use std::{ env, path::{Path, PathBuf}, rc::Rc, sync::Arc, }; #[cfg(any(feature = "wayland", feature = "x11"))] use std::{ ffi::OsString, fs::File, io::Read as _, os::fd::{AsFd, FromRawFd, IntoRawFd}, time::Duration, }; use anyhow::{Context as _, anyhow}; use calloop::LoopSignal; use futures::channel::oneshot; use util::ResultExt as _; use util::command::{new_command, new_std_command}; #[cfg(any(feature = "wayland", feature = "x11"))] use xkbcommon::xkb::{self, Keycode, Keysym, State}; use crate::linux::{LinuxDispatcher, PriorityQueueCalloopReceiver}; use gpui::{ Action, AnyWindowHandle, BackgroundExecutor, ClipboardItem, CursorStyle, DisplayId, ForegroundExecutor, Keymap, Menu, MenuItem, OwnedMenu, PathPromptOptions, Platform, PlatformDisplay, PlatformKeyboardLayout, PlatformKeyboardMapper, PlatformTextSystem, PlatformWindow, Result, RunnableVariant, Task, ThermalState, WindowAppearance, WindowButtonLayout, WindowParams, }; #[cfg(any(feature = "wayland", feature = "x11"))] use gpui::{Pixels, Point, px}; #[cfg(any(feature = "wayland", feature = "x11"))] pub(crate) const SCROLL_LINES: f32 = 3.0; // Values match the defaults on GTK. // Taken from https://github.com/GNOME/gtk/blob/main/gtk/gtksettings.c#L320 #[cfg(any(feature = "wayland", feature = "x11"))] pub(crate) const DOUBLE_CLICK_INTERVAL: Duration = Duration::from_millis(400); #[cfg(any(feature = "wayland", feature = "x11"))] pub(crate) const DOUBLE_CLICK_DISTANCE: Pixels = px(5.0); pub(crate) const KEYRING_LABEL: &str = "zed-github-account"; #[cfg(any(feature = "wayland", feature = "x11"))] const FILE_PICKER_PORTAL_MISSING: &str = "Couldn't open file picker due to missing xdg-desktop-portal implementation."; pub(crate) trait LinuxClient { fn compositor_name(&self) -> &'static str; fn with_common(&self, f: impl FnOnce(&mut LinuxCommon) -> R) -> R; fn keyboard_layout(&self) -> Box; fn displays(&self) -> Vec>; #[allow(unused)] fn display(&self, id: DisplayId) -> Option>; fn primary_display(&self) -> Option>; #[cfg(feature = "screen-capture")] fn is_screen_capture_supported(&self) -> bool { true } #[cfg(feature = "screen-capture")] fn screen_capture_sources( &self, ) -> oneshot::Receiver>>> { let (sources_tx, sources_rx) = oneshot::channel(); sources_tx .send(Err(anyhow::anyhow!( "gpui_linux was compiled without the screen-capture feature" ))) .ok(); sources_rx } fn open_window( &self, handle: AnyWindowHandle, options: WindowParams, ) -> anyhow::Result>; fn set_cursor_style(&self, style: CursorStyle); fn open_uri(&self, uri: &str); fn reveal_path(&self, path: PathBuf); fn write_to_primary(&self, item: ClipboardItem); fn write_to_clipboard(&self, item: ClipboardItem); fn read_from_primary(&self) -> Option; fn read_from_clipboard(&self) -> Option; fn active_window(&self) -> Option; fn window_stack(&self) -> Option>; fn run(&self); #[cfg(any(feature = "wayland", feature = "x11"))] fn window_identifier( &self, ) -> impl Future> + Send + 'static { std::future::ready::>(None) } } #[derive(Default)] pub(crate) struct PlatformHandlers { pub(crate) open_urls: Option)>>, pub(crate) quit: Option>, pub(crate) reopen: Option>, pub(crate) app_menu_action: Option>, pub(crate) will_open_app_menu: Option>, pub(crate) validate_app_menu_command: Option bool>>, pub(crate) keyboard_layout_change: Option>, } pub(crate) struct LinuxCommon { pub(crate) background_executor: BackgroundExecutor, pub(crate) foreground_executor: ForegroundExecutor, pub(crate) text_system: Arc, pub(crate) appearance: WindowAppearance, pub(crate) auto_hide_scrollbars: bool, pub(crate) button_layout: WindowButtonLayout, pub(crate) callbacks: PlatformHandlers, pub(crate) signal: LoopSignal, pub(crate) menus: Vec, } impl LinuxCommon { pub fn new(signal: LoopSignal) -> (Self, PriorityQueueCalloopReceiver) { let (main_sender, main_receiver) = PriorityQueueCalloopReceiver::new(); #[cfg(any(feature = "wayland", feature = "x11"))] let text_system = Arc::new(crate::linux::CosmicTextSystem::new("IBM Plex Sans")); #[cfg(not(any(feature = "wayland", feature = "x11")))] let text_system = Arc::new(gpui::NoopTextSystem::new()); let callbacks = PlatformHandlers::default(); let dispatcher = Arc::new(LinuxDispatcher::new(main_sender)); let background_executor = BackgroundExecutor::new(dispatcher.clone()); let common = LinuxCommon { background_executor, foreground_executor: ForegroundExecutor::new(dispatcher), text_system, appearance: WindowAppearance::Light, auto_hide_scrollbars: false, button_layout: WindowButtonLayout::linux_default(), callbacks, signal, menus: Vec::new(), }; (common, main_receiver) } } pub(crate) struct LinuxPlatform

{ pub(crate) inner: P, } impl Platform for LinuxPlatform

{ fn background_executor(&self) -> BackgroundExecutor { self.inner .with_common(|common| common.background_executor.clone()) } fn foreground_executor(&self) -> ForegroundExecutor { self.inner .with_common(|common| common.foreground_executor.clone()) } fn text_system(&self) -> Arc { self.inner.with_common(|common| common.text_system.clone()) } fn keyboard_layout(&self) -> Box { self.inner.keyboard_layout() } fn keyboard_mapper(&self) -> Rc { Rc::new(gpui::DummyKeyboardMapper) } fn on_keyboard_layout_change(&self, callback: Box) { self.inner .with_common(|common| common.callbacks.keyboard_layout_change = Some(callback)); } fn on_thermal_state_change(&self, _callback: Box) {} fn thermal_state(&self) -> ThermalState { ThermalState::Nominal } fn run(&self, on_finish_launching: Box) { on_finish_launching(); LinuxClient::run(&self.inner); let quit = self .inner .with_common(|common| common.callbacks.quit.take()); if let Some(mut fun) = quit { fun(); } } fn quit(&self) { self.inner.with_common(|common| common.signal.stop()); } fn compositor_name(&self) -> &'static str { self.inner.compositor_name() } fn restart(&self, binary_path: Option) { use std::os::unix::process::CommandExt as _; // get the process id of the current process let app_pid = std::process::id().to_string(); // get the path to the executable let app_path = if let Some(path) = binary_path { path } else { match self.app_path() { Ok(path) => path, Err(err) => { log::error!("Failed to get app path: {:?}", err); return; } } }; log::info!("Restarting process, using app path: {:?}", app_path); // Script to wait for the current process to exit and then restart the app. // Pass dynamic values as positional parameters to avoid shell interpolation issues. let script = r#" while kill -0 "$0" 2>/dev/null; do sleep 0.1 done "$1" "#; #[allow( clippy::disallowed_methods, reason = "We are restarting ourselves, using std command thus is fine" )] let restart_process = new_std_command("/usr/bin/env") .arg("bash") .arg("-c") .arg(script) .arg(&app_pid) .arg(&app_path) .process_group(0) .spawn(); match restart_process { Ok(_) => self.quit(), Err(e) => log::error!("failed to spawn restart script: {:?}", e), } } fn activate(&self, _ignoring_other_apps: bool) { log::info!("activate is not implemented on Linux, ignoring the call") } fn hide(&self) { log::info!("hide is not implemented on Linux, ignoring the call") } fn hide_other_apps(&self) { log::info!("hide_other_apps is not implemented on Linux, ignoring the call") } fn unhide_other_apps(&self) { log::info!("unhide_other_apps is not implemented on Linux, ignoring the call") } fn primary_display(&self) -> Option> { self.inner.primary_display() } fn displays(&self) -> Vec> { self.inner.displays() } #[cfg(feature = "screen-capture")] fn is_screen_capture_supported(&self) -> bool { self.inner.is_screen_capture_supported() } #[cfg(feature = "screen-capture")] fn screen_capture_sources( &self, ) -> oneshot::Receiver>>> { self.inner.screen_capture_sources() } fn active_window(&self) -> Option { self.inner.active_window() } fn window_stack(&self) -> Option> { self.inner.window_stack() } fn open_window( &self, handle: AnyWindowHandle, options: WindowParams, ) -> anyhow::Result> { self.inner.open_window(handle, options) } fn open_url(&self, url: &str) { self.inner.open_uri(url); } fn on_open_urls(&self, callback: Box)>) { self.inner .with_common(|common| common.callbacks.open_urls = Some(callback)); } fn prompt_for_paths( &self, options: PathPromptOptions, ) -> oneshot::Receiver>>> { let (done_tx, done_rx) = oneshot::channel(); #[cfg(not(any(feature = "wayland", feature = "x11")))] let _ = (done_tx.send(Ok(None)), options); #[cfg(any(feature = "wayland", feature = "x11"))] let identifier = self.inner.window_identifier(); #[cfg(any(feature = "wayland", feature = "x11"))] self.foreground_executor() .spawn(async move { let title = if options.directories { "Open Folder" } else { "Open File" }; let request = match ashpd::desktop::file_chooser::OpenFileRequest::default() .identifier(identifier.await) .modal(true) .title(title) .accept_label(options.prompt.as_ref().map(gpui::SharedString::as_str)) .multiple(options.multiple) .directory(options.directories) .send() .await { Ok(request) => request, Err(err) => { let result = match err { ashpd::Error::PortalNotFound(_) => anyhow!(FILE_PICKER_PORTAL_MISSING), err => err.into(), }; let _ = done_tx.send(Err(result)); return; } }; let result = match request.response() { Ok(response) => Ok(Some( response .uris() .iter() .filter_map(|uri: &ashpd::Uri| url::Url::parse(uri.as_str()).ok()) .filter_map(|uri: url::Url| uri.to_file_path().ok()) .collect::>(), )), Err(ashpd::Error::Response(_)) => Ok(None), Err(e) => Err(e.into()), }; let _ = done_tx.send(result); }) .detach(); done_rx } fn prompt_for_new_path( &self, directory: &Path, suggested_name: Option<&str>, ) -> oneshot::Receiver>> { let (done_tx, done_rx) = oneshot::channel(); #[cfg(not(any(feature = "wayland", feature = "x11")))] let _ = (done_tx.send(Ok(None)), directory, suggested_name); #[cfg(any(feature = "wayland", feature = "x11"))] let identifier = self.inner.window_identifier(); #[cfg(any(feature = "wayland", feature = "x11"))] self.foreground_executor() .spawn({ let directory = directory.to_owned(); let suggested_name = suggested_name.map(|s| s.to_owned()); async move { let mut request_builder = ashpd::desktop::file_chooser::SaveFileRequest::default() .identifier(identifier.await) .modal(true) .title("Save File") .current_folder(directory) .expect("pathbuf should not be nul terminated"); if let Some(suggested_name) = suggested_name { request_builder = request_builder.current_name(suggested_name.as_str()); } let request = match request_builder.send().await { Ok(request) => request, Err(err) => { let result = match err { ashpd::Error::PortalNotFound(_) => { anyhow!(FILE_PICKER_PORTAL_MISSING) } err => err.into(), }; let _ = done_tx.send(Err(result)); return; } }; let result = match request.response() { Ok(response) => Ok(response .uris() .first() .and_then(|uri: &ashpd::Uri| url::Url::parse(uri.as_str()).ok()) .and_then(|uri: url::Url| uri.to_file_path().ok())), Err(ashpd::Error::Response(_)) => Ok(None), Err(e) => Err(e.into()), }; let _ = done_tx.send(result); } }) .detach(); done_rx } fn can_select_mixed_files_and_dirs(&self) -> bool { // org.freedesktop.portal.FileChooser only supports "pick files" and "pick directories". false } fn reveal_path(&self, path: &Path) { self.inner.reveal_path(path.to_owned()); } fn open_with_system(&self, path: &Path) { let path = path.to_owned(); self.background_executor() .spawn(async move { let _ = new_command("xdg-open") .arg(path) .spawn() .context("invoking xdg-open") .log_err()? .status() .await .log_err()?; Some(()) }) .detach(); } fn on_quit(&self, callback: Box) { self.inner.with_common(|common| { common.callbacks.quit = Some(callback); }); } fn on_reopen(&self, callback: Box) { self.inner.with_common(|common| { common.callbacks.reopen = Some(callback); }); } fn on_app_menu_action(&self, callback: Box) { self.inner.with_common(|common| { common.callbacks.app_menu_action = Some(callback); }); } fn on_will_open_app_menu(&self, callback: Box) { self.inner.with_common(|common| { common.callbacks.will_open_app_menu = Some(callback); }); } fn on_validate_app_menu_command(&self, callback: Box bool>) { self.inner.with_common(|common| { common.callbacks.validate_app_menu_command = Some(callback); }); } fn app_path(&self) -> Result { // get the path of the executable of the current process let app_path = env::current_exe()?; Ok(app_path) } fn set_menus(&self, menus: Vec

, _keymap: &Keymap) { self.inner.with_common(|common| { common.menus = menus.into_iter().map(|menu| menu.owned()).collect(); }) } fn get_menus(&self) -> Option> { self.inner.with_common(|common| Some(common.menus.clone())) } fn set_dock_menu(&self, _menu: Vec, _keymap: &Keymap) { // todo(linux) } fn path_for_auxiliary_executable(&self, _name: &str) -> Result { Err(anyhow::Error::msg( "Platform::path_for_auxiliary_executable is not implemented yet", )) } fn set_cursor_style(&self, style: CursorStyle) { self.inner.set_cursor_style(style) } fn should_auto_hide_scrollbars(&self) -> bool { self.inner.with_common(|common| common.auto_hide_scrollbars) } fn write_credentials(&self, url: &str, username: &str, password: &[u8]) -> Task> { let url = url.to_string(); let username = username.to_string(); let password = password.to_vec(); self.background_executor().spawn(async move { let keyring = oo7::Keyring::new().await?; keyring.unlock().await?; keyring .create_item( KEYRING_LABEL, &vec![("url", &url), ("username", &username)], password, true, ) .await?; Ok(()) }) } fn read_credentials(&self, url: &str) -> Task)>>> { let url = url.to_string(); self.background_executor().spawn(async move { let keyring = oo7::Keyring::new().await?; keyring.unlock().await?; let items = keyring.search_items(&vec![("url", &url)]).await?; for item in items.into_iter() { if item.label().await.is_ok_and(|label| label == KEYRING_LABEL) { let attributes = item.attributes().await?; let username = attributes .get("username") .context("Cannot find username in stored credentials")?; item.unlock().await?; let secret = item.secret().await?; // we lose the zeroizing capabilities at this boundary, // a current limitation GPUI's credentials api return Ok(Some((username.to_string(), secret.to_vec()))); } else { continue; } } Ok(None) }) } fn delete_credentials(&self, url: &str) -> Task> { let url = url.to_string(); self.background_executor().spawn(async move { let keyring = oo7::Keyring::new().await?; keyring.unlock().await?; let items = keyring.search_items(&vec![("url", &url)]).await?; for item in items.into_iter() { if item.label().await.is_ok_and(|label| label == KEYRING_LABEL) { item.delete().await?; return Ok(()); } } Ok(()) }) } fn window_appearance(&self) -> WindowAppearance { self.inner.with_common(|common| common.appearance) } fn button_layout(&self) -> Option { Some(self.inner.with_common(|common| common.button_layout)) } fn register_url_scheme(&self, _: &str) -> Task> { Task::ready(Err(anyhow!("register_url_scheme unimplemented"))) } fn write_to_primary(&self, item: ClipboardItem) { self.inner.write_to_primary(item) } fn write_to_clipboard(&self, item: ClipboardItem) { self.inner.write_to_clipboard(item) } fn read_from_primary(&self) -> Option { self.inner.read_from_primary() } fn read_from_clipboard(&self) -> Option { self.inner.read_from_clipboard() } fn add_recent_document(&self, _path: &Path) {} } #[cfg(any(feature = "wayland", feature = "x11"))] pub(super) fn open_uri_internal( executor: BackgroundExecutor, uri: &str, activation_token: Option, ) { if let Some(uri) = ashpd::Uri::parse(uri).log_err() { executor .spawn(async move { let mut xdg_open_failed = false; for mut command in open::commands(uri.to_string()) { if let Some(token) = activation_token.as_ref() { command.env("XDG_ACTIVATION_TOKEN", token); } let program = format!("{:?}", command.get_program()); match smol::process::Command::from(command).spawn() { Ok(mut cmd) => match cmd.status().await { Ok(status) if status.success() => return, Ok(status) => { log::error!("Command {} exited with status: {}", program, status); xdg_open_failed = true; } Err(e) => { log::error!("Failed to get status from {}: {}", program, e); xdg_open_failed = true; } }, Err(e) => { log::error!("Failed to open with {}: {}", program, e); xdg_open_failed = true; } } } if xdg_open_failed { match ashpd::desktop::open_uri::OpenFileRequest::default() .activation_token(activation_token.map(ashpd::ActivationToken::from)) .send_uri(&uri) .await .and_then(|e| e.response()) { Ok(()) => {} Err(ashpd::Error::Response(ashpd::desktop::ResponseError::Cancelled)) => {} Err(e) => { log::error!("Failed to open with dbus: {}", e); } } } }) .detach(); } } #[cfg(any(feature = "x11", feature = "wayland"))] pub(super) fn reveal_path_internal( executor: BackgroundExecutor, path: PathBuf, activation_token: Option, ) { executor .spawn(async move { if let Some(dir) = File::open(path.clone()).log_err() { match ashpd::desktop::open_uri::OpenDirectoryRequest::default() .activation_token(activation_token.map(ashpd::ActivationToken::from)) .send(&dir.as_fd()) .await { Ok(_) => return, Err(e) => log::error!("Failed to open with dbus: {}", e), } if path.is_dir() { open::that_detached(path).log_err(); } else { open::that_detached(path.parent().unwrap_or(Path::new(""))).log_err(); } } }) .detach(); } #[cfg(any(feature = "wayland", feature = "x11"))] pub(super) fn is_within_click_distance(a: Point, b: Point) -> bool { let diff = a - b; diff.x.abs() <= DOUBLE_CLICK_DISTANCE && diff.y.abs() <= DOUBLE_CLICK_DISTANCE } #[cfg(any(feature = "wayland", feature = "x11"))] pub(super) fn get_xkb_compose_state(cx: &xkb::Context) -> Option { let mut locales = Vec::default(); if let Some(locale) = env::var_os("LC_CTYPE") { locales.push(locale); } locales.push(OsString::from("C")); let mut state: Option = None; for locale in locales { if let Ok(table) = xkb::compose::Table::new_from_locale(cx, &locale, xkb::compose::COMPILE_NO_FLAGS) { state = Some(xkb::compose::State::new( &table, xkb::compose::STATE_NO_FLAGS, )); break; } } state } #[cfg(any(feature = "wayland", feature = "x11"))] pub(super) unsafe fn read_fd(fd: filedescriptor::FileDescriptor) -> Result> { let mut file = unsafe { File::from_raw_fd(fd.into_raw_fd()) }; let mut buffer = Vec::new(); file.read_to_end(&mut buffer)?; Ok(buffer) } #[cfg(any(feature = "wayland", feature = "x11"))] pub(super) const DEFAULT_CURSOR_ICON_NAME: &str = "left_ptr"; #[cfg(any(feature = "wayland", feature = "x11"))] pub(super) fn cursor_style_to_icon_names(style: CursorStyle) -> &'static [&'static str] { // Based on cursor names from chromium: // https://github.com/chromium/chromium/blob/d3069cf9c973dc3627fa75f64085c6a86c8f41bf/ui/base/cursor/cursor_factory.cc#L113 match style { CursorStyle::Arrow => &[DEFAULT_CURSOR_ICON_NAME], CursorStyle::IBeam => &["text", "xterm"], CursorStyle::Crosshair => &["crosshair", "cross"], CursorStyle::ClosedHand => &["closedhand", "grabbing", "hand2"], CursorStyle::OpenHand => &["openhand", "grab", "hand1"], CursorStyle::PointingHand => &["pointer", "hand", "hand2"], CursorStyle::ResizeLeft => &["w-resize", "left_side"], CursorStyle::ResizeRight => &["e-resize", "right_side"], CursorStyle::ResizeLeftRight => &["ew-resize", "sb_h_double_arrow"], CursorStyle::ResizeUp => &["n-resize", "top_side"], CursorStyle::ResizeDown => &["s-resize", "bottom_side"], CursorStyle::ResizeUpDown => &["sb_v_double_arrow", "ns-resize"], CursorStyle::ResizeUpLeftDownRight => &["size_fdiag", "bd_double_arrow", "nwse-resize"], CursorStyle::ResizeUpRightDownLeft => &["size_bdiag", "nesw-resize", "fd_double_arrow"], CursorStyle::ResizeColumn => &["col-resize", "sb_h_double_arrow"], CursorStyle::ResizeRow => &["row-resize", "sb_v_double_arrow"], CursorStyle::IBeamCursorForVerticalLayout => &["vertical-text"], CursorStyle::OperationNotAllowed => &["not-allowed", "crossed_circle"], CursorStyle::DragLink => &["alias"], CursorStyle::DragCopy => &["copy"], CursorStyle::ContextualMenu => &["context-menu"], CursorStyle::None => { #[cfg(debug_assertions)] panic!("CursorStyle::None should be handled separately in the client"); #[cfg(not(debug_assertions))] &[DEFAULT_CURSOR_ICON_NAME] } } } #[cfg(any(feature = "wayland", feature = "x11"))] pub(super) fn log_cursor_icon_warning(message: impl std::fmt::Display) { if let Ok(xcursor_path) = env::var("XCURSOR_PATH") { log::warn!( "{:#}\ncursor icon loading may be failing if XCURSOR_PATH environment variable is invalid. \ XCURSOR_PATH overrides the default icon search. Its current value is '{}'", message, xcursor_path ); } else { log::warn!("{:#}", message); } } #[cfg(any(feature = "wayland", feature = "x11"))] fn guess_ascii(keycode: Keycode, shift: bool) -> Option { let c = match (keycode.raw(), shift) { (24, _) => 'q', (25, _) => 'w', (26, _) => 'e', (27, _) => 'r', (28, _) => 't', (29, _) => 'y', (30, _) => 'u', (31, _) => 'i', (32, _) => 'o', (33, _) => 'p', (34, false) => '[', (34, true) => '{', (35, false) => ']', (35, true) => '}', (38, _) => 'a', (39, _) => 's', (40, _) => 'd', (41, _) => 'f', (42, _) => 'g', (43, _) => 'h', (44, _) => 'j', (45, _) => 'k', (46, _) => 'l', (47, false) => ';', (47, true) => ':', (48, false) => '\'', (48, true) => '"', (49, false) => '`', (49, true) => '~', (51, false) => '\\', (51, true) => '|', (52, _) => 'z', (53, _) => 'x', (54, _) => 'c', (55, _) => 'v', (56, _) => 'b', (57, _) => 'n', (58, _) => 'm', (59, false) => ',', (59, true) => '>', (60, false) => '.', (60, true) => '<', (61, false) => '/', (61, true) => '?', _ => return None, }; Some(c) } #[cfg(any(feature = "wayland", feature = "x11"))] pub(super) fn keystroke_from_xkb( state: &State, mut modifiers: gpui::Modifiers, keycode: Keycode, ) -> gpui::Keystroke { let key_utf32 = state.key_get_utf32(keycode); let key_utf8 = state.key_get_utf8(keycode); let key_sym = state.key_get_one_sym(keycode); let key = match key_sym { Keysym::Return => "enter".to_owned(), Keysym::Prior => "pageup".to_owned(), Keysym::Next => "pagedown".to_owned(), Keysym::ISO_Left_Tab => "tab".to_owned(), Keysym::KP_Prior => "pageup".to_owned(), Keysym::KP_Next => "pagedown".to_owned(), Keysym::XF86_Back => "back".to_owned(), Keysym::XF86_Forward => "forward".to_owned(), Keysym::XF86_Cut => "cut".to_owned(), Keysym::XF86_Copy => "copy".to_owned(), Keysym::XF86_Paste => "paste".to_owned(), Keysym::XF86_New => "new".to_owned(), Keysym::XF86_Open => "open".to_owned(), Keysym::XF86_Save => "save".to_owned(), Keysym::comma => ",".to_owned(), Keysym::period => ".".to_owned(), Keysym::less => "<".to_owned(), Keysym::greater => ">".to_owned(), Keysym::slash => "/".to_owned(), Keysym::question => "?".to_owned(), Keysym::semicolon => ";".to_owned(), Keysym::colon => ":".to_owned(), Keysym::apostrophe => "'".to_owned(), Keysym::quotedbl => "\"".to_owned(), Keysym::bracketleft => "[".to_owned(), Keysym::braceleft => "{".to_owned(), Keysym::bracketright => "]".to_owned(), Keysym::braceright => "}".to_owned(), Keysym::backslash => "\\".to_owned(), Keysym::bar => "|".to_owned(), Keysym::grave => "`".to_owned(), Keysym::asciitilde => "~".to_owned(), Keysym::exclam => "!".to_owned(), Keysym::at => "@".to_owned(), Keysym::numbersign => "#".to_owned(), Keysym::dollar => "$".to_owned(), Keysym::percent => "%".to_owned(), Keysym::asciicircum => "^".to_owned(), Keysym::ampersand => "&".to_owned(), Keysym::asterisk => "*".to_owned(), Keysym::parenleft => "(".to_owned(), Keysym::parenright => ")".to_owned(), Keysym::minus => "-".to_owned(), Keysym::underscore => "_".to_owned(), Keysym::equal => "=".to_owned(), Keysym::plus => "+".to_owned(), Keysym::space => "space".to_owned(), Keysym::BackSpace => "backspace".to_owned(), Keysym::Tab => "tab".to_owned(), Keysym::Delete => "delete".to_owned(), Keysym::Escape => "escape".to_owned(), Keysym::Left => "left".to_owned(), Keysym::Right => "right".to_owned(), Keysym::Up => "up".to_owned(), Keysym::Down => "down".to_owned(), Keysym::Home => "home".to_owned(), Keysym::End => "end".to_owned(), Keysym::Insert => "insert".to_owned(), _ => { let name = xkb::keysym_get_name(key_sym).to_lowercase(); if key_sym.is_keypad_key() { name.replace("kp_", "") } else if let Some(key) = key_utf8.chars().next() && key_utf8.len() == 1 && key.is_ascii() { if key.is_ascii_graphic() { key_utf8.to_lowercase() // map ctrl-a to `a` // ctrl-0..9 may emit control codes like ctrl-[, but // we don't want to map them to `[` } else if key_utf32 <= 0x1f && !name.chars().next().is_some_and(|c| c.is_ascii_digit()) { ((key_utf32 as u8 + 0x40) as char) .to_ascii_lowercase() .to_string() } else { name } } else if let Some(key_en) = guess_ascii(keycode, modifiers.shift) { String::from(key_en) } else { name } } }; if modifiers.shift { // we only include the shift for upper-case letters by convention, // so don't include for numbers and symbols, but do include for // tab/enter, etc. if key.chars().count() == 1 && key.to_lowercase() == key.to_uppercase() { modifiers.shift = false; } } // Ignore control characters (and DEL) for the purposes of key_char let key_char = (key_utf32 >= 32 && key_utf32 != 127 && !key_utf8.is_empty()).then_some(key_utf8); gpui::Keystroke { modifiers, key, key_char, } } /** * Returns which symbol the dead key represents * */ #[cfg(any(feature = "wayland", feature = "x11"))] pub fn keystroke_underlying_dead_key(keysym: Keysym) -> Option { match keysym { Keysym::dead_grave => Some("`".to_owned()), Keysym::dead_acute => Some("´".to_owned()), Keysym::dead_circumflex => Some("^".to_owned()), Keysym::dead_tilde => Some("~".to_owned()), Keysym::dead_macron => Some("¯".to_owned()), Keysym::dead_breve => Some("˘".to_owned()), Keysym::dead_abovedot => Some("˙".to_owned()), Keysym::dead_diaeresis => Some("¨".to_owned()), Keysym::dead_abovering => Some("˚".to_owned()), Keysym::dead_doubleacute => Some("˝".to_owned()), Keysym::dead_caron => Some("ˇ".to_owned()), Keysym::dead_cedilla => Some("¸".to_owned()), Keysym::dead_ogonek => Some("˛".to_owned()), Keysym::dead_iota => Some("ͅ".to_owned()), Keysym::dead_voiced_sound => Some("゙".to_owned()), Keysym::dead_semivoiced_sound => Some("゚".to_owned()), Keysym::dead_belowdot => Some("̣̣".to_owned()), Keysym::dead_hook => Some("̡".to_owned()), Keysym::dead_horn => Some("̛".to_owned()), Keysym::dead_stroke => Some("̶̶".to_owned()), Keysym::dead_abovecomma => Some("̓̓".to_owned()), Keysym::dead_abovereversedcomma => Some("ʽ".to_owned()), Keysym::dead_doublegrave => Some("̏".to_owned()), Keysym::dead_belowring => Some("˳".to_owned()), Keysym::dead_belowmacron => Some("̱".to_owned()), Keysym::dead_belowcircumflex => Some("ꞈ".to_owned()), Keysym::dead_belowtilde => Some("̰".to_owned()), Keysym::dead_belowbreve => Some("̮".to_owned()), Keysym::dead_belowdiaeresis => Some("̤".to_owned()), Keysym::dead_invertedbreve => Some("̯".to_owned()), Keysym::dead_belowcomma => Some("̦".to_owned()), Keysym::dead_currency => None, Keysym::dead_lowline => None, Keysym::dead_aboveverticalline => None, Keysym::dead_belowverticalline => None, Keysym::dead_longsolidusoverlay => None, Keysym::dead_a => None, Keysym::dead_A => None, Keysym::dead_e => None, Keysym::dead_E => None, Keysym::dead_i => None, Keysym::dead_I => None, Keysym::dead_o => None, Keysym::dead_O => None, Keysym::dead_u => None, Keysym::dead_U => None, Keysym::dead_small_schwa => Some("ə".to_owned()), Keysym::dead_capital_schwa => Some("Ə".to_owned()), Keysym::dead_greek => None, _ => None, } } #[cfg(any(feature = "wayland", feature = "x11"))] pub(super) fn modifiers_from_xkb(keymap_state: &State) -> gpui::Modifiers { let shift = keymap_state.mod_name_is_active(xkb::MOD_NAME_SHIFT, xkb::STATE_MODS_EFFECTIVE); let alt = keymap_state.mod_name_is_active(xkb::MOD_NAME_ALT, xkb::STATE_MODS_EFFECTIVE); let control = keymap_state.mod_name_is_active(xkb::MOD_NAME_CTRL, xkb::STATE_MODS_EFFECTIVE); let platform = keymap_state.mod_name_is_active(xkb::MOD_NAME_LOGO, xkb::STATE_MODS_EFFECTIVE); gpui::Modifiers { shift, alt, control, platform, function: false, } } #[cfg(any(feature = "wayland", feature = "x11"))] pub(super) fn capslock_from_xkb(keymap_state: &State) -> gpui::Capslock { let on = keymap_state.mod_name_is_active(xkb::MOD_NAME_CAPS, xkb::STATE_MODS_EFFECTIVE); gpui::Capslock { on } } /// Resolve a Linux `dev_t` to PCI vendor/device IDs via sysfs, returning a /// [`CompositorGpuHint`] that the GPU adapter selection code can use to /// prioritize the compositor's rendering device. #[cfg(any(feature = "wayland", feature = "x11"))] pub(super) fn compositor_gpu_hint_from_dev_t(dev: u64) -> Option { fn dev_major(dev: u64) -> u32 { ((dev >> 8) & 0xfff) as u32 | (((dev >> 32) & !0xfff) as u32) } fn dev_minor(dev: u64) -> u32 { (dev & 0xff) as u32 | (((dev >> 12) & !0xff) as u32) } fn read_sysfs_hex_id(path: &str) -> Option { let content = std::fs::read_to_string(path).ok()?; let trimmed = content.trim().strip_prefix("0x").unwrap_or(content.trim()); u32::from_str_radix(trimmed, 16).ok() } let major = dev_major(dev); let minor = dev_minor(dev); let vendor_path = format!("/sys/dev/char/{major}:{minor}/device/vendor"); let device_path = format!("/sys/dev/char/{major}:{minor}/device/device"); let vendor_id = read_sysfs_hex_id(&vendor_path)?; let device_id = read_sysfs_hex_id(&device_path)?; log::info!( "Compositor GPU hint: vendor={:#06x}, device={:#06x} (from dev {major}:{minor})", vendor_id, device_id, ); Some(gpui_wgpu::CompositorGpuHint { vendor_id, device_id, }) } #[cfg(test)] mod tests { use super::*; use gpui::{Point, px}; #[test] fn test_is_within_click_distance() { let zero = Point::new(px(0.0), px(0.0)); assert!(is_within_click_distance(zero, Point::new(px(5.0), px(5.0)))); assert!(is_within_click_distance( zero, Point::new(px(-4.9), px(5.0)) )); assert!(is_within_click_distance( Point::new(px(3.0), px(2.0)), Point::new(px(-2.0), px(-2.0)) )); assert!(!is_within_click_distance( zero, Point::new(px(5.0), px(5.1)) ),); } }