use std::{cmp, ops::ControlFlow, path::PathBuf, sync::Arc, time::Duration}; use crate::{ default_working_directory, persistence::{ deserialize_terminal_panel, serialize_pane_group, SerializedItems, SerializedTerminalPanel, }, TerminalView, }; use breadcrumbs::Breadcrumbs; use collections::HashMap; use db::kvp::KEY_VALUE_STORE; use futures::future::join_all; use gpui::{ actions, Action, AnchorCorner, AnyView, AppContext, AsyncWindowContext, EventEmitter, ExternalPaths, FocusHandle, FocusableView, IntoElement, Model, ParentElement, Pixels, Render, Styled, Task, View, ViewContext, VisualContext, WeakView, WindowContext, }; use itertools::Itertools; use project::{terminals::TerminalKind, Fs, Project, ProjectEntryId}; use search::{buffer_search::DivRegistrar, BufferSearchBar}; use settings::Settings; use task::{RevealStrategy, Shell, SpawnInTerminal, TaskId}; use terminal::{ terminal_settings::{TerminalDockPosition, TerminalSettings}, Terminal, }; use ui::{ div, h_flex, ButtonCommon, Clickable, ContextMenu, IconButton, IconSize, InteractiveElement, PopoverMenu, Selectable, Tooltip, }; use util::{ResultExt, TryFutureExt}; use workspace::{ dock::{DockPosition, Panel, PanelEvent}, item::SerializableItem, move_item, pane, ui::IconName, ActivateNextPane, ActivatePane, ActivatePaneInDirection, ActivatePreviousPane, DraggedTab, ItemId, NewTerminal, Pane, PaneGroup, SplitDirection, SwapPaneInDirection, ToggleZoom, Workspace, }; use anyhow::Result; use zed_actions::InlineAssist; const TERMINAL_PANEL_KEY: &str = "TerminalPanel"; actions!(terminal_panel, [ToggleFocus]); pub fn init(cx: &mut AppContext) { cx.observe_new_views( |workspace: &mut Workspace, _: &mut ViewContext| { workspace.register_action(TerminalPanel::new_terminal); workspace.register_action(TerminalPanel::open_terminal); workspace.register_action(|workspace, _: &ToggleFocus, cx| { if workspace .panel::(cx) .as_ref() .is_some_and(|panel| panel.read(cx).enabled) { workspace.toggle_panel_focus::(cx); } }); }, ) .detach(); } pub struct TerminalPanel { pub(crate) active_pane: View, pub(crate) center: PaneGroup, fs: Arc, workspace: WeakView, pub(crate) width: Option, pub(crate) height: Option, pending_serialization: Task>, pending_terminals_to_add: usize, deferred_tasks: HashMap>, enabled: bool, assistant_enabled: bool, assistant_tab_bar_button: Option, } impl TerminalPanel { pub fn new(workspace: &Workspace, cx: &mut ViewContext) -> Self { let project = workspace.project(); let pane = new_terminal_pane(workspace.weak_handle(), project.clone(), cx); let center = PaneGroup::new(pane.clone()); let enabled = project.read(cx).supports_terminal(cx); let terminal_panel = Self { center, active_pane: pane, fs: workspace.app_state().fs.clone(), workspace: workspace.weak_handle(), pending_serialization: Task::ready(None), width: None, height: None, pending_terminals_to_add: 0, deferred_tasks: HashMap::default(), enabled, assistant_enabled: false, assistant_tab_bar_button: None, }; terminal_panel.apply_tab_bar_buttons(&terminal_panel.active_pane, cx); terminal_panel } pub fn asssistant_enabled(&mut self, enabled: bool, cx: &mut ViewContext) { self.assistant_enabled = enabled; if enabled { let focus_handle = self .active_pane .read(cx) .active_item() .map(|item| item.focus_handle(cx)) .unwrap_or(self.focus_handle(cx)); self.assistant_tab_bar_button = Some( cx.new_view(move |_| InlineAssistTabBarButton { focus_handle }) .into(), ); } else { self.assistant_tab_bar_button = None; } for pane in self.center.panes() { self.apply_tab_bar_buttons(pane, cx); } } fn apply_tab_bar_buttons(&self, terminal_pane: &View, cx: &mut ViewContext) { let assistant_tab_bar_button = self.assistant_tab_bar_button.clone(); terminal_pane.update(cx, |pane, cx| { pane.set_render_tab_bar_buttons(cx, move |pane, cx| { if !pane.has_focus(cx) && !pane.context_menu_focused(cx) { return (None, None); } let focus_handle = pane.focus_handle(cx); let right_children = h_flex() .gap_2() .children(assistant_tab_bar_button.clone()) .child( PopoverMenu::new("terminal-tab-bar-popover-menu") .trigger( IconButton::new("plus", IconName::Plus) .icon_size(IconSize::Small) .tooltip(|cx| Tooltip::text("New...", cx)), ) .anchor(AnchorCorner::TopRight) .with_handle(pane.new_item_context_menu_handle.clone()) .menu(move |cx| { let focus_handle = focus_handle.clone(); let menu = ContextMenu::build(cx, |menu, _| { menu.context(focus_handle.clone()) .action( "New Terminal", workspace::NewTerminal.boxed_clone(), ) // We want the focus to go back to terminal panel once task modal is dismissed, // hence we focus that first. Otherwise, we'd end up without a focused element, as // context menu will be gone the moment we spawn the modal. .action( "Spawn task", zed_actions::Spawn::modal().boxed_clone(), ) }); Some(menu) }), ) .child({ let zoomed = pane.is_zoomed(); IconButton::new("toggle_zoom", IconName::Maximize) .icon_size(IconSize::Small) .selected(zoomed) .selected_icon(IconName::Minimize) .on_click(cx.listener(|pane, _, cx| { pane.toggle_zoom(&workspace::ToggleZoom, cx); })) .tooltip(move |cx| { Tooltip::for_action( if zoomed { "Zoom Out" } else { "Zoom In" }, &ToggleZoom, cx, ) }) }) .into_any_element() .into(); (None, right_children) }); }); } pub async fn load( workspace: WeakView, mut cx: AsyncWindowContext, ) -> Result> { let serialized_panel = cx .background_executor() .spawn(async move { KEY_VALUE_STORE.read_kvp(TERMINAL_PANEL_KEY) }) .await .log_err() .flatten() .map(|panel| serde_json::from_str::(&panel)) .transpose() .log_err() .flatten(); let terminal_panel = workspace .update(&mut cx, |workspace, cx| { match serialized_panel.zip(workspace.database_id()) { Some((serialized_panel, database_id)) => deserialize_terminal_panel( workspace.weak_handle(), workspace.project().clone(), database_id, serialized_panel, cx, ), None => Task::ready(Ok(cx.new_view(|cx| TerminalPanel::new(workspace, cx)))), } })? .await?; if let Some(workspace) = workspace.upgrade() { terminal_panel .update(&mut cx, |_, cx| { cx.subscribe(&workspace, |terminal_panel, _, e, cx| { if let workspace::Event::SpawnTask(spawn_in_terminal) = e { terminal_panel.spawn_task(spawn_in_terminal, cx); }; }) .detach(); }) .ok(); } // Since panels/docks are loaded outside from the workspace, we cleanup here, instead of through the workspace. if let Some(workspace) = workspace.upgrade() { let cleanup_task = workspace.update(&mut cx, |workspace, cx| { let alive_item_ids = terminal_panel .read(cx) .center .panes() .into_iter() .flat_map(|pane| pane.read(cx).items()) .map(|item| item.item_id().as_u64() as ItemId) .collect(); workspace .database_id() .map(|workspace_id| TerminalView::cleanup(workspace_id, alive_item_ids, cx)) })?; if let Some(task) = cleanup_task { task.await.log_err(); } } Ok(terminal_panel) } fn handle_pane_event( &mut self, pane: View, event: &pane::Event, cx: &mut ViewContext, ) { match event { pane::Event::ActivateItem { .. } => self.serialize(cx), pane::Event::RemovedItem { .. } => self.serialize(cx), pane::Event::Remove { focus_on_pane } => { let pane_count_before_removal = self.center.panes().len(); let _removal_result = self.center.remove(&pane); if pane_count_before_removal == 1 { cx.emit(PanelEvent::Close); } else { if let Some(focus_on_pane) = focus_on_pane.as_ref().or_else(|| self.center.panes().pop()) { focus_on_pane.focus_handle(cx).focus(cx); } } } pane::Event::ZoomIn => cx.emit(PanelEvent::ZoomIn), pane::Event::ZoomOut => cx.emit(PanelEvent::ZoomOut), pane::Event::AddItem { item } => { if let Some(workspace) = self.workspace.upgrade() { workspace.update(cx, |workspace, cx| { item.added_to_pane(workspace, pane.clone(), cx) }) } } pane::Event::Split(direction) => { let Some(new_pane) = self.new_pane_with_cloned_active_terminal(cx) else { return; }; self.center.split(&pane, &new_pane, *direction).log_err(); } pane::Event::Focus => { self.active_pane = pane.clone(); } _ => {} } } fn new_pane_with_cloned_active_terminal( &mut self, cx: &mut ViewContext, ) -> Option> { let workspace = self.workspace.clone().upgrade()?; let project = workspace.read(cx).project().clone(); let working_directory = self .active_pane .read(cx) .active_item() .and_then(|item| item.downcast::()) .and_then(|terminal_view| { terminal_view .read(cx) .terminal() .read(cx) .working_directory() }) .or_else(|| default_working_directory(workspace.read(cx), cx)); let kind = TerminalKind::Shell(working_directory); let window = cx.window_handle(); let terminal = project .update(cx, |project, cx| project.create_terminal(kind, window, cx)) .log_err()?; let database_id = workspace.read(cx).database_id(); let terminal_view = Box::new(cx.new_view(|cx| { TerminalView::new(terminal.clone(), self.workspace.clone(), database_id, cx) })); let pane = new_terminal_pane(self.workspace.clone(), project, cx); self.apply_tab_bar_buttons(&pane, cx); pane.update(cx, |pane, cx| { pane.add_item(terminal_view, true, true, None, cx); }); cx.focus_view(&pane); Some(pane) } pub fn open_terminal( workspace: &mut Workspace, action: &workspace::OpenTerminal, cx: &mut ViewContext, ) { let Some(terminal_panel) = workspace.panel::(cx) else { return; }; terminal_panel .update(cx, |panel, cx| { panel.add_terminal( TerminalKind::Shell(Some(action.working_directory.clone())), RevealStrategy::Always, cx, ) }) .detach_and_log_err(cx); } fn spawn_task(&mut self, spawn_in_terminal: &SpawnInTerminal, cx: &mut ViewContext) { let mut spawn_task = spawn_in_terminal.clone(); // Set up shell args unconditionally, as tasks are always spawned inside of a shell. let Some((shell, mut user_args)) = (match spawn_in_terminal.shell.clone() { Shell::System => { match self .workspace .update(cx, |workspace, cx| workspace.project().read(cx).is_local()) { Ok(local) => { if local { retrieve_system_shell().map(|shell| (shell, Vec::new())) } else { Some(("\"${SHELL:-sh}\"".to_string(), Vec::new())) } } Err(_no_window_e) => return, } } Shell::Program(shell) => Some((shell, Vec::new())), Shell::WithArguments { program, args, .. } => Some((program, args)), }) else { return; }; #[cfg(target_os = "windows")] let windows_shell_type = to_windows_shell_type(&shell); #[cfg(not(target_os = "windows"))] { spawn_task.command_label = format!("{shell} -i -c '{}'", spawn_task.command_label); } #[cfg(target_os = "windows")] { use crate::terminal_panel::WindowsShellType; match windows_shell_type { WindowsShellType::Powershell => { spawn_task.command_label = format!("{shell} -C '{}'", spawn_task.command_label) } WindowsShellType::Cmd => { spawn_task.command_label = format!("{shell} /C '{}'", spawn_task.command_label) } WindowsShellType::Other => { spawn_task.command_label = format!("{shell} -i -c '{}'", spawn_task.command_label) } } } let task_command = std::mem::replace(&mut spawn_task.command, shell); let task_args = std::mem::take(&mut spawn_task.args); let combined_command = task_args .into_iter() .fold(task_command, |mut command, arg| { command.push(' '); #[cfg(not(target_os = "windows"))] command.push_str(&arg); #[cfg(target_os = "windows")] command.push_str(&to_windows_shell_variable(windows_shell_type, arg)); command }); #[cfg(not(target_os = "windows"))] user_args.extend(["-i".to_owned(), "-c".to_owned(), combined_command]); #[cfg(target_os = "windows")] { use crate::terminal_panel::WindowsShellType; match windows_shell_type { WindowsShellType::Powershell => { user_args.extend(["-C".to_owned(), combined_command]) } WindowsShellType::Cmd => user_args.extend(["/C".to_owned(), combined_command]), WindowsShellType::Other => { user_args.extend(["-i".to_owned(), "-c".to_owned(), combined_command]) } } } spawn_task.args = user_args; let spawn_task = spawn_task; let allow_concurrent_runs = spawn_in_terminal.allow_concurrent_runs; let use_new_terminal = spawn_in_terminal.use_new_terminal; if allow_concurrent_runs && use_new_terminal { self.spawn_in_new_terminal(spawn_task, cx) .detach_and_log_err(cx); return; } let terminals_for_task = self.terminals_for_task(&spawn_in_terminal.full_label, cx); if terminals_for_task.is_empty() { self.spawn_in_new_terminal(spawn_task, cx) .detach_and_log_err(cx); return; } let (existing_item_index, task_pane, existing_terminal) = terminals_for_task .last() .expect("covered no terminals case above") .clone(); if allow_concurrent_runs { debug_assert!( !use_new_terminal, "Should have handled 'allow_concurrent_runs && use_new_terminal' case above" ); self.replace_terminal( spawn_task, task_pane, existing_item_index, existing_terminal, cx, ); } else { self.deferred_tasks.insert( spawn_in_terminal.id.clone(), cx.spawn(|terminal_panel, mut cx| async move { wait_for_terminals_tasks(terminals_for_task, &mut cx).await; terminal_panel .update(&mut cx, |terminal_panel, cx| { if use_new_terminal { terminal_panel .spawn_in_new_terminal(spawn_task, cx) .detach_and_log_err(cx); } else { terminal_panel.replace_terminal( spawn_task, task_pane, existing_item_index, existing_terminal, cx, ); } }) .ok(); }), ); } } pub fn spawn_in_new_terminal( &mut self, spawn_task: SpawnInTerminal, cx: &mut ViewContext, ) -> Task>> { let reveal = spawn_task.reveal; self.add_terminal(TerminalKind::Task(spawn_task), reveal, cx) } /// Create a new Terminal in the current working directory or the user's home directory fn new_terminal( workspace: &mut Workspace, _: &workspace::NewTerminal, cx: &mut ViewContext, ) { let Some(terminal_panel) = workspace.panel::(cx) else { return; }; let kind = TerminalKind::Shell(default_working_directory(workspace, cx)); terminal_panel .update(cx, |this, cx| { this.add_terminal(kind, RevealStrategy::Always, cx) }) .detach_and_log_err(cx); } fn terminals_for_task( &self, label: &str, cx: &mut AppContext, ) -> Vec<(usize, View, View)> { self.center .panes() .into_iter() .flat_map(|pane| { pane.read(cx) .items() .enumerate() .filter_map(|(index, item)| Some((index, item.act_as::(cx)?))) .filter_map(|(index, terminal_view)| { let task_state = terminal_view.read(cx).terminal().read(cx).task()?; if &task_state.full_label == label { Some((index, terminal_view)) } else { None } }) .map(|(index, terminal_view)| (index, pane.clone(), terminal_view)) }) .collect() } fn activate_terminal_view( &self, pane: &View, item_index: usize, focus: bool, cx: &mut WindowContext, ) { pane.update(cx, |pane, cx| { pane.activate_item(item_index, true, focus, cx) }) } fn add_terminal( &mut self, kind: TerminalKind, reveal_strategy: RevealStrategy, cx: &mut ViewContext, ) -> Task>> { if !self.enabled { return Task::ready(Err(anyhow::anyhow!( "terminal not yet supported for remote projects" ))); } let workspace = self.workspace.clone(); self.pending_terminals_to_add += 1; cx.spawn(|terminal_panel, mut cx| async move { let pane = terminal_panel.update(&mut cx, |this, _| this.active_pane.clone())?; let result = workspace.update(&mut cx, |workspace, cx| { let window = cx.window_handle(); let terminal = workspace .project() .update(cx, |project, cx| project.create_terminal(kind, window, cx))?; let terminal_view = Box::new(cx.new_view(|cx| { TerminalView::new( terminal.clone(), workspace.weak_handle(), workspace.database_id(), cx, ) })); pane.update(cx, |pane, cx| { let focus = pane.has_focus(cx); pane.add_item(terminal_view, true, focus, None, cx); }); match reveal_strategy { RevealStrategy::Always => { workspace.focus_panel::(cx); } RevealStrategy::NoFocus => { workspace.open_panel::(cx); } RevealStrategy::Never => {} } Ok(terminal) })?; terminal_panel.update(&mut cx, |this, cx| { this.pending_terminals_to_add = this.pending_terminals_to_add.saturating_sub(1); this.serialize(cx) })?; result }) } fn serialize(&mut self, cx: &mut ViewContext) { let height = self.height; let width = self.width; self.pending_serialization = cx.spawn(|terminal_panel, mut cx| async move { cx.background_executor() .timer(Duration::from_millis(50)) .await; let terminal_panel = terminal_panel.upgrade()?; let items = terminal_panel .update(&mut cx, |terminal_panel, cx| { SerializedItems::WithSplits(serialize_pane_group( &terminal_panel.center, &terminal_panel.active_pane, cx, )) }) .ok()?; cx.background_executor() .spawn( async move { KEY_VALUE_STORE .write_kvp( TERMINAL_PANEL_KEY.into(), serde_json::to_string(&SerializedTerminalPanel { items, active_item_id: None, height, width, })?, ) .await?; anyhow::Ok(()) } .log_err(), ) .await; Some(()) }); } fn replace_terminal( &self, spawn_task: SpawnInTerminal, task_pane: View, terminal_item_index: usize, terminal_to_replace: View, cx: &mut ViewContext<'_, Self>, ) -> Option<()> { let project = self .workspace .update(cx, |workspace, _| workspace.project().clone()) .ok()?; let reveal = spawn_task.reveal; let window = cx.window_handle(); let new_terminal = project.update(cx, |project, cx| { project .create_terminal(TerminalKind::Task(spawn_task), window, cx) .log_err() })?; terminal_to_replace.update(cx, |terminal_to_replace, cx| { terminal_to_replace.set_terminal(new_terminal, cx); }); match reveal { RevealStrategy::Always => { self.activate_terminal_view(&task_pane, terminal_item_index, true, cx); let task_workspace = self.workspace.clone(); cx.spawn(|_, mut cx| async move { task_workspace .update(&mut cx, |workspace, cx| workspace.focus_panel::(cx)) .ok() }) .detach(); } RevealStrategy::NoFocus => { self.activate_terminal_view(&task_pane, terminal_item_index, false, cx); let task_workspace = self.workspace.clone(); cx.spawn(|_, mut cx| async move { task_workspace .update(&mut cx, |workspace, cx| workspace.open_panel::(cx)) .ok() }) .detach(); } RevealStrategy::Never => {} } Some(()) } fn has_no_terminals(&self, cx: &WindowContext) -> bool { self.active_pane.read(cx).items_len() == 0 && self.pending_terminals_to_add == 0 } pub fn assistant_enabled(&self) -> bool { self.assistant_enabled } } pub fn new_terminal_pane( workspace: WeakView, project: Model, cx: &mut ViewContext, ) -> View { let is_local = project.read(cx).is_local(); let terminal_panel = cx.view().clone(); let pane = cx.new_view(|cx| { let mut pane = Pane::new( workspace.clone(), project.clone(), Default::default(), None, NewTerminal.boxed_clone(), cx, ); pane.set_can_navigate(false, cx); pane.display_nav_history_buttons(None); pane.set_should_display_tab_bar(|_| true); let terminal_panel_for_split_check = terminal_panel.clone(); pane.set_can_split(Some(Arc::new(move |pane, dragged_item, cx| { if let Some(tab) = dragged_item.downcast_ref::() { let current_pane = cx.view().clone(); let can_drag_away = terminal_panel_for_split_check.update(cx, |terminal_panel, _| { let current_panes = terminal_panel.center.panes(); !current_panes.contains(&&tab.pane) || current_panes.len() > 1 || (tab.pane != current_pane || pane.items_len() > 1) }); if can_drag_away { let item = if tab.pane == current_pane { pane.item_for_index(tab.ix) } else { tab.pane.read(cx).item_for_index(tab.ix) }; if let Some(item) = item { return item.downcast::().is_some(); } } } false }))); let buffer_search_bar = cx.new_view(search::BufferSearchBar::new); let breadcrumbs = cx.new_view(|_| Breadcrumbs::new()); pane.toolbar().update(cx, |toolbar, cx| { toolbar.add_item(buffer_search_bar, cx); toolbar.add_item(breadcrumbs, cx); }); pane.set_custom_drop_handle(cx, move |pane, dropped_item, cx| { if let Some(tab) = dropped_item.downcast_ref::() { let this_pane = cx.view().clone(); let belongs_to_this_pane = tab.pane == this_pane; let item = if belongs_to_this_pane { pane.item_for_index(tab.ix) } else { tab.pane.read(cx).item_for_index(tab.ix) }; if let Some(item) = item { if item.downcast::().is_some() { let source = tab.pane.clone(); let item_id_to_move = item.item_id(); let new_pane = pane.drag_split_direction().and_then(|split_direction| { terminal_panel.update(cx, |terminal_panel, cx| { let new_pane = new_terminal_pane(workspace.clone(), project.clone(), cx); terminal_panel.apply_tab_bar_buttons(&new_pane, cx); terminal_panel .center .split(&this_pane, &new_pane, split_direction) .log_err()?; Some(new_pane) }) }); let destination; let destination_index; if let Some(new_pane) = new_pane { destination_index = new_pane.read(cx).active_item_index(); destination = new_pane; } else if belongs_to_this_pane { return ControlFlow::Break(()); } else { destination = cx.view().clone(); destination_index = pane.active_item_index(); } // Destination pane may be the one currently updated, so defer the move. cx.spawn(|_, mut cx| async move { cx.update(|cx| { move_item( &source, &destination, item_id_to_move, destination_index, cx, ); }) .ok(); }) .detach(); } else if let Some(project_path) = item.project_path(cx) { if let Some(entry_path) = project.read(cx).absolute_path(&project_path, cx) { add_paths_to_terminal(pane, &[entry_path], cx); } } } } else if let Some(&entry_id) = dropped_item.downcast_ref::() { if let Some(entry_path) = project .read(cx) .path_for_entry(entry_id, cx) .and_then(|project_path| project.read(cx).absolute_path(&project_path, cx)) { add_paths_to_terminal(pane, &[entry_path], cx); } } else if is_local { if let Some(paths) = dropped_item.downcast_ref::() { add_paths_to_terminal(pane, paths.paths(), cx); } } ControlFlow::Break(()) }); pane }); cx.subscribe(&pane, TerminalPanel::handle_pane_event) .detach(); cx.observe(&pane, |_, _, cx| cx.notify()).detach(); pane } async fn wait_for_terminals_tasks( terminals_for_task: Vec<(usize, View, View)>, cx: &mut AsyncWindowContext, ) { let pending_tasks = terminals_for_task.iter().filter_map(|(_, _, terminal)| { terminal .update(cx, |terminal_view, cx| { terminal_view .terminal() .update(cx, |terminal, cx| terminal.wait_for_completed_task(cx)) }) .ok() }); let _: Vec<()> = join_all(pending_tasks).await; } fn add_paths_to_terminal(pane: &mut Pane, paths: &[PathBuf], cx: &mut ViewContext<'_, Pane>) { if let Some(terminal_view) = pane .active_item() .and_then(|item| item.downcast::()) { cx.focus_view(&terminal_view); let mut new_text = paths.iter().map(|path| format!(" {path:?}")).join(""); new_text.push(' '); terminal_view.update(cx, |terminal_view, cx| { terminal_view.terminal().update(cx, |terminal, _| { terminal.paste(&new_text); }); }); } } impl EventEmitter for TerminalPanel {} impl Render for TerminalPanel { fn render(&mut self, cx: &mut ViewContext) -> impl IntoElement { let mut registrar = DivRegistrar::new( |panel, cx| { panel .active_pane .read(cx) .toolbar() .read(cx) .item_of_type::() }, cx, ); BufferSearchBar::register(&mut registrar); let registrar = registrar.into_div(); self.workspace .update(cx, |workspace, cx| { registrar.size_full().child(self.center.render( workspace.project(), &HashMap::default(), None, &self.active_pane, workspace.zoomed_item(), workspace.app_state(), cx, )) }) .ok() .map(|div| { div.on_action({ cx.listener(|terminal_panel, action: &ActivatePaneInDirection, cx| { if let Some(pane) = terminal_panel.center.find_pane_in_direction( &terminal_panel.active_pane, action.0, cx, ) { cx.focus_view(&pane); } }) }) .on_action( cx.listener(|terminal_panel, _action: &ActivateNextPane, cx| { let panes = terminal_panel.center.panes(); if let Some(ix) = panes .iter() .position(|pane| **pane == terminal_panel.active_pane) { let next_ix = (ix + 1) % panes.len(); let next_pane = panes[next_ix].clone(); cx.focus_view(&next_pane); } }), ) .on_action( cx.listener(|terminal_panel, _action: &ActivatePreviousPane, cx| { let panes = terminal_panel.center.panes(); if let Some(ix) = panes .iter() .position(|pane| **pane == terminal_panel.active_pane) { let prev_ix = cmp::min(ix.wrapping_sub(1), panes.len() - 1); let prev_pane = panes[prev_ix].clone(); cx.focus_view(&prev_pane); } }), ) .on_action(cx.listener(|terminal_panel, action: &ActivatePane, cx| { let panes = terminal_panel.center.panes(); if let Some(pane) = panes.get(action.0).map(|p| (*p).clone()) { cx.focus_view(&pane); } else { if let Some(new_pane) = terminal_panel.new_pane_with_cloned_active_terminal(cx) { terminal_panel .center .split( &terminal_panel.active_pane, &new_pane, SplitDirection::Right, ) .log_err(); } } })) .on_action(cx.listener( |terminal_panel, action: &SwapPaneInDirection, cx| { if let Some(to) = terminal_panel .center .find_pane_in_direction(&terminal_panel.active_pane, action.0, cx) .cloned() { terminal_panel .center .swap(&terminal_panel.active_pane.clone(), &to); cx.notify(); } }, )) }) .unwrap_or_else(|| div()) } } impl FocusableView for TerminalPanel { fn focus_handle(&self, cx: &AppContext) -> FocusHandle { self.active_pane.focus_handle(cx) } } impl Panel for TerminalPanel { fn position(&self, cx: &WindowContext) -> DockPosition { match TerminalSettings::get_global(cx).dock { TerminalDockPosition::Left => DockPosition::Left, TerminalDockPosition::Bottom => DockPosition::Bottom, TerminalDockPosition::Right => DockPosition::Right, } } fn position_is_valid(&self, _: DockPosition) -> bool { true } fn set_position(&mut self, position: DockPosition, cx: &mut ViewContext) { settings::update_settings_file::( self.fs.clone(), cx, move |settings, _| { let dock = match position { DockPosition::Left => TerminalDockPosition::Left, DockPosition::Bottom => TerminalDockPosition::Bottom, DockPosition::Right => TerminalDockPosition::Right, }; settings.dock = Some(dock); }, ); } fn size(&self, cx: &WindowContext) -> Pixels { let settings = TerminalSettings::get_global(cx); match self.position(cx) { DockPosition::Left | DockPosition::Right => { self.width.unwrap_or(settings.default_width) } DockPosition::Bottom => self.height.unwrap_or(settings.default_height), } } fn set_size(&mut self, size: Option, cx: &mut ViewContext) { match self.position(cx) { DockPosition::Left | DockPosition::Right => self.width = size, DockPosition::Bottom => self.height = size, } self.serialize(cx); cx.notify(); } fn is_zoomed(&self, cx: &WindowContext) -> bool { self.active_pane.read(cx).is_zoomed() } fn set_zoomed(&mut self, zoomed: bool, cx: &mut ViewContext) { self.active_pane .update(cx, |pane, cx| pane.set_zoomed(zoomed, cx)); } fn set_active(&mut self, active: bool, cx: &mut ViewContext) { if !active || !self.has_no_terminals(cx) { return; } cx.defer(|this, cx| { let Ok(kind) = this.workspace.update(cx, |workspace, cx| { TerminalKind::Shell(default_working_directory(workspace, cx)) }) else { return; }; this.add_terminal(kind, RevealStrategy::Never, cx) .detach_and_log_err(cx) }) } fn icon_label(&self, cx: &WindowContext) -> Option { let count = self .center .panes() .into_iter() .map(|pane| pane.read(cx).items_len()) .sum::(); if count == 0 { None } else { Some(count.to_string()) } } fn persistent_name() -> &'static str { "TerminalPanel" } fn icon(&self, cx: &WindowContext) -> Option { if (self.enabled || !self.has_no_terminals(cx)) && TerminalSettings::get_global(cx).button { Some(IconName::Terminal) } else { None } } fn icon_tooltip(&self, _cx: &WindowContext) -> Option<&'static str> { Some("Terminal Panel") } fn toggle_action(&self) -> Box { Box::new(ToggleFocus) } fn pane(&self) -> Option> { Some(self.active_pane.clone()) } } struct InlineAssistTabBarButton { focus_handle: FocusHandle, } impl Render for InlineAssistTabBarButton { fn render(&mut self, cx: &mut ViewContext) -> impl IntoElement { let focus_handle = self.focus_handle.clone(); IconButton::new("terminal_inline_assistant", IconName::ZedAssistant) .icon_size(IconSize::Small) .on_click(cx.listener(|_, _, cx| { cx.dispatch_action(InlineAssist::default().boxed_clone()); })) .tooltip(move |cx| { Tooltip::for_action_in("Inline Assist", &InlineAssist::default(), &focus_handle, cx) }) } } fn retrieve_system_shell() -> Option { #[cfg(not(target_os = "windows"))] { use anyhow::Context; use util::ResultExt; std::env::var("SHELL") .context("Error finding SHELL in env.") .log_err() } // `alacritty_terminal` uses this as default on Windows. See: // https://github.com/alacritty/alacritty/blob/0d4ab7bca43213d96ddfe40048fc0f922543c6f8/alacritty_terminal/src/tty/windows/mod.rs#L130 #[cfg(target_os = "windows")] return Some("powershell".to_owned()); } #[cfg(target_os = "windows")] fn to_windows_shell_variable(shell_type: WindowsShellType, input: String) -> String { match shell_type { WindowsShellType::Powershell => to_powershell_variable(input), WindowsShellType::Cmd => to_cmd_variable(input), WindowsShellType::Other => input, } } #[cfg(target_os = "windows")] fn to_windows_shell_type(shell: &str) -> WindowsShellType { if shell == "powershell" || shell.ends_with("powershell.exe") || shell == "pwsh" || shell.ends_with("pwsh.exe") { WindowsShellType::Powershell } else if shell == "cmd" || shell.ends_with("cmd.exe") { WindowsShellType::Cmd } else { // Someother shell detected, the user might install and use a // unix-like shell. WindowsShellType::Other } } /// Convert `${SOME_VAR}`, `$SOME_VAR` to `%SOME_VAR%`. #[inline] #[cfg(target_os = "windows")] fn to_cmd_variable(input: String) -> String { if let Some(var_str) = input.strip_prefix("${") { if var_str.find(':').is_none() { // If the input starts with "${", remove the trailing "}" format!("%{}%", &var_str[..var_str.len() - 1]) } else { // `${SOME_VAR:-SOME_DEFAULT}`, we currently do not handle this situation, // which will result in the task failing to run in such cases. input } } else if let Some(var_str) = input.strip_prefix('$') { // If the input starts with "$", directly append to "$env:" format!("%{}%", var_str) } else { // If no prefix is found, return the input as is input } } /// Convert `${SOME_VAR}`, `$SOME_VAR` to `$env:SOME_VAR`. #[inline] #[cfg(target_os = "windows")] fn to_powershell_variable(input: String) -> String { if let Some(var_str) = input.strip_prefix("${") { if var_str.find(':').is_none() { // If the input starts with "${", remove the trailing "}" format!("$env:{}", &var_str[..var_str.len() - 1]) } else { // `${SOME_VAR:-SOME_DEFAULT}`, we currently do not handle this situation, // which will result in the task failing to run in such cases. input } } else if let Some(var_str) = input.strip_prefix('$') { // If the input starts with "$", directly append to "$env:" format!("$env:{}", var_str) } else { // If no prefix is found, return the input as is input } } #[cfg(target_os = "windows")] #[derive(Debug, Clone, Copy, PartialEq, Eq)] enum WindowsShellType { Powershell, Cmd, Other, }