }
if s.auto_new && s.auto_fields.is_empty() { if s.auto_new && s.auto_fields.is_empty() {
return Err(syn::Error::new_spanned(new_ident.unwrap(), "must specify 'fields' when auto creating new function")); return Err(syn::Error::new_spanned(
new_ident.unwrap(),
"must specify 'fields' when auto creating new function",
));
} }
Ok(s) Ok(s)
@ -404,51 +421,50 @@ pub fn wrap_lua_struct_impl(input: proc_macro::TokenStream) -> proc_macro::Token
let input = parse_macro_input!(input as WrapUsage); let input = parse_macro_input!(input as WrapUsage);
let path: Path = input.type_path; let path: Path = input.type_path;
let type_name = &path.segments.last() let type_name = &path
.segments
.last()
.expect("Failure to find typename in macro usage!") .expect("Failure to find typename in macro usage!")
.ident; .ident;
let wrapper_typename = input.override_name let wrapper_typename = input
.override_name
.unwrap_or_else(|| Ident::new(&format!("Lua{}", type_name), Span::call_site())); .unwrap_or_else(|| Ident::new(&format!("Lua{}", type_name), Span::call_site()));
let derive_idents_iter = input.auto_derives.iter(); let derive_idents_iter = input.auto_derives.iter();
let extra_fields = input.extra_fields; let extra_fields = input.extra_fields;
let extra_methods = input.extra_methods; let extra_methods = input.extra_methods;
let field_get_set_pairs = input.auto_fields.iter().map(|i| {
let is = i.to_string();
quote! {
fields.add_field_method_get(#is, |_, this| {
Ok(this.#i)
});
fields.add_field_method_set(#is, |_, this, #i| {
this.#i = #i;
Ok(())
});
}
});
// the tokens for the new function // the tokens for the new function
let new_func_tokens = if input.auto_new { let new_func_tokens = if input.auto_new {
let arg_names = input.auto_fields.iter().map(|i| { let arg_names = input
Ident::new(&i.to_string().to_lowercase(), Span::call_site()) .auto_fields
}); .iter()
.map(|i| Ident::new(&i.field.to_string().to_lowercase(), Span::call_site()));
let arg_types = input
.auto_fields
.iter()
.map(|i| i.field_ty.get_type_path().unwrap());
let arg_names_clone = arg_names.clone(); let arg_names_clone = arg_names.clone();
let arg_types_clone = arg_types.clone();
quote! { quote! {
// arguments for function are not specified since they can be implied from the call // arguments for function are not specified since they can be implied from the call
// to new(...) // to new(...)
methods.add_function("new", |_, ( #(#arg_names_clone),* )| { methods.add_function("new", |_, ( #(#arg_names_clone),* ): ( #(#arg_types_clone),* ) | {
Ok(#wrapper_typename(#path::new( #(#arg_names),* ))) Ok(#wrapper_typename(#path::new( #(#arg_names),* )))
}); });
} }
} else {
} else { quote!() }; quote!()
};
let meta_methods_tokens = { let meta_methods_tokens = {
let method_tokens = input.meta_methods.iter().map(|mm| { let method_tokens = input
mm.to_tokens(&wrapper_typename) .meta_methods
}); .iter()
.map(|mm| mm.to_tokens(&wrapper_typename));
quote! { quote! {
#(#method_tokens)* #(#method_tokens)*
@ -469,6 +485,94 @@ pub fn wrap_lua_struct_impl(input: proc_macro::TokenStream) -> proc_macro::Token
} }
}; };
let lua_wrapper = if input.skips.contains(&SkipType::LuaWrapper) {
quote!()
} else {
quote! {
impl lyra_scripting::lua::LuaWrapper for #wrapper_typename {
type Wrap = #path;
fn wrapped_type_id() -> std::any::TypeId {
std::any::TypeId::of::<#path>()
}
fn into_wrapped(self) -> Self::Wrap {
self.0
}
}
}
};
for field in input.auto_fields.iter() {
if field.field_ty.is_unknown() && !field.skip_setter {
return syn::Error::new(
field.field.span(),
"missing type of field, must be specified to generate setters",
)
.to_compile_error()
.into();
}
}
let fields = input.auto_fields.iter().map(|g| {
let field = &g.field;
let field_getter = match &g.field_ty {
FieldType::Wrapped(wrap) => {
quote!(#wrap(this.#field.clone()).into_lua(lua))
}
_ => match &g.getter {
Some(body) => {
quote!(#body)
}
None => {
quote!(this.#field.clone().into_lua(lua))
}
}
};
let field_setter = if g.skip_setter {
quote! {}
} else {
let fty = g
.field_ty
.get_type_path()
// should be unreachable due to the checks right before this closure
.expect("no field type specified");
let s = if g.field_ty.is_wrapped() {
quote! {
this.#field = #field.0.clone();
Ok(())
}
} else {
match &g.setter {
Some(body) => {
quote!(#body)
}
None => {
quote! {
this.#field = #field.clone();
Ok(())
}
}
}
};
quote! {
fields.add_field_method_set(stringify!(#field), |_, this, #field: #fty| {
#s
});
}
};
quote! {
fields.add_field_method_get(stringify!(#field), |lua, this| {
#field_getter
});
#field_setter
}
});
proc_macro::TokenStream::from(quote! { proc_macro::TokenStream::from(quote! {
#[derive(Clone, lyra_reflect::Reflect, #(#derive_idents_iter),*)] #[derive(Clone, lyra_reflect::Reflect, #(#derive_idents_iter),*)]
pub struct #wrapper_typename(#[reflect(skip)] pub(crate) #path); pub struct #wrapper_typename(#[reflect(skip)] pub(crate) #path);
@ -498,12 +602,18 @@ pub fn wrap_lua_struct_impl(input: proc_macro::TokenStream) -> proc_macro::Token
impl mlua::UserData for #wrapper_typename { impl mlua::UserData for #wrapper_typename {
fn add_fields<F: mlua::UserDataFields<Self>>(fields: &mut F) { fn add_fields<F: mlua::UserDataFields<Self>>(fields: &mut F) {
#(#field_get_set_pairs)* use mlua::IntoLua;
use mlua::FromLua;
#(#fields)*
#extra_fields #extra_fields
} }
fn add_methods<M: mlua::UserDataMethods<Self>>(methods: &mut M) { fn add_methods<M: mlua::UserDataMethods<Self>>(methods: &mut M) {
use mlua::IntoLua;
use mlua::FromLua;
#lua_reflects #lua_reflects
#new_func_tokens #new_func_tokens
@ -512,10 +622,6 @@ pub fn wrap_lua_struct_impl(input: proc_macro::TokenStream) -> proc_macro::Token
} }
} }
impl lyra_scripting::lua::LuaWrapper for #wrapper_typename { #lua_wrapper
fn wrapped_type_id() -> std::any::TypeId {
std::any::TypeId::of::<#path>()
}
}
}) })
} }

View File

@ -0,0 +1,362 @@
use proc_macro2::Span;
use syn::{braced, parenthesized, parse_macro_input, punctuated::Punctuated, token, Token};
use quote::{quote, ToTokens};
use crate::{field::Field, FN_NAME_INTERNAL_REFLECT, FN_NAME_INTERNAL_REFLECT_TYPE};
fn field_table_setter(field: &Field) -> proc_macro2::TokenStream {
let ident = &field.field;
match &field.setter {
Some(set) => {
quote! {
table.set(stringify!(#ident), #set)?;
}
},
None => {
let ty = field.field_ty.get_type_path()
.expect("no field type specified");
let arg = if field.field_ty.is_wrapped() {
quote!(#ty(self.#ident))
} else { quote!(self.#ident) };
quote! {
table.set(stringify!(#ident), #arg)?;
}
},
}
}
fn field_table_getter(field: &Field) -> proc_macro2::TokenStream {
let ident = &field.field;
match &field.getter {
Some(get) => {
quote! {
let #ident = #get;
}
},
None => {
let ty = field.field_ty.get_type_path()
.expect("no field type specified");
quote! {
let #ident: #ty = table.get(stringify!(#ident))?;
}
},
}
}
fn wrapper_creation(wrapper: &syn::Ident, type_path: &syn::Path, struct_type: StructType, create: Option<&syn::Block>, fields: &Vec<Field>) -> proc_macro2::TokenStream {
match create {
Some(b) => quote!(#b),
None => {
/* let field_iter = fields.iter().map(|f| match &f.field_ty {
crate::field::FieldType::Type(path) => quote!(#path),
crate::field::FieldType::Wrapped(path) => quote!(*#path),
_ => todo!()
}); */
let field_iter = fields.iter().map(|f| {
let ident = &f.field;
if f.field_ty.is_wrapped() && struct_type == StructType::Fields {
quote!(#ident: (*#ident).clone())
} else {
quote!(#ident)
}
});
match struct_type {
StructType::Fields => {
quote! {
#wrapper(#type_path {
#(
#field_iter
),*
})
}
},
StructType::Tuple => {
quote! {
#wrapper(#type_path( #(#field_iter),* ))
}
},
}
}
}
}
fn get_reflect_lua_functions(ty: &ReflectType, type_path: &syn::Path, set_data: bool) -> proc_macro2::TokenStream {
let data = if set_data {
quote!(Some(this.into_wrapped()))
} else { quote!(None) };
match ty {
ReflectType::Component => {
quote! {
Ok(ScriptBorrow::from_component::<#type_path>(#data))
}
},
ReflectType::Resource => {
quote! {
Ok(ScriptBorrow::from_component::<#type_path>(#data))
}
},
}
}
#[derive(Debug, Clone, Copy)]
enum ReflectType {
//Unknown,
Component,
Resource,
}
/// The type of the wrapping struct
#[derive(Debug, Default, Clone, Copy, PartialEq, Eq)]
enum StructType {
#[default]
Fields,
Tuple,
}
struct IntoLuaUsage {
type_path: syn::Path,
struct_type: StructType,
override_name: Option<syn::Ident>,
table_name: String,
derives: Vec<syn::Ident>,
fields: Vec<Field>,
create: Option<syn::Block>,
reflection_type: Option<ReflectType>,
}
impl syn::parse::Parse for IntoLuaUsage {
fn parse(input: syn::parse::ParseStream) -> syn::Result<Self> {
let type_path: syn::Path = input.parse()?;
let type_ident = &type_path
.segments
.last()
.expect("Failure to find typename in macro usage!")
.ident;
let lua_name = type_ident.to_string();
let mut s = Self {
type_path,
struct_type: StructType::Fields,
override_name: None,
table_name: lua_name,
derives: vec![],
fields: vec![],
create: None,
reflection_type: None,
};
while input.peek(Token![,]) {
let _: Token![,] = input.parse()?;
if input.peek(syn::Ident) {
let ident: syn::Ident = input.parse()?;
let ident_str = ident.to_string();
let ident_str = ident_str.as_str();
match ident_str {
"name" => {
let _eq: Token![=] = input.parse()?;
let name: syn::Ident = input.parse()?;
s.override_name = Some(name);
},
"struct_type" => {
let _eq: Token![=] = input.parse()?;
let st_token = input.parse::<syn::LitStr>()?;
let st_str = st_token.value().to_lowercase();
let st_str = st_str.as_str();
let st = match st_str {
"fields" => StructType::Fields,
"tuple" => StructType::Tuple,
_ => return Err(syn::Error::new_spanned(
st_token,
format!("unknown struct type: '{}', expected 'fields', or `tuple`", st_str),
)),
};
s.struct_type = st;
},
"lua_name" => {
let _eq: Token![=] = input.parse()?;
s.table_name = input.parse::<syn::LitStr>()?.value();
},
"derives" => {
if input.peek(token::Paren) {
let content;
let _parens: token::Paren = parenthesized!(content in input);
let derives: Punctuated<syn::Ident, Token![,]> =
content.parse_terminated(syn::Ident::parse, Token![,])?;
s.derives = derives.into_iter().collect();
}
},
"fields" => {
let _eq: Token![=] = input.parse()?;
if input.peek(token::Brace) {
let content;
let _braced: token::Brace = braced!(content in input);
let terminated = content.parse_terminated(Field::parse, Token![,])?;
s.fields.extend(terminated.into_iter());
}
},
"create" => {
let _eq: Token![=] = input.parse()?;
s.create = Some(input.parse()?);
},
"reflect" => {
let _eq: Token![=] = input.parse()?;
let ty: syn::Ident = input.parse()?;
let ty_str = ty.to_string();
let ty_str = ty_str.as_str();
let ty = match ty_str {
"component" => ReflectType::Component,
"resource" => ReflectType::Resource,
_ => return Err(syn::Error::new_spanned(
ident,
format!("unknown wrapper type: '{}', expected 'component' or 'resource'", ty_str),
)),
};
s.reflection_type = Some(ty);
},
_ => {
return Err(syn::Error::new_spanned(
ident,
format!("unknown wrapper command: '{}'", ident_str),
));
}
}
}
}
if s.reflection_type.is_none() {
return Err(syn::Error::new(
input.span(),
format!("Wrapper type not specified! Expected 'type=component' or 'type=resource'"),
));
}
if s.table_name.is_empty() {
return Err(syn::Error::new(
input.span(),
format!("No lua table specified. Use 'lua_name=\"Camera\"'"),
))
}
Ok(s)
}
}
pub fn to_lua_struct_impl(input: proc_macro::TokenStream) -> proc_macro::TokenStream {
let input = parse_macro_input!(input as IntoLuaUsage);
// unwrap is fine since `Some` is ensured in parse impl
let reflect_type = input.reflection_type.as_ref().unwrap();
let type_path = &input.type_path;
let type_name = &type_path
.segments
.last()
.expect("Failure to find typename in macro usage!")
.ident;
let wrapper = input.override_name
.unwrap_or_else(|| syn::Ident::new(&format!("Lua{}", type_name), Span::call_site()));
let derives_iter = input.derives.into_iter();
let lua_name = &input.table_name;
let field_getters_iter = input.fields.iter().map(|f| field_table_getter(f));
let field_setters_iter = input.fields.iter().map(|f| field_table_setter(f));
let struct_creator = wrapper_creation(&wrapper, type_path, input.struct_type, input.create.as_ref(), &input.fields);
let reflect_fn = get_reflect_lua_functions(reflect_type, &input.type_path, true);
let reflect_type_fn = get_reflect_lua_functions(reflect_type, &input.type_path, false);
quote! {
#[derive(Clone, #(#derives_iter),*)]
pub struct #wrapper(pub(crate) #type_path);
impl std::ops::Deref for #wrapper {
type Target = #type_path;
fn deref(&self) -> &Self::Target {
&self.0
}
}
impl std::ops::DerefMut for #wrapper {
fn deref_mut(&mut self) -> &mut Self::Target {
&mut self.0
}
}
impl mlua::FromLua for #wrapper {
fn from_lua(val: mlua::Value, _: &mlua::Lua) -> mlua::Result<Self> {
let ty = val.type_name();
let table = val.as_table().ok_or(mlua::Error::FromLuaConversionError {
from: ty,
to: "Table".into(),
message: Some("expected Table".into()),
})?;
#(
#field_getters_iter
)*
Ok(#struct_creator)
}
}
impl mlua::IntoLua for #wrapper {
fn into_lua(self, lua: &mlua::Lua) -> mlua::Result<mlua::Value> {
let table = lua.create_table()?;
#(
#field_setters_iter
)*
table.set(
#FN_NAME_INTERNAL_REFLECT,
lua.create_function(|_, this: Self| {
#reflect_fn
})?,
)?;
table.set(
#FN_NAME_INTERNAL_REFLECT_TYPE,
lua.create_function(|_, ()| {
#reflect_type_fn
})?,
)?;
table.set(mlua::MetaMethod::Type.name(), #lua_name)?;
Ok(mlua::Value::Table(table))
}
}
impl LuaWrapper for #wrapper {
type Wrap = #type_path;
#[inline(always)]
fn wrapped_type_id() -> std::any::TypeId {
std::any::TypeId::of::<#type_path>()
}
#[inline(always)]
fn into_wrapped(self) -> Self::Wrap {
self.0
}
}
}.into_token_stream().into()
}

View File

@ -0,0 +1,94 @@
---@enum WindowMode
WindowMode = {
WNDOWED = "windowed",
BORDERLESS_FULLSCREEN = "borderless_fullscreen",
SIZED_FULLSCREEN = "sized_fullscreen",
FULLSCREEN = "fullscreen",
}
---@enum CursorGrabMode
CursorGrabMode = {
NONE = "none",
CONFINED = "confined",
LOCKED = "locked",
}
---@enum WindowTheme
WindowTheme = {
LIGHT = "light",
DARK = "dark",
}
---@enum WindowLevel
WindowLevel = {
ALWAYS_ON_BOTTOM = "always_on_bottom",
NORMAL = "normal",
ALWAYS_ON_TOP = "always_on_top",
}
---@enum HandleState
HandleState = {
LOADING = "loading",
READY = "ready",
ERROR = "error",
}
---@enum ActionKind
ActionKind = {
BUTTON = "button",
AXIS = "axis",
}
---@enum ActionState
ActionState = {
IDLE = "idle",
PRESSED = "pressed",
JUST_PRESSED = "just_pressed",
JUST_RELEASED = "just_released",
AXIS = "axis",
OTHER = "other",
}
---@enum FilterMode
FilterMode = {
NEAREST = "nearest",
LINEAR = "linear",
}
---@enum WrappingMode
WrappingMode = {
CLAMP_TO_EDGE = "clamp_to_edge",
MIRRORED_REPEAT = "mirrored_repeat",
REPEAT = "repeat",
}
---@enum CameraProjectionMode
CameraProjectionMode = {
PERSPECTIVE = "perspective",
ORTHOGRAPHIC = "orthographic",
}
---@enum DeviceEventKind
DeviceEventKind = {
ADDED = "added",
REMOVED = "removed",
MOUSE_MOTION = "mouse_motion",
MOUSE_WHEEL = "mouse_wheel",
MOTION = "motion",
BUTTON = "button",
KEY = "key",
}
---@enum NativeKeyCodeKind
NativeKeyCodeKind = {
ANDROID = "android",
MACOS = "macos",
WINDOWS = "windows",
XKB = "xkb",
}
---@enum ElementState
ElementState = {
PRESSED = "pressed",
RELEASED = "released",
}

View File

@ -1,182 +0,0 @@
---@class Quat
---@field x number
---@field y number
---@field z number
---@field w number
Quat = { x = 0.0, y = 0.0, z = 0.0, w = 0.0 }
Quat.__index = Quat
Quat.__name = "Quat"
--- Constructs a new Quaternion from x, y, z, and w.
---@param x number
---@param y number
---@param z number
---@param w number
---@return Quat
function Quat:new(x, y, z, w)
local q = {}
setmetatable(q, Quat)
q.x = x
q.y = y
q.z = z
q.w = w
return q
end
Quat.IDENTITY = Quat:new(0, 0, 0, 1)
function Quat:clone()
return Quat:new(self.x, self.y, self.z, self.w)
end
--- Creates a quaternion from the angle, in radians, around the x axis.
--- @param rad number
--- @return Quat
function Quat:from_rotation_x(rad)
local sin = math.sin(rad * 0.5)
local cos = math.cos(rad * 0.5)
return Quat:new(sin, 0, 0, cos)
end
--- Creates a quaternion from the angle, in radians, around the y axis.
--- @param rad number
--- @return Quat
function Quat:from_rotation_y(rad)
local sin = math.sin(rad * 0.5)
local cos = math.cos(rad * 0.5)
return Quat:new(0, sin, 0, cos)
end
--- Creates a quaternion from the angle, in radians, around the z axis.
--- @param rad number
--- @return Quat
function Quat:from_rotation_z(rad)
local sin = math.sin(rad * 0.5)
local cos = math.cos(rad * 0.5)
return Quat:new(0, 0, sin, cos)
end
--- Computes the dot product of `self`.
---@param rhs Quat
---@return number
function Quat:dot(rhs)
return (self.x * rhs.x) + (self.y * rhs.y) + (self.z * rhs.z) + (self.w * rhs.w)
end
--- Computes the length of `self`.
---@return number
function Quat:length()
return math.sqrt(self:dot(self))
end
--- Compute the length of `self` squared.
---@return number
function Quat:length_squared()
return self:length() ^ 2
end
--- Normalizes `self` and returns the new Quat
---@return unknown
function Quat:normalize()
local length = self:length()
return self / length
end
--- Multiplies two Quaternions together. Keep in mind that Quaternion multiplication is NOT
--- commutative so the order in which you multiply the quaternions matters.
---@param rhs Quat
---@return Quat
function Quat:mult_quat(rhs)
local x1, y1, z1, w1 = self.x, self.y, self.z, self.w
local x2, y2, z2, w2 = rhs.x, rhs.y, rhs.z, rhs.w
local x = w1 * x2 + x1 * w2 + y1 * z2 - z1 * y2
local y = w1 * y2 - x1 * z2 + y1 * w2 + z1 * x2
local z = w1 * z2 + x1 * y2 - y1 * x2 + z1 * w2
local w = w1 * w2 - x1 * x2 - y1 * y2 - z1 * x2
return Quat:new(x, y, z, w)
end
--- Multiplies `self` by a Vec3, returning the rotated Vec3
---@param vec Vec3
---@return Vec3
function Quat:mult_vec3(vec)
local vec_quat = Quat:new(vec.x, vec.y, vec.z, 0)
local quat = self:mult_quat(vec_quat)
return Vec3:new(quat.x, quat.y, quat.z)
end
--- Calculates the linear iterpolation between `self` and `rhs` based on the `alpha`.
--- When `alpha` is `0`, the result will be equal to `self`. When `s` is `1`, the result
--- will be equal to `rhs`
--- @param rhs Quat
--- @param alpha number
--- @return Quat
function Quat:lerp(rhs, alpha)
-- ensure alpha is [0, 1]
local alpha = math.max(0, math.min(1, alpha))
local x1, y1, z1, w1 = self.x, self.y, self.z, self.w
local x2, y2, z2, w2 = rhs.x, rhs.y, rhs.z, rhs.w
local x = (1 - alpha) * x1 + alpha * x2
local y = (1 - alpha) * y1 + alpha * y2
local z = (1 - alpha) * z1 + alpha * z2
local w = (1 - alpha) * w1 + alpha * w2
return Quat:new(x, y, z, w):normalize()
end
function Quat:__add(rhs)
return Quat:new(self.x + rhs.x, self.y + rhs.y, self.z + rhs.z, self.w + rhs.w)
end
function Quat:__sub(rhs)
return Quat:new(self.x - rhs.x, self.y - rhs.y, self.z - rhs.z, self.w - rhs.w)
end
function Quat:__mul(rhs)
if type(rhs) == "number" then
return Quat:new(self.x * rhs, self.y * rhs, self.z * rhs, self.w * rhs)
elseif type(rhs) == "table" then
local name = rhs.__name
if name == "Vec3" then
return self:mult_vec3(rhs)
elseif name == "Quat" then
return self:mult_quat(rhs)
else
assert(false, "Unknown usertype of rhs" .. name)
end
else
assert(false, "Unknown type of rhs" .. type(rhs))
end
end
function Quat:__div(rhs)
if type(rhs) == "number" then
return Quat:new(self.x / rhs, self.y / rhs, self.z / rhs, self.w / rhs)
else
assert(rhs.__name == "Quat", "Attempted to divide Quat by unknown type " .. rhs.__name)
return Quat:new(self.x / rhs.x, self.y / rhs.y, self.z / rhs.z, self.w / rhs.w)
end
end
function Quat:__eq(rhs)
return self.x == rhs.x and self.y == rhs.y and self.z == rhs.z and self.w == rhs.w
end
function Quat:__lt(rhs)
return self.x < rhs.x and self.y < rhs.y and self.z < rhs.z and self.w < rhs.w
end
function Quat:__le(rhs)
return self.x <= rhs.x and self.y <= rhs.y and self.z <= rhs.z and self.w <= rhs.w
end
function Quat:__tostring()
return "Quat(" .. self.x .. ", " .. self.y .. ", " .. self.z .. ", " .. self.w .. ")"
end

View File

@ -1,95 +0,0 @@
---@class Transform
---@field translation Vec3
---@field rotation Quat
---@field Scale Vec3
Transform = { translation = Vec3.ZERO, rotation = Quat.IDENTITY, scale = Vec3.ONE }
Transform.__index = Transform
Transform.__name = "Transform"
function Transform:new(translation, rotation, scale)
local t = {}
setmetatable(t, Transform)
t.translation = translation
t.rotation = rotation
t.scale = scale
return t
end
function Transform:clone()
return Transform:new(self.translation:clone(), self.rotation:clone(), self.scale:clone())
end
--- Creates a new Transform with the translation at the vec3
--- @param pos Vec3
function Transform:from_vec3(pos)
local t = Transform:clone() -- copy of default transform
t.translation = pos
return t
end
function Transform:from_xyz(x, y, z)
Transform:from_vec3(Vec3:new(x, y, z))
end
--- Calculates the forward vector of the Transform.
--- @return Vec3
function Transform:forward()
return (self.rotation * Vec3.NEG_Z):normalize()
end
--- Calculates the left vector of the Transform.
--- @return Vec3
function Transform:left()
return (self.rotation * Vec3.X):normalize()
end
--- Calculates the up vector of the Transform.
--- @return Vec3
function Transform:up()
return (self.rotation * Vec3.Y):normalize()
end
--- Rotates `self` using a Quaternion
--- @param quat Quat
function Transform:rotate(quat)
self.rotation = (quat * self.rotation):normalize()
end
--- Rotates `self` around the x-axis
--- @param rad number
function Transform:rotate_x(rad)
self:rotate(Quat:from_rotation_x(rad))
end
--- Rotates `self` around the y-axis
--- @param rad number
function Transform:rotate_y(rad)
self:rotate(Quat:from_rotation_y(rad))
end
--- Rotates `self` around the z-axis
--- @param rad number
function Transform:rotate_z(rad)
self:rotate(Quat:from_rotation_z(rad))
end
--- Calculates the linear iterpolation between `self` and `rhs` based on the `alpha`.
--- When `alpha` is `0`, the result will be equal to `self`. When `s` is `1`, the result
--- will be equal to `rhs`
--- @param rhs Transform
--- @param alpha number
--- @return Transform
function Transform:lerp(rhs, alpha)
local res = self:clone()
res.translation = self.translation:lerp(rhs.translation, alpha)
res.rotation = self.rotation:lerp(rhs.rotation, alpha)
res.scale = self.scale:lerp(rhs.scale, alpha)
return res
end
function Transform:__tostring()
return "Transform(pos=" .. tostring(self.translation) .. ", rot="
.. tostring(self.rotation) .. ", scale=" .. tostring(self.scale) .. ")"
end

View File

@ -1,187 +0,0 @@
---@class Vec3
---@field x number
---@field y number
---@field z number
Vec3 = { x = 0.0, y = 0.0, z = 0.0 }
Vec3.__index = Vec3
Vec3.__name = "Vec3"
--- Constructs a new vector
---@param x number
---@param y number
---@param z number
---@return Vec3
function Vec3:new(x, y, z)
local v = {}
setmetatable(v, Vec3)
v.x = x
v.y = y
v.z = z
return v
end
---Creates a copy of self
---@return Vec3
function Vec3:clone()
return Vec3:new(self.x, self.y, self.z)
end
--- Constructs a vector with all elements as parameter `x`.
---@param x number
---@return Vec3
function Vec3:all(x)
return Vec3:new(x, x, x)
end
--- A unit-length vector pointing alongside the positive X axis.
Vec3.X = Vec3:new(1, 0, 0)
--- A unit-length vector pointing alongside the positive Y axis.
Vec3.Y = Vec3:new(0, 1, 0)
--- A unit-length vector pointing alongside the positive Z axis.
Vec3.Z = Vec3:new(0, 0, 1)
--- A unit-length vector pointing alongside the negative X axis.
Vec3.NEG_X = Vec3:new(-1, 0, 0)
--- A unit-length vector pointing alongside the negative Y axis.
Vec3.NEG_Y = Vec3:new(0, -1, 0)
--- A unit-length vector pointing alongside the negative Z axis.
Vec3.NEG_Z = Vec3:new(0, 0, -1)
--- A vector of all zeros
Vec3.ZERO = Vec3:new(0, 0, 0)
--- A vector of all ones
Vec3.ONE = Vec3:new(1, 1, 1)
--- Computes the absolute value of `self`.
function Vec3:abs()
self.x = math.abs(self.x)
self.y = math.abs(self.y)
self.z = math.abs(self.z)
end
--- Computes the length of `self`.
---@return number
function Vec3:length()
return math.sqrt(self:dot(self))
end
---Moves `self` by the provided coordinates
---@param x number
---@param y number
---@param z number
function Vec3:move_by(x, y, z)
self.x = self.x + x
self.y = self.y + y
self.z = self.z + z
end
--- Computes the dot product of `self` and `rhs`.
---@param rhs Vec3
---@return number
function Vec3:dot(rhs)
assert(rhs.__name == "Vec3")
return (self.x * rhs.x) + (self.y * rhs.y) + (self.z * rhs.z)
end
--- Returns a vector that has the minimum value of each element of `self` and `rhs`
---@param rhs Vec3
---@return Vec3
function Vec3:min(rhs)
local x = math.min(self.x, rhs.x)
local y = math.min(self.y, rhs.y)
local z = math.min(self.z, rhs.z)
return Vec3:new(x, y, z)
end
--- Modifies `self` to be normalized to a length 1.
function Vec3:normalize()
local len_recip = 1.0 / self:length()
self.x = self.x * len_recip
self.y = self.y * len_recip
self.z = self.z * len_recip
end
--- Calculates the linear iterpolation between `self` and `rhs` based on the `alpha`.
--- When `alpha` is `0`, the result will be equal to `self`. When `s` is `1`, the result
--- will be equal to `rhs`
--- @param rhs Vec3
--- @param alpha number
--- @return Vec3
function Vec3:lerp(rhs, alpha)
-- ensure alpha is [0, 1]
local alpha = math.max(0, math.min(1, alpha))
local res = self:clone()
res = res + ((rhs - res) * alpha)
return res
end
function Vec3:__add(rhs)
if type(rhs) == "Vec3" then
return Vec3:new(self.x + rhs.x, self.y + rhs.y, self.z + rhs.z)
else
return Vec3:new(self.x + rhs, self.y + rhs, self.z + rhs)
end
end
function Vec3:__sub(rhs)
if type(rhs) == "Vec3" then
return Vec3:new(self.x - rhs.x, self.y - rhs.y, self.z - rhs.z)
else
return Vec3:new(self.x - rhs, self.y - rhs, self.z - rhs)
end
end
function Vec3:__mul(rhs)
if type(rhs) == "Vec3" then
return Vec3:new(self.x * rhs.x, self.y * rhs.y, self.z * rhs.z)
else
return Vec3:new(self.x * rhs, self.y * rhs, self.z * rhs)
end
end
function Vec3:__div(rhs)
if type(rhs) == "Vec3" then
return Vec3:new(self.x / rhs.x, self.y / rhs.y, self.z / rhs.z)
else
return Vec3:new(self.x / rhs, self.y / rhs, self.z / rhs)
end
end
function Vec3:__idiv(rhs)
if type(rhs) == "Vec3" then
return Vec3:new(self.x // rhs.x, self.y // rhs.y, self.z // rhs.z)
else
return Vec3:new(self.x // rhs, self.y // rhs, self.z // rhs)
end
end
function Vec3:__unm()
return Vec3:new(-self.x, -self.y, -self.z)
end
function Vec3:__pow(rhs)
if type(rhs) == "number" then
return Vec3:new(self.x ^ rhs, self.y ^ rhs, self.z ^ rhs)
end
end
function Vec3:__eq(rhs)
return self.x == rhs.x and self.y == rhs.y and self.z == rhs.z
end
function Vec3:__lt(rhs)
return self.x < rhs.x and self.y < rhs.y and self.z < rhs.z
end
function Vec3:__le(rhs)
return self.x <= rhs.x and self.y <= rhs.y and self.z <= rhs.z
end
function Vec3:__tostring()
return "Vec3(" .. self.x .. ", " .. self.y .. ", " .. self.z .. ")"
end

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---@meta
---@class GltfHandle: Handle
---
---A handle to a GLTF asset.
GltfHandle = {
}
---Get a list of scenes in the GLTF file.
---
---@return SceneHandle[]
function GltfHandle:scenes() end
---Get a list of materials in the GLTF file.
---
---@return MaterialHandle[]
function GltfHandle:materials() end
---Get a list of meshes in the GLTF file.
---
---@return MeshHandle[]
function GltfHandle:meshes() end

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---@meta
---@class Handle: userdata
---
---A handle to an asset. Assets are loaded asynchronously, so you cannot immediately
---use them after you request them from the World.
Handle = {
---The path the asset was loaded from.
---
---@type string
path = nil,
---The version of the resource.
---
---Increments every time a resource is loaded.
---
---@type number
version = nil,
---The unique id of the resource.
---
---This is not changed for the entire lifetime of the handle, it does not change
---when an asset is reloaded.
---
---@type string
uuid = nil,
---Current state of the asset handle.
---@type HandleState
state = nil,
}
---Returns true if the asset is watched for auto-reloading.
---
---@return boolean
function Handle:is_watched() end
---Returns true if the asset is loaded.
---@return boolean
function Handle:is_loaded() end
---Blocks execution until the asset and its dependencies are loaded.
function Handle:wait_until_loaded() end

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---@meta
---@class MaterialHandle: Handle
---
---A handle to a material asset in a GLTF file.
MaterialHandle = {
---The unique id of the GPU shader.
---@type number?
shader_uuid = nil,
---The name of the material from GLTF.
---@type string?
name = nil,
---@type boolean
double_sided = nil,
---The RGBA base color of the model.
---
---If a texture is supplied with `base_color_texture`, this value will tint the
---texture. If a texture is not provided, this value would be the color of
---the Material.
---
---@type Vec4
base_color = nil,
---The metalness of the material
---
---From 0.0 (non-metal) to 1.0 (metal).
---
---@type number
metallic = nil,
---The roughness of the material
---
---From 0.0 (smooth) to 1.0 (rough)
---
---@type number
roughness = nil,
---The base color texture of the model.
---@type TextureHandle?
base_color_texture = nil,
---The metallic-roughness texture.
---
---The metalness values are sampled from the B channel. The roughness values are sampled from
---the G channel. These values are linear. If other channels are present (R or A), they are
---ignored for metallic-roughness calculations.
---@type TextureHandle?
metallic_roughness_texture = nil,
---A set of parameter values that are used to define the specular-glossiness material model
---from Physically-Based Rendering (PBR) methodology.
---GLTF extension: [KHR_materials_pbrSpecularGlossiness](https://kcoley.github.io/glTF/extensions/2.0/Khronos/KHR_materials_pbrSpecularGlossiness)
---@type TextureHandle?
pbr_glossiness = nil,
---The optional alpha cutoff value of the material.
---
---This will be used instead of the renderer's default.
---
---@type number?
alpha_cutoff = nil,
---The alpha rendering mode of the material.
---
---The material's alpha rendering
---mode enumeration specifying the interpretation of the alpha value of the main
---factor and texture.
---
---* In `Opaque` mode (default) the alpha value is ignored
--- and the rendered output is fully opaque.
---* In `Mask` mode, the rendered
--- output is either fully opaque or fully transparent depending on the alpha
--- value and the specified alpha cutoff value.
---* In `Blend` mode, the alpha value is used to composite the source and
--- destination areas and the rendered output is combined with the background
--- using the normal painting operation (i.e. the Porter and Duff over
--- operator).
---
---@type AlphaMode
alpha_mode = nil,
---@type Specular?
specular = nil,
}
---@enum AlphaMode
AlphaMode = {
OPAQUE = "opaque",
MASK = "mask",
BLEND = "blend",
}
---@class PbrGlossiness
---TODO: implement
PbrGlossiness = {}
---@class Specular
---TODO: implement
Specular = {}

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---@meta
---@class MeshHandle: Handle
---
---A handle to a mesh in a GLTF file.
MeshHandle = {
---The material of the mesh
---@type MaterialHandle
material = nil,
}
---Get the indices in the mesh.
---@return number[]
function MeshHandle:indices() end

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---@meta
---@class SceneHandle: Handle
---
---A handle to a scene asset in a GLTF file.
SceneHandle = {
}

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---@meta
---@class TextureHandle
TextureHandle = {}

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---@meta
---@class ActionHandler: userdata
ActionHandler = {}
--- Create a new `ActionHandler`.
---
--- ```lua
--- local handler = ActionHandler.new {
--- -- A list of layout IDs
--- layouts = { 0 },
--- actions = {
--- -- A list of action names and the `ActionKind`s.
--- -- Actions can be buttons or axes.
--- MoveForwardBackward = ActionKind.AXIS,
--- MoveLeftRight = ActionKind.AXIS,
--- MoveUpDown = ActionKind.AXIS,
--- LookLeftRight = ActionKind.AXIS,
--- LookUpDown = ActionKind.AXIS,
--- LookRoll = ActionKind.AXIS,
--- ObjectsMoveUpDown = ActionKind.AXIS
--- },
--- mappings = {
--- -- Each entry here is a mapping of actions for a layout.
--- -- This can be used so that when the current layout is changed,
--- -- the mapping would also change.
--- {
--- -- Specify the layout id that this mapping is for.
--- layout = 0,
--- binds = {
--- -- This is an Action bind. A bind is used to bind an input to an action.
--- -- These actions are defined above in "actions".
--- MoveForwardBackward = {
--- -- This is how you bind a button. In this case the button is a key.
--- -- "key" is the device the bind comes from, then after the colon is the
--- -- input name, in this case a specific key. We specify a modifier to the bind
--- -- after the equal sign.
--- "key:w=1.0",
--- "key:s=-1.0"
--- },
--- MoveLeftRight = {
--- "key:a=-1.0", "key:d=1.0"
--- },
--- MoveUpDown = {
--- "key:c=1.0", "key:z=-1.0"
--- },
--- LookLeftRight = {
--- "key:left=-1.0", "key:right=1.0",
--- -- Here is a bind to an axis.
--- -- We use "mouse", for the device the bind is from, then "axis" to specify
--- -- that we want to bind a specific axis, then we use the name of the axis,
--- -- in this case "x".
--- -- So this binds to the x axis of the mouse.
--- "mouse:axis:x"
--- },
--- LookUpDown = {
--- "key:up=-1.0", "key:down=1.0",
--- -- Here we bind to the y axis of the mouse.
--- "mouse:axis:y",
--- },
--- LookRoll = {
--- "key:e=-1.0", "key:q=1.0",
--- },
--- ObjectsMoveUpDown = {
--- "key:u=1.0", "key:j=-1.0"
--- }
--- }
--- }
--- }
--- }
---
--- -- Add the handler to the world so the host will process it.
--- world:add_resource(handler)
--- ```
---
---@param table table See above example to see the format of this table.
function ActionHandler.new(table) end
---Returns the action's modifier if its an updated axis.
---
---Returns `nil` if the action's state is not `ActionState::Axis`, or if the
---action was not found.
---@param action string
---@return number?
function ActionHandler:get_axis(action) end
---Returns true if the action is pressed (or was just pressed).
---
---Returns `nil` if the action's was not found.
---@param action string
---@return boolean?
function ActionHandler:is_pressed(action) end
---Returns true if the action was **just** pressed.
---
---Returns `nil` if the action was not found
---
---@param action string
---@return boolean?
function ActionHandler:was_just_pressed(action) end
---Returns true if the action was just released.
---
---Returns `nil` if the action was not found
---
---@param action string
---@return boolean?
function ActionHandler:was_just_released(action) end
---Returns the action's modifier if it was just pressed.
---
---Returns `nil` if the action's state is not `ActionState.JUST_PRESSED`,
---or if the action was not found.
---
---@param action string
---@return number?
function ActionHandler:get_just_pressed(action) end
---Returns the current state of the action.
---
---The first element in the returned tuple is the state enum, and the second
---is the state modifier. The modifer will be `nil` if the state is "idle"
---
---@return [ActionState, number?]
function ActionHandler:get_action_state(action) end

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---@meta
---@class Camera: userdata
Camera = {
---The position of the camera
---@type Transform
transform = nil,
---The field of view of the camera
---@type Angle
fov = nil,
---The projection mode the camera.
---Can be used to specify if the camera is 2D (orthographic), or 3D (perspective).
---@type CameraProjectionMode
mode = nil,
---Flag to enable some debug rendering stuff.
---@type boolean
debug = nil,
}

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---@meta
---@class DeltaTime: userdata
---
---DeltaTime is an ECS world resource. When its requested from the world, a `number`
---is returned.
---
---Example:
---```lua
------@type number
---local dt = world:resource(DeltaTime)
---
---print(type(dt)) --> number
---```
DeltaTime = {}

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---@meta
---@class Entity: userdata
Entity = {}

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---@meta
---@class FreeFlyCamera: userdata
FreeFlyCamera = {
---Movement speed of the camera.
---@type number
speed = nil,
---The speed of the camera rotation.
---@type number
look_speed = nil,
---The sensitivity of the mouse when looking.
---
---This is additional to `look_speed`, but onyl applied to mouse movement.
---
---@type number
mouse_sensitivity = nil,
}

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---@meta
---@class Window: userdata
Window = {
---Gets or sets the window's focus.
---@type boolean
focused = nil,
---Gets or sets the window mode.
---@type WindowMode
window_mode = nil,
---Gets or sets the position of the top-left corner of the window.
---
---The top-left hand corner of the desktop is not necessarily the same
---as the screen. If the user uses a desktop with multiple monitors, the top-left
---hand corner of the desktop is the top-left hand corner of the monitor at the
---top-left of the desktop.
---
---If this is `nil`, the position will be chosen by the windowing manager at creation,
---then set when the window is created.
---
---@type Vec2?
position = nil,
---@type Vec2
physical_size = nil,
---@type Vec2
size = nil,
---Gets/sets if the window has decorations.
---@type boolean
decorated = nil,
---Gets/sets the window's current maximized state.
---@type boolean
maximized = nil,
---Gets/sets the window's current minimized state.
---
---Is `nil` if the minimized state could not be determined.
---
---@type boolean?
minimized = nil,
---Gets/sets the window's current resizable state
---@type boolean
resizable = nil,
---Gets/sets the window's current visibility state.
---
---Is `nil` when it could not be determined.
---
---@type boolean?
visible = nil,
--TODO: resize_increments
---Gets the scale factor.
---
---You cannot set this field.
---
---@type number
scale_factor = nil,
---Gets/sets the window's blur state.
---@type boolean
blur = nil,
--TODO: cursor appearance
---Gets/sets the window's cursor grab mode.
---@type CursorGrabMode
cursor_grab = nil,
---Gets/sets whether the window catches cursor events.
---@type boolean
cursor_hittest = nil,
---Gets/sets the cursor's visibility.
---@type boolean
cursor_visible = nil,
---Sets whether the window should get IME events.
---
---When IME is allowed, the window will receive Ime events, and during the preedit phase
---the window will NOT get KeyboardInput events. The window should allow IME while
---it is expecting text input.
---
---When IME is not allowed, the window wont receive window ime events, and will receive
---KeyboardInput events for every keypress instead. Not allowing IME is useful for games
---for example. IME is not allowed by default.
---
---@type boolean
ime_allowed = nil,
---Gets/sets the minimum size of the window.
---@type Vec2?
min_size = nil,
---Gets/sets the maximum size of the window.
---@type Vec2?
max_size = nil,
---Gets/sets the current window theme.
---
---Specify `nil` to reset the theme to the system default. May also be `nil` on
---unsupported platforms.
---
---@type WindowTheme?
theme = nil,
---Gets/sets the title of the window.
---@type string
title = nil,
---Gets/sets the window's transparency state.
---@type boolean
transparent = nil,
--TODO: window_icon
---Change the window level.
---@type WindowLevel
window_level = nil,
---Gets the window's occluded state (completely hidden from view).
---@type boolean
occluded = nil,
---Gets/sets the cursor position in the window in logical coordinates.
---
---The value is `nil` when the cursor is not in the window.
---
---@type Vec2?
cursor_position = nil,
---Gets/sets the cursor position in the window in physical coordinates.
---
---The value is `nil` when the cursor is not in the window.
---
---@type Vec2?
physical_cursor_position = nil,
---Checks if the mouse is inside the window
---@param self Window
---@return boolean
is_mouse_inside = function (self) return false end,
}

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---@meta
---@class World: userdata
World = {}
---Spawn an entity with components.
---
---@param ... userdata The components to spawn on the new entity, currently must be userdata.
---@return Entity
function World:spawn(...) end
--- Query components from the world.
---
--- The `system` parameter is a function with the requested components. The function
--- is ran every time for an entity. If you modify a component and want the changes to be
--- stored, return it in the function. The order of the returned components do not matter.
---
--- Example:
--- ```lua
--- ---@type number
--- local dt = world:resource(DeltaTime)
---
--- world:view(
--- ---@param t Transform
--- function (t)
--- -- Move the transform of the entity a bit
--- t:translate(0, 0.15 * dt, 0)
--- -- Since the transform was modified, it must be returned so
--- -- the engine can store the changes.
--- return t
--- end,
--- -- Specify the requested components here
--- Transform
--- )
--- ```
---
---@param system fun(...): ...
---@param ... userdata
function World:view(system, ...) end
---Get an ECS resource.
---
---Returns `nil` if the resource was not found in the world. Many resources will
---return userdata, however some may return Lua types like `DeltaTime`
---returning a `number`.
---
---Example:
---```lua
------@type number
---local dt = world:resource(DeltaTime)
---
---print(type(dt)) --> number
---```
---
---@param resource userdata This shouldn't be an instance of userdata.
---@return any?
function World:resource(resource) end
---Add a resource to the world.
---
---If the resource already exists, it will be overwritten.
---
---@param resource userdata
function World:add_resource(resource) end
---Request an asset.
---
---Assets are loaded asyncronously, so you must wait before trying to access fields on
---the asset. You can spawn an entity with it when its still loading.
---
---Returns an asset handle to the requested resource type
---
---@param path string
---@return Handle asset An asset handle to the requested resource type.
function World:request_asset(path) end

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---@meta
--- A Transform represents the relative position of the entity to its parent entity, while
--- a world transform is the position relative to the World. When wanting to move an entity,
--- you should use its [`Transform`]. You cannot mutate [`WorldTransform`] as its managed completey
--- by the [`system_update_world_transforms`] system. For the WorldTransform to work properly, you
--- must have both a [`Transform`] and [`WorldTransform`] on the entities in the scene.
---@alias WorldTransform Transform The world transform of an entity.
WorldTransform = {}

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---@meta
---@class DeviceEventAdded: table
DeviceEventAdded = {
---@type DeviceEventKind
kind = DeviceEventKind.ADDED,
}
---@class DeviceEventRemoved: table
DeviceEventRemoved = {
---@type DeviceEventKind
kind = DeviceEventKind.REMOVED,
}
---@class DeviceEventMouseMotion: table
DeviceEventMouseMotion = {
---@type DeviceEventKind
kind = DeviceEventKind.MOUSE_MOTION,
---The change in physical position of a pointing device.
---
---This represents raw, unfiltered physical motion.
---
---@type Vec2
delta = nil,
}
---A physical scroll event from a device.
---
---`line_delta` and `pixel_delta` are exclusive, only one is non-nil at a time.
---
---@class DeviceEventMouseWheel: table
DeviceEventMouseWheel = {
---@type DeviceEventKind
kind = DeviceEventKind.MOUSE_WHEEL,
---Amount in lines or rows to scroll.
---
---Positive values indicate that the content that is being scrolled should move right
---and down (revealing more content left and up).
---
---@type Vec2?
line_delta = nil,
---Amount in pixels to scroll in the horizontal and vertical direction.
---
---Positive values indicate that the content being scrolled should move right/down.
---
---@type Vec2?
pixel_delta = nil,
}
---Device event that was triggered by motion on an analog axis.
---@class DeviceEventMotion: table
DeviceEventMotion = {
---@type DeviceEventKind
kind = DeviceEventKind.MOTION,
---The analog axis that motion was triggered from.
---@type number
axis = nil,
---The amount of motion.
---@type number
value = nil,
}
---@class DeviceEventButton: table
DeviceEventButton = {
---@type DeviceEventKind
kind = DeviceEventKind.BUTTON,
---The button id that the event is from.
---@type number
button = nil,
---The state of the button.
---@type ElementState
state = nil,
}
---A device event triggered from a key press.
---
---The field `code` will be nil if the key code identifier is unknown.
---When the identifier is unknown, it can be retrieved with `native_code`. The field
---`native` specifies the kind of platform the code is from.
---
---@class DeviceEventKey: table
DeviceEventKey = {
---@type DeviceEventKind
kind = DeviceEventKind.KEY,
---@type ElementState
state = nil,
---The known key name.
---
---This is `nil` if `native` or `native_code` is specified.
---
---@type string
code = nil,
---The kind of native platform this code is for.
---
---This is `nil` if `code` is specified.
---
---@type NativeKeyCodeKind
native = nil,
---The platform-native physical key identifier.
---
---This is `nil` if `code` is specified.
---
---@type number
native_code = nil,
}
---@alias DeviceEventRaw
---| DeviceEventAdded
---| DeviceEventRemoved
---| DeviceEventMotion
---| DeviceEventMouseMotion
---| DeviceEventMouseWheel
---| DeviceEventButton
---| DeviceEventKey
DeviceEventRaw = { }
---@class DeviceId: userdata
DeviceId = {}
---@class DeviceEvent: table
DeviceEvent = {
---The device id that the event came from
---@type DeviceId
source = nil,
---The actual device event
---@type DeviceEventRaw
event = nil,
}

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---@meta
---@class EventReader: userdata
EventReader = {}
---Returns an iterator over the events in the reader.
---@return fun(): any
function EventReader:read() end
---@class EventWriter: userdata
EventWriter = {}
---Writes an event.
---
---The event must be the same type that this writer wraps.
---
---@param event any
function EventWriter:write(event) end

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---@meta
---The world global that is provided to every Lua script.
---@type World
world = nil

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require "math.vec2"
require "math.vec3"
require "math.vec4"
require "math.quat"
require "math.transform"
require "ecs.window"
require "ecs.delta_time"
require "asset.handle"

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---@meta
---@class Angle: userdata
Angle = {}
---Create a new angle in degrees.
---@param deg number
function Angle.new_degrees(deg) end
---Create a new angle in radians.
---@param rad number
function Angle.new_radians(rad) end
---Get the angle in radians.
---
---Will convert from degrees automatically.
---
---@return number radians
function Angle:radians() end
---Get the angle in degrees.
---
---Will convert from radians automatically.
---
---@return number degrees
function Angle:degrees() end

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@ -0,0 +1,188 @@
---@meta
---@class Quat: userdata
---This is a Lua export of [`glam::Quat`](https://docs.rs/glam/latest/glam/f32/struct.Quat.html)
---
---@operator add(self): self
---@operator sub(self): self
---@operator div(number): self
---@operator mul(self|Vec3|number): self
---@diagnostic disable-next-line: unknown-operator
---@operator eq: self
Quat = {
---The x coordinate
---@type number
x = nil,
---The y coordinate
---@type number
y = nil,
---The z coordinate
---@type number
z = nil,
---The w coordinate
---@type number
w = nil,
}
---Create a new `Quat`
---@param x number
---@param y number
---@param z number
---@param w number
---@return self
function Quat.new(x, y, z, w) end
---Creates a quaternion from the angle (in radians) around the x axis.
---@param rad number
---@return self
function Quat.from_rotation_x(rad) end
---Creates a quaternion from the angle (in radians) around the y axis.
---@param rad number
---@return self
function Quat.from_rotation_y(rad) end
---Creates a quaternion from the angle (in radians) around the z axis.
---@param rad number
---@return self
function Quat.from_rotation_z(rad) end
---Creates a quaternion from a `Vec4`.
---@param vec4 Vec4
---@return self
function Quat.from_vec4(vec4) end
---Create a quaternion for a normalized rotation axis and angle (in radians).
---
---The axis must be a unit vector.
---
---@param axis Vec3
---@param rad number
---@return self
function Quat.from_axis_angle(axis, rad) end
---Computes the dot product of self and rhs.
---
---The dot product is equal to the cosine of the angle between two
---quaternion rotations.
---
---@param rhs Quat
---@return number
function Quat:dot(rhs) end
---Computes the length of self.
---
---@return number
function Quat:length() end
---Computes the squared length of self.
---
---This is generally faster than length() as it avoids a square root operation.
---
---@return number
function Quat:length_squared() end
---Computes 1.0 / length().
---
---For valid results, self must not be of length zero.
---@return number
function length_recip() end
---Returns `self` normalized to length `1.0`.
---
---For valid results, `self` must not be of length zero.
---
---@return self
function Quat:normalize() end
---Multipies `self` with a `Quat`
---@param rhs Quat
function Quat:mult_quat(rhs) end
---Multiplies `self` with a `Vec3`
---@param rhs Vec3
function Quat:mult_vec3(rhs) end
---Performs a linear interpolation between `self` and `rhs` based on `alpha`.
---
---Both `Quat`s must be normalized.
---
---When `alpha` is `0.0`, the result will be equal to `self`. When `alpha` is `1.0`,
---the result will be equal to `rhs`.
---
---@param rhs Quat
---@param alpha number
function Quat:lerp(rhs, alpha) end
---Performs a spherical linear interpolation between `self` and `rhs` based on `alpha`.
---
---Both `Quat`s must be normalized.
---
---When `alpha` is `0.0`, the result will be equal to `self`. When `alpha` is `1.0`,
---the result will be equal to `rhs`.
---
---@param rhs Quat
---@param alpha number
function Quat:slerp(rhs, alpha) end
---Returns the inverse of a normalized quaternion.
---
---Typically quaternion inverse returns the conjugate of a normalized quaternion.
---Because `self` is assumed to already be unit length this method does not
---normalize before returning the conjugate.
---@return self
function Quat:inverse() end
---Returns `true` if, and only if, all elements are finite. If any element is either
---`NaN`, positive or negative infinity, this will return `false`.
---
---@return boolean
function Quat:is_finite() end
---@return boolean
function Quat:is_nan() end
---Returns whether `self` is of length `1.0` or not.
---
---Uses a precision threshold of `1e-6`.
---@return boolean
function Quat:is_normalized() end
---@return boolean
function Quat:is_near_identity() end
---Returns the angle (in radians) for the minimal rotation for transforming
---this quaternion into another.
---
---Both quaternions must be normalized.
---@return number
function Quat:angle_between(rhs) end
---Rotates towards `rhs` up to `max_angle` (in radians).
---
---When `max_angle` is `0.0`, the result will be equal to `self`. When `max_angle`
---is equal to `self.angle_between(rhs)`, the result will be equal to `rhs`.
---If `max_angle` is negative, rotates towards the exact opposite of `rhs`.
---Will not go past the target.
---
---Both quaternions must be normalized.
---@return self
function Quat:rotate_towards(rhs, max_angle) end
---Returns true if the absolute difference of all elements between `self` and `rhs` is less
---than or equal to `max_abs_diff`.
---
---This can be used to compare if two quaternions contain similar elements. It works best when
---comparing with a known value. The `max_abs_diff` that should be used used depends on the
---values being compared against.
---
---For more see [comparing floating point numbers](https://randomascii.wordpress.com/2012/02/25/comparing-floating-point-numbers-2012-edition/).
---
---@param rhs Quat
---@param max_abs_diff number
---@return boolean
function Quat:abs_diff_eq(rhs, max_abs_diff) end

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@ -0,0 +1,134 @@
---@meta
---@class Transform: userdata
---
---A Transform represents a transformation of an object. A transform includes the position
---(called translation here), rotation, and scale. Rotation is represented using a Quaternion
---(or Quat for short).
---
---Although Quats can be scary, they are much more robust than euler angles for games
---since they do not suffer from things like
---[gimbal-lock](https://en.wikipedia.org/wiki/Gimbal_lock).
---
---This is a Lua export of [`lyra_math::Transform`].
---
---@operator add(Quat): self
---@operator mul(Vec3): self
---@diagnostic disable-next-line: unknown-operator
---@operator eq: self
Transform = {
---The translation/position of the transform.
---@type Vec3
translation = nil,
---The rotation of the transform.
---@type Quat
rotation = nil,
---The scale of the transform.
---@type Vec3
scale = nil,
}
function Transform:__tostring() end
---@return self
function Transform.default() end
---Create a new transform with its components.
---
---@param translation Vec3
---@param rotation Quat
---@param scale Vec3
---@return self
function Transform.new(translation, rotation, scale) end
---Create a new transform with a `Vec3` translation.
---@param translation Vec3
---@return self
function Transform.from_translation(translation) end
---Create a new transform with a translation of `x`, `y`, and `z`.
---
---@param x number
---@param y number
---@param z number
---@return self
function Transform.from_translation(x, y, z) end
---Create a clone of `self`
---@return self
function Transform:clone() end
---Returns a normalized vector pointing in the direction the Transform is facing.
---
---This represents the front of the object can be used for movement, camera orientation, and
---other directional calculations.
---
---@return Vec3
function Transform:forward() end
---Returns a normalized vector pointing to the left side of the Transform.
---
---The vector is in local space. This represents the direction that is
---perpendicular to the object's forward direction.
---
---@return Vec3
function Transform:left() end
---Returns a normalized vector that indicates the upward direction of the Transform.
---
---This vector is commonly used to define an object's orientation and is essential for maintaining
---consistent vertical alignment in 3D environments, such as for camera positioning and object alignment.
---@return Vec3
function Transform:up() end
---Rotate `self` using a quaternion
---@param quat Quat
function Transform:rotate(quat) end
---Rotate `self` around the x axis by **degrees**.
---
---@param deg number The amount of **degrees** to rotate by.
function Transform:rotate_x(deg) end
---Rotate `self` around the y axis by **degrees**.
---
---@param deg number The amount of **degrees** to rotate by.
function Transform:rotate_y(deg) end
---Rotate `self` around the z axis by **degrees**.
---
---@param deg number The amount of **degrees** to rotate by.
function Transform:rotate_z(deg) end
---Rotate `self` around the x axis by **radians** .
---
---@param rad number The amount of **radians** to rotate by.
function Transform:rotate_x_rad(rad) end
---Rotate `self` around the y axis by **radians** .
---
---@param rad number The amount of **radians** to rotate by.
function Transform:rotate_y_rad(rad) end
---Rotate `self` around the z axis by **radians** .
---
---@param rad number The amount of **radians** to rotate by.
function Transform:rotate_z_rad(rad) end
---Move `self` by `x`, `y`, and `z`.
---
---@param x number
---@param y number
---@param z number
function Transform:translate(x, y, z) end
---Performs a linear interpolation between `self` and `rhs` based on `alpha`.
---
---This will normalize the rotation `Quat`.
---
---When `alpha` is `0.0`, the result will be equal to `self`. When `alpha` is `1.0`,
---the result will be equal to `rhs`.
---
---@param rhs Transform
---@param alpha number
function Transform:lerp(rhs, alpha) end

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@ -0,0 +1,125 @@
---@meta
---@class Vec2: userdata
---This is a Lua export of [`glam::Vec2`](https://docs.rs/glam/latest/glam/f32/struct.Vec2.html)
---
---@operator add(self|number): self
---@operator sub(self|number): self
---@operator div(self|number): self
---@operator mul(self|number): self
---@operator mod(self|number): self
---@operator unm: self
---@diagnostic disable-next-line: unknown-operator
---@operator eq: self
Vec2 = {
---The x coordinate
---@type number
x = nil,
---The y coordinate
---@type number
y = nil,
---A constant `Vec2` with coordinates as `f32::NAN`.
---@type Vec2
NAN = nil,
---A constant `Vec2` with `x` as `-1.0`.
---@type Vec2
NEG_X = nil,
---A constant `Vec2` with `y` as `-1.0`.
---@type Vec2
NEG_Y = nil,
---A constant `Vec2` with both components as `-1.0`.
---@type Vec2
NEG_ONE = nil,
---A constant `Vec2` with `x` as `1.0`.
---@type Vec2
POS_X = nil,
---A constant `Vec2` with `y` as `1.0`.
---@type Vec2
POS_Y = nil,
---A constant `Vec2` with both components as `1.0`.
---@type Vec2
ONE = nil,
---A constant `Vec2` with both components as `0.0`.
---@type Vec2
ZERO = nil,
}
function Vec2:__tostring() end
---Create a new `Vec2`
---@param x number
---@param y number
---@return self
function Vec2.new(x, y) end
---Returns a vector with a length no less than min and no more than max.
---@param min number the minimum value to clamp the length to
---@param max number the maximum value to clamp the length to
---@return self
function Vec2:clamp_length(min, max) end
---Returns true if the absolute difference of all elements between `self` and `rhs` is less
---than or equal to `max_abs_diff`.
---
---This can be used to compare if two vectors contain similar elements. It works best when
---comparing with a known value. The `max_abs_diff` that should be used used depends on the
---values being compared against.
---
---For more see [comparing floating point numbers](https://randomascii.wordpress.com/2012/02/25/comparing-floating-point-numbers-2012-edition/).
---
---@param rhs Vec2 The other `Vec2` to compare to.
---@param max_abs_diff number Maximum absolute difference between `self` and `rhs`.
---@return boolean
function Vec2:abs_diff_eq(rhs, max_abs_diff) end
---Returns a vector containing the smallest integer greater than or equal to a number for each
---element of self.
---@return self
function Vec2:ceil() end
---Returns the angle of rotation (in radians) from `self` to `rhs` in the range [-π, +π].
---
---The inputs do not need to be unit vectors however they must be non-zero.
---
---@param rhs Vec2 The other `Vec2` to get the angle to.
---@return number
function Vec2:angle_to(rhs) end
---Returns a vector containing the absolute value of each element of `self`.
---
---@return self
function Vec2:abs() end
---Component-wise clamping of values.
---
---Each element in `min` must be less-or-equal to the corresponding element in `max`.
---
---@param min self The minimum `Vec2` components to clamp the components of `self` to.
---@param max self The maximum `Vec2` components to clamp the components of `self` to.
---@return self
function Vec2:clamp(min, max) end
---Converts `self` to an array `[x, y]`
---
---@return number[]
function Vec2:to_array() end
---Move `self` by `x` and `y` values.
---
---@param x number
---@param y number
function Vec2:move_by(x, y) end
---Move `self` by a `Vec2`.
---
---@param rhs Vec2
function Vec2:move_by(rhs) end

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@ -0,0 +1,139 @@
---@meta
---@class Vec3: userdata
---This is a Lua export of [`glam::Vec3`](https://docs.rs/glam/latest/glam/f32/struct.Vec3.html)
---
---@operator add(self|number): self
---@operator sub(self|number): self
---@operator div(self|number): self
---@operator mul(self|number): self
---@operator mod(self|number): self
---@operator unm: self
---@diagnostic disable-next-line: unknown-operator
---@operator eq: self
Vec3 = {
---The x coordinate
---@type number
x = nil,
---The y coordinate
---@type number
y = nil,
---The z coordinate
---@type number
z = nil,
---A constant `Vec3` with coordinates as `f32::NAN`.
---@type Vec3
NAN = nil,
---A constant `Vec3` with `x` as `-1.0`.
---@type Vec3
NEG_X = nil,
---A constant `Vec3` with `y` as `-1.0`.
---@type Vec3
NEG_Y = nil,
---A constant `Vec3` with `z` as `-1.0`.
---@type Vec3
NEG_Z = nil,
---A constant `Vec3` with all components as `-1.0`.
---@type Vec3
NEG_ONE = nil,
---A constant `Vec3` with `x` as `1.0`.
---@type Vec3
POS_X = nil,
---A constant `Vec3` with `y` as `1.0`.
---@type Vec3
POS_Y = nil,
---A constant `Vec3` with `z` as `1.0`.
---@type Vec3
POS_Z = nil,
---A constant `Vec3` with all components as `1.0`.
---@type Vec3
ONE = nil,
---A constant `Vec3` with all components as `0.0`.
---@type Vec3
ZERO = nil,
}
function Vec3:__tostring() end
---Create a new `Vec3`
---@param x number
---@param y number
---@param z number
---@return self
function Vec3.new(x, y, z) end
---Returns a vector with a length no less than min and no more than max.
---@param min number the minimum value to clamp the length to
---@param max number the maximum value to clamp the length to
---@return self
function Vec3:clamp_length(min, max) end
---Returns true if the absolute difference of all elements between `self` and `rhs` is less
---than or equal to `max_abs_diff`.
---
---This can be used to compare if two vectors contain similar elements. It works best when
---comparing with a known value. The `max_abs_diff` that should be used used depends on the
---values being compared against.
---
---For more see [comparing floating point numbers](https://randomascii.wordpress.com/2012/02/25/comparing-floating-point-numbers-2012-edition/).
---
---@param rhs Vec3 The other `Vec3` to compare to.
---@param max_abs_diff number Maximum absolute difference between `self` and `rhs`.
---@return boolean
function Vec3:abs_diff_eq(rhs, max_abs_diff) end
---Returns a vector containing the smallest integer greater than or equal to a number for each
---element of self.
---@return self
function Vec3:ceil() end
---Returns the angle (in radians) between two vectors in the range [-π, +π].
---
---The inputs do not need to be unit vectors however they must be non-zero.
---
---@param rhs Vec3 The other `Vec3` to get the angle to.
---@return number
function Vec3:angle_between(rhs) end
---Returns a vector containing the absolute value of each element of `self`.
---
---@return self
function Vec3:abs() end
---Component-wise clamping of values.
---
---Each element in `min` must be less-or-equal to the corresponding element in `max`.
---
---@param min self The minimum `Vec3` components to clamp the components of `self` to.
---@param max self The maximum `Vec3` components to clamp the components of `self` to.
---@return self
function Vec3:clamp(min, max) end
---Converts `self` to an array `[x, y, z]`
---
---@return number[]
function Vec3:to_array() end
---Move `self` by `x`, `y`, and `z` values.
---
---@param x number
---@param y number
---@param z number
function Vec3:move_by(x, y, z) end
---Move `self` by a `Vec3`.
---
---@param rhs Vec3
function Vec3:move_by(rhs) end

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@ -0,0 +1,132 @@
---@meta
---@class Vec4: userdata
---This is a Lua export of [`glam::Vec4`](https://docs.rs/glam/latest/glam/f32/struct.Vec4.html)
---
---@operator add(self|number): self
---@operator sub(self|number): self
---@operator div(self|number): self
---@operator mul(self|number): self
---@operator mod(self|number): self
---@operator unm: self
---@diagnostic disable-next-line: unknown-operator
---@operator eq: self
Vec4 = {
---The x coordinate
---@type number
x = nil,
---The y coordinate
---@type number
y = nil,
---The z coordinate
---@type number
z = nil,
---The w coordinate
---@type number
w = nil,
---A constant `Vec4` with coordinates as `f32::NAN`.
---@type Vec4
NAN = nil,
---A constant `Vec4` with `x` as `-1.0`.
---@type Vec4
NEG_X = nil,
---A constant `Vec4` with `y` as `-1.0`.
---@type Vec4
NEG_Y = nil,
---A constant `Vec4` with `z` as `-1.0`.
---@type Vec4
NEG_Z = nil,
---A constant `Vec4` with `w` as `-1.0`.
---@type Vec4
NEG_W = nil,
---A constant `Vec4` with all components as `-1.0`.
---@type Vec4
NEG_ONE = nil,
---A constant `Vec4` with `x` as `1.0`.
---@type Vec4
POS_X = nil,
---A constant `Vec4` with `y` as `1.0`.
---@type Vec4
POS_Y = nil,
---A constant `Vec4` with `z` as `1.0`.
---@type Vec4
POS_Z = nil,
---A constant `Vec4` with `w` as `1.0`.
---@type Vec4
POS_W = nil,
---A constant `Vec4` with all components as `1.0`.
---@type Vec4
ONE = nil,
---A constant `Vec4` with all components as `0.0`.
---@type Vec4
ZERO = nil,
}
function Vec4:__tostring() end
---Create a new `Vec4`
---@param x number
---@param y number
---@param z number
---@param w number
---@return self
function Vec4.new(x, y, z, w) end
---Returns a vector with a length no less than min and no more than max.
---@param min number the minimum value to clamp the length to
---@param max number the maximum value to clamp the length to
---@return self
function Vec4:clamp_length(min, max) end
---Returns true if the absolute difference of all elements between `self` and `rhs` is less
---than or equal to `max_abs_diff`.
---
---This can be used to compare if two vectors contain similar elements. It works best when
---comparing with a known value. The `max_abs_diff` that should be used used depends on the
---values being compared against.
---
---For more see [comparing floating point numbers](https://randomascii.wordpress.com/2012/02/25/comparing-floating-point-numbers-2012-edition/).
---
---@param rhs Vec4 The other `Vec4` to compare to.
---@param max_abs_diff number Maximum absolute difference between `self` and `rhs`.
---@return boolean
function Vec4:abs_diff_eq(rhs, max_abs_diff) end
---Returns a vector containing the smallest integer greater than or equal to a number for each
---element of self.
---@return self
function Vec4:ceil() end
---Returns a vector containing the absolute value of each element of `self`.
---
---@return self
function Vec4:abs() end
---Component-wise clamping of values.
---
---Each element in `min` must be less-or-equal to the corresponding element in `max`.
---
---@param min self The minimum `Vec4` components to clamp the components of `self` to.
---@param max self The maximum `Vec4` components to clamp the components of `self` to.
---@return self
function Vec4:clamp(min, max) end
---Converts `self` to an array `[x, y, z]`
---
---@return number[]
function Vec4:to_array() end

View File

@ -1,23 +0,0 @@
WindowMode = {
WNDOWED = "windowed",
BORDERLESS_FULLSCREEN = "borderless_fullscreen",
SIZED_FULLSCREEN = "sized_fullscreen",
FULLSCREEN = "fullscreen",
}
CursorGrabMode = {
NONE = "none",
CONFINED = "confined",
LOCKED = "locked",
}
WindowTheme = {
LIGHT = "light",
DARK = "dark",
}
WindowLevel = {
ALWAYS_ON_BOTTOM = "always_on_bottom",
NORMAL = "normal",
ALWAYS_ON_TOP = "always_on_top",
}

View File

@ -2,6 +2,7 @@ pub mod dynamic_iter;
pub use dynamic_iter::*; pub use dynamic_iter::*;
pub mod world; pub mod world;
use lyra_resource::ResourceData;
use mlua::ObjectLike; use mlua::ObjectLike;
pub use world::*; pub use world::*;
@ -19,11 +20,12 @@ pub use proxy::*;
pub mod system; pub mod system;
pub use system::*; pub use system::*;
use wrappers::{LuaHandleWrapper, LuaResHandleToComponent, LuaWrappedEventProxy};
use std::{any::TypeId, sync::Mutex}; use std::{any::TypeId, sync::Mutex};
use lyra_ecs::World; use lyra_ecs::World;
use lyra_reflect::{Reflect, TypeRegistry}; use lyra_reflect::{FromType, Reflect, TypeRegistry};
use crate::ScriptBorrow; use crate::ScriptBorrow;
pub type LuaContext = Mutex<mlua::Lua>; pub type LuaContext = Mutex<mlua::Lua>;
@ -131,6 +133,36 @@ pub trait RegisterLuaType {
fn register_lua_convert<T>(&mut self) fn register_lua_convert<T>(&mut self)
where where
T: Clone + mlua::FromLua + mlua::IntoLua + LuaWrapper + 'static; T: Clone + mlua::FromLua + mlua::IntoLua + LuaWrapper + 'static;
/// Registers a type that can be converted to and from lua and adds a lookup entry.
///
/// This is a shortcut for `register_lua_convert` and `add_component_lookup_entry`.
fn register_lua_convert_component<T>(&mut self, name: &str)
where
T: Clone + mlua::FromLua + mlua::IntoLua + LuaWrapper + 'static,
T::Wrap: lyra_ecs::Component + Reflect;
/// Register an asset handle wrapper.
fn register_asset_handle<T>(&mut self, name: &str)
where
T: LuaHandleWrapper + Reflect + LuaProxy,
T::ResourceType: ResourceData;
/// Add an entry for a non-component in the [`TypeLookup`] table.
fn add_lua_event<T>(&mut self, name: &str)
where
T: Reflect + LuaWrapper + mlua::FromLua + mlua::IntoLua + Send + Sync,
T::Wrap: Clone + lyra_game::Event;
/// Add an entry for a component in the [`TypeLookup`] table.
fn add_component_lookup_entry<T>(&mut self, name: &str)
where
T: lyra_ecs::Component;
/// Add an entry for a non-component in the [`TypeLookup`] table.
fn add_lookup_entry<T>(&mut self, name: &str)
where
T: 'static;
} }
impl RegisterLuaType for World { impl RegisterLuaType for World {
@ -165,6 +197,63 @@ impl RegisterLuaType for World {
let reg_type = registry.get_type_or_default(T::wrapped_type_id()); let reg_type = registry.get_type_or_default(T::wrapped_type_id());
reg_type.add_data(ReflectLuaProxy::from_as_and_from_lua::<T>()); reg_type.add_data(ReflectLuaProxy::from_as_and_from_lua::<T>());
} }
fn register_lua_convert_component<T>(&mut self, name: &str)
where
T: Clone + mlua::FromLua + mlua::IntoLua + LuaWrapper + 'static,
T::Wrap: lyra_ecs::Component + Reflect
{
self.register_lua_convert::<T>();
self.add_component_lookup_entry::<T::Wrap>(name);
}
fn register_asset_handle<T>(&mut self, name: &str)
where
T: LuaHandleWrapper + Reflect + LuaProxy,
T::ResourceType: ResourceData
{
{
let mut registry = self.get_resource_mut::<TypeRegistry>().unwrap();
let reg_type = registry.get_type_or_default(TypeId::of::<T::ResourceType>());
reg_type.add_data(ReflectLuaProxy::from_lua_proxy::<T>());
let l: LuaResHandleToComponent = FromType::<T>::from_type();
reg_type.add_data(l);
}
self.add_lookup_entry::<T>(name);
}
fn add_lua_event<T>(&mut self, name: &str)
where
T: Reflect + LuaWrapper + mlua::FromLua + mlua::IntoLua + Send + Sync,
T::Wrap: Clone + lyra_game::Event
{
{
let mut registry = self.get_resource_mut::<TypeRegistry>().unwrap();
let reg_type = registry.get_type_or_default(TypeId::of::<T::Wrap>());
let proxy: LuaWrappedEventProxy = FromType::<T>::from_type();
reg_type.add_data(proxy);
}
self.add_lookup_entry::<T::Wrap>(name);
}
fn add_component_lookup_entry<T>(&mut self, name: &str)
where
T: lyra_ecs::Component
{
let mut lookup = self.get_resource_or_default::<TypeLookup>();
lookup.comp_info_from_name.insert(name.into(), lyra_ecs::ComponentInfo::new::<T>());
lookup.typeid_from_name.insert(name.into(), std::any::TypeId::of::<T>());
}
fn add_lookup_entry<T>(&mut self, name: &str)
where
T: 'static
{
let mut lookup = self.get_resource_or_default::<TypeLookup>();
lookup.typeid_from_name.insert(name.into(), std::any::TypeId::of::<T>());
}
} }
impl mlua::FromLua for ScriptBorrow { impl mlua::FromLua for ScriptBorrow {

View File

@ -1,10 +1,9 @@
use std::any::TypeId;
use lyra_ecs::ResourceObject; use lyra_ecs::ResourceObject;
use lyra_reflect::{Reflect, TypeRegistry}; use lyra_reflect::Reflect;
use lyra_resource::gltf::Gltf;
use crate::{lua::{wrappers::{LuaActionHandler, LuaDeltaTime, LuaGltfHandle, LuaResHandleToComponent, LuaSceneHandle, LuaWindow}, LuaContext, ReflectLuaProxy, RegisterLuaType, FN_NAME_INTERNAL_REFLECT_TYPE}, ScriptApiProvider, ScriptBorrow, ScriptData, ScriptDynamicBundle, ScriptWorldPtr}; use crate::{lua::{wrappers::*, LuaContext, LuaWrapper, RegisterLuaType, FN_NAME_INTERNAL_REFLECT, FN_NAME_INTERNAL_REFLECT_TYPE}, ScriptApiProvider, ScriptBorrow, ScriptData, ScriptDynamicBundle, ScriptWorldPtr};
//fn register_lua_proxy::<T:
#[derive(Default)] #[derive(Default)]
pub struct LyraEcsApiProvider; pub struct LyraEcsApiProvider;
@ -18,39 +17,37 @@ impl ScriptApiProvider for LyraEcsApiProvider {
world.register_lua_wrapper::<LuaActionHandler>(); world.register_lua_wrapper::<LuaActionHandler>();
world.register_lua_wrapper::<LuaWindow>(); world.register_lua_wrapper::<LuaWindow>();
let mut registry = world.get_resource_mut::<TypeRegistry>().unwrap(); world.register_lua_convert_component::<LuaCamera>("Camera");
world.register_lua_convert_component::<LuaFreeFlyCamera>("FreeFlyCamera");
world.register_lua_convert_component::<LuaWorldTransform>("WorldTransform");
let reg_type = registry.get_type_or_default(TypeId::of::<Gltf>()); world.register_lua_wrapper::<LuaDeviceId>();
reg_type.add_data(ReflectLuaProxy::from_lua_proxy::<LuaGltfHandle>()); world.register_lua_convert::<LuaDeviceEventRaw>();
world.register_lua_convert::<LuaDeviceEvent>();
world.add_lua_event::<LuaDeviceEvent>("DeviceEvent");
let l = LuaResHandleToComponent::new( world.register_asset_handle::<LuaGltfHandle>("Gltf");
|lua, res| {
if let Some(gltf) = res.as_typed::<Gltf>() {
Some(lua.create_userdata(LuaGltfHandle(gltf)).unwrap())
} else {
None
}
}
);
reg_type.add_data(l);
//reg_type.add_data(ReflectLuaProxy::from_lua_proxy::<LuaGltfHandle>());
} }
fn expose_api(&mut self, _: &ScriptData, ctx: &mut Self::ScriptContext) -> Result<(), crate::ScriptError> { fn expose_api(&mut self, _: &ScriptData, ctx: &mut Self::ScriptContext) -> Result<(), crate::ScriptError> {
let ctx = ctx.lock().unwrap(); let ctx = ctx.lock().unwrap();
// load window util // load enums
let bytes = include_str!("../../../scripts/lua/window.lua"); let bytes = include_str!("../../../scripts/lua/enums.lua");
ctx.load(bytes).exec().unwrap(); ctx.load(bytes).exec().unwrap();
let globals = ctx.globals(); let globals = ctx.globals();
globals.set("World", ctx.create_proxy::<ScriptWorldPtr>()?)?; globals.set("World", ctx.create_proxy::<ScriptWorldPtr>()?)?;
globals.set("DynamicBundle", ctx.create_proxy::<ScriptDynamicBundle>()?)?; globals.set("DynamicBundle", ctx.create_proxy::<ScriptDynamicBundle>()?)?;
globals.set("SceneComponent", ctx.create_proxy::<LuaSceneHandle>()?)?; globals.set("SceneHandler", ctx.create_proxy::<LuaSceneHandle>()?)?;
globals.set("ActionHandler", ctx.create_proxy::<LuaActionHandler>()?)?; globals.set("ActionHandler", ctx.create_proxy::<LuaActionHandler>()?)?;
globals.set("Window", ctx.create_proxy::<LuaWindow>()?)?; globals.set("Window", ctx.create_proxy::<LuaWindow>()?)?;
expose_comp_table_wrapper::<LuaCamera>(&ctx, &globals, "Camera")?;
expose_comp_table_wrapper::<LuaFreeFlyCamera>(&ctx, &globals, "FreeFlyCamera")?;
expose_comp_table_wrapper::<LuaWorldTransform>(&ctx, &globals, "WorldTransform")?;
expose_table_wrapper::<LuaDeviceEvent>(&ctx, &globals, "DeviceEvent")?;
let dt_table = create_reflect_table::<lyra_game::DeltaTime>(&ctx)?; let dt_table = create_reflect_table::<lyra_game::DeltaTime>(&ctx)?;
globals.set("DeltaTime", dt_table)?; globals.set("DeltaTime", dt_table)?;
@ -74,3 +71,49 @@ fn create_reflect_table<T: Reflect + ResourceObject + Default + 'static>(lua: &m
Ok(table) Ok(table)
} }
fn create_reflect_comp_table<T>(lua: &mlua::Lua, name: &str) -> mlua::Result<mlua::Table>
where
T: LuaWrapper + mlua::FromLua,
T::Wrap: lyra_ecs::Component + Reflect
{
let table = lua.create_table()?;
table.set(FN_NAME_INTERNAL_REFLECT, lua.create_function(|_, this: T| {
Ok(ScriptBorrow::from_component::<T::Wrap>(Some(this.into_wrapped())))
})?)?;
table.set(FN_NAME_INTERNAL_REFLECT_TYPE, lua.create_function(|_, ()| {
Ok(ScriptBorrow::from_component::<T::Wrap>(None))
})?)?;
table.set(mlua::MetaMethod::Type.name(), name)?;
Ok(table)
}
/// Expose a wrapper of a component that converts to/from a lua type.
///
/// This type of wrapper could convert to/from a Lua table, or number, string, etc., any Lua type.
///
/// This creates the reflection functions on a table specified in globals.
/// The table name is set to `name`, which is also how the script will use the table.
fn expose_comp_table_wrapper<T>(lua: &mlua::Lua, globals: &mlua::Table, name: &str) -> mlua::Result<()>
where
T: LuaWrapper + mlua::FromLua,
T::Wrap: lyra_ecs::Component + Reflect
{
let table = create_reflect_comp_table::<T>(&lua, name)?;
globals.set(name, table)?;
Ok(())
}
fn expose_table_wrapper<T>(lua: &mlua::Lua, globals: &mlua::Table, name: &str) -> mlua::Result<()>
where
T: LuaWrapper,
{
let table = lua.create_table()?;
table.set(mlua::MetaMethod::Type.name(), name.to_string())?;
globals.set(name, table)?;
Ok(())
}

View File

@ -1,5 +1,5 @@
use lyra_ecs::World; use lyra_ecs::World;
use crate::lua::wrappers::{LuaQuat, LuaTransform, LuaVec3, LuaVec2}; use crate::lua::wrappers::{LuaAngle, LuaQuat, LuaTransform, LuaVec2, LuaVec3};
use crate::ScriptData; use crate::ScriptData;
use crate::lua::RegisterLuaType; use crate::lua::RegisterLuaType;
@ -16,6 +16,7 @@ impl ScriptApiProvider for LyraMathApiProvider {
world.register_lua_wrapper::<LuaVec3>(); world.register_lua_wrapper::<LuaVec3>();
world.register_lua_wrapper::<LuaQuat>(); world.register_lua_wrapper::<LuaQuat>();
world.register_lua_wrapper::<LuaTransform>(); world.register_lua_wrapper::<LuaTransform>();
world.register_lua_wrapper::<LuaAngle>();
} }
fn expose_api(&mut self, _data: &ScriptData, ctx: &mut Self::ScriptContext) -> Result<(), crate::ScriptError> { fn expose_api(&mut self, _data: &ScriptData, ctx: &mut Self::ScriptContext) -> Result<(), crate::ScriptError> {
@ -29,6 +30,7 @@ impl ScriptApiProvider for LyraMathApiProvider {
globals.set("Vec3", ctx.create_proxy::<LuaVec3>()?)?; globals.set("Vec3", ctx.create_proxy::<LuaVec3>()?)?;
globals.set("Quat", ctx.create_proxy::<LuaQuat>()?)?; globals.set("Quat", ctx.create_proxy::<LuaQuat>()?)?;
globals.set("Transform", ctx.create_proxy::<LuaTransform>()?)?; globals.set("Transform", ctx.create_proxy::<LuaTransform>()?)?;
globals.set("Angle", ctx.create_proxy::<LuaAngle>()?)?;
Ok(()) Ok(())
} }

View File

@ -8,9 +8,22 @@ use crate::{ScriptBorrow, ScriptDynamicBundle};
use super::{Error, FN_NAME_INTERNAL_REFLECT}; use super::{Error, FN_NAME_INTERNAL_REFLECT};
pub trait LuaWrapper { pub trait LuaWrapper: Sized {
type Wrap: 'static;
/// The type id of the wrapped type. /// The type id of the wrapped type.
fn wrapped_type_id() -> TypeId; #[inline(always)]
fn wrapped_type_id() -> TypeId {
TypeId::of::<Self::Wrap>()
}
fn into_wrapped(self) -> Self::Wrap;
#[inline(always)]
fn from_wrapped(wrap: Self::Wrap) -> Option<Self> {
let _ = wrap;
None
}
} }
/// A trait that used to convert something into lua, or to set something to a value from lua. /// A trait that used to convert something into lua, or to set something to a value from lua.
@ -29,7 +42,7 @@ pub trait LuaProxy {
impl<'a, T> LuaProxy for T impl<'a, T> LuaProxy for T
where where
T: Reflect + Clone + mlua::FromLua + mlua::UserData T: Reflect + Clone + mlua::FromLua + mlua::IntoLua
{ {
fn as_lua_value( fn as_lua_value(
lua: &mlua::Lua, lua: &mlua::Lua,
@ -40,24 +53,24 @@ where
} }
fn apply( fn apply(
_: &mlua::Lua, lua: &mlua::Lua,
this: &mut dyn Reflect, this: &mut dyn Reflect,
apply: &mlua::Value, apply: &mlua::Value,
) -> mlua::Result<()> { ) -> mlua::Result<()> {
let this = this.as_any_mut().downcast_mut::<T>().unwrap(); let this = this.as_any_mut().downcast_mut::<T>().unwrap();
let apply = apply.as_userdata() let apply = T::from_lua(apply.clone(), lua)?;
.expect("Somehow a non-userdata Lua Value was provided to a LuaProxy")
.borrow::<T>()?;
*this = apply.clone(); *this = apply;
Ok(()) Ok(())
} }
} }
/// A struct that is used for retrieving rust type ids of types that implement `TableProxy`. /// ECS resource that can be used to lookup types via name.
///
/// You can get the [`TypeId`] of the type via name, or the [`ComponentInfo`].
#[derive(Default)] #[derive(Default)]
pub struct LuaTableProxyLookup { pub struct TypeLookup {
pub(crate) typeid_from_name: HashMap<String, TypeId>, pub(crate) typeid_from_name: HashMap<String, TypeId>,
pub(crate) comp_info_from_name: HashMap<String, ComponentInfo>, pub(crate) comp_info_from_name: HashMap<String, ComponentInfo>,
} }

View File

@ -10,14 +10,20 @@ use lyra_resource::ResourceManager;
use mlua::{IntoLua, ObjectLike}; use mlua::{IntoLua, ObjectLike};
use super::{ use super::{
reflect_user_data, wrappers::LuaResHandleToComponent, Error, LuaTableProxyLookup, ReflectLuaProxy, ReflectedIterator, FN_NAME_INTERNAL_AS_COMPONENT, FN_NAME_INTERNAL_REFLECT, FN_NAME_INTERNAL_REFLECT_TYPE reflect_user_data,
wrappers::{LuaResHandleToComponent, LuaWrappedEventProxy},
Error, ReflectLuaProxy, ReflectedIterator, TypeLookup, FN_NAME_INTERNAL_AS_COMPONENT,
FN_NAME_INTERNAL_REFLECT, FN_NAME_INTERNAL_REFLECT_TYPE,
}; };
impl mlua::FromLua for ScriptEntity { impl mlua::FromLua for ScriptEntity {
fn from_lua(value: mlua::Value, _: &mlua::Lua) -> mlua::Result<Self> { fn from_lua(value: mlua::Value, _: &mlua::Lua) -> mlua::Result<Self> {
match value { match value {
mlua::Value::UserData(ud) => Ok(ud.borrow::<Self>()?.clone()), mlua::Value::UserData(ud) => Ok(ud.borrow::<Self>()?.clone()),
mlua::Value::Nil => Err(mlua::Error::external(Error::type_mismatch("ScriptEntity", "Nil"))), mlua::Value::Nil => Err(mlua::Error::external(Error::type_mismatch(
"ScriptEntity",
"Nil",
))),
_ => panic!(), _ => panic!(),
} }
} }
@ -41,7 +47,10 @@ impl mlua::FromLua for ScriptWorldPtr {
fn from_lua(val: mlua::Value, _: &mlua::Lua) -> mlua::Result<Self> { fn from_lua(val: mlua::Value, _: &mlua::Lua) -> mlua::Result<Self> {
match val { match val {
mlua::Value::UserData(ud) => Ok(ud.borrow::<Self>()?.clone()), mlua::Value::UserData(ud) => Ok(ud.borrow::<Self>()?.clone()),
mlua::Value::Nil => Err(mlua::Error::external(Error::type_mismatch("ScriptWorldPtr", "Nil"))), mlua::Value::Nil => Err(mlua::Error::external(Error::type_mismatch(
"ScriptWorldPtr",
"Nil",
))),
_ => panic!(), _ => panic!(),
} }
} }
@ -64,8 +73,7 @@ impl mlua::UserData for ScriptWorldPtr {
})?; })?;
let comp_borrow = { let comp_borrow = {
if let Ok(as_comp) = ud.get::<mlua::Function>(FN_NAME_INTERNAL_AS_COMPONENT) if let Ok(as_comp) = ud.get::<mlua::Function>(FN_NAME_INTERNAL_AS_COMPONENT) {
{
let ud = match as_comp.call(ud.clone())? { let ud = match as_comp.call(ud.clone())? {
mlua::Value::UserData(ud) => ud, mlua::Value::UserData(ud) => ud,
mlua::Value::Nil => ud.clone(), mlua::Value::Nil => ud.clone(),
@ -115,11 +123,12 @@ impl mlua::UserData for ScriptWorldPtr {
mlua::Value::Table(t) => { mlua::Value::Table(t) => {
let name: String = t.get(mlua::MetaMethod::Type.name())?; let name: String = t.get(mlua::MetaMethod::Type.name())?;
let lookup = world.get_resource::<LuaTableProxyLookup>().ok_or( let lookup =
mlua::Error::runtime( world
.get_resource::<TypeLookup>()
.ok_or(mlua::Error::runtime(
"Unable to lookup table proxy, none were ever registered!", "Unable to lookup table proxy, none were ever registered!",
), ))?;
)?;
let info = lookup.comp_info_from_name.get(&name).ok_or_else(|| { let info = lookup.comp_info_from_name.get(&name).ok_or_else(|| {
mlua::Error::BadArgument { mlua::Error::BadArgument {
to: Some("World:view".into()), to: Some("World:view".into()),
@ -139,10 +148,7 @@ impl mlua::UserData for ScriptWorldPtr {
} }
mlua::Value::UserData(ud) => { mlua::Value::UserData(ud) => {
let reflect = ud let reflect = ud
.call_function::<ScriptBorrow>( .call_function::<ScriptBorrow>(FN_NAME_INTERNAL_REFLECT_TYPE, ())
FN_NAME_INTERNAL_REFLECT_TYPE,
(),
)
.expect("Type does not implement 'reflect_type' properly"); .expect("Type does not implement 'reflect_type' properly");
let refl_comp = reflect.reflect_branch.as_component_unchecked(); let refl_comp = reflect.reflect_branch.as_component_unchecked();
@ -172,7 +178,9 @@ impl mlua::UserData for ScriptWorldPtr {
let mut world = this.write(); let mut world = this.write();
while let Some(row) = reflected_iter.next_lua(lua) { while let Some(row) = reflected_iter.next_lua(lua) {
let r = row.row.into_iter() let r = row
.row
.into_iter()
.into_iter() .into_iter()
.map(|r| (r.comp_val, r.comp_ptr.cast::<()>())) .map(|r| (r.comp_val, r.comp_ptr.cast::<()>()))
.collect::<Vec<_>>(); .collect::<Vec<_>>();
@ -183,7 +191,6 @@ impl mlua::UserData for ScriptWorldPtr {
// if values were returned, find the type in the type registry, and apply the new values // if values were returned, find the type in the type registry, and apply the new values
if res.len() <= ptrs.len() { if res.len() <= ptrs.len() {
for (comp, ptr) in res.into_iter().zip(ptrs) { for (comp, ptr) in res.into_iter().zip(ptrs) {
let lua_typeid = match &comp { let lua_typeid = match &comp {
mlua::Value::UserData(ud) => { mlua::Value::UserData(ud) => {
@ -195,7 +202,7 @@ impl mlua::UserData for ScriptWorldPtr {
mlua::Value::Table(tbl) => { mlua::Value::Table(tbl) => {
let name: String = tbl.get(mlua::MetaMethod::Type.name())?; let name: String = tbl.get(mlua::MetaMethod::Type.name())?;
let lookup = world.get_resource::<LuaTableProxyLookup>().unwrap(); let lookup = world.get_resource::<TypeLookup>().unwrap();
*lookup.typeid_from_name.get(&name).unwrap() *lookup.typeid_from_name.get(&name).unwrap()
} }
_ => { _ => {
@ -294,7 +301,7 @@ impl mlua::UserData for ScriptWorldPtr {
Ok(()) Ok(())
}); });
methods.add_method_mut("request_res", |lua, this, path: String| { methods.add_method_mut("request_asset", |lua, this, path: String| {
let world = this.write(); let world = this.write();
let man = world.get_resource_mut::<ResourceManager>().unwrap(); let man = world.get_resource_mut::<ResourceManager>().unwrap();
let handle = man.request_raw(&path).unwrap(); let handle = man.request_raw(&path).unwrap();
@ -310,5 +317,41 @@ impl mlua::UserData for ScriptWorldPtr {
Ok((data.fn_to_lua)(lua, handle).unwrap()) Ok((data.fn_to_lua)(lua, handle).unwrap())
}); });
methods.add_method_mut(
"read_event",
|lua, this, either: mlua::Either<String, mlua::Table>| {
let mut world = this.write();
// get the type name
let name = match either {
mlua::Either::Left(name) => name,
mlua::Either::Right(table) => table.get(mlua::MetaMethod::Type.name())?,
};
// lookup the type id using the name, return an error if not found
let lookup = world.get_resource::<TypeLookup>().unwrap();
let tyid = lookup.typeid_from_name.get(&name).cloned();
if tyid.is_none() {
return Err(mlua::Error::runtime(format!(
"failed to lookup type id from type name: {}",
name
)));
}
let tyid = tyid.unwrap();
drop(lookup);
let registry = world.get_resource::<TypeRegistry>().unwrap();
let ty = registry
.get_type(tyid)
.expect("Could not find asset type in registry");
let data = ty
.get_data::<LuaWrappedEventProxy>()
.expect("Asset type does not have 'LuaWrappedEventProxy' as TypeData")
.clone();
drop(registry);
data.reader(&mut world).into_lua(lua)
},
);
} }
} }

View File

@ -0,0 +1,237 @@
use std::{any::TypeId, ops::Deref};
use lyra_resource::{gltf::{Gltf, Material, Mesh}, FilterMode, ResHandle, Texture, WrappingMode};
use lyra_game::scene::SceneGraph;
use lyra_reflect::Reflect;
use lyra_scripting_derive::{lua_wrap_handle, wrap_lua_struct};
use crate::{lua::{LuaWrapper, FN_NAME_INTERNAL_REFLECT, FN_NAME_INTERNAL_REFLECT_TYPE}, lyra_engine, ScriptBorrow};
use crate as lyra_scripting;
use super::LuaHandleWrapper;
use mlua::IntoLua;
fn filter_mode_to_str(fm: FilterMode) -> &'static str {
match fm {
FilterMode::Nearest => "nearest",
FilterMode::Linear => "linear",
}
}
fn wrapping_mode_to_str(wm: WrappingMode) -> &'static str {
match wm {
WrappingMode::ClampToEdge => "clamp_to_edge",
WrappingMode::MirroredRepeat => "mirrored_repeat",
WrappingMode::Repeat => "repeat",
}
}
wrap_lua_struct!(lyra_resource::TextureSampler,
// this can be safely skipped since it wont be a component or resource.
skip(lua_reflect),
fields={
// don't need to specify field types since setters are skipped
(mag_filter, skip_set, get={
this.mag_filter.map(|f| filter_mode_to_str(f))
.into_lua(lua)
}),
(min_filter, skip_set, get={
this.min_filter.map(|f| filter_mode_to_str(f))
.into_lua(lua)
}),
(mipmap_filter, skip_set, get={
this.mipmap_filter.map(|f| filter_mode_to_str(f))
.into_lua(lua)
}),
(wrap_u, skip_set, get={
wrapping_mode_to_str(this.wrap_u)
.into_lua(lua)
}),
(wrap_v, skip_set, get={
wrapping_mode_to_str(this.wrap_v)
.into_lua(lua)
}),
(wrap_w, skip_set, get={
wrapping_mode_to_str(this.wrap_w)
.into_lua(lua)
}),
}
);
wrap_lua_struct!(lyra_resource::gltf::PbrGlossiness,
// this can be safely skipped since it wont be a component or resource.
skip(lua_reflect),
fields={
(diffuse_color: wrap(crate::lua::wrappers::LuaVec4), skip_set),
(specular: wrap(crate::lua::wrappers::LuaVec3), skip_set),
(glossiness, skip_set),
}
);
wrap_lua_struct!(lyra_resource::gltf::Specular,
// this can be safely skipped since it wont be a component or resource.
skip(lua_reflect),
fields={
(factor, skip_set),
(color_factor: wrap(crate::lua::wrappers::LuaVec3), skip_set),
(texture, skip_set, get={
this.texture.clone()
.map(|t| LuaTextureHandle(t))
.into_lua(lua)
}),
(color_texture, skip_set, get={
this.color_texture.clone()
.map(|t| LuaTextureHandle(t))
.into_lua(lua)
})
}
);
// TODO: fields
lua_wrap_handle!(SceneGraph, name=Scene, {});
lua_wrap_handle!(Mesh,
field_getters={
(material, {
data.material.clone()
.map(|v| LuaMaterialHandle(v.clone()))
.into_lua(lua)
})
},
{
methods.add_method("indices", |lua, this, ()| {
if let Some(data) = this.0.data_ref() {
let table = lua.create_table()?;
match &data.indices {
Some(lyra_resource::gltf::MeshIndices::U16(v)) => {
for (i, ind) in v.iter().enumerate() {
let i = i as i64 + 1; // lua indexes start at 1
table.raw_set(i, *ind)?;
}
},
Some(lyra_resource::gltf::MeshIndices::U32(v)) => {
for (i, ind) in v.iter().enumerate() {
let i = i as i64 + 1; // lua indexes start at 1
table.raw_set(i, *ind)?;
}
},
None => {},
}
Ok(mlua::Value::Table(table))
} else {
Ok(mlua::Value::Nil)
}
});
// TODO: mesh attributes
}
);
lua_wrap_handle!(lyra_resource::Image,
field_getters={
(width, {
data.width().into_lua(lua)
}),
(height, {
data.height().into_lua(lua)
})
}
);
lua_wrap_handle!(Texture,
field_getters={
(image, wrapper=LuaImageHandle),
(sampler, {
data.sampler.clone()
.map(|s| LuaTextureSampler(s))
.into_lua(lua)
})
}
);
lua_wrap_handle!(Material,
field_getters={
shader_uuid,
name,
double_sided,
(base_color, wrapper=crate::lua::wrappers::LuaVec4),
metallic,
roughness,
(base_color_texture, {
data.base_color_texture.clone()
.map(|v| LuaTextureHandle(v.clone()))
.into_lua(lua)
}),
(metallic_roughness_texture, {
data.metallic_roughness_texture.clone()
.map(|v| LuaTextureHandle(v.clone()))
.into_lua(lua)
}),
(pbr_glossiness, {
data.pbr_glossiness.clone()
.map(|v| LuaPbrGlossiness(v.clone()))
.into_lua(lua)
}),
alpha_cutoff,
(alpha_mode, {
match data.alpha_mode {
lyra_resource::gltf::AlphaMode::Opaque => "opaque",
lyra_resource::gltf::AlphaMode::Mask => "mask",
lyra_resource::gltf::AlphaMode::Blend => "blend",
}.into_lua(lua)
}),
(specular, {
data.specular.clone()
.map(|v| LuaSpecular(v.clone()))
.into_lua(lua)
}),
}
);
lua_wrap_handle!(Gltf, {
methods.add_method("scenes", |lua, this, ()| {
if let Some(data) = this.0.data_ref() {
let table = lua.create_table()?;
for (i, scene) in data.scenes.iter().enumerate() {
let i = i as i64 + 1; // lua indexes start at 1
table.raw_set(i, LuaSceneHandle(scene.clone()))?;
}
Ok(mlua::Value::Table(table))
} else {
Ok(mlua::Value::Nil)
}
});
methods.add_method("materials", |lua, this, ()| {
if let Some(data) = this.0.data_ref() {
let table = lua.create_table()?;
for (i, mat) in data.materials.iter().enumerate() {
let i = i as i64 + 1; // lua indexes start at 1
table.raw_set(i, LuaMaterialHandle(mat.clone()))?;
}
Ok(mlua::Value::Table(table))
} else {
Ok(mlua::Value::Nil)
}
});
methods.add_method("meshes", |lua, this, ()| {
if let Some(data) = this.0.data_ref() {
let table = lua.create_table()?;
for (i, mesh) in data.meshes.iter().enumerate() {
let i = i as i64 + 1; // lua indexes start at 1
table.raw_set(i, LuaMeshHandle(mesh.clone()))?;
}
Ok(mlua::Value::Table(table))
} else {
Ok(mlua::Value::Nil)
}
});
});

View File

@ -1,21 +1,37 @@
use std::{any::TypeId, ops::Deref}; use lyra_resource::{ResHandle, ResourceData, UntypedResHandle};
//use mlua::{AnyUserData, IntoLua, FromLua, Lua, Value}; use lyra_reflect::FromType;
use lyra_resource::{gltf::{Gltf, Material, Mesh}, Texture, ResHandle, UntypedResHandle}; use crate::lua::LuaWrapper;
use lyra_game::scene::SceneGraph;
use lyra_reflect::{Reflect, TypeData};
use lyra_scripting_derive::{lua_wrap_handle, wrap_lua_struct};
use crate::{lua::{Error, LuaWrapper, FN_NAME_INTERNAL_AS_COMPONENT, FN_NAME_INTERNAL_REFLECT, FN_NAME_INTERNAL_REFLECT_TYPE}, lyra_engine, ScriptBorrow}; mod gltf;
pub use gltf::*;
use crate as lyra_scripting; pub trait LuaHandleWrapper: LuaWrapper + mlua::UserData + Send + 'static {
type ResourceType: lyra_resource::ResourceData;
use mlua::IntoLua; fn from_handle(handle: ResHandle<Self::ResourceType>) -> Self;
}
#[derive(Clone)]
pub struct LuaResHandleToComponent { pub struct LuaResHandleToComponent {
/// Create the userdata component that /// Create the userdata component that
pub fn_to_lua: fn(&mlua::Lua, UntypedResHandle) -> Option<mlua::AnyUserData>, pub fn_to_lua: fn(&mlua::Lua, UntypedResHandle) -> Option<mlua::AnyUserData>,
} }
impl<T> FromType<T> for LuaResHandleToComponent
where
T: LuaHandleWrapper,
T::ResourceType: ResourceData,
{
fn from_type() -> Self {
Self {
fn_to_lua: |lua: &mlua::Lua, handle: UntypedResHandle| {
handle.as_typed::<T::ResourceType>()
.map(|res| lua.create_userdata(T::from_handle(res)).unwrap())
},
}
}
}
impl LuaResHandleToComponent { impl LuaResHandleToComponent {
pub fn new(f: fn(&mlua::Lua, UntypedResHandle) -> Option<mlua::AnyUserData>) -> Self { pub fn new(f: fn(&mlua::Lua, UntypedResHandle) -> Option<mlua::AnyUserData>) -> Self {
Self { Self {
@ -23,220 +39,3 @@ impl LuaResHandleToComponent {
} }
} }
} }
impl TypeData for LuaResHandleToComponent {
fn as_any(&self) -> &dyn std::any::Any {
self
}
fn as_any_mut(&mut self) -> &mut dyn std::any::Any {
self
}
fn boxed_clone(&self) -> Box<dyn TypeData> {
todo!()
}
}
#[derive(Clone)]
pub struct LuaResHandle(pub UntypedResHandle);
impl Deref for LuaResHandle {
type Target = UntypedResHandle;
fn deref(&self) -> &Self::Target {
&self.0
}
}
impl From<UntypedResHandle> for LuaResHandle {
fn from(value: UntypedResHandle) -> Self {
LuaResHandle(value)
}
}
impl mlua::UserData for LuaResHandle {
fn add_fields<F: mlua::UserDataFields<Self>>(fields: &mut F) {
fields.add_field_method_get("path", |_, this| Ok(this.path()));
fields.add_field_method_get("version", |_, this| Ok(this.version()));
fields.add_field_method_get("uuid", |_, this| Ok(this.uuid().to_string()));
fields.add_field_method_get("state", |_, this| {
let name = if this.is_loaded() {
"ready"
} else if this.get_error().is_some() {
"error"
} else { "loading" };
Ok(name)
});
}
fn add_methods<M: mlua::UserDataMethods<Self>>(methods: &mut M) {
methods.add_method("is_watched", |_, this, ()| {
Ok(this.is_watched())
});
methods.add_method("is_loaded", |_, this, ()| {
Ok(this.is_loaded())
});
methods.add_method("wait_until_loaded", |_, this, ()| {
this.wait_recurse_dependencies_load();
Ok(())
});
methods.add_method(FN_NAME_INTERNAL_AS_COMPONENT, |lua, this, ()| {
let handle = &this.0;
if let Some(handle) = handle.as_typed::<SceneGraph>() {
LuaSceneHandle(handle).into_lua(lua)
} else if let Some(handle) = handle.as_typed::<Gltf>() {
LuaGltfHandle(handle).into_lua(lua)
} else {
Ok(mlua::Value::Nil)
}
});
}
}
impl mlua::FromLua for LuaResHandle {
fn from_lua(val: mlua::Value, _: &mlua::Lua) -> mlua::Result<Self> {
let tyname = val.type_name();
let ud = val.as_userdata()
.ok_or(mlua::Error::external(Error::type_mismatch("Handle", &tyname)))?;
let handle = ud.borrow::<LuaResHandle>()?;
Ok(handle.clone())
}
}
wrap_lua_struct!(lyra_resource::gltf::PbrGlossiness, skip(lua_reflect)); // doesn't need internal lua reflection methods
wrap_lua_struct!(lyra_resource::gltf::Specular, skip(lua_reflect)); // doesn't need internal lua reflection methods
lua_wrap_handle!(SceneGraph, name=Scene, {});
lua_wrap_handle!(Mesh,
field_getters={
(material, {
data.material.clone()
.map(|v| LuaMaterialHandle(v.clone()))
.into_lua(lua)
})
},
{
methods.add_method("indices", |lua, this, ()| {
if let Some(data) = this.0.data_ref() {
let table = lua.create_table()?;
match &data.indices {
Some(lyra_resource::gltf::MeshIndices::U16(v)) => {
for (i, ind) in v.iter().enumerate() {
let i = i as i64 + 1; // lua indexes start at 1
table.raw_set(i, *ind)?;
}
},
Some(lyra_resource::gltf::MeshIndices::U32(v)) => {
for (i, ind) in v.iter().enumerate() {
let i = i as i64 + 1; // lua indexes start at 1
table.raw_set(i, *ind)?;
}
},
None => {},
}
Ok(mlua::Value::Table(table))
} else {
Ok(mlua::Value::Nil)
}
});
// TODO: attributes
}
);
lua_wrap_handle!(Texture, {});
lua_wrap_handle!(Material,
field_getters={
shader_uuid,
name,
double_sided,
(base_color, wrapper=crate::lua::wrappers::LuaVec4),
metallic,
roughness,
(base_color_texture, {
data.base_color_texture.clone()
.map(|v| LuaTextureHandle(v.clone()))
.into_lua(lua)
}),
(metallic_roughness_texture, {
data.metallic_roughness_texture.clone()
.map(|v| LuaTextureHandle(v.clone()))
.into_lua(lua)
}),
(pbr_glossiness, {
data.pbr_glossiness.clone()
.map(|v| LuaPbrGlossiness(v.clone()))
.into_lua(lua)
}),
alpha_cutoff,
(alpha_mode, {
match data.alpha_mode {
// TODO: Lua enums
lyra_resource::gltf::AlphaMode::Opaque => "opaque",
lyra_resource::gltf::AlphaMode::Mask => "mask",
lyra_resource::gltf::AlphaMode::Blend => "blend",
}.into_lua(lua)
}),
(specular, {
data.specular.clone()
.map(|v| LuaSpecular(v.clone()))
.into_lua(lua)
}),
}
);
lua_wrap_handle!(Gltf, {
methods.add_method("scenes", |lua, this, ()| {
if let Some(data) = this.0.data_ref() {
let table = lua.create_table()?;
for (i, scene) in data.scenes.iter().enumerate() {
let i = i as i64 + 1; // lua indexes start at 1
table.raw_set(i, LuaSceneHandle(scene.clone()))?;
}
Ok(mlua::Value::Table(table))
} else {
Ok(mlua::Value::Nil)
}
});
methods.add_method("materials", |lua, this, ()| {
if let Some(data) = this.0.data_ref() {
let table = lua.create_table()?;
for (i, mat) in data.materials.iter().enumerate() {
let i = i as i64 + 1; // lua indexes start at 1
table.raw_set(i, LuaMaterialHandle(mat.clone()))?;
}
Ok(mlua::Value::Table(table))
} else {
Ok(mlua::Value::Nil)
}
});
methods.add_method("meshes", |lua, this, ()| {
if let Some(data) = this.0.data_ref() {
let table = lua.create_table()?;
for (i, mesh) in data.meshes.iter().enumerate() {
let i = i as i64 + 1; // lua indexes start at 1
table.raw_set(i, LuaMeshHandle(mesh.clone()))?;
}
Ok(mlua::Value::Table(table))
} else {
Ok(mlua::Value::Nil)
}
});
});

View File

@ -0,0 +1,46 @@
use crate::{
lua::{
wrappers::{LuaAngle, LuaTransform},
LuaWrapper
},
ScriptBorrow,
};
use lyra_game::{render::camera::CameraProjectionMode, scene::CameraComponent};
use lyra_reflect::Enum;
use lyra_scripting_derive::to_lua_convert;
fn projection_mode_from_str(s: &str) -> Option<CameraProjectionMode> {
match s {
"perspective" => Some(CameraProjectionMode::Perspective),
"orthographic" => Some(CameraProjectionMode::Orthographic),
_ => None,
}
}
to_lua_convert!(
// Struct that is being wrapped
CameraComponent,
// Name of wrapping struct
name=LuaCamera,
// The name of the type in Lua
lua_name="Camera",
// Reflection type, can be 'component' or 'resource'
reflect=component,
fields={
transform: wrap(LuaTransform),
fov: wrap(LuaAngle),
(
mode,
// Get the table from the value, result must be `CameraProjectionMode`
get={
let mode: String = table.get("mode")?;
projection_mode_from_str(&mode).unwrap()
},
// Get the value from self, result must be the type in Lua, here its `String`.
set={
self.mode.variant_name().to_lowercase()
}
),
debug: bool
}
);

View File

@ -34,7 +34,15 @@ impl mlua::IntoLua for LuaDeltaTime {
} }
impl LuaWrapper for LuaDeltaTime { impl LuaWrapper for LuaDeltaTime {
type Wrap = DeltaTime;
#[inline(always)]
fn wrapped_type_id() -> std::any::TypeId { fn wrapped_type_id() -> std::any::TypeId {
TypeId::of::<DeltaTime>() TypeId::of::<DeltaTime>()
} }
#[inline(always)]
fn into_wrapped(self) -> Self::Wrap {
self.0
}
} }

View File

@ -0,0 +1,341 @@
use crate::lua::LuaWrapper;
use lyra_game::{
input::{KeyCode, NativeKeyCode},
math::Vec2,
winit::{
dpi::PhysicalPosition, DeviceEvent, DeviceEventPair, DeviceId, MouseScrollDelta,
PhysicalKey, RawKeyEvent,
},
};
use lyra_reflect::Reflect;
use lyra_scripting_derive::wrap_lua_struct;
use crate as lyra_scripting;
use crate::lyra_engine;
use super::LuaVec2;
wrap_lua_struct!(DeviceId, skip(lua_reflect));
/// Wraps [`DeviceEvent`] and implements [`IntoLua`]
#[derive(Clone)]
pub struct LuaDeviceEventRaw(pub(crate) DeviceEvent);
impl std::ops::Deref for LuaDeviceEventRaw {
type Target = DeviceEvent;
fn deref(&self) -> &Self::Target {
&self.0
}
}
impl std::ops::DerefMut for LuaDeviceEventRaw {
fn deref_mut(&mut self) -> &mut Self::Target {
&mut self.0
}
}
impl mlua::FromLua for LuaDeviceEventRaw {
fn from_lua(v: mlua::Value, _: &mlua::Lua) -> mlua::Result<Self> {
let ty = v.type_name();
let table = v.as_table().ok_or(mlua::Error::FromLuaConversionError {
from: ty,
to: "LuaDeviceEventRaw".into(),
message: Some("expected Lua Table".into()),
})?;
let type_str: String = table.get("kind")?;
let type_str = type_str.as_str();
let ret = match type_str {
"added" => Self(DeviceEvent::Added),
"removed" => Self(DeviceEvent::Removed),
"mouse_motion" => {
let delta: LuaVec2 = table.get("delta")?;
Self(DeviceEvent::MouseMotion {
delta: (delta.x as _, delta.y as _),
})
}
"mouse_wheel" => {
let delta = if table.contains_key("line_delta")? {
let ld: LuaVec2 = table.get("line_delta")?;
MouseScrollDelta::LineDelta(ld.x, ld.y)
} else if table.contains_key("pixel_delta")? {
let pd: LuaVec2 = table.get("pixel_delta")?;
let pos = PhysicalPosition::new(pd.x as f64, pd.y as f64);
MouseScrollDelta::PixelDelta(pos)
} else {
return Err(mlua::Error::FromLuaConversionError {
from: ty,
to: "LuaDeviceEventRaw".into(),
message: Some(
"could not find line_delta or pixel_delta in 'mouse_wheel' \
device event"
.into(),
),
});
};
Self(DeviceEvent::MouseWheel { delta })
}
"motion" => {
let axis: u32 = table.get("axis")?;
let value: f64 = table.get("value")?;
Self(DeviceEvent::Motion { axis, value })
}
"button" => {
let button: u32 = table.get("button")?;
let state_str: String = table.get("state")?;
let state_str = state_str.as_str();
let state = match state_str {
"pressed" => lyra_game::winit::ElementState::Pressed,
"released" => lyra_game::winit::ElementState::Released,
_ => {
return Err(mlua::Error::FromLuaConversionError {
from: ty,
to: "LuaDeviceEventRaw".into(),
message: Some(format!("unknown button state: '{}'", state_str)),
});
}
};
Self(DeviceEvent::Button { button, state })
}
"key" => {
let state_str: String = table.get("state")?;
let state_str = state_str.as_str();
let state = match state_str {
"pressed" => lyra_game::winit::ElementState::Pressed,
"released" => lyra_game::winit::ElementState::Released,
_ => {
return Err(mlua::Error::FromLuaConversionError {
from: ty,
to: "LuaDeviceEventRaw".into(),
message: Some(format!("unknown key state: '{}'", state_str)),
});
}
};
if table.contains_key("code")? {
let code_str: String = table.get("code")?;
let code = KeyCode::from_str(&code_str);
if code.is_none() {
return Err(mlua::Error::FromLuaConversionError {
from: ty,
to: "LuaDeviceEventRaw".into(),
message: Some(format!("unknown key code: '{}'", code_str)),
});
}
let code = code.unwrap();
let phy = PhysicalKey::Code(code.as_winit_keycode().unwrap());
Self(DeviceEvent::Key(RawKeyEvent {
physical_key: phy,
state,
}))
} else if table.contains_key("native")? {
let native_str: String = table.get("native")?;
let native_str = native_str.as_str();
let native_code: u32 = table.get("native_code")?;
let native_code = match native_str {
"unknown" => NativeKeyCode::Unidentified,
"android" => NativeKeyCode::Android(native_code),
"macos" => NativeKeyCode::MacOS(native_code as u16),
"windows" => NativeKeyCode::Windows(native_code as u16),
"xkb" => NativeKeyCode::Xkb(native_code),
_ => {
return Err(mlua::Error::FromLuaConversionError {
from: ty,
to: "LuaDeviceEventRaw".into(),
message: Some(format!("unknown native code type: {}", native_str)),
});
}
};
Self(DeviceEvent::Key(RawKeyEvent {
physical_key: PhysicalKey::Unidentified(native_code.into()),
state,
}))
} else {
return Err(mlua::Error::FromLuaConversionError {
from: ty,
to: "LuaDeviceEventRaw".into(),
message: Some(
"malformed Table for LuaDeviceEventRaw, missing key \
code"
.into(),
),
});
}
}
_ => {
return Err(mlua::Error::FromLuaConversionError {
from: ty,
to: "LuaDeviceEventRaw".into(),
message: Some(format!("unknown device event type '{}'", type_str)),
});
}
};
Ok(ret)
}
}
impl mlua::IntoLua for LuaDeviceEventRaw {
fn into_lua(self, lua: &mlua::Lua) -> mlua::Result<mlua::Value> {
let table = lua.create_table()?;
match self.0 {
DeviceEvent::Added => {
table.set("kind", "added")?;
}
DeviceEvent::Removed => {
table.set("kind", "removed")?;
}
DeviceEvent::MouseMotion { delta } => {
table.set("kind", "mouse_motion")?;
table.set("delta", LuaVec2(Vec2::new(delta.0 as _, delta.1 as _)))?;
}
DeviceEvent::MouseWheel { delta } => {
table.set("kind", "mouse_wheel")?;
match delta {
MouseScrollDelta::LineDelta(x, y) => {
let d = LuaVec2(Vec2::new(x, y));
table.set("line_delta", d)?;
}
MouseScrollDelta::PixelDelta(delta) => {
let d = delta.cast::<f32>();
let d = LuaVec2(Vec2::new(d.x, d.y));
table.set("pixel_delta", d)?;
}
}
}
DeviceEvent::Motion { axis, value } => {
table.set("kind", "motion")?;
table.set("axis", axis)?;
table.set("value", value)?;
}
DeviceEvent::Button { button, state } => {
table.set("kind", "button")?;
table.set("button", button)?;
let state = match state {
lyra_game::winit::ElementState::Pressed => "pressed",
lyra_game::winit::ElementState::Released => "released",
};
table.set("state", state)?;
}
DeviceEvent::Key(raw_key_event) => {
table.set("kind", "key")?;
let state = match raw_key_event.state {
lyra_game::winit::ElementState::Pressed => "pressed",
lyra_game::winit::ElementState::Released => "released",
};
table.set("state", state)?;
let e = KeyCode::from_raw_event(&raw_key_event);
let s = e.as_str();
if let Some(s) = s {
table.set("code", s)?;
} else if let Some(un) = e.get_unknown() {
match un {
lyra_game::input::NativeKeyCode::Unidentified => {
table.set("native", "unknown")?;
}
lyra_game::input::NativeKeyCode::Android(v) => {
table.set("native", "android")?;
table.set("native_code", *v)?;
}
lyra_game::input::NativeKeyCode::MacOS(v) => {
table.set("native", "macos")?;
table.set("native_code", *v)?;
}
lyra_game::input::NativeKeyCode::Windows(v) => {
table.set("native", "windows")?;
table.set("native_code", *v)?;
}
lyra_game::input::NativeKeyCode::Xkb(v) => {
table.set("native", "xkb")?;
table.set("native_code", *v)?;
}
}
}
}
}
table.into_lua(lua)
}
}
impl LuaWrapper for LuaDeviceEventRaw {
type Wrap = DeviceEvent;
#[inline(always)]
fn into_wrapped(self) -> Self::Wrap {
self.0
}
}
#[derive(Clone, Reflect)]
pub struct LuaDeviceEvent(pub(crate) DeviceEventPair);
impl std::ops::Deref for LuaDeviceEvent {
type Target = DeviceEventPair;
fn deref(&self) -> &Self::Target {
&self.0
}
}
impl std::ops::DerefMut for LuaDeviceEvent {
fn deref_mut(&mut self) -> &mut Self::Target {
&mut self.0
}
}
impl mlua::FromLua for LuaDeviceEvent {
fn from_lua(v: mlua::Value, _: &mlua::Lua) -> mlua::Result<Self> {
let ty = v.type_name();
let table = v.as_table().ok_or(mlua::Error::FromLuaConversionError {
from: ty,
to: "LuaDeviceEvent".into(),
message: Some("expected Lua Table".into()),
})?;
let id: LuaDeviceId = table.get("device")?;
let ev: LuaDeviceEventRaw = table.get("event")?;
Ok(Self(DeviceEventPair {
device_src: id.0,
event: ev.0,
}))
}
}
impl mlua::IntoLua for LuaDeviceEvent {
fn into_lua(self, lua: &mlua::Lua) -> mlua::Result<mlua::Value> {
let table = lua.create_table()?;
table.set("device", LuaDeviceId(self.device_src))?;
table.set("event", LuaDeviceEventRaw(self.event.clone()))?;
table.into_lua(lua)
}
}
impl LuaWrapper for LuaDeviceEvent {
type Wrap = DeviceEventPair;
#[inline(always)]
fn into_wrapped(self) -> Self::Wrap {
self.0
}
#[inline(always)]
fn from_wrapped(wrap: Self::Wrap) -> Option<Self> {
Some(Self(wrap))
}
}

View File

@ -0,0 +1,151 @@
use std::{marker::PhantomData, sync::Arc};
use crate::lua::LuaWrapper;
use atomic_refcell::AtomicRefCell;
use lyra_ecs::World;
use lyra_game::{
Event, EventReader, EventWriter, Events,
};
use lyra_reflect::{FromType, Reflect};
use mlua::{FromLua, IntoLua};
use super::LuaVec2;
mod device_event;
pub use device_event::*;
/// Helper trait to type erase EventReader<T>
trait UntypedEventReader: Send + Sync {
fn next(&self, lua: &mlua::Lua) -> mlua::Result<mlua::Value>;
}
/// Helper trait to type erase EventWriter<T>
trait UntypedEventWriter: Send + Sync {
fn push(&self, lua: &mlua::Lua, event: mlua::Value) -> mlua::Result<()>;
}
/// Event reader exposed to Lua
#[derive(Clone)]
pub struct LuaEventReader(Arc<AtomicRefCell<dyn UntypedEventReader>>);
impl mlua::FromLua for LuaEventReader {
fn from_lua(value: mlua::Value, _: &mlua::Lua) -> mlua::Result<Self> {
let ty = value.type_name();
let ud = value.as_userdata()
.ok_or(mlua::Error::FromLuaConversionError { from: ty, to: "EventReader".into(), message: None })?;
let reader = ud.borrow::<Self>()?;
Ok(reader.clone())
}
}
impl mlua::UserData for LuaEventReader {
fn add_methods<M: mlua::UserDataMethods<Self>>(methods: &mut M) {
methods.add_method("read", |lua, this, ()| {
let reg = lua.create_registry_value(this.clone())?;
lua.create_function(move |lua: &mlua::Lua, ()| {
let reader = lua.registry_value::<Self>(&reg)?;
let reader = reader.0.borrow();
reader.next(lua)
})
});
}
}
/// Event writer exposed to Lua
#[derive(Clone)]
pub struct LuaEventWriter(Arc<AtomicRefCell<dyn UntypedEventWriter>>);
impl mlua::UserData for LuaEventWriter {
fn add_methods<M: mlua::UserDataMethods<Self>>(methods: &mut M) {
methods.add_method("write", |lua, this, event: mlua::Value| {
let writer = this.0.borrow();
writer.push(lua, event)?;
Ok(())
});
}
}
struct TypedReader<T>
where
T: Reflect + LuaWrapper + IntoLua + Send + Sync,
T::Wrap: Clone + Event,
{
reader: EventReader<T::Wrap>,
_marker: PhantomData<T>,
}
impl<T> UntypedEventReader for TypedReader<T>
where
T: Reflect + LuaWrapper + IntoLua + Send + Sync,
T::Wrap: Clone + Event,
{
fn next(&self, lua: &mlua::Lua) -> mlua::Result<mlua::Value> {
self.reader
.read()
.map(|e| T::from_wrapped(e.clone()).into_lua(lua))
.unwrap_or(Ok(mlua::Value::Nil))
}
}
struct TypedWriter<T>
where
T: Reflect + LuaWrapper + FromLua,
T::Wrap: Clone + Event,
{
writer: EventWriter<T::Wrap>,
_marker: PhantomData<T>,
}
impl<T> UntypedEventWriter for TypedWriter<T>
where
T: Reflect + LuaWrapper + FromLua,
T::Wrap: Clone + Event,
{
fn push(&self, lua: &mlua::Lua, event: mlua::Value) -> mlua::Result<()> {
let ev = T::from_lua(event, lua)?.into_wrapped();
self.writer.write(ev);
Ok(())
}
}
#[derive(Clone)]
pub struct LuaWrappedEventProxy {
fn_reader: for<'a> fn(world: &'a mut World) -> Arc<AtomicRefCell<dyn UntypedEventReader>>,
fn_writer: for<'a> fn(world: &'a mut World) -> Arc<AtomicRefCell<dyn UntypedEventWriter>>,
}
impl<T> FromType<T> for LuaWrappedEventProxy
where
T: Reflect + LuaWrapper + FromLua + IntoLua + Send + Sync,
T::Wrap: Clone + Event,
{
fn from_type() -> Self {
Self {
fn_reader: |world| {
let events = world.get_resource_or_default::<Events<T::Wrap>>();
Arc::new(AtomicRefCell::new(TypedReader {
reader: events.reader(),
_marker: PhantomData::<T>,
}))
},
fn_writer: |world| {
let events = world.get_resource_or_default::<Events<T::Wrap>>();
Arc::new(AtomicRefCell::new(TypedWriter {
writer: events.writer(),
_marker: PhantomData::<T>,
}))
},
}
}
}
impl LuaWrappedEventProxy {
pub fn reader(&self, world: &mut World) -> LuaEventReader {
LuaEventReader((self.fn_reader)(world))
}
pub fn writer(&self, world: &mut World) -> LuaEventWriter {
LuaEventWriter((self.fn_writer)(world))
}
}

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@ -0,0 +1,15 @@
use crate::{lua::LuaWrapper, ScriptBorrow};
use lyra_game::scene::FreeFlyCamera;
use lyra_scripting_derive::to_lua_convert;
to_lua_convert!(
// Struct that is being wrapped
FreeFlyCamera,
// Reflection type, can be 'component' or 'resource'
reflect=component,
fields={
speed: f32,
look_speed: f32,
mouse_sensitivity: f32,
}
);

View File

@ -1,4 +1,4 @@
use lyra_game::input::{keycode_from_str, Action, ActionHandler, ActionKind, ActionMapping, ActionMappingId, ActionSource, ActionState, LayoutId, MouseAxis, MouseInput}; use lyra_game::input::{Action, ActionHandler, ActionKind, ActionMapping, ActionMappingId, ActionSource, ActionState, KeyCode, LayoutId, MouseAxis, MouseInput};
use mlua::IntoLua; use mlua::IntoLua;
use crate::{lua::Error, lyra_engine}; use crate::{lua::Error, lyra_engine};
@ -127,13 +127,21 @@ impl mlua::UserData for LuaActionHandler {
methods.add_method("get_action_state", |lua, this, action: String| { methods.add_method("get_action_state", |lua, this, action: String| {
let state = this.handler.get_action_state(action); let state = this.handler.get_action_state(action);
// if the state wasn't found, return Nil.
if state.is_none() {
let mut v = mlua::MultiValue::new();
v.push_back(mlua::Value::Nil);
return Ok(v);
}
let state = state.unwrap();
let (name, val) = match state { let (name, val) = match state {
ActionState::Idle => ("Idle", None), ActionState::Idle => ("idle", None),
ActionState::Pressed(v) => ("Pressed", Some(v)), ActionState::Pressed(v) => ("pressed", Some(v)),
ActionState::JustPressed(v) => ("JustPressed", Some(v)), ActionState::JustPressed(v) => ("just_pressed", Some(v)),
ActionState::JustReleased => ("JustReleased", None), ActionState::JustReleased => ("just_released", None),
ActionState::Axis(v) => ("Axis", Some(v)), ActionState::Axis(v) => ("axis", Some(v)),
ActionState::Other(v) => ("Other", Some(v)), ActionState::Other(v) => ("other", Some(v)),
}; };
let mut multi = Vec::new(); let mut multi = Vec::new();
@ -165,13 +173,19 @@ impl mlua::FromLua for LuaActionHandler {
} }
impl LuaWrapper for LuaActionHandler { impl LuaWrapper for LuaActionHandler {
type Wrap = ActionHandler;
fn wrapped_type_id() -> std::any::TypeId { fn wrapped_type_id() -> std::any::TypeId {
std::any::TypeId::of::<ActionHandler>() std::any::TypeId::of::<ActionHandler>()
} }
fn into_wrapped(self) -> Self::Wrap {
self.handler
}
} }
fn process_keyboard_string(key_name: &str) -> Option<ActionSource> { fn process_keyboard_string(key_name: &str) -> Option<ActionSource> {
let key = keycode_from_str(key_name)?; let key = KeyCode::from_str(key_name)?;
Some(ActionSource::Keyboard(key)) Some(ActionSource::Keyboard(key))
} }

View File

@ -1,4 +1,6 @@
use crate::lyra_engine; use std::sync::Arc;
use crate::{lua::Error, lyra_engine};
use lyra_game::math; use lyra_game::math;
use lyra_scripting_derive::{lua_vec_wrap_extension, wrap_lua_struct}; use lyra_scripting_derive::{lua_vec_wrap_extension, wrap_lua_struct};
use mlua::FromLuaMulti; use mlua::FromLuaMulti;
@ -9,7 +11,7 @@ wrap_lua_struct!(
math::Vec2, math::Vec2,
derives(PartialEq, Copy), derives(PartialEq, Copy),
new, new,
fields(x, y), fields={x: f32, y: f32},
metamethods( metamethods(
Add(LuaVec2, f32), Add(LuaVec2, f32),
Sub(LuaVec2, f32), Sub(LuaVec2, f32),
@ -29,7 +31,14 @@ wrap_lua_struct!(
} else if let Ok(v) = Self::from_lua_multi(vals_clone, lua) { } else if let Ok(v) = Self::from_lua_multi(vals_clone, lua) {
this.0 += v.0; this.0 += v.0;
} else { } else {
todo!("handle invalid argument error"); return Err(mlua::Error::BadArgument {
to: Some("Vec2:move_by".into()),
pos: 2,
name: None,
cause: Arc::new(mlua::Error::runtime(
"expected (number, number, number) or (Vec2), received neither"
)),
});
} }
Ok(()) Ok(())
@ -41,7 +50,7 @@ wrap_lua_struct!(
math::Vec3, math::Vec3,
derives(PartialEq, Copy), derives(PartialEq, Copy),
new, new,
fields(x, y, z), fields={x: f32, y: f32, z: f32},
metamethods( metamethods(
Add(LuaVec3, f32), Add(LuaVec3, f32),
Sub(LuaVec3, f32), Sub(LuaVec3, f32),
@ -62,7 +71,14 @@ wrap_lua_struct!(
} else if let Ok(v) = Self::from_lua_multi(vals_clone, lua) { } else if let Ok(v) = Self::from_lua_multi(vals_clone, lua) {
this.0 += v.0; this.0 += v.0;
} else { } else {
todo!("handle invalid argument error"); return Err(mlua::Error::BadArgument {
to: Some("Vec3:move_by".into()),
pos: 2,
name: None,
cause: Arc::new(mlua::Error::runtime(
"expected (number, number, number) or (Vec3), received neither"
)),
});
} }
Ok(()) Ok(())
@ -74,7 +90,7 @@ wrap_lua_struct!(
math::Vec4, math::Vec4,
derives(PartialEq, Copy), derives(PartialEq, Copy),
new, new,
fields(x, y, z, w), fields={x: f32, y: f32, z: f32, w: f32},
metamethods( metamethods(
Add(LuaVec4, f32), Add(LuaVec4, f32),
Sub(LuaVec4, f32), Sub(LuaVec4, f32),
@ -92,7 +108,7 @@ wrap_lua_struct!(
math::Quat, math::Quat,
derives(PartialEq, Copy), derives(PartialEq, Copy),
//new, //new,
fields(x, y, z, w), fields={x: f32, y: f32, z: f32, w: f32},
metamethods( metamethods(
Eq, Eq,
Add, Add,
@ -122,10 +138,27 @@ wrap_lua_struct!(
Ok(Self(q)) Ok(Self(q))
}); });
methods.add_function("from_vec4", |_, v: LuaVec4| {
Ok(Self(math::Quat::from_vec4(*v)))
});
methods.add_function("from_axis_angle", |_, (axis, angle): (LuaVec3, f32)| {
let q = math::Quat::from_axis_angle(*axis, angle);
Ok(Self(q))
});
methods.add_method("dot", |_, this, (rhs,): (Self,)| { methods.add_method("dot", |_, this, (rhs,): (Self,)| {
Ok(this.dot(rhs.0)) Ok(this.dot(rhs.0))
}); });
methods.add_method("conjugate", |_, this, ()| {
Ok(Self(this.conjugate()))
});
methods.add_method("inverse", |_, this, ()| {
Ok(Self(this.inverse()))
});
methods.add_method("length", |_, this, ()| { methods.add_method("length", |_, this, ()| {
Ok(this.length()) Ok(this.length())
}); });
@ -134,20 +167,50 @@ wrap_lua_struct!(
Ok(this.length_squared()) Ok(this.length_squared())
}); });
methods.add_method_mut("normalize", |_, this, ()| { methods.add_method("length_recip", |_, this, ()| {
this.0 = this.normalize(); Ok(this.length_recip())
Ok(())
}); });
methods.add_method_mut("mult_quat", |_, this, (rhs,): (Self,)| { methods.add_method("normalize", |_, this, ()| {
this.0 *= rhs.0; Ok(Self(this.normalize()))
Ok(()) });
methods.add_method("mult_quat", |_, this, (rhs,): (Self,)| {
Ok(Self(this.0 * rhs.0))
}); });
methods.add_method("mult_vec3", |_, this, (rhs,): (LuaVec3,)| { methods.add_method("mult_vec3", |_, this, (rhs,): (LuaVec3,)| {
Ok(LuaVec3(this.0 * rhs.0)) Ok(LuaVec3(this.0 * rhs.0))
}); });
methods.add_method("is_finite", |_, this, ()| {
Ok(this.is_finite())
});
methods.add_method("is_nan", |_, this, ()| {
Ok(this.is_nan())
});
methods.add_method("is_normalized", |_, this, ()| {
Ok(this.is_normalized())
});
methods.add_method("is_near_identity", |_, this, ()| {
Ok(this.is_near_identity())
});
methods.add_method("angle_between", |_, this, rhs: LuaQuat| {
Ok(this.angle_between(*rhs))
});
methods.add_method("rotate_towards", |_, this, (rhs, max_angle): (LuaQuat, f32)| {
Ok(Self(this.rotate_towards(*rhs, max_angle)))
});
methods.add_method("abs_diff_eq", |_, this, (rhs, max_abs_diff): (LuaQuat, f32)| {
Ok(this.abs_diff_eq(*rhs, max_abs_diff))
});
// manually implemented here since multiplying may not return `Self`. // manually implemented here since multiplying may not return `Self`.
methods.add_meta_method(mlua::MetaMethod::Mul, |lua, this, (val,): (mlua::Value,)| { methods.add_meta_method(mlua::MetaMethod::Mul, |lua, this, (val,): (mlua::Value,)| {
use mlua::IntoLua; use mlua::IntoLua;
@ -169,7 +232,15 @@ wrap_lua_struct!(
.into_lua(lua) .into_lua(lua)
}, },
_ => { _ => {
todo!() let t = val.type_name();
Err(mlua::Error::BadArgument {
to: Some("Quat:__mul".into()),
pos: 2,
name: None,
cause: Arc::new(mlua::Error::external(
Error::type_mismatch("Vec3, Quat, or Number", t)
)),
})
} }
} }
}); });
@ -177,6 +248,10 @@ wrap_lua_struct!(
methods.add_method("lerp", |_, this, (rhs, alpha): (Self, f32)| { methods.add_method("lerp", |_, this, (rhs, alpha): (Self, f32)| {
Ok(Self(this.lerp(*rhs, alpha))) Ok(Self(this.lerp(*rhs, alpha)))
}); });
methods.add_method("slerp", |_, this, (rhs, alpha): (Self, f32)| {
Ok(Self(this.slerp(*rhs, alpha)))
});
} }
); );
@ -193,12 +268,22 @@ wrap_lua_struct!(
Ok(Self(math::Transform::new(*pos, *rot, *scale))) Ok(Self(math::Transform::new(*pos, *rot, *scale)))
}); });
methods.add_function("from_translation", |_, (pos,): (LuaVec3,)| { methods.add_function("from_translation", |lua, vals: mlua::MultiValue| {
Ok(Self(math::Transform::from_translation(*pos))) let vals_clone = vals.clone();
}); if let Ok((x, y, z)) = <(f32, f32, f32) as FromLuaMulti>::from_lua_multi(vals, lua) {
methods.add_function("from_xyz", |_, (x, y, z)| {
Ok(Self(math::Transform::from_xyz(x, y, z))) Ok(Self(math::Transform::from_xyz(x, y, z)))
} else if let Ok(v) = LuaVec3::from_lua_multi(vals_clone, lua) {
Ok(Self(math::Transform::from_translation(*v)))
} else {
Err(mlua::Error::BadArgument {
to: Some("Transform:from_translation".into()),
pos: 2,
name: None,
cause: Arc::new(mlua::Error::runtime(
"expected (number, number, number) or (Vec3), received neither"
)),
})
}
}); });
methods.add_method("clone", |_, this, ()| { methods.add_method("clone", |_, this, ()| {
@ -276,3 +361,26 @@ wrap_lua_struct!(
}); });
} }
); );
wrap_lua_struct!(
math::Angle,
derives(Copy),
skip(lua_reflect),
extra_methods = {
methods.add_function("new_degrees", |_, deg: f32| {
Ok(Self(math::Angle::Degrees(deg)))
});
methods.add_function("new_radians", |_, rad: f32| {
Ok(Self(math::Angle::Radians(rad)))
});
methods.add_method("radians", |_, this, ()| {
Ok(this.to_radians())
});
methods.add_method("degrees", |_, this, ()| {
Ok(this.to_degrees())
});
},
);

View File

@ -12,3 +12,15 @@ pub use delta_time::*;
mod window; mod window;
pub use window::*; pub use window::*;
mod camera;
pub use camera::*;
mod free_fly_camera;
pub use free_fly_camera::*;
mod events;
pub use events::*;
mod world_transform;
pub use world_transform::*;

View File

@ -1,7 +1,6 @@
use lyra_scripting_derive::wrap_lua_struct; use lyra_scripting_derive::wrap_lua_struct;
use lyra_game::winit::{WindowOptions, FullscreenMode, Theme, CursorGrabMode, WindowLevel}; use lyra_game::winit::{WindowOptions, FullscreenMode, Theme, CursorGrabMode, WindowLevel};
use mlua::IntoLua;
use crate::lyra_engine; use crate::lyra_engine;
use crate as lyra_scripting; use crate as lyra_scripting;
@ -15,7 +14,9 @@ wrap_lua_struct!(
WindowOptions, WindowOptions,
//derives(Clone), //derives(Clone),
name=LuaWindow, name=LuaWindow,
fields(focused), fields={
(focused, skip_set)
},
extra_fields={ extra_fields={
fields.add_field_method_get("window_mode", |lua, this| { fields.add_field_method_get("window_mode", |lua, this| {
let s = match &this.fullscreen_mode { let s = match &this.fullscreen_mode {
@ -135,10 +136,6 @@ wrap_lua_struct!(
fields.add_field_method_get("scale_factor", |lua, this| { fields.add_field_method_get("scale_factor", |lua, this| {
this.scale_factor.into_lua(lua) this.scale_factor.into_lua(lua)
}); });
fields.add_field_method_set("scale_factor", |_, this, val: f64| {
this.scale_factor = val;
Ok(())
});
fields.add_field_method_get("blur", |lua, this| { fields.add_field_method_get("blur", |lua, this| {
this.blur.into_lua(lua) this.blur.into_lua(lua)

View File

@ -0,0 +1,49 @@
use crate::lua::{wrappers::LuaTransform, LuaWrapper};
use crate::lyra_engine;
use lyra_game::scene::WorldTransform;
use lyra_reflect::Reflect;
#[derive(Clone, Default, Reflect)]
pub struct LuaWorldTransform(pub(crate) WorldTransform);
impl std::ops::Deref for LuaWorldTransform {
type Target = WorldTransform;
fn deref(&self) -> &Self::Target {
&self.0
}
}
impl std::ops::DerefMut for LuaWorldTransform {
fn deref_mut(&mut self) -> &mut Self::Target {
&mut self.0
}
}
impl mlua::FromLua for LuaWorldTransform {
fn from_lua(v: mlua::Value, lua: &mlua::Lua) -> mlua::Result<Self> {
let t = LuaTransform::from_lua(v, lua)?;
Ok(Self(WorldTransform::from(*t)))
}
}
impl mlua::IntoLua for LuaWorldTransform {
fn into_lua(self, lua: &mlua::Lua) -> mlua::Result<mlua::Value> {
let t = LuaTransform(*self.0);
t.into_lua(lua)
}
}
impl LuaWrapper for LuaWorldTransform {
type Wrap = WorldTransform;
#[inline(always)]
fn into_wrapped(self) -> Self::Wrap {
self.0
}
#[inline(always)]
fn from_wrapped(wrap: Self::Wrap) -> Option<Self> {
Some(Self(wrap))
}
}

View File

@ -1,4 +1,4 @@
pub use lyra_game::*; pub use lyra_game::*;
#[cfg(feature = "scripting")] #[cfg(feature = "scripting")]
pub use lyra_scripting::*; pub use lyra_scripting as script;