pub mod xdg_dialog_v1; use { crate::{ bugs, bugs::Bugs, client::{Client, ClientError}, cursor::KnownCursor, fixed::Fixed, ifs::{ ext_foreign_toplevel_list_v1::ExtForeignToplevelListV1, wl_seat::{NodeSeatState, WlSeatGlobal, tablet::TabletTool}, wl_surface::{ WlSurface, xdg_surface::{ XdgSurface, XdgSurfaceExt, xdg_toplevel::xdg_dialog_v1::XdgDialogV1, }, }, xdg_toplevel_drag_v1::XdgToplevelDragV1, zwlr_foreign_toplevel_manager_v1::ZwlrForeignToplevelManagerV1, }, leaks::Tracker, object::{Object, Version}, rect::Rect, renderer::Renderer, state::State, tree::{ ContainerSplit, Direction, FindTreeResult, FindTreeUsecase, FoundNode, Node, NodeId, NodeLayerLink, NodeLocation, NodeVisitor, OutputNode, TileDragDestination, ToplevelData, ToplevelNode, ToplevelNodeBase, ToplevelNodeId, ToplevelType, WorkspaceNode, default_tile_drag_destination, }, utils::{ bitflags::BitflagsExt, clonecell::CloneCell, hash_map_ext::HashMapExt, numcell::NumCell, }, wire::{XdgToplevelId, xdg_toplevel::*}, }, ahash::AHashMap, arrayvec::ArrayVec, jay_config::window::TileState, std::{ cell::{Cell, RefCell}, fmt::{Debug, Formatter}, mem, rc::{Rc, Weak}, }, thiserror::Error, }; const STATE_MAXIMIZED: u32 = 1; const STATE_FULLSCREEN: u32 = 2; #[expect(dead_code)] const STATE_RESIZING: u32 = 3; const STATE_ACTIVATED: u32 = 4; const STATE_TILED_LEFT: u32 = 5; const STATE_TILED_RIGHT: u32 = 6; const STATE_TILED_TOP: u32 = 7; const STATE_TILED_BOTTOM: u32 = 8; pub const STATE_SUSPENDED: u32 = 9; const STATE_CONSTRAINED_LEFT: u32 = 10; const STATE_CONSTRAINED_RIGHT: u32 = 11; const STATE_CONSTRAINED_TOP: u32 = 12; const STATE_CONSTRAINED_BOTTOM: u32 = 13; const fn state_bits(state: u32) -> u32 { 1 << (state - 1) } #[expect(dead_code)] const CAP_WINDOW_MENU: u32 = 1; #[expect(dead_code)] const CAP_MAXIMIZE: u32 = 2; const CAP_FULLSCREEN: u32 = 3; #[expect(dead_code)] const CAP_MINIMIZE: u32 = 4; pub const WM_CAPABILITIES_SINCE: Version = Version(5); pub const SUSPENDED_SINCE: Version = Version(6); pub const TILED_SINCE: Version = Version(2); pub const CONSTRAINTS_SINCE: Version = Version(7); #[derive(Copy, Clone, Eq, PartialEq, Debug)] pub enum Decoration { #[expect(dead_code)] Client, Server, } #[derive(Debug)] pub struct XdgToplevelToplevelData { pub tag: RefCell, } pub struct XdgToplevel { pub id: XdgToplevelId, pub state: Rc, pub xdg: Rc, pub node_id: ToplevelNodeId, pub parent: CloneCell>>, pub children: RefCell>>, states: NumCell, pub decoration: Cell, bugs: Cell<&'static Bugs>, min_width: Cell>, min_height: Cell>, max_width: Cell>, max_height: Cell>, pub tracker: Tracker, toplevel_data: ToplevelData, pub drag: CloneCell>>, is_mapped: Cell, dialog: CloneCell>>, extents_set: Cell, pub data: Rc, } impl Debug for XdgToplevel { fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result { f.debug_struct("XdgToplevel").finish_non_exhaustive() } } impl XdgToplevel { pub fn new(id: XdgToplevelId, surface: &Rc, slf: &Weak) -> Self { let mut states = 0; if surface.base.version >= TILED_SINCE { states |= state_bits(STATE_TILED_LEFT); states |= state_bits(STATE_TILED_RIGHT); states |= state_bits(STATE_TILED_TOP); states |= state_bits(STATE_TILED_BOTTOM); } else { states |= state_bits(STATE_MAXIMIZED); } if surface.base.version >= CONSTRAINTS_SINCE { states |= state_bits(STATE_CONSTRAINED_LEFT); states |= state_bits(STATE_CONSTRAINED_RIGHT); states |= state_bits(STATE_CONSTRAINED_TOP); states |= state_bits(STATE_CONSTRAINED_BOTTOM); } let state = &surface.surface.client.state; let node_id = state.node_ids.next(); let data = Rc::new(XdgToplevelToplevelData { tag: Default::default(), }); let toplevel_data = ToplevelData::new( state, String::new(), Some(surface.surface.client.clone()), ToplevelType::XdgToplevel(data.clone()), node_id, slf, ); toplevel_data .content_type .set(surface.surface.content_type.get()); toplevel_data.pos.set(surface.extents.get()); Self { id, state: state.clone(), xdg: surface.clone(), node_id, parent: Default::default(), children: RefCell::new(Default::default()), states: NumCell::new(states), decoration: Cell::new(Decoration::Server), bugs: Cell::new(&bugs::NONE), min_width: Cell::new(None), min_height: Cell::new(None), max_width: Cell::new(None), max_height: Cell::new(None), tracker: Default::default(), toplevel_data, drag: Default::default(), is_mapped: Cell::new(false), dialog: Default::default(), extents_set: Cell::new(false), data, } } pub fn send_to(self: &Rc, list: &ExtForeignToplevelListV1) { self.toplevel_data.send(self.clone(), list); } pub fn manager_send_to(self: &Rc, manager: &ZwlrForeignToplevelManagerV1) { self.toplevel_data.manager_send(self.clone(), manager); } pub fn send_current_configure(&self) { if self.drag.is_none() { let rect = self.xdg.absolute_desired_extents.get(); self.send_configure_checked(rect.width(), rect.height()); } self.xdg.schedule_configure(); } fn send_configure_checked(&self, mut width: i32, mut height: i32) { if self.extents_set.get() { width = width.max(1); height = height.max(1); } let bugs = self.bugs.get(); macro_rules! apply { ($field:expr, $min:ident, $max:ident) => { if $field != 0 { if let Some(min) = bugs.$min { $field = $field.max(min); } if bugs.respect_min_max_size { if let Some(min) = self.$min.get() { $field = $field.max(min); } if let Some(max) = self.$max.get() { $field = $field.min(max); } } } }; } apply!(width, min_width, max_width); apply!(height, min_height, max_height); self.send_configure(width, height) } fn send_close(&self) { self.xdg.surface.client.event(Close { self_id: self.id }); // self.xdg.surface.client.flush(); } fn send_configure(&self, width: i32, height: i32) { let mut state_bits = self.states.get(); let mut states = ArrayVec::::new(); while state_bits != 0 { let ts = state_bits.trailing_zeros(); states.push(ts + 1); state_bits &= !(1 << ts); } self.xdg.surface.client.event(Configure { self_id: self.id, width, height, states: &states, }) } pub fn send_wm_capabilities(&self) { self.xdg.surface.client.event(WmCapabilities { self_id: self.id, capabilities: &[CAP_FULLSCREEN], }) } } impl XdgToplevelRequestHandler for XdgToplevel { type Error = XdgToplevelError; fn destroy(&self, _req: Destroy, _slf: &Rc) -> Result<(), Self::Error> { self.tl_destroy(); self.xdg.unset_ext(); { let mut children = self.children.borrow_mut(); let parent = self.parent.get(); let mut parent_children = match &parent { Some(p) => Some(p.children.borrow_mut()), _ => None, }; for child in children.drain_values() { child.parent.set(parent.clone()); if let Some(parent_children) = &mut parent_children { parent_children.insert(child.id, child); } } } { if let Some(parent) = self.parent.take() { parent.children.borrow_mut().remove(&self.id); } } self.xdg.surface.client.remove_obj(self)?; self.xdg.surface.set_toplevel(None); Ok(()) } fn set_parent(&self, req: SetParent, _slf: &Rc) -> Result<(), Self::Error> { let mut parent = None; if req.parent.is_some() { parent = Some(self.xdg.surface.client.lookup(req.parent)?); } self.parent.set(parent); Ok(()) } fn set_title(&self, req: SetTitle, _slf: &Rc) -> Result<(), Self::Error> { self.toplevel_data.set_title(req.title); self.tl_title_changed(); Ok(()) } fn set_app_id(&self, req: SetAppId, _slf: &Rc) -> Result<(), Self::Error> { self.toplevel_data.set_app_id(req.app_id); self.bugs.set(bugs::get(req.app_id)); Ok(()) } fn show_window_menu(&self, _req: ShowWindowMenu, _slf: &Rc) -> Result<(), Self::Error> { Ok(()) } fn move_(&self, _req: Move, _slf: &Rc) -> Result<(), Self::Error> { Ok(()) } fn resize(&self, _req: Resize, _slf: &Rc) -> Result<(), Self::Error> { Ok(()) } fn set_max_size(&self, req: SetMaxSize, _slf: &Rc) -> Result<(), Self::Error> { if req.height < 0 || req.width < 0 { return Err(XdgToplevelError::NonNegative); } self.max_width.set(if req.width == 0 { None } else { Some(req.width) }); self.max_height.set(if req.height == 0 { None } else { Some(req.height) }); Ok(()) } fn set_min_size(&self, req: SetMinSize, _slf: &Rc) -> Result<(), Self::Error> { if req.height < 0 || req.width < 0 { return Err(XdgToplevelError::NonNegative); } self.min_width.set(if req.width == 0 { None } else { Some(req.width) }); self.min_height.set(if req.height == 0 { None } else { Some(req.height) }); Ok(()) } fn set_maximized(&self, _req: SetMaximized, _slf: &Rc) -> Result<(), Self::Error> { Ok(()) } fn unset_maximized(&self, _req: UnsetMaximized, _slf: &Rc) -> Result<(), Self::Error> { Ok(()) } fn set_fullscreen(&self, req: SetFullscreen, slf: &Rc) -> Result<(), Self::Error> { let client = &self.xdg.surface.client; self.states.or_assign(state_bits(STATE_FULLSCREEN)); 'set_fullscreen: { let output = if req.output.is_some() { match client.lookup(req.output)?.global.node() { Some(node) => node, _ => { log::error!("Output global has no node attached"); break 'set_fullscreen; } } } else if let Some(ws) = self.xdg.workspace.get() { ws.output.get() } else { break 'set_fullscreen; }; self.toplevel_data .set_fullscreen(&client.state, slf.clone(), &output); } self.send_current_configure(); Ok(()) } fn unset_fullscreen(&self, _req: UnsetFullscreen, slf: &Rc) -> Result<(), Self::Error> { self.states.and_assign(!state_bits(STATE_FULLSCREEN)); self.toplevel_data .unset_fullscreen(&self.state, slf.clone()); self.send_current_configure(); Ok(()) } fn set_minimized(&self, _req: SetMinimized, _slf: &Rc) -> Result<(), Self::Error> { Ok(()) } } impl XdgToplevel { fn map( self: &Rc, parent: Option<&XdgToplevel>, pos: Option<(&Rc, i32, i32)>, ) { if let Some(state) = self.state.initial_tile_state(&self.toplevel_data) { match state { TileState::Floating => { let mut ws = None; if let Some(parent) = parent { ws = parent.xdg.workspace.get(); } let ws = ws.unwrap_or_else(|| self.state.ensure_map_workspace(None)); self.map_floating(&ws, pos.map(|p| (p.1, p.2))); } _ => self.map_tiled(), } return; } match parent { None => self.map_tiled(), Some(p) => self.map_child(p, pos), } } fn map_floating(self: &Rc, workspace: &Rc, abs_pos: Option<(i32, i32)>) { let (width, height) = self.toplevel_data.float_size(workspace); self.state .map_floating(self.clone(), width, height, workspace, abs_pos); } fn map_child(self: &Rc, parent: &XdgToplevel, pos: Option<(&Rc, i32, i32)>) { if let Some((output, x, y)) = pos { let w = output.ensure_workspace(); self.map_floating(&w, Some((x, y))); return; } match parent.xdg.workspace.get() { Some(w) => self.map_floating(&w, None), _ => self.map_tiled(), } } fn map_tiled(self: &Rc) { self.state.map_tiled(self.clone()); let fullscreen = self.states.get().contains(state_bits(STATE_FULLSCREEN)); if fullscreen && let Some(ws) = self.xdg.workspace.get() { self.toplevel_data .set_fullscreen2(&self.state, self.clone(), &ws); } } pub fn prepare_toplevel_drag(&self) { if self.toplevel_data.parent.get().is_none() { return; } self.toplevel_data.detach_node(self); self.xdg.detach_node(); self.tl_set_visible(self.state.root_visible()); } pub fn after_toplevel_drag(self: &Rc, output: &Rc, x: i32, y: i32) { assert!(self.toplevel_data.parent.is_none()); if self.node_visible() { self.xdg.damage(); } let extents = match self.xdg.geometry.get() { None => self.xdg.extents.get(), Some(g) => g, }; self.toplevel_data.float_width.set(extents.width()); self.toplevel_data.float_height.set(extents.height()); self.clone().after_commit(Some((output, x, y))); } fn after_commit(self: &Rc, pos: Option<(&Rc, i32, i32)>) { if pos.is_some() { self.is_mapped.set(false); } let surface = &self.xdg.surface; let should_be_mapped = surface.buffer.is_some(); if let Some(drag) = self.drag.get() && drag.is_ongoing() { if should_be_mapped { if !self.is_mapped.replace(true) { if let Some(seat) = drag.source.data.seat.get() { self.xdg.set_output(&seat.get_output()); } self.toplevel_data.broadcast(self.clone()); self.tl_set_visible(self.state.root_visible()); self.xdg.damage(); } self.extents_changed(); } else { if self.is_mapped.replace(false) { self.tl_set_visible(false); self.xdg.damage(); } } return; } if self.is_mapped.replace(should_be_mapped) == should_be_mapped { return; } if !should_be_mapped { self.tl_destroy(); { let new_parent = self.parent.get(); let mut children = self.children.borrow_mut(); for child in children.drain_values() { child.parent.set(new_parent.clone()); } } self.state.tree_changed(); } else { self.map(self.parent.get().as_deref(), pos); self.extents_changed(); if let Some(workspace) = self.xdg.workspace.get() { let output = workspace.output.get(); surface.set_output(&output, workspace.location()); } // { // let seats = surface.client.state.globals.lock_seats(); // for seat in seats.values() { // seat.focus_toplevel(self.clone()); // } // } self.state.tree_changed(); self.toplevel_data.broadcast(self.clone()); } self.toplevel_data .set_content_type(self.xdg.surface.content_type.get()); } } object_base! { self = XdgToplevel; version = self.xdg.base.version; } impl Object for XdgToplevel { fn break_loops(&self) { self.tl_destroy(); self.parent.set(None); self.dialog.set(None); let _children = mem::take(&mut *self.children.borrow_mut()); } } dedicated_add_obj!(XdgToplevel, XdgToplevelId, xdg_toplevel); impl Node for XdgToplevel { fn node_id(&self) -> NodeId { self.node_id.into() } fn node_seat_state(&self) -> &NodeSeatState { &self.toplevel_data.seat_state } fn node_visit(self: Rc, visitor: &mut dyn NodeVisitor) { visitor.visit_toplevel(&self); } fn node_visit_children(&self, visitor: &mut dyn NodeVisitor) { visitor.visit_surface(&self.xdg.surface); } fn node_visible(&self) -> bool { self.xdg.surface.visible.get() } fn node_absolute_position(&self) -> Rect { self.xdg.absolute_desired_extents.get() } fn node_output(&self) -> Option> { self.toplevel_data.output_opt() } fn node_location(&self) -> Option { self.xdg.surface.node_location() } fn node_layer(&self) -> NodeLayerLink { self.toplevel_data.node_layer() } fn node_do_focus(self: Rc, seat: &Rc, _direction: Direction) { seat.focus_toplevel(self.clone()); } fn node_active_changed(&self, active: bool) { self.toplevel_data.update_self_active(self, active); } fn node_find_tree_at( &self, x: i32, y: i32, tree: &mut Vec, usecase: FindTreeUsecase, ) -> FindTreeResult { match usecase { FindTreeUsecase::None => {} FindTreeUsecase::SelectToplevel => return FindTreeResult::AcceptsInput, FindTreeUsecase::SelectWorkspace => return FindTreeResult::Other, } self.xdg.find_tree_at(x, y, tree) } fn node_render(&self, renderer: &mut Renderer, x: i32, y: i32, bounds: Option<&Rect>) { renderer.render_xdg_toplevel(self, x, y, bounds) } fn node_client(&self) -> Option> { Some(self.xdg.surface.client.clone()) } fn node_toplevel(self: Rc) -> Option> { Some(self) } fn node_make_visible(self: Rc) { self.toplevel_data.make_visible(&*self) } fn node_on_pointer_enter(self: Rc, seat: &Rc, _x: Fixed, _y: Fixed) { seat.enter_toplevel(self.clone()); } fn node_on_pointer_focus(&self, seat: &Rc) { // log::info!("xdg-toplevel focus"); seat.pointer_cursor().set_known(KnownCursor::Default); } fn node_on_tablet_tool_enter( self: Rc, tool: &Rc, _time_usec: u64, _x: Fixed, _y: Fixed, ) { tool.cursor().set_known(KnownCursor::Default) } fn node_into_toplevel(self: Rc) -> Option> { Some(self) } } impl ToplevelNodeBase for XdgToplevel { fn tl_data(&self) -> &ToplevelData { &self.toplevel_data } fn tl_set_active(&self, active: bool) { let changed = { let old = self.states.get(); match active { true => self.states.or_assign(state_bits(STATE_ACTIVATED)), false => self.states.and_assign(!state_bits(STATE_ACTIVATED)), } old != self.states.get() }; if changed { let rect = self.xdg.absolute_desired_extents.get(); self.send_configure_checked(rect.width(), rect.height()); self.xdg.schedule_configure(); } } fn tl_focus_child(&self) -> Option> { Some(self.xdg.surface.clone()) } fn tl_set_workspace_ext(&self, ws: &Rc) { self.xdg.set_workspace(ws); } fn tl_change_extents_impl(self: Rc, rect: &Rect) { self.extents_set.set(true); let nw = rect.width(); let nh = rect.height(); let de = self.xdg.absolute_desired_extents.get(); if de.width() != nw || de.height() != nh { self.send_configure_checked(nw, nh); self.xdg.schedule_configure(); // self.xdg.surface.client.flush(); } self.xdg.set_absolute_desired_extents(rect); } fn tl_close(self: Rc) { self.send_close(); } fn tl_set_visible_impl(&self, visible: bool) { // log::info!("set_visible {}", visible); // if !visible { // log::info!("\n{:?}", Backtrace::new()); // } self.xdg.set_visible(visible); if self.xdg.base.version >= SUSPENDED_SINCE { if visible { self.states.and_assign(!state_bits(STATE_SUSPENDED)); } else { self.states.or_assign(state_bits(STATE_SUSPENDED)); } self.send_current_configure(); } } fn tl_destroy_impl(&self) { if let Some(drag) = self.drag.take() { self.xdg.damage(); drag.toplevel.take(); } self.xdg.destroy_node(); } // fn move_to_workspace(self: &Rc, workspace: &Rc) { // let parent = match self.parent_node.get() { // Some(p) => p, // _ => return, // }; // if self.fullscreen_data.is_fullscreen.get() { // if workspace.fullscreen.get().is_some() { // log::info!("Not moving fullscreen node to workspace {} because that workspace already contains a fullscreen node", workspace.name); // return; // } // parent.node_remove_child2(self.deref(), workspace.visible()); // workspace.fullscreen.set(Some(self.clone())); // self.state.tree_changed(); // return; // } // parent.node_remove_child2(self.deref(), workspace.visible()); // if self.toplevel_data.is_floating.get() { // self.map_floating(workspace); // } else { // self.map_tiled() // } // } fn tl_last_active_child(self: Rc) -> Rc { self } fn tl_scanout_surface(&self) -> Option> { Some(self.xdg.surface.clone()) } fn tl_restack_popups(&self) { self.xdg.restack_popups(); } fn tl_admits_children(&self) -> bool { false } fn tl_tile_drag_destination( self: Rc, source: NodeId, split: Option, abs_bounds: Rect, x: i32, y: i32, ) -> Option { default_tile_drag_destination(self, source, split, abs_bounds, x, y) } fn tl_mark_fullscreen_ext(&self) { self.xdg.update_effective_geometry(); } } impl XdgSurfaceExt for XdgToplevel { fn initial_configure(self: Rc) { let rect = self.xdg.absolute_desired_extents.get(); if rect.is_empty() { self.send_configure(0, 0); } else { self.send_configure_checked(rect.width(), rect.height()); } } fn post_commit(self: Rc) { self.after_commit(None); } fn extents_changed(&self) { self.toplevel_data.pos.set(self.xdg.extents.get()); self.tl_extents_changed(); } fn geometry_changed(&self) { self.xdg .surface .client .state .damage(self.node_absolute_position()); } fn effective_geometry(&self, geometry: Rect) -> Rect { if !self.toplevel_data.is_fullscreen.get() { return geometry; } let output = self .toplevel_data .output() .node_absolute_position() .at_point(0, 0); let x_overflow = output.width() - geometry.width(); let y_overflow = output.height() - geometry.height(); output.at_point( geometry.x1() - x_overflow / 2, geometry.y1() - y_overflow / 2, ) } fn make_visible(self: Rc) { self.node_make_visible(); } fn node_layer(&self) -> NodeLayerLink { self.toplevel_data.node_layer() } } #[derive(Debug, Error)] pub enum XdgToplevelError { #[error(transparent)] ClientError(Box), #[error("width/height must be non-negative")] NonNegative, } efrom!(XdgToplevelError, ClientError);