use { crate::{ backend::{KeyState, Mode}, cursor::KnownCursor, fixed::Fixed, ifs::{ wl_output::WlOutputGlobal, wl_seat::{ collect_kb_foci2, wl_pointer::PendingScroll, NodeSeatState, SeatId, WlSeatGlobal, BTN_LEFT, }, wl_surface::{ ext_session_lock_surface_v1::ExtSessionLockSurfaceV1, zwlr_layer_surface_v1::ZwlrLayerSurfaceV1, }, zwlr_layer_shell_v1::{BACKGROUND, BOTTOM, OVERLAY, TOP}, }, rect::Rect, render::{Renderer, Texture}, state::State, text, tree::{ walker::NodeVisitor, Direction, FindTreeResult, FoundNode, Node, NodeId, WorkspaceNode, }, utils::{ clonecell::CloneCell, copyhashmap::CopyHashMap, errorfmt::ErrorFmt, linkedlist::LinkedList, scroller::Scroller, }, }, smallvec::SmallVec, std::{ cell::{Cell, RefCell}, fmt::{Debug, Formatter}, ops::{Deref, Sub}, rc::Rc, }, }; tree_id!(OutputNodeId); pub struct OutputNode { pub id: OutputNodeId, pub global: Rc, pub workspaces: LinkedList>, pub workspace: CloneCell>>, pub seat_state: NodeSeatState, pub layers: [LinkedList>; 4], pub render_data: RefCell, pub state: Rc, pub is_dummy: bool, pub status: CloneCell>, pub scroll: Scroller, pub pointer_positions: CopyHashMap, pub lock_surface: CloneCell>>, } impl OutputNode { pub fn clear(&self) { self.global.clear(); self.workspace.set(None); let workspaces: Vec<_> = self.workspaces.iter().collect(); for workspace in workspaces { workspace.clear(); } self.render_data.borrow_mut().titles.clear(); self.lock_surface.take(); } pub fn on_spaces_changed(self: &Rc) { self.update_render_data(); if let Some(c) = self.workspace.get() { c.change_extents(&self.workspace_rect()); } } pub fn update_render_data(&self) { let mut rd = self.render_data.borrow_mut(); rd.titles.clear(); rd.inactive_workspaces.clear(); rd.active_workspace = None; rd.status = None; let mut pos = 0; let font = self.state.theme.font.borrow_mut(); let theme = &self.state.theme; let th = theme.sizes.title_height.get(); let active_id = self.workspace.get().map(|w| w.id); let width = self.global.pos.get().width(); rd.underline = Rect::new_sized(0, th, width, 1).unwrap(); for ws in self.workspaces.iter() { let mut title_width = th; 'create_texture: { if let Some(ctx) = self.state.render_ctx.get() { if th == 0 || ws.name.is_empty() { break 'create_texture; } let tc = match active_id == Some(ws.id) { true => theme.colors.focused_title_text.get(), false => theme.colors.unfocused_title_text.get(), }; let title = match text::render_fitting(&ctx, th, &font, &ws.name, tc, false) { Ok(t) => t, Err(e) => { log::error!("Could not render title {}: {}", ws.name, ErrorFmt(e)); break 'create_texture; } }; let mut x = pos + 1; if title.width() + 2 > title_width { title_width = title.width() + 2; } else { x = pos + (title_width - title.width()) / 2; } rd.titles.push(OutputTitle { x1: pos, x2: pos + title_width, tex_x: x, tex_y: 0, tex: title, ws: ws.deref().clone(), }); } } let rect = Rect::new_sized(pos, 0, title_width, th).unwrap(); if Some(ws.id) == active_id { rd.active_workspace = Some(rect); } else { rd.inactive_workspaces.push(rect); } pos += title_width; } 'set_status: { let ctx = match self.state.render_ctx.get() { Some(ctx) => ctx, _ => break 'set_status, }; let status = self.status.get(); if status.is_empty() { break 'set_status; } let tc = self.state.theme.colors.bar_text.get(); let title = match text::render_fitting(&ctx, th, &font, &status, tc, true) { Ok(t) => t, Err(e) => { log::error!("Could not render status {}: {}", status, ErrorFmt(e)); break 'set_status; } }; let pos = width - title.width() - 1; rd.status = Some(OutputStatus { tex_x: pos, tex_y: 0, tex: title, }); } } pub fn ensure_workspace(self: &Rc) -> Rc { if let Some(ws) = self.workspace.get() { return ws; } let name = 'name: { for i in 1.. { let name = i.to_string(); if !self.state.workspaces.contains(&name) { break 'name name; } } unreachable!(); }; let workspace = Rc::new(WorkspaceNode { id: self.state.node_ids.next(), is_dummy: false, output: CloneCell::new(self.clone()), position: Default::default(), container: Default::default(), stacked: Default::default(), seat_state: Default::default(), name: name.clone(), output_link: Default::default(), visible: Cell::new(true), fullscreen: Default::default(), visible_on_desired_output: Cell::new(false), desired_output: CloneCell::new(self.global.output_id.clone()), }); self.state.workspaces.set(name, workspace.clone()); workspace .output_link .set(Some(self.workspaces.add_last(workspace.clone()))); self.show_workspace(&workspace); self.update_render_data(); workspace } pub fn show_workspace(&self, ws: &Rc) -> bool { let mut seats = SmallVec::new(); if let Some(old) = self.workspace.set(Some(ws.clone())) { if old.id == ws.id { return false; } collect_kb_foci2(old.clone(), &mut seats); old.set_visible(false); if old.is_empty() { old.clear(); self.state.workspaces.remove(&old.name); } } ws.set_visible(true); if let Some(fs) = ws.fullscreen.get() { fs.tl_change_extents(&self.global.pos.get()); } ws.change_extents(&self.workspace_rect()); for seat in seats { ws.clone().node_do_focus(&seat, Direction::Unspecified); } true } pub fn create_workspace(self: &Rc, name: &str) -> Rc { let ws = Rc::new(WorkspaceNode { id: self.state.node_ids.next(), is_dummy: false, output: CloneCell::new(self.clone()), position: Cell::new(Default::default()), container: Default::default(), stacked: Default::default(), seat_state: Default::default(), name: name.to_string(), output_link: Cell::new(None), visible: Cell::new(false), fullscreen: Default::default(), visible_on_desired_output: Cell::new(false), desired_output: CloneCell::new(self.global.output_id.clone()), }); ws.output_link .set(Some(self.workspaces.add_last(ws.clone()))); self.state.workspaces.set(name.to_string(), ws.clone()); if self.workspace.get().is_none() { self.show_workspace(&ws); } self.update_render_data(); ws } fn workspace_rect(&self) -> Rect { let rect = self.global.pos.get(); let th = self.state.theme.sizes.title_height.get(); Rect::new_sized( rect.x1(), rect.y1() + th + 1, rect.width(), rect.height().sub(th + 1).max(0), ) .unwrap() } pub fn set_position(&self, x: i32, y: i32) { let pos = self.global.pos.get(); if (pos.x1(), pos.y1()) == (x, y) { return; } let rect = pos.at_point(x, y); self.change_extents_(&rect); } pub fn update_mode(&self, mode: Mode) { if self.global.mode.get() == mode { return; } self.global.mode.set(mode); let pos = self.global.pos.get(); let rect = Rect::new_sized(pos.x1(), pos.y1(), mode.width, mode.height).unwrap(); self.change_extents_(&rect); } fn change_extents_(&self, rect: &Rect) { self.global.pos.set(*rect); self.state.root.update_extents(); self.update_render_data(); if let Some(ls) = self.lock_surface.get() { ls.change_extents(*rect); } if let Some(c) = self.workspace.get() { if let Some(fs) = c.fullscreen.get() { fs.tl_change_extents(rect); } c.change_extents(&self.workspace_rect()); } for layer in &self.layers { for surface in layer.iter() { surface.compute_position(); } } self.global.send_mode(); } pub fn find_layer_surface_at( &self, x: i32, y: i32, layers: &[u32], tree: &mut Vec, ) -> FindTreeResult { let len = tree.len(); for layer in layers.iter().copied() { for surface in self.layers[layer as usize].rev_iter() { let pos = surface.output_position(); if pos.contains(x, y) { let (x, y) = pos.translate(x, y); if surface.node_find_tree_at(x, y, tree) == FindTreeResult::AcceptsInput { return FindTreeResult::AcceptsInput; } tree.truncate(len); } } } FindTreeResult::Other } pub fn set_status(&self, status: &Rc) { self.status.set(status.clone()); self.update_render_data(); } fn pointer_move(self: &Rc, seat: &Rc, x: i32, y: i32) { self.pointer_positions.set(seat.id(), (x, y)); } } pub struct OutputTitle { pub x1: i32, pub x2: i32, pub tex_x: i32, pub tex_y: i32, pub tex: Rc, pub ws: Rc, } pub struct OutputStatus { pub tex_x: i32, pub tex_y: i32, pub tex: Rc, } #[derive(Default)] pub struct OutputRenderData { pub active_workspace: Option, pub underline: Rect, pub inactive_workspaces: Vec, pub titles: Vec, pub status: Option, } impl Debug for OutputNode { fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result { f.debug_struct("OutputNode").finish_non_exhaustive() } } impl Node for OutputNode { fn node_id(&self) -> NodeId { self.id.into() } fn node_seat_state(&self) -> &NodeSeatState { &self.seat_state } fn node_visit(self: Rc, visitor: &mut dyn NodeVisitor) { visitor.visit_output(&self); } fn node_visit_children(&self, visitor: &mut dyn NodeVisitor) { if let Some(ls) = self.lock_surface.get() { visitor.visit_lock_surface(&ls); } for ws in self.workspaces.iter() { visitor.visit_workspace(ws.deref()); } for layers in &self.layers { for surface in layers.iter() { visitor.visit_layer_surface(surface.deref()); } } } fn node_visible(&self) -> bool { true } fn node_absolute_position(&self) -> Rect { self.global.pos.get() } fn node_do_focus(self: Rc, seat: &Rc, direction: Direction) { if self.state.lock.locked.get() { if let Some(lock) = self.lock_surface.get() { seat.focus_node(lock.surface.clone()); } return; } if let Some(ws) = self.workspace.get() { ws.node_do_focus(seat, direction); } } fn node_find_tree_at(&self, x: i32, mut y: i32, tree: &mut Vec) -> FindTreeResult { if self.state.lock.locked.get() { if let Some(ls) = self.lock_surface.get() { tree.push(FoundNode { node: ls.clone(), x, y, }); return ls.node_find_tree_at(x, y, tree); } return FindTreeResult::AcceptsInput; } if let Some(ws) = self.workspace.get() { if let Some(fs) = ws.fullscreen.get() { tree.push(FoundNode { node: fs.clone().tl_into_node(), x, y, }); return fs.tl_as_node().node_find_tree_at(x, y, tree); } } { let res = self.find_layer_surface_at(x, y, &[OVERLAY, TOP], tree); if res.accepts_input() { return res; } } { let (x_abs, y_abs) = self.global.pos.get().translate_inv(x, y); for stacked in self.state.root.stacked.rev_iter() { let ext = stacked.node_absolute_position(); if stacked.stacked_absolute_position_constrains_input() && !ext.contains(x_abs, y_abs) { // TODO: make constrain always true continue; } let (x, y) = ext.translate(x_abs, y_abs); let idx = tree.len(); tree.push(FoundNode { node: stacked.deref().clone().stacked_into_node(), x, y, }); match stacked.node_find_tree_at(x, y, tree) { FindTreeResult::AcceptsInput => { return FindTreeResult::AcceptsInput; } FindTreeResult::Other => { tree.truncate(idx); } } } } let bar_height = self.state.theme.sizes.title_height.get() + 1; if y >= bar_height { y -= bar_height; let len = tree.len(); if let Some(ws) = self.workspace.get() { tree.push(FoundNode { node: ws.clone(), x, y, }); ws.node_find_tree_at(x, y, tree); } if tree.len() == len { self.find_layer_surface_at(x, y, &[BOTTOM, BACKGROUND], tree); } } FindTreeResult::AcceptsInput } fn node_render(&self, renderer: &mut Renderer, x: i32, y: i32) { renderer.render_output(self, x, y); } fn node_on_button( self: Rc, seat: &Rc, button: u32, state: KeyState, _serial: u32, ) { if state != KeyState::Pressed || button != BTN_LEFT { return; } let (x, y) = match self.pointer_positions.get(&seat.id()) { Some(p) => p, _ => return, }; if y >= self.state.theme.sizes.title_height.get() { return; } let ws = 'ws: { let rd = self.render_data.borrow_mut(); for title in &rd.titles { if x >= title.x1 && x < title.x2 { break 'ws title.ws.clone(); } } return; }; self.show_workspace(&ws); self.update_render_data(); self.state.tree_changed(); } fn node_on_axis_event(self: Rc, seat: &Rc, event: &PendingScroll) { let steps = match self.scroll.handle(event) { Some(e) => e, _ => return, }; if steps == 0 { return; } let ws = match self.workspace.get() { Some(ws) => ws, _ => return, }; let mut ws = 'ws: { for r in self.workspaces.iter() { if r.id == ws.id { break 'ws r; } } return; }; for _ in 0..steps.abs() { let new = if steps < 0 { ws.prev() } else { ws.next() }; ws = match new { Some(n) => n, None => break, }; } if !self.show_workspace(&ws) { return; } ws.deref() .clone() .node_do_focus(seat, Direction::Unspecified); self.update_render_data(); self.state.tree_changed(); } fn node_on_pointer_enter(self: Rc, seat: &Rc, x: Fixed, y: Fixed) { self.pointer_move(seat, x.round_down(), y.round_down()); } fn node_on_pointer_focus(&self, seat: &Rc) { // log::info!("output focus"); seat.set_known_cursor(KnownCursor::Default); } fn node_on_pointer_motion(self: Rc, seat: &Rc, x: Fixed, y: Fixed) { self.pointer_move(seat, x.round_down(), y.round_down()); } fn node_into_output(self: Rc) -> Option> { Some(self.clone()) } fn node_is_output(&self) -> bool { true } }