pub mod mappings; pub use alacritty_terminal; mod pty_info; mod terminal_hyperlinks; pub mod terminal_settings; use alacritty_terminal::{ Term, event::{Event as AlacTermEvent, EventListener, Notify, WindowSize}, event_loop::{EventLoop, Msg, Notifier}, grid::{Dimensions, Grid, Row, Scroll as AlacScroll}, index::{Boundary, Column, Direction as AlacDirection, Line, Point as AlacPoint}, selection::{Selection, SelectionRange, SelectionType}, sync::FairMutex, term::{ Config, RenderableCursor, TermMode, cell::{Cell, Flags}, search::{Match, RegexIter, RegexSearch}, }, tty::{self}, vi_mode::{ViModeCursor, ViMotion}, vte::ansi::{ ClearMode, CursorStyle as AlacCursorStyle, Handler, NamedPrivateMode, PrivateMode, }, }; use anyhow::{Context as _, Result, bail}; use log::trace; use futures::{ FutureExt, channel::mpsc::{UnboundedReceiver, UnboundedSender, unbounded}, }; use itertools::Itertools as _; use mappings::mouse::{ alt_scroll, grid_point, grid_point_and_side, mouse_button_report, mouse_moved_report, scroll_report, }; use collections::{HashMap, VecDeque}; use futures::StreamExt; use pty_info::{ProcessIdGetter, PtyProcessInfo}; use serde::{Deserialize, Serialize}; use settings::Settings; use smol::channel::{Receiver, Sender}; use task::{HideStrategy, Shell, SpawnInTerminal}; use terminal_hyperlinks::RegexSearches; use terminal_settings::{AlternateScroll, CursorShape, TerminalSettings}; use theme::{ActiveTheme, Theme}; use urlencoding; use util::{paths::PathStyle, truncate_and_trailoff}; #[cfg(unix)] use std::os::unix::process::ExitStatusExt; use std::{ borrow::Cow, cmp::{self, min}, fmt::Display, ops::{Deref, RangeInclusive}, path::PathBuf, process::ExitStatus, sync::Arc, time::{Duration, Instant}, }; use thiserror::Error; use gpui::{ App, AppContext as _, BackgroundExecutor, Bounds, ClipboardItem, Context, EventEmitter, Hsla, Keystroke, Modifiers, MouseButton, MouseDownEvent, MouseMoveEvent, MouseUpEvent, Pixels, Point, Rgba, ScrollWheelEvent, Size, Task, TouchPhase, Window, actions, black, px, }; use crate::mappings::{colors::to_alac_rgb, keys::to_esc_str}; actions!( terminal, [ /// Clears the terminal screen. Clear, /// Copies selected text to the clipboard. Copy, /// Pastes from the clipboard. Paste, /// Shows the character palette for special characters. ShowCharacterPalette, /// Searches for text in the terminal. SearchTest, /// Scrolls up by one line. ScrollLineUp, /// Scrolls down by one line. ScrollLineDown, /// Scrolls up by one page. ScrollPageUp, /// Scrolls down by one page. ScrollPageDown, /// Scrolls up by half a page. ScrollHalfPageUp, /// Scrolls down by half a page. ScrollHalfPageDown, /// Scrolls to the top of the terminal buffer. ScrollToTop, /// Scrolls to the bottom of the terminal buffer. ScrollToBottom, /// Toggles vi mode in the terminal. ToggleViMode, /// Selects all text in the terminal. SelectAll, ] ); const DEBUG_TERMINAL_WIDTH: Pixels = px(500.); const DEBUG_TERMINAL_HEIGHT: Pixels = px(30.); const DEBUG_CELL_WIDTH: Pixels = px(5.); const DEBUG_LINE_HEIGHT: Pixels = px(5.); /// Inserts Zed-specific environment variables for terminal sessions. /// Used by both local terminals and remote terminals (via SSH). pub fn insert_zed_terminal_env( env: &mut HashMap, version: &impl std::fmt::Display, ) { env.insert("ZED_TERM".to_string(), "true".to_string()); env.insert("TERM_PROGRAM".to_string(), "zed".to_string()); env.insert("TERM".to_string(), "xterm-256color".to_string()); env.insert("COLORTERM".to_string(), "truecolor".to_string()); env.insert("TERM_PROGRAM_VERSION".to_string(), version.to_string()); } ///Upward flowing events, for changing the title and such #[derive(Clone, Debug, PartialEq, Eq)] pub enum Event { TitleChanged, BreadcrumbsChanged, CloseTerminal, Bell, Wakeup, BlinkChanged(bool), SelectionsChanged, NewNavigationTarget(Option), Open(MaybeNavigationTarget), } #[derive(Clone, Debug, PartialEq, Eq)] pub struct PathLikeTarget { /// File system path, absolute or relative, existing or not. /// Might have line and column number(s) attached as `file.rs:1:23` pub maybe_path: String, /// Current working directory of the terminal pub terminal_dir: Option, } /// A string inside terminal, potentially useful as a URI that can be opened. #[derive(Clone, Debug, PartialEq, Eq)] pub enum MaybeNavigationTarget { /// HTTP, git, etc. string determined by the `URL_REGEX` regex. Url(String), /// File system path, absolute or relative, existing or not. /// Might have line and column number(s) attached as `file.rs:1:23` PathLike(PathLikeTarget), } #[derive(Clone)] enum InternalEvent { Resize(TerminalBounds), Clear, // FocusNextMatch, Scroll(AlacScroll), ScrollToAlacPoint(AlacPoint), SetSelection(Option<(Selection, AlacPoint)>), UpdateSelection(Point), FindHyperlink(Point, bool), ProcessHyperlink((String, bool, Match), bool), // Whether keep selection when copy Copy(Option), // Vi mode events ToggleViMode, ViMotion(ViMotion), MoveViCursorToAlacPoint(AlacPoint), } ///A translation struct for Alacritty to communicate with us from their event loop #[derive(Clone)] pub struct ZedListener(pub UnboundedSender); impl EventListener for ZedListener { fn send_event(&self, event: AlacTermEvent) { self.0.unbounded_send(event).ok(); } } #[derive(Clone, Copy, Debug, PartialEq, Eq, Serialize, Deserialize)] pub struct TerminalBounds { pub cell_width: Pixels, pub line_height: Pixels, pub bounds: Bounds, } impl TerminalBounds { pub fn new(line_height: Pixels, cell_width: Pixels, bounds: Bounds) -> Self { TerminalBounds { cell_width, line_height, bounds, } } pub fn num_lines(&self) -> usize { (self.bounds.size.height / self.line_height).floor() as usize } pub fn num_columns(&self) -> usize { (self.bounds.size.width / self.cell_width).floor() as usize } pub fn height(&self) -> Pixels { self.bounds.size.height } pub fn width(&self) -> Pixels { self.bounds.size.width } pub fn cell_width(&self) -> Pixels { self.cell_width } pub fn line_height(&self) -> Pixels { self.line_height } } impl Default for TerminalBounds { fn default() -> Self { TerminalBounds::new( DEBUG_LINE_HEIGHT, DEBUG_CELL_WIDTH, Bounds { origin: Point::default(), size: Size { width: DEBUG_TERMINAL_WIDTH, height: DEBUG_TERMINAL_HEIGHT, }, }, ) } } impl From for WindowSize { fn from(val: TerminalBounds) -> Self { WindowSize { num_lines: val.num_lines() as u16, num_cols: val.num_columns() as u16, cell_width: f32::from(val.cell_width()) as u16, cell_height: f32::from(val.line_height()) as u16, } } } impl Dimensions for TerminalBounds { /// Note: this is supposed to be for the back buffer's length, /// but we exclusively use it to resize the terminal, which does not /// use this method. We still have to implement it for the trait though, /// hence, this comment. fn total_lines(&self) -> usize { self.screen_lines() } fn screen_lines(&self) -> usize { self.num_lines() } fn columns(&self) -> usize { self.num_columns() } } #[derive(Error, Debug)] pub struct TerminalError { pub directory: Option, pub program: Option, pub args: Option>, pub title_override: Option, pub source: std::io::Error, } impl TerminalError { pub fn fmt_directory(&self) -> String { self.directory .clone() .map(|path| { match path .into_os_string() .into_string() .map_err(|os_str| format!(" {}", os_str.to_string_lossy())) { Ok(s) => s, Err(s) => s, } }) .unwrap_or_else(|| "".to_string()) } pub fn fmt_shell(&self) -> String { if let Some(title_override) = &self.title_override { format!( "{} {} ({})", self.program.as_deref().unwrap_or(""), self.args.as_ref().into_iter().flatten().format(" "), title_override ) } else { format!( "{} {}", self.program.as_deref().unwrap_or(""), self.args.as_ref().into_iter().flatten().format(" ") ) } } } impl Display for TerminalError { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { let dir_string: String = self.fmt_directory(); let shell = self.fmt_shell(); write!( f, "Working directory: {} Shell command: `{}`, IOError: {}", dir_string, shell, self.source ) } } // https://github.com/alacritty/alacritty/blob/cb3a79dbf6472740daca8440d5166c1d4af5029e/extra/man/alacritty.5.scd?plain=1#L207-L213 const DEFAULT_SCROLL_HISTORY_LINES: usize = 10_000; pub const MAX_SCROLL_HISTORY_LINES: usize = 100_000; pub struct TerminalBuilder { terminal: Terminal, events_rx: UnboundedReceiver, } impl TerminalBuilder { pub fn new_display_only( cursor_shape: CursorShape, alternate_scroll: AlternateScroll, max_scroll_history_lines: Option, window_id: u64, background_executor: &BackgroundExecutor, path_style: PathStyle, ) -> Result { // Create a display-only terminal (no actual PTY). let default_cursor_style = AlacCursorStyle::from(cursor_shape); let scrolling_history = max_scroll_history_lines .unwrap_or(DEFAULT_SCROLL_HISTORY_LINES) .min(MAX_SCROLL_HISTORY_LINES); let config = Config { scrolling_history, default_cursor_style, ..Config::default() }; let (events_tx, events_rx) = unbounded(); let mut term = Term::new( config.clone(), &TerminalBounds::default(), ZedListener(events_tx), ); if let AlternateScroll::Off = alternate_scroll { term.unset_private_mode(PrivateMode::Named(NamedPrivateMode::AlternateScroll)); } let term = Arc::new(FairMutex::new(term)); let terminal = Terminal { task: None, terminal_type: TerminalType::DisplayOnly, completion_tx: None, term, term_config: config, title_override: None, events: VecDeque::with_capacity(10), last_content: Default::default(), last_mouse: None, matches: Vec::new(), selection_head: None, breadcrumb_text: String::new(), scroll_px: px(0.), next_link_id: 0, selection_phase: SelectionPhase::Ended, hyperlink_regex_searches: RegexSearches::default(), vi_mode_enabled: false, is_remote_terminal: false, last_mouse_move_time: Instant::now(), last_hyperlink_search_position: None, mouse_down_hyperlink: None, #[cfg(windows)] shell_program: None, activation_script: Vec::new(), template: CopyTemplate { shell: Shell::System, env: HashMap::default(), cursor_shape, alternate_scroll, max_scroll_history_lines, path_hyperlink_regexes: Vec::default(), path_hyperlink_timeout_ms: 0, window_id, }, child_exited: None, event_loop_task: Task::ready(Ok(())), background_executor: background_executor.clone(), path_style, #[cfg(any(test, feature = "test-support"))] input_log: Vec::new(), }; Ok(TerminalBuilder { terminal, events_rx, }) } pub fn new( working_directory: Option, task: Option, shell: Shell, mut env: HashMap, cursor_shape: CursorShape, alternate_scroll: AlternateScroll, max_scroll_history_lines: Option, path_hyperlink_regexes: Vec, path_hyperlink_timeout_ms: u64, is_remote_terminal: bool, window_id: u64, completion_tx: Option>>, cx: &App, activation_script: Vec, path_style: PathStyle, ) -> Task> { let version = release_channel::AppVersion::global(cx); let background_executor = cx.background_executor().clone(); let fut = async move { // Remove SHLVL so the spawned shell initializes it to 1, matching // the behavior of standalone terminal emulators like iTerm2/Kitty/Alacritty. env.remove("SHLVL"); // If the parent environment doesn't have a locale set // (As is the case when launched from a .app on MacOS), // and the Project doesn't have a locale set, then // set a fallback for our child environment to use. if std::env::var("LANG").is_err() { env.entry("LANG".to_string()) .or_insert_with(|| "en_US.UTF-8".to_string()); } insert_zed_terminal_env(&mut env, &version); #[derive(Default)] struct ShellParams { program: String, args: Option>, title_override: Option, } impl ShellParams { fn new( program: String, args: Option>, title_override: Option, ) -> Self { log::debug!("Using {program} as shell"); Self { program, args, title_override, } } } let shell_params = match shell.clone() { Shell::System => { if cfg!(windows) { Some(ShellParams::new( util::shell::get_windows_system_shell(), None, None, )) } else { None } } Shell::Program(program) => Some(ShellParams::new(program, None, None)), Shell::WithArguments { program, args, title_override, } => Some(ShellParams::new(program, Some(args), title_override)), }; let terminal_title_override = shell_params.as_ref().and_then(|e| e.title_override.clone()); #[cfg(windows)] let shell_program = shell_params.as_ref().map(|params| { use util::ResultExt; Self::resolve_path(¶ms.program) .log_err() .unwrap_or(params.program.clone()) }); // Note: when remoting, this shell_kind will scrutinize `ssh` or // `wsl.exe` as a shell and fall back to posix or powershell based on // the compilation target. This is fine right now due to the restricted // way we use the return value, but would become incorrect if we // supported remoting into windows. let shell_kind = shell.shell_kind(cfg!(windows)); let pty_options = { let alac_shell = shell_params.as_ref().map(|params| { alacritty_terminal::tty::Shell::new( params.program.clone(), params.args.clone().unwrap_or_default(), ) }); alacritty_terminal::tty::Options { shell: alac_shell, working_directory: working_directory.clone(), drain_on_exit: true, env: env.clone().into_iter().collect(), #[cfg(windows)] escape_args: shell_kind.tty_escape_args(), } }; let default_cursor_style = AlacCursorStyle::from(cursor_shape); let scrolling_history = if task.is_some() { // Tasks like `cargo build --all` may produce a lot of output, ergo allow maximum scrolling. // After the task finishes, we do not allow appending to that terminal, so small tasks output should not // cause excessive memory usage over time. MAX_SCROLL_HISTORY_LINES } else { max_scroll_history_lines .unwrap_or(DEFAULT_SCROLL_HISTORY_LINES) .min(MAX_SCROLL_HISTORY_LINES) }; let config = Config { scrolling_history, default_cursor_style, ..Config::default() }; //Setup the pty... let pty = match tty::new(&pty_options, TerminalBounds::default().into(), window_id) { Ok(pty) => pty, Err(error) => { bail!(TerminalError { directory: working_directory, program: shell_params.as_ref().map(|params| params.program.clone()), args: shell_params.as_ref().and_then(|params| params.args.clone()), title_override: terminal_title_override, source: error, }); } }; //Spawn a task so the Alacritty EventLoop can communicate with us //TODO: Remove with a bounded sender which can be dispatched on &self let (events_tx, events_rx) = unbounded(); //Set up the terminal... let mut term = Term::new( config.clone(), &TerminalBounds::default(), ZedListener(events_tx.clone()), ); //Alacritty defaults to alternate scrolling being on, so we just need to turn it off. if let AlternateScroll::Off = alternate_scroll { term.unset_private_mode(PrivateMode::Named(NamedPrivateMode::AlternateScroll)); } let term = Arc::new(FairMutex::new(term)); let pty_info = PtyProcessInfo::new(&pty); //And connect them together let event_loop = EventLoop::new( term.clone(), ZedListener(events_tx), pty, pty_options.drain_on_exit, false, ) .context("failed to create event loop")?; let pty_tx = event_loop.channel(); let _io_thread = event_loop.spawn(); // DANGER let no_task = task.is_none(); let terminal = Terminal { task, terminal_type: TerminalType::Pty { pty_tx: Notifier(pty_tx), info: Arc::new(pty_info), }, completion_tx, term, term_config: config, title_override: terminal_title_override, events: VecDeque::with_capacity(10), //Should never get this high. last_content: Default::default(), last_mouse: None, matches: Vec::new(), selection_head: None, breadcrumb_text: String::new(), scroll_px: px(0.), next_link_id: 0, selection_phase: SelectionPhase::Ended, hyperlink_regex_searches: RegexSearches::new( &path_hyperlink_regexes, path_hyperlink_timeout_ms, ), vi_mode_enabled: false, is_remote_terminal, last_mouse_move_time: Instant::now(), last_hyperlink_search_position: None, mouse_down_hyperlink: None, #[cfg(windows)] shell_program, activation_script: activation_script.clone(), template: CopyTemplate { shell, env, cursor_shape, alternate_scroll, max_scroll_history_lines, path_hyperlink_regexes, path_hyperlink_timeout_ms, window_id, }, child_exited: None, event_loop_task: Task::ready(Ok(())), background_executor, path_style, #[cfg(any(test, feature = "test-support"))] input_log: Vec::new(), }; if !activation_script.is_empty() && no_task { for activation_script in activation_script { terminal.write_to_pty(activation_script.into_bytes()); // Simulate enter key press // NOTE(PowerShell): using `\r\n` will put PowerShell in a continuation mode (infamous >> character) // and generally mess up the rendering. terminal.write_to_pty(b"\x0d"); } // In order to clear the screen at this point, we have two options: // 1. We can send a shell-specific command such as "clear" or "cls" // 2. We can "echo" a marker message that we will then catch when handling a Wakeup event // and clear the screen using `terminal.clear()` method // We cannot issue a `terminal.clear()` command at this point as alacritty is evented // and while we have sent the activation script to the pty, it will be executed asynchronously. // Therefore, we somehow need to wait for the activation script to finish executing before we // can proceed with clearing the screen. terminal.write_to_pty(shell_kind.clear_screen_command().as_bytes()); // Simulate enter key press terminal.write_to_pty(b"\x0d"); } Ok(TerminalBuilder { terminal, events_rx, }) }; // the thread we spawn things on has an effect on signal handling if !cfg!(target_os = "windows") { cx.spawn(async move |_| fut.await) } else { cx.background_spawn(fut) } } pub fn subscribe(mut self, cx: &Context) -> Terminal { //Event loop self.terminal.event_loop_task = cx.spawn(async move |terminal, cx| { while let Some(event) = self.events_rx.next().await { terminal.update(cx, |terminal, cx| { //Process the first event immediately for lowered latency terminal.process_event(event, cx); })?; 'outer: loop { let mut events = Vec::new(); #[cfg(any(test, feature = "test-support"))] let mut timer = cx.background_executor().simulate_random_delay().fuse(); #[cfg(not(any(test, feature = "test-support")))] let mut timer = cx .background_executor() .timer(std::time::Duration::from_millis(4)) .fuse(); let mut wakeup = false; loop { futures::select_biased! { _ = timer => break, event = self.events_rx.next() => { if let Some(event) = event { if matches!(event, AlacTermEvent::Wakeup) { wakeup = true; } else { events.push(event); } if events.len() > 100 { break; } } else { break; } }, } } if events.is_empty() && !wakeup { smol::future::yield_now().await; break 'outer; } terminal.update(cx, |this, cx| { if wakeup { this.process_event(AlacTermEvent::Wakeup, cx); } for event in events { this.process_event(event, cx); } })?; smol::future::yield_now().await; } } anyhow::Ok(()) }); self.terminal } #[cfg(windows)] fn resolve_path(path: &str) -> Result { use windows::Win32::Storage::FileSystem::SearchPathW; use windows::core::HSTRING; let path = if path.starts_with(r"\\?\") || !path.contains(&['/', '\\']) { path.to_string() } else { r"\\?\".to_string() + path }; let required_length = unsafe { SearchPathW(None, &HSTRING::from(&path), None, None, None) }; let mut buf = vec![0u16; required_length as usize]; let size = unsafe { SearchPathW(None, &HSTRING::from(&path), None, Some(&mut buf), None) }; Ok(String::from_utf16(&buf[..size as usize])?) } } #[derive(Debug, Clone, Deserialize, Serialize)] pub struct IndexedCell { pub point: AlacPoint, pub cell: Cell, } impl Deref for IndexedCell { type Target = Cell; #[inline] fn deref(&self) -> &Cell { &self.cell } } // TODO: Un-pub #[derive(Clone)] pub struct TerminalContent { pub cells: Vec, pub mode: TermMode, pub display_offset: usize, pub selection_text: Option, pub selection: Option, pub cursor: RenderableCursor, pub cursor_char: char, pub terminal_bounds: TerminalBounds, pub last_hovered_word: Option, pub scrolled_to_top: bool, pub scrolled_to_bottom: bool, } #[derive(Debug, Clone, Eq, PartialEq)] pub struct HoveredWord { pub word: String, pub word_match: RangeInclusive, pub id: usize, } impl Default for TerminalContent { fn default() -> Self { TerminalContent { cells: Default::default(), mode: Default::default(), display_offset: Default::default(), selection_text: Default::default(), selection: Default::default(), cursor: RenderableCursor { shape: alacritty_terminal::vte::ansi::CursorShape::Block, point: AlacPoint::new(Line(0), Column(0)), }, cursor_char: Default::default(), terminal_bounds: Default::default(), last_hovered_word: None, scrolled_to_top: false, scrolled_to_bottom: false, } } } #[derive(PartialEq, Eq)] pub enum SelectionPhase { Selecting, Ended, } enum TerminalType { Pty { pty_tx: Notifier, info: Arc, }, DisplayOnly, } pub struct Terminal { terminal_type: TerminalType, completion_tx: Option>>, term: Arc>>, term_config: Config, events: VecDeque, /// This is only used for mouse mode cell change detection last_mouse: Option<(AlacPoint, AlacDirection)>, pub matches: Vec>, pub last_content: TerminalContent, pub selection_head: Option, pub breadcrumb_text: String, title_override: Option, scroll_px: Pixels, next_link_id: usize, selection_phase: SelectionPhase, hyperlink_regex_searches: RegexSearches, task: Option, vi_mode_enabled: bool, is_remote_terminal: bool, last_mouse_move_time: Instant, last_hyperlink_search_position: Option>, mouse_down_hyperlink: Option<(String, bool, Match)>, #[cfg(windows)] shell_program: Option, template: CopyTemplate, activation_script: Vec, child_exited: Option, event_loop_task: Task>, background_executor: BackgroundExecutor, path_style: PathStyle, #[cfg(any(test, feature = "test-support"))] input_log: Vec>, } struct CopyTemplate { shell: Shell, env: HashMap, cursor_shape: CursorShape, alternate_scroll: AlternateScroll, max_scroll_history_lines: Option, path_hyperlink_regexes: Vec, path_hyperlink_timeout_ms: u64, window_id: u64, } #[derive(Debug)] pub struct TaskState { pub status: TaskStatus, pub completion_rx: Receiver>, pub spawned_task: SpawnInTerminal, } /// A status of the current terminal tab's task. #[derive(Debug, Clone, Copy, PartialEq, Eq)] pub enum TaskStatus { /// The task had been started, but got cancelled or somehow otherwise it did not /// report its exit code before the terminal event loop was shut down. Unknown, /// The task is started and running currently. Running, /// After the start, the task stopped running and reported its error code back. Completed { success: bool }, } impl TaskStatus { fn register_terminal_exit(&mut self) { if self == &Self::Running { *self = Self::Unknown; } } fn register_task_exit(&mut self, error_code: i32) { *self = TaskStatus::Completed { success: error_code == 0, }; } } const FIND_HYPERLINK_THROTTLE_PX: Pixels = px(5.0); impl Terminal { fn process_event(&mut self, event: AlacTermEvent, cx: &mut Context) { match event { AlacTermEvent::Title(title) => { // ignore default shell program title change as windows always sends those events // and it would end up showing the shell executable path in breadcrumbs #[cfg(windows)] { if self .shell_program .as_ref() .map(|e| *e == title) .unwrap_or(false) { return; } } self.breadcrumb_text = title; cx.emit(Event::BreadcrumbsChanged); } AlacTermEvent::ResetTitle => { self.breadcrumb_text = String::new(); cx.emit(Event::BreadcrumbsChanged); } AlacTermEvent::ClipboardStore(_, data) => { cx.write_to_clipboard(ClipboardItem::new_string(data)) } AlacTermEvent::ClipboardLoad(_, format) => { self.write_to_pty( match &cx.read_from_clipboard().and_then(|item| item.text()) { // The terminal only supports pasting strings, not images. Some(text) => format(text), _ => format(""), } .into_bytes(), ) } AlacTermEvent::PtyWrite(out) => self.write_to_pty(out.into_bytes()), AlacTermEvent::TextAreaSizeRequest(format) => { self.write_to_pty(format(self.last_content.terminal_bounds.into()).into_bytes()) } AlacTermEvent::CursorBlinkingChange => { let terminal = self.term.lock(); let blinking = terminal.cursor_style().blinking; cx.emit(Event::BlinkChanged(blinking)); } AlacTermEvent::Bell => { cx.emit(Event::Bell); } AlacTermEvent::Exit => self.register_task_finished(Some(9), cx), AlacTermEvent::MouseCursorDirty => { //NOOP, Handled in render } AlacTermEvent::Wakeup => { cx.emit(Event::Wakeup); if let TerminalType::Pty { info, .. } = &self.terminal_type { info.emit_title_changed_if_changed(cx); } } AlacTermEvent::ColorRequest(index, format) => { // It's important that the color request is processed here to retain relative order // with other PTY writes. Otherwise applications might witness out-of-order // responses to requests. For example: An application sending `OSC 11 ; ? ST` // (color request) followed by `CSI c` (request device attributes) would receive // the response to `CSI c` first. // Instead of locking, we could store the colors in `self.last_content`. But then // we might respond with out of date value if a "set color" sequence is immediately // followed by a color request sequence. let color = self.term.lock().colors()[index] .unwrap_or_else(|| to_alac_rgb(get_color_at_index(index, cx.theme().as_ref()))); self.write_to_pty(format(color).into_bytes()); } AlacTermEvent::ChildExit(raw_status) => { self.register_task_finished(Some(raw_status), cx); } } } pub fn selection_started(&self) -> bool { self.selection_phase == SelectionPhase::Selecting } fn process_terminal_event( &mut self, event: &InternalEvent, term: &mut Term, window: &mut Window, cx: &mut Context, ) { match event { &InternalEvent::Resize(mut new_bounds) => { trace!("Resizing: new_bounds={new_bounds:?}"); new_bounds.bounds.size.height = cmp::max(new_bounds.line_height, new_bounds.height()); new_bounds.bounds.size.width = cmp::max(new_bounds.cell_width, new_bounds.width()); self.last_content.terminal_bounds = new_bounds; if let TerminalType::Pty { pty_tx, .. } = &self.terminal_type { pty_tx.0.send(Msg::Resize(new_bounds.into())).ok(); } term.resize(new_bounds); // If there are matches we need to emit a wake up event to // invalidate the matches and recalculate their locations // in the new terminal layout if !self.matches.is_empty() { cx.emit(Event::Wakeup); } } InternalEvent::Clear => { trace!("Clearing"); // Clear back buffer term.clear_screen(ClearMode::Saved); let cursor = term.grid().cursor.point; // Clear the lines above term.grid_mut().reset_region(..cursor.line); // Copy the current line up let line = term.grid()[cursor.line][..Column(term.grid().columns())] .iter() .cloned() .enumerate() .collect::>(); for (i, cell) in line { term.grid_mut()[Line(0)][Column(i)] = cell; } // Reset the cursor term.grid_mut().cursor.point = AlacPoint::new(Line(0), term.grid_mut().cursor.point.column); let new_cursor = term.grid().cursor.point; // Clear the lines below the new cursor if (new_cursor.line.0 as usize) < term.screen_lines() - 1 { term.grid_mut().reset_region((new_cursor.line + 1)..); } cx.emit(Event::Wakeup); } InternalEvent::Scroll(scroll) => { trace!("Scrolling: scroll={scroll:?}"); term.scroll_display(*scroll); self.refresh_hovered_word(window); if self.vi_mode_enabled { match *scroll { AlacScroll::Delta(delta) => { term.vi_mode_cursor = term.vi_mode_cursor.scroll(term, delta); } AlacScroll::PageUp => { let lines = term.screen_lines() as i32; term.vi_mode_cursor = term.vi_mode_cursor.scroll(term, lines); } AlacScroll::PageDown => { let lines = -(term.screen_lines() as i32); term.vi_mode_cursor = term.vi_mode_cursor.scroll(term, lines); } AlacScroll::Top => { let point = AlacPoint::new(term.topmost_line(), Column(0)); term.vi_mode_cursor = ViModeCursor::new(point); } AlacScroll::Bottom => { let point = AlacPoint::new(term.bottommost_line(), Column(0)); term.vi_mode_cursor = ViModeCursor::new(point); } } if let Some(mut selection) = term.selection.take() { let point = term.vi_mode_cursor.point; selection.update(point, AlacDirection::Right); term.selection = Some(selection); #[cfg(any(target_os = "linux", target_os = "freebsd"))] if let Some(selection_text) = term.selection_to_string() { cx.write_to_primary(ClipboardItem::new_string(selection_text)); } self.selection_head = Some(point); cx.emit(Event::SelectionsChanged) } } } InternalEvent::SetSelection(selection) => { trace!("Setting selection: selection={selection:?}"); term.selection = selection.as_ref().map(|(sel, _)| sel.clone()); #[cfg(any(target_os = "linux", target_os = "freebsd"))] if let Some(selection_text) = term.selection_to_string() { cx.write_to_primary(ClipboardItem::new_string(selection_text)); } if let Some((_, head)) = selection { self.selection_head = Some(*head); } cx.emit(Event::SelectionsChanged) } InternalEvent::UpdateSelection(position) => { trace!("Updating selection: position={position:?}"); if let Some(mut selection) = term.selection.take() { let (point, side) = grid_point_and_side( *position, self.last_content.terminal_bounds, term.grid().display_offset(), ); selection.update(point, side); term.selection = Some(selection); #[cfg(any(target_os = "linux", target_os = "freebsd"))] if let Some(selection_text) = term.selection_to_string() { cx.write_to_primary(ClipboardItem::new_string(selection_text)); } self.selection_head = Some(point); cx.emit(Event::SelectionsChanged) } } InternalEvent::Copy(keep_selection) => { trace!("Copying selection: keep_selection={keep_selection:?}"); if let Some(txt) = term.selection_to_string() { cx.write_to_clipboard(ClipboardItem::new_string(txt)); if !keep_selection.unwrap_or_else(|| { let settings = TerminalSettings::get_global(cx); settings.keep_selection_on_copy }) { self.events.push_back(InternalEvent::SetSelection(None)); } } } InternalEvent::ScrollToAlacPoint(point) => { trace!("Scrolling to point: point={point:?}"); term.scroll_to_point(*point); self.refresh_hovered_word(window); } InternalEvent::MoveViCursorToAlacPoint(point) => { trace!("Move vi cursor to point: point={point:?}"); term.vi_goto_point(*point); self.refresh_hovered_word(window); } InternalEvent::ToggleViMode => { trace!("Toggling vi mode"); self.vi_mode_enabled = !self.vi_mode_enabled; term.toggle_vi_mode(); } InternalEvent::ViMotion(motion) => { trace!("Performing vi motion: motion={motion:?}"); term.vi_motion(*motion); } InternalEvent::FindHyperlink(position, open) => { trace!("Finding hyperlink at position: position={position:?}, open={open:?}"); let point = grid_point( *position, self.last_content.terminal_bounds, term.grid().display_offset(), ) .grid_clamp(term, Boundary::Grid); match terminal_hyperlinks::find_from_grid_point( term, point, &mut self.hyperlink_regex_searches, self.path_style, ) { Some(hyperlink) => { self.process_hyperlink(hyperlink, *open, cx); } None => { self.last_content.last_hovered_word = None; cx.emit(Event::NewNavigationTarget(None)); } } } InternalEvent::ProcessHyperlink(hyperlink, open) => { self.process_hyperlink(hyperlink.clone(), *open, cx); } } } fn process_hyperlink( &mut self, hyperlink: (String, bool, Match), open: bool, cx: &mut Context, ) { let (maybe_url_or_path, is_url, url_match) = hyperlink; let prev_hovered_word = self.last_content.last_hovered_word.take(); let target = if is_url { if let Some(path) = maybe_url_or_path.strip_prefix("file://") { let decoded_path = urlencoding::decode(path) .map(|decoded| decoded.into_owned()) .unwrap_or(path.to_owned()); MaybeNavigationTarget::PathLike(PathLikeTarget { maybe_path: decoded_path, terminal_dir: self.working_directory(), }) } else { MaybeNavigationTarget::Url(maybe_url_or_path.clone()) } } else { MaybeNavigationTarget::PathLike(PathLikeTarget { maybe_path: maybe_url_or_path.clone(), terminal_dir: self.working_directory(), }) }; if open { cx.emit(Event::Open(target)); } else { self.update_selected_word(prev_hovered_word, url_match, maybe_url_or_path, target, cx); } } fn update_selected_word( &mut self, prev_word: Option, word_match: RangeInclusive, word: String, navigation_target: MaybeNavigationTarget, cx: &mut Context, ) { if let Some(prev_word) = prev_word && prev_word.word == word && prev_word.word_match == word_match { self.last_content.last_hovered_word = Some(HoveredWord { word, word_match, id: prev_word.id, }); return; } self.last_content.last_hovered_word = Some(HoveredWord { word, word_match, id: self.next_link_id(), }); cx.emit(Event::NewNavigationTarget(Some(navigation_target))); cx.notify() } fn next_link_id(&mut self) -> usize { let res = self.next_link_id; self.next_link_id = self.next_link_id.wrapping_add(1); res } pub fn last_content(&self) -> &TerminalContent { &self.last_content } pub fn set_cursor_shape(&mut self, cursor_shape: CursorShape) { self.term_config.default_cursor_style = cursor_shape.into(); self.term.lock().set_options(self.term_config.clone()); } pub fn write_output(&mut self, bytes: &[u8], cx: &mut Context) { // Inject bytes directly into the terminal emulator and refresh the UI. // This bypasses the PTY/event loop for display-only terminals. // // We first convert LF to CRLF, to get the expected line wrapping in Alacritty. // When output comes from piped commands (not a PTY) such as codex-acp, and that // output only contains LF (\n) without a CR (\r) after it, such as the output // of the `ls` command when running outside a PTY, Alacritty moves the cursor // cursor down a line but does not move it back to the initial column. This makes // the rendered output look ridiculous. To prevent this, we insert a CR (\r) before // each LF that didn't already have one. (Alacritty doesn't have a setting for this.) let mut converted = Vec::with_capacity(bytes.len()); let mut prev_byte = 0u8; for &byte in bytes { if byte == b'\n' && prev_byte != b'\r' { converted.push(b'\r'); } converted.push(byte); prev_byte = byte; } let mut processor = alacritty_terminal::vte::ansi::Processor::< alacritty_terminal::vte::ansi::StdSyncHandler, >::new(); { let mut term = self.term.lock(); processor.advance(&mut *term, &converted); } cx.emit(Event::Wakeup); } pub fn total_lines(&self) -> usize { self.term.lock_unfair().total_lines() } pub fn viewport_lines(&self) -> usize { self.term.lock_unfair().screen_lines() } //To test: //- Activate match on terminal (scrolling and selection) //- Editor search snapping behavior pub fn activate_match(&mut self, index: usize) { if let Some(search_match) = self.matches.get(index).cloned() { self.set_selection(Some((make_selection(&search_match), *search_match.end()))); if self.vi_mode_enabled { self.events .push_back(InternalEvent::MoveViCursorToAlacPoint(*search_match.end())); } else { self.events .push_back(InternalEvent::ScrollToAlacPoint(*search_match.start())); } } } pub fn select_matches(&mut self, matches: &[RangeInclusive]) { let matches_to_select = self .matches .iter() .filter(|self_match| matches.contains(self_match)) .cloned() .collect::>(); for match_to_select in matches_to_select { self.set_selection(Some(( make_selection(&match_to_select), *match_to_select.end(), ))); } } pub fn select_all(&mut self) { let term = self.term.lock(); let start = AlacPoint::new(term.topmost_line(), Column(0)); let end = AlacPoint::new(term.bottommost_line(), term.last_column()); drop(term); self.set_selection(Some((make_selection(&(start..=end)), end))); } fn set_selection(&mut self, selection: Option<(Selection, AlacPoint)>) { self.events .push_back(InternalEvent::SetSelection(selection)); } pub fn copy(&mut self, keep_selection: Option) { self.events.push_back(InternalEvent::Copy(keep_selection)); } pub fn clear(&mut self) { self.events.push_back(InternalEvent::Clear) } pub fn scroll_line_up(&mut self) { self.events .push_back(InternalEvent::Scroll(AlacScroll::Delta(1))); } pub fn scroll_up_by(&mut self, lines: usize) { self.events .push_back(InternalEvent::Scroll(AlacScroll::Delta(lines as i32))); } pub fn scroll_line_down(&mut self) { self.events .push_back(InternalEvent::Scroll(AlacScroll::Delta(-1))); } pub fn scroll_down_by(&mut self, lines: usize) { self.events .push_back(InternalEvent::Scroll(AlacScroll::Delta(-(lines as i32)))); } pub fn scroll_page_up(&mut self) { self.events .push_back(InternalEvent::Scroll(AlacScroll::PageUp)); } pub fn scroll_page_down(&mut self) { self.events .push_back(InternalEvent::Scroll(AlacScroll::PageDown)); } pub fn scroll_to_top(&mut self) { self.events .push_back(InternalEvent::Scroll(AlacScroll::Top)); } pub fn scroll_to_bottom(&mut self) { self.events .push_back(InternalEvent::Scroll(AlacScroll::Bottom)); } pub fn scrolled_to_top(&self) -> bool { self.last_content.scrolled_to_top } pub fn scrolled_to_bottom(&self) -> bool { self.last_content.scrolled_to_bottom } ///Resize the terminal and the PTY. pub fn set_size(&mut self, new_bounds: TerminalBounds) { if self.last_content.terminal_bounds != new_bounds { self.events.push_back(InternalEvent::Resize(new_bounds)) } } /// Write the Input payload to the PTY, if applicable. /// (This is a no-op for display-only terminals.) fn write_to_pty(&self, input: impl Into>) { if let TerminalType::Pty { pty_tx, .. } = &self.terminal_type { let input = input.into(); if log::log_enabled!(log::Level::Debug) { if let Ok(str) = str::from_utf8(&input) { log::debug!("Writing to PTY: {:?}", str); } else { log::debug!("Writing to PTY: {:?}", input); } } pty_tx.notify(input); } } pub fn input(&mut self, input: impl Into>) { self.events .push_back(InternalEvent::Scroll(AlacScroll::Bottom)); self.events.push_back(InternalEvent::SetSelection(None)); let input = input.into(); #[cfg(any(test, feature = "test-support"))] self.input_log.push(input.to_vec()); self.write_to_pty(input); } #[cfg(any(test, feature = "test-support"))] pub fn take_input_log(&mut self) -> Vec> { std::mem::take(&mut self.input_log) } pub fn toggle_vi_mode(&mut self) { self.events.push_back(InternalEvent::ToggleViMode); } pub fn vi_motion(&mut self, keystroke: &Keystroke) { if !self.vi_mode_enabled { return; } let key: Cow<'_, str> = if keystroke.modifiers.shift { Cow::Owned(keystroke.key.to_uppercase()) } else { Cow::Borrowed(keystroke.key.as_str()) }; let motion: Option = match key.as_ref() { "h" | "left" => Some(ViMotion::Left), "j" | "down" => Some(ViMotion::Down), "k" | "up" => Some(ViMotion::Up), "l" | "right" => Some(ViMotion::Right), "w" => Some(ViMotion::WordRight), "b" if !keystroke.modifiers.control => Some(ViMotion::WordLeft), "e" => Some(ViMotion::WordRightEnd), "%" => Some(ViMotion::Bracket), "$" => Some(ViMotion::Last), "0" => Some(ViMotion::First), "^" => Some(ViMotion::FirstOccupied), "H" => Some(ViMotion::High), "M" => Some(ViMotion::Middle), "L" => Some(ViMotion::Low), _ => None, }; if let Some(motion) = motion { let cursor = self.last_content.cursor.point; let cursor_pos = Point { x: cursor.column.0 as f32 * self.last_content.terminal_bounds.cell_width, y: cursor.line.0 as f32 * self.last_content.terminal_bounds.line_height, }; self.events .push_back(InternalEvent::UpdateSelection(cursor_pos)); self.events.push_back(InternalEvent::ViMotion(motion)); return; } let scroll_motion = match key.as_ref() { "g" => Some(AlacScroll::Top), "G" => Some(AlacScroll::Bottom), "b" if keystroke.modifiers.control => Some(AlacScroll::PageUp), "f" if keystroke.modifiers.control => Some(AlacScroll::PageDown), "d" if keystroke.modifiers.control => { let amount = self.last_content.terminal_bounds.line_height().to_f64() as i32 / 2; Some(AlacScroll::Delta(-amount)) } "u" if keystroke.modifiers.control => { let amount = self.last_content.terminal_bounds.line_height().to_f64() as i32 / 2; Some(AlacScroll::Delta(amount)) } _ => None, }; if let Some(scroll_motion) = scroll_motion { self.events.push_back(InternalEvent::Scroll(scroll_motion)); return; } match key.as_ref() { "v" => { let point = self.last_content.cursor.point; let selection_type = SelectionType::Simple; let side = AlacDirection::Right; let selection = Selection::new(selection_type, point, side); self.events .push_back(InternalEvent::SetSelection(Some((selection, point)))); } "escape" => { self.events.push_back(InternalEvent::SetSelection(None)); } "y" => { self.copy(Some(false)); } "i" => { self.scroll_to_bottom(); self.toggle_vi_mode(); } _ => {} } } pub fn try_keystroke(&mut self, keystroke: &Keystroke, option_as_meta: bool) -> bool { if self.vi_mode_enabled { self.vi_motion(keystroke); return true; } // Keep default terminal behavior let esc = to_esc_str(keystroke, &self.last_content.mode, option_as_meta); if let Some(esc) = esc { match esc { Cow::Borrowed(string) => self.input(string.as_bytes()), Cow::Owned(string) => self.input(string.into_bytes()), }; true } else { false } } pub fn try_modifiers_change( &mut self, modifiers: &Modifiers, window: &Window, cx: &mut Context, ) { if self .last_content .terminal_bounds .bounds .contains(&window.mouse_position()) && modifiers.secondary() { self.refresh_hovered_word(window); } cx.notify(); } ///Paste text into the terminal pub fn paste(&mut self, text: &str) { let paste_text = if self.last_content.mode.contains(TermMode::BRACKETED_PASTE) { format!("{}{}{}", "\x1b[200~", text.replace('\x1b', ""), "\x1b[201~") } else { text.replace("\r\n", "\r").replace('\n', "\r") }; self.input(paste_text.into_bytes()); } pub fn sync(&mut self, window: &mut Window, cx: &mut Context) { let term = self.term.clone(); let mut terminal = term.lock_unfair(); //Note that the ordering of events matters for event processing while let Some(e) = self.events.pop_front() { self.process_terminal_event(&e, &mut terminal, window, cx) } self.last_content = Self::make_content(&terminal, &self.last_content); } fn make_content(term: &Term, last_content: &TerminalContent) -> TerminalContent { let content = term.renderable_content(); // Pre-allocate with estimated size to reduce reallocations let estimated_size = content.display_iter.size_hint().0; let mut cells = Vec::with_capacity(estimated_size); cells.extend(content.display_iter.map(|ic| IndexedCell { point: ic.point, cell: ic.cell.clone(), })); let selection_text = if content.selection.is_some() { term.selection_to_string() } else { None }; TerminalContent { cells, mode: content.mode, display_offset: content.display_offset, selection_text, selection: content.selection, cursor: content.cursor, cursor_char: term.grid()[content.cursor.point].c, terminal_bounds: last_content.terminal_bounds, last_hovered_word: last_content.last_hovered_word.clone(), scrolled_to_top: content.display_offset == term.history_size(), scrolled_to_bottom: content.display_offset == 0, } } pub fn get_content(&self) -> String { let term = self.term.lock_unfair(); let start = AlacPoint::new(term.topmost_line(), Column(0)); let end = AlacPoint::new(term.bottommost_line(), term.last_column()); term.bounds_to_string(start, end) } pub fn last_n_non_empty_lines(&self, n: usize) -> Vec { let term = self.term.clone(); let terminal = term.lock_unfair(); let grid = terminal.grid(); let mut lines = Vec::new(); let mut current_line = grid.bottommost_line().0; let topmost_line = grid.topmost_line().0; while current_line >= topmost_line && lines.len() < n { let logical_line_start = self.find_logical_line_start(grid, current_line, topmost_line); let logical_line = self.construct_logical_line(grid, logical_line_start, current_line); if let Some(line) = self.process_line(logical_line) { lines.push(line); } // Move to the line above the start of the current logical line current_line = logical_line_start - 1; } lines.reverse(); lines } fn find_logical_line_start(&self, grid: &Grid, current: i32, topmost: i32) -> i32 { let mut line_start = current; while line_start > topmost { let prev_line = Line(line_start - 1); let last_cell = &grid[prev_line][Column(grid.columns() - 1)]; if !last_cell.flags.contains(Flags::WRAPLINE) { break; } line_start -= 1; } line_start } fn construct_logical_line(&self, grid: &Grid, start: i32, end: i32) -> String { let mut logical_line = String::new(); for row in start..=end { let grid_row = &grid[Line(row)]; logical_line.push_str(&row_to_string(grid_row)); } logical_line } fn process_line(&self, line: String) -> Option { let trimmed = line.trim_end().to_string(); if !trimmed.is_empty() { Some(trimmed) } else { None } } pub fn focus_in(&self) { if self.last_content.mode.contains(TermMode::FOCUS_IN_OUT) { self.write_to_pty("\x1b[I".as_bytes()); } } pub fn focus_out(&mut self) { if self.last_content.mode.contains(TermMode::FOCUS_IN_OUT) { self.write_to_pty("\x1b[O".as_bytes()); } } pub fn mouse_changed(&mut self, point: AlacPoint, side: AlacDirection) -> bool { match self.last_mouse { Some((old_point, old_side)) => { if old_point == point && old_side == side { false } else { self.last_mouse = Some((point, side)); true } } None => { self.last_mouse = Some((point, side)); true } } } pub fn mouse_mode(&self, shift: bool) -> bool { self.last_content.mode.intersects(TermMode::MOUSE_MODE) && !shift } pub fn mouse_move(&mut self, e: &MouseMoveEvent, cx: &mut Context) { let position = e.position - self.last_content.terminal_bounds.bounds.origin; if self.mouse_mode(e.modifiers.shift) { let (point, side) = grid_point_and_side( position, self.last_content.terminal_bounds, self.last_content.display_offset, ); if self.mouse_changed(point, side) && let Some(bytes) = mouse_moved_report(point, e.pressed_button, e.modifiers, self.last_content.mode) { self.write_to_pty(bytes); } } else { self.schedule_find_hyperlink(e.modifiers, e.position); } cx.notify(); } fn schedule_find_hyperlink(&mut self, modifiers: Modifiers, position: Point) { if self.selection_phase == SelectionPhase::Selecting || !modifiers.secondary() || !self.last_content.terminal_bounds.bounds.contains(&position) { self.last_content.last_hovered_word = None; return; } // Throttle hyperlink searches to avoid excessive processing let now = Instant::now(); if self .last_hyperlink_search_position .map_or(true, |last_pos| { // Only search if mouse moved significantly or enough time passed let distance_moved = ((position.x - last_pos.x).abs() + (position.y - last_pos.y).abs()) > FIND_HYPERLINK_THROTTLE_PX; let time_elapsed = now.duration_since(self.last_mouse_move_time).as_millis() > 100; distance_moved || time_elapsed }) { self.last_mouse_move_time = now; self.last_hyperlink_search_position = Some(position); self.events.push_back(InternalEvent::FindHyperlink( position - self.last_content.terminal_bounds.bounds.origin, false, )); } } pub fn select_word_at_event_position(&mut self, e: &MouseDownEvent) { let position = e.position - self.last_content.terminal_bounds.bounds.origin; let (point, side) = grid_point_and_side( position, self.last_content.terminal_bounds, self.last_content.display_offset, ); let selection = Selection::new(SelectionType::Semantic, point, side); self.events .push_back(InternalEvent::SetSelection(Some((selection, point)))); } pub fn mouse_drag( &mut self, e: &MouseMoveEvent, region: Bounds, cx: &mut Context, ) { let position = e.position - self.last_content.terminal_bounds.bounds.origin; if !self.mouse_mode(e.modifiers.shift) { if let Some((.., hyperlink_range)) = &self.mouse_down_hyperlink { let point = grid_point( position, self.last_content.terminal_bounds, self.last_content.display_offset, ); if !hyperlink_range.contains(&point) { self.mouse_down_hyperlink = None; } else { return; } } self.selection_phase = SelectionPhase::Selecting; // Alacritty has the same ordering, of first updating the selection // then scrolling 15ms later self.events .push_back(InternalEvent::UpdateSelection(position)); // Doesn't make sense to scroll the alt screen if !self.last_content.mode.contains(TermMode::ALT_SCREEN) { let scroll_lines = match self.drag_line_delta(e, region) { Some(value) => value, None => return, }; self.events .push_back(InternalEvent::Scroll(AlacScroll::Delta(scroll_lines))); } cx.notify(); } } fn drag_line_delta(&self, e: &MouseMoveEvent, region: Bounds) -> Option { let top = region.origin.y; let bottom = region.bottom_left().y; let scroll_lines = if e.position.y < top { let scroll_delta = (top - e.position.y).pow(1.1); (scroll_delta / self.last_content.terminal_bounds.line_height).ceil() as i32 } else if e.position.y > bottom { let scroll_delta = -((e.position.y - bottom).pow(1.1)); (scroll_delta / self.last_content.terminal_bounds.line_height).floor() as i32 } else { return None; }; Some(scroll_lines.clamp(-3, 3)) } pub fn mouse_down(&mut self, e: &MouseDownEvent, _cx: &mut Context) { let position = e.position - self.last_content.terminal_bounds.bounds.origin; let point = grid_point( position, self.last_content.terminal_bounds, self.last_content.display_offset, ); if e.button == MouseButton::Left && e.modifiers.secondary() && !self.mouse_mode(e.modifiers.shift) { let term_lock = self.term.lock(); self.mouse_down_hyperlink = terminal_hyperlinks::find_from_grid_point( &term_lock, point, &mut self.hyperlink_regex_searches, self.path_style, ); drop(term_lock); if self.mouse_down_hyperlink.is_some() { return; } } if self.mouse_mode(e.modifiers.shift) { if let Some(bytes) = mouse_button_report(point, e.button, e.modifiers, true, self.last_content.mode) { self.write_to_pty(bytes); } } else { match e.button { MouseButton::Left => { let (point, side) = grid_point_and_side( position, self.last_content.terminal_bounds, self.last_content.display_offset, ); let selection_type = match e.click_count { 0 => return, //This is a release 1 => Some(SelectionType::Simple), 2 => Some(SelectionType::Semantic), 3 => Some(SelectionType::Lines), _ => None, }; if selection_type == Some(SelectionType::Simple) && e.modifiers.shift { self.events .push_back(InternalEvent::UpdateSelection(position)); return; } let selection = selection_type .map(|selection_type| Selection::new(selection_type, point, side)); if let Some(sel) = selection { self.events .push_back(InternalEvent::SetSelection(Some((sel, point)))); } } #[cfg(any(target_os = "linux", target_os = "freebsd"))] MouseButton::Middle => { if let Some(item) = _cx.read_from_primary() { let text = item.text().unwrap_or_default(); self.input(text.into_bytes()); } } _ => {} } } } pub fn mouse_up(&mut self, e: &MouseUpEvent, cx: &Context) { let setting = TerminalSettings::get_global(cx); let position = e.position - self.last_content.terminal_bounds.bounds.origin; if self.mouse_mode(e.modifiers.shift) { let point = grid_point( position, self.last_content.terminal_bounds, self.last_content.display_offset, ); if let Some(bytes) = mouse_button_report(point, e.button, e.modifiers, false, self.last_content.mode) { self.write_to_pty(bytes); } } else { if e.button == MouseButton::Left && setting.copy_on_select { self.copy(Some(true)); } if let Some(mouse_down_hyperlink) = self.mouse_down_hyperlink.take() { let point = grid_point( position, self.last_content.terminal_bounds, self.last_content.display_offset, ); if let Some(mouse_up_hyperlink) = { let term_lock = self.term.lock(); terminal_hyperlinks::find_from_grid_point( &term_lock, point, &mut self.hyperlink_regex_searches, self.path_style, ) } { if mouse_down_hyperlink == mouse_up_hyperlink { self.events .push_back(InternalEvent::ProcessHyperlink(mouse_up_hyperlink, true)); self.selection_phase = SelectionPhase::Ended; self.last_mouse = None; return; } } } //Hyperlinks if self.selection_phase == SelectionPhase::Ended { let mouse_cell_index = content_index_for_mouse(position, &self.last_content.terminal_bounds); if let Some(link) = self.last_content.cells[mouse_cell_index].hyperlink() { cx.open_url(link.uri()); } else if e.modifiers.secondary() { self.events .push_back(InternalEvent::FindHyperlink(position, true)); } } } self.selection_phase = SelectionPhase::Ended; self.last_mouse = None; } ///Scroll the terminal pub fn scroll_wheel(&mut self, e: &ScrollWheelEvent, scroll_multiplier: f32) { let mouse_mode = self.mouse_mode(e.shift); let scroll_multiplier = if mouse_mode { 1. } else { scroll_multiplier }; if let Some(scroll_lines) = self.determine_scroll_lines(e, scroll_multiplier) && scroll_lines != 0 { if mouse_mode { let point = grid_point( e.position - self.last_content.terminal_bounds.bounds.origin, self.last_content.terminal_bounds, self.last_content.display_offset, ); if let Some(scrolls) = scroll_report(point, scroll_lines, e, self.last_content.mode) { for scroll in scrolls { self.write_to_pty(scroll); } }; } else if self .last_content .mode .contains(TermMode::ALT_SCREEN | TermMode::ALTERNATE_SCROLL) && !e.shift { self.write_to_pty(alt_scroll(scroll_lines)); } else { let scroll = AlacScroll::Delta(scroll_lines); self.events.push_back(InternalEvent::Scroll(scroll)); } } } fn refresh_hovered_word(&mut self, window: &Window) { self.schedule_find_hyperlink(window.modifiers(), window.mouse_position()); } fn determine_scroll_lines( &mut self, e: &ScrollWheelEvent, scroll_multiplier: f32, ) -> Option { let line_height = self.last_content.terminal_bounds.line_height; match e.touch_phase { /* Reset scroll state on started */ TouchPhase::Started => { self.scroll_px = px(0.); None } /* Calculate the appropriate scroll lines */ TouchPhase::Moved => { let old_offset = (self.scroll_px / line_height) as i32; self.scroll_px += e.delta.pixel_delta(line_height).y * scroll_multiplier; let new_offset = (self.scroll_px / line_height) as i32; // Whenever we hit the edges, reset our stored scroll to 0 // so we can respond to changes in direction quickly self.scroll_px %= self.last_content.terminal_bounds.height(); Some(new_offset - old_offset) } TouchPhase::Ended => None, } } pub fn find_matches( &self, mut searcher: RegexSearch, cx: &Context, ) -> Task>> { let term = self.term.clone(); cx.background_spawn(async move { let term = term.lock(); all_search_matches(&term, &mut searcher).collect() }) } pub fn working_directory(&self) -> Option { if self.is_remote_terminal { // We can't yet reliably detect the working directory of a shell on the // SSH host. Until we can do that, it doesn't make sense to display // the working directory on the client and persist that. None } else { self.client_side_working_directory() } } /// Returns the working directory of the process that's connected to the PTY. /// That means it returns the working directory of the local shell or program /// that's running inside the terminal. /// /// This does *not* return the working directory of the shell that runs on the /// remote host, in case Zed is connected to a remote host. fn client_side_working_directory(&self) -> Option { match &self.terminal_type { TerminalType::Pty { info, .. } => info .current .read() .as_ref() .map(|process| process.cwd.clone()), TerminalType::DisplayOnly => None, } } pub fn title(&self, truncate: bool) -> String { const MAX_CHARS: usize = 25; match &self.task { Some(task_state) => { if truncate { truncate_and_trailoff(&task_state.spawned_task.label, MAX_CHARS) } else { task_state.spawned_task.full_label.clone() } } None => self .title_override .as_ref() .map(|title_override| title_override.to_string()) .unwrap_or_else(|| match &self.terminal_type { TerminalType::Pty { info, .. } => info .current .read() .as_ref() .map(|fpi| { let process_file = fpi .cwd .file_name() .map(|name| name.to_string_lossy().into_owned()) .unwrap_or_default(); let argv = fpi.argv.as_slice(); let process_name = format!( "{}{}", fpi.name, if !argv.is_empty() { format!(" {}", (argv[1..]).join(" ")) } else { "".to_string() } ); let (process_file, process_name) = if truncate { ( truncate_and_trailoff(&process_file, MAX_CHARS), truncate_and_trailoff(&process_name, MAX_CHARS), ) } else { (process_file, process_name) }; format!("{process_file} — {process_name}") }) .unwrap_or_else(|| "Terminal".to_string()), TerminalType::DisplayOnly => "Terminal".to_string(), }), } } pub fn kill_active_task(&mut self) { if let Some(task) = self.task() && task.status == TaskStatus::Running { if let TerminalType::Pty { info, .. } = &self.terminal_type { // First kill the foreground process group (the command running in the shell) info.kill_current_process(); // Then kill the shell itself so that the terminal exits properly // and wait_for_completed_task can complete info.kill_child_process(); } } } pub fn pid(&self) -> Option { match &self.terminal_type { TerminalType::Pty { info, .. } => info.pid(), TerminalType::DisplayOnly => None, } } pub fn pid_getter(&self) -> Option<&ProcessIdGetter> { match &self.terminal_type { TerminalType::Pty { info, .. } => Some(info.pid_getter()), TerminalType::DisplayOnly => None, } } pub fn task(&self) -> Option<&TaskState> { self.task.as_ref() } pub fn wait_for_completed_task(&self, cx: &App) -> Task> { if let Some(task) = self.task() { if task.status == TaskStatus::Running { let completion_receiver = task.completion_rx.clone(); return cx.spawn(async move |_| completion_receiver.recv().await.ok().flatten()); } else if let Ok(status) = task.completion_rx.try_recv() { return Task::ready(status); } } Task::ready(None) } fn register_task_finished(&mut self, raw_status: Option, cx: &mut Context) { let exit_status: Option = raw_status.map(|value| { #[cfg(unix)] { std::os::unix::process::ExitStatusExt::from_raw(value) } #[cfg(windows)] { std::os::windows::process::ExitStatusExt::from_raw(value as u32) } }); if let Some(tx) = &self.completion_tx { tx.try_send(exit_status).ok(); } if let Some(e) = exit_status { self.child_exited = Some(e); } let task = match &mut self.task { Some(task) => task, None => { if self.child_exited.is_none_or(|e| e.code() == Some(0)) { cx.emit(Event::CloseTerminal); } return; } }; if task.status != TaskStatus::Running { return; } match exit_status.and_then(|e| e.code()) { Some(error_code) => { task.status.register_task_exit(error_code); } None => { task.status.register_terminal_exit(); } }; let (finished_successfully, task_line, command_line) = task_summary(task, exit_status); let mut lines_to_show = Vec::new(); if task.spawned_task.show_summary { lines_to_show.push(task_line.as_str()); } if task.spawned_task.show_command { lines_to_show.push(command_line.as_str()); } if !lines_to_show.is_empty() { // SAFETY: the invocation happens on non `TaskStatus::Running` tasks, once, // after either `AlacTermEvent::Exit` or `AlacTermEvent::ChildExit` events that are spawned // when Zed task finishes and no more output is made. // After the task summary is output once, no more text is appended to the terminal. unsafe { append_text_to_term(&mut self.term.lock(), &lines_to_show) }; } match task.spawned_task.hide { HideStrategy::Never => {} HideStrategy::Always => { cx.emit(Event::CloseTerminal); } HideStrategy::OnSuccess => { if finished_successfully { cx.emit(Event::CloseTerminal); } } } } pub fn vi_mode_enabled(&self) -> bool { self.vi_mode_enabled } pub fn clone_builder(&self, cx: &App, cwd: Option) -> Task> { let working_directory = self.working_directory().or_else(|| cwd); TerminalBuilder::new( working_directory, None, self.template.shell.clone(), self.template.env.clone(), self.template.cursor_shape, self.template.alternate_scroll, self.template.max_scroll_history_lines, self.template.path_hyperlink_regexes.clone(), self.template.path_hyperlink_timeout_ms, self.is_remote_terminal, self.template.window_id, None, cx, self.activation_script.clone(), self.path_style, ) } } // Helper function to convert a grid row to a string pub fn row_to_string(row: &Row) -> String { row[..Column(row.len())] .iter() .map(|cell| cell.c) .collect::() } const TASK_DELIMITER: &str = "⏵ "; fn task_summary(task: &TaskState, exit_status: Option) -> (bool, String, String) { let escaped_full_label = task .spawned_task .full_label .replace("\r\n", "\r") .replace('\n', "\r"); let task_label = |suffix: &str| format!("{TASK_DELIMITER}Task `{escaped_full_label}` {suffix}"); let (success, task_line) = match exit_status { Some(status) => { let code = status.code(); #[cfg(unix)] let signal = status.signal(); #[cfg(not(unix))] let signal: Option = None; match (code, signal) { (Some(0), _) => (true, task_label("finished successfully")), (Some(code), _) => ( false, task_label(&format!("finished with exit code: {code}")), ), (None, Some(signal)) => ( false, task_label(&format!("terminated by signal: {signal}")), ), (None, None) => (false, task_label("finished")), } } None => (false, task_label("finished")), }; let escaped_command_label = task .spawned_task .command_label .replace("\r\n", "\r") .replace('\n', "\r"); let command_line = format!("{TASK_DELIMITER}Command: {escaped_command_label}"); (success, task_line, command_line) } /// Appends a stringified task summary to the terminal, after its output. /// /// SAFETY: This function should only be called after terminal's PTY is no longer alive. /// New text being added to the terminal here, uses "less public" APIs, /// which are not maintaining the entire terminal state intact. /// /// /// The library /// /// * does not increment inner grid cursor's _lines_ on `input` calls /// (but displaying the lines correctly and incrementing cursor's columns) /// /// * ignores `\n` and \r` character input, requiring the `newline` call instead /// /// * does not alter grid state after `newline` call /// so its `bottommost_line` is always the same additions, and /// the cursor's `point` is not updated to the new line and column values /// /// * ??? there could be more consequences, and any further "proper" streaming from the PTY might bug and/or panic. /// Still, subsequent `append_text_to_term` invocations are possible and display the contents correctly. /// /// Despite the quirks, this is the simplest approach to appending text to the terminal: its alternative, `grid_mut` manipulations, /// do not properly set the scrolling state and display odd text after appending; also those manipulations are more tedious and error-prone. /// The function achieves proper display and scrolling capabilities, at a cost of grid state not properly synchronized. /// This is enough for printing moderately-sized texts like task summaries, but might break or perform poorly for larger texts. unsafe fn append_text_to_term(term: &mut Term, text_lines: &[&str]) { term.newline(); term.grid_mut().cursor.point.column = Column(0); for line in text_lines { for c in line.chars() { term.input(c); } term.newline(); term.grid_mut().cursor.point.column = Column(0); } } impl Drop for Terminal { fn drop(&mut self) { if let TerminalType::Pty { pty_tx, info } = std::mem::replace(&mut self.terminal_type, TerminalType::DisplayOnly) { pty_tx.0.send(Msg::Shutdown).ok(); let timer = self.background_executor.timer(Duration::from_millis(100)); self.background_executor .spawn(async move { timer.await; info.kill_child_process(); }) .detach(); } } } impl EventEmitter for Terminal {} fn make_selection(range: &RangeInclusive) -> Selection { let mut selection = Selection::new(SelectionType::Simple, *range.start(), AlacDirection::Left); selection.update(*range.end(), AlacDirection::Right); selection } fn all_search_matches<'a, T>( term: &'a Term, regex: &'a mut RegexSearch, ) -> impl Iterator + 'a { let start = AlacPoint::new(term.grid().topmost_line(), Column(0)); let end = AlacPoint::new(term.grid().bottommost_line(), term.grid().last_column()); RegexIter::new(start, end, AlacDirection::Right, term, regex) } fn content_index_for_mouse(pos: Point, terminal_bounds: &TerminalBounds) -> usize { let col = (pos.x / terminal_bounds.cell_width()).round() as usize; let clamped_col = min(col, terminal_bounds.columns() - 1); let row = (pos.y / terminal_bounds.line_height()).round() as usize; let clamped_row = min(row, terminal_bounds.screen_lines() - 1); clamped_row * terminal_bounds.columns() + clamped_col } /// Converts an 8 bit ANSI color to its GPUI equivalent. /// Accepts `usize` for compatibility with the `alacritty::Colors` interface, /// Other than that use case, should only be called with values in the `[0,255]` range pub fn get_color_at_index(index: usize, theme: &Theme) -> Hsla { let colors = theme.colors(); match index { // 0-15 are the same as the named colors above 0 => colors.terminal_ansi_black, 1 => colors.terminal_ansi_red, 2 => colors.terminal_ansi_green, 3 => colors.terminal_ansi_yellow, 4 => colors.terminal_ansi_blue, 5 => colors.terminal_ansi_magenta, 6 => colors.terminal_ansi_cyan, 7 => colors.terminal_ansi_white, 8 => colors.terminal_ansi_bright_black, 9 => colors.terminal_ansi_bright_red, 10 => colors.terminal_ansi_bright_green, 11 => colors.terminal_ansi_bright_yellow, 12 => colors.terminal_ansi_bright_blue, 13 => colors.terminal_ansi_bright_magenta, 14 => colors.terminal_ansi_bright_cyan, 15 => colors.terminal_ansi_bright_white, // 16-231 are a 6x6x6 RGB color cube, mapped to 0-255 using steps defined by XTerm. // See: https://github.com/xterm-x11/xterm-snapshots/blob/master/256colres.pl 16..=231 => { let (r, g, b) = rgb_for_index(index as u8); rgba_color( if r == 0 { 0 } else { r * 40 + 55 }, if g == 0 { 0 } else { g * 40 + 55 }, if b == 0 { 0 } else { b * 40 + 55 }, ) } // 232-255 are a 24-step grayscale ramp from (8, 8, 8) to (238, 238, 238). 232..=255 => { let i = index as u8 - 232; // Align index to 0..24 let value = i * 10 + 8; rgba_color(value, value, value) } // For compatibility with the alacritty::Colors interface // See: https://github.com/alacritty/alacritty/blob/master/alacritty_terminal/src/term/color.rs 256 => colors.terminal_foreground, 257 => colors.terminal_background, 258 => theme.players().local().cursor, 259 => colors.terminal_ansi_dim_black, 260 => colors.terminal_ansi_dim_red, 261 => colors.terminal_ansi_dim_green, 262 => colors.terminal_ansi_dim_yellow, 263 => colors.terminal_ansi_dim_blue, 264 => colors.terminal_ansi_dim_magenta, 265 => colors.terminal_ansi_dim_cyan, 266 => colors.terminal_ansi_dim_white, 267 => colors.terminal_bright_foreground, 268 => colors.terminal_ansi_black, // 'Dim Background', non-standard color _ => black(), } } /// Generates the RGB channels in [0, 5] for a given index into the 6x6x6 ANSI color cube. /// /// See: [8 bit ANSI color](https://en.wikipedia.org/wiki/ANSI_escape_code#8-bit). /// /// Wikipedia gives a formula for calculating the index for a given color: /// /// ```text /// index = 16 + 36 × r + 6 × g + b (0 ≤ r, g, b ≤ 5) /// ``` /// /// This function does the reverse, calculating the `r`, `g`, and `b` components from a given index. fn rgb_for_index(i: u8) -> (u8, u8, u8) { debug_assert!((16..=231).contains(&i)); let i = i - 16; let r = (i - (i % 36)) / 36; let g = ((i % 36) - (i % 6)) / 6; let b = (i % 36) % 6; (r, g, b) } pub fn rgba_color(r: u8, g: u8, b: u8) -> Hsla { Rgba { r: (r as f32 / 255.), g: (g as f32 / 255.), b: (b as f32 / 255.), a: 1., } .into() } #[cfg(test)] mod tests { use std::time::Duration; use super::*; use crate::{ IndexedCell, TerminalBounds, TerminalBuilder, TerminalContent, content_index_for_mouse, rgb_for_index, }; use alacritty_terminal::{ index::{Column, Line, Point as AlacPoint}, term::cell::Cell, }; use collections::HashMap; use gpui::{ Entity, Modifiers, MouseButton, MouseDownEvent, MouseMoveEvent, MouseUpEvent, Pixels, Point, TestAppContext, bounds, point, size, }; use parking_lot::Mutex; use rand::{Rng, distr, rngs::ThreadRng}; use smol::channel::Receiver; use task::{Shell, ShellBuilder}; #[cfg(target_os = "macos")] fn init_test(cx: &mut TestAppContext) { cx.update(|cx| { let settings_store = settings::SettingsStore::test(cx); cx.set_global(settings_store); theme::init(theme::LoadThemes::JustBase, cx); }); } /// Helper to build a test terminal running a shell command. /// Returns the terminal entity and a receiver for the completion signal. async fn build_test_terminal( cx: &mut TestAppContext, command: &str, args: &[&str], ) -> (Entity, Receiver>) { let (completion_tx, completion_rx) = smol::channel::unbounded(); let args: Vec = args.iter().map(|s| s.to_string()).collect(); let (program, args) = ShellBuilder::new(&Shell::System, false).build(Some(command.to_owned()), &args); let builder = cx .update(|cx| { TerminalBuilder::new( None, None, task::Shell::WithArguments { program, args, title_override: None, }, HashMap::default(), CursorShape::default(), AlternateScroll::On, None, vec![], 0, false, 0, Some(completion_tx), cx, vec![], PathStyle::local(), ) }) .await .unwrap(); let terminal = cx.new(|cx| builder.subscribe(cx)); (terminal, completion_rx) } fn init_ctrl_click_hyperlink_test(cx: &mut TestAppContext, output: &[u8]) -> Entity { cx.update(|cx| { let settings_store = settings::SettingsStore::test(cx); cx.set_global(settings_store); }); let terminal = cx.new(|cx| { TerminalBuilder::new_display_only( CursorShape::default(), AlternateScroll::On, None, 0, cx.background_executor(), PathStyle::local(), ) .unwrap() .subscribe(cx) }); terminal.update(cx, |terminal, cx| { terminal.write_output(output, cx); }); cx.run_until_parked(); terminal.update(cx, |terminal, _cx| { let term_lock = terminal.term.lock(); terminal.last_content = Terminal::make_content(&term_lock, &terminal.last_content); drop(term_lock); let terminal_bounds = TerminalBounds::new( px(20.0), px(10.0), bounds(point(px(0.0), px(0.0)), size(px(400.0), px(400.0))), ); terminal.last_content.terminal_bounds = terminal_bounds; terminal.events.clear(); }); terminal } fn ctrl_mouse_down_at( terminal: &mut Terminal, position: Point, cx: &mut Context, ) { let mouse_down = MouseDownEvent { button: MouseButton::Left, position, modifiers: Modifiers::secondary_key(), click_count: 1, first_mouse: true, }; terminal.mouse_down(&mouse_down, cx); } fn ctrl_mouse_move_to( terminal: &mut Terminal, position: Point, cx: &mut Context, ) { let terminal_bounds = terminal.last_content.terminal_bounds.bounds; let drag_event = MouseMoveEvent { position, pressed_button: Some(MouseButton::Left), modifiers: Modifiers::secondary_key(), }; terminal.mouse_drag(&drag_event, terminal_bounds, cx); } fn ctrl_mouse_up_at( terminal: &mut Terminal, position: Point, cx: &mut Context, ) { let mouse_up = MouseUpEvent { button: MouseButton::Left, position, modifiers: Modifiers::secondary_key(), click_count: 1, }; terminal.mouse_up(&mouse_up, cx); } #[gpui::test] async fn test_basic_terminal(cx: &mut TestAppContext) { cx.executor().allow_parking(); let (terminal, completion_rx) = build_test_terminal(cx, "echo", &["hello"]).await; assert_eq!( completion_rx.recv().await.unwrap(), Some(ExitStatus::default()) ); assert_eq!( terminal.update(cx, |term, _| term.get_content()).trim(), "hello" ); // Inject additional output directly into the emulator (display-only path) terminal.update(cx, |term, cx| { term.write_output(b"\nfrom_injection", cx); }); let content_after = terminal.update(cx, |term, _| term.get_content()); assert!( content_after.contains("from_injection"), "expected injected output to appear, got: {content_after}" ); } // TODO should be tested on Linux too, but does not work there well #[cfg(target_os = "macos")] #[gpui::test(iterations = 10)] async fn test_terminal_eof(cx: &mut TestAppContext) { init_test(cx); cx.executor().allow_parking(); let (completion_tx, completion_rx) = smol::channel::unbounded(); let builder = cx .update(|cx| { TerminalBuilder::new( None, None, task::Shell::System, HashMap::default(), CursorShape::default(), AlternateScroll::On, None, vec![], 0, false, 0, Some(completion_tx), cx, Vec::new(), PathStyle::local(), ) }) .await .unwrap(); // Build an empty command, which will result in a tty shell spawned. let terminal = cx.new(|cx| builder.subscribe(cx)); let (event_tx, event_rx) = smol::channel::unbounded::(); cx.update(|cx| { cx.subscribe(&terminal, move |_, e, _| { event_tx.send_blocking(e.clone()).unwrap(); }) }) .detach(); cx.background_spawn(async move { assert_eq!( completion_rx.recv().await.unwrap(), Some(ExitStatus::default()), "EOF should result in the tty shell exiting successfully", ); }) .detach(); let first_event = event_rx.recv().await.expect("No wakeup event received"); terminal.update(cx, |terminal, _| { let success = terminal.try_keystroke(&Keystroke::parse("ctrl-c").unwrap(), false); assert!(success, "Should have registered ctrl-c sequence"); }); terminal.update(cx, |terminal, _| { let success = terminal.try_keystroke(&Keystroke::parse("ctrl-d").unwrap(), false); assert!(success, "Should have registered ctrl-d sequence"); }); let mut all_events = vec![first_event]; while let Ok(new_event) = event_rx.recv().await { all_events.push(new_event.clone()); if new_event == Event::CloseTerminal { break; } } assert!( all_events.contains(&Event::CloseTerminal), "EOF command sequence should have triggered a TTY terminal exit, but got events: {all_events:?}", ); } #[gpui::test(iterations = 10)] async fn test_terminal_no_exit_on_spawn_failure(cx: &mut TestAppContext) { cx.executor().allow_parking(); let (completion_tx, completion_rx) = smol::channel::unbounded(); let (program, args) = ShellBuilder::new(&Shell::System, false) .build(Some("asdasdasdasd".to_owned()), &["@@@@@".to_owned()]); let builder = cx .update(|cx| { TerminalBuilder::new( None, None, task::Shell::WithArguments { program, args, title_override: None, }, HashMap::default(), CursorShape::default(), AlternateScroll::On, None, Vec::new(), 0, false, 0, Some(completion_tx), cx, Vec::new(), PathStyle::local(), ) }) .await .unwrap(); let terminal = cx.new(|cx| builder.subscribe(cx)); let all_events: Arc>> = Arc::new(Mutex::new(Vec::new())); cx.update({ let all_events = all_events.clone(); |cx| { cx.subscribe(&terminal, move |_, e, _| { all_events.lock().push(e.clone()); }) } }) .detach(); let completion_check_task = cx.background_spawn(async move { // The channel may be closed if the terminal is dropped before sending // the completion signal, which can happen with certain task scheduling orders. let exit_status = completion_rx.recv().await.ok().flatten(); if let Some(exit_status) = exit_status { assert!( !exit_status.success(), "Wrong shell command should result in a failure" ); #[cfg(target_os = "windows")] assert_eq!(exit_status.code(), Some(1)); #[cfg(not(target_os = "windows"))] assert_eq!(exit_status.code(), Some(127)); // code 127 means "command not found" on Unix } }); completion_check_task.await; cx.executor().timer(Duration::from_millis(500)).await; assert!( !all_events .lock() .iter() .any(|event| event == &Event::CloseTerminal), "Wrong shell command should update the title but not should not close the terminal to show the error message, but got events: {all_events:?}", ); } #[test] fn test_rgb_for_index() { // Test every possible value in the color cube. for i in 16..=231 { let (r, g, b) = rgb_for_index(i); assert_eq!(i, 16 + 36 * r + 6 * g + b); } } #[test] fn test_mouse_to_cell_test() { let mut rng = rand::rng(); const ITERATIONS: usize = 10; const PRECISION: usize = 1000; for _ in 0..ITERATIONS { let viewport_cells = rng.random_range(15..20); let cell_size = rng.random_range(5 * PRECISION..20 * PRECISION) as f32 / PRECISION as f32; let size = crate::TerminalBounds { cell_width: Pixels::from(cell_size), line_height: Pixels::from(cell_size), bounds: bounds( Point::default(), size( Pixels::from(cell_size * (viewport_cells as f32)), Pixels::from(cell_size * (viewport_cells as f32)), ), ), }; let cells = get_cells(size, &mut rng); let content = convert_cells_to_content(size, &cells); for row in 0..(viewport_cells - 1) { let row = row as usize; for col in 0..(viewport_cells - 1) { let col = col as usize; let row_offset = rng.random_range(0..PRECISION) as f32 / PRECISION as f32; let col_offset = rng.random_range(0..PRECISION) as f32 / PRECISION as f32; let mouse_pos = point( Pixels::from(col as f32 * cell_size + col_offset), Pixels::from(row as f32 * cell_size + row_offset), ); let content_index = content_index_for_mouse(mouse_pos, &content.terminal_bounds); let mouse_cell = content.cells[content_index].c; let real_cell = cells[row][col]; assert_eq!(mouse_cell, real_cell); } } } } #[test] fn test_mouse_to_cell_clamp() { let mut rng = rand::rng(); let size = crate::TerminalBounds { cell_width: Pixels::from(10.), line_height: Pixels::from(10.), bounds: bounds( Point::default(), size(Pixels::from(100.), Pixels::from(100.)), ), }; let cells = get_cells(size, &mut rng); let content = convert_cells_to_content(size, &cells); assert_eq!( content.cells[content_index_for_mouse( point(Pixels::from(-10.), Pixels::from(-10.)), &content.terminal_bounds, )] .c, cells[0][0] ); assert_eq!( content.cells[content_index_for_mouse( point(Pixels::from(1000.), Pixels::from(1000.)), &content.terminal_bounds, )] .c, cells[9][9] ); } fn get_cells(size: TerminalBounds, rng: &mut ThreadRng) -> Vec> { let mut cells = Vec::new(); for _ in 0..((size.height() / size.line_height()) as usize) { let mut row_vec = Vec::new(); for _ in 0..((size.width() / size.cell_width()) as usize) { let cell_char = rng.sample(distr::Alphanumeric) as char; row_vec.push(cell_char) } cells.push(row_vec) } cells } fn convert_cells_to_content( terminal_bounds: TerminalBounds, cells: &[Vec], ) -> TerminalContent { let mut ic = Vec::new(); for (index, row) in cells.iter().enumerate() { for (cell_index, cell_char) in row.iter().enumerate() { ic.push(IndexedCell { point: AlacPoint::new(Line(index as i32), Column(cell_index)), cell: Cell { c: *cell_char, ..Default::default() }, }); } } TerminalContent { cells: ic, terminal_bounds, ..Default::default() } } #[gpui::test] async fn test_write_output_converts_lf_to_crlf(cx: &mut TestAppContext) { let terminal = cx.new(|cx| { TerminalBuilder::new_display_only( CursorShape::default(), AlternateScroll::On, None, 0, cx.background_executor(), PathStyle::local(), ) .unwrap() .subscribe(cx) }); // Test simple LF conversion terminal.update(cx, |terminal, cx| { terminal.write_output(b"line1\nline2\n", cx); }); // Get the content by directly accessing the term let content = terminal.update(cx, |terminal, _cx| { let term = terminal.term.lock_unfair(); Terminal::make_content(&term, &terminal.last_content) }); // If LF is properly converted to CRLF, each line should start at column 0 // The diagonal staircase bug would cause increasing column positions // Get the cells and check that lines start at column 0 let cells = &content.cells; let mut line1_col0 = false; let mut line2_col0 = false; for cell in cells { if cell.c == 'l' && cell.point.column.0 == 0 { if cell.point.line.0 == 0 && !line1_col0 { line1_col0 = true; } else if cell.point.line.0 == 1 && !line2_col0 { line2_col0 = true; } } } assert!(line1_col0, "First line should start at column 0"); assert!(line2_col0, "Second line should start at column 0"); } #[gpui::test] async fn test_write_output_preserves_existing_crlf(cx: &mut TestAppContext) { let terminal = cx.new(|cx| { TerminalBuilder::new_display_only( CursorShape::default(), AlternateScroll::On, None, 0, cx.background_executor(), PathStyle::local(), ) .unwrap() .subscribe(cx) }); // Test that existing CRLF doesn't get doubled terminal.update(cx, |terminal, cx| { terminal.write_output(b"line1\r\nline2\r\n", cx); }); // Get the content by directly accessing the term let content = terminal.update(cx, |terminal, _cx| { let term = terminal.term.lock_unfair(); Terminal::make_content(&term, &terminal.last_content) }); let cells = &content.cells; // Check that both lines start at column 0 let mut found_lines_at_column_0 = 0; for cell in cells { if cell.c == 'l' && cell.point.column.0 == 0 { found_lines_at_column_0 += 1; } } assert!( found_lines_at_column_0 >= 2, "Both lines should start at column 0" ); } #[gpui::test] async fn test_write_output_preserves_bare_cr(cx: &mut TestAppContext) { let terminal = cx.new(|cx| { TerminalBuilder::new_display_only( CursorShape::default(), AlternateScroll::On, None, 0, cx.background_executor(), PathStyle::local(), ) .unwrap() .subscribe(cx) }); // Test that bare CR (without LF) is preserved terminal.update(cx, |terminal, cx| { terminal.write_output(b"hello\rworld", cx); }); // Get the content by directly accessing the term let content = terminal.update(cx, |terminal, _cx| { let term = terminal.term.lock_unfair(); Terminal::make_content(&term, &terminal.last_content) }); let cells = &content.cells; // Check that we have "world" at the beginning of the line let mut text = String::new(); for cell in cells.iter().take(5) { if cell.point.line.0 == 0 { text.push(cell.c); } } assert!( text.starts_with("world"), "Bare CR should allow overwriting: got '{}'", text ); } #[gpui::test] async fn test_hyperlink_ctrl_click_same_position(cx: &mut TestAppContext) { let terminal = init_ctrl_click_hyperlink_test(cx, b"Visit https://zed.dev/ for more\r\n"); terminal.update(cx, |terminal, cx| { let click_position = point(px(80.0), px(10.0)); ctrl_mouse_down_at(terminal, click_position, cx); ctrl_mouse_up_at(terminal, click_position, cx); assert!( terminal .events .iter() .any(|event| matches!(event, InternalEvent::ProcessHyperlink(_, true))), "Should have ProcessHyperlink event when ctrl+clicking on same hyperlink position" ); }); } #[gpui::test] async fn test_hyperlink_ctrl_click_drag_outside_bounds(cx: &mut TestAppContext) { let terminal = init_ctrl_click_hyperlink_test( cx, b"Visit https://zed.dev/ for more\r\nThis is another line\r\n", ); terminal.update(cx, |terminal, cx| { let down_position = point(px(80.0), px(10.0)); let up_position = point(px(10.0), px(50.0)); ctrl_mouse_down_at(terminal, down_position, cx); ctrl_mouse_move_to(terminal, up_position, cx); ctrl_mouse_up_at(terminal, up_position, cx); assert!( !terminal .events .iter() .any(|event| matches!(event, InternalEvent::ProcessHyperlink(_, _))), "Should NOT have ProcessHyperlink event when dragging outside the hyperlink" ); }); } #[gpui::test] async fn test_hyperlink_ctrl_click_drag_within_bounds(cx: &mut TestAppContext) { let terminal = init_ctrl_click_hyperlink_test(cx, b"Visit https://zed.dev/ for more\r\n"); terminal.update(cx, |terminal, cx| { let down_position = point(px(70.0), px(10.0)); let up_position = point(px(130.0), px(10.0)); ctrl_mouse_down_at(terminal, down_position, cx); ctrl_mouse_move_to(terminal, up_position, cx); ctrl_mouse_up_at(terminal, up_position, cx); assert!( terminal .events .iter() .any(|event| matches!(event, InternalEvent::ProcessHyperlink(_, true))), "Should have ProcessHyperlink event when dragging within hyperlink bounds" ); }); } /// Test that kill_active_task properly terminates both the foreground process /// and the shell, allowing wait_for_completed_task to complete and output to be captured. #[cfg(unix)] #[gpui::test] async fn test_kill_active_task_completes_and_captures_output(cx: &mut TestAppContext) { cx.executor().allow_parking(); // Run a command that prints output then sleeps for a long time // The echo ensures we have output to capture before killing let (terminal, completion_rx) = build_test_terminal(cx, "echo", &["test_output_before_kill; sleep 60"]).await; // Wait a bit for the echo to execute and produce output cx.background_executor .timer(Duration::from_millis(200)) .await; // Kill the active task terminal.update(cx, |term, _cx| { term.kill_active_task(); }); // wait_for_completed_task should complete within a reasonable time (not hang) let completion_result = completion_rx.recv().await; assert!( completion_result.is_ok(), "wait_for_completed_task should complete after kill_active_task, but it timed out" ); // The exit status should indicate the process was killed (not a clean exit) let exit_status = completion_result.unwrap(); assert!( exit_status.is_some(), "Should have received an exit status after killing" ); // Verify that output captured before killing is still available let content = terminal.update(cx, |term, _| term.get_content()); assert!( content.contains("test_output_before_kill"), "Output from before kill should be captured, got: {content}" ); } /// Test that kill_active_task on a task that's not running is a no-op #[gpui::test] async fn test_kill_active_task_on_completed_task_is_noop(cx: &mut TestAppContext) { cx.executor().allow_parking(); // Run a command that exits immediately let (terminal, completion_rx) = build_test_terminal(cx, "echo", &["done"]).await; // Wait for the command to complete naturally let exit_status = completion_rx .recv() .await .expect("Should receive exit status"); assert_eq!(exit_status, Some(ExitStatus::default())); // Now try to kill - should be a no-op since task already completed terminal.update(cx, |term, _cx| { term.kill_active_task(); }); // Content should still be there let content = terminal.update(cx, |term, _| term.get_content()); assert!( content.contains("done"), "Output should still be present after no-op kill, got: {content}" ); } mod perf { use super::super::*; use gpui::{ Entity, Point, ScrollDelta, ScrollWheelEvent, TestAppContext, VisualContext, VisualTestContext, point, }; use util::default; use util_macros::perf; async fn init_scroll_perf_test( cx: &mut TestAppContext, ) -> (Entity, &mut VisualTestContext) { cx.update(|cx| { let settings_store = settings::SettingsStore::test(cx); cx.set_global(settings_store); }); cx.executor().allow_parking(); let window = cx.add_empty_window(); let builder = window .update(|window, cx| { let settings = TerminalSettings::get_global(cx); let test_path_hyperlink_timeout_ms = 100; TerminalBuilder::new( None, None, task::Shell::System, HashMap::default(), CursorShape::default(), AlternateScroll::On, None, settings.path_hyperlink_regexes.clone(), test_path_hyperlink_timeout_ms, false, window.window_handle().window_id().as_u64(), None, cx, vec![], PathStyle::local(), ) }) .await .unwrap(); let terminal = window.new(|cx| builder.subscribe(cx)); terminal.update(window, |term, cx| { term.write_output("long line ".repeat(1000).as_bytes(), cx); }); (terminal, window) } #[perf] #[gpui::test] async fn scroll_long_line_benchmark(cx: &mut TestAppContext) { let (terminal, window) = init_scroll_perf_test(cx).await; let wobble = point(FIND_HYPERLINK_THROTTLE_PX, px(0.0)); let mut scroll_by = |lines: i32| { window.update_window_entity(&terminal, |terminal, window, cx| { let bounds = terminal.last_content.terminal_bounds.bounds; let center = bounds.origin + bounds.center(); let position = center + wobble * lines as f32; terminal.mouse_move( &MouseMoveEvent { position, ..default() }, cx, ); terminal.scroll_wheel( &ScrollWheelEvent { position, delta: ScrollDelta::Lines(Point::new(0.0, lines as f32)), ..default() }, 1.0, ); assert!( terminal .events .iter() .any(|event| matches!(event, InternalEvent::Scroll(_))), "Should have Scroll event when scrolling within terminal bounds" ); terminal.sync(window, cx); }); }; for _ in 0..20000 { scroll_by(1); scroll_by(-1); } } } }