pub mod project_panel_settings; mod utils; use anyhow::{Context as _, Result}; use client::{ErrorCode, ErrorExt}; use collections::{BTreeSet, HashMap, hash_map}; use command_palette_hooks::CommandPaletteFilter; use db::kvp::KEY_VALUE_STORE; use editor::{ Editor, EditorEvent, MultiBufferOffset, items::{ entry_diagnostic_aware_icon_decoration_and_color, entry_diagnostic_aware_icon_name_and_color, entry_git_aware_label_color, }, }; use file_icons::FileIcons; use git; use git::status::GitSummary; use git_ui; use git_ui::file_diff_view::FileDiffView; use gpui::{ Action, AnyElement, App, AsyncWindowContext, Bounds, ClipboardItem, Context, CursorStyle, DismissEvent, Div, DragMoveEvent, Entity, EventEmitter, ExternalPaths, FocusHandle, Focusable, FontWeight, Hsla, InteractiveElement, KeyContext, ListHorizontalSizingBehavior, ListSizingBehavior, Modifiers, ModifiersChangedEvent, MouseButton, MouseDownEvent, ParentElement, PathPromptOptions, Pixels, Point, PromptLevel, Render, ScrollStrategy, Stateful, Styled, Subscription, Task, UniformListScrollHandle, WeakEntity, Window, actions, anchored, deferred, div, hsla, linear_color_stop, linear_gradient, point, px, size, transparent_white, uniform_list, }; use language::DiagnosticSeverity; use menu::{Confirm, SelectFirst, SelectLast, SelectNext, SelectPrevious}; use notifications::status_toast::{StatusToast, ToastIcon}; use project::{ Entry, EntryKind, Fs, GitEntry, GitEntryRef, GitTraversal, Project, ProjectEntryId, ProjectPath, Worktree, WorktreeId, git_store::{GitStoreEvent, RepositoryEvent, git_traversal::ChildEntriesGitIter}, project_settings::GoToDiagnosticSeverityFilter, }; use project_panel_settings::ProjectPanelSettings; use rayon::slice::ParallelSliceMut; use schemars::JsonSchema; use serde::{Deserialize, Serialize}; use settings::{ DockSide, ProjectPanelEntrySpacing, Settings, SettingsStore, ShowDiagnostics, ShowIndentGuides, update_settings_file, }; use smallvec::SmallVec; use std::ops::Neg; use std::{any::TypeId, time::Instant}; use std::{ cell::OnceCell, cmp, collections::HashSet, ops::Range, path::{Path, PathBuf}, sync::Arc, time::Duration, }; use theme::ThemeSettings; use ui::{ Color, ContextMenu, ContextMenuEntry, DecoratedIcon, Divider, Icon, IconDecoration, IconDecorationKind, IndentGuideColors, IndentGuideLayout, KeyBinding, Label, LabelSize, ListItem, ListItemSpacing, ScrollAxes, ScrollableHandle, Scrollbars, StickyCandidate, Tooltip, WithScrollbar, prelude::*, v_flex, }; use util::{ ResultExt, TakeUntilExt, TryFutureExt, maybe, paths::{PathStyle, compare_paths}, rel_path::{RelPath, RelPathBuf}, }; use workspace::{ DraggedSelection, OpenInTerminal, OpenOptions, OpenVisible, PreviewTabsSettings, SelectedEntry, SplitDirection, Workspace, dock::{DockPosition, Panel, PanelEvent}, notifications::{DetachAndPromptErr, NotifyResultExt, NotifyTaskExt}, }; use worktree::CreatedEntry; use zed_actions::{ project_panel::{Toggle, ToggleFocus}, workspace::OpenWithSystem, }; const PROJECT_PANEL_KEY: &str = "ProjectPanel"; const NEW_ENTRY_ID: ProjectEntryId = ProjectEntryId::MAX; struct VisibleEntriesForWorktree { worktree_id: WorktreeId, entries: Vec, index: OnceCell>>, } struct State { last_worktree_root_id: Option, /// Maps from leaf project entry ID to the currently selected ancestor. /// Relevant only for auto-fold dirs, where a single project panel entry may actually consist of several /// project entries (and all non-leaf nodes are guaranteed to be directories). ancestors: HashMap, visible_entries: Vec, max_width_item_index: Option, edit_state: Option, temporarily_unfolded_pending_state: Option, unfolded_dir_ids: HashSet, expanded_dir_ids: HashMap>, } impl State { fn is_unfolded(&self, entry_id: &ProjectEntryId) -> bool { self.unfolded_dir_ids.contains(entry_id) || self.edit_state.as_ref().map_or(false, |edit_state| { edit_state.temporarily_unfolded == Some(*entry_id) }) } fn derive(old: &Self) -> Self { Self { last_worktree_root_id: None, ancestors: Default::default(), visible_entries: Default::default(), max_width_item_index: None, edit_state: old.edit_state.clone(), temporarily_unfolded_pending_state: None, unfolded_dir_ids: old.unfolded_dir_ids.clone(), expanded_dir_ids: old.expanded_dir_ids.clone(), } } } pub struct ProjectPanel { project: Entity, fs: Arc, focus_handle: FocusHandle, scroll_handle: UniformListScrollHandle, // An update loop that keeps incrementing/decrementing scroll offset while there is a dragged entry that's // hovered over the start/end of a list. hover_scroll_task: Option>, rendered_entries_len: usize, folded_directory_drag_target: Option, drag_target_entry: Option, marked_entries: Vec, selection: Option, context_menu: Option<(Entity, Point, Subscription)>, filename_editor: Entity, clipboard: Option, _dragged_entry_destination: Option>, workspace: WeakEntity, width: Option, pending_serialization: Task>, diagnostics: HashMap<(WorktreeId, Arc), DiagnosticSeverity>, diagnostic_counts: HashMap<(WorktreeId, Arc), DiagnosticCount>, diagnostic_summary_update: Task<()>, // We keep track of the mouse down state on entries so we don't flash the UI // in case a user clicks to open a file. mouse_down: bool, hover_expand_task: Option>, previous_drag_position: Option>, sticky_items_count: usize, last_reported_update: Instant, update_visible_entries_task: UpdateVisibleEntriesTask, state: State, } struct UpdateVisibleEntriesTask { _visible_entries_task: Task<()>, focus_filename_editor: bool, autoscroll: bool, } #[derive(Debug)] struct TemporaryUnfoldedPendingState { previously_focused_leaf_entry: SelectedEntry, temporarily_unfolded_active_entry_id: ProjectEntryId, } impl Default for UpdateVisibleEntriesTask { fn default() -> Self { UpdateVisibleEntriesTask { _visible_entries_task: Task::ready(()), focus_filename_editor: Default::default(), autoscroll: Default::default(), } } } enum DragTarget { /// Dragging on an entry Entry { /// The entry currently under the mouse cursor during a drag operation entry_id: ProjectEntryId, /// Highlight this entry along with all of its children highlight_entry_id: ProjectEntryId, }, /// Dragging on background Background, } #[derive(Copy, Clone, Debug)] struct FoldedDirectoryDragTarget { entry_id: ProjectEntryId, index: usize, /// Whether we are dragging over the delimiter rather than the component itself. is_delimiter_target: bool, } #[derive(Clone, Debug)] enum ValidationState { None, Warning(String), Error(String), } #[derive(Clone, Debug)] struct EditState { worktree_id: WorktreeId, entry_id: ProjectEntryId, leaf_entry_id: Option, is_dir: bool, depth: usize, processing_filename: Option>, previously_focused: Option, validation_state: ValidationState, temporarily_unfolded: Option, } impl EditState { fn is_new_entry(&self) -> bool { self.leaf_entry_id.is_none() } } #[derive(Clone, Debug)] enum ClipboardEntry { Copied(BTreeSet), Cut(BTreeSet), } #[derive(Debug, Default, PartialEq, Eq, Clone, Copy)] struct DiagnosticCount { error_count: usize, warning_count: usize, } impl DiagnosticCount { fn capped_error_count(&self) -> String { Self::capped_count(self.error_count) } fn capped_warning_count(&self) -> String { Self::capped_count(self.warning_count) } fn capped_count(count: usize) -> String { if count > 99 { "99+".to_string() } else { count.to_string() } } } #[derive(Debug, PartialEq, Eq, Clone)] struct EntryDetails { filename: String, icon: Option, path: Arc, depth: usize, kind: EntryKind, is_ignored: bool, is_expanded: bool, is_selected: bool, is_marked: bool, is_editing: bool, is_processing: bool, is_cut: bool, sticky: Option, filename_text_color: Color, diagnostic_severity: Option, diagnostic_count: Option, git_status: GitSummary, is_private: bool, worktree_id: WorktreeId, canonical_path: Option>, } #[derive(Debug, PartialEq, Eq, Clone)] struct StickyDetails { sticky_index: usize, } /// Permanently deletes the selected file or directory. #[derive(PartialEq, Clone, Default, Debug, Deserialize, JsonSchema, Action)] #[action(namespace = project_panel)] #[serde(deny_unknown_fields)] struct Delete { #[serde(default)] pub skip_prompt: bool, } /// Moves the selected file or directory to the system trash. #[derive(PartialEq, Clone, Default, Debug, Deserialize, JsonSchema, Action)] #[action(namespace = project_panel)] #[serde(deny_unknown_fields)] struct Trash { #[serde(default)] pub skip_prompt: bool, } /// Selects the next entry with diagnostics. #[derive(PartialEq, Clone, Default, Debug, Deserialize, JsonSchema, Action)] #[action(namespace = project_panel)] #[serde(deny_unknown_fields)] struct SelectNextDiagnostic { #[serde(default)] pub severity: GoToDiagnosticSeverityFilter, } /// Selects the previous entry with diagnostics. #[derive(PartialEq, Clone, Default, Debug, Deserialize, JsonSchema, Action)] #[action(namespace = project_panel)] #[serde(deny_unknown_fields)] struct SelectPrevDiagnostic { #[serde(default)] pub severity: GoToDiagnosticSeverityFilter, } actions!( project_panel, [ /// Expands the selected entry in the project tree. ExpandSelectedEntry, /// Collapses the selected entry in the project tree. CollapseSelectedEntry, /// Collapses the selected entry and its children in the project tree. CollapseSelectedEntryAndChildren, /// Collapses all entries in the project tree. CollapseAllEntries, /// Creates a new directory. NewDirectory, /// Creates a new file. NewFile, /// Copies the selected file or directory. Copy, /// Duplicates the selected file or directory. Duplicate, /// Reveals the selected item in the system file manager. RevealInFileManager, /// Removes the selected folder from the project. RemoveFromProject, /// Cuts the selected file or directory. Cut, /// Pastes the previously cut or copied item. Paste, /// Downloads the selected remote file DownloadFromRemote, /// Renames the selected file or directory. Rename, /// Opens the selected file in the editor. Open, /// Opens the selected file in a permanent tab. OpenPermanent, /// Opens the selected file in a vertical split. OpenSplitVertical, /// Opens the selected file in a horizontal split. OpenSplitHorizontal, /// Toggles visibility of git-ignored files. ToggleHideGitIgnore, /// Toggles visibility of hidden files. ToggleHideHidden, /// Starts a new search in the selected directory. NewSearchInDirectory, /// Unfolds the selected directory. UnfoldDirectory, /// Folds the selected directory. FoldDirectory, /// Scroll half a page upwards ScrollUp, /// Scroll half a page downwards ScrollDown, /// Scroll until the cursor displays at the center ScrollCursorCenter, /// Scroll until the cursor displays at the top ScrollCursorTop, /// Scroll until the cursor displays at the bottom ScrollCursorBottom, /// Selects the parent directory. SelectParent, /// Selects the next entry with git changes. SelectNextGitEntry, /// Selects the previous entry with git changes. SelectPrevGitEntry, /// Selects the next directory. SelectNextDirectory, /// Selects the previous directory. SelectPrevDirectory, /// Opens a diff view to compare two marked files. CompareMarkedFiles, ] ); #[derive(Clone, Debug, Default)] struct FoldedAncestors { current_ancestor_depth: usize, ancestors: Vec, } impl FoldedAncestors { fn max_ancestor_depth(&self) -> usize { self.ancestors.len() } /// Note: This returns None for last item in ancestors list fn active_ancestor(&self) -> Option { if self.current_ancestor_depth == 0 { return None; } self.ancestors.get(self.current_ancestor_depth).copied() } fn active_index(&self) -> usize { self.max_ancestor_depth() .saturating_sub(1) .saturating_sub(self.current_ancestor_depth) } fn set_active_index(&mut self, index: usize) -> bool { let new_depth = self .max_ancestor_depth() .saturating_sub(1) .saturating_sub(index); if self.current_ancestor_depth != new_depth { self.current_ancestor_depth = new_depth; true } else { false } } fn active_component(&self, file_name: &str) -> Option { Path::new(file_name) .components() .nth(self.active_index()) .map(|comp| comp.as_os_str().to_string_lossy().into_owned()) } } pub fn init(cx: &mut App) { cx.observe_new(|workspace: &mut Workspace, _, _| { workspace.register_action(|workspace, _: &ToggleFocus, window, cx| { workspace.toggle_panel_focus::(window, cx); }); workspace.register_action(|workspace, _: &Toggle, window, cx| { if !workspace.toggle_panel_focus::(window, cx) { workspace.close_panel::(window, cx); } }); workspace.register_action(|workspace, _: &ToggleHideGitIgnore, _, cx| { let fs = workspace.app_state().fs.clone(); update_settings_file(fs, cx, move |setting, _| { setting.project_panel.get_or_insert_default().hide_gitignore = Some( !setting .project_panel .get_or_insert_default() .hide_gitignore .unwrap_or(false), ); }) }); workspace.register_action(|workspace, _: &ToggleHideHidden, _, cx| { let fs = workspace.app_state().fs.clone(); update_settings_file(fs, cx, move |setting, _| { setting.project_panel.get_or_insert_default().hide_hidden = Some( !setting .project_panel .get_or_insert_default() .hide_hidden .unwrap_or(false), ); }) }); workspace.register_action(|workspace, action: &CollapseAllEntries, window, cx| { if let Some(panel) = workspace.panel::(cx) { panel.update(cx, |panel, cx| { panel.collapse_all_entries(action, window, cx); }); } }); workspace.register_action(|workspace, action: &Rename, window, cx| { workspace.open_panel::(window, cx); if let Some(panel) = workspace.panel::(cx) { panel.update(cx, |panel, cx| { if let Some(first_marked) = panel.marked_entries.first() { let first_marked = *first_marked; panel.marked_entries.clear(); panel.selection = Some(first_marked); } panel.rename(action, window, cx); }); } }); workspace.register_action(|workspace, action: &Duplicate, window, cx| { workspace.open_panel::(window, cx); if let Some(panel) = workspace.panel::(cx) { panel.update(cx, |panel, cx| { panel.duplicate(action, window, cx); }); } }); workspace.register_action(|workspace, action: &Delete, window, cx| { if let Some(panel) = workspace.panel::(cx) { panel.update(cx, |panel, cx| panel.delete(action, window, cx)); } }); workspace.register_action(|workspace, _: &git::FileHistory, window, cx| { // First try to get from project panel if it's focused if let Some(panel) = workspace.panel::(cx) { let maybe_project_path = panel.read(cx).selection.and_then(|selection| { let project = workspace.project().read(cx); let worktree = project.worktree_for_id(selection.worktree_id, cx)?; let entry = worktree.read(cx).entry_for_id(selection.entry_id)?; if entry.is_file() { Some(ProjectPath { worktree_id: selection.worktree_id, path: entry.path.clone(), }) } else { None } }); if let Some(project_path) = maybe_project_path { let project = workspace.project(); let git_store = project.read(cx).git_store(); if let Some((repo, repo_path)) = git_store .read(cx) .repository_and_path_for_project_path(&project_path, cx) { git_ui::file_history_view::FileHistoryView::open( repo_path, git_store.downgrade(), repo.downgrade(), workspace.weak_handle(), window, cx, ); return; } } } // Fallback: try to get from active editor if let Some(active_item) = workspace.active_item(cx) && let Some(editor) = active_item.downcast::() && let Some(buffer) = editor.read(cx).buffer().read(cx).as_singleton() && let Some(file) = buffer.read(cx).file() { let worktree_id = file.worktree_id(cx); let project_path = ProjectPath { worktree_id, path: file.path().clone(), }; let project = workspace.project(); let git_store = project.read(cx).git_store(); if let Some((repo, repo_path)) = git_store .read(cx) .repository_and_path_for_project_path(&project_path, cx) { git_ui::file_history_view::FileHistoryView::open( repo_path, git_store.downgrade(), repo.downgrade(), workspace.weak_handle(), window, cx, ); } } }); }) .detach(); } #[derive(Debug)] pub enum Event { OpenedEntry { entry_id: ProjectEntryId, focus_opened_item: bool, allow_preview: bool, }, SplitEntry { entry_id: ProjectEntryId, allow_preview: bool, split_direction: Option, }, Focus, } #[derive(Serialize, Deserialize)] struct SerializedProjectPanel { width: Option, } struct DraggedProjectEntryView { selection: SelectedEntry, icon: Option, filename: String, click_offset: Point, selections: Arc<[SelectedEntry]>, } struct ItemColors { default: Hsla, hover: Hsla, drag_over: Hsla, marked: Hsla, focused: Hsla, } fn get_item_color(is_sticky: bool, cx: &App) -> ItemColors { let colors = cx.theme().colors(); ItemColors { default: if is_sticky { colors.panel_overlay_background } else { colors.panel_background }, hover: if is_sticky { colors.panel_overlay_hover } else { colors.element_hover }, marked: colors.element_selected, focused: colors.panel_focused_border, drag_over: colors.drop_target_background, } } impl ProjectPanel { fn new( workspace: &mut Workspace, window: &mut Window, cx: &mut Context, ) -> Entity { let project = workspace.project().clone(); let git_store = project.read(cx).git_store().clone(); let path_style = project.read(cx).path_style(cx); let project_panel = cx.new(|cx| { let focus_handle = cx.focus_handle(); cx.on_focus(&focus_handle, window, Self::focus_in).detach(); cx.subscribe_in( &git_store, window, |this, _, event, window, cx| match event { GitStoreEvent::RepositoryUpdated(_, RepositoryEvent::StatusesChanged, _) | GitStoreEvent::RepositoryAdded | GitStoreEvent::RepositoryRemoved(_) => { this.update_visible_entries(None, false, false, window, cx); cx.notify(); } _ => {} }, ) .detach(); cx.subscribe_in( &project, window, |this, project, event, window, cx| match event { project::Event::ActiveEntryChanged(Some(entry_id)) => { if ProjectPanelSettings::get_global(cx).auto_reveal_entries { this.reveal_entry(project.clone(), *entry_id, true, window, cx) .ok(); } } project::Event::ActiveEntryChanged(None) => { let is_active_item_file_diff_view = this .workspace .upgrade() .and_then(|ws| ws.read(cx).active_item(cx)) .map(|item| { item.act_as_type(TypeId::of::(), cx).is_some() }) .unwrap_or(false); if !is_active_item_file_diff_view { this.marked_entries.clear(); } } project::Event::RevealInProjectPanel(entry_id) => { if let Some(()) = this .reveal_entry(project.clone(), *entry_id, false, window, cx) .log_err() { cx.emit(PanelEvent::Activate); } } project::Event::ActivateProjectPanel => { cx.emit(PanelEvent::Activate); } project::Event::DiskBasedDiagnosticsFinished { .. } | project::Event::DiagnosticsUpdated { .. } => { if ProjectPanelSettings::get_global(cx).show_diagnostics != ShowDiagnostics::Off { this.diagnostic_summary_update = cx.spawn(async move |this, cx| { cx.background_executor() .timer(Duration::from_millis(30)) .await; this.update(cx, |this, cx| { this.update_diagnostics(cx); cx.notify(); }) .log_err(); }); } } project::Event::WorktreeRemoved(id) => { this.state.expanded_dir_ids.remove(id); this.update_visible_entries(None, false, false, window, cx); cx.notify(); } project::Event::WorktreeUpdatedEntries(_, _) | project::Event::WorktreeAdded(_) | project::Event::WorktreeOrderChanged => { this.update_visible_entries(None, false, false, window, cx); cx.notify(); } project::Event::ExpandedAllForEntry(worktree_id, entry_id) => { if let Some((worktree, expanded_dir_ids)) = project .read(cx) .worktree_for_id(*worktree_id, cx) .zip(this.state.expanded_dir_ids.get_mut(worktree_id)) { let worktree = worktree.read(cx); let Some(entry) = worktree.entry_for_id(*entry_id) else { return; }; let include_ignored_dirs = !entry.is_ignored; let mut dirs_to_expand = vec![*entry_id]; while let Some(current_id) = dirs_to_expand.pop() { let Some(current_entry) = worktree.entry_for_id(current_id) else { continue; }; for child in worktree.child_entries(¤t_entry.path) { if !child.is_dir() || (include_ignored_dirs && child.is_ignored) { continue; } dirs_to_expand.push(child.id); if let Err(ix) = expanded_dir_ids.binary_search(&child.id) { expanded_dir_ids.insert(ix, child.id); } this.state.unfolded_dir_ids.insert(child.id); } } this.update_visible_entries(None, false, false, window, cx); cx.notify(); } } _ => {} }, ) .detach(); let trash_action = [TypeId::of::()]; let is_remote = project.read(cx).is_remote(); // Make sure the trash option is never displayed anywhere on remote // hosts since they may not support trashing. May want to dynamically // detect this in the future. if is_remote { CommandPaletteFilter::update_global(cx, |filter, _cx| { filter.hide_action_types(&trash_action); }); } let filename_editor = cx.new(|cx| Editor::single_line(window, cx)); cx.subscribe_in( &filename_editor, window, |project_panel, _, editor_event, window, cx| match editor_event { EditorEvent::BufferEdited => { project_panel.populate_validation_error(cx); project_panel.autoscroll(cx); } EditorEvent::SelectionsChanged { .. } => { project_panel.autoscroll(cx); } EditorEvent::Blurred => { if project_panel .state .edit_state .as_ref() .is_some_and(|state| state.processing_filename.is_none()) { match project_panel.confirm_edit(false, window, cx) { Some(task) => { task.detach_and_notify_err( project_panel.workspace.clone(), window, cx, ); } None => { project_panel.discard_edit_state(window, cx); } } } } _ => {} }, ) .detach(); cx.observe_global::(|_, cx| { cx.notify(); }) .detach(); let mut project_panel_settings = *ProjectPanelSettings::get_global(cx); cx.observe_global_in::(window, move |this, window, cx| { let new_settings = *ProjectPanelSettings::get_global(cx); if project_panel_settings != new_settings { if project_panel_settings.hide_gitignore != new_settings.hide_gitignore { this.update_visible_entries(None, false, false, window, cx); } if project_panel_settings.hide_root != new_settings.hide_root { this.update_visible_entries(None, false, false, window, cx); } if project_panel_settings.hide_hidden != new_settings.hide_hidden { this.update_visible_entries(None, false, false, window, cx); } if project_panel_settings.sort_mode != new_settings.sort_mode { this.update_visible_entries(None, false, false, window, cx); } if project_panel_settings.sticky_scroll && !new_settings.sticky_scroll { this.sticky_items_count = 0; } project_panel_settings = new_settings; this.update_diagnostics(cx); cx.notify(); } }) .detach(); let scroll_handle = UniformListScrollHandle::new(); let mut this = Self { project: project.clone(), hover_scroll_task: None, fs: workspace.app_state().fs.clone(), focus_handle, rendered_entries_len: 0, folded_directory_drag_target: None, drag_target_entry: None, marked_entries: Default::default(), selection: None, context_menu: None, filename_editor, clipboard: None, _dragged_entry_destination: None, workspace: workspace.weak_handle(), width: None, pending_serialization: Task::ready(None), diagnostics: Default::default(), diagnostic_counts: Default::default(), diagnostic_summary_update: Task::ready(()), scroll_handle, mouse_down: false, hover_expand_task: None, previous_drag_position: None, sticky_items_count: 0, last_reported_update: Instant::now(), state: State { max_width_item_index: None, edit_state: None, temporarily_unfolded_pending_state: None, last_worktree_root_id: Default::default(), visible_entries: Default::default(), ancestors: Default::default(), expanded_dir_ids: Default::default(), unfolded_dir_ids: Default::default(), }, update_visible_entries_task: Default::default(), }; this.update_visible_entries(None, false, false, window, cx); this }); cx.subscribe_in(&project_panel, window, { let project_panel = project_panel.downgrade(); move |workspace, _, event, window, cx| match event { &Event::OpenedEntry { entry_id, focus_opened_item, allow_preview, } => { if let Some(worktree) = project.read(cx).worktree_for_entry(entry_id, cx) && let Some(entry) = worktree.read(cx).entry_for_id(entry_id) { let file_path = entry.path.clone(); let worktree_id = worktree.read(cx).id(); let entry_id = entry.id; let is_via_ssh = project.read(cx).is_via_remote_server(); workspace .open_path_preview( ProjectPath { worktree_id, path: file_path.clone(), }, None, focus_opened_item, allow_preview, true, window, cx, ) .detach_and_prompt_err("Failed to open file", window, cx, move |e, _, _| { match e.error_code() { ErrorCode::Disconnected => if is_via_ssh { Some("Disconnected from SSH host".to_string()) } else { Some("Disconnected from remote project".to_string()) }, ErrorCode::UnsharedItem => Some(format!( "{} is not shared by the host. This could be because it has been marked as `private`", file_path.display(path_style) )), // See note in worktree.rs where this error originates. Returning Some in this case prevents // the error popup from saying "Try Again", which is a red herring in this case ErrorCode::Internal if e.to_string().contains("File is too large to load") => Some(e.to_string()), _ => None, } }); if let Some(project_panel) = project_panel.upgrade() { // Always select and mark the entry, regardless of whether it is opened or not. project_panel.update(cx, |project_panel, _| { let entry = SelectedEntry { worktree_id, entry_id }; project_panel.marked_entries.clear(); project_panel.marked_entries.push(entry); project_panel.selection = Some(entry); }); if !focus_opened_item { let focus_handle = project_panel.read(cx).focus_handle.clone(); window.focus(&focus_handle, cx); } } } } &Event::SplitEntry { entry_id, allow_preview, split_direction, } => { if let Some(worktree) = project.read(cx).worktree_for_entry(entry_id, cx) && let Some(entry) = worktree.read(cx).entry_for_id(entry_id) { workspace .split_path_preview( ProjectPath { worktree_id: worktree.read(cx).id(), path: entry.path.clone(), }, allow_preview, split_direction, window, cx, ) .detach_and_log_err(cx); } } _ => {} } }) .detach(); project_panel } pub async fn load( workspace: WeakEntity, mut cx: AsyncWindowContext, ) -> Result> { let serialized_panel = match workspace .read_with(&cx, |workspace, _| { ProjectPanel::serialization_key(workspace) }) .ok() .flatten() { Some(serialization_key) => cx .background_spawn(async move { KEY_VALUE_STORE.read_kvp(&serialization_key) }) .await .context("loading project panel") .log_err() .flatten() .map(|panel| serde_json::from_str::(&panel)) .transpose() .log_err() .flatten(), None => None, }; workspace.update_in(&mut cx, |workspace, window, cx| { let panel = ProjectPanel::new(workspace, window, cx); if let Some(serialized_panel) = serialized_panel { panel.update(cx, |panel, cx| { panel.width = serialized_panel.width.map(|px| px.round()); cx.notify(); }); } panel }) } fn update_diagnostics(&mut self, cx: &mut Context) { let mut diagnostics: HashMap<(WorktreeId, Arc), DiagnosticSeverity> = Default::default(); let show_diagnostics_setting = ProjectPanelSettings::get_global(cx).show_diagnostics; if show_diagnostics_setting != ShowDiagnostics::Off { self.project .read(cx) .diagnostic_summaries(false, cx) .filter_map(|(path, _, diagnostic_summary)| { if diagnostic_summary.error_count > 0 { Some((path, DiagnosticSeverity::ERROR)) } else if show_diagnostics_setting == ShowDiagnostics::All && diagnostic_summary.warning_count > 0 { Some((path, DiagnosticSeverity::WARNING)) } else { None } }) .for_each(|(project_path, diagnostic_severity)| { let ancestors = project_path.path.ancestors().collect::>(); for path in ancestors.into_iter().rev() { Self::update_strongest_diagnostic_severity( &mut diagnostics, &project_path, path.into(), diagnostic_severity, ); } }); } self.diagnostics = diagnostics; let diagnostic_badges = ProjectPanelSettings::get_global(cx).diagnostic_badges; self.diagnostic_counts = if diagnostic_badges && show_diagnostics_setting != ShowDiagnostics::Off { self.project.read(cx).diagnostic_summaries(false, cx).fold( HashMap::default(), |mut counts, (project_path, _, summary)| { let entry = counts .entry((project_path.worktree_id, project_path.path)) .or_default(); entry.error_count += summary.error_count; if show_diagnostics_setting == ShowDiagnostics::All { entry.warning_count += summary.warning_count; } counts }, ) } else { Default::default() }; } fn update_strongest_diagnostic_severity( diagnostics: &mut HashMap<(WorktreeId, Arc), DiagnosticSeverity>, project_path: &ProjectPath, path_buffer: Arc, diagnostic_severity: DiagnosticSeverity, ) { diagnostics .entry((project_path.worktree_id, path_buffer)) .and_modify(|strongest_diagnostic_severity| { *strongest_diagnostic_severity = cmp::min(*strongest_diagnostic_severity, diagnostic_severity); }) .or_insert(diagnostic_severity); } fn serialization_key(workspace: &Workspace) -> Option { workspace .database_id() .map(|id| i64::from(id).to_string()) .or(workspace.session_id()) .map(|id| format!("{}-{:?}", PROJECT_PANEL_KEY, id)) } fn serialize(&mut self, cx: &mut Context) { let Some(serialization_key) = self .workspace .read_with(cx, |workspace, _| { ProjectPanel::serialization_key(workspace) }) .ok() .flatten() else { return; }; let width = self.width; self.pending_serialization = cx.background_spawn( async move { KEY_VALUE_STORE .write_kvp( serialization_key, serde_json::to_string(&SerializedProjectPanel { width })?, ) .await?; anyhow::Ok(()) } .log_err(), ); } fn focus_in(&mut self, window: &mut Window, cx: &mut Context) { if !self.focus_handle.contains_focused(window, cx) { cx.emit(Event::Focus); } } fn deploy_context_menu( &mut self, position: Point, entry_id: ProjectEntryId, window: &mut Window, cx: &mut Context, ) { let project = self.project.read(cx); let worktree_id = if let Some(id) = project.worktree_id_for_entry(entry_id, cx) { id } else { return; }; self.selection = Some(SelectedEntry { worktree_id, entry_id, }); if let Some((worktree, entry)) = self.selected_sub_entry(cx) { let auto_fold_dirs = ProjectPanelSettings::get_global(cx).auto_fold_dirs; let worktree = worktree.read(cx); let is_root = Some(entry) == worktree.root_entry(); let is_dir = entry.is_dir(); let is_foldable = auto_fold_dirs && self.is_foldable(entry, worktree); let is_unfoldable = auto_fold_dirs && self.is_unfoldable(entry, worktree); let is_read_only = project.is_read_only(cx); let is_remote = project.is_remote(); let is_collab = project.is_via_collab(); let is_local = project.is_local() || project.is_via_wsl_with_host_interop(cx); let settings = ProjectPanelSettings::get_global(cx); let visible_worktrees_count = project.visible_worktrees(cx).count(); let should_hide_rename = is_root && (cfg!(target_os = "windows") || (settings.hide_root && visible_worktrees_count == 1)); let should_show_compare = !is_dir && self.file_abs_paths_to_diff(cx).is_some(); let has_git_repo = !is_dir && { let project_path = project::ProjectPath { worktree_id, path: entry.path.clone(), }; project .git_store() .read(cx) .repository_and_path_for_project_path(&project_path, cx) .is_some() }; let entity = cx.entity(); let context_menu = ContextMenu::build(window, cx, |menu, _, _| { menu.context(self.focus_handle.clone()).map(|menu| { if is_read_only { menu.when(is_dir, |menu| { menu.action("Search Inside", Box::new(NewSearchInDirectory)) }) } else { menu.action("New File", Box::new(NewFile)) .action("New Folder", Box::new(NewDirectory)) .separator() .when(is_local, |menu| { menu.action( if cfg!(target_os = "macos") && !is_remote { "Reveal in Finder" } else if cfg!(target_os = "windows") && !is_remote { "Reveal in File Explorer" } else { "Reveal in File Manager" }, Box::new(RevealInFileManager), ) }) .when(is_local, |menu| { menu.action("Open in Default App", Box::new(OpenWithSystem)) }) .action("Open in Terminal", Box::new(OpenInTerminal)) .when(is_dir, |menu| { menu.separator() .action("Find in Folder…", Box::new(NewSearchInDirectory)) }) .when(is_unfoldable, |menu| { menu.action("Unfold Directory", Box::new(UnfoldDirectory)) }) .when(is_foldable, |menu| { menu.action("Fold Directory", Box::new(FoldDirectory)) }) .when(should_show_compare, |menu| { menu.separator() .action("Compare Marked Files", Box::new(CompareMarkedFiles)) }) .separator() .action("Cut", Box::new(Cut)) .action("Copy", Box::new(Copy)) .action("Duplicate", Box::new(Duplicate)) // TODO: Paste should always be visible, cbut disabled when clipboard is empty .action_disabled_when( self.clipboard.as_ref().is_none(), "Paste", Box::new(Paste), ) .when(is_remote, |menu| { menu.separator() .action("Download...", Box::new(DownloadFromRemote)) }) .separator() .action("Copy Path", Box::new(zed_actions::workspace::CopyPath)) .action( "Copy Relative Path", Box::new(zed_actions::workspace::CopyRelativePath), ) .when(!is_dir && self.has_git_changes(entry_id), |menu| { menu.separator().action( "Restore File", Box::new(git::RestoreFile { skip_prompt: false }), ) }) .when(has_git_repo, |menu| { menu.separator() .action("View File History", Box::new(git::FileHistory)) }) .when(!should_hide_rename, |menu| { menu.separator().action("Rename", Box::new(Rename)) }) .when(!is_root && !is_remote, |menu| { menu.action("Trash", Box::new(Trash { skip_prompt: false })) }) .when(!is_root, |menu| { menu.action("Delete", Box::new(Delete { skip_prompt: false })) }) .when(!is_collab && is_root, |menu| { menu.separator() .action( "Add Project to Workspace…", Box::new(workspace::AddFolderToProject), ) .action("Remove from Workspace", Box::new(RemoveFromProject)) }) .when(is_dir && !is_root, |menu| { menu.separator().action( "Collapse All", Box::new(CollapseSelectedEntryAndChildren), ) }) .when(is_dir && is_root, |menu| { let entity = entity.clone(); menu.separator().item( ContextMenuEntry::new("Collapse All").handler( move |window, cx| { entity.update(cx, |this, cx| { this.collapse_all_for_root(window, cx); }); }, ), ) }) } }) }); window.focus(&context_menu.focus_handle(cx), cx); let subscription = cx.subscribe(&context_menu, |this, _, _: &DismissEvent, cx| { this.context_menu.take(); cx.notify(); }); self.context_menu = Some((context_menu, position, subscription)); } cx.notify(); } fn has_git_changes(&self, entry_id: ProjectEntryId) -> bool { for visible in &self.state.visible_entries { if let Some(git_entry) = visible.entries.iter().find(|e| e.id == entry_id) { let total_modified = git_entry.git_summary.index.modified + git_entry.git_summary.worktree.modified; let total_deleted = git_entry.git_summary.index.deleted + git_entry.git_summary.worktree.deleted; return total_modified > 0 || total_deleted > 0; } } false } fn is_unfoldable(&self, entry: &Entry, worktree: &Worktree) -> bool { if !entry.is_dir() || self.state.unfolded_dir_ids.contains(&entry.id) { return false; } if let Some(parent_path) = entry.path.parent() { let snapshot = worktree.snapshot(); let mut child_entries = snapshot.child_entries(parent_path); if let Some(child) = child_entries.next() && child_entries.next().is_none() { return child.kind.is_dir(); } }; false } fn is_foldable(&self, entry: &Entry, worktree: &Worktree) -> bool { if entry.is_dir() { let snapshot = worktree.snapshot(); let mut child_entries = snapshot.child_entries(&entry.path); if let Some(child) = child_entries.next() && child_entries.next().is_none() { return child.kind.is_dir(); } } false } fn expand_selected_entry( &mut self, _: &ExpandSelectedEntry, window: &mut Window, cx: &mut Context, ) { if let Some((worktree, entry)) = self.selected_entry(cx) { if let Some(folded_ancestors) = self.state.ancestors.get_mut(&entry.id) && folded_ancestors.current_ancestor_depth > 0 { folded_ancestors.current_ancestor_depth -= 1; cx.notify(); return; } if entry.is_dir() { let worktree_id = worktree.id(); let entry_id = entry.id; let expanded_dir_ids = if let Some(expanded_dir_ids) = self.state.expanded_dir_ids.get_mut(&worktree_id) { expanded_dir_ids } else { return; }; match expanded_dir_ids.binary_search(&entry_id) { Ok(_) => self.select_next(&SelectNext, window, cx), Err(ix) => { self.project.update(cx, |project, cx| { project.expand_entry(worktree_id, entry_id, cx); }); expanded_dir_ids.insert(ix, entry_id); self.update_visible_entries(None, false, false, window, cx); cx.notify(); } } } } } fn collapse_selected_entry( &mut self, _: &CollapseSelectedEntry, window: &mut Window, cx: &mut Context, ) { let Some((worktree, entry)) = self.selected_entry_handle(cx) else { return; }; self.collapse_entry(entry.clone(), worktree, window, cx) } fn collapse_entry( &mut self, entry: Entry, worktree: Entity, window: &mut Window, cx: &mut Context, ) { let worktree = worktree.read(cx); if let Some(folded_ancestors) = self.state.ancestors.get_mut(&entry.id) && folded_ancestors.current_ancestor_depth + 1 < folded_ancestors.max_ancestor_depth() { folded_ancestors.current_ancestor_depth += 1; cx.notify(); return; } let worktree_id = worktree.id(); let expanded_dir_ids = if let Some(expanded_dir_ids) = self.state.expanded_dir_ids.get_mut(&worktree_id) { expanded_dir_ids } else { return; }; let mut entry = &entry; loop { let entry_id = entry.id; match expanded_dir_ids.binary_search(&entry_id) { Ok(ix) => { expanded_dir_ids.remove(ix); self.update_visible_entries( Some((worktree_id, entry_id)), false, false, window, cx, ); cx.notify(); break; } Err(_) => { if let Some(parent_entry) = entry.path.parent().and_then(|p| worktree.entry_for_path(p)) { entry = parent_entry; } else { break; } } } } } fn collapse_selected_entry_and_children( &mut self, _: &CollapseSelectedEntryAndChildren, window: &mut Window, cx: &mut Context, ) { if let Some((worktree, entry)) = self.selected_entry(cx) { let worktree_id = worktree.id(); let entry_id = entry.id; self.collapse_all_for_entry(worktree_id, entry_id, cx); self.update_visible_entries(Some((worktree_id, entry_id)), false, false, window, cx); cx.notify(); } } /// Handles "Collapse All" from the context menu when a root directory is selected. /// With a single visible worktree, keeps the root expanded (matching CollapseAllEntries behavior). /// With multiple visible worktrees, collapses the root and all its children. fn collapse_all_for_root(&mut self, window: &mut Window, cx: &mut Context) { let Some((worktree, entry)) = self.selected_entry(cx) else { return; }; let is_root = worktree.root_entry().map(|e| e.id) == Some(entry.id); if !is_root { return; } let worktree_id = worktree.id(); let root_id = entry.id; if let Some(expanded_dir_ids) = self.state.expanded_dir_ids.get_mut(&worktree_id) { if self.project.read(cx).visible_worktrees(cx).count() == 1 { expanded_dir_ids.retain(|id| id == &root_id); } else { expanded_dir_ids.clear(); } } self.update_visible_entries(Some((worktree_id, root_id)), false, false, window, cx); cx.notify(); } fn collapse_all_entries( &mut self, _: &CollapseAllEntries, window: &mut Window, cx: &mut Context, ) { // By keeping entries for fully collapsed worktrees, we avoid expanding them within update_visible_entries // (which is it's default behavior when there's no entry for a worktree in expanded_dir_ids). let multiple_worktrees = self.project.read(cx).visible_worktrees(cx).count() > 1; let project = self.project.read(cx); self.state .expanded_dir_ids .iter_mut() .for_each(|(worktree_id, expanded_entries)| { if multiple_worktrees { *expanded_entries = Default::default(); return; } let root_entry_id = project .worktree_for_id(*worktree_id, cx) .map(|worktree| worktree.read(cx).snapshot()) .and_then(|worktree_snapshot| { worktree_snapshot.root_entry().map(|entry| entry.id) }); match root_entry_id { Some(id) => { expanded_entries.retain(|entry_id| entry_id == &id); } None => *expanded_entries = Default::default(), }; }); self.update_visible_entries(None, false, false, window, cx); cx.notify(); } fn toggle_expanded( &mut self, entry_id: ProjectEntryId, window: &mut Window, cx: &mut Context, ) { if let Some(worktree_id) = self.project.read(cx).worktree_id_for_entry(entry_id, cx) && let Some(expanded_dir_ids) = self.state.expanded_dir_ids.get_mut(&worktree_id) { self.project.update(cx, |project, cx| { match expanded_dir_ids.binary_search(&entry_id) { Ok(ix) => { expanded_dir_ids.remove(ix); } Err(ix) => { project.expand_entry(worktree_id, entry_id, cx); expanded_dir_ids.insert(ix, entry_id); } } }); self.update_visible_entries(Some((worktree_id, entry_id)), false, false, window, cx); window.focus(&self.focus_handle, cx); cx.notify(); } } fn toggle_expand_all( &mut self, entry_id: ProjectEntryId, window: &mut Window, cx: &mut Context, ) { if let Some(worktree_id) = self.project.read(cx).worktree_id_for_entry(entry_id, cx) && let Some(expanded_dir_ids) = self.state.expanded_dir_ids.get_mut(&worktree_id) { match expanded_dir_ids.binary_search(&entry_id) { Ok(_ix) => { self.collapse_all_for_entry(worktree_id, entry_id, cx); } Err(_ix) => { self.expand_all_for_entry(worktree_id, entry_id, cx); } } self.update_visible_entries(Some((worktree_id, entry_id)), false, false, window, cx); window.focus(&self.focus_handle, cx); cx.notify(); } } fn expand_all_for_entry( &mut self, worktree_id: WorktreeId, entry_id: ProjectEntryId, cx: &mut Context, ) { self.project.update(cx, |project, cx| { if let Some((worktree, expanded_dir_ids)) = project .worktree_for_id(worktree_id, cx) .zip(self.state.expanded_dir_ids.get_mut(&worktree_id)) { if let Some(task) = project.expand_all_for_entry(worktree_id, entry_id, cx) { task.detach(); } let worktree = worktree.read(cx); if let Some(mut entry) = worktree.entry_for_id(entry_id) { loop { if let Err(ix) = expanded_dir_ids.binary_search(&entry.id) { expanded_dir_ids.insert(ix, entry.id); } if let Some(parent_entry) = entry.path.parent().and_then(|p| worktree.entry_for_path(p)) { entry = parent_entry; } else { break; } } } } }); } fn collapse_all_for_entry( &mut self, worktree_id: WorktreeId, entry_id: ProjectEntryId, cx: &mut Context, ) { self.project.update(cx, |project, cx| { if let Some((worktree, expanded_dir_ids)) = project .worktree_for_id(worktree_id, cx) .zip(self.state.expanded_dir_ids.get_mut(&worktree_id)) { let worktree = worktree.read(cx); let mut dirs_to_collapse = vec![entry_id]; let auto_fold_enabled = ProjectPanelSettings::get_global(cx).auto_fold_dirs; while let Some(current_id) = dirs_to_collapse.pop() { let Some(current_entry) = worktree.entry_for_id(current_id) else { continue; }; if let Ok(ix) = expanded_dir_ids.binary_search(¤t_id) { expanded_dir_ids.remove(ix); } if auto_fold_enabled { self.state.unfolded_dir_ids.remove(¤t_id); } for child in worktree.child_entries(¤t_entry.path) { if child.is_dir() { dirs_to_collapse.push(child.id); } } } } }); } fn select_previous(&mut self, _: &SelectPrevious, window: &mut Window, cx: &mut Context) { if let Some(edit_state) = &self.state.edit_state && edit_state.processing_filename.is_none() { self.filename_editor.update(cx, |editor, cx| { editor.move_to_beginning_of_line( &editor::actions::MoveToBeginningOfLine { stop_at_soft_wraps: false, stop_at_indent: false, }, window, cx, ); }); return; } if let Some(selection) = self.selection { let (mut worktree_ix, mut entry_ix, _) = self.index_for_selection(selection).unwrap_or_default(); if entry_ix > 0 { entry_ix -= 1; } else if worktree_ix > 0 { worktree_ix -= 1; entry_ix = self.state.visible_entries[worktree_ix].entries.len() - 1; } else { return; } let VisibleEntriesForWorktree { worktree_id, entries, .. } = &self.state.visible_entries[worktree_ix]; let selection = SelectedEntry { worktree_id: *worktree_id, entry_id: entries[entry_ix].id, }; self.selection = Some(selection); if window.modifiers().shift { self.marked_entries.push(selection); } self.autoscroll(cx); cx.notify(); } else { self.select_first(&SelectFirst {}, window, cx); } } fn confirm(&mut self, _: &Confirm, window: &mut Window, cx: &mut Context) { if let Some(task) = self.confirm_edit(true, window, cx) { task.detach_and_notify_err(self.workspace.clone(), window, cx); } } fn open(&mut self, _: &Open, window: &mut Window, cx: &mut Context) { let preview_tabs_enabled = PreviewTabsSettings::get_global(cx).enable_preview_from_project_panel; self.open_internal(true, !preview_tabs_enabled, None, window, cx); } fn open_permanent(&mut self, _: &OpenPermanent, window: &mut Window, cx: &mut Context) { self.open_internal(false, true, None, window, cx); } fn open_split_vertical( &mut self, _: &OpenSplitVertical, window: &mut Window, cx: &mut Context, ) { self.open_internal(false, true, Some(SplitDirection::vertical(cx)), window, cx); } fn open_split_horizontal( &mut self, _: &OpenSplitHorizontal, window: &mut Window, cx: &mut Context, ) { self.open_internal( false, true, Some(SplitDirection::horizontal(cx)), window, cx, ); } fn open_internal( &mut self, allow_preview: bool, focus_opened_item: bool, split_direction: Option, window: &mut Window, cx: &mut Context, ) { if let Some((_, entry)) = self.selected_entry(cx) { if entry.is_file() { if split_direction.is_some() { self.split_entry(entry.id, allow_preview, split_direction, cx); } else { self.open_entry(entry.id, focus_opened_item, allow_preview, cx); } cx.notify(); } else { self.toggle_expanded(entry.id, window, cx); } } } fn populate_validation_error(&mut self, cx: &mut Context) { let edit_state = match self.state.edit_state.as_mut() { Some(state) => state, None => return, }; let filename = self.filename_editor.read(cx).text(cx); if !filename.is_empty() { if filename.is_empty() { edit_state.validation_state = ValidationState::Error("File or directory name cannot be empty.".to_string()); cx.notify(); return; } let trimmed_filename = filename.trim(); if trimmed_filename != filename { edit_state.validation_state = ValidationState::Warning( "File or directory name contains leading or trailing whitespace.".to_string(), ); cx.notify(); return; } let trimmed_filename = trimmed_filename.trim_start_matches('/'); let Ok(filename) = RelPath::unix(trimmed_filename) else { edit_state.validation_state = ValidationState::Warning( "File or directory name contains leading or trailing whitespace.".to_string(), ); cx.notify(); return; }; if let Some(worktree) = self .project .read(cx) .worktree_for_id(edit_state.worktree_id, cx) && let Some(entry) = worktree.read(cx).entry_for_id(edit_state.entry_id) { let mut already_exists = false; if edit_state.is_new_entry() { let new_path = entry.path.join(filename); if worktree.read(cx).entry_for_path(&new_path).is_some() { already_exists = true; } } else { let new_path = if let Some(parent) = entry.path.clone().parent() { parent.join(&filename) } else { filename.into() }; if let Some(existing) = worktree.read(cx).entry_for_path(&new_path) && existing.id != entry.id { already_exists = true; } }; if already_exists { edit_state.validation_state = ValidationState::Error(format!( "File or directory '{}' already exists at location. Please choose a different name.", filename.as_unix_str() )); cx.notify(); return; } } } edit_state.validation_state = ValidationState::None; cx.notify(); } fn confirm_edit( &mut self, refocus: bool, window: &mut Window, cx: &mut Context, ) -> Option>> { let edit_state = self.state.edit_state.as_mut()?; let worktree_id = edit_state.worktree_id; let is_new_entry = edit_state.is_new_entry(); let mut filename = self.filename_editor.read(cx).text(cx); let path_style = self.project.read(cx).path_style(cx); if path_style.is_windows() { // on windows, trailing dots are ignored in paths // this can cause project panel to create a new entry with a trailing dot // while the actual one without the dot gets populated by the file watcher while let Some(trimmed) = filename.strip_suffix('.') { filename = trimmed.to_string(); } } if filename.trim().is_empty() { return None; } let filename_indicates_dir = if path_style.is_windows() { filename.ends_with('/') || filename.ends_with('\\') } else { filename.ends_with('/') }; let filename = if path_style.is_windows() { filename.trim_start_matches(&['/', '\\']) } else { filename.trim_start_matches('/') }; let filename = RelPath::new(filename.as_ref(), path_style).ok()?.into_arc(); edit_state.is_dir = edit_state.is_dir || (edit_state.is_new_entry() && filename_indicates_dir); let is_dir = edit_state.is_dir; let worktree = self.project.read(cx).worktree_for_id(worktree_id, cx)?; let entry = worktree.read(cx).entry_for_id(edit_state.entry_id)?.clone(); let edit_task; let edited_entry_id; if is_new_entry { self.selection = Some(SelectedEntry { worktree_id, entry_id: NEW_ENTRY_ID, }); let new_path = entry.path.join(&filename); if worktree.read(cx).entry_for_path(&new_path).is_some() { return None; } edited_entry_id = NEW_ENTRY_ID; edit_task = self.project.update(cx, |project, cx| { project.create_entry((worktree_id, new_path), is_dir, cx) }); } else { let new_path = if let Some(parent) = entry.path.clone().parent() { parent.join(&filename) } else { filename.clone() }; if let Some(existing) = worktree.read(cx).entry_for_path(&new_path) { if existing.id == entry.id && refocus { window.focus(&self.focus_handle, cx); } return None; } edited_entry_id = entry.id; edit_task = self.project.update(cx, |project, cx| { project.rename_entry(entry.id, (worktree_id, new_path).into(), cx) }); }; if refocus { window.focus(&self.focus_handle, cx); } edit_state.processing_filename = Some(filename); cx.notify(); Some(cx.spawn_in(window, async move |project_panel, cx| { let new_entry = edit_task.await; project_panel.update(cx, |project_panel, cx| { project_panel.state.edit_state = None; cx.notify(); })?; match new_entry { Err(e) => { project_panel .update_in(cx, |project_panel, window, cx| { project_panel.marked_entries.clear(); project_panel.update_visible_entries(None, false, false, window, cx); }) .ok(); Err(e)?; } Ok(CreatedEntry::Included(new_entry)) => { project_panel.update_in(cx, |project_panel, window, cx| { if let Some(selection) = &mut project_panel.selection && selection.entry_id == edited_entry_id { selection.worktree_id = worktree_id; selection.entry_id = new_entry.id; project_panel.marked_entries.clear(); project_panel.expand_to_selection(cx); } project_panel.update_visible_entries(None, false, false, window, cx); if is_new_entry && !is_dir { let settings = ProjectPanelSettings::get_global(cx); if settings.auto_open.should_open_on_create() { project_panel.open_entry(new_entry.id, true, false, cx); } } cx.notify(); })?; } Ok(CreatedEntry::Excluded { abs_path }) => { if let Some(open_task) = project_panel .update_in(cx, |project_panel, window, cx| { project_panel.marked_entries.clear(); project_panel.update_visible_entries(None, false, false, window, cx); if is_dir { project_panel.project.update(cx, |_, cx| { cx.emit(project::Event::Toast { notification_id: "excluded-directory".into(), message: format!( concat!( "Created an excluded directory at {:?}.\n", "Alter `file_scan_exclusions` in the settings ", "to show it in the panel" ), abs_path ), link: None, }) }); None } else { project_panel .workspace .update(cx, |workspace, cx| { workspace.open_abs_path( abs_path, OpenOptions { visible: Some(OpenVisible::All), ..Default::default() }, window, cx, ) }) .ok() } }) .ok() .flatten() { let _ = open_task.await?; } } } Ok(()) })) } fn discard_edit_state(&mut self, window: &mut Window, cx: &mut Context) { if let Some(edit_state) = self.state.edit_state.take() { self.state.temporarily_unfolded_pending_state = edit_state .temporarily_unfolded .and_then(|temporarily_unfolded_entry_id| { let previously_focused_leaf_entry = edit_state.previously_focused?; let folded_ancestors = self.state.ancestors.get(&temporarily_unfolded_entry_id)?; Some(TemporaryUnfoldedPendingState { previously_focused_leaf_entry, temporarily_unfolded_active_entry_id: folded_ancestors .active_ancestor() .unwrap_or(temporarily_unfolded_entry_id), }) }); let previously_focused = edit_state .previously_focused .map(|entry| (entry.worktree_id, entry.entry_id)); self.update_visible_entries( previously_focused, false, previously_focused.is_some(), window, cx, ); } } fn cancel(&mut self, _: &menu::Cancel, window: &mut Window, cx: &mut Context) { if cx.stop_active_drag(window) { self.drag_target_entry.take(); self.hover_expand_task.take(); return; } self.marked_entries.clear(); cx.notify(); self.discard_edit_state(window, cx); window.focus(&self.focus_handle, cx); } fn open_entry( &mut self, entry_id: ProjectEntryId, focus_opened_item: bool, allow_preview: bool, cx: &mut Context, ) { cx.emit(Event::OpenedEntry { entry_id, focus_opened_item, allow_preview, }); } fn split_entry( &mut self, entry_id: ProjectEntryId, allow_preview: bool, split_direction: Option, cx: &mut Context, ) { cx.emit(Event::SplitEntry { entry_id, allow_preview, split_direction, }); } fn new_file(&mut self, _: &NewFile, window: &mut Window, cx: &mut Context) { self.add_entry(false, window, cx) } fn new_directory(&mut self, _: &NewDirectory, window: &mut Window, cx: &mut Context) { self.add_entry(true, window, cx) } fn add_entry(&mut self, is_dir: bool, window: &mut Window, cx: &mut Context) { let Some((worktree_id, entry_id)) = self .selection .map(|entry| (entry.worktree_id, entry.entry_id)) .or_else(|| { let entry_id = self.state.last_worktree_root_id?; let worktree_id = self .project .read(cx) .worktree_for_entry(entry_id, cx)? .read(cx) .id(); self.selection = Some(SelectedEntry { worktree_id, entry_id, }); Some((worktree_id, entry_id)) }) else { return; }; let directory_id; let new_entry_id = self.resolve_entry(entry_id); if let Some((worktree, expanded_dir_ids)) = self .project .read(cx) .worktree_for_id(worktree_id, cx) .zip(self.state.expanded_dir_ids.get_mut(&worktree_id)) { let worktree = worktree.read(cx); if let Some(mut entry) = worktree.entry_for_id(new_entry_id) { loop { if entry.is_dir() { if let Err(ix) = expanded_dir_ids.binary_search(&entry.id) { expanded_dir_ids.insert(ix, entry.id); } directory_id = entry.id; break; } else { if let Some(parent_path) = entry.path.parent() && let Some(parent_entry) = worktree.entry_for_path(parent_path) { entry = parent_entry; continue; } return; } } } else { return; }; } else { return; }; self.marked_entries.clear(); self.state.edit_state = Some(EditState { worktree_id, entry_id: directory_id, leaf_entry_id: None, is_dir, processing_filename: None, previously_focused: self.selection, depth: 0, validation_state: ValidationState::None, temporarily_unfolded: (new_entry_id != entry_id).then_some(new_entry_id), }); self.filename_editor.update(cx, |editor, cx| { editor.clear(window, cx); }); self.update_visible_entries(Some((worktree_id, NEW_ENTRY_ID)), true, true, window, cx); cx.notify(); } fn unflatten_entry_id(&self, leaf_entry_id: ProjectEntryId) -> ProjectEntryId { if let Some(ancestors) = self.state.ancestors.get(&leaf_entry_id) { ancestors .ancestors .get(ancestors.current_ancestor_depth) .copied() .unwrap_or(leaf_entry_id) } else { leaf_entry_id } } fn rename_impl( &mut self, selection: Option>, window: &mut Window, cx: &mut Context, ) { if let Some(SelectedEntry { worktree_id, entry_id, }) = self.selection && let Some(worktree) = self.project.read(cx).worktree_for_id(worktree_id, cx) { let sub_entry_id = self.unflatten_entry_id(entry_id); if let Some(entry) = worktree.read(cx).entry_for_id(sub_entry_id) { #[cfg(target_os = "windows")] if Some(entry) == worktree.read(cx).root_entry() { return; } if Some(entry) == worktree.read(cx).root_entry() { let settings = ProjectPanelSettings::get_global(cx); let visible_worktrees_count = self.project.read(cx).visible_worktrees(cx).count(); if settings.hide_root && visible_worktrees_count == 1 { return; } } self.state.edit_state = Some(EditState { worktree_id, entry_id: sub_entry_id, leaf_entry_id: Some(entry_id), is_dir: entry.is_dir(), processing_filename: None, previously_focused: None, depth: 0, validation_state: ValidationState::None, temporarily_unfolded: None, }); let file_name = entry.path.file_name().unwrap_or_default().to_string(); let selection = selection.unwrap_or_else(|| { let file_stem = entry.path.file_stem().map(|s| s.to_string()); let selection_end = file_stem.map_or(file_name.len(), |file_stem| file_stem.len()); 0..selection_end }); self.filename_editor.update(cx, |editor, cx| { editor.set_text(file_name, window, cx); editor.change_selections(Default::default(), window, cx, |s| { s.select_ranges([ MultiBufferOffset(selection.start)..MultiBufferOffset(selection.end) ]) }); }); self.update_visible_entries(None, true, true, window, cx); cx.notify(); } } } fn rename(&mut self, _: &Rename, window: &mut Window, cx: &mut Context) { self.rename_impl(None, window, cx); } fn trash(&mut self, action: &Trash, window: &mut Window, cx: &mut Context) { self.remove(true, action.skip_prompt, window, cx); } fn delete(&mut self, action: &Delete, window: &mut Window, cx: &mut Context) { self.remove(false, action.skip_prompt, window, cx); } fn restore_file( &mut self, action: &git::RestoreFile, window: &mut Window, cx: &mut Context, ) { maybe!({ let selection = self.selection?; let project = self.project.read(cx); let (_worktree, entry) = self.selected_sub_entry(cx)?; if entry.is_dir() { return None; } let project_path = project.path_for_entry(selection.entry_id, cx)?; let git_store = project.git_store(); let (repository, repo_path) = git_store .read(cx) .repository_and_path_for_project_path(&project_path, cx)?; let snapshot = repository.read(cx).snapshot(); let status = snapshot.status_for_path(&repo_path)?; if !status.status.is_modified() && !status.status.is_deleted() { return None; } let file_name = entry.path.file_name()?.to_string(); let answer = if !action.skip_prompt { let prompt = format!("Discard changes to {}?", file_name); Some(window.prompt(PromptLevel::Info, &prompt, None, &["Restore", "Cancel"], cx)) } else { None }; cx.spawn_in(window, async move |panel, cx| { if let Some(answer) = answer && answer.await != Ok(0) { return anyhow::Ok(()); } let task = panel.update(cx, |_panel, cx| { repository.update(cx, |repo, cx| { repo.checkout_files("HEAD", vec![repo_path], cx) }) })?; if let Err(e) = task.await { panel .update(cx, |panel, cx| { let message = format!("Failed to restore {}: {}", file_name, e); let toast = StatusToast::new(message, cx, |this, _| { this.icon(ToastIcon::new(IconName::XCircle).color(Color::Error)) .dismiss_button(true) }); panel .workspace .update(cx, |workspace, cx| { workspace.toggle_status_toast(toast, cx); }) .ok(); }) .ok(); } panel .update(cx, |panel, cx| { panel.project.update(cx, |project, cx| { if let Some(buffer_id) = project .buffer_store() .read(cx) .buffer_id_for_project_path(&project_path) { if let Some(buffer) = project.buffer_for_id(*buffer_id, cx) { buffer.update(cx, |buffer, cx| { let _ = buffer.reload(cx); }); } } }) }) .ok(); anyhow::Ok(()) }) .detach_and_log_err(cx); Some(()) }); } fn remove( &mut self, trash: bool, skip_prompt: bool, window: &mut Window, cx: &mut Context, ) { maybe!({ let items_to_delete = self.disjoint_effective_entries(cx); if items_to_delete.is_empty() { return None; } let project = self.project.read(cx); let mut dirty_buffers = 0; let file_paths = items_to_delete .iter() .filter_map(|selection| { let project_path = project.path_for_entry(selection.entry_id, cx)?; dirty_buffers += project.dirty_buffers(cx).any(|path| path == project_path) as usize; Some(( selection.entry_id, project_path.path.file_name()?.to_string(), )) }) .collect::>(); if file_paths.is_empty() { return None; } let answer = if !skip_prompt { let operation = if trash { "Trash" } else { "Delete" }; let prompt = match file_paths.first() { Some((_, path)) if file_paths.len() == 1 => { let unsaved_warning = if dirty_buffers > 0 { "\n\nIt has unsaved changes, which will be lost." } else { "" }; format!("{operation} {path}?{unsaved_warning}") } _ => { const CUTOFF_POINT: usize = 10; let names = if file_paths.len() > CUTOFF_POINT { let truncated_path_counts = file_paths.len() - CUTOFF_POINT; let mut paths = file_paths .iter() .map(|(_, path)| path.clone()) .take(CUTOFF_POINT) .collect::>(); paths.truncate(CUTOFF_POINT); if truncated_path_counts == 1 { paths.push(".. 1 file not shown".into()); } else { paths.push(format!(".. {} files not shown", truncated_path_counts)); } paths } else { file_paths.iter().map(|(_, path)| path.clone()).collect() }; let unsaved_warning = if dirty_buffers == 0 { String::new() } else if dirty_buffers == 1 { "\n\n1 of these has unsaved changes, which will be lost.".to_string() } else { format!( "\n\n{dirty_buffers} of these have unsaved changes, which will be lost." ) }; format!( "Do you want to {} the following {} files?\n{}{unsaved_warning}", operation.to_lowercase(), file_paths.len(), names.join("\n") ) } }; Some(window.prompt(PromptLevel::Info, &prompt, None, &[operation, "Cancel"], cx)) } else { None }; let next_selection = self.find_next_selection_after_deletion(items_to_delete, cx); cx.spawn_in(window, async move |panel, cx| { if let Some(answer) = answer && answer.await != Ok(0) { return anyhow::Ok(()); } for (entry_id, _) in file_paths { panel .update(cx, |panel, cx| { panel .project .update(cx, |project, cx| project.delete_entry(entry_id, trash, cx)) .context("no such entry") })?? .await?; } panel.update_in(cx, |panel, window, cx| { if let Some(next_selection) = next_selection { panel.update_visible_entries( Some((next_selection.worktree_id, next_selection.entry_id)), false, true, window, cx, ); } else { panel.select_last(&SelectLast {}, window, cx); } })?; Ok(()) }) .detach_and_log_err(cx); Some(()) }); } fn find_next_selection_after_deletion( &self, sanitized_entries: BTreeSet, cx: &mut Context, ) -> Option { if sanitized_entries.is_empty() { return None; } let project = self.project.read(cx); let (worktree_id, worktree) = sanitized_entries .iter() .map(|entry| entry.worktree_id) .filter_map(|id| project.worktree_for_id(id, cx).map(|w| (id, w.read(cx)))) .max_by(|(_, a), (_, b)| a.root_name().cmp(b.root_name()))?; let git_store = project.git_store().read(cx); let marked_entries_in_worktree = sanitized_entries .iter() .filter(|e| e.worktree_id == worktree_id) .collect::>(); let latest_entry = marked_entries_in_worktree .iter() .max_by(|a, b| { match ( worktree.entry_for_id(a.entry_id), worktree.entry_for_id(b.entry_id), ) { (Some(a), Some(b)) => compare_paths( (a.path.as_std_path(), a.is_file()), (b.path.as_std_path(), b.is_file()), ), _ => cmp::Ordering::Equal, } }) .and_then(|e| worktree.entry_for_id(e.entry_id))?; let parent_path = latest_entry.path.parent()?; let parent_entry = worktree.entry_for_path(parent_path)?; // Remove all siblings that are being deleted except the last marked entry let repo_snapshots = git_store.repo_snapshots(cx); let worktree_snapshot = worktree.snapshot(); let hide_gitignore = ProjectPanelSettings::get_global(cx).hide_gitignore; let mut siblings: Vec<_> = ChildEntriesGitIter::new(&repo_snapshots, &worktree_snapshot, parent_path) .filter(|sibling| { (sibling.id == latest_entry.id) || (!marked_entries_in_worktree.contains(&&SelectedEntry { worktree_id, entry_id: sibling.id, }) && (!hide_gitignore || !sibling.is_ignored)) }) .map(|entry| entry.to_owned()) .collect(); let mode = ProjectPanelSettings::get_global(cx).sort_mode; sort_worktree_entries_with_mode(&mut siblings, mode); let sibling_entry_index = siblings .iter() .position(|sibling| sibling.id == latest_entry.id)?; if let Some(next_sibling) = sibling_entry_index .checked_add(1) .and_then(|i| siblings.get(i)) { return Some(SelectedEntry { worktree_id, entry_id: next_sibling.id, }); } if let Some(prev_sibling) = sibling_entry_index .checked_sub(1) .and_then(|i| siblings.get(i)) { return Some(SelectedEntry { worktree_id, entry_id: prev_sibling.id, }); } // No neighbour sibling found, fall back to parent Some(SelectedEntry { worktree_id, entry_id: parent_entry.id, }) } fn unfold_directory( &mut self, _: &UnfoldDirectory, window: &mut Window, cx: &mut Context, ) { if let Some((worktree, entry)) = self.selected_entry(cx) { self.state.unfolded_dir_ids.insert(entry.id); let snapshot = worktree.snapshot(); let mut parent_path = entry.path.parent(); while let Some(path) = parent_path { if let Some(parent_entry) = worktree.entry_for_path(path) { let mut children_iter = snapshot.child_entries(path); if children_iter.by_ref().take(2).count() > 1 { break; } self.state.unfolded_dir_ids.insert(parent_entry.id); parent_path = path.parent(); } else { break; } } self.update_visible_entries(None, false, true, window, cx); cx.notify(); } } fn fold_directory(&mut self, _: &FoldDirectory, window: &mut Window, cx: &mut Context) { if let Some((worktree, entry)) = self.selected_entry(cx) { self.state.unfolded_dir_ids.remove(&entry.id); let snapshot = worktree.snapshot(); let mut path = &*entry.path; loop { let mut child_entries_iter = snapshot.child_entries(path); if let Some(child) = child_entries_iter.next() { if child_entries_iter.next().is_none() && child.is_dir() { self.state.unfolded_dir_ids.remove(&child.id); path = &*child.path; } else { break; } } else { break; } } self.update_visible_entries(None, false, true, window, cx); cx.notify(); } } fn scroll_up(&mut self, _: &ScrollUp, window: &mut Window, cx: &mut Context) { for _ in 0..self.rendered_entries_len / 2 { window.dispatch_action(SelectPrevious.boxed_clone(), cx); } } fn scroll_down(&mut self, _: &ScrollDown, window: &mut Window, cx: &mut Context) { for _ in 0..self.rendered_entries_len / 2 { window.dispatch_action(SelectNext.boxed_clone(), cx); } } fn scroll_cursor_center( &mut self, _: &ScrollCursorCenter, _: &mut Window, cx: &mut Context, ) { if let Some((_, _, index)) = self.selection.and_then(|s| self.index_for_selection(s)) { self.scroll_handle .scroll_to_item_strict(index, ScrollStrategy::Center); cx.notify(); } } fn scroll_cursor_top(&mut self, _: &ScrollCursorTop, _: &mut Window, cx: &mut Context) { if let Some((_, _, index)) = self.selection.and_then(|s| self.index_for_selection(s)) { self.scroll_handle .scroll_to_item_strict(index, ScrollStrategy::Top); cx.notify(); } } fn scroll_cursor_bottom( &mut self, _: &ScrollCursorBottom, _: &mut Window, cx: &mut Context, ) { if let Some((_, _, index)) = self.selection.and_then(|s| self.index_for_selection(s)) { self.scroll_handle .scroll_to_item_strict(index, ScrollStrategy::Bottom); cx.notify(); } } fn select_next(&mut self, _: &SelectNext, window: &mut Window, cx: &mut Context) { if let Some(edit_state) = &self.state.edit_state && edit_state.processing_filename.is_none() { self.filename_editor.update(cx, |editor, cx| { editor.move_to_end_of_line( &editor::actions::MoveToEndOfLine { stop_at_soft_wraps: false, }, window, cx, ); }); return; } if let Some(selection) = self.selection { let (mut worktree_ix, mut entry_ix, _) = self.index_for_selection(selection).unwrap_or_default(); if let Some(worktree_entries) = self .state .visible_entries .get(worktree_ix) .map(|v| &v.entries) { if entry_ix + 1 < worktree_entries.len() { entry_ix += 1; } else { worktree_ix += 1; entry_ix = 0; } } if let Some(VisibleEntriesForWorktree { worktree_id, entries, .. }) = self.state.visible_entries.get(worktree_ix) && let Some(entry) = entries.get(entry_ix) { let selection = SelectedEntry { worktree_id: *worktree_id, entry_id: entry.id, }; self.selection = Some(selection); if window.modifiers().shift { self.marked_entries.push(selection); } self.autoscroll(cx); cx.notify(); } } else { self.select_first(&SelectFirst {}, window, cx); } } fn select_prev_diagnostic( &mut self, action: &SelectPrevDiagnostic, window: &mut Window, cx: &mut Context, ) { let selection = self.find_entry( self.selection.as_ref(), true, &|entry: GitEntryRef, worktree_id: WorktreeId| { self.selection.is_none_or(|selection| { if selection.worktree_id == worktree_id { selection.entry_id != entry.id } else { true } }) && entry.is_file() && self .diagnostics .get(&(worktree_id, entry.path.clone())) .is_some_and(|severity| action.severity.matches(*severity)) }, cx, ); if let Some(selection) = selection { self.selection = Some(selection); self.expand_entry(selection.worktree_id, selection.entry_id, cx); self.update_visible_entries( Some((selection.worktree_id, selection.entry_id)), false, true, window, cx, ); cx.notify(); } } fn select_next_diagnostic( &mut self, action: &SelectNextDiagnostic, window: &mut Window, cx: &mut Context, ) { let selection = self.find_entry( self.selection.as_ref(), false, &|entry: GitEntryRef, worktree_id: WorktreeId| { self.selection.is_none_or(|selection| { if selection.worktree_id == worktree_id { selection.entry_id != entry.id } else { true } }) && entry.is_file() && self .diagnostics .get(&(worktree_id, entry.path.clone())) .is_some_and(|severity| action.severity.matches(*severity)) }, cx, ); if let Some(selection) = selection { self.selection = Some(selection); self.expand_entry(selection.worktree_id, selection.entry_id, cx); self.update_visible_entries( Some((selection.worktree_id, selection.entry_id)), false, true, window, cx, ); cx.notify(); } } fn select_prev_git_entry( &mut self, _: &SelectPrevGitEntry, window: &mut Window, cx: &mut Context, ) { let selection = self.find_entry( self.selection.as_ref(), true, &|entry: GitEntryRef, worktree_id: WorktreeId| { (self.selection.is_none() || self.selection.is_some_and(|selection| { if selection.worktree_id == worktree_id { selection.entry_id != entry.id } else { true } })) && entry.is_file() && entry.git_summary.index.modified + entry.git_summary.worktree.modified > 0 }, cx, ); if let Some(selection) = selection { self.selection = Some(selection); self.expand_entry(selection.worktree_id, selection.entry_id, cx); self.update_visible_entries( Some((selection.worktree_id, selection.entry_id)), false, true, window, cx, ); cx.notify(); } } fn select_prev_directory( &mut self, _: &SelectPrevDirectory, _: &mut Window, cx: &mut Context, ) { let selection = self.find_visible_entry( self.selection.as_ref(), true, &|entry: GitEntryRef, worktree_id: WorktreeId| { self.selection.is_none_or(|selection| { if selection.worktree_id == worktree_id { selection.entry_id != entry.id } else { true } }) && entry.is_dir() }, cx, ); if let Some(selection) = selection { self.selection = Some(selection); self.autoscroll(cx); cx.notify(); } } fn select_next_directory( &mut self, _: &SelectNextDirectory, _: &mut Window, cx: &mut Context, ) { let selection = self.find_visible_entry( self.selection.as_ref(), false, &|entry: GitEntryRef, worktree_id: WorktreeId| { self.selection.is_none_or(|selection| { if selection.worktree_id == worktree_id { selection.entry_id != entry.id } else { true } }) && entry.is_dir() }, cx, ); if let Some(selection) = selection { self.selection = Some(selection); self.autoscroll(cx); cx.notify(); } } fn select_next_git_entry( &mut self, _: &SelectNextGitEntry, window: &mut Window, cx: &mut Context, ) { let selection = self.find_entry( self.selection.as_ref(), false, &|entry: GitEntryRef, worktree_id: WorktreeId| { self.selection.is_none_or(|selection| { if selection.worktree_id == worktree_id { selection.entry_id != entry.id } else { true } }) && entry.is_file() && entry.git_summary.index.modified + entry.git_summary.worktree.modified > 0 }, cx, ); if let Some(selection) = selection { self.selection = Some(selection); self.expand_entry(selection.worktree_id, selection.entry_id, cx); self.update_visible_entries( Some((selection.worktree_id, selection.entry_id)), false, true, window, cx, ); cx.notify(); } } fn select_parent(&mut self, _: &SelectParent, window: &mut Window, cx: &mut Context) { if let Some((worktree, entry)) = self.selected_sub_entry(cx) { if let Some(parent) = entry.path.parent() { let worktree = worktree.read(cx); if let Some(parent_entry) = worktree.entry_for_path(parent) { self.selection = Some(SelectedEntry { worktree_id: worktree.id(), entry_id: parent_entry.id, }); self.autoscroll(cx); cx.notify(); } } } else { self.select_first(&SelectFirst {}, window, cx); } } fn select_first(&mut self, _: &SelectFirst, window: &mut Window, cx: &mut Context) { if let Some(VisibleEntriesForWorktree { worktree_id, entries, .. }) = self.state.visible_entries.first() && let Some(entry) = entries.first() { let selection = SelectedEntry { worktree_id: *worktree_id, entry_id: entry.id, }; self.selection = Some(selection); if window.modifiers().shift { self.marked_entries.push(selection); } self.autoscroll(cx); cx.notify(); } } fn select_last(&mut self, _: &SelectLast, _: &mut Window, cx: &mut Context) { if let Some(VisibleEntriesForWorktree { worktree_id, entries, .. }) = self.state.visible_entries.last() { let worktree = self.project.read(cx).worktree_for_id(*worktree_id, cx); if let (Some(worktree), Some(entry)) = (worktree, entries.last()) { let worktree = worktree.read(cx); if let Some(entry) = worktree.entry_for_id(entry.id) { let selection = SelectedEntry { worktree_id: *worktree_id, entry_id: entry.id, }; self.selection = Some(selection); self.autoscroll(cx); cx.notify(); } } } } fn autoscroll(&mut self, cx: &mut Context) { if let Some((_, _, index)) = self.selection.and_then(|s| self.index_for_selection(s)) { self.scroll_handle.scroll_to_item_with_offset( index, ScrollStrategy::Center, self.sticky_items_count, ); cx.notify(); } } fn cut(&mut self, _: &Cut, _: &mut Window, cx: &mut Context) { let entries = self.disjoint_effective_entries(cx); if !entries.is_empty() { self.clipboard = Some(ClipboardEntry::Cut(entries)); cx.notify(); } } fn copy(&mut self, _: &Copy, _: &mut Window, cx: &mut Context) { let entries = self.disjoint_effective_entries(cx); if !entries.is_empty() { self.clipboard = Some(ClipboardEntry::Copied(entries)); cx.notify(); } } fn create_paste_path( &self, source: &SelectedEntry, (worktree, target_entry): (Entity, &Entry), cx: &App, ) -> Option<(Arc, Option>)> { let mut new_path = target_entry.path.to_rel_path_buf(); // If we're pasting into a file, or a directory into itself, go up one level. if target_entry.is_file() || (target_entry.is_dir() && target_entry.id == source.entry_id) { new_path.pop(); } let clipboard_entry_file_name = self .project .read(cx) .path_for_entry(source.entry_id, cx)? .path .file_name()? .to_string(); new_path.push(RelPath::unix(&clipboard_entry_file_name).unwrap()); let extension = new_path.extension().map(|s| s.to_string()); let file_name_without_extension = new_path.file_stem()?.to_string(); let file_name_len = file_name_without_extension.len(); let mut disambiguation_range = None; let mut ix = 0; { let worktree = worktree.read(cx); while worktree.entry_for_path(&new_path).is_some() { new_path.pop(); let mut new_file_name = file_name_without_extension.to_string(); let disambiguation = " copy"; let mut disambiguation_len = disambiguation.len(); new_file_name.push_str(disambiguation); if ix > 0 { let extra_disambiguation = format!(" {}", ix); disambiguation_len += extra_disambiguation.len(); new_file_name.push_str(&extra_disambiguation); } if let Some(extension) = extension.as_ref() { new_file_name.push_str("."); new_file_name.push_str(extension); } new_path.push(RelPath::unix(&new_file_name).unwrap()); disambiguation_range = Some(file_name_len..(file_name_len + disambiguation_len)); ix += 1; } } Some((new_path.as_rel_path().into(), disambiguation_range)) } fn paste(&mut self, _: &Paste, window: &mut Window, cx: &mut Context) { maybe!({ let (worktree, entry) = self.selected_entry_handle(cx)?; let entry = entry.clone(); let worktree_id = worktree.read(cx).id(); let clipboard_entries = self .clipboard .as_ref() .filter(|clipboard| !clipboard.items().is_empty())?; enum PasteTask { Rename(Task>), Copy(Task>>), } let mut paste_tasks = Vec::new(); let mut disambiguation_range = None; let clip_is_cut = clipboard_entries.is_cut(); for clipboard_entry in clipboard_entries.items() { let (new_path, new_disambiguation_range) = self.create_paste_path(clipboard_entry, self.selected_sub_entry(cx)?, cx)?; let clip_entry_id = clipboard_entry.entry_id; let task = if clipboard_entries.is_cut() { let task = self.project.update(cx, |project, cx| { project.rename_entry(clip_entry_id, (worktree_id, new_path).into(), cx) }); PasteTask::Rename(task) } else { let task = self.project.update(cx, |project, cx| { project.copy_entry(clip_entry_id, (worktree_id, new_path).into(), cx) }); PasteTask::Copy(task) }; paste_tasks.push(task); disambiguation_range = new_disambiguation_range.or(disambiguation_range); } let item_count = paste_tasks.len(); let workspace = self.workspace.clone(); cx.spawn_in(window, async move |project_panel, mut cx| { let mut last_succeed = None; for task in paste_tasks { match task { PasteTask::Rename(task) => { if let Some(CreatedEntry::Included(entry)) = task .await .notify_workspace_async_err(workspace.clone(), &mut cx) { last_succeed = Some(entry); } } PasteTask::Copy(task) => { if let Some(Some(entry)) = task .await .notify_workspace_async_err(workspace.clone(), &mut cx) { last_succeed = Some(entry); } } } } // update selection if let Some(entry) = last_succeed { project_panel .update_in(cx, |project_panel, window, cx| { project_panel.selection = Some(SelectedEntry { worktree_id, entry_id: entry.id, }); if item_count == 1 { // open entry if not dir, setting is enabled, and only focus if rename is not pending if !entry.is_dir() { let settings = ProjectPanelSettings::get_global(cx); if settings.auto_open.should_open_on_paste() { project_panel.open_entry( entry.id, disambiguation_range.is_none(), false, cx, ); } } // if only one entry was pasted and it was disambiguated, open the rename editor if disambiguation_range.is_some() { cx.defer_in(window, |this, window, cx| { this.rename_impl(disambiguation_range, window, cx); }); } } }) .ok(); } anyhow::Ok(()) }) .detach_and_log_err(cx); if clip_is_cut { // Convert the clipboard cut entry to a copy entry after the first paste. self.clipboard = self.clipboard.take().map(ClipboardEntry::into_copy_entry); } self.expand_entry(worktree_id, entry.id, cx); Some(()) }); } fn download_from_remote( &mut self, _: &DownloadFromRemote, window: &mut Window, cx: &mut Context, ) { let entries = self.effective_entries(); if entries.is_empty() { return; } let project = self.project.read(cx); // Collect file entries with their worktree_id, path, and relative path for destination // For directories, we collect all files under them recursively let mut files_to_download: Vec<(WorktreeId, Arc, PathBuf)> = Vec::new(); for selected in entries.iter() { let Some(worktree) = project.worktree_for_id(selected.worktree_id, cx) else { continue; }; let worktree = worktree.read(cx); let Some(entry) = worktree.entry_for_id(selected.entry_id) else { continue; }; if entry.is_file() { // Single file: use just the filename let filename = entry .path .file_name() .map(str::to_string) .unwrap_or_default(); files_to_download.push(( selected.worktree_id, entry.path.clone(), PathBuf::from(filename), )); } else if entry.is_dir() { // Directory: collect all files recursively, preserving relative paths let dir_name = entry .path .file_name() .map(str::to_string) .unwrap_or_default(); let base_path = entry.path.clone(); // Use traverse_from_path to iterate all entries under this directory let mut traversal = worktree.traverse_from_path(true, true, true, &entry.path); while let Some(child_entry) = traversal.entry() { // Stop when we're no longer under the directory if !child_entry.path.starts_with(&base_path) { break; } if child_entry.is_file() { // Calculate relative path from the directory root let relative_path = child_entry .path .strip_prefix(&base_path) .map(|p| PathBuf::from(dir_name.clone()).join(p.as_unix_str())) .unwrap_or_else(|_| { PathBuf::from( child_entry .path .file_name() .map(str::to_string) .unwrap_or_default(), ) }); files_to_download.push(( selected.worktree_id, child_entry.path.clone(), relative_path, )); } traversal.advance(); } } } if files_to_download.is_empty() { return; } let total_files = files_to_download.len(); let workspace = self.workspace.clone(); let destination_dir = cx.prompt_for_paths(PathPromptOptions { files: false, directories: true, multiple: false, prompt: Some("Download".into()), }); let fs = self.fs.clone(); let notification_id = workspace::notifications::NotificationId::Named("download-progress".into()); cx.spawn_in(window, async move |this, cx| { if let Ok(Ok(Some(mut paths))) = destination_dir.await { if let Some(dest_dir) = paths.pop() { // Show initial toast workspace .update(cx, |workspace, cx| { workspace.show_toast( workspace::Toast::new( notification_id.clone(), format!("Downloading 0/{} files...", total_files), ), cx, ); }) .ok(); for (index, (worktree_id, entry_path, relative_path)) in files_to_download.into_iter().enumerate() { // Update progress toast workspace .update(cx, |workspace, cx| { workspace.show_toast( workspace::Toast::new( notification_id.clone(), format!( "Downloading {}/{} files...", index + 1, total_files ), ), cx, ); }) .ok(); let destination_path = dest_dir.join(&relative_path); // Create parent directories if needed if let Some(parent) = destination_path.parent() { if !parent.exists() { fs.create_dir(parent).await.log_err(); } } let download_task = this.update(cx, |this, cx| { let project = this.project.clone(); project.update(cx, |project, cx| { project.download_file(worktree_id, entry_path, destination_path, cx) }) }); if let Ok(task) = download_task { task.await.log_err(); } } // Show completion toast workspace .update(cx, |workspace, cx| { workspace.show_toast( workspace::Toast::new( notification_id.clone(), format!("Downloaded {} files", total_files), ), cx, ); }) .ok(); } } }) .detach(); } fn duplicate(&mut self, _: &Duplicate, window: &mut Window, cx: &mut Context) { self.copy(&Copy {}, window, cx); self.paste(&Paste {}, window, cx); } fn copy_path( &mut self, _: &zed_actions::workspace::CopyPath, _: &mut Window, cx: &mut Context, ) { let abs_file_paths = { let project = self.project.read(cx); self.effective_entries() .into_iter() .filter_map(|entry| { let entry_path = project.path_for_entry(entry.entry_id, cx)?.path; Some( project .worktree_for_id(entry.worktree_id, cx)? .read(cx) .absolutize(&entry_path) .to_string_lossy() .to_string(), ) }) .collect::>() }; if !abs_file_paths.is_empty() { cx.write_to_clipboard(ClipboardItem::new_string(abs_file_paths.join("\n"))); } } fn copy_relative_path( &mut self, _: &zed_actions::workspace::CopyRelativePath, _: &mut Window, cx: &mut Context, ) { let path_style = self.project.read(cx).path_style(cx); let file_paths = { let project = self.project.read(cx); self.effective_entries() .into_iter() .filter_map(|entry| { Some( project .path_for_entry(entry.entry_id, cx)? .path .display(path_style) .into_owned(), ) }) .collect::>() }; if !file_paths.is_empty() { cx.write_to_clipboard(ClipboardItem::new_string(file_paths.join("\n"))); } } fn reveal_in_finder( &mut self, _: &RevealInFileManager, _: &mut Window, cx: &mut Context, ) { if let Some((worktree, entry)) = self.selected_sub_entry(cx) { let path = worktree.read(cx).absolutize(&entry.path); self.project .update(cx, |project, cx| project.reveal_path(&path, cx)); } } fn remove_from_project( &mut self, _: &RemoveFromProject, _window: &mut Window, cx: &mut Context, ) { for entry in self.effective_entries().iter() { let worktree_id = entry.worktree_id; self.project .update(cx, |project, cx| project.remove_worktree(worktree_id, cx)); } } fn file_abs_paths_to_diff(&self, cx: &Context) -> Option<(PathBuf, PathBuf)> { let mut selections_abs_path = self .marked_entries .iter() .filter_map(|entry| { let project = self.project.read(cx); let worktree = project.worktree_for_id(entry.worktree_id, cx)?; let entry = worktree.read(cx).entry_for_id(entry.entry_id)?; if !entry.is_file() { return None; } Some(worktree.read(cx).absolutize(&entry.path)) }) .rev(); let last_path = selections_abs_path.next()?; let previous_to_last = selections_abs_path.next()?; Some((previous_to_last, last_path)) } fn compare_marked_files( &mut self, _: &CompareMarkedFiles, window: &mut Window, cx: &mut Context, ) { let selected_files = self.file_abs_paths_to_diff(cx); if let Some((file_path1, file_path2)) = selected_files { self.workspace .update(cx, |workspace, cx| { FileDiffView::open(file_path1, file_path2, workspace.weak_handle(), window, cx) .detach_and_log_err(cx); }) .ok(); } } fn open_system(&mut self, _: &OpenWithSystem, _: &mut Window, cx: &mut Context) { if let Some((worktree, entry)) = self.selected_entry(cx) { let abs_path = worktree.absolutize(&entry.path); cx.open_with_system(&abs_path); } } fn open_in_terminal( &mut self, _: &OpenInTerminal, window: &mut Window, cx: &mut Context, ) { if let Some((worktree, entry)) = self.selected_sub_entry(cx) { let abs_path = match &entry.canonical_path { Some(canonical_path) => canonical_path.to_path_buf(), None => worktree.read(cx).absolutize(&entry.path), }; let working_directory = if entry.is_dir() { Some(abs_path) } else { abs_path.parent().map(|path| path.to_path_buf()) }; if let Some(working_directory) = working_directory { window.dispatch_action( workspace::OpenTerminal { working_directory, local: false, } .boxed_clone(), cx, ) } } } pub fn new_search_in_directory( &mut self, _: &NewSearchInDirectory, window: &mut Window, cx: &mut Context, ) { if let Some((worktree, entry)) = self.selected_sub_entry(cx) { let dir_path = if entry.is_dir() { entry.path.clone() } else { // entry is a file, use its parent directory match entry.path.parent() { Some(parent) => Arc::from(parent), None => { // File at root, open search with empty filter self.workspace .update(cx, |workspace, cx| { search::ProjectSearchView::new_search_in_directory( workspace, RelPath::empty(), window, cx, ); }) .ok(); return; } } }; let include_root = self.project.read(cx).visible_worktrees(cx).count() > 1; let dir_path = if include_root { worktree.read(cx).root_name().join(&dir_path) } else { dir_path }; self.workspace .update(cx, |workspace, cx| { search::ProjectSearchView::new_search_in_directory( workspace, &dir_path, window, cx, ); }) .ok(); } } fn move_entry( &mut self, entry_to_move: ProjectEntryId, destination: ProjectEntryId, destination_is_file: bool, cx: &mut Context, ) -> Option>> { if self .project .read(cx) .entry_is_worktree_root(entry_to_move, cx) { self.move_worktree_root(entry_to_move, destination, cx); None } else { self.move_worktree_entry(entry_to_move, destination, destination_is_file, cx) } } fn move_worktree_root( &mut self, entry_to_move: ProjectEntryId, destination: ProjectEntryId, cx: &mut Context, ) { self.project.update(cx, |project, cx| { let Some(worktree_to_move) = project.worktree_for_entry(entry_to_move, cx) else { return; }; let Some(destination_worktree) = project.worktree_for_entry(destination, cx) else { return; }; let worktree_id = worktree_to_move.read(cx).id(); let destination_id = destination_worktree.read(cx).id(); project .move_worktree(worktree_id, destination_id, cx) .log_err(); }); } fn move_worktree_entry( &mut self, entry_to_move: ProjectEntryId, destination_entry: ProjectEntryId, destination_is_file: bool, cx: &mut Context, ) -> Option>> { if entry_to_move == destination_entry { return None; } let (destination_worktree, rename_task) = self.project.update(cx, |project, cx| { let Some(source_path) = project.path_for_entry(entry_to_move, cx) else { return (None, None); }; let Some(destination_path) = project.path_for_entry(destination_entry, cx) else { return (None, None); }; let destination_worktree_id = destination_path.worktree_id; let destination_dir = if destination_is_file { destination_path.path.parent().unwrap_or(RelPath::empty()) } else { destination_path.path.as_ref() }; let Some(source_name) = source_path.path.file_name() else { return (None, None); }; let Ok(source_name) = RelPath::unix(source_name) else { return (None, None); }; let mut new_path = destination_dir.to_rel_path_buf(); new_path.push(source_name); let rename_task = (new_path.as_rel_path() != source_path.path.as_ref()).then(|| { project.rename_entry( entry_to_move, (destination_worktree_id, new_path).into(), cx, ) }); ( project.worktree_id_for_entry(destination_entry, cx), rename_task, ) }); if let Some(destination_worktree) = destination_worktree { self.expand_entry(destination_worktree, destination_entry, cx); } rename_task } fn index_for_selection(&self, selection: SelectedEntry) -> Option<(usize, usize, usize)> { self.index_for_entry(selection.entry_id, selection.worktree_id) } fn disjoint_effective_entries(&self, cx: &App) -> BTreeSet { self.disjoint_entries(self.effective_entries(), cx) } fn disjoint_entries( &self, entries: BTreeSet, cx: &App, ) -> BTreeSet { let mut sanitized_entries = BTreeSet::new(); if entries.is_empty() { return sanitized_entries; } let project = self.project.read(cx); let entries_by_worktree: HashMap> = entries .into_iter() .filter(|entry| !project.entry_is_worktree_root(entry.entry_id, cx)) .fold(HashMap::default(), |mut map, entry| { map.entry(entry.worktree_id).or_default().push(entry); map }); for (worktree_id, worktree_entries) in entries_by_worktree { if let Some(worktree) = project.worktree_for_id(worktree_id, cx) { let worktree = worktree.read(cx); let dir_paths = worktree_entries .iter() .filter_map(|entry| { worktree.entry_for_id(entry.entry_id).and_then(|entry| { if entry.is_dir() { Some(entry.path.as_ref()) } else { None } }) }) .collect::>(); sanitized_entries.extend(worktree_entries.into_iter().filter(|entry| { let Some(entry_info) = worktree.entry_for_id(entry.entry_id) else { return false; }; let entry_path = entry_info.path.as_ref(); let inside_selected_dir = dir_paths.iter().any(|&dir_path| { entry_path != dir_path && entry_path.starts_with(dir_path) }); !inside_selected_dir })); } } sanitized_entries } fn effective_entries(&self) -> BTreeSet { if let Some(selection) = self.selection { let selection = SelectedEntry { entry_id: self.resolve_entry(selection.entry_id), worktree_id: selection.worktree_id, }; // Default to using just the selected item when nothing is marked. if self.marked_entries.is_empty() { return BTreeSet::from([selection]); } // Allow operating on the selected item even when something else is marked, // making it easier to perform one-off actions without clearing a mark. if self.marked_entries.len() == 1 && !self.marked_entries.contains(&selection) { return BTreeSet::from([selection]); } } // Return only marked entries since we've already handled special cases where // only selection should take precedence. At this point, marked entries may or // may not include the current selection, which is intentional. self.marked_entries .iter() .map(|entry| SelectedEntry { entry_id: self.resolve_entry(entry.entry_id), worktree_id: entry.worktree_id, }) .collect::>() } /// Finds the currently selected subentry for a given leaf entry id. If a given entry /// has no ancestors, the project entry ID that's passed in is returned as-is. fn resolve_entry(&self, id: ProjectEntryId) -> ProjectEntryId { self.state .ancestors .get(&id) .and_then(|ancestors| ancestors.active_ancestor()) .unwrap_or(id) } pub fn selected_entry<'a>(&self, cx: &'a App) -> Option<(&'a Worktree, &'a project::Entry)> { let (worktree, entry) = self.selected_entry_handle(cx)?; Some((worktree.read(cx), entry)) } /// Compared to selected_entry, this function resolves to the currently /// selected subentry if dir auto-folding is enabled. fn selected_sub_entry<'a>( &self, cx: &'a App, ) -> Option<(Entity, &'a project::Entry)> { let (worktree, mut entry) = self.selected_entry_handle(cx)?; let resolved_id = self.resolve_entry(entry.id); if resolved_id != entry.id { let worktree = worktree.read(cx); entry = worktree.entry_for_id(resolved_id)?; } Some((worktree, entry)) } fn selected_entry_handle<'a>( &self, cx: &'a App, ) -> Option<(Entity, &'a project::Entry)> { let selection = self.selection?; let project = self.project.read(cx); let worktree = project.worktree_for_id(selection.worktree_id, cx)?; let entry = worktree.read(cx).entry_for_id(selection.entry_id)?; Some((worktree, entry)) } fn expand_to_selection(&mut self, cx: &mut Context) -> Option<()> { let (worktree, entry) = self.selected_entry(cx)?; let expanded_dir_ids = self .state .expanded_dir_ids .entry(worktree.id()) .or_default(); for path in entry.path.ancestors() { let Some(entry) = worktree.entry_for_path(path) else { continue; }; if entry.is_dir() && let Err(idx) = expanded_dir_ids.binary_search(&entry.id) { expanded_dir_ids.insert(idx, entry.id); } } Some(()) } fn create_new_git_entry( parent_entry: &Entry, git_summary: GitSummary, new_entry_kind: EntryKind, ) -> GitEntry { GitEntry { entry: Entry { id: NEW_ENTRY_ID, kind: new_entry_kind, path: parent_entry.path.join(RelPath::unix("\0").unwrap()), inode: 0, mtime: parent_entry.mtime, size: parent_entry.size, is_ignored: parent_entry.is_ignored, is_hidden: parent_entry.is_hidden, is_external: false, is_private: false, is_always_included: parent_entry.is_always_included, canonical_path: parent_entry.canonical_path.clone(), char_bag: parent_entry.char_bag, is_fifo: parent_entry.is_fifo, }, git_summary, } } fn update_visible_entries( &mut self, new_selected_entry: Option<(WorktreeId, ProjectEntryId)>, focus_filename_editor: bool, autoscroll: bool, window: &mut Window, cx: &mut Context, ) { let now = Instant::now(); let settings = ProjectPanelSettings::get_global(cx); let auto_collapse_dirs = settings.auto_fold_dirs; let hide_gitignore = settings.hide_gitignore; let sort_mode = settings.sort_mode; let project = self.project.read(cx); let repo_snapshots = project.git_store().read(cx).repo_snapshots(cx); let old_ancestors = self.state.ancestors.clone(); let temporary_unfolded_pending_state = self.state.temporarily_unfolded_pending_state.take(); let mut new_state = State::derive(&self.state); new_state.last_worktree_root_id = project .visible_worktrees(cx) .next_back() .and_then(|worktree| worktree.read(cx).root_entry()) .map(|entry| entry.id); let mut max_width_item = None; let visible_worktrees: Vec<_> = project .visible_worktrees(cx) .map(|worktree| worktree.read(cx).snapshot()) .collect(); let hide_root = settings.hide_root && visible_worktrees.len() == 1; let hide_hidden = settings.hide_hidden; let visible_entries_task = cx.spawn_in(window, async move |this, cx| { let new_state = cx .background_spawn(async move { for worktree_snapshot in visible_worktrees { let worktree_id = worktree_snapshot.id(); let mut new_entry_parent_id = None; let mut new_entry_kind = EntryKind::Dir; if let Some(edit_state) = &new_state.edit_state && edit_state.worktree_id == worktree_id && edit_state.is_new_entry() { new_entry_parent_id = Some(edit_state.entry_id); new_entry_kind = if edit_state.is_dir { EntryKind::Dir } else { EntryKind::File }; } let mut visible_worktree_entries = Vec::new(); let mut entry_iter = GitTraversal::new(&repo_snapshots, worktree_snapshot.entries(true, 0)); let mut auto_folded_ancestors = vec![]; let worktree_abs_path = worktree_snapshot.abs_path(); while let Some(entry) = entry_iter.entry() { if hide_root && Some(entry.entry) == worktree_snapshot.root_entry() { if new_entry_parent_id == Some(entry.id) { visible_worktree_entries.push(Self::create_new_git_entry( entry.entry, entry.git_summary, new_entry_kind, )); new_entry_parent_id = None; } entry_iter.advance(); continue; } if auto_collapse_dirs && entry.kind.is_dir() { auto_folded_ancestors.push(entry.id); if !new_state.is_unfolded(&entry.id) && let Some(root_path) = worktree_snapshot.root_entry() { let mut child_entries = worktree_snapshot.child_entries(&entry.path); if let Some(child) = child_entries.next() && entry.path != root_path.path && child_entries.next().is_none() && child.kind.is_dir() { entry_iter.advance(); continue; } } let depth = temporary_unfolded_pending_state .as_ref() .and_then(|state| { if state.previously_focused_leaf_entry.worktree_id == worktree_id && state.previously_focused_leaf_entry.entry_id == entry.id { auto_folded_ancestors.iter().rev().position(|id| { *id == state.temporarily_unfolded_active_entry_id }) } else { None } }) .unwrap_or_else(|| { old_ancestors .get(&entry.id) .map(|ancestor| ancestor.current_ancestor_depth) .unwrap_or_default() }) .min(auto_folded_ancestors.len()); if let Some(edit_state) = &mut new_state.edit_state && edit_state.entry_id == entry.id { edit_state.depth = depth; } let mut ancestors = std::mem::take(&mut auto_folded_ancestors); if ancestors.len() > 1 { ancestors.reverse(); new_state.ancestors.insert( entry.id, FoldedAncestors { current_ancestor_depth: depth, ancestors, }, ); } } auto_folded_ancestors.clear(); if (!hide_gitignore || !entry.is_ignored) && (!hide_hidden || !entry.is_hidden) { visible_worktree_entries.push(entry.to_owned()); } let precedes_new_entry = if let Some(new_entry_id) = new_entry_parent_id { entry.id == new_entry_id || { new_state.ancestors.get(&entry.id).is_some_and(|entries| { entries.ancestors.contains(&new_entry_id) }) } } else { false }; if precedes_new_entry && (!hide_gitignore || !entry.is_ignored) && (!hide_hidden || !entry.is_hidden) { visible_worktree_entries.push(Self::create_new_git_entry( entry.entry, entry.git_summary, new_entry_kind, )); } let (depth, chars) = if Some(entry.entry) == worktree_snapshot.root_entry() { let Some(path_name) = worktree_abs_path.file_name() else { entry_iter.advance(); continue; }; let depth = 0; (depth, path_name.to_string_lossy().chars().count()) } else if entry.is_file() { let Some(path_name) = entry .path .file_name() .with_context(|| { format!("Non-root entry has no file name: {entry:?}") }) .log_err() else { continue; }; let depth = entry.path.ancestors().count() - 1; (depth, path_name.chars().count()) } else { let path = new_state .ancestors .get(&entry.id) .and_then(|ancestors| { let outermost_ancestor = ancestors.ancestors.last()?; let root_folded_entry = worktree_snapshot .entry_for_id(*outermost_ancestor)? .path .as_ref(); entry.path.strip_prefix(root_folded_entry).ok().and_then( |suffix| { Some( RelPath::unix(root_folded_entry.file_name()?) .unwrap() .join(suffix), ) }, ) }) .or_else(|| { entry.path.file_name().map(|file_name| { RelPath::unix(file_name).unwrap().into() }) }) .unwrap_or_else(|| entry.path.clone()); let depth = path.components().count(); (depth, path.as_unix_str().chars().count()) }; let width_estimate = item_width_estimate(depth, chars, entry.canonical_path.is_some()); match max_width_item.as_mut() { Some((id, worktree_id, width)) => { if *width < width_estimate { *id = entry.id; *worktree_id = worktree_snapshot.id(); *width = width_estimate; } } None => { max_width_item = Some((entry.id, worktree_snapshot.id(), width_estimate)) } } let expanded_dir_ids = match new_state.expanded_dir_ids.entry(worktree_id) { hash_map::Entry::Occupied(e) => e.into_mut(), hash_map::Entry::Vacant(e) => { // The first time a worktree's root entry becomes available, // mark that root entry as expanded. if let Some(entry) = worktree_snapshot.root_entry() { e.insert(vec![entry.id]).as_slice() } else { &[] } } }; if expanded_dir_ids.binary_search(&entry.id).is_err() && entry_iter.advance_to_sibling() { continue; } entry_iter.advance(); } par_sort_worktree_entries_with_mode( &mut visible_worktree_entries, sort_mode, ); new_state.visible_entries.push(VisibleEntriesForWorktree { worktree_id, entries: visible_worktree_entries, index: OnceCell::new(), }) } if let Some((project_entry_id, worktree_id, _)) = max_width_item { let mut visited_worktrees_length = 0; let index = new_state .visible_entries .iter() .find_map(|visible_entries| { if worktree_id == visible_entries.worktree_id { visible_entries .entries .iter() .position(|entry| entry.id == project_entry_id) } else { visited_worktrees_length += visible_entries.entries.len(); None } }); if let Some(index) = index { new_state.max_width_item_index = Some(visited_worktrees_length + index); } } new_state }) .await; this.update_in(cx, |this, window, cx| { this.state = new_state; if let Some((worktree_id, entry_id)) = new_selected_entry { this.selection = Some(SelectedEntry { worktree_id, entry_id, }); } let elapsed = now.elapsed(); if this.last_reported_update.elapsed() > Duration::from_secs(3600) { telemetry::event!( "Project Panel Updated", elapsed_ms = elapsed.as_millis() as u64, worktree_entries = this .state .visible_entries .iter() .map(|worktree| worktree.entries.len()) .sum::(), ) } if this.update_visible_entries_task.focus_filename_editor { this.update_visible_entries_task.focus_filename_editor = false; this.filename_editor.update(cx, |editor, cx| { window.focus(&editor.focus_handle(cx), cx); }); } if this.update_visible_entries_task.autoscroll { this.update_visible_entries_task.autoscroll = false; this.autoscroll(cx); } cx.notify(); }) .ok(); }); self.update_visible_entries_task = UpdateVisibleEntriesTask { _visible_entries_task: visible_entries_task, focus_filename_editor: focus_filename_editor || self.update_visible_entries_task.focus_filename_editor, autoscroll: autoscroll || self.update_visible_entries_task.autoscroll, }; } fn expand_entry( &mut self, worktree_id: WorktreeId, entry_id: ProjectEntryId, cx: &mut Context, ) { self.project.update(cx, |project, cx| { if let Some((worktree, expanded_dir_ids)) = project .worktree_for_id(worktree_id, cx) .zip(self.state.expanded_dir_ids.get_mut(&worktree_id)) { project.expand_entry(worktree_id, entry_id, cx); let worktree = worktree.read(cx); if let Some(mut entry) = worktree.entry_for_id(entry_id) { loop { if let Err(ix) = expanded_dir_ids.binary_search(&entry.id) { expanded_dir_ids.insert(ix, entry.id); } if let Some(parent_entry) = entry.path.parent().and_then(|p| worktree.entry_for_path(p)) { entry = parent_entry; } else { break; } } } } }); } fn drop_external_files( &mut self, paths: &[PathBuf], entry_id: ProjectEntryId, window: &mut Window, cx: &mut Context, ) { let mut paths: Vec> = paths.iter().map(|path| Arc::from(path.clone())).collect(); let open_file_after_drop = paths.len() == 1 && paths[0].is_file(); let Some((target_directory, worktree, fs)) = maybe!({ let project = self.project.read(cx); let fs = project.fs().clone(); let worktree = project.worktree_for_entry(entry_id, cx)?; let entry = worktree.read(cx).entry_for_id(entry_id)?; let path = entry.path.clone(); let target_directory = if entry.is_dir() { path } else { path.parent()?.into() }; Some((target_directory, worktree, fs)) }) else { return; }; let mut paths_to_replace = Vec::new(); for path in &paths { if let Some(name) = path.file_name() && let Some(name) = name.to_str() { let target_path = target_directory.join(RelPath::unix(name).unwrap()); if worktree.read(cx).entry_for_path(&target_path).is_some() { paths_to_replace.push((name.to_string(), path.clone())); } } } cx.spawn_in(window, async move |this, cx| { async move { for (filename, original_path) in &paths_to_replace { let prompt_message = format!( concat!( "A file or folder with name {} ", "already exists in the destination folder. ", "Do you want to replace it?" ), filename ); let answer = cx .update(|window, cx| { window.prompt( PromptLevel::Info, &prompt_message, None, &["Replace", "Cancel"], cx, ) })? .await?; if answer == 1 && let Some(item_idx) = paths.iter().position(|p| p == original_path) { paths.remove(item_idx); } } if paths.is_empty() { return Ok(()); } let task = worktree.update(cx, |worktree, cx| { worktree.copy_external_entries(target_directory, paths, fs, cx) }); let opened_entries: Vec<_> = task .await .with_context(|| "failed to copy external paths")?; this.update(cx, |this, cx| { if open_file_after_drop && !opened_entries.is_empty() { let settings = ProjectPanelSettings::get_global(cx); if settings.auto_open.should_open_on_drop() { this.open_entry(opened_entries[0], true, false, cx); } } }) } .log_err() .await }) .detach(); } fn refresh_drag_cursor_style( &self, modifiers: &Modifiers, window: &mut Window, cx: &mut Context, ) { if let Some(existing_cursor) = cx.active_drag_cursor_style() { let new_cursor = if Self::is_copy_modifier_set(modifiers) { CursorStyle::DragCopy } else { CursorStyle::PointingHand }; if existing_cursor != new_cursor { cx.set_active_drag_cursor_style(new_cursor, window); } } } fn is_copy_modifier_set(modifiers: &Modifiers) -> bool { cfg!(target_os = "macos") && modifiers.alt || cfg!(not(target_os = "macos")) && modifiers.control } fn drag_onto( &mut self, selections: &DraggedSelection, target_entry_id: ProjectEntryId, is_file: bool, window: &mut Window, cx: &mut Context, ) { let resolved_selections = selections .items() .map(|entry| SelectedEntry { entry_id: self.resolve_entry(entry.entry_id), worktree_id: entry.worktree_id, }) .collect::>(); let entries = self.disjoint_entries(resolved_selections, cx); if Self::is_copy_modifier_set(&window.modifiers()) { let _ = maybe!({ let project = self.project.read(cx); let target_worktree = project.worktree_for_entry(target_entry_id, cx)?; let worktree_id = target_worktree.read(cx).id(); let target_entry = target_worktree .read(cx) .entry_for_id(target_entry_id)? .clone(); let mut copy_tasks = Vec::new(); let mut disambiguation_range = None; for selection in &entries { let (new_path, new_disambiguation_range) = self.create_paste_path( selection, (target_worktree.clone(), &target_entry), cx, )?; let task = self.project.update(cx, |project, cx| { project.copy_entry(selection.entry_id, (worktree_id, new_path).into(), cx) }); copy_tasks.push(task); disambiguation_range = new_disambiguation_range.or(disambiguation_range); } let item_count = copy_tasks.len(); cx.spawn_in(window, async move |project_panel, cx| { let mut last_succeed = None; for task in copy_tasks.into_iter() { if let Some(Some(entry)) = task.await.log_err() { last_succeed = Some(entry.id); } } // update selection if let Some(entry_id) = last_succeed { project_panel .update_in(cx, |project_panel, window, cx| { project_panel.selection = Some(SelectedEntry { worktree_id, entry_id, }); // if only one entry was dragged and it was disambiguated, open the rename editor if item_count == 1 && disambiguation_range.is_some() { project_panel.rename_impl(disambiguation_range, window, cx); } }) .ok(); } }) .detach(); Some(()) }); } else { let update_marks = !self.marked_entries.is_empty(); let active_selection = selections.active_selection; // For folded selections, track the leaf suffix relative to the resolved // entry so we can refresh it after the move completes. let (folded_selection_info, folded_selection_entries): ( Vec<(ProjectEntryId, RelPathBuf)>, HashSet, ) = { let project = self.project.read(cx); let mut info = Vec::new(); let mut folded_entries = HashSet::default(); for selection in selections.items() { let resolved_id = self.resolve_entry(selection.entry_id); if resolved_id == selection.entry_id { continue; } folded_entries.insert(*selection); let Some(source_path) = project.path_for_entry(resolved_id, cx) else { continue; }; let Some(leaf_path) = project.path_for_entry(selection.entry_id, cx) else { continue; }; let Ok(suffix) = leaf_path.path.strip_prefix(source_path.path.as_ref()) else { continue; }; if suffix.as_unix_str().is_empty() { continue; } info.push((resolved_id, suffix.to_rel_path_buf())); } (info, folded_entries) }; // Collect move tasks paired with their source entry ID so we can correlate // results with folded selections that need refreshing. let mut move_tasks: Vec<(ProjectEntryId, Task>)> = Vec::new(); for entry in entries { if let Some(task) = self.move_entry(entry.entry_id, target_entry_id, is_file, cx) { move_tasks.push((entry.entry_id, task)); } } if move_tasks.is_empty() { return; } if folded_selection_info.is_empty() { for (_, task) in move_tasks { task.detach_and_log_err(cx); } } else { cx.spawn_in(window, async move |project_panel, cx| { // Await all move tasks and collect successful results let mut move_results: Vec<(ProjectEntryId, Entry)> = Vec::new(); for (entry_id, task) in move_tasks { if let Some(CreatedEntry::Included(new_entry)) = task.await.log_err() { move_results.push((entry_id, new_entry)); } } if move_results.is_empty() { return; } // For folded selections, we need to refresh the leaf paths (with suffixes) // because they may not be indexed yet after the parent directory was moved. // First collect the paths to refresh, then refresh them. let paths_to_refresh: Vec<(Entity, Arc)> = project_panel .update(cx, |project_panel, cx| { let project = project_panel.project.read(cx); folded_selection_info .iter() .filter_map(|(resolved_id, suffix)| { let (_, new_entry) = move_results.iter().find(|(id, _)| id == resolved_id)?; let worktree = project.worktree_for_entry(new_entry.id, cx)?; let leaf_path = new_entry.path.join(suffix); Some((worktree, leaf_path)) }) .collect() }) .ok() .unwrap_or_default(); let refresh_tasks: Vec<_> = paths_to_refresh .into_iter() .filter_map(|(worktree, leaf_path)| { worktree.update(cx, |worktree, cx| { worktree .as_local_mut() .map(|local| local.refresh_entry(leaf_path, None, cx)) }) }) .collect(); for task in refresh_tasks { task.await.log_err(); } if update_marks && !folded_selection_entries.is_empty() { project_panel .update(cx, |project_panel, cx| { project_panel.marked_entries.retain(|entry| { !folded_selection_entries.contains(entry) || *entry == active_selection }); cx.notify(); }) .ok(); } }) .detach(); } } } fn index_for_entry( &self, entry_id: ProjectEntryId, worktree_id: WorktreeId, ) -> Option<(usize, usize, usize)> { let mut total_ix = 0; for (worktree_ix, visible) in self.state.visible_entries.iter().enumerate() { if worktree_id != visible.worktree_id { total_ix += visible.entries.len(); continue; } return visible .entries .iter() .enumerate() .find(|(_, entry)| entry.id == entry_id) .map(|(ix, _)| (worktree_ix, ix, total_ix + ix)); } None } fn entry_at_index(&self, index: usize) -> Option<(WorktreeId, GitEntryRef<'_>)> { let mut offset = 0; for worktree in &self.state.visible_entries { let current_len = worktree.entries.len(); if index < offset + current_len { return worktree .entries .get(index - offset) .map(|entry| (worktree.worktree_id, entry.to_ref())); } offset += current_len; } None } fn iter_visible_entries( &self, range: Range, window: &mut Window, cx: &mut Context, callback: &mut dyn FnMut( &Entry, usize, &HashSet>, &mut Window, &mut Context, ), ) { let mut ix = 0; for visible in &self.state.visible_entries { if ix >= range.end { return; } if ix + visible.entries.len() <= range.start { ix += visible.entries.len(); continue; } let end_ix = range.end.min(ix + visible.entries.len()); let entry_range = range.start.saturating_sub(ix)..end_ix - ix; let entries = visible .index .get_or_init(|| visible.entries.iter().map(|e| e.path.clone()).collect()); let base_index = ix + entry_range.start; for (i, entry) in visible.entries[entry_range].iter().enumerate() { let global_index = base_index + i; callback(entry, global_index, entries, window, cx); } ix = end_ix; } } fn for_each_visible_entry( &self, range: Range, window: &mut Window, cx: &mut Context, callback: &mut dyn FnMut( ProjectEntryId, EntryDetails, &mut Window, &mut Context, ), ) { let mut ix = 0; for visible in &self.state.visible_entries { if ix >= range.end { return; } if ix + visible.entries.len() <= range.start { ix += visible.entries.len(); continue; } let end_ix = range.end.min(ix + visible.entries.len()); let git_status_setting = { let settings = ProjectPanelSettings::get_global(cx); settings.git_status }; if let Some(worktree) = self .project .read(cx) .worktree_for_id(visible.worktree_id, cx) { let snapshot = worktree.read(cx).snapshot(); let root_name = snapshot.root_name(); let entry_range = range.start.saturating_sub(ix)..end_ix - ix; let entries = visible .index .get_or_init(|| visible.entries.iter().map(|e| e.path.clone()).collect()); for entry in visible.entries[entry_range].iter() { let status = git_status_setting .then_some(entry.git_summary) .unwrap_or_default(); let mut details = self.details_for_entry( entry, visible.worktree_id, root_name, entries, status, None, window, cx, ); if let Some(edit_state) = &self.state.edit_state { let is_edited_entry = if edit_state.is_new_entry() { entry.id == NEW_ENTRY_ID } else { entry.id == edit_state.entry_id || self.state.ancestors.get(&entry.id).is_some_and( |auto_folded_dirs| { auto_folded_dirs.ancestors.contains(&edit_state.entry_id) }, ) }; if is_edited_entry { if let Some(processing_filename) = &edit_state.processing_filename { details.is_processing = true; if let Some(ancestors) = edit_state .leaf_entry_id .and_then(|entry| self.state.ancestors.get(&entry)) { let position = ancestors.ancestors.iter().position(|entry_id| *entry_id == edit_state.entry_id).expect("Edited sub-entry should be an ancestor of selected leaf entry") + 1; let all_components = ancestors.ancestors.len(); let prefix_components = all_components - position; let suffix_components = position.checked_sub(1); let mut previous_components = Path::new(&details.filename).components(); let mut new_path = previous_components .by_ref() .take(prefix_components) .collect::(); if let Some(last_component) = processing_filename.components().next_back() { new_path.push(last_component); previous_components.next(); } if suffix_components.is_some() { new_path.push(previous_components); } if let Some(str) = new_path.to_str() { details.filename.clear(); details.filename.push_str(str); } } else { details.filename.clear(); details.filename.push_str(processing_filename.as_unix_str()); } } else { if edit_state.is_new_entry() { details.filename.clear(); } details.is_editing = true; } } } callback(entry.id, details, window, cx); } } ix = end_ix; } } fn find_entry_in_worktree( &self, worktree_id: WorktreeId, reverse_search: bool, only_visible_entries: bool, predicate: &dyn Fn(GitEntryRef, WorktreeId) -> bool, cx: &mut Context, ) -> Option { if only_visible_entries { let entries = self .state .visible_entries .iter() .find_map(|visible| { if worktree_id == visible.worktree_id { Some(&visible.entries) } else { None } })? .clone(); return utils::ReversibleIterable::new(entries.iter(), reverse_search) .find(|ele| predicate(ele.to_ref(), worktree_id)) .cloned(); } let repo_snapshots = self .project .read(cx) .git_store() .read(cx) .repo_snapshots(cx); let worktree = self.project.read(cx).worktree_for_id(worktree_id, cx)?; worktree.read_with(cx, |tree, _| { utils::ReversibleIterable::new( GitTraversal::new(&repo_snapshots, tree.entries(true, 0usize)), reverse_search, ) .find_single_ended(|ele| predicate(*ele, worktree_id)) .map(|ele| ele.to_owned()) }) } fn find_entry( &self, start: Option<&SelectedEntry>, reverse_search: bool, predicate: &dyn Fn(GitEntryRef, WorktreeId) -> bool, cx: &mut Context, ) -> Option { let mut worktree_ids: Vec<_> = self .state .visible_entries .iter() .map(|worktree| worktree.worktree_id) .collect(); let repo_snapshots = self .project .read(cx) .git_store() .read(cx) .repo_snapshots(cx); let mut last_found: Option = None; if let Some(start) = start { let worktree = self .project .read(cx) .worktree_for_id(start.worktree_id, cx)? .read(cx); let search = { let entry = worktree.entry_for_id(start.entry_id)?; let root_entry = worktree.root_entry()?; let tree_id = worktree.id(); let mut first_iter = GitTraversal::new( &repo_snapshots, worktree.traverse_from_path(true, true, true, entry.path.as_ref()), ); if reverse_search { first_iter.next(); } let first = first_iter .enumerate() .take_until(|(count, entry)| entry.entry == root_entry && *count != 0usize) .map(|(_, entry)| entry) .find(|ele| predicate(*ele, tree_id)) .map(|ele| ele.to_owned()); let second_iter = GitTraversal::new(&repo_snapshots, worktree.entries(true, 0usize)); let second = if reverse_search { second_iter .take_until(|ele| ele.id == start.entry_id) .filter(|ele| predicate(*ele, tree_id)) .last() .map(|ele| ele.to_owned()) } else { second_iter .take_while(|ele| ele.id != start.entry_id) .filter(|ele| predicate(*ele, tree_id)) .last() .map(|ele| ele.to_owned()) }; if reverse_search { Some((second, first)) } else { Some((first, second)) } }; if let Some((first, second)) = search { let first = first.map(|entry| SelectedEntry { worktree_id: start.worktree_id, entry_id: entry.id, }); let second = second.map(|entry| SelectedEntry { worktree_id: start.worktree_id, entry_id: entry.id, }); if first.is_some() { return first; } last_found = second; let idx = worktree_ids .iter() .enumerate() .find(|(_, ele)| **ele == start.worktree_id) .map(|(idx, _)| idx); if let Some(idx) = idx { worktree_ids.rotate_left(idx + 1usize); worktree_ids.pop(); } } } for tree_id in worktree_ids.into_iter() { if let Some(found) = self.find_entry_in_worktree(tree_id, reverse_search, false, &predicate, cx) { return Some(SelectedEntry { worktree_id: tree_id, entry_id: found.id, }); } } last_found } fn find_visible_entry( &self, start: Option<&SelectedEntry>, reverse_search: bool, predicate: &dyn Fn(GitEntryRef, WorktreeId) -> bool, cx: &mut Context, ) -> Option { let mut worktree_ids: Vec<_> = self .state .visible_entries .iter() .map(|worktree| worktree.worktree_id) .collect(); let mut last_found: Option = None; if let Some(start) = start { let entries = self .state .visible_entries .iter() .find(|worktree| worktree.worktree_id == start.worktree_id) .map(|worktree| &worktree.entries)?; let mut start_idx = entries .iter() .enumerate() .find(|(_, ele)| ele.id == start.entry_id) .map(|(idx, _)| idx)?; if reverse_search { start_idx = start_idx.saturating_add(1usize); } let (left, right) = entries.split_at_checked(start_idx)?; let (first_iter, second_iter) = if reverse_search { ( utils::ReversibleIterable::new(left.iter(), reverse_search), utils::ReversibleIterable::new(right.iter(), reverse_search), ) } else { ( utils::ReversibleIterable::new(right.iter(), reverse_search), utils::ReversibleIterable::new(left.iter(), reverse_search), ) }; let first_search = first_iter.find(|ele| predicate(ele.to_ref(), start.worktree_id)); let second_search = second_iter.find(|ele| predicate(ele.to_ref(), start.worktree_id)); if first_search.is_some() { return first_search.map(|entry| SelectedEntry { worktree_id: start.worktree_id, entry_id: entry.id, }); } last_found = second_search.map(|entry| SelectedEntry { worktree_id: start.worktree_id, entry_id: entry.id, }); let idx = worktree_ids .iter() .enumerate() .find(|(_, ele)| **ele == start.worktree_id) .map(|(idx, _)| idx); if let Some(idx) = idx { worktree_ids.rotate_left(idx + 1usize); worktree_ids.pop(); } } for tree_id in worktree_ids.into_iter() { if let Some(found) = self.find_entry_in_worktree(tree_id, reverse_search, true, &predicate, cx) { return Some(SelectedEntry { worktree_id: tree_id, entry_id: found.id, }); } } last_found } fn calculate_depth_and_difference( entry: &Entry, visible_worktree_entries: &HashSet>, ) -> (usize, usize) { let (depth, difference) = entry .path .ancestors() .skip(1) // Skip the entry itself .find_map(|ancestor| { if let Some(parent_entry) = visible_worktree_entries.get(ancestor) { let entry_path_components_count = entry.path.components().count(); let parent_path_components_count = parent_entry.components().count(); let difference = entry_path_components_count - parent_path_components_count; let depth = parent_entry .ancestors() .skip(1) .filter(|ancestor| visible_worktree_entries.contains(*ancestor)) .count(); Some((depth + 1, difference)) } else { None } }) .unwrap_or_else(|| (0, entry.path.components().count())); (depth, difference) } fn highlight_entry_for_external_drag( &self, target_entry: &Entry, target_worktree: &Worktree, ) -> Option { // Always highlight directory or parent directory if it's file if target_entry.is_dir() { Some(target_entry.id) } else { target_entry .path .parent() .and_then(|parent_path| target_worktree.entry_for_path(parent_path)) .map(|parent_entry| parent_entry.id) } } fn highlight_entry_for_selection_drag( &self, target_entry: &Entry, target_worktree: &Worktree, drag_state: &DraggedSelection, cx: &Context, ) -> Option { let target_parent_path = target_entry.path.parent(); // In case of single item drag, we do not highlight existing // directory which item belongs too if drag_state.items().count() == 1 && drag_state.active_selection.worktree_id == target_worktree.id() { let active_entry_path = self .project .read(cx) .path_for_entry(drag_state.active_selection.entry_id, cx)?; if let Some(active_parent_path) = active_entry_path.path.parent() { // Do not highlight active entry parent if active_parent_path == target_entry.path.as_ref() { return None; } // Do not highlight active entry sibling files if Some(active_parent_path) == target_parent_path && target_entry.is_file() { return None; } } } // Always highlight directory or parent directory if it's file if target_entry.is_dir() { Some(target_entry.id) } else { target_parent_path .and_then(|parent_path| target_worktree.entry_for_path(parent_path)) .map(|parent_entry| parent_entry.id) } } fn should_highlight_background_for_selection_drag( &self, drag_state: &DraggedSelection, last_root_id: ProjectEntryId, cx: &App, ) -> bool { // Always highlight for multiple entries if drag_state.items().count() > 1 { return true; } // Since root will always have empty relative path if let Some(entry_path) = self .project .read(cx) .path_for_entry(drag_state.active_selection.entry_id, cx) { if let Some(parent_path) = entry_path.path.parent() { if !parent_path.is_empty() { return true; } } } // If parent is empty, check if different worktree if let Some(last_root_worktree_id) = self .project .read(cx) .worktree_id_for_entry(last_root_id, cx) { if drag_state.active_selection.worktree_id != last_root_worktree_id { return true; } } false } fn render_entry( &self, entry_id: ProjectEntryId, details: EntryDetails, window: &mut Window, cx: &mut Context, ) -> Stateful
{ const GROUP_NAME: &str = "project_entry"; let kind = details.kind; let is_sticky = details.sticky.is_some(); let sticky_index = details.sticky.as_ref().map(|this| this.sticky_index); let settings = ProjectPanelSettings::get_global(cx); let show_editor = details.is_editing && !details.is_processing; let selection = SelectedEntry { worktree_id: details.worktree_id, entry_id, }; let is_marked = self.marked_entries.contains(&selection); let is_active = self .selection .is_some_and(|selection| selection.entry_id == entry_id); let file_name = details.filename.clone(); let mut icon = details.icon.clone(); if settings.file_icons && show_editor && details.kind.is_file() { let filename = self.filename_editor.read(cx).text(cx); if filename.len() > 2 { icon = FileIcons::get_icon(Path::new(&filename), cx); } } let filename_text_color = details.filename_text_color; let diagnostic_severity = details.diagnostic_severity; let diagnostic_count = details.diagnostic_count; let item_colors = get_item_color(is_sticky, cx); let canonical_path = details .canonical_path .as_ref() .map(|f| f.to_string_lossy().into_owned()); let path_style = self.project.read(cx).path_style(cx); let path = details.path.clone(); let path_for_external_paths = path.clone(); let path_for_dragged_selection = path.clone(); let depth = details.depth; let worktree_id = details.worktree_id; let dragged_selection = DraggedSelection { active_selection: SelectedEntry { worktree_id: selection.worktree_id, entry_id: selection.entry_id, }, marked_selections: Arc::from(self.marked_entries.clone()), }; let bg_color = if is_marked { item_colors.marked } else { item_colors.default }; let bg_hover_color = if is_marked { item_colors.marked } else { item_colors.hover }; let validation_color_and_message = if show_editor { match self .state .edit_state .as_ref() .map_or(ValidationState::None, |e| e.validation_state.clone()) { ValidationState::Error(msg) => Some((Color::Error.color(cx), msg)), ValidationState::Warning(msg) => Some((Color::Warning.color(cx), msg)), ValidationState::None => None, } } else { None }; let border_color = if !self.mouse_down && is_active && self.focus_handle.contains_focused(window, cx) { match validation_color_and_message { Some((color, _)) => color, None => item_colors.focused, } } else { bg_color }; let border_hover_color = if !self.mouse_down && is_active && self.focus_handle.contains_focused(window, cx) { match validation_color_and_message { Some((color, _)) => color, None => item_colors.focused, } } else { bg_hover_color }; let folded_directory_drag_target = self.folded_directory_drag_target; let is_highlighted = { if let Some(highlight_entry_id) = self.drag_target_entry .as_ref() .and_then(|drag_target| match drag_target { DragTarget::Entry { highlight_entry_id, .. } => Some(*highlight_entry_id), DragTarget::Background => self.state.last_worktree_root_id, }) { // Highlight if same entry or it's children if entry_id == highlight_entry_id { true } else { maybe!({ let worktree = self.project.read(cx).worktree_for_id(worktree_id, cx)?; let highlight_entry = worktree.read(cx).entry_for_id(highlight_entry_id)?; Some(path.starts_with(&highlight_entry.path)) }) .unwrap_or(false) } } else { false } }; let id: ElementId = if is_sticky { SharedString::from(format!("project_panel_sticky_item_{}", entry_id.to_usize())).into() } else { (entry_id.to_proto() as usize).into() }; div() .id(id.clone()) .relative() .group(GROUP_NAME) .cursor_pointer() .rounded_none() .bg(bg_color) .border_1() .border_r_2() .border_color(border_color) .hover(|style| style.bg(bg_hover_color).border_color(border_hover_color)) .when(is_sticky, |this| this.block_mouse_except_scroll()) .when(!is_sticky, |this| { this.when( is_highlighted && folded_directory_drag_target.is_none(), |this| { this.border_color(transparent_white()) .bg(item_colors.drag_over) }, ) .when(settings.drag_and_drop, |this| { this.on_drag_move::(cx.listener( move |this, event: &DragMoveEvent, _, cx| { let is_current_target = this.drag_target_entry .as_ref() .and_then(|entry| match entry { DragTarget::Entry { entry_id: target_id, .. } => Some(*target_id), DragTarget::Background { .. } => None, }) == Some(entry_id); if !event.bounds.contains(&event.event.position) { // Entry responsible for setting drag target is also responsible to // clear it up after drag is out of bounds if is_current_target { this.drag_target_entry = None; } return; } if is_current_target { return; } this.marked_entries.clear(); let Some((entry_id, highlight_entry_id)) = maybe!({ let target_worktree = this .project .read(cx) .worktree_for_id(selection.worktree_id, cx)? .read(cx); let target_entry = target_worktree.entry_for_path(&path_for_external_paths)?; let highlight_entry_id = this.highlight_entry_for_external_drag( target_entry, target_worktree, )?; Some((target_entry.id, highlight_entry_id)) }) else { return; }; this.drag_target_entry = Some(DragTarget::Entry { entry_id, highlight_entry_id, }); }, )) .on_drop(cx.listener( move |this, external_paths: &ExternalPaths, window, cx| { this.drag_target_entry = None; this.hover_scroll_task.take(); this.drop_external_files(external_paths.paths(), entry_id, window, cx); cx.stop_propagation(); }, )) .on_drag_move::(cx.listener( move |this, event: &DragMoveEvent, window, cx| { let is_current_target = this.drag_target_entry .as_ref() .and_then(|entry| match entry { DragTarget::Entry { entry_id: target_id, .. } => Some(*target_id), DragTarget::Background { .. } => None, }) == Some(entry_id); if !event.bounds.contains(&event.event.position) { // Entry responsible for setting drag target is also responsible to // clear it up after drag is out of bounds if is_current_target { this.drag_target_entry = None; } return; } if is_current_target { return; } let drag_state = event.drag(cx); if drag_state.items().count() == 1 { this.marked_entries.clear(); this.marked_entries.push(drag_state.active_selection); } let Some((entry_id, highlight_entry_id)) = maybe!({ let target_worktree = this .project .read(cx) .worktree_for_id(selection.worktree_id, cx)? .read(cx); let target_entry = target_worktree.entry_for_path(&path_for_dragged_selection)?; let highlight_entry_id = this.highlight_entry_for_selection_drag( target_entry, target_worktree, drag_state, cx, )?; Some((target_entry.id, highlight_entry_id)) }) else { return; }; this.drag_target_entry = Some(DragTarget::Entry { entry_id, highlight_entry_id, }); this.hover_expand_task.take(); if !kind.is_dir() || this .state .expanded_dir_ids .get(&details.worktree_id) .is_some_and(|ids| ids.binary_search(&entry_id).is_ok()) { return; } let bounds = event.bounds; this.hover_expand_task = Some(cx.spawn_in(window, async move |this, cx| { cx.background_executor() .timer(Duration::from_millis(500)) .await; this.update_in(cx, |this, window, cx| { this.hover_expand_task.take(); if this.drag_target_entry.as_ref().and_then(|entry| { match entry { DragTarget::Entry { entry_id: target_id, .. } => Some(*target_id), DragTarget::Background { .. } => None, } }) == Some(entry_id) && bounds.contains(&window.mouse_position()) { this.expand_entry(worktree_id, entry_id, cx); this.update_visible_entries( Some((worktree_id, entry_id)), false, false, window, cx, ); cx.notify(); } }) .ok(); })); }, )) .on_drag(dragged_selection, { let active_component = self.state.ancestors.get(&entry_id).and_then(|ancestors| { ancestors.active_component(&details.filename) }); move |selection, click_offset, _window, cx| { let filename = active_component .as_ref() .unwrap_or_else(|| &details.filename); cx.new(|_| DraggedProjectEntryView { icon: details.icon.clone(), filename: filename.clone(), click_offset, selection: selection.active_selection, selections: selection.marked_selections.clone(), }) } }) .on_drop(cx.listener( move |this, selections: &DraggedSelection, window, cx| { this.drag_target_entry = None; this.hover_scroll_task.take(); this.hover_expand_task.take(); if folded_directory_drag_target.is_some() { return; } this.drag_onto(selections, entry_id, kind.is_file(), window, cx); }, )) }) }) .on_mouse_down( MouseButton::Left, cx.listener(move |this, _, _, cx| { this.mouse_down = true; cx.propagate(); }), ) .on_click( cx.listener(move |project_panel, event: &gpui::ClickEvent, window, cx| { if event.is_right_click() || event.first_focus() || show_editor { return; } if event.standard_click() { project_panel.mouse_down = false; } cx.stop_propagation(); if let Some(selection) = project_panel.selection.filter(|_| event.modifiers().shift) { let current_selection = project_panel.index_for_selection(selection); let clicked_entry = SelectedEntry { entry_id, worktree_id, }; let target_selection = project_panel.index_for_selection(clicked_entry); if let Some(((_, _, source_index), (_, _, target_index))) = current_selection.zip(target_selection) { let range_start = source_index.min(target_index); let range_end = source_index.max(target_index) + 1; let mut new_selections = Vec::new(); project_panel.for_each_visible_entry( range_start..range_end, window, cx, &mut |entry_id, details, _, _| { new_selections.push(SelectedEntry { entry_id, worktree_id: details.worktree_id, }); }, ); for selection in &new_selections { if !project_panel.marked_entries.contains(selection) { project_panel.marked_entries.push(*selection); } } project_panel.selection = Some(clicked_entry); if !project_panel.marked_entries.contains(&clicked_entry) { project_panel.marked_entries.push(clicked_entry); } } } else if event.modifiers().secondary() { if event.click_count() > 1 { project_panel.split_entry(entry_id, false, None, cx); } else { project_panel.selection = Some(selection); if let Some(position) = project_panel .marked_entries .iter() .position(|e| *e == selection) { project_panel.marked_entries.remove(position); } else { project_panel.marked_entries.push(selection); } } } else if kind.is_dir() { project_panel.marked_entries.clear(); if is_sticky && let Some((_, _, index)) = project_panel.index_for_entry(entry_id, worktree_id) { project_panel .scroll_handle .scroll_to_item_strict_with_offset( index, ScrollStrategy::Top, sticky_index.unwrap_or(0), ); cx.notify(); // move down by 1px so that clicked item // don't count as sticky anymore cx.on_next_frame(window, |_, window, cx| { cx.on_next_frame(window, |this, _, cx| { let mut offset = this.scroll_handle.offset(); offset.y += px(1.); this.scroll_handle.set_offset(offset); cx.notify(); }); }); return; } if event.modifiers().alt { project_panel.toggle_expand_all(entry_id, window, cx); } else { project_panel.toggle_expanded(entry_id, window, cx); } } else { let preview_tabs_enabled = PreviewTabsSettings::get_global(cx).enable_preview_from_project_panel; let click_count = event.click_count(); let focus_opened_item = click_count > 1; let allow_preview = preview_tabs_enabled && click_count == 1; project_panel.open_entry(entry_id, focus_opened_item, allow_preview, cx); } }), ) .child( ListItem::new(id) .indent_level(depth) .indent_step_size(px(settings.indent_size)) .spacing(match settings.entry_spacing { ProjectPanelEntrySpacing::Comfortable => ListItemSpacing::Dense, ProjectPanelEntrySpacing::Standard => ListItemSpacing::ExtraDense, }) .selectable(false) .when( canonical_path.is_some() || diagnostic_count.is_some(), |this| { let symlink_element = canonical_path.map(|path| { div() .id("symlink_icon") .tooltip(move |_window, cx| { Tooltip::with_meta( path.to_string(), None, "Symbolic Link", cx, ) }) .child( Icon::new(IconName::ArrowUpRight) .size(IconSize::Indicator) .color(filename_text_color), ) }); this.end_slot::( h_flex() .gap_1() .flex_none() .pr_3() .when_some(diagnostic_count, |this, count| { this.when(count.error_count > 0, |this| { this.child( Label::new(count.capped_error_count()) .size(LabelSize::Small) .color(Color::Error), ) }) .when( count.warning_count > 0, |this| { this.child( Label::new(count.capped_warning_count()) .size(LabelSize::Small) .color(Color::Warning), ) }, ) }) .when_some(symlink_element, |this, el| this.child(el)) .into_any_element(), ) }, ) .child(if let Some(icon) = &icon { if let Some((_, decoration_color)) = entry_diagnostic_aware_icon_decoration_and_color(diagnostic_severity) { let is_warning = diagnostic_severity .map(|severity| matches!(severity, DiagnosticSeverity::WARNING)) .unwrap_or(false); div().child( DecoratedIcon::new( Icon::from_path(icon.clone()).color(Color::Muted), Some( IconDecoration::new( if kind.is_file() { if is_warning { IconDecorationKind::Triangle } else { IconDecorationKind::X } } else { IconDecorationKind::Dot }, bg_color, cx, ) .group_name(Some(GROUP_NAME.into())) .knockout_hover_color(bg_hover_color) .color(decoration_color.color(cx)) .position(Point { x: px(-2.), y: px(-2.), }), ), ) .into_any_element(), ) } else { h_flex().child(Icon::from_path(icon.to_string()).color(Color::Muted)) } } else if let Some((icon_name, color)) = entry_diagnostic_aware_icon_name_and_color(diagnostic_severity) { h_flex() .size(IconSize::default().rems()) .child(Icon::new(icon_name).color(color).size(IconSize::Small)) } else { h_flex() .size(IconSize::default().rems()) .invisible() .flex_none() }) .child(if show_editor { h_flex().h_6().w_full().child(self.filename_editor.clone()) } else { h_flex() .h_6() .map(|this| match self.state.ancestors.get(&entry_id) { Some(folded_ancestors) => { this.children(self.render_folder_elements( folded_ancestors, entry_id, file_name, path_style, is_sticky, kind.is_file(), is_active || is_marked, settings.drag_and_drop, settings.bold_folder_labels, item_colors.drag_over, folded_directory_drag_target, filename_text_color, cx, )) } None => this.child( Label::new(file_name) .single_line() .color(filename_text_color) .when( settings.bold_folder_labels && kind.is_dir(), |this| this.weight(FontWeight::SEMIBOLD), ) .into_any_element(), ), }) }) .on_secondary_mouse_down(cx.listener( move |this, event: &MouseDownEvent, window, cx| { // Stop propagation to prevent the catch-all context menu for the project // panel from being deployed. cx.stop_propagation(); // Some context menu actions apply to all marked entries. If the user // right-clicks on an entry that is not marked, they may not realize the // action applies to multiple entries. To avoid inadvertent changes, all // entries are unmarked. if !this.marked_entries.contains(&selection) { this.marked_entries.clear(); } this.deploy_context_menu(event.position, entry_id, window, cx); }, )) .overflow_x(), ) .when_some(validation_color_and_message, |this, (color, message)| { this.relative().child(deferred( div() .occlude() .absolute() .top_full() .left(px(-1.)) // Used px over rem so that it doesn't change with font size .right(px(-0.5)) .py_1() .px_2() .border_1() .border_color(color) .bg(cx.theme().colors().background) .child( Label::new(message) .color(Color::from(color)) .size(LabelSize::Small), ), )) }) } fn render_folder_elements( &self, folded_ancestors: &FoldedAncestors, entry_id: ProjectEntryId, file_name: String, path_style: PathStyle, is_sticky: bool, is_file: bool, is_active_or_marked: bool, drag_and_drop_enabled: bool, bold_folder_labels: bool, drag_over_color: Hsla, folded_directory_drag_target: Option, filename_text_color: Color, cx: &Context, ) -> impl Iterator { let components = Path::new(&file_name) .components() .map(|comp| comp.as_os_str().to_string_lossy().into_owned()) .collect::>(); let active_index = folded_ancestors.active_index(); let components_len = components.len(); let delimiter = SharedString::new(path_style.primary_separator()); let path_component_elements = components .into_iter() .enumerate() .map(move |(index, component)| { div() .id(SharedString::from(format!( "project_panel_path_component_{}_{index}", entry_id.to_usize() ))) .when(index == 0, |this| this.ml_neg_0p5()) .px_0p5() .rounded_xs() .hover(|style| style.bg(cx.theme().colors().element_active)) .when(!is_sticky, |div| { div.when(index != components_len - 1, |div| { let target_entry_id = folded_ancestors .ancestors .get(components_len - 1 - index) .cloned(); div.when(drag_and_drop_enabled, |div| { div.on_drag_move(cx.listener( move |this, event: &DragMoveEvent, _, _| { if event.bounds.contains(&event.event.position) { this.folded_directory_drag_target = Some(FoldedDirectoryDragTarget { entry_id, index, is_delimiter_target: false, }); } else { let is_current_target = this .folded_directory_drag_target .as_ref() .is_some_and(|target| { target.entry_id == entry_id && target.index == index && !target.is_delimiter_target }); if is_current_target { this.folded_directory_drag_target = None; } } }, )) .on_drop(cx.listener( move |this, selections: &DraggedSelection, window, cx| { this.hover_scroll_task.take(); this.drag_target_entry = None; this.folded_directory_drag_target = None; if let Some(target_entry_id) = target_entry_id { this.drag_onto( selections, target_entry_id, is_file, window, cx, ); } }, )) .when( folded_directory_drag_target.is_some_and(|target| { target.entry_id == entry_id && target.index == index }), |this| this.bg(drag_over_color), ) }) }) }) .on_mouse_down( MouseButton::Left, cx.listener(move |this, _, _, cx| { if let Some(folds) = this.state.ancestors.get_mut(&entry_id) { if folds.set_active_index(index) { cx.notify(); } } }), ) .on_mouse_down( MouseButton::Right, cx.listener(move |this, _, _, cx| { if let Some(folds) = this.state.ancestors.get_mut(&entry_id) { if folds.set_active_index(index) { cx.notify(); } } }), ) .child( Label::new(component) .single_line() .color(filename_text_color) .when(bold_folder_labels && !is_file, |this| { this.weight(FontWeight::SEMIBOLD) }) .when(index == active_index && is_active_or_marked, |this| { this.underline() }), ) .into_any() }); let mut separator_index = 0; itertools::intersperse_with(path_component_elements, move || { separator_index += 1; self.render_entry_path_separator( entry_id, separator_index, components_len, is_sticky, is_file, drag_and_drop_enabled, filename_text_color, &delimiter, folded_ancestors, cx, ) .into_any() }) } fn render_entry_path_separator( &self, entry_id: ProjectEntryId, index: usize, components_len: usize, is_sticky: bool, is_file: bool, drag_and_drop_enabled: bool, filename_text_color: Color, delimiter: &SharedString, folded_ancestors: &FoldedAncestors, cx: &Context, ) -> Div { let delimiter_target_index = index - 1; let target_entry_id = folded_ancestors .ancestors .get(components_len - 1 - delimiter_target_index) .cloned(); div() .when(!is_sticky, |div| { div.when(drag_and_drop_enabled, |div| { div.on_drop(cx.listener( move |this, selections: &DraggedSelection, window, cx| { this.hover_scroll_task.take(); this.drag_target_entry = None; this.folded_directory_drag_target = None; if let Some(target_entry_id) = target_entry_id { this.drag_onto(selections, target_entry_id, is_file, window, cx); } }, )) .on_drag_move(cx.listener( move |this, event: &DragMoveEvent, _, _| { if event.bounds.contains(&event.event.position) { this.folded_directory_drag_target = Some(FoldedDirectoryDragTarget { entry_id, index: delimiter_target_index, is_delimiter_target: true, }); } else { let is_current_target = this.folded_directory_drag_target.is_some_and(|target| { target.entry_id == entry_id && target.index == delimiter_target_index && target.is_delimiter_target }); if is_current_target { this.folded_directory_drag_target = None; } } }, )) }) }) .child( Label::new(delimiter.clone()) .single_line() .color(filename_text_color), ) } fn details_for_entry( &self, entry: &Entry, worktree_id: WorktreeId, root_name: &RelPath, entries_paths: &HashSet>, git_status: GitSummary, sticky: Option, _window: &mut Window, cx: &mut Context, ) -> EntryDetails { let (show_file_icons, show_folder_icons) = { let settings = ProjectPanelSettings::get_global(cx); (settings.file_icons, settings.folder_icons) }; let expanded_entry_ids = self .state .expanded_dir_ids .get(&worktree_id) .map(Vec::as_slice) .unwrap_or(&[]); let is_expanded = expanded_entry_ids.binary_search(&entry.id).is_ok(); let icon = match entry.kind { EntryKind::File => { if show_file_icons { FileIcons::get_icon(entry.path.as_std_path(), cx) } else { None } } _ => { if show_folder_icons { FileIcons::get_folder_icon(is_expanded, entry.path.as_std_path(), cx) } else { FileIcons::get_chevron_icon(is_expanded, cx) } } }; let path_style = self.project.read(cx).path_style(cx); let (depth, difference) = ProjectPanel::calculate_depth_and_difference(entry, entries_paths); let filename = if difference > 1 { entry .path .last_n_components(difference) .map_or(String::new(), |suffix| { suffix.display(path_style).to_string() }) } else { entry .path .file_name() .map(|name| name.to_string()) .unwrap_or_else(|| root_name.as_unix_str().to_string()) }; let selection = SelectedEntry { worktree_id, entry_id: entry.id, }; let is_marked = self.marked_entries.contains(&selection); let is_selected = self.selection == Some(selection); let diagnostic_severity = self .diagnostics .get(&(worktree_id, entry.path.clone())) .cloned(); let diagnostic_count = self .diagnostic_counts .get(&(worktree_id, entry.path.clone())) .copied(); let filename_text_color = entry_git_aware_label_color(git_status, entry.is_ignored, is_marked); let is_cut = self .clipboard .as_ref() .is_some_and(|e| e.is_cut() && e.items().contains(&selection)); EntryDetails { filename, icon, path: entry.path.clone(), depth, kind: entry.kind, is_ignored: entry.is_ignored, is_expanded, is_selected, is_marked, is_editing: false, is_processing: false, is_cut, sticky, filename_text_color, diagnostic_severity, diagnostic_count, git_status, is_private: entry.is_private, worktree_id, canonical_path: entry.canonical_path.clone(), } } fn dispatch_context(&self, window: &Window, cx: &Context) -> KeyContext { let mut dispatch_context = KeyContext::new_with_defaults(); dispatch_context.add("ProjectPanel"); dispatch_context.add("menu"); let identifier = if self.filename_editor.focus_handle(cx).is_focused(window) { "editing" } else { "not_editing" }; dispatch_context.add(identifier); dispatch_context } fn reveal_entry( &mut self, project: Entity, entry_id: ProjectEntryId, skip_ignored: bool, window: &mut Window, cx: &mut Context, ) -> Result<()> { let worktree = project .read(cx) .worktree_for_entry(entry_id, cx) .context("can't reveal a non-existent entry in the project panel")?; let worktree = worktree.read(cx); let worktree_id = worktree.id(); let is_ignored = worktree .entry_for_id(entry_id) .is_none_or(|entry| entry.is_ignored && !entry.is_always_included); if skip_ignored && is_ignored { if self.index_for_entry(entry_id, worktree_id).is_none() { anyhow::bail!("can't reveal an ignored entry in the project panel"); } self.selection = Some(SelectedEntry { worktree_id, entry_id, }); self.marked_entries.clear(); self.marked_entries.push(SelectedEntry { worktree_id, entry_id, }); self.autoscroll(cx); cx.notify(); return Ok(()); } let is_active_item_file_diff_view = self .workspace .upgrade() .and_then(|ws| ws.read(cx).active_item(cx)) .map(|item| item.act_as_type(TypeId::of::(), cx).is_some()) .unwrap_or(false); if is_active_item_file_diff_view { return Ok(()); } self.expand_entry(worktree_id, entry_id, cx); self.update_visible_entries(Some((worktree_id, entry_id)), false, true, window, cx); self.marked_entries.clear(); self.marked_entries.push(SelectedEntry { worktree_id, entry_id, }); cx.notify(); Ok(()) } fn find_active_indent_guide( &self, indent_guides: &[IndentGuideLayout], cx: &App, ) -> Option { let (worktree, entry) = self.selected_entry(cx)?; // Find the parent entry of the indent guide, this will either be the // expanded folder we have selected, or the parent of the currently // selected file/collapsed directory let mut entry = entry; loop { let is_expanded_dir = entry.is_dir() && self .state .expanded_dir_ids .get(&worktree.id()) .map(|ids| ids.binary_search(&entry.id).is_ok()) .unwrap_or(false); if is_expanded_dir { break; } entry = worktree.entry_for_path(&entry.path.parent()?)?; } let (active_indent_range, depth) = { let (worktree_ix, child_offset, ix) = self.index_for_entry(entry.id, worktree.id())?; let child_paths = &self.state.visible_entries[worktree_ix].entries; let mut child_count = 0; let depth = entry.path.ancestors().count(); while let Some(entry) = child_paths.get(child_offset + child_count + 1) { if entry.path.ancestors().count() <= depth { break; } child_count += 1; } let start = ix + 1; let end = start + child_count; let visible_worktree = &self.state.visible_entries[worktree_ix]; let visible_worktree_entries = visible_worktree.index.get_or_init(|| { visible_worktree .entries .iter() .map(|e| e.path.clone()) .collect() }); // Calculate the actual depth of the entry, taking into account that directories can be auto-folded. let (depth, _) = Self::calculate_depth_and_difference(entry, visible_worktree_entries); (start..end, depth) }; let candidates = indent_guides .iter() .enumerate() .filter(|(_, indent_guide)| indent_guide.offset.x == depth); for (i, indent) in candidates { // Find matches that are either an exact match, partially on screen, or inside the enclosing indent if active_indent_range.start <= indent.offset.y + indent.length && indent.offset.y <= active_indent_range.end { return Some(i); } } None } fn render_sticky_entries( &self, child: StickyProjectPanelCandidate, window: &mut Window, cx: &mut Context, ) -> SmallVec<[AnyElement; 8]> { let project = self.project.read(cx); let Some((worktree_id, entry_ref)) = self.entry_at_index(child.index) else { return SmallVec::new(); }; let Some(visible) = self .state .visible_entries .iter() .find(|worktree| worktree.worktree_id == worktree_id) else { return SmallVec::new(); }; let Some(worktree) = project.worktree_for_id(worktree_id, cx) else { return SmallVec::new(); }; let worktree = worktree.read(cx).snapshot(); let paths = visible .index .get_or_init(|| visible.entries.iter().map(|e| e.path.clone()).collect()); let mut sticky_parents = Vec::new(); let mut current_path = entry_ref.path.clone(); 'outer: loop { if let Some(parent_path) = current_path.parent() { for ancestor_path in parent_path.ancestors() { if paths.contains(ancestor_path) && let Some(parent_entry) = worktree.entry_for_path(ancestor_path) { sticky_parents.push(parent_entry.clone()); current_path = parent_entry.path.clone(); continue 'outer; } } } break 'outer; } if sticky_parents.is_empty() { return SmallVec::new(); } sticky_parents.reverse(); let panel_settings = ProjectPanelSettings::get_global(cx); let git_status_enabled = panel_settings.git_status; let root_name = worktree.root_name(); let git_summaries_by_id = if git_status_enabled { visible .entries .iter() .map(|e| (e.id, e.git_summary)) .collect::>() } else { Default::default() }; // already checked if non empty above let last_item_index = sticky_parents.len() - 1; sticky_parents .iter() .enumerate() .map(|(index, entry)| { let git_status = git_summaries_by_id .get(&entry.id) .copied() .unwrap_or_default(); let sticky_details = Some(StickyDetails { sticky_index: index, }); let details = self.details_for_entry( entry, worktree_id, root_name, paths, git_status, sticky_details, window, cx, ); self.render_entry(entry.id, details, window, cx) .when(index == last_item_index, |this| { let shadow_color_top = hsla(0.0, 0.0, 0.0, 0.1); let shadow_color_bottom = hsla(0.0, 0.0, 0.0, 0.); let sticky_shadow = div() .absolute() .left_0() .bottom_neg_1p5() .h_1p5() .w_full() .bg(linear_gradient( 0., linear_color_stop(shadow_color_top, 1.), linear_color_stop(shadow_color_bottom, 0.), )); this.child(sticky_shadow) }) .into_any() }) .collect() } } #[derive(Clone)] struct StickyProjectPanelCandidate { index: usize, depth: usize, } impl StickyCandidate for StickyProjectPanelCandidate { fn depth(&self) -> usize { self.depth } } fn item_width_estimate(depth: usize, item_text_chars: usize, is_symlink: bool) -> usize { const ICON_SIZE_FACTOR: usize = 2; let mut item_width = depth * ICON_SIZE_FACTOR + item_text_chars; if is_symlink { item_width += ICON_SIZE_FACTOR; } item_width } impl Render for ProjectPanel { fn render(&mut self, window: &mut Window, cx: &mut Context) -> impl IntoElement { let has_worktree = !self.state.visible_entries.is_empty(); let project = self.project.read(cx); let panel_settings = ProjectPanelSettings::get_global(cx); let indent_size = panel_settings.indent_size; let show_indent_guides = panel_settings.indent_guides.show == ShowIndentGuides::Always; let show_sticky_entries = { if panel_settings.sticky_scroll { let is_scrollable = self.scroll_handle.is_scrollable(); let is_scrolled = self.scroll_handle.offset().y < px(0.); is_scrollable && is_scrolled } else { false } }; let is_local = project.is_local(); if has_worktree { let item_count = self .state .visible_entries .iter() .map(|worktree| worktree.entries.len()) .sum(); fn handle_drag_move( this: &mut ProjectPanel, e: &DragMoveEvent, window: &mut Window, cx: &mut Context, ) { if let Some(previous_position) = this.previous_drag_position { // Refresh cursor only when an actual drag happens, // because modifiers are not updated when the cursor is not moved. if e.event.position != previous_position { this.refresh_drag_cursor_style(&e.event.modifiers, window, cx); } } this.previous_drag_position = Some(e.event.position); if !e.bounds.contains(&e.event.position) { this.drag_target_entry = None; return; } this.hover_scroll_task.take(); let panel_height = e.bounds.size.height; if panel_height <= px(0.) { return; } let event_offset = e.event.position.y - e.bounds.origin.y; // How far along in the project panel is our cursor? (0. is the top of a list, 1. is the bottom) let hovered_region_offset = event_offset / panel_height; // We want the scrolling to be a bit faster when the cursor is closer to the edge of a list. // These pixels offsets were picked arbitrarily. let vertical_scroll_offset = if hovered_region_offset <= 0.05 { 8. } else if hovered_region_offset <= 0.15 { 5. } else if hovered_region_offset >= 0.95 { -8. } else if hovered_region_offset >= 0.85 { -5. } else { return; }; let adjustment = point(px(0.), px(vertical_scroll_offset)); this.hover_scroll_task = Some(cx.spawn_in(window, async move |this, cx| { loop { let should_stop_scrolling = this .update(cx, |this, cx| { this.hover_scroll_task.as_ref()?; let handle = this.scroll_handle.0.borrow_mut(); let offset = handle.base_handle.offset(); handle.base_handle.set_offset(offset + adjustment); cx.notify(); Some(()) }) .ok() .flatten() .is_some(); if should_stop_scrolling { return; } cx.background_executor() .timer(Duration::from_millis(16)) .await; } })); } h_flex() .id("project-panel") .group("project-panel") .when(panel_settings.drag_and_drop, |this| { this.on_drag_move(cx.listener(handle_drag_move::)) .on_drag_move(cx.listener(handle_drag_move::)) }) .size_full() .relative() .on_modifiers_changed(cx.listener( |this, event: &ModifiersChangedEvent, window, cx| { this.refresh_drag_cursor_style(&event.modifiers, window, cx); }, )) .key_context(self.dispatch_context(window, cx)) .on_action(cx.listener(Self::scroll_up)) .on_action(cx.listener(Self::scroll_down)) .on_action(cx.listener(Self::scroll_cursor_center)) .on_action(cx.listener(Self::scroll_cursor_top)) .on_action(cx.listener(Self::scroll_cursor_bottom)) .on_action(cx.listener(Self::select_next)) .on_action(cx.listener(Self::select_previous)) .on_action(cx.listener(Self::select_first)) .on_action(cx.listener(Self::select_last)) .on_action(cx.listener(Self::select_parent)) .on_action(cx.listener(Self::select_next_git_entry)) .on_action(cx.listener(Self::select_prev_git_entry)) .on_action(cx.listener(Self::select_next_diagnostic)) .on_action(cx.listener(Self::select_prev_diagnostic)) .on_action(cx.listener(Self::select_next_directory)) .on_action(cx.listener(Self::select_prev_directory)) .on_action(cx.listener(Self::expand_selected_entry)) .on_action(cx.listener(Self::collapse_selected_entry)) .on_action(cx.listener(Self::collapse_all_entries)) .on_action(cx.listener(Self::collapse_selected_entry_and_children)) .on_action(cx.listener(Self::open)) .on_action(cx.listener(Self::open_permanent)) .on_action(cx.listener(Self::open_split_vertical)) .on_action(cx.listener(Self::open_split_horizontal)) .on_action(cx.listener(Self::confirm)) .on_action(cx.listener(Self::cancel)) .on_action(cx.listener(Self::copy_path)) .on_action(cx.listener(Self::copy_relative_path)) .on_action(cx.listener(Self::new_search_in_directory)) .on_action(cx.listener(Self::unfold_directory)) .on_action(cx.listener(Self::fold_directory)) .on_action(cx.listener(Self::remove_from_project)) .on_action(cx.listener(Self::compare_marked_files)) .when(!project.is_read_only(cx), |el| { el.on_action(cx.listener(Self::new_file)) .on_action(cx.listener(Self::new_directory)) .on_action(cx.listener(Self::rename)) .on_action(cx.listener(Self::delete)) .on_action(cx.listener(Self::cut)) .on_action(cx.listener(Self::copy)) .on_action(cx.listener(Self::paste)) .on_action(cx.listener(Self::duplicate)) .on_action(cx.listener(Self::restore_file)) .when(!project.is_remote(), |el| { el.on_action(cx.listener(Self::trash)) }) }) .when( project.is_local() || project.is_via_wsl_with_host_interop(cx), |el| { el.on_action(cx.listener(Self::reveal_in_finder)) .on_action(cx.listener(Self::open_system)) .on_action(cx.listener(Self::open_in_terminal)) }, ) .when(project.is_via_remote_server(), |el| { el.on_action(cx.listener(Self::open_in_terminal)) .on_action(cx.listener(Self::download_from_remote)) }) .track_focus(&self.focus_handle(cx)) .child( v_flex() .child( uniform_list("entries", item_count, { cx.processor(|this, range: Range, window, cx| { this.rendered_entries_len = range.end - range.start; let mut items = Vec::with_capacity(this.rendered_entries_len); this.for_each_visible_entry( range, window, cx, &mut |id, details, window, cx| { items.push(this.render_entry(id, details, window, cx)); }, ); items }) }) .when(show_indent_guides, |list| { list.with_decoration( ui::indent_guides( px(indent_size), IndentGuideColors::panel(cx), ) .with_compute_indents_fn( cx.entity(), |this, range, window, cx| { let mut items = SmallVec::with_capacity(range.end - range.start); this.iter_visible_entries( range, window, cx, &mut |entry, _, entries, _, _| { let (depth, _) = Self::calculate_depth_and_difference( entry, entries, ); items.push(depth); }, ); items }, ) .on_click(cx.listener( |this, active_indent_guide: &IndentGuideLayout, window, cx| { if window.modifiers().secondary() { let ix = active_indent_guide.offset.y; let Some((target_entry, worktree)) = maybe!({ let (worktree_id, entry) = this.entry_at_index(ix)?; let worktree = this .project .read(cx) .worktree_for_id(worktree_id, cx)?; let target_entry = worktree .read(cx) .entry_for_path(&entry.path.parent()?)?; Some((target_entry, worktree)) }) else { return; }; this.collapse_entry( target_entry.clone(), worktree, window, cx, ); } }, )) .with_render_fn( cx.entity(), move |this, params, _, cx| { const LEFT_OFFSET: Pixels = px(14.); const PADDING_Y: Pixels = px(4.); const HITBOX_OVERDRAW: Pixels = px(3.); let active_indent_guide_index = this .find_active_indent_guide( ¶ms.indent_guides, cx, ); let indent_size = params.indent_size; let item_height = params.item_height; params .indent_guides .into_iter() .enumerate() .map(|(idx, layout)| { let offset = if layout.continues_offscreen { px(0.) } else { PADDING_Y }; let bounds = Bounds::new( point( layout.offset.x * indent_size + LEFT_OFFSET, layout.offset.y * item_height + offset, ), size( px(1.), layout.length * item_height - offset * 2., ), ); ui::RenderedIndentGuide { bounds, layout, is_active: Some(idx) == active_indent_guide_index, hitbox: Some(Bounds::new( point( bounds.origin.x - HITBOX_OVERDRAW, bounds.origin.y, ), size( bounds.size.width + HITBOX_OVERDRAW * 2., bounds.size.height, ), )), } }) .collect() }, ), ) }) .when(show_sticky_entries, |list| { let sticky_items = ui::sticky_items( cx.entity(), |this, range, window, cx| { let mut items = SmallVec::with_capacity(range.end - range.start); this.iter_visible_entries( range, window, cx, &mut |entry, index, entries, _, _| { let (depth, _) = Self::calculate_depth_and_difference( entry, entries, ); let candidate = StickyProjectPanelCandidate { index, depth }; items.push(candidate); }, ); items }, |this, marker_entry, window, cx| { let sticky_entries = this.render_sticky_entries(marker_entry, window, cx); this.sticky_items_count = sticky_entries.len(); sticky_entries }, ); list.with_decoration(if show_indent_guides { sticky_items.with_decoration( ui::indent_guides( px(indent_size), IndentGuideColors::panel(cx), ) .with_render_fn( cx.entity(), move |_, params, _, _| { const LEFT_OFFSET: Pixels = px(14.); let indent_size = params.indent_size; let item_height = params.item_height; params .indent_guides .into_iter() .map(|layout| { let bounds = Bounds::new( point( layout.offset.x * indent_size + LEFT_OFFSET, layout.offset.y * item_height, ), size( px(1.), layout.length * item_height, ), ); ui::RenderedIndentGuide { bounds, layout, is_active: false, hitbox: None, } }) .collect() }, ), ) } else { sticky_items }) }) .with_sizing_behavior(ListSizingBehavior::Infer) .with_horizontal_sizing_behavior( ListHorizontalSizingBehavior::Unconstrained, ) .with_width_from_item(self.state.max_width_item_index) .track_scroll(&self.scroll_handle), ) .child( div() .id("project-panel-blank-area") .block_mouse_except_scroll() .flex_grow() .on_scroll_wheel({ let scroll_handle = self.scroll_handle.clone(); let entity_id = cx.entity().entity_id(); move |event, window, cx| { let state = scroll_handle.0.borrow(); let base_handle = &state.base_handle; let current_offset = base_handle.offset(); let max_offset = base_handle.max_offset(); let delta = event.delta.pixel_delta(window.line_height()); let new_offset = (current_offset + delta) .clamp(&max_offset.neg(), &Point::default()); if new_offset != current_offset { base_handle.set_offset(new_offset); cx.notify(entity_id); } } }) .when( self.drag_target_entry.as_ref().is_some_and( |entry| match entry { DragTarget::Background => true, DragTarget::Entry { highlight_entry_id, .. } => self.state.last_worktree_root_id.is_some_and( |root_id| *highlight_entry_id == root_id, ), }, ), |div| div.bg(cx.theme().colors().drop_target_background), ) .on_drag_move::(cx.listener( move |this, event: &DragMoveEvent, _, _| { let Some(_last_root_id) = this.state.last_worktree_root_id else { return; }; if event.bounds.contains(&event.event.position) { this.drag_target_entry = Some(DragTarget::Background); } else { if this.drag_target_entry.as_ref().is_some_and(|e| { matches!(e, DragTarget::Background) }) { this.drag_target_entry = None; } } }, )) .on_drag_move::(cx.listener( move |this, event: &DragMoveEvent, _, cx| { let Some(last_root_id) = this.state.last_worktree_root_id else { return; }; if event.bounds.contains(&event.event.position) { let drag_state = event.drag(cx); if this.should_highlight_background_for_selection_drag( &drag_state, last_root_id, cx, ) { this.drag_target_entry = Some(DragTarget::Background); } } else { if this.drag_target_entry.as_ref().is_some_and(|e| { matches!(e, DragTarget::Background) }) { this.drag_target_entry = None; } } }, )) .on_drop(cx.listener( move |this, external_paths: &ExternalPaths, window, cx| { this.drag_target_entry = None; this.hover_scroll_task.take(); if let Some(entry_id) = this.state.last_worktree_root_id { this.drop_external_files( external_paths.paths(), entry_id, window, cx, ); } cx.stop_propagation(); }, )) .on_drop(cx.listener( move |this, selections: &DraggedSelection, window, cx| { this.drag_target_entry = None; this.hover_scroll_task.take(); if let Some(entry_id) = this.state.last_worktree_root_id { this.drag_onto(selections, entry_id, false, window, cx); } cx.stop_propagation(); }, )) .on_click(cx.listener(|this, event, window, cx| { if matches!(event, gpui::ClickEvent::Keyboard(_)) { return; } cx.stop_propagation(); this.selection = None; this.marked_entries.clear(); this.focus_handle(cx).focus(window, cx); })) .on_mouse_down( MouseButton::Right, cx.listener(move |this, event: &MouseDownEvent, window, cx| { // When deploying the context menu anywhere below the last project entry, // act as if the user clicked the root of the last worktree. if let Some(entry_id) = this.state.last_worktree_root_id { this.deploy_context_menu( event.position, entry_id, window, cx, ); } }), ) .when(!project.is_read_only(cx), |el| { el.on_click(cx.listener( |this, event: &gpui::ClickEvent, window, cx| { if event.click_count() > 1 && let Some(entry_id) = this.state.last_worktree_root_id { let project = this.project.read(cx); let worktree_id = if let Some(worktree) = project.worktree_for_entry(entry_id, cx) { worktree.read(cx).id() } else { return; }; this.selection = Some(SelectedEntry { worktree_id, entry_id, }); this.new_file(&NewFile, window, cx); } }, )) }), ) .size_full(), ) .custom_scrollbars( Scrollbars::for_settings::() .tracked_scroll_handle(&self.scroll_handle) .with_track_along( ScrollAxes::Horizontal, cx.theme().colors().panel_background, ) .notify_content(), window, cx, ) .children(self.context_menu.as_ref().map(|(menu, position, _)| { deferred( anchored() .position(*position) .anchor(gpui::Corner::TopLeft) .child(menu.clone()), ) .with_priority(3) })) } else { let focus_handle = self.focus_handle(cx); v_flex() .id("empty-project_panel") .p_4() .size_full() .items_center() .justify_center() .gap_1() .track_focus(&self.focus_handle(cx)) .child( Button::new("open_project", "Open Project") .full_width() .key_binding(KeyBinding::for_action_in( &workspace::Open, &focus_handle, cx, )) .on_click(cx.listener(|this, _, window, cx| { this.workspace .update(cx, |_, cx| { window.dispatch_action(workspace::Open.boxed_clone(), cx); }) .log_err(); })), ) .child( h_flex() .w_1_2() .gap_2() .child(Divider::horizontal()) .child(Label::new("or").size(LabelSize::XSmall).color(Color::Muted)) .child(Divider::horizontal()), ) .child( Button::new("clone_repo", "Clone Repository") .full_width() .on_click(cx.listener(|this, _, window, cx| { this.workspace .update(cx, |_, cx| { window.dispatch_action(git::Clone.boxed_clone(), cx); }) .log_err(); })), ) .when(is_local, |div| { div.when(panel_settings.drag_and_drop, |div| { div.drag_over::(|style, _, _, cx| { style.bg(cx.theme().colors().drop_target_background) }) .on_drop(cx.listener( move |this, external_paths: &ExternalPaths, window, cx| { this.drag_target_entry = None; this.hover_scroll_task.take(); if let Some(task) = this .workspace .update(cx, |workspace, cx| { workspace.open_workspace_for_paths( true, external_paths.paths().to_owned(), window, cx, ) }) .log_err() { task.detach_and_log_err(cx); } cx.stop_propagation(); }, )) }) }) } } } impl Render for DraggedProjectEntryView { fn render(&mut self, _: &mut Window, cx: &mut Context) -> impl IntoElement { let ui_font = ThemeSettings::get_global(cx).ui_font.clone(); h_flex() .font(ui_font) .pl(self.click_offset.x + px(12.)) .pt(self.click_offset.y + px(12.)) .child( div() .flex() .gap_1() .items_center() .py_1() .px_2() .rounded_lg() .bg(cx.theme().colors().background) .map(|this| { if self.selections.len() > 1 && self.selections.contains(&self.selection) { this.child(Label::new(format!("{} entries", self.selections.len()))) } else { this.child(if let Some(icon) = &self.icon { div().child(Icon::from_path(icon.clone())) } else { div() }) .child(Label::new(self.filename.clone())) } }), ) } } impl EventEmitter for ProjectPanel {} impl EventEmitter for ProjectPanel {} impl Panel for ProjectPanel { fn position(&self, _: &Window, cx: &App) -> DockPosition { match ProjectPanelSettings::get_global(cx).dock { DockSide::Left => DockPosition::Left, DockSide::Right => DockPosition::Right, } } fn position_is_valid(&self, position: DockPosition) -> bool { matches!(position, DockPosition::Left | DockPosition::Right) } fn set_position(&mut self, position: DockPosition, _: &mut Window, cx: &mut Context) { settings::update_settings_file(self.fs.clone(), cx, move |settings, _| { let dock = match position { DockPosition::Left | DockPosition::Bottom => DockSide::Left, DockPosition::Right => DockSide::Right, }; settings.project_panel.get_or_insert_default().dock = Some(dock); }); } fn size(&self, _: &Window, cx: &App) -> Pixels { self.width .unwrap_or_else(|| ProjectPanelSettings::get_global(cx).default_width) } fn set_size(&mut self, size: Option, window: &mut Window, cx: &mut Context) { self.width = size; cx.notify(); cx.defer_in(window, |this, _, cx| { this.serialize(cx); }); } fn icon(&self, _: &Window, cx: &App) -> Option { ProjectPanelSettings::get_global(cx) .button .then_some(IconName::FileTree) } fn icon_tooltip(&self, _window: &Window, _cx: &App) -> Option<&'static str> { Some("Project Panel") } fn toggle_action(&self) -> Box { Box::new(ToggleFocus) } fn persistent_name() -> &'static str { "Project Panel" } fn panel_key() -> &'static str { PROJECT_PANEL_KEY } fn starts_open(&self, _: &Window, cx: &App) -> bool { if !ProjectPanelSettings::get_global(cx).starts_open { return false; } let project = &self.project.read(cx); project.visible_worktrees(cx).any(|tree| { tree.read(cx) .root_entry() .is_some_and(|entry| entry.is_dir()) }) } fn activation_priority(&self) -> u32 { 0 } } impl Focusable for ProjectPanel { fn focus_handle(&self, _cx: &App) -> FocusHandle { self.focus_handle.clone() } } impl ClipboardEntry { fn is_cut(&self) -> bool { matches!(self, Self::Cut { .. }) } fn items(&self) -> &BTreeSet { match self { ClipboardEntry::Copied(entries) | ClipboardEntry::Cut(entries) => entries, } } fn into_copy_entry(self) -> Self { match self { ClipboardEntry::Copied(_) => self, ClipboardEntry::Cut(entries) => ClipboardEntry::Copied(entries), } } } #[inline] fn cmp_directories_first(a: &Entry, b: &Entry) -> cmp::Ordering { util::paths::compare_rel_paths((&a.path, a.is_file()), (&b.path, b.is_file())) } #[inline] fn cmp_mixed(a: &Entry, b: &Entry) -> cmp::Ordering { util::paths::compare_rel_paths_mixed((&a.path, a.is_file()), (&b.path, b.is_file())) } #[inline] fn cmp_files_first(a: &Entry, b: &Entry) -> cmp::Ordering { util::paths::compare_rel_paths_files_first((&a.path, a.is_file()), (&b.path, b.is_file())) } #[inline] fn cmp_with_mode(a: &Entry, b: &Entry, mode: &settings::ProjectPanelSortMode) -> cmp::Ordering { match mode { settings::ProjectPanelSortMode::DirectoriesFirst => cmp_directories_first(a, b), settings::ProjectPanelSortMode::Mixed => cmp_mixed(a, b), settings::ProjectPanelSortMode::FilesFirst => cmp_files_first(a, b), } } pub fn sort_worktree_entries_with_mode( entries: &mut [impl AsRef], mode: settings::ProjectPanelSortMode, ) { entries.sort_by(|lhs, rhs| cmp_with_mode(lhs.as_ref(), rhs.as_ref(), &mode)); } pub fn par_sort_worktree_entries_with_mode( entries: &mut Vec, mode: settings::ProjectPanelSortMode, ) { entries.par_sort_by(|lhs, rhs| cmp_with_mode(lhs, rhs, &mode)); } #[cfg(test)] mod project_panel_tests;