use crate::scripting::guiwin::GuiWin; use crate::spawn::SpawnWhere; use crate::termwindow::TermWindowNotif; use crate::TermWindow; use ::window::*; use anyhow::{Context, Error}; use config::keyassignment::{KeyAssignment, SpawnCommand}; use config::ConfigSubscription; pub use config::FrontEndSelection; use mux::client::ClientId; use mux::window::WindowId as MuxWindowId; use mux::{Mux, MuxNotification}; use promise::{Future, Promise}; use std::cell::RefCell; use std::collections::{BTreeMap, HashSet}; use std::rc::Rc; use std::sync::Arc; use wezterm_term::{Alert, ClipboardSelection}; use wezterm_toast_notification::*; pub struct GuiFrontEnd { connection: Rc, switching_workspaces: RefCell, spawned_mux_window: RefCell>, known_windows: RefCell>, client_id: Arc, config_subscription: RefCell>, } impl Drop for GuiFrontEnd { fn drop(&mut self) { ::window::shutdown(); } } impl GuiFrontEnd { pub fn try_new() -> anyhow::Result> { let connection = Connection::init()?; connection.set_event_handler(Self::app_event_handler); let mux = Mux::get(); let client_id = mux.active_identity().expect("to have set my own id"); let front_end = Rc::new(GuiFrontEnd { connection, switching_workspaces: RefCell::new(false), spawned_mux_window: RefCell::new(HashSet::new()), known_windows: RefCell::new(BTreeMap::new()), client_id: client_id.clone(), config_subscription: RefCell::new(None), }); mux.subscribe(move |n| { match n { MuxNotification::WindowWorkspaceChanged(_) | MuxNotification::ActiveWorkspaceChanged(_) | MuxNotification::WindowCreated(_) | MuxNotification::WindowRemoved(_) => { promise::spawn::spawn_into_main_thread(async move { let fe = crate::frontend::front_end(); if !fe.is_switching_workspace() { fe.reconcile_workspace(); } }) .detach(); } MuxNotification::PaneFocused(pane_id) => { promise::spawn::spawn_into_main_thread(async move { let mux = Mux::get(); if let Err(err) = mux.focus_pane_and_containing_tab(pane_id) { log::error!("Error reconciling PaneFocused notification: {err:#}"); } }) .detach(); } MuxNotification::TabResized(_) => {} MuxNotification::TabAddedToWindow { .. } => {} MuxNotification::PaneRemoved(_) => {} MuxNotification::WindowInvalidated(_) => {} MuxNotification::PaneOutput(_) => {} MuxNotification::PaneAdded(_) => {} MuxNotification::Alert { pane_id: _, alert: Alert::ToastNotification { title, body, focus: _, }, } => { let message = if title.is_none() { "" } else { &body }; let title = title.as_ref().unwrap_or(&body); // FIXME: if notification.focus is true, we should do // something here to arrange to focus pane_id when the // notification is clicked persistent_toast_notification(title, message); } MuxNotification::Alert { pane_id: _, alert: Alert::Bell, } => { // Handled via TermWindowNotif; NOP it here. } MuxNotification::Alert { pane_id: _, alert: Alert::OutputSinceFocusLost | Alert::PaletteChanged | Alert::CurrentWorkingDirectoryChanged | Alert::WindowTitleChanged(_) | Alert::TabTitleChanged(_) | Alert::IconTitleChanged(_) | Alert::SetUserVar { .. }, } => {} MuxNotification::Empty => { if config::configuration().quit_when_all_windows_are_closed { promise::spawn::spawn_into_main_thread(async move { if mux::activity::Activity::count() == 0 { log::trace!("Mux is now empty, terminate gui"); Connection::get().unwrap().terminate_message_loop(); } }) .detach(); } } MuxNotification::SaveToDownloads { name, data } => { if !config::configuration().allow_download_protocols { log::error!( "Ignoring download request for {:?}, \ as allow_download_protocols=false", name ); } else if let Err(err) = crate::download::save_to_downloads(name, &*data) { log::error!("save_to_downloads: {:#}", err); } } MuxNotification::AssignClipboard { pane_id, selection, clipboard, } => { promise::spawn::spawn_into_main_thread(async move { let fe = crate::frontend::front_end(); log::trace!( "set clipboard in pane {} {:?} {:?}", pane_id, selection, clipboard ); if let Some(window) = fe.known_windows.borrow().keys().next() { window.set_clipboard( match selection { ClipboardSelection::Clipboard => Clipboard::Clipboard, ClipboardSelection::PrimarySelection => { Clipboard::PrimarySelection } }, clipboard.unwrap_or_else(String::new), ); } else { log::error!("Cannot assign clipboard as there are no windows"); }; }) .detach(); } } true }); // Re-evaluate the config so that folks that are using // `wezterm.gui.get_appearance()` can have that take effect // before any windows are created config::reload(); // And build the initial menu bar. // TODO: arrange for this to happen on config reload. crate::commands::CommandDef::recreate_menubar(&config::configuration()); Ok(front_end) } fn app_event_handler(event: ApplicationEvent) { log::trace!("Got app event {event:?}"); match event { ApplicationEvent::OpenCommandScript(file_name) => { promise::spawn::spawn(async move { use config::keyassignment::SpawnTabDomain; use wezterm_term::TerminalSize; // We send the script to execute to the shell on stdin, rather than ask the // shell to execute it directly, so that we start the shell and read in the // user's rc files before running the script. Without this, wezterm on macOS // is launched with a default and very anemic path, and that is frustrating for // users. let mux = Mux::get(); let window_id = None; let pane_id = None; let cmd = None; let cwd = None; let workspace = mux.active_workspace(); match mux .spawn_tab_or_window( window_id, SpawnTabDomain::DomainName("local".to_string()), cmd, cwd, TerminalSize::default(), pane_id, workspace, None, // optional position ) .await { Ok((_tab, pane, _window_id)) => { log::trace!("Spawned {file_name} as pane_id {}", pane.pane_id()); let mut writer = pane.writer(); write!(writer, "{} ; exit\n", shlex::quote(&file_name)).ok(); } Err(err) => { log::error!("Failed to spawn {file_name}: {err:#?}"); } }; }) .detach(); } ApplicationEvent::PerformKeyAssignment(action) => { // We should only get here when there are no windows open // and the user picks an action from the menubar. // This is not currently possible, but could be in the // future. fn spawn_command(spawn: &SpawnCommand, spawn_where: SpawnWhere) { let config = config::configuration(); let dpi = config.dpi.unwrap_or_else(|| ::window::default_dpi()) as u32; let size = config.initial_size(dpi); let term_config = Arc::new(config::TermConfig::with_config(config)); crate::spawn::spawn_command_impl(spawn, spawn_where, size, None, term_config) } match action { KeyAssignment::QuitApplication => { // If we get here, there are no windows that could have received // the QuitApplication command, therefore it must be ok to quit // immediately Connection::get().unwrap().terminate_message_loop(); } KeyAssignment::SpawnWindow => { spawn_command(&SpawnCommand::default(), SpawnWhere::NewWindow); } KeyAssignment::SpawnTab(spawn_where) => { spawn_command( &SpawnCommand { domain: spawn_where, ..Default::default() }, SpawnWhere::NewWindow, ); } KeyAssignment::SpawnCommandInNewTab(spawn) => { spawn_command(&spawn, SpawnWhere::NewTab); } KeyAssignment::SpawnCommandInNewWindow(spawn) => { spawn_command(&spawn, SpawnWhere::NewWindow); } _ => { log::warn!("unhandled perform: {action:?}"); } } } } } pub fn run_forever(&self) -> anyhow::Result<()> { self.connection .run_message_loop() .context("running message loop") } pub fn gui_windows(&self) -> Vec { let windows = self.known_windows.borrow(); let mut windows: Vec = windows .iter() .map(|(window, &mux_window_id)| GuiWin { mux_window_id, window: window.clone(), }) .collect(); windows.sort_by(|a, b| a.window.cmp(&b.window)); windows } pub fn reconcile_workspace(&self) -> Future<()> { let mut promise = Promise::new(); let mux = Mux::get(); let workspace = mux.active_workspace_for_client(&self.client_id); if mux.is_workspace_empty(&workspace) { // We don't want to silently kill off things that might // be running in other workspaces, so let's pick one // and activate it if self.is_switching_workspace() { promise.ok(()); return promise.get_future().unwrap(); } for workspace in mux.iter_workspaces() { if !mux.is_workspace_empty(&workspace) { mux.set_active_workspace_for_client(&self.client_id, &workspace); log::debug!("using {} instead, as it is not empty", workspace); break; } } } let workspace = mux.active_workspace_for_client(&self.client_id); log::debug!("workspace is {}, fixup windows", workspace); let mut mux_windows = mux.iter_windows_in_workspace(&workspace); // First, repurpose existing windows. // Note that both iter_windows_in_workspace and self.known_windows have a // deterministic iteration order, so switching back and forth should result // in a consistent mux <-> gui window mapping. let known_windows = std::mem::take(&mut *self.known_windows.borrow_mut()); let mut windows = BTreeMap::new(); let mut unused = BTreeMap::new(); for (window, window_id) in known_windows.into_iter() { if let Some(idx) = mux_windows.iter().position(|&id| id == window_id) { // it already points to the desired mux window windows.insert(window, window_id); mux_windows.remove(idx); } else { unused.insert(window, window_id); } } let mut mux_windows = mux_windows.into_iter(); for (window, old_id) in unused.into_iter() { if let Some(mux_window_id) = mux_windows.next() { window.notify(TermWindowNotif::SwitchToMuxWindow(mux_window_id)); windows.insert(window, mux_window_id); } else { // We have more windows than are in the new workspace; // we no longer need this one! window.close(); front_end().spawned_mux_window.borrow_mut().remove(&old_id); } } log::trace!("reconcile: windows -> {:?}", windows); *self.known_windows.borrow_mut() = windows; let future = promise.get_future().unwrap(); // then spawn any new windows that are needed promise::spawn::spawn(async move { while let Some(mux_window_id) = mux_windows.next() { if front_end().has_mux_window(mux_window_id) || front_end() .spawned_mux_window .borrow() .contains(&mux_window_id) { continue; } front_end() .spawned_mux_window .borrow_mut() .insert(mux_window_id); log::trace!("Creating TermWindow for mux_window_id={}", mux_window_id); if let Err(err) = TermWindow::new_window(mux_window_id).await { log::error!("Failed to create window: {:#}", err); let mux = Mux::get(); mux.kill_window(mux_window_id); front_end() .spawned_mux_window .borrow_mut() .remove(&mux_window_id); } } *front_end().switching_workspaces.borrow_mut() = false; promise.ok(()); }) .detach(); future } fn has_mux_window(&self, mux_window_id: MuxWindowId) -> bool { for &mux_id in self.known_windows.borrow().values() { if mux_id == mux_window_id { return true; } } false } pub fn switch_workspace(&self, workspace: &str) { let mux = Mux::get(); mux.set_active_workspace_for_client(&self.client_id, workspace); *self.switching_workspaces.borrow_mut() = false; self.reconcile_workspace(); } pub fn record_known_window(&self, window: Window, mux_window_id: MuxWindowId) { self.known_windows .borrow_mut() .insert(window, mux_window_id); if !self.is_switching_workspace() { self.reconcile_workspace(); } } pub fn forget_known_window(&self, window: &Window) { self.known_windows.borrow_mut().remove(window); if !self.is_switching_workspace() { self.reconcile_workspace(); } } pub fn is_switching_workspace(&self) -> bool { *self.switching_workspaces.borrow() } pub fn gui_window_for_mux_window(&self, mux_window_id: MuxWindowId) -> Option { let windows = self.known_windows.borrow(); for (window, v) in windows.iter() { if *v == mux_window_id { return Some(GuiWin { mux_window_id, window: window.clone(), }); } } None } } thread_local! { static FRONT_END: RefCell>> = RefCell::new(None); } pub fn try_front_end() -> Option> { FRONT_END.with(|f| f.borrow().as_ref().map(Rc::clone)) } pub fn front_end() -> Rc { FRONT_END .with(|f| f.borrow().as_ref().map(Rc::clone)) .expect("to be called on gui thread") } pub struct WorkspaceSwitcher { new_name: String, } impl WorkspaceSwitcher { pub fn new(new_name: &str) -> Self { *front_end().switching_workspaces.borrow_mut() = true; Self { new_name: new_name.to_string(), } } pub fn do_switch(self) { // Drop is invoked, which will complete the switch } } impl Drop for WorkspaceSwitcher { fn drop(&mut self) { front_end().switch_workspace(&self.new_name); } } pub fn shutdown() { FRONT_END.with(|f| drop(f.borrow_mut().take())); } pub fn try_new() -> Result, Error> { let front_end = GuiFrontEnd::try_new()?; FRONT_END.with(|f| *f.borrow_mut() = Some(Rc::clone(&front_end))); let config_subscription = config::subscribe_to_config_reload({ move || { promise::spawn::spawn_into_main_thread(async { crate::commands::CommandDef::recreate_menubar(&config::configuration()); }) .detach(); true } }); front_end .config_subscription .borrow_mut() .replace(config_subscription); Ok(front_end) }