1pub mod mappings;
2
3pub use alacritty_terminal;
4
5mod pty_info;
6pub mod terminal_settings;
7
8use alacritty_terminal::{
9 event::{Event as AlacTermEvent, EventListener, Notify, WindowSize},
10 event_loop::{EventLoop, Msg, Notifier},
11 grid::{Dimensions, Grid, Row, Scroll as AlacScroll},
12 index::{Boundary, Column, Direction as AlacDirection, Line, Point as AlacPoint},
13 selection::{Selection, SelectionRange, SelectionType},
14 sync::FairMutex,
15 term::{
16 cell::{Cell, Flags},
17 search::{Match, RegexIter, RegexSearch},
18 Config, RenderableCursor, TermMode,
19 },
20 tty::{self},
21 vi_mode::{ViModeCursor, ViMotion},
22 vte::ansi::{
23 ClearMode, CursorStyle as AlacCursorStyle, Handler, NamedPrivateMode, PrivateMode,
24 },
25 Term,
26};
27use anyhow::{bail, Result};
28
29use futures::{
30 channel::mpsc::{unbounded, UnboundedReceiver, UnboundedSender},
31 FutureExt,
32};
33
34use mappings::mouse::{
35 alt_scroll, grid_point, grid_point_and_side, mouse_button_report, mouse_moved_report,
36 scroll_report,
37};
38
39use collections::{HashMap, VecDeque};
40use futures::StreamExt;
41use pty_info::PtyProcessInfo;
42use regex::Regex;
43use serde::{Deserialize, Serialize};
44use settings::Settings;
45use smol::channel::{Receiver, Sender};
46use task::{HideStrategy, Shell, TaskId};
47use terminal_settings::{AlternateScroll, CursorShape, TerminalSettings};
48use theme::{ActiveTheme, Theme};
49use util::{paths::home_dir, truncate_and_trailoff};
50
51use std::{
52 cmp::{self, min},
53 fmt::Display,
54 ops::{Deref, Index, RangeInclusive},
55 path::PathBuf,
56 sync::{Arc, LazyLock},
57 time::Duration,
58};
59use thiserror::Error;
60
61use gpui::{
62 actions, black, px, AnyWindowHandle, App, AppContext as _, Bounds, ClipboardItem, Context,
63 EventEmitter, Hsla, Keystroke, Modifiers, MouseButton, MouseDownEvent, MouseMoveEvent,
64 MouseUpEvent, Pixels, Point, Rgba, ScrollWheelEvent, SharedString, Size, Task, TouchPhase,
65 Window,
66};
67
68use crate::mappings::{colors::to_alac_rgb, keys::to_esc_str};
69
70actions!(
71 terminal,
72 [
73 Clear,
74 Copy,
75 Paste,
76 ShowCharacterPalette,
77 SearchTest,
78 ScrollLineUp,
79 ScrollLineDown,
80 ScrollPageUp,
81 ScrollPageDown,
82 ScrollToTop,
83 ScrollToBottom,
84 ToggleViMode,
85 ]
86);
87
88///Scrolling is unbearably sluggish by default. Alacritty supports a configurable
89///Scroll multiplier that is set to 3 by default. This will be removed when I
90///Implement scroll bars.
91#[cfg(target_os = "macos")]
92const SCROLL_MULTIPLIER: f32 = 4.;
93#[cfg(not(target_os = "macos"))]
94const SCROLL_MULTIPLIER: f32 = 1.;
95const MAX_SEARCH_LINES: usize = 100;
96const DEBUG_TERMINAL_WIDTH: Pixels = px(500.);
97const DEBUG_TERMINAL_HEIGHT: Pixels = px(30.);
98const DEBUG_CELL_WIDTH: Pixels = px(5.);
99const DEBUG_LINE_HEIGHT: Pixels = px(5.);
100
101///Upward flowing events, for changing the title and such
102#[derive(Clone, Debug)]
103pub enum Event {
104 TitleChanged,
105 BreadcrumbsChanged,
106 CloseTerminal,
107 Bell,
108 Wakeup,
109 BlinkChanged(bool),
110 SelectionsChanged,
111 NewNavigationTarget(Option<MaybeNavigationTarget>),
112 Open(MaybeNavigationTarget),
113 TaskLocatorReady { task_id: TaskId, success: bool },
114}
115
116#[derive(Clone, Debug)]
117pub struct PathLikeTarget {
118 /// File system path, absolute or relative, existing or not.
119 /// Might have line and column number(s) attached as `file.rs:1:23`
120 pub maybe_path: String,
121 /// Current working directory of the terminal
122 pub terminal_dir: Option<PathBuf>,
123}
124
125/// A string inside terminal, potentially useful as a URI that can be opened.
126#[derive(Clone, Debug)]
127pub enum MaybeNavigationTarget {
128 /// HTTP, git, etc. string determined by the `URL_REGEX` regex.
129 Url(String),
130 /// File system path, absolute or relative, existing or not.
131 /// Might have line and column number(s) attached as `file.rs:1:23`
132 PathLike(PathLikeTarget),
133}
134
135#[derive(Clone)]
136enum InternalEvent {
137 Resize(TerminalBounds),
138 Clear,
139 // FocusNextMatch,
140 Scroll(AlacScroll),
141 ScrollToAlacPoint(AlacPoint),
142 SetSelection(Option<(Selection, AlacPoint)>),
143 UpdateSelection(Point<Pixels>),
144 // Adjusted mouse position, should open
145 FindHyperlink(Point<Pixels>, bool),
146 Copy,
147 // Vi mode events
148 ToggleViMode,
149 ViMotion(ViMotion),
150}
151
152///A translation struct for Alacritty to communicate with us from their event loop
153#[derive(Clone)]
154pub struct ZedListener(pub UnboundedSender<AlacTermEvent>);
155
156impl EventListener for ZedListener {
157 fn send_event(&self, event: AlacTermEvent) {
158 self.0.unbounded_send(event).ok();
159 }
160}
161
162pub fn init(cx: &mut App) {
163 TerminalSettings::register(cx);
164}
165
166#[derive(Clone, Copy, Debug, PartialEq, Eq, Serialize, Deserialize)]
167pub struct TerminalBounds {
168 pub cell_width: Pixels,
169 pub line_height: Pixels,
170 pub bounds: Bounds<Pixels>,
171}
172
173impl TerminalBounds {
174 pub fn new(line_height: Pixels, cell_width: Pixels, bounds: Bounds<Pixels>) -> Self {
175 TerminalBounds {
176 cell_width,
177 line_height,
178 bounds,
179 }
180 }
181
182 pub fn num_lines(&self) -> usize {
183 (self.bounds.size.height / self.line_height).floor() as usize
184 }
185
186 pub fn num_columns(&self) -> usize {
187 (self.bounds.size.width / self.cell_width).floor() as usize
188 }
189
190 pub fn height(&self) -> Pixels {
191 self.bounds.size.height
192 }
193
194 pub fn width(&self) -> Pixels {
195 self.bounds.size.width
196 }
197
198 pub fn cell_width(&self) -> Pixels {
199 self.cell_width
200 }
201
202 pub fn line_height(&self) -> Pixels {
203 self.line_height
204 }
205}
206
207impl Default for TerminalBounds {
208 fn default() -> Self {
209 TerminalBounds::new(
210 DEBUG_LINE_HEIGHT,
211 DEBUG_CELL_WIDTH,
212 Bounds {
213 origin: Point::default(),
214 size: Size {
215 width: DEBUG_TERMINAL_WIDTH,
216 height: DEBUG_TERMINAL_HEIGHT,
217 },
218 },
219 )
220 }
221}
222
223impl From<TerminalBounds> for WindowSize {
224 fn from(val: TerminalBounds) -> Self {
225 WindowSize {
226 num_lines: val.num_lines() as u16,
227 num_cols: val.num_columns() as u16,
228 cell_width: f32::from(val.cell_width()) as u16,
229 cell_height: f32::from(val.line_height()) as u16,
230 }
231 }
232}
233
234impl Dimensions for TerminalBounds {
235 /// Note: this is supposed to be for the back buffer's length,
236 /// but we exclusively use it to resize the terminal, which does not
237 /// use this method. We still have to implement it for the trait though,
238 /// hence, this comment.
239 fn total_lines(&self) -> usize {
240 self.screen_lines()
241 }
242
243 fn screen_lines(&self) -> usize {
244 self.num_lines()
245 }
246
247 fn columns(&self) -> usize {
248 self.num_columns()
249 }
250}
251
252#[derive(Error, Debug)]
253pub struct TerminalError {
254 pub directory: Option<PathBuf>,
255 pub shell: Shell,
256 pub source: std::io::Error,
257}
258
259impl TerminalError {
260 pub fn fmt_directory(&self) -> String {
261 self.directory
262 .clone()
263 .map(|path| {
264 match path
265 .into_os_string()
266 .into_string()
267 .map_err(|os_str| format!("<non-utf8 path> {}", os_str.to_string_lossy()))
268 {
269 Ok(s) => s,
270 Err(s) => s,
271 }
272 })
273 .unwrap_or_else(|| {
274 let default_dir =
275 dirs::home_dir().map(|buf| buf.into_os_string().to_string_lossy().to_string());
276 match default_dir {
277 Some(dir) => format!("<none specified, using home directory> {}", dir),
278 None => "<none specified, could not find home directory>".to_string(),
279 }
280 })
281 }
282
283 pub fn fmt_shell(&self) -> String {
284 match &self.shell {
285 Shell::System => "<system defined shell>".to_string(),
286 Shell::Program(s) => s.to_string(),
287 Shell::WithArguments {
288 program,
289 args,
290 title_override,
291 } => {
292 if let Some(title_override) = title_override {
293 format!("{} {} ({})", program, args.join(" "), title_override)
294 } else {
295 format!("{} {}", program, args.join(" "))
296 }
297 }
298 }
299 }
300}
301
302impl Display for TerminalError {
303 fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
304 let dir_string: String = self.fmt_directory();
305 let shell = self.fmt_shell();
306
307 write!(
308 f,
309 "Working directory: {} Shell command: `{}`, IOError: {}",
310 dir_string, shell, self.source
311 )
312 }
313}
314
315// https://github.com/alacritty/alacritty/blob/cb3a79dbf6472740daca8440d5166c1d4af5029e/extra/man/alacritty.5.scd?plain=1#L207-L213
316const DEFAULT_SCROLL_HISTORY_LINES: usize = 10_000;
317const MAX_SCROLL_HISTORY_LINES: usize = 100_000;
318const URL_REGEX: &str = r#"(ipfs:|ipns:|magnet:|mailto:|gemini://|gopher://|https://|http://|news:|file://|git://|ssh:|ftp://)[^\u{0000}-\u{001F}\u{007F}-\u{009F}<>"\s{-}\^⟨⟩`]+"#;
319// Optional suffix matches MSBuild diagnostic suffixes for path parsing in PathLikeWithPosition
320// https://learn.microsoft.com/en-us/visualstudio/msbuild/msbuild-diagnostic-format-for-tasks
321const WORD_REGEX: &str =
322 r#"[\$\+\w.\[\]:/\\@\-~()]+(?:\((?:\d+|\d+,\d+)\))|[\$\+\w.\[\]:/\\@\-~()]+"#;
323const PYTHON_FILE_LINE_REGEX: &str = r#"File "(?P<file>[^"]+)", line (?P<line>\d+)"#;
324
325static PYTHON_FILE_LINE_MATCHER: LazyLock<Regex> =
326 LazyLock::new(|| Regex::new(PYTHON_FILE_LINE_REGEX).unwrap());
327
328fn python_extract_path_and_line(input: &str) -> Option<(&str, u32)> {
329 if let Some(captures) = PYTHON_FILE_LINE_MATCHER.captures(input) {
330 let path_part = captures.name("file")?.as_str();
331
332 let line_number: u32 = captures.name("line")?.as_str().parse().ok()?;
333 return Some((path_part, line_number));
334 }
335 None
336}
337
338pub struct TerminalBuilder {
339 terminal: Terminal,
340 events_rx: UnboundedReceiver<AlacTermEvent>,
341}
342
343impl TerminalBuilder {
344 pub fn new(
345 working_directory: Option<PathBuf>,
346 python_venv_directory: Option<PathBuf>,
347 task: Option<TaskState>,
348 shell: Shell,
349 mut env: HashMap<String, String>,
350 cursor_shape: CursorShape,
351 alternate_scroll: AlternateScroll,
352 max_scroll_history_lines: Option<usize>,
353 is_ssh_terminal: bool,
354 window: AnyWindowHandle,
355 completion_tx: Sender<()>,
356 debug_terminal: bool,
357 cx: &App,
358 ) -> Result<TerminalBuilder> {
359 // If the parent environment doesn't have a locale set
360 // (As is the case when launched from a .app on MacOS),
361 // and the Project doesn't have a locale set, then
362 // set a fallback for our child environment to use.
363 if std::env::var("LANG").is_err() {
364 env.entry("LANG".to_string())
365 .or_insert_with(|| "en_US.UTF-8".to_string());
366 }
367
368 env.insert("ZED_TERM".to_string(), "true".to_string());
369 env.insert("TERM_PROGRAM".to_string(), "zed".to_string());
370 env.insert("TERM".to_string(), "xterm-256color".to_string());
371 env.insert(
372 "TERM_PROGRAM_VERSION".to_string(),
373 release_channel::AppVersion::global(cx).to_string(),
374 );
375
376 let mut terminal_title_override = None;
377
378 let pty_options = {
379 let alac_shell = match shell.clone() {
380 Shell::System => {
381 #[cfg(target_os = "windows")]
382 {
383 Some(alacritty_terminal::tty::Shell::new(
384 util::retrieve_system_shell(),
385 Vec::new(),
386 ))
387 }
388 #[cfg(not(target_os = "windows"))]
389 {
390 None
391 }
392 }
393 Shell::Program(program) => {
394 Some(alacritty_terminal::tty::Shell::new(program, Vec::new()))
395 }
396 Shell::WithArguments {
397 program,
398 args,
399 title_override,
400 } => {
401 terminal_title_override = title_override;
402 Some(alacritty_terminal::tty::Shell::new(program, args))
403 }
404 };
405
406 alacritty_terminal::tty::Options {
407 shell: alac_shell,
408 working_directory: working_directory
409 .clone()
410 .or_else(|| Some(home_dir().to_path_buf())),
411 drain_on_exit: true,
412 env: env.into_iter().collect(),
413 }
414 };
415
416 // Setup Alacritty's env, which modifies the current process's environment
417 alacritty_terminal::tty::setup_env();
418
419 let default_cursor_style = AlacCursorStyle::from(cursor_shape);
420 let scrolling_history = if task.is_some() {
421 // Tasks like `cargo build --all` may produce a lot of output, ergo allow maximum scrolling.
422 // After the task finishes, we do not allow appending to that terminal, so small tasks output should not
423 // cause excessive memory usage over time.
424 MAX_SCROLL_HISTORY_LINES
425 } else {
426 max_scroll_history_lines
427 .unwrap_or(DEFAULT_SCROLL_HISTORY_LINES)
428 .min(MAX_SCROLL_HISTORY_LINES)
429 };
430 let config = Config {
431 scrolling_history,
432 default_cursor_style,
433 ..Config::default()
434 };
435
436 //Spawn a task so the Alacritty EventLoop can communicate with us
437 //TODO: Remove with a bounded sender which can be dispatched on &self
438 let (events_tx, events_rx) = unbounded();
439 //Set up the terminal...
440 let mut term = Term::new(
441 config.clone(),
442 &TerminalBounds::default(),
443 ZedListener(events_tx.clone()),
444 );
445
446 //Alacritty defaults to alternate scrolling being on, so we just need to turn it off.
447 if let AlternateScroll::Off = alternate_scroll {
448 term.unset_private_mode(PrivateMode::Named(NamedPrivateMode::AlternateScroll));
449 }
450
451 let term = Arc::new(FairMutex::new(term));
452
453 //Setup the pty...
454 let pty = match tty::new(
455 &pty_options,
456 TerminalBounds::default().into(),
457 window.window_id().as_u64(),
458 ) {
459 Ok(pty) => pty,
460 Err(error) => {
461 bail!(TerminalError {
462 directory: working_directory,
463 shell,
464 source: error,
465 });
466 }
467 };
468
469 let pty_info = PtyProcessInfo::new(&pty);
470
471 //And connect them together
472 let event_loop = EventLoop::new(
473 term.clone(),
474 ZedListener(events_tx.clone()),
475 pty,
476 pty_options.drain_on_exit,
477 false,
478 )?;
479
480 //Kick things off
481 let pty_tx = event_loop.channel();
482 let _io_thread = event_loop.spawn(); // DANGER
483
484 let terminal = Terminal {
485 task,
486 pty_tx: Notifier(pty_tx),
487 completion_tx,
488 term,
489 term_config: config,
490 title_override: terminal_title_override,
491 events: VecDeque::with_capacity(10), //Should never get this high.
492 last_content: Default::default(),
493 last_mouse: None,
494 matches: Vec::new(),
495 selection_head: None,
496 pty_info,
497 breadcrumb_text: String::new(),
498 scroll_px: px(0.),
499 next_link_id: 0,
500 selection_phase: SelectionPhase::Ended,
501 // hovered_word: false,
502 url_regex: RegexSearch::new(URL_REGEX).unwrap(),
503 word_regex: RegexSearch::new(WORD_REGEX).unwrap(),
504 python_file_line_regex: RegexSearch::new(PYTHON_FILE_LINE_REGEX).unwrap(),
505 vi_mode_enabled: false,
506 debug_terminal,
507 is_ssh_terminal,
508 python_venv_directory,
509 };
510
511 Ok(TerminalBuilder {
512 terminal,
513 events_rx,
514 })
515 }
516
517 pub fn subscribe(mut self, cx: &Context<Terminal>) -> Terminal {
518 //Event loop
519 cx.spawn(async move |terminal, cx| {
520 while let Some(event) = self.events_rx.next().await {
521 terminal.update(cx, |terminal, cx| {
522 //Process the first event immediately for lowered latency
523 terminal.process_event(&event, cx);
524 })?;
525
526 'outer: loop {
527 let mut events = Vec::new();
528 let mut timer = cx
529 .background_executor()
530 .timer(Duration::from_millis(4))
531 .fuse();
532 let mut wakeup = false;
533 loop {
534 futures::select_biased! {
535 _ = timer => break,
536 event = self.events_rx.next() => {
537 if let Some(event) = event {
538 if matches!(event, AlacTermEvent::Wakeup) {
539 wakeup = true;
540 } else {
541 events.push(event);
542 }
543
544 if events.len() > 100 {
545 break;
546 }
547 } else {
548 break;
549 }
550 },
551 }
552 }
553
554 if events.is_empty() && !wakeup {
555 smol::future::yield_now().await;
556 break 'outer;
557 }
558
559 terminal.update(cx, |this, cx| {
560 if wakeup {
561 this.process_event(&AlacTermEvent::Wakeup, cx);
562 }
563
564 for event in events {
565 this.process_event(&event, cx);
566 }
567 })?;
568 smol::future::yield_now().await;
569 }
570 }
571
572 anyhow::Ok(())
573 })
574 .detach();
575
576 self.terminal
577 }
578}
579
580#[derive(Debug, Clone, Deserialize, Serialize)]
581pub struct IndexedCell {
582 pub point: AlacPoint,
583 pub cell: Cell,
584}
585
586impl Deref for IndexedCell {
587 type Target = Cell;
588
589 #[inline]
590 fn deref(&self) -> &Cell {
591 &self.cell
592 }
593}
594
595// TODO: Un-pub
596#[derive(Clone)]
597pub struct TerminalContent {
598 pub cells: Vec<IndexedCell>,
599 pub mode: TermMode,
600 pub display_offset: usize,
601 pub selection_text: Option<String>,
602 pub selection: Option<SelectionRange>,
603 pub cursor: RenderableCursor,
604 pub cursor_char: char,
605 pub terminal_bounds: TerminalBounds,
606 pub last_hovered_word: Option<HoveredWord>,
607}
608
609#[derive(Clone)]
610pub struct HoveredWord {
611 pub word: String,
612 pub word_match: RangeInclusive<AlacPoint>,
613 pub id: usize,
614}
615
616impl Default for TerminalContent {
617 fn default() -> Self {
618 TerminalContent {
619 cells: Default::default(),
620 mode: Default::default(),
621 display_offset: Default::default(),
622 selection_text: Default::default(),
623 selection: Default::default(),
624 cursor: RenderableCursor {
625 shape: alacritty_terminal::vte::ansi::CursorShape::Block,
626 point: AlacPoint::new(Line(0), Column(0)),
627 },
628 cursor_char: Default::default(),
629 terminal_bounds: Default::default(),
630 last_hovered_word: None,
631 }
632 }
633}
634
635#[derive(PartialEq, Eq)]
636pub enum SelectionPhase {
637 Selecting,
638 Ended,
639}
640
641pub struct Terminal {
642 pty_tx: Notifier,
643 completion_tx: Sender<()>,
644 term: Arc<FairMutex<Term<ZedListener>>>,
645 term_config: Config,
646 events: VecDeque<InternalEvent>,
647 /// This is only used for mouse mode cell change detection
648 last_mouse: Option<(AlacPoint, AlacDirection)>,
649 pub matches: Vec<RangeInclusive<AlacPoint>>,
650 pub last_content: TerminalContent,
651 pub selection_head: Option<AlacPoint>,
652 pub breadcrumb_text: String,
653 pub pty_info: PtyProcessInfo,
654 title_override: Option<SharedString>,
655 pub python_venv_directory: Option<PathBuf>,
656 scroll_px: Pixels,
657 next_link_id: usize,
658 selection_phase: SelectionPhase,
659 url_regex: RegexSearch,
660 word_regex: RegexSearch,
661 python_file_line_regex: RegexSearch,
662 task: Option<TaskState>,
663 vi_mode_enabled: bool,
664 debug_terminal: bool,
665 is_ssh_terminal: bool,
666}
667
668pub struct TaskState {
669 pub id: TaskId,
670 pub full_label: String,
671 pub label: String,
672 pub command_label: String,
673 pub status: TaskStatus,
674 pub completion_rx: Receiver<()>,
675 pub hide: HideStrategy,
676 pub show_summary: bool,
677 pub show_command: bool,
678 pub show_rerun: bool,
679}
680
681/// A status of the current terminal tab's task.
682#[derive(Debug, Clone, Copy, PartialEq, Eq)]
683pub enum TaskStatus {
684 /// The task had been started, but got cancelled or somehow otherwise it did not
685 /// report its exit code before the terminal event loop was shut down.
686 Unknown,
687 /// The task is started and running currently.
688 Running,
689 /// After the start, the task stopped running and reported its error code back.
690 Completed { success: bool },
691}
692
693impl TaskStatus {
694 fn register_terminal_exit(&mut self) {
695 if self == &Self::Running {
696 *self = Self::Unknown;
697 }
698 }
699
700 fn register_task_exit(&mut self, error_code: i32) {
701 *self = TaskStatus::Completed {
702 success: error_code == 0,
703 };
704 }
705}
706
707impl Terminal {
708 fn process_event(&mut self, event: &AlacTermEvent, cx: &mut Context<Self>) {
709 match event {
710 AlacTermEvent::Title(title) => {
711 self.breadcrumb_text = title.to_string();
712 cx.emit(Event::BreadcrumbsChanged);
713 }
714 AlacTermEvent::ResetTitle => {
715 self.breadcrumb_text = String::new();
716 cx.emit(Event::BreadcrumbsChanged);
717 }
718 AlacTermEvent::ClipboardStore(_, data) => {
719 cx.write_to_clipboard(ClipboardItem::new_string(data.to_string()))
720 }
721 AlacTermEvent::ClipboardLoad(_, format) => {
722 self.write_to_pty(
723 match &cx.read_from_clipboard().and_then(|item| item.text()) {
724 // The terminal only supports pasting strings, not images.
725 Some(text) => format(text),
726 _ => format(""),
727 },
728 )
729 }
730 AlacTermEvent::PtyWrite(out) => self.write_to_pty(out.clone()),
731 AlacTermEvent::TextAreaSizeRequest(format) => {
732 self.write_to_pty(format(self.last_content.terminal_bounds.into()))
733 }
734 AlacTermEvent::CursorBlinkingChange => {
735 let terminal = self.term.lock();
736 let blinking = terminal.cursor_style().blinking;
737 cx.emit(Event::BlinkChanged(blinking));
738 }
739 AlacTermEvent::Bell => {
740 cx.emit(Event::Bell);
741 }
742 AlacTermEvent::Exit => self.register_task_finished(None, cx),
743 AlacTermEvent::MouseCursorDirty => {
744 //NOOP, Handled in render
745 }
746 AlacTermEvent::Wakeup => {
747 cx.emit(Event::Wakeup);
748
749 if self.pty_info.has_changed() {
750 cx.emit(Event::TitleChanged);
751 }
752 }
753 AlacTermEvent::ColorRequest(index, format) => {
754 // It's important that the color request is processed here to retain relative order
755 // with other PTY writes. Otherwise applications might witness out-of-order
756 // responses to requests. For example: An application sending `OSC 11 ; ? ST`
757 // (color request) followed by `CSI c` (request device attributes) would receive
758 // the response to `CSI c` first.
759 // Instead of locking, we could store the colors in `self.last_content`. But then
760 // we might respond with out of date value if a "set color" sequence is immediately
761 // followed by a color request sequence.
762 let color = self.term.lock().colors()[*index].unwrap_or_else(|| {
763 to_alac_rgb(get_color_at_index(*index, cx.theme().as_ref()))
764 });
765 self.write_to_pty(format(color));
766 }
767 AlacTermEvent::ChildExit(error_code) => {
768 self.register_task_finished(Some(*error_code), cx);
769 }
770 }
771 }
772
773 pub fn selection_started(&self) -> bool {
774 self.selection_phase == SelectionPhase::Selecting
775 }
776
777 fn process_terminal_event(
778 &mut self,
779 event: &InternalEvent,
780 term: &mut Term<ZedListener>,
781 window: &mut Window,
782 cx: &mut Context<Self>,
783 ) {
784 match event {
785 &InternalEvent::Resize(mut new_bounds) => {
786 new_bounds.bounds.size.height =
787 cmp::max(new_bounds.line_height, new_bounds.height());
788 new_bounds.bounds.size.width = cmp::max(new_bounds.cell_width, new_bounds.width());
789
790 self.last_content.terminal_bounds = new_bounds;
791
792 self.pty_tx.0.send(Msg::Resize(new_bounds.into())).ok();
793
794 term.resize(new_bounds);
795 }
796 InternalEvent::Clear => {
797 // Clear back buffer
798 term.clear_screen(ClearMode::Saved);
799
800 let cursor = term.grid().cursor.point;
801
802 // Clear the lines above
803 term.grid_mut().reset_region(..cursor.line);
804
805 // Copy the current line up
806 let line = term.grid()[cursor.line][..Column(term.grid().columns())]
807 .iter()
808 .cloned()
809 .enumerate()
810 .collect::<Vec<(usize, Cell)>>();
811
812 for (i, cell) in line {
813 term.grid_mut()[Line(0)][Column(i)] = cell;
814 }
815
816 // Reset the cursor
817 term.grid_mut().cursor.point =
818 AlacPoint::new(Line(0), term.grid_mut().cursor.point.column);
819 let new_cursor = term.grid().cursor.point;
820
821 // Clear the lines below the new cursor
822 if (new_cursor.line.0 as usize) < term.screen_lines() - 1 {
823 term.grid_mut().reset_region((new_cursor.line + 1)..);
824 }
825
826 cx.emit(Event::Wakeup);
827 }
828 InternalEvent::Scroll(scroll) => {
829 term.scroll_display(*scroll);
830 self.refresh_hovered_word(window);
831
832 if self.vi_mode_enabled {
833 match *scroll {
834 AlacScroll::Delta(delta) => {
835 term.vi_mode_cursor = term.vi_mode_cursor.scroll(&term, delta);
836 }
837 AlacScroll::PageUp => {
838 let lines = term.screen_lines() as i32;
839 term.vi_mode_cursor = term.vi_mode_cursor.scroll(&term, lines);
840 }
841 AlacScroll::PageDown => {
842 let lines = -(term.screen_lines() as i32);
843 term.vi_mode_cursor = term.vi_mode_cursor.scroll(&term, lines);
844 }
845 AlacScroll::Top => {
846 let point = AlacPoint::new(term.topmost_line(), Column(0));
847 term.vi_mode_cursor = ViModeCursor::new(point);
848 }
849 AlacScroll::Bottom => {
850 let point = AlacPoint::new(term.bottommost_line(), Column(0));
851 term.vi_mode_cursor = ViModeCursor::new(point);
852 }
853 }
854 if let Some(mut selection) = term.selection.take() {
855 let point = term.vi_mode_cursor.point;
856 selection.update(point, AlacDirection::Right);
857 term.selection = Some(selection);
858
859 #[cfg(any(target_os = "linux", target_os = "freebsd"))]
860 if let Some(selection_text) = term.selection_to_string() {
861 cx.write_to_primary(ClipboardItem::new_string(selection_text));
862 }
863
864 self.selection_head = Some(point);
865 cx.emit(Event::SelectionsChanged)
866 }
867 }
868 }
869 InternalEvent::SetSelection(selection) => {
870 term.selection = selection.as_ref().map(|(sel, _)| sel.clone());
871
872 #[cfg(any(target_os = "linux", target_os = "freebsd"))]
873 if let Some(selection_text) = term.selection_to_string() {
874 cx.write_to_primary(ClipboardItem::new_string(selection_text));
875 }
876
877 if let Some((_, head)) = selection {
878 self.selection_head = Some(*head);
879 }
880 cx.emit(Event::SelectionsChanged)
881 }
882 InternalEvent::UpdateSelection(position) => {
883 if let Some(mut selection) = term.selection.take() {
884 let (point, side) = grid_point_and_side(
885 *position,
886 self.last_content.terminal_bounds,
887 term.grid().display_offset(),
888 );
889
890 selection.update(point, side);
891 term.selection = Some(selection);
892
893 #[cfg(any(target_os = "linux", target_os = "freebsd"))]
894 if let Some(selection_text) = term.selection_to_string() {
895 cx.write_to_primary(ClipboardItem::new_string(selection_text));
896 }
897
898 self.selection_head = Some(point);
899 cx.emit(Event::SelectionsChanged)
900 }
901 }
902
903 InternalEvent::Copy => {
904 if let Some(txt) = term.selection_to_string() {
905 cx.write_to_clipboard(ClipboardItem::new_string(txt))
906 }
907 }
908 InternalEvent::ScrollToAlacPoint(point) => {
909 term.scroll_to_point(*point);
910 self.refresh_hovered_word(window);
911 }
912 InternalEvent::ToggleViMode => {
913 self.vi_mode_enabled = !self.vi_mode_enabled;
914 term.toggle_vi_mode();
915 }
916 InternalEvent::ViMotion(motion) => {
917 term.vi_motion(*motion);
918 }
919 InternalEvent::FindHyperlink(position, open) => {
920 let prev_hovered_word = self.last_content.last_hovered_word.take();
921
922 let point = grid_point(
923 *position,
924 self.last_content.terminal_bounds,
925 term.grid().display_offset(),
926 )
927 .grid_clamp(term, Boundary::Grid);
928
929 let link = term.grid().index(point).hyperlink();
930 let found_word = if link.is_some() {
931 let mut min_index = point;
932 loop {
933 let new_min_index = min_index.sub(term, Boundary::Cursor, 1);
934 if new_min_index == min_index
935 || term.grid().index(new_min_index).hyperlink() != link
936 {
937 break;
938 } else {
939 min_index = new_min_index
940 }
941 }
942
943 let mut max_index = point;
944 loop {
945 let new_max_index = max_index.add(term, Boundary::Cursor, 1);
946 if new_max_index == max_index
947 || term.grid().index(new_max_index).hyperlink() != link
948 {
949 break;
950 } else {
951 max_index = new_max_index
952 }
953 }
954
955 let url = link.unwrap().uri().to_owned();
956 let url_match = min_index..=max_index;
957
958 Some((url, true, url_match))
959 } else if let Some(url_match) = regex_match_at(term, point, &mut self.url_regex) {
960 let url = term.bounds_to_string(*url_match.start(), *url_match.end());
961 Some((url, true, url_match))
962 } else if let Some(python_match) =
963 regex_match_at(term, point, &mut self.python_file_line_regex)
964 {
965 let matching_line =
966 term.bounds_to_string(*python_match.start(), *python_match.end());
967 python_extract_path_and_line(&matching_line).map(|(file_path, line_number)| {
968 (format!("{file_path}:{line_number}"), false, python_match)
969 })
970 } else if let Some(word_match) = regex_match_at(term, point, &mut self.word_regex) {
971 let file_path = term.bounds_to_string(*word_match.start(), *word_match.end());
972
973 let (sanitized_match, sanitized_word) = 'sanitize: {
974 let mut word_match = word_match;
975 let mut file_path = file_path;
976
977 if is_path_surrounded_by_common_symbols(&file_path) {
978 word_match = Match::new(
979 word_match.start().add(term, Boundary::Grid, 1),
980 word_match.end().sub(term, Boundary::Grid, 1),
981 );
982 file_path = file_path[1..file_path.len() - 1].to_owned();
983 }
984
985 while file_path.ends_with(':') {
986 file_path.pop();
987 word_match = Match::new(
988 *word_match.start(),
989 word_match.end().sub(term, Boundary::Grid, 1),
990 );
991 }
992 let mut colon_count = 0;
993 for c in file_path.chars() {
994 if c == ':' {
995 colon_count += 1;
996 }
997 }
998 // strip trailing comment after colon in case of
999 // file/at/path.rs:row:column:description or error message
1000 // so that the file path is `file/at/path.rs:row:column`
1001 if colon_count > 2 {
1002 let last_index = file_path.rfind(':').unwrap();
1003 let prev_is_digit = last_index > 0
1004 && file_path
1005 .chars()
1006 .nth(last_index - 1)
1007 .map_or(false, |c| c.is_ascii_digit());
1008 let next_is_digit = last_index < file_path.len() - 1
1009 && file_path
1010 .chars()
1011 .nth(last_index + 1)
1012 .map_or(true, |c| c.is_ascii_digit());
1013 if prev_is_digit && !next_is_digit {
1014 let stripped_len = file_path.len() - last_index;
1015 word_match = Match::new(
1016 *word_match.start(),
1017 word_match.end().sub(term, Boundary::Grid, stripped_len),
1018 );
1019 file_path = file_path[0..last_index].to_owned();
1020 }
1021 }
1022
1023 break 'sanitize (word_match, file_path);
1024 };
1025
1026 Some((sanitized_word, false, sanitized_match))
1027 } else {
1028 None
1029 };
1030
1031 match found_word {
1032 Some((maybe_url_or_path, is_url, url_match)) => {
1033 let target = if is_url {
1034 // Treat "file://" URLs like file paths to ensure
1035 // that line numbers at the end of the path are
1036 // handled correctly
1037 if let Some(path) = maybe_url_or_path.strip_prefix("file://") {
1038 MaybeNavigationTarget::PathLike(PathLikeTarget {
1039 maybe_path: path.to_string(),
1040 terminal_dir: self.working_directory(),
1041 })
1042 } else {
1043 MaybeNavigationTarget::Url(maybe_url_or_path.clone())
1044 }
1045 } else {
1046 MaybeNavigationTarget::PathLike(PathLikeTarget {
1047 maybe_path: maybe_url_or_path.clone(),
1048 terminal_dir: self.working_directory(),
1049 })
1050 };
1051 if *open {
1052 cx.emit(Event::Open(target));
1053 } else {
1054 self.update_selected_word(
1055 prev_hovered_word,
1056 url_match,
1057 maybe_url_or_path,
1058 target,
1059 cx,
1060 );
1061 }
1062 }
1063 None => {
1064 cx.emit(Event::NewNavigationTarget(None));
1065 }
1066 }
1067 }
1068 }
1069 }
1070
1071 fn update_selected_word(
1072 &mut self,
1073 prev_word: Option<HoveredWord>,
1074 word_match: RangeInclusive<AlacPoint>,
1075 word: String,
1076 navigation_target: MaybeNavigationTarget,
1077 cx: &mut Context<Self>,
1078 ) {
1079 if let Some(prev_word) = prev_word {
1080 if prev_word.word == word && prev_word.word_match == word_match {
1081 self.last_content.last_hovered_word = Some(HoveredWord {
1082 word,
1083 word_match,
1084 id: prev_word.id,
1085 });
1086 return;
1087 }
1088 }
1089
1090 self.last_content.last_hovered_word = Some(HoveredWord {
1091 word: word.clone(),
1092 word_match,
1093 id: self.next_link_id(),
1094 });
1095 cx.emit(Event::NewNavigationTarget(Some(navigation_target)));
1096 cx.notify()
1097 }
1098
1099 fn next_link_id(&mut self) -> usize {
1100 let res = self.next_link_id;
1101 self.next_link_id = self.next_link_id.wrapping_add(1);
1102 res
1103 }
1104
1105 pub fn last_content(&self) -> &TerminalContent {
1106 &self.last_content
1107 }
1108
1109 pub fn set_cursor_shape(&mut self, cursor_shape: CursorShape) {
1110 self.term_config.default_cursor_style = cursor_shape.into();
1111 self.term.lock().set_options(self.term_config.clone());
1112 }
1113
1114 pub fn total_lines(&self) -> usize {
1115 let term = self.term.clone();
1116 let terminal = term.lock_unfair();
1117 terminal.total_lines()
1118 }
1119
1120 pub fn viewport_lines(&self) -> usize {
1121 let term = self.term.clone();
1122 let terminal = term.lock_unfair();
1123 terminal.screen_lines()
1124 }
1125
1126 //To test:
1127 //- Activate match on terminal (scrolling and selection)
1128 //- Editor search snapping behavior
1129
1130 pub fn activate_match(&mut self, index: usize) {
1131 if let Some(search_match) = self.matches.get(index).cloned() {
1132 self.set_selection(Some((make_selection(&search_match), *search_match.end())));
1133
1134 self.events
1135 .push_back(InternalEvent::ScrollToAlacPoint(*search_match.start()));
1136 }
1137 }
1138
1139 pub fn select_matches(&mut self, matches: &[RangeInclusive<AlacPoint>]) {
1140 let matches_to_select = self
1141 .matches
1142 .iter()
1143 .filter(|self_match| matches.contains(self_match))
1144 .cloned()
1145 .collect::<Vec<_>>();
1146 for match_to_select in matches_to_select {
1147 self.set_selection(Some((
1148 make_selection(&match_to_select),
1149 *match_to_select.end(),
1150 )));
1151 }
1152 }
1153
1154 pub fn select_all(&mut self) {
1155 let term = self.term.lock();
1156 let start = AlacPoint::new(term.topmost_line(), Column(0));
1157 let end = AlacPoint::new(term.bottommost_line(), term.last_column());
1158 drop(term);
1159 self.set_selection(Some((make_selection(&(start..=end)), end)));
1160 }
1161
1162 fn set_selection(&mut self, selection: Option<(Selection, AlacPoint)>) {
1163 self.events
1164 .push_back(InternalEvent::SetSelection(selection));
1165 }
1166
1167 pub fn copy(&mut self) {
1168 self.events.push_back(InternalEvent::Copy);
1169 }
1170
1171 pub fn clear(&mut self) {
1172 self.events.push_back(InternalEvent::Clear)
1173 }
1174
1175 pub fn scroll_line_up(&mut self) {
1176 self.events
1177 .push_back(InternalEvent::Scroll(AlacScroll::Delta(1)));
1178 }
1179
1180 pub fn scroll_up_by(&mut self, lines: usize) {
1181 self.events
1182 .push_back(InternalEvent::Scroll(AlacScroll::Delta(lines as i32)));
1183 }
1184
1185 pub fn scroll_line_down(&mut self) {
1186 self.events
1187 .push_back(InternalEvent::Scroll(AlacScroll::Delta(-1)));
1188 }
1189
1190 pub fn scroll_down_by(&mut self, lines: usize) {
1191 self.events
1192 .push_back(InternalEvent::Scroll(AlacScroll::Delta(-(lines as i32))));
1193 }
1194
1195 pub fn scroll_page_up(&mut self) {
1196 self.events
1197 .push_back(InternalEvent::Scroll(AlacScroll::PageUp));
1198 }
1199
1200 pub fn scroll_page_down(&mut self) {
1201 self.events
1202 .push_back(InternalEvent::Scroll(AlacScroll::PageDown));
1203 }
1204
1205 pub fn scroll_to_top(&mut self) {
1206 self.events
1207 .push_back(InternalEvent::Scroll(AlacScroll::Top));
1208 }
1209
1210 pub fn scroll_to_bottom(&mut self) {
1211 self.events
1212 .push_back(InternalEvent::Scroll(AlacScroll::Bottom));
1213 }
1214
1215 ///Resize the terminal and the PTY.
1216 pub fn set_size(&mut self, new_bounds: TerminalBounds) {
1217 if self.last_content.terminal_bounds != new_bounds {
1218 self.events.push_back(InternalEvent::Resize(new_bounds))
1219 }
1220 }
1221
1222 ///Write the Input payload to the tty.
1223 fn write_to_pty(&self, input: String) {
1224 self.pty_tx.notify(input.into_bytes());
1225 }
1226
1227 fn write_bytes_to_pty(&self, input: Vec<u8>) {
1228 self.pty_tx.notify(input);
1229 }
1230
1231 pub fn input(&mut self, input: String) {
1232 self.events
1233 .push_back(InternalEvent::Scroll(AlacScroll::Bottom));
1234 self.events.push_back(InternalEvent::SetSelection(None));
1235
1236 self.write_to_pty(input);
1237 }
1238
1239 pub fn input_bytes(&mut self, input: Vec<u8>) {
1240 self.events
1241 .push_back(InternalEvent::Scroll(AlacScroll::Bottom));
1242 self.events.push_back(InternalEvent::SetSelection(None));
1243
1244 self.write_bytes_to_pty(input);
1245 }
1246
1247 pub fn toggle_vi_mode(&mut self) {
1248 self.events.push_back(InternalEvent::ToggleViMode);
1249 }
1250
1251 pub fn vi_motion(&mut self, keystroke: &Keystroke) {
1252 if !self.vi_mode_enabled {
1253 return;
1254 }
1255
1256 let mut key = keystroke.key.clone();
1257 if keystroke.modifiers.shift {
1258 key = key.to_uppercase();
1259 }
1260
1261 let motion: Option<ViMotion> = match key.as_str() {
1262 "h" | "left" => Some(ViMotion::Left),
1263 "j" | "down" => Some(ViMotion::Down),
1264 "k" | "up" => Some(ViMotion::Up),
1265 "l" | "right" => Some(ViMotion::Right),
1266 "w" => Some(ViMotion::WordRight),
1267 "b" if !keystroke.modifiers.control => Some(ViMotion::WordLeft),
1268 "e" => Some(ViMotion::WordRightEnd),
1269 "%" => Some(ViMotion::Bracket),
1270 "$" => Some(ViMotion::Last),
1271 "0" => Some(ViMotion::First),
1272 "^" => Some(ViMotion::FirstOccupied),
1273 "H" => Some(ViMotion::High),
1274 "M" => Some(ViMotion::Middle),
1275 "L" => Some(ViMotion::Low),
1276 _ => None,
1277 };
1278
1279 if let Some(motion) = motion {
1280 let cursor = self.last_content.cursor.point;
1281 let cursor_pos = Point {
1282 x: cursor.column.0 as f32 * self.last_content.terminal_bounds.cell_width,
1283 y: cursor.line.0 as f32 * self.last_content.terminal_bounds.line_height,
1284 };
1285 self.events
1286 .push_back(InternalEvent::UpdateSelection(cursor_pos));
1287 self.events.push_back(InternalEvent::ViMotion(motion));
1288 return;
1289 }
1290
1291 let scroll_motion = match key.as_str() {
1292 "g" => Some(AlacScroll::Top),
1293 "G" => Some(AlacScroll::Bottom),
1294 "b" if keystroke.modifiers.control => Some(AlacScroll::PageUp),
1295 "f" if keystroke.modifiers.control => Some(AlacScroll::PageDown),
1296 "d" if keystroke.modifiers.control => {
1297 let amount = self.last_content.terminal_bounds.line_height().to_f64() as i32 / 2;
1298 Some(AlacScroll::Delta(-amount))
1299 }
1300 "u" if keystroke.modifiers.control => {
1301 let amount = self.last_content.terminal_bounds.line_height().to_f64() as i32 / 2;
1302 Some(AlacScroll::Delta(amount))
1303 }
1304 _ => None,
1305 };
1306
1307 if let Some(scroll_motion) = scroll_motion {
1308 self.events.push_back(InternalEvent::Scroll(scroll_motion));
1309 return;
1310 }
1311
1312 match key.as_str() {
1313 "v" => {
1314 let point = self.last_content.cursor.point;
1315 let selection_type = SelectionType::Simple;
1316 let side = AlacDirection::Right;
1317 let selection = Selection::new(selection_type, point, side);
1318 self.events
1319 .push_back(InternalEvent::SetSelection(Some((selection, point))));
1320 return;
1321 }
1322
1323 "escape" => {
1324 self.events.push_back(InternalEvent::SetSelection(None));
1325 return;
1326 }
1327
1328 "y" => {
1329 self.events.push_back(InternalEvent::Copy);
1330 self.events.push_back(InternalEvent::SetSelection(None));
1331 return;
1332 }
1333
1334 "i" => {
1335 self.scroll_to_bottom();
1336 self.toggle_vi_mode();
1337 return;
1338 }
1339 _ => {}
1340 }
1341 }
1342
1343 pub fn try_keystroke(&mut self, keystroke: &Keystroke, alt_is_meta: bool) -> bool {
1344 if self.vi_mode_enabled {
1345 self.vi_motion(keystroke);
1346 return true;
1347 }
1348
1349 // Keep default terminal behavior
1350 let esc = to_esc_str(keystroke, &self.last_content.mode, alt_is_meta);
1351 if let Some(esc) = esc {
1352 self.input(esc);
1353 true
1354 } else {
1355 false
1356 }
1357 }
1358
1359 pub fn try_modifiers_change(
1360 &mut self,
1361 modifiers: &Modifiers,
1362 window: &Window,
1363 cx: &mut Context<Self>,
1364 ) {
1365 if self
1366 .last_content
1367 .terminal_bounds
1368 .bounds
1369 .contains(&window.mouse_position())
1370 && modifiers.secondary()
1371 {
1372 self.refresh_hovered_word(window);
1373 }
1374 cx.notify();
1375 }
1376
1377 ///Paste text into the terminal
1378 pub fn paste(&mut self, text: &str) {
1379 let paste_text = if self.last_content.mode.contains(TermMode::BRACKETED_PASTE) {
1380 format!("{}{}{}", "\x1b[200~", text.replace('\x1b', ""), "\x1b[201~")
1381 } else {
1382 text.replace("\r\n", "\r").replace('\n', "\r")
1383 };
1384
1385 self.input(paste_text);
1386 }
1387
1388 pub fn sync(&mut self, window: &mut Window, cx: &mut Context<Self>) {
1389 let term = self.term.clone();
1390 let mut terminal = term.lock_unfair();
1391 //Note that the ordering of events matters for event processing
1392 while let Some(e) = self.events.pop_front() {
1393 self.process_terminal_event(&e, &mut terminal, window, cx)
1394 }
1395
1396 self.last_content = Self::make_content(&terminal, &self.last_content);
1397 }
1398
1399 fn make_content(term: &Term<ZedListener>, last_content: &TerminalContent) -> TerminalContent {
1400 let content = term.renderable_content();
1401 TerminalContent {
1402 cells: content
1403 .display_iter
1404 //TODO: Add this once there's a way to retain empty lines
1405 // .filter(|ic| {
1406 // !ic.flags.contains(Flags::HIDDEN)
1407 // && !(ic.bg == Named(NamedColor::Background)
1408 // && ic.c == ' '
1409 // && !ic.flags.contains(Flags::INVERSE))
1410 // })
1411 .map(|ic| IndexedCell {
1412 point: ic.point,
1413 cell: ic.cell.clone(),
1414 })
1415 .collect::<Vec<IndexedCell>>(),
1416 mode: content.mode,
1417 display_offset: content.display_offset,
1418 selection_text: term.selection_to_string(),
1419 selection: content.selection,
1420 cursor: content.cursor,
1421 cursor_char: term.grid()[content.cursor.point].c,
1422 terminal_bounds: last_content.terminal_bounds,
1423 last_hovered_word: last_content.last_hovered_word.clone(),
1424 }
1425 }
1426
1427 pub fn last_n_non_empty_lines(&self, n: usize) -> Vec<String> {
1428 let term = self.term.clone();
1429 let terminal = term.lock_unfair();
1430 let grid = terminal.grid();
1431 let mut lines = Vec::new();
1432
1433 let mut current_line = grid.bottommost_line().0;
1434 let topmost_line = grid.topmost_line().0;
1435
1436 while current_line >= topmost_line && lines.len() < n {
1437 let logical_line_start = self.find_logical_line_start(grid, current_line, topmost_line);
1438 let logical_line = self.construct_logical_line(grid, logical_line_start, current_line);
1439
1440 if let Some(line) = self.process_line(logical_line) {
1441 lines.push(line);
1442 }
1443
1444 // Move to the line above the start of the current logical line
1445 current_line = logical_line_start - 1;
1446 }
1447
1448 lines.reverse();
1449 lines
1450 }
1451
1452 fn find_logical_line_start(&self, grid: &Grid<Cell>, current: i32, topmost: i32) -> i32 {
1453 let mut line_start = current;
1454 while line_start > topmost {
1455 let prev_line = Line(line_start - 1);
1456 let last_cell = &grid[prev_line][Column(grid.columns() - 1)];
1457 if !last_cell.flags.contains(Flags::WRAPLINE) {
1458 break;
1459 }
1460 line_start -= 1;
1461 }
1462 line_start
1463 }
1464
1465 fn construct_logical_line(&self, grid: &Grid<Cell>, start: i32, end: i32) -> String {
1466 let mut logical_line = String::new();
1467 for row in start..=end {
1468 let grid_row = &grid[Line(row)];
1469 logical_line.push_str(&row_to_string(grid_row));
1470 }
1471 logical_line
1472 }
1473
1474 fn process_line(&self, line: String) -> Option<String> {
1475 let trimmed = line.trim_end().to_string();
1476 if !trimmed.is_empty() {
1477 Some(trimmed)
1478 } else {
1479 None
1480 }
1481 }
1482
1483 pub fn focus_in(&self) {
1484 if self.last_content.mode.contains(TermMode::FOCUS_IN_OUT) {
1485 self.write_to_pty("\x1b[I".to_string());
1486 }
1487 }
1488
1489 pub fn focus_out(&mut self) {
1490 if self.last_content.mode.contains(TermMode::FOCUS_IN_OUT) {
1491 self.write_to_pty("\x1b[O".to_string());
1492 }
1493 }
1494
1495 pub fn mouse_changed(&mut self, point: AlacPoint, side: AlacDirection) -> bool {
1496 match self.last_mouse {
1497 Some((old_point, old_side)) => {
1498 if old_point == point && old_side == side {
1499 false
1500 } else {
1501 self.last_mouse = Some((point, side));
1502 true
1503 }
1504 }
1505 None => {
1506 self.last_mouse = Some((point, side));
1507 true
1508 }
1509 }
1510 }
1511
1512 pub fn mouse_mode(&self, shift: bool) -> bool {
1513 self.last_content.mode.intersects(TermMode::MOUSE_MODE) && !shift
1514 }
1515
1516 pub fn mouse_move(&mut self, e: &MouseMoveEvent, cx: &mut Context<Self>) {
1517 let position = e.position - self.last_content.terminal_bounds.bounds.origin;
1518 if self.mouse_mode(e.modifiers.shift) {
1519 let (point, side) = grid_point_and_side(
1520 position,
1521 self.last_content.terminal_bounds,
1522 self.last_content.display_offset,
1523 );
1524
1525 if self.mouse_changed(point, side) {
1526 if let Some(bytes) =
1527 mouse_moved_report(point, e.pressed_button, e.modifiers, self.last_content.mode)
1528 {
1529 self.pty_tx.notify(bytes);
1530 }
1531 }
1532 } else if e.modifiers.secondary() {
1533 self.word_from_position(e.position);
1534 }
1535 cx.notify();
1536 }
1537
1538 fn word_from_position(&mut self, position: Point<Pixels>) {
1539 if self.selection_phase == SelectionPhase::Selecting {
1540 self.last_content.last_hovered_word = None;
1541 } else if self.last_content.terminal_bounds.bounds.contains(&position) {
1542 self.events.push_back(InternalEvent::FindHyperlink(
1543 position - self.last_content.terminal_bounds.bounds.origin,
1544 false,
1545 ));
1546 } else {
1547 self.last_content.last_hovered_word = None;
1548 }
1549 }
1550
1551 pub fn mouse_drag(
1552 &mut self,
1553 e: &MouseMoveEvent,
1554 region: Bounds<Pixels>,
1555 cx: &mut Context<Self>,
1556 ) {
1557 let position = e.position - self.last_content.terminal_bounds.bounds.origin;
1558 if !self.mouse_mode(e.modifiers.shift) {
1559 self.selection_phase = SelectionPhase::Selecting;
1560 // Alacritty has the same ordering, of first updating the selection
1561 // then scrolling 15ms later
1562 self.events
1563 .push_back(InternalEvent::UpdateSelection(position));
1564
1565 // Doesn't make sense to scroll the alt screen
1566 if !self.last_content.mode.contains(TermMode::ALT_SCREEN) {
1567 let scroll_lines = match self.drag_line_delta(e, region) {
1568 Some(value) => value,
1569 None => return,
1570 };
1571
1572 self.events
1573 .push_back(InternalEvent::Scroll(AlacScroll::Delta(scroll_lines)));
1574 }
1575
1576 cx.notify();
1577 }
1578 }
1579
1580 fn drag_line_delta(&self, e: &MouseMoveEvent, region: Bounds<Pixels>) -> Option<i32> {
1581 let top = region.origin.y;
1582 let bottom = region.bottom_left().y;
1583
1584 let scroll_lines = if e.position.y < top {
1585 let scroll_delta = (top - e.position.y).pow(1.1);
1586 (scroll_delta / self.last_content.terminal_bounds.line_height).ceil() as i32
1587 } else if e.position.y > bottom {
1588 let scroll_delta = -((e.position.y - bottom).pow(1.1));
1589 (scroll_delta / self.last_content.terminal_bounds.line_height).floor() as i32
1590 } else {
1591 return None;
1592 };
1593
1594 Some(scroll_lines)
1595 }
1596
1597 pub fn mouse_down(&mut self, e: &MouseDownEvent, _cx: &mut Context<Self>) {
1598 let position = e.position - self.last_content.terminal_bounds.bounds.origin;
1599 let point = grid_point(
1600 position,
1601 self.last_content.terminal_bounds,
1602 self.last_content.display_offset,
1603 );
1604
1605 if self.mouse_mode(e.modifiers.shift) {
1606 if let Some(bytes) =
1607 mouse_button_report(point, e.button, e.modifiers, true, self.last_content.mode)
1608 {
1609 self.pty_tx.notify(bytes);
1610 }
1611 } else {
1612 match e.button {
1613 MouseButton::Left => {
1614 let (point, side) = grid_point_and_side(
1615 position,
1616 self.last_content.terminal_bounds,
1617 self.last_content.display_offset,
1618 );
1619
1620 let selection_type = match e.click_count {
1621 0 => return, //This is a release
1622 1 => Some(SelectionType::Simple),
1623 2 => Some(SelectionType::Semantic),
1624 3 => Some(SelectionType::Lines),
1625 _ => None,
1626 };
1627
1628 if selection_type == Some(SelectionType::Simple) && e.modifiers.shift {
1629 self.events
1630 .push_back(InternalEvent::UpdateSelection(position));
1631 return;
1632 }
1633
1634 let selection = selection_type
1635 .map(|selection_type| Selection::new(selection_type, point, side));
1636
1637 if let Some(sel) = selection {
1638 self.events
1639 .push_back(InternalEvent::SetSelection(Some((sel, point))));
1640 }
1641 }
1642 #[cfg(any(target_os = "linux", target_os = "freebsd"))]
1643 MouseButton::Middle => {
1644 if let Some(item) = _cx.read_from_primary() {
1645 let text = item.text().unwrap_or_default().to_string();
1646 self.input(text);
1647 }
1648 }
1649 _ => {}
1650 }
1651 }
1652 }
1653
1654 pub fn mouse_up(&mut self, e: &MouseUpEvent, cx: &Context<Self>) {
1655 let setting = TerminalSettings::get_global(cx);
1656
1657 let position = e.position - self.last_content.terminal_bounds.bounds.origin;
1658 if self.mouse_mode(e.modifiers.shift) {
1659 let point = grid_point(
1660 position,
1661 self.last_content.terminal_bounds,
1662 self.last_content.display_offset,
1663 );
1664
1665 if let Some(bytes) =
1666 mouse_button_report(point, e.button, e.modifiers, false, self.last_content.mode)
1667 {
1668 self.pty_tx.notify(bytes);
1669 }
1670 } else {
1671 if e.button == MouseButton::Left && setting.copy_on_select {
1672 self.copy();
1673 }
1674
1675 //Hyperlinks
1676 if self.selection_phase == SelectionPhase::Ended {
1677 let mouse_cell_index =
1678 content_index_for_mouse(position, &self.last_content.terminal_bounds);
1679 if let Some(link) = self.last_content.cells[mouse_cell_index].hyperlink() {
1680 cx.open_url(link.uri());
1681 } else if e.modifiers.secondary() {
1682 self.events
1683 .push_back(InternalEvent::FindHyperlink(position, true));
1684 }
1685 }
1686 }
1687
1688 self.selection_phase = SelectionPhase::Ended;
1689 self.last_mouse = None;
1690 }
1691
1692 ///Scroll the terminal
1693 pub fn scroll_wheel(&mut self, e: &ScrollWheelEvent) {
1694 let mouse_mode = self.mouse_mode(e.shift);
1695
1696 if let Some(scroll_lines) = self.determine_scroll_lines(e, mouse_mode) {
1697 if mouse_mode {
1698 let point = grid_point(
1699 e.position - self.last_content.terminal_bounds.bounds.origin,
1700 self.last_content.terminal_bounds,
1701 self.last_content.display_offset,
1702 );
1703
1704 if let Some(scrolls) = scroll_report(point, scroll_lines, e, self.last_content.mode)
1705 {
1706 for scroll in scrolls {
1707 self.pty_tx.notify(scroll);
1708 }
1709 };
1710 } else if self
1711 .last_content
1712 .mode
1713 .contains(TermMode::ALT_SCREEN | TermMode::ALTERNATE_SCROLL)
1714 && !e.shift
1715 {
1716 self.pty_tx.notify(alt_scroll(scroll_lines))
1717 } else if scroll_lines != 0 {
1718 let scroll = AlacScroll::Delta(scroll_lines);
1719
1720 self.events.push_back(InternalEvent::Scroll(scroll));
1721 }
1722 }
1723 }
1724
1725 fn refresh_hovered_word(&mut self, window: &Window) {
1726 self.word_from_position(window.mouse_position());
1727 }
1728
1729 fn determine_scroll_lines(&mut self, e: &ScrollWheelEvent, mouse_mode: bool) -> Option<i32> {
1730 let scroll_multiplier = if mouse_mode { 1. } else { SCROLL_MULTIPLIER };
1731 let line_height = self.last_content.terminal_bounds.line_height;
1732 match e.touch_phase {
1733 /* Reset scroll state on started */
1734 TouchPhase::Started => {
1735 self.scroll_px = px(0.);
1736 None
1737 }
1738 /* Calculate the appropriate scroll lines */
1739 TouchPhase::Moved => {
1740 let old_offset = (self.scroll_px / line_height) as i32;
1741
1742 self.scroll_px += e.delta.pixel_delta(line_height).y * scroll_multiplier;
1743
1744 let new_offset = (self.scroll_px / line_height) as i32;
1745
1746 // Whenever we hit the edges, reset our stored scroll to 0
1747 // so we can respond to changes in direction quickly
1748 self.scroll_px %= self.last_content.terminal_bounds.height();
1749
1750 Some(new_offset - old_offset)
1751 }
1752 TouchPhase::Ended => None,
1753 }
1754 }
1755
1756 pub fn find_matches(
1757 &self,
1758 mut searcher: RegexSearch,
1759 cx: &Context<Self>,
1760 ) -> Task<Vec<RangeInclusive<AlacPoint>>> {
1761 let term = self.term.clone();
1762 cx.background_spawn(async move {
1763 let term = term.lock();
1764
1765 all_search_matches(&term, &mut searcher).collect()
1766 })
1767 }
1768
1769 pub fn working_directory(&self) -> Option<PathBuf> {
1770 if self.is_ssh_terminal {
1771 // We can't yet reliably detect the working directory of a shell on the
1772 // SSH host. Until we can do that, it doesn't make sense to display
1773 // the working directory on the client and persist that.
1774 None
1775 } else {
1776 self.client_side_working_directory()
1777 }
1778 }
1779
1780 /// Returns the working directory of the process that's connected to the PTY.
1781 /// That means it returns the working directory of the local shell or program
1782 /// that's running inside the terminal.
1783 ///
1784 /// This does *not* return the working directory of the shell that runs on the
1785 /// remote host, in case Zed is connected to a remote host.
1786 fn client_side_working_directory(&self) -> Option<PathBuf> {
1787 self.pty_info
1788 .current
1789 .as_ref()
1790 .map(|process| process.cwd.clone())
1791 }
1792
1793 pub fn title(&self, truncate: bool) -> String {
1794 const MAX_CHARS: usize = 25;
1795 match &self.task {
1796 Some(task_state) => {
1797 if truncate {
1798 truncate_and_trailoff(&task_state.label, MAX_CHARS)
1799 } else {
1800 task_state.full_label.clone()
1801 }
1802 }
1803 None => self
1804 .title_override
1805 .as_ref()
1806 .map(|title_override| title_override.to_string())
1807 .unwrap_or_else(|| {
1808 self.pty_info
1809 .current
1810 .as_ref()
1811 .map(|fpi| {
1812 let process_file = fpi
1813 .cwd
1814 .file_name()
1815 .map(|name| name.to_string_lossy().to_string())
1816 .unwrap_or_default();
1817
1818 let argv = fpi.argv.clone();
1819 let process_name = format!(
1820 "{}{}",
1821 fpi.name,
1822 if !argv.is_empty() {
1823 format!(" {}", (argv[1..]).join(" "))
1824 } else {
1825 "".to_string()
1826 }
1827 );
1828 let (process_file, process_name) = if truncate {
1829 (
1830 truncate_and_trailoff(&process_file, MAX_CHARS),
1831 truncate_and_trailoff(&process_name, MAX_CHARS),
1832 )
1833 } else {
1834 (process_file, process_name)
1835 };
1836 format!("{process_file} — {process_name}")
1837 })
1838 .unwrap_or_else(|| "Terminal".to_string())
1839 }),
1840 }
1841 }
1842
1843 pub fn task(&self) -> Option<&TaskState> {
1844 self.task.as_ref()
1845 }
1846
1847 pub fn debug_terminal(&self) -> bool {
1848 self.debug_terminal
1849 }
1850
1851 pub fn wait_for_completed_task(&self, cx: &App) -> Task<()> {
1852 if let Some(task) = self.task() {
1853 if task.status == TaskStatus::Running {
1854 let completion_receiver = task.completion_rx.clone();
1855 return cx.spawn(async move |_| {
1856 let _ = completion_receiver.recv().await;
1857 });
1858 }
1859 }
1860 Task::ready(())
1861 }
1862
1863 fn register_task_finished(&mut self, error_code: Option<i32>, cx: &mut Context<Terminal>) {
1864 self.completion_tx.try_send(()).ok();
1865 let task = match &mut self.task {
1866 Some(task) => task,
1867 None => {
1868 if error_code.is_none() {
1869 cx.emit(Event::CloseTerminal);
1870 }
1871 return;
1872 }
1873 };
1874 if task.status != TaskStatus::Running {
1875 return;
1876 }
1877 match error_code {
1878 Some(error_code) => {
1879 task.status.register_task_exit(error_code);
1880 }
1881 None => {
1882 task.status.register_terminal_exit();
1883 }
1884 };
1885
1886 let (finished_successfully, task_line, command_line) = task_summary(task, error_code);
1887 let mut lines_to_show = Vec::new();
1888 if task.show_summary {
1889 lines_to_show.push(task_line.as_str());
1890 }
1891 if task.show_command {
1892 lines_to_show.push(command_line.as_str());
1893 }
1894
1895 if !lines_to_show.is_empty() {
1896 // SAFETY: the invocation happens on non `TaskStatus::Running` tasks, once,
1897 // after either `AlacTermEvent::Exit` or `AlacTermEvent::ChildExit` events that are spawned
1898 // when Zed task finishes and no more output is made.
1899 // After the task summary is output once, no more text is appended to the terminal.
1900 unsafe { append_text_to_term(&mut self.term.lock(), &lines_to_show) };
1901 }
1902
1903 cx.emit(Event::TaskLocatorReady {
1904 task_id: task.id.clone(),
1905 success: finished_successfully,
1906 });
1907
1908 match task.hide {
1909 HideStrategy::Never => {}
1910 HideStrategy::Always => {
1911 cx.emit(Event::CloseTerminal);
1912 }
1913 HideStrategy::OnSuccess => {
1914 if finished_successfully {
1915 cx.emit(Event::CloseTerminal);
1916 }
1917 }
1918 }
1919 }
1920
1921 pub fn vi_mode_enabled(&self) -> bool {
1922 self.vi_mode_enabled
1923 }
1924}
1925
1926// Helper function to convert a grid row to a string
1927pub fn row_to_string(row: &Row<Cell>) -> String {
1928 row[..Column(row.len())]
1929 .iter()
1930 .map(|cell| cell.c)
1931 .collect::<String>()
1932}
1933
1934fn is_path_surrounded_by_common_symbols(path: &str) -> bool {
1935 // Avoid detecting `[]` or `()` strings as paths, surrounded by common symbols
1936 path.len() > 2
1937 // The rest of the brackets and various quotes cannot be matched by the [`WORD_REGEX`] hence not checked for.
1938 && (path.starts_with('[') && path.ends_with(']')
1939 || path.starts_with('(') && path.ends_with(')'))
1940}
1941
1942const TASK_DELIMITER: &str = "⏵ ";
1943fn task_summary(task: &TaskState, error_code: Option<i32>) -> (bool, String, String) {
1944 let escaped_full_label = task.full_label.replace("\r\n", "\r").replace('\n', "\r");
1945 let (success, task_line) = match error_code {
1946 Some(0) => (
1947 true,
1948 format!("{TASK_DELIMITER}Task `{escaped_full_label}` finished successfully"),
1949 ),
1950 Some(error_code) => (
1951 false,
1952 format!(
1953 "{TASK_DELIMITER}Task `{escaped_full_label}` finished with non-zero error code: {error_code}"
1954 ),
1955 ),
1956 None => (
1957 false,
1958 format!("{TASK_DELIMITER}Task `{escaped_full_label}` finished"),
1959 ),
1960 };
1961 let escaped_command_label = task.command_label.replace("\r\n", "\r").replace('\n', "\r");
1962 let command_line = format!("{TASK_DELIMITER}Command: {escaped_command_label}");
1963 (success, task_line, command_line)
1964}
1965
1966/// Appends a stringified task summary to the terminal, after its output.
1967///
1968/// SAFETY: This function should only be called after terminal's PTY is no longer alive.
1969/// New text being added to the terminal here, uses "less public" APIs,
1970/// which are not maintaining the entire terminal state intact.
1971///
1972///
1973/// The library
1974///
1975/// * does not increment inner grid cursor's _lines_ on `input` calls
1976/// (but displaying the lines correctly and incrementing cursor's columns)
1977///
1978/// * ignores `\n` and \r` character input, requiring the `newline` call instead
1979///
1980/// * does not alter grid state after `newline` call
1981/// so its `bottommost_line` is always the same additions, and
1982/// the cursor's `point` is not updated to the new line and column values
1983///
1984/// * ??? there could be more consequences, and any further "proper" streaming from the PTY might bug and/or panic.
1985/// Still, subsequent `append_text_to_term` invocations are possible and display the contents correctly.
1986///
1987/// Despite the quirks, this is the simplest approach to appending text to the terminal: its alternative, `grid_mut` manipulations,
1988/// do not properly set the scrolling state and display odd text after appending; also those manipulations are more tedious and error-prone.
1989/// The function achieves proper display and scrolling capabilities, at a cost of grid state not properly synchronized.
1990/// This is enough for printing moderately-sized texts like task summaries, but might break or perform poorly for larger texts.
1991unsafe fn append_text_to_term(term: &mut Term<ZedListener>, text_lines: &[&str]) {
1992 term.newline();
1993 term.grid_mut().cursor.point.column = Column(0);
1994 for line in text_lines {
1995 for c in line.chars() {
1996 term.input(c);
1997 }
1998 term.newline();
1999 term.grid_mut().cursor.point.column = Column(0);
2000 }
2001}
2002
2003impl Drop for Terminal {
2004 fn drop(&mut self) {
2005 self.pty_tx.0.send(Msg::Shutdown).ok();
2006 }
2007}
2008
2009impl EventEmitter<Event> for Terminal {}
2010
2011/// Based on alacritty/src/display/hint.rs > regex_match_at
2012/// Retrieve the match, if the specified point is inside the content matching the regex.
2013fn regex_match_at<T>(term: &Term<T>, point: AlacPoint, regex: &mut RegexSearch) -> Option<Match> {
2014 visible_regex_match_iter(term, regex).find(|rm| rm.contains(&point))
2015}
2016
2017/// Copied from alacritty/src/display/hint.rs:
2018/// Iterate over all visible regex matches.
2019pub fn visible_regex_match_iter<'a, T>(
2020 term: &'a Term<T>,
2021 regex: &'a mut RegexSearch,
2022) -> impl Iterator<Item = Match> + 'a {
2023 let viewport_start = Line(-(term.grid().display_offset() as i32));
2024 let viewport_end = viewport_start + term.bottommost_line();
2025 let mut start = term.line_search_left(AlacPoint::new(viewport_start, Column(0)));
2026 let mut end = term.line_search_right(AlacPoint::new(viewport_end, Column(0)));
2027 start.line = start.line.max(viewport_start - MAX_SEARCH_LINES);
2028 end.line = end.line.min(viewport_end + MAX_SEARCH_LINES);
2029
2030 RegexIter::new(start, end, AlacDirection::Right, term, regex)
2031 .skip_while(move |rm| rm.end().line < viewport_start)
2032 .take_while(move |rm| rm.start().line <= viewport_end)
2033}
2034
2035fn make_selection(range: &RangeInclusive<AlacPoint>) -> Selection {
2036 let mut selection = Selection::new(SelectionType::Simple, *range.start(), AlacDirection::Left);
2037 selection.update(*range.end(), AlacDirection::Right);
2038 selection
2039}
2040
2041fn all_search_matches<'a, T>(
2042 term: &'a Term<T>,
2043 regex: &'a mut RegexSearch,
2044) -> impl Iterator<Item = Match> + 'a {
2045 let start = AlacPoint::new(term.grid().topmost_line(), Column(0));
2046 let end = AlacPoint::new(term.grid().bottommost_line(), term.grid().last_column());
2047 RegexIter::new(start, end, AlacDirection::Right, term, regex)
2048}
2049
2050fn content_index_for_mouse(pos: Point<Pixels>, terminal_bounds: &TerminalBounds) -> usize {
2051 let col = (pos.x / terminal_bounds.cell_width()).round() as usize;
2052 let clamped_col = min(col, terminal_bounds.columns() - 1);
2053 let row = (pos.y / terminal_bounds.line_height()).round() as usize;
2054 let clamped_row = min(row, terminal_bounds.screen_lines() - 1);
2055 clamped_row * terminal_bounds.columns() + clamped_col
2056}
2057
2058/// Converts an 8 bit ANSI color to its GPUI equivalent.
2059/// Accepts `usize` for compatibility with the `alacritty::Colors` interface,
2060/// Other than that use case, should only be called with values in the `[0,255]` range
2061pub fn get_color_at_index(index: usize, theme: &Theme) -> Hsla {
2062 let colors = theme.colors();
2063
2064 match index {
2065 // 0-15 are the same as the named colors above
2066 0 => colors.terminal_ansi_black,
2067 1 => colors.terminal_ansi_red,
2068 2 => colors.terminal_ansi_green,
2069 3 => colors.terminal_ansi_yellow,
2070 4 => colors.terminal_ansi_blue,
2071 5 => colors.terminal_ansi_magenta,
2072 6 => colors.terminal_ansi_cyan,
2073 7 => colors.terminal_ansi_white,
2074 8 => colors.terminal_ansi_bright_black,
2075 9 => colors.terminal_ansi_bright_red,
2076 10 => colors.terminal_ansi_bright_green,
2077 11 => colors.terminal_ansi_bright_yellow,
2078 12 => colors.terminal_ansi_bright_blue,
2079 13 => colors.terminal_ansi_bright_magenta,
2080 14 => colors.terminal_ansi_bright_cyan,
2081 15 => colors.terminal_ansi_bright_white,
2082 // 16-231 are mapped to their RGB colors on a 0-5 range per channel
2083 16..=231 => {
2084 let (r, g, b) = rgb_for_index(index as u8); // Split the index into its ANSI-RGB components
2085 let step = (u8::MAX as f32 / 5.).floor() as u8; // Split the RGB range into 5 chunks, with floor so no overflow
2086 rgba_color(r * step, g * step, b * step) // Map the ANSI-RGB components to an RGB color
2087 }
2088 // 232-255 are a 24 step grayscale from black to white
2089 232..=255 => {
2090 let i = index as u8 - 232; // Align index to 0..24
2091 let step = (u8::MAX as f32 / 24.).floor() as u8; // Split the RGB grayscale values into 24 chunks
2092 rgba_color(i * step, i * step, i * step) // Map the ANSI-grayscale components to the RGB-grayscale
2093 }
2094 // For compatibility with the alacritty::Colors interface
2095 // See: https://github.com/alacritty/alacritty/blob/master/alacritty_terminal/src/term/color.rs
2096 256 => colors.terminal_foreground,
2097 257 => colors.terminal_background,
2098 258 => theme.players().local().cursor,
2099 259 => colors.terminal_ansi_dim_black,
2100 260 => colors.terminal_ansi_dim_red,
2101 261 => colors.terminal_ansi_dim_green,
2102 262 => colors.terminal_ansi_dim_yellow,
2103 263 => colors.terminal_ansi_dim_blue,
2104 264 => colors.terminal_ansi_dim_magenta,
2105 265 => colors.terminal_ansi_dim_cyan,
2106 266 => colors.terminal_ansi_dim_white,
2107 267 => colors.terminal_bright_foreground,
2108 268 => colors.terminal_ansi_black, // 'Dim Background', non-standard color
2109
2110 _ => black(),
2111 }
2112}
2113
2114/// Generates the RGB channels in [0, 5] for a given index into the 6x6x6 ANSI color cube.
2115/// See: [8 bit ANSI color](https://en.wikipedia.org/wiki/ANSI_escape_code#8-bit).
2116///
2117/// Wikipedia gives a formula for calculating the index for a given color:
2118///
2119/// ```
2120/// index = 16 + 36 × r + 6 × g + b (0 ≤ r, g, b ≤ 5)
2121/// ```
2122///
2123/// This function does the reverse, calculating the `r`, `g`, and `b` components from a given index.
2124fn rgb_for_index(i: u8) -> (u8, u8, u8) {
2125 debug_assert!((16..=231).contains(&i));
2126 let i = i - 16;
2127 let r = (i - (i % 36)) / 36;
2128 let g = ((i % 36) - (i % 6)) / 6;
2129 let b = (i % 36) % 6;
2130 (r, g, b)
2131}
2132
2133pub fn rgba_color(r: u8, g: u8, b: u8) -> Hsla {
2134 Rgba {
2135 r: (r as f32 / 255.),
2136 g: (g as f32 / 255.),
2137 b: (b as f32 / 255.),
2138 a: 1.,
2139 }
2140 .into()
2141}
2142
2143#[cfg(test)]
2144mod tests {
2145 use alacritty_terminal::{
2146 index::{Column, Line, Point as AlacPoint},
2147 term::cell::Cell,
2148 };
2149 use gpui::{bounds, point, size, Pixels, Point};
2150 use rand::{distributions::Alphanumeric, rngs::ThreadRng, thread_rng, Rng};
2151
2152 use crate::{
2153 content_index_for_mouse, python_extract_path_and_line, rgb_for_index, IndexedCell,
2154 TerminalBounds, TerminalContent,
2155 };
2156
2157 #[test]
2158 fn test_rgb_for_index() {
2159 // Test every possible value in the color cube.
2160 for i in 16..=231 {
2161 let (r, g, b) = rgb_for_index(i);
2162 assert_eq!(i, 16 + 36 * r + 6 * g + b);
2163 }
2164 }
2165
2166 #[test]
2167 fn test_mouse_to_cell_test() {
2168 let mut rng = thread_rng();
2169 const ITERATIONS: usize = 10;
2170 const PRECISION: usize = 1000;
2171
2172 for _ in 0..ITERATIONS {
2173 let viewport_cells = rng.gen_range(15..20);
2174 let cell_size = rng.gen_range(5 * PRECISION..20 * PRECISION) as f32 / PRECISION as f32;
2175
2176 let size = crate::TerminalBounds {
2177 cell_width: Pixels::from(cell_size),
2178 line_height: Pixels::from(cell_size),
2179 bounds: bounds(
2180 Point::default(),
2181 size(
2182 Pixels::from(cell_size * (viewport_cells as f32)),
2183 Pixels::from(cell_size * (viewport_cells as f32)),
2184 ),
2185 ),
2186 };
2187
2188 let cells = get_cells(size, &mut rng);
2189 let content = convert_cells_to_content(size, &cells);
2190
2191 for row in 0..(viewport_cells - 1) {
2192 let row = row as usize;
2193 for col in 0..(viewport_cells - 1) {
2194 let col = col as usize;
2195
2196 let row_offset = rng.gen_range(0..PRECISION) as f32 / PRECISION as f32;
2197 let col_offset = rng.gen_range(0..PRECISION) as f32 / PRECISION as f32;
2198
2199 let mouse_pos = point(
2200 Pixels::from(col as f32 * cell_size + col_offset),
2201 Pixels::from(row as f32 * cell_size + row_offset),
2202 );
2203
2204 let content_index =
2205 content_index_for_mouse(mouse_pos, &content.terminal_bounds);
2206 let mouse_cell = content.cells[content_index].c;
2207 let real_cell = cells[row][col];
2208
2209 assert_eq!(mouse_cell, real_cell);
2210 }
2211 }
2212 }
2213 }
2214
2215 #[test]
2216 fn test_mouse_to_cell_clamp() {
2217 let mut rng = thread_rng();
2218
2219 let size = crate::TerminalBounds {
2220 cell_width: Pixels::from(10.),
2221 line_height: Pixels::from(10.),
2222 bounds: bounds(
2223 Point::default(),
2224 size(Pixels::from(100.), Pixels::from(100.)),
2225 ),
2226 };
2227
2228 let cells = get_cells(size, &mut rng);
2229 let content = convert_cells_to_content(size, &cells);
2230
2231 assert_eq!(
2232 content.cells[content_index_for_mouse(
2233 point(Pixels::from(-10.), Pixels::from(-10.)),
2234 &content.terminal_bounds,
2235 )]
2236 .c,
2237 cells[0][0]
2238 );
2239 assert_eq!(
2240 content.cells[content_index_for_mouse(
2241 point(Pixels::from(1000.), Pixels::from(1000.)),
2242 &content.terminal_bounds,
2243 )]
2244 .c,
2245 cells[9][9]
2246 );
2247 }
2248
2249 fn get_cells(size: TerminalBounds, rng: &mut ThreadRng) -> Vec<Vec<char>> {
2250 let mut cells = Vec::new();
2251
2252 for _ in 0..((size.height() / size.line_height()) as usize) {
2253 let mut row_vec = Vec::new();
2254 for _ in 0..((size.width() / size.cell_width()) as usize) {
2255 let cell_char = rng.sample(Alphanumeric) as char;
2256 row_vec.push(cell_char)
2257 }
2258 cells.push(row_vec)
2259 }
2260
2261 cells
2262 }
2263
2264 fn convert_cells_to_content(
2265 terminal_bounds: TerminalBounds,
2266 cells: &[Vec<char>],
2267 ) -> TerminalContent {
2268 let mut ic = Vec::new();
2269
2270 for (index, row) in cells.iter().enumerate() {
2271 for (cell_index, cell_char) in row.iter().enumerate() {
2272 ic.push(IndexedCell {
2273 point: AlacPoint::new(Line(index as i32), Column(cell_index)),
2274 cell: Cell {
2275 c: *cell_char,
2276 ..Default::default()
2277 },
2278 });
2279 }
2280 }
2281
2282 TerminalContent {
2283 cells: ic,
2284 terminal_bounds,
2285 ..Default::default()
2286 }
2287 }
2288
2289 fn re_test(re: &str, hay: &str, expected: Vec<&str>) {
2290 let results: Vec<_> = regex::Regex::new(re)
2291 .unwrap()
2292 .find_iter(hay)
2293 .map(|m| m.as_str())
2294 .collect();
2295 assert_eq!(results, expected);
2296 }
2297 #[test]
2298 fn test_url_regex() {
2299 re_test(
2300 crate::URL_REGEX,
2301 "test http://example.com test mailto:bob@example.com train",
2302 vec!["http://example.com", "mailto:bob@example.com"],
2303 );
2304 }
2305 #[test]
2306 fn test_word_regex() {
2307 re_test(
2308 crate::WORD_REGEX,
2309 "hello, world! \"What\" is this?",
2310 vec!["hello", "world", "What", "is", "this"],
2311 );
2312 }
2313 #[test]
2314 fn test_word_regex_with_linenum() {
2315 // filename(line) and filename(line,col) as used in MSBuild output
2316 // should be considered a single "word", even though comma is
2317 // usually a word separator
2318 re_test(
2319 crate::WORD_REGEX,
2320 "a Main.cs(20) b",
2321 vec!["a", "Main.cs(20)", "b"],
2322 );
2323 re_test(
2324 crate::WORD_REGEX,
2325 "Main.cs(20,5) Error desc",
2326 vec!["Main.cs(20,5)", "Error", "desc"],
2327 );
2328 // filename:line:col is a popular format for unix tools
2329 re_test(
2330 crate::WORD_REGEX,
2331 "a Main.cs:20:5 b",
2332 vec!["a", "Main.cs:20:5", "b"],
2333 );
2334 // Some tools output "filename:line:col:message", which currently isn't
2335 // handled correctly, but might be in the future
2336 re_test(
2337 crate::WORD_REGEX,
2338 "Main.cs:20:5:Error desc",
2339 vec!["Main.cs:20:5:Error", "desc"],
2340 );
2341 }
2342
2343 #[test]
2344 fn test_python_file_line_regex() {
2345 re_test(
2346 crate::PYTHON_FILE_LINE_REGEX,
2347 "hay File \"/zed/bad_py.py\", line 8 stack",
2348 vec!["File \"/zed/bad_py.py\", line 8"],
2349 );
2350 re_test(crate::PYTHON_FILE_LINE_REGEX, "unrelated", vec![]);
2351 }
2352
2353 #[test]
2354 fn test_python_file_line() {
2355 let inputs: Vec<(&str, Option<(&str, u32)>)> = vec![
2356 (
2357 "File \"/zed/bad_py.py\", line 8",
2358 Some(("/zed/bad_py.py", 8u32)),
2359 ),
2360 ("File \"path/to/zed/bad_py.py\"", None),
2361 ("unrelated", None),
2362 ("", None),
2363 ];
2364 let actual = inputs
2365 .iter()
2366 .map(|input| python_extract_path_and_line(input.0))
2367 .collect::<Vec<_>>();
2368 let expected = inputs.iter().map(|(_, output)| *output).collect::<Vec<_>>();
2369 assert_eq!(actual, expected);
2370 }
2371}