use color_eyre::eyre::Result; use glam::Quat; use manifest_dir_macros::directory_relative_path; use mint::Vector3; use protostar::{ application::Application, protostar::ProtoStar, xdg::{get_desktop_files, parse_desktop_file, DesktopFile, Icon, IconType}, }; use stardust_xr_fusion::{ client::{Client, FrameInfo, RootHandler}, core::values::Transform, drawable::{Alignment, Bounds, MaterialParameter, Model, ResourceID, Text, TextFit, TextStyle}, fields::BoxField, node::NodeType, spatial::Spatial, }; use stardust_xr_molecules::{GrabData, Grabbable}; use std::f32::consts::PI; use tween::{QuartInOut, Tweener}; const APP_LIMIT: usize = 300; const APP_SIZE: f32 = 0.05; const GRID_PADDING: f32 = 0.01; const ACTIVATION_DISTANCE: f32 = 0.5; #[tokio::main(flavor = "current_thread")] async fn main() -> Result<()> { color_eyre::install().unwrap(); tracing_subscriber::fmt() .with_env_filter(tracing_subscriber::EnvFilter::from_default_env()) .pretty() .init(); let (client, event_loop) = Client::connect_with_async_loop().await?; client.set_base_prefixes(&[directory_relative_path!("res")]); let _root = client.wrap_root(AppGrid::new(&client))?; tokio::select! { _ = tokio::signal::ctrl_c() => (), e = event_loop => e??, }; Ok(()) } struct AppGrid { apps: Vec, //style: TextStyle, } impl AppGrid { fn new(client: &Client) -> Self { let apps = get_desktop_files() .into_iter() .filter_map(|d| parse_desktop_file(d).ok()) .filter(|d| !d.no_display) .enumerate() .filter(|(i, _)| *i <= APP_LIMIT) .filter_map(|(i, a)| { App::create_from_desktop_file( client.get_root(), [ (i % 10) as f32 * (APP_SIZE + GRID_PADDING), (i / 10) as f32 * (APP_SIZE + GRID_PADDING), 0.0, ], a, //style, ) .ok() }) .collect::>(); AppGrid { apps } } } impl RootHandler for AppGrid { fn frame(&mut self, info: FrameInfo) { for app in &mut self.apps { app.frame(info); } } } fn model_from_icon(parent: &Spatial, icon: &Icon) -> Result { return match &icon.icon_type { IconType::Png => { let t = Transform::from_rotation_scale( Quat::from_rotation_x(PI / 2.0) * Quat::from_rotation_y(PI), [APP_SIZE * 0.5; 3], ); let model = Model::create( parent, t, &ResourceID::new_namespaced("protostar", "hexagon/hexagon"), )?; model .model_part("Hex")? .set_material_parameter("color", MaterialParameter::Color([0.0, 1.0, 1.0, 1.0]))?; model.model_part("Icon")?.set_material_parameter( "diffuse", MaterialParameter::Texture(ResourceID::Direct(icon.path.clone())), )?; Ok(model) } IconType::Gltf => Ok(Model::create( parent, Transform::from_scale([0.05; 3]), &ResourceID::new_direct(icon.path.clone())?, )?), _ => panic!("Invalid Icon Type"), }; } pub struct App { application: Application, parent: Spatial, position: Vector3, grabbable: Grabbable, _field: BoxField, icon: Model, label: Option, grabbable_move: Option>, } impl App { pub fn create_from_desktop_file( parent: &Spatial, position: impl Into>, desktop_file: DesktopFile, ) -> Result { let position = position.into(); let field = BoxField::create(parent, Transform::default(), [APP_SIZE; 3])?; let application = Application::create(&parent.client()?, desktop_file)?; let icon = application.icon(128, false); let grabbable = Grabbable::create( parent, Transform::from_position(position), &field, GrabData { max_distance: 0.01, frame_cancel_threshold: 50, ..Default::default() }, )?; grabbable.content_parent().set_spatial_parent(parent)?; field.set_spatial_parent(grabbable.content_parent())?; let icon = icon .map(|i| model_from_icon(grabbable.content_parent(), &i)) .unwrap_or_else(|| { Ok(Model::create( grabbable.content_parent(), Transform::from_rotation_scale( Quat::from_rotation_x(PI / 2.0) * Quat::from_rotation_y(PI), [APP_SIZE * 0.5; 3], ), &ResourceID::new_namespaced("protostar", "hexagon/hexagon"), )?) })?; let label_style = TextStyle { character_height: APP_SIZE * 2.0, bounds: Some(Bounds { bounds: [1.0; 2].into(), fit: TextFit::Wrap, bounds_align: Alignment::XCenter | Alignment::YCenter, }), text_align: Alignment::Center.into(), ..Default::default() }; let label = application.name().and_then(|name| { Text::create( &icon, Transform::from_position_rotation( [0.0, 0.1, -(APP_SIZE * 4.0)], Quat::from_rotation_x(PI * 0.5), ), name, label_style, ) .ok() }); Ok(App { parent: parent.alias(), position, grabbable, _field: field, label, application, icon, grabbable_move: None, }) } pub fn content_parent(&self) -> &Spatial { self.grabbable.content_parent() } } impl RootHandler for App { fn frame(&mut self, info: FrameInfo) { let _ = self.grabbable.update(&info); if let Some(grabbable_move) = &mut self.grabbable_move { if !grabbable_move.is_finished() { let scale = grabbable_move.move_by(info.delta); self.grabbable .content_parent() .set_position( Some(&self.parent), [ self.position.x * scale, self.position.y * scale, self.position.z * scale, ], ) .unwrap(); } else { if grabbable_move.final_value() == 0.0001 { self.icon.set_enabled(false).unwrap(); self.label.as_ref().map(|l| l.set_enabled(false).unwrap()); } self.grabbable_move = None; } } else if self.grabbable.valid() && self.grabbable.grab_action().actor_stopped() { self.grabbable.cancel_angular_velocity(); self.grabbable.cancel_linear_velocity(); self.grabbable .content_parent() .set_position(Some(&self.parent), self.position) .unwrap(); let Ok(distance_future) = self.grabbable .content_parent() .get_position_rotation_scale(&self.parent) else {return}; let application = self.application.clone(); let space = self.content_parent().alias(); //TODO: split the executable string for the args tokio::task::spawn(async move { let distance_vector = distance_future.await.ok().unwrap().0; let distance = ((distance_vector.x.powi(2) + distance_vector.y.powi(2)).sqrt() + distance_vector.z.powi(2)) .sqrt(); if dbg!(distance) > ACTIVATION_DISTANCE { let _ = application.launch(&space); } }); } } }