mod dragged_item_receiver; use super::{ItemHandle, SplitDirection}; use crate::{ dock::{icon_for_dock_anchor, AnchorDockBottom, AnchorDockRight, Dock, ExpandDock}, item::WeakItemHandle, toolbar::Toolbar, Item, NewFile, NewSearch, NewTerminal, Workspace, }; use anyhow::{anyhow, Result}; use collections::{HashMap, HashSet, VecDeque}; use context_menu::{ContextMenu, ContextMenuItem}; use drag_and_drop::Draggable; pub use dragged_item_receiver::{dragged_item_receiver, handle_dropped_item}; use futures::StreamExt; use gpui::{ actions, elements::*, geometry::{ rect::RectF, vector::{vec2f, Vector2F}, }, impl_actions, keymap_matcher::KeymapContext, platform::{CursorStyle, MouseButton, NavigationDirection, PromptLevel}, Action, AnyViewHandle, AnyWeakViewHandle, AppContext, AsyncAppContext, Entity, EventContext, ModelHandle, MouseRegion, Quad, Task, View, ViewContext, ViewHandle, WeakViewHandle, WindowContext, }; use project::{Project, ProjectEntryId, ProjectPath}; use serde::Deserialize; use settings::{Autosave, DockAnchor, Settings}; use std::{any::Any, cell::RefCell, cmp, mem, path::Path, rc::Rc}; use theme::Theme; use util::ResultExt; #[derive(Clone, Deserialize, PartialEq)] pub struct ActivateItem(pub usize); #[derive(Clone, PartialEq)] pub struct CloseItemById { pub item_id: usize, pub pane: WeakViewHandle, } #[derive(Clone, PartialEq)] pub struct CloseItemsToTheLeftById { pub item_id: usize, pub pane: WeakViewHandle, } #[derive(Clone, PartialEq)] pub struct CloseItemsToTheRightById { pub item_id: usize, pub pane: WeakViewHandle, } actions!( pane, [ ActivatePrevItem, ActivateNextItem, ActivateLastItem, CloseActiveItem, CloseInactiveItems, CloseCleanItems, CloseItemsToTheLeft, CloseItemsToTheRight, CloseAllItems, ReopenClosedItem, SplitLeft, SplitUp, SplitRight, SplitDown, ] ); #[derive(Clone, Deserialize, PartialEq)] pub struct GoBack { #[serde(skip_deserializing)] pub pane: Option>, } #[derive(Clone, Deserialize, PartialEq)] pub struct GoForward { #[serde(skip_deserializing)] pub pane: Option>, } impl_actions!(pane, [GoBack, GoForward, ActivateItem]); const MAX_NAVIGATION_HISTORY_LEN: usize = 1024; pub type BackgroundActions = fn() -> &'static [(&'static str, &'static dyn Action)]; pub fn init(cx: &mut AppContext) { cx.add_action(|pane: &mut Pane, action: &ActivateItem, cx| { pane.activate_item(action.0, true, true, cx); }); cx.add_action(|pane: &mut Pane, _: &ActivateLastItem, cx| { pane.activate_item(pane.items.len() - 1, true, true, cx); }); cx.add_action(|pane: &mut Pane, _: &ActivatePrevItem, cx| { pane.activate_prev_item(true, cx); }); cx.add_action(|pane: &mut Pane, _: &ActivateNextItem, cx| { pane.activate_next_item(true, cx); }); cx.add_async_action(Pane::close_active_item); cx.add_async_action(Pane::close_inactive_items); cx.add_async_action(Pane::close_clean_items); cx.add_async_action(Pane::close_items_to_the_left); cx.add_async_action(Pane::close_items_to_the_right); cx.add_async_action(Pane::close_all_items); cx.add_action(|pane: &mut Pane, _: &SplitLeft, cx| pane.split(SplitDirection::Left, cx)); cx.add_action(|pane: &mut Pane, _: &SplitUp, cx| pane.split(SplitDirection::Up, cx)); cx.add_action(|pane: &mut Pane, _: &SplitRight, cx| pane.split(SplitDirection::Right, cx)); cx.add_action(|pane: &mut Pane, _: &SplitDown, cx| pane.split(SplitDirection::Down, cx)); cx.add_action(|workspace: &mut Workspace, _: &ReopenClosedItem, cx| { Pane::reopen_closed_item(workspace, cx).detach(); }); cx.add_action(|workspace: &mut Workspace, action: &GoBack, cx| { Pane::go_back(workspace, action.pane.clone(), cx).detach(); }); cx.add_action(|workspace: &mut Workspace, action: &GoForward, cx| { Pane::go_forward(workspace, action.pane.clone(), cx).detach(); }); } #[derive(Debug)] pub enum Event { ActivateItem { local: bool }, Remove, RemoveItem { item_id: usize }, Split(SplitDirection), ChangeItemTitle, } pub struct Pane { items: Vec>, activation_history: Vec, is_active: bool, active_item_index: usize, last_focused_view_by_item: HashMap, autoscroll: bool, nav_history: Rc>, toolbar: ViewHandle, tab_bar_context_menu: TabBarContextMenu, tab_context_menu: ViewHandle, docked: Option, _background_actions: BackgroundActions, workspace: WeakViewHandle, } pub struct ItemNavHistory { history: Rc>, item: Rc, } struct NavHistory { mode: NavigationMode, backward_stack: VecDeque, forward_stack: VecDeque, closed_stack: VecDeque, paths_by_item: HashMap, pane: WeakViewHandle, } #[derive(Copy, Clone)] enum NavigationMode { Normal, GoingBack, GoingForward, ClosingItem, ReopeningClosedItem, Disabled, } impl Default for NavigationMode { fn default() -> Self { Self::Normal } } pub struct NavigationEntry { pub item: Rc, pub data: Option>, } struct DraggedItem { item: Box, pane: WeakViewHandle, } pub enum ReorderBehavior { None, MoveAfterActive, MoveToIndex(usize), } #[derive(Debug, Clone, Copy, PartialEq, Eq)] enum TabBarContextMenuKind { New, Split, Dock, } struct TabBarContextMenu { kind: TabBarContextMenuKind, handle: ViewHandle, } impl TabBarContextMenu { fn handle_if_kind(&self, kind: TabBarContextMenuKind) -> Option> { if self.kind == kind { return Some(self.handle.clone()); } None } } impl Pane { pub fn new( workspace: WeakViewHandle, docked: Option, background_actions: BackgroundActions, cx: &mut ViewContext, ) -> Self { let handle = cx.weak_handle(); let context_menu = cx.add_view(ContextMenu::new); context_menu.update(cx, |menu, _| { menu.set_position_mode(OverlayPositionMode::Local) }); Self { items: Vec::new(), activation_history: Vec::new(), is_active: true, active_item_index: 0, last_focused_view_by_item: Default::default(), autoscroll: false, nav_history: Rc::new(RefCell::new(NavHistory { mode: NavigationMode::Normal, backward_stack: Default::default(), forward_stack: Default::default(), closed_stack: Default::default(), paths_by_item: Default::default(), pane: handle.clone(), })), toolbar: cx.add_view(|_| Toolbar::new(handle)), tab_bar_context_menu: TabBarContextMenu { kind: TabBarContextMenuKind::New, handle: context_menu, }, tab_context_menu: cx.add_view(ContextMenu::new), docked, _background_actions: background_actions, workspace, } } pub(crate) fn workspace(&self) -> &WeakViewHandle { &self.workspace } pub fn is_active(&self) -> bool { self.is_active } pub fn set_active(&mut self, is_active: bool, cx: &mut ViewContext) { self.is_active = is_active; cx.notify(); } pub fn set_docked(&mut self, docked: Option, cx: &mut ViewContext) { self.docked = docked; cx.notify(); } pub fn nav_history_for_item(&self, item: &ViewHandle) -> ItemNavHistory { ItemNavHistory { history: self.nav_history.clone(), item: Rc::new(item.downgrade()), } } pub fn go_back( workspace: &mut Workspace, pane: Option>, cx: &mut ViewContext, ) -> Task> { Self::navigate_history( workspace, pane.unwrap_or_else(|| workspace.active_pane().downgrade()), NavigationMode::GoingBack, cx, ) } pub fn go_forward( workspace: &mut Workspace, pane: Option>, cx: &mut ViewContext, ) -> Task> { Self::navigate_history( workspace, pane.unwrap_or_else(|| workspace.active_pane().downgrade()), NavigationMode::GoingForward, cx, ) } pub fn reopen_closed_item( workspace: &mut Workspace, cx: &mut ViewContext, ) -> Task> { Self::navigate_history( workspace, workspace.active_pane().downgrade(), NavigationMode::ReopeningClosedItem, cx, ) } pub fn disable_history(&mut self) { self.nav_history.borrow_mut().disable(); } pub fn enable_history(&mut self) { self.nav_history.borrow_mut().enable(); } pub fn can_navigate_backward(&self) -> bool { !self.nav_history.borrow().backward_stack.is_empty() } pub fn can_navigate_forward(&self) -> bool { !self.nav_history.borrow().forward_stack.is_empty() } fn history_updated(&mut self, cx: &mut ViewContext) { self.toolbar.update(cx, |_, cx| cx.notify()); } fn navigate_history( workspace: &mut Workspace, pane: WeakViewHandle, mode: NavigationMode, cx: &mut ViewContext, ) -> Task> { let to_load = if let Some(pane) = pane.upgrade(cx) { cx.focus(&pane); pane.update(cx, |pane, cx| { loop { // Retrieve the weak item handle from the history. let entry = pane.nav_history.borrow_mut().pop(mode, cx)?; // If the item is still present in this pane, then activate it. if let Some(index) = entry .item .upgrade(cx) .and_then(|v| pane.index_for_item(v.as_ref())) { let prev_active_item_index = pane.active_item_index; pane.nav_history.borrow_mut().set_mode(mode); pane.activate_item(index, true, true, cx); pane.nav_history .borrow_mut() .set_mode(NavigationMode::Normal); let mut navigated = prev_active_item_index != pane.active_item_index; if let Some(data) = entry.data { navigated |= pane.active_item()?.navigate(data, cx); } if navigated { break None; } } // If the item is no longer present in this pane, then retrieve its // project path in order to reopen it. else { break pane .nav_history .borrow() .paths_by_item .get(&entry.item.id()) .cloned() .map(|project_path| (project_path, entry)); } } }) } else { None }; if let Some((project_path, entry)) = to_load { // If the item was no longer present, then load it again from its previous path. let task = workspace.load_path(project_path, cx); cx.spawn(|workspace, mut cx| async move { let task = task.await; let mut navigated = false; if let Some((project_entry_id, build_item)) = task.log_err() { let prev_active_item_id = pane.update(&mut cx, |pane, _| { pane.nav_history.borrow_mut().set_mode(mode); pane.active_item().map(|p| p.id()) })?; let item = workspace.update(&mut cx, |workspace, cx| { let pane = pane .upgrade(cx) .ok_or_else(|| anyhow!("pane was dropped"))?; anyhow::Ok(Self::open_item( workspace, pane.clone(), project_entry_id, true, cx, build_item, )) })??; pane.update(&mut cx, |pane, cx| { navigated |= Some(item.id()) != prev_active_item_id; pane.nav_history .borrow_mut() .set_mode(NavigationMode::Normal); if let Some(data) = entry.data { navigated |= item.navigate(data, cx); } })?; } if !navigated { workspace .update(&mut cx, |workspace, cx| { Self::navigate_history(workspace, pane, mode, cx) })? .await?; } Ok(()) }) } else { Task::ready(Ok(())) } } pub(crate) fn open_item( workspace: &mut Workspace, pane: ViewHandle, project_entry_id: ProjectEntryId, focus_item: bool, cx: &mut ViewContext, build_item: impl FnOnce(&mut ViewContext) -> Box, ) -> Box { let existing_item = pane.update(cx, |pane, cx| { for (index, item) in pane.items.iter().enumerate() { if item.is_singleton(cx) && item.project_entry_ids(cx).as_slice() == [project_entry_id] { let item = item.boxed_clone(); return Some((index, item)); } } None }); if let Some((index, existing_item)) = existing_item { pane.update(cx, |pane, cx| { pane.activate_item(index, focus_item, focus_item, cx); }); existing_item } else { let new_item = pane.update(cx, |_, cx| build_item(cx)); Pane::add_item( workspace, &pane, new_item.clone(), true, focus_item, None, cx, ); new_item } } pub(crate) fn add_item( workspace: &mut Workspace, pane: &ViewHandle, item: Box, activate_pane: bool, focus_item: bool, destination_index: Option, cx: &mut ViewContext, ) { // If no destination index is specified, add or move the item after the active item. let mut insertion_index = { let pane = pane.read(cx); cmp::min( if let Some(destination_index) = destination_index { destination_index } else { pane.active_item_index + 1 }, pane.items.len(), ) }; item.added_to_pane(workspace, pane.clone(), cx); // Does the item already exist? let project_entry_id = if item.is_singleton(cx) { item.project_entry_ids(cx).get(0).copied() } else { None }; let existing_item_index = pane.read(cx).items.iter().position(|existing_item| { if existing_item.id() == item.id() { true } else if existing_item.is_singleton(cx) { existing_item .project_entry_ids(cx) .get(0) .map_or(false, |existing_entry_id| { Some(existing_entry_id) == project_entry_id.as_ref() }) } else { false } }); if let Some(existing_item_index) = existing_item_index { // If the item already exists, move it to the desired destination and activate it pane.update(cx, |pane, cx| { if existing_item_index != insertion_index { cx.reparent(item.as_any()); let existing_item_is_active = existing_item_index == pane.active_item_index; // If the caller didn't specify a destination and the added item is already // the active one, don't move it if existing_item_is_active && destination_index.is_none() { insertion_index = existing_item_index; } else { pane.items.remove(existing_item_index); if existing_item_index < pane.active_item_index { pane.active_item_index -= 1; } insertion_index = insertion_index.min(pane.items.len()); pane.items.insert(insertion_index, item.clone()); if existing_item_is_active { pane.active_item_index = insertion_index; } else if insertion_index <= pane.active_item_index { pane.active_item_index += 1; } } cx.notify(); } pane.activate_item(insertion_index, activate_pane, focus_item, cx); }); } else { pane.update(cx, |pane, cx| { cx.reparent(item.as_any()); pane.items.insert(insertion_index, item); if insertion_index <= pane.active_item_index { pane.active_item_index += 1; } pane.activate_item(insertion_index, activate_pane, focus_item, cx); cx.notify(); }); } } pub fn items_len(&self) -> usize { self.items.len() } pub fn items(&self) -> impl Iterator> + DoubleEndedIterator { self.items.iter() } pub fn items_of_type(&self) -> impl '_ + Iterator> { self.items .iter() .filter_map(|item| item.as_any().clone().downcast()) } pub fn active_item(&self) -> Option> { self.items.get(self.active_item_index).cloned() } pub fn item_for_entry( &self, entry_id: ProjectEntryId, cx: &AppContext, ) -> Option> { self.items.iter().find_map(|item| { if item.is_singleton(cx) && item.project_entry_ids(cx).as_slice() == [entry_id] { Some(item.boxed_clone()) } else { None } }) } pub fn index_for_item(&self, item: &dyn ItemHandle) -> Option { self.items.iter().position(|i| i.id() == item.id()) } pub fn activate_item( &mut self, index: usize, activate_pane: bool, focus_item: bool, cx: &mut ViewContext, ) { use NavigationMode::{GoingBack, GoingForward}; if index < self.items.len() { let prev_active_item_ix = mem::replace(&mut self.active_item_index, index); if prev_active_item_ix != self.active_item_index || matches!(self.nav_history.borrow().mode, GoingBack | GoingForward) { if let Some(prev_item) = self.items.get(prev_active_item_ix) { prev_item.deactivated(cx); } cx.emit(Event::ActivateItem { local: activate_pane, }); } if let Some(newly_active_item) = self.items.get(index) { self.activation_history .retain(|&previously_active_item_id| { previously_active_item_id != newly_active_item.id() }); self.activation_history.push(newly_active_item.id()); } self.update_toolbar(cx); if focus_item { self.focus_active_item(cx); } self.autoscroll = true; cx.notify(); } } pub fn activate_prev_item(&mut self, activate_pane: bool, cx: &mut ViewContext) { let mut index = self.active_item_index; if index > 0 { index -= 1; } else if !self.items.is_empty() { index = self.items.len() - 1; } self.activate_item(index, activate_pane, activate_pane, cx); } pub fn activate_next_item(&mut self, activate_pane: bool, cx: &mut ViewContext) { let mut index = self.active_item_index; if index + 1 < self.items.len() { index += 1; } else { index = 0; } self.activate_item(index, activate_pane, activate_pane, cx); } pub fn close_active_item( workspace: &mut Workspace, _: &CloseActiveItem, cx: &mut ViewContext, ) -> Option>> { let pane_handle = workspace.active_pane().clone(); let pane = pane_handle.read(cx); if pane.items.is_empty() { return None; } let active_item_id = pane.items[pane.active_item_index].id(); let task = Self::close_item_by_id(workspace, pane_handle, active_item_id, cx); Some(cx.foreground().spawn(async move { task.await?; Ok(()) })) } pub fn close_item_by_id( workspace: &mut Workspace, pane: ViewHandle, item_id_to_close: usize, cx: &mut ViewContext, ) -> Task> { Self::close_items(workspace, pane, cx, move |view_id| { view_id == item_id_to_close }) } pub fn close_inactive_items( workspace: &mut Workspace, _: &CloseInactiveItems, cx: &mut ViewContext, ) -> Option>> { let pane_handle = workspace.active_pane().clone(); let pane = pane_handle.read(cx); let active_item_id = pane.items[pane.active_item_index].id(); let task = Self::close_items(workspace, pane_handle, cx, move |item_id| { item_id != active_item_id }); Some(cx.foreground().spawn(async move { task.await?; Ok(()) })) } pub fn close_clean_items( workspace: &mut Workspace, _: &CloseCleanItems, cx: &mut ViewContext, ) -> Option>> { let pane_handle = workspace.active_pane().clone(); let pane = pane_handle.read(cx); let item_ids: Vec<_> = pane .items() .filter(|item| !item.is_dirty(cx)) .map(|item| item.id()) .collect(); let task = Self::close_items(workspace, pane_handle, cx, move |item_id| { item_ids.contains(&item_id) }); Some(cx.foreground().spawn(async move { task.await?; Ok(()) })) } pub fn close_items_to_the_left( workspace: &mut Workspace, _: &CloseItemsToTheLeft, cx: &mut ViewContext, ) -> Option>> { let pane_handle = workspace.active_pane().clone(); let pane = pane_handle.read(cx); let active_item_id = pane.items[pane.active_item_index].id(); let task = Self::close_items_to_the_left_by_id(workspace, pane_handle, active_item_id, cx); Some(cx.foreground().spawn(async move { task.await?; Ok(()) })) } pub fn close_items_to_the_left_by_id( workspace: &mut Workspace, pane: ViewHandle, item_id: usize, cx: &mut ViewContext, ) -> Task> { let item_ids: Vec<_> = pane .read(cx) .items() .take_while(|item| item.id() != item_id) .map(|item| item.id()) .collect(); let task = Self::close_items(workspace, pane, cx, move |item_id| { item_ids.contains(&item_id) }); cx.foreground().spawn(async move { task.await?; Ok(()) }) } pub fn close_items_to_the_right( workspace: &mut Workspace, _: &CloseItemsToTheRight, cx: &mut ViewContext, ) -> Option>> { let pane_handle = workspace.active_pane().clone(); let pane = pane_handle.read(cx); let active_item_id = pane.items[pane.active_item_index].id(); let task = Self::close_items_to_the_right_by_id(workspace, pane_handle, active_item_id, cx); Some(cx.foreground().spawn(async move { task.await?; Ok(()) })) } pub fn close_items_to_the_right_by_id( workspace: &mut Workspace, pane: ViewHandle, item_id: usize, cx: &mut ViewContext, ) -> Task> { let item_ids: Vec<_> = pane .read(cx) .items() .rev() .take_while(|item| item.id() != item_id) .map(|item| item.id()) .collect(); let task = Self::close_items(workspace, pane, cx, move |item_id| { item_ids.contains(&item_id) }); cx.foreground().spawn(async move { task.await?; Ok(()) }) } pub fn close_all_items( workspace: &mut Workspace, _: &CloseAllItems, cx: &mut ViewContext, ) -> Option>> { let pane_handle = workspace.active_pane().clone(); let task = Self::close_items(workspace, pane_handle, cx, move |_| true); Some(cx.foreground().spawn(async move { task.await?; Ok(()) })) } pub fn close_items( workspace: &mut Workspace, pane: ViewHandle, cx: &mut ViewContext, should_close: impl 'static + Fn(usize) -> bool, ) -> Task> { let project = workspace.project().clone(); // Find the items to close. let mut items_to_close = Vec::new(); for item in &pane.read(cx).items { if should_close(item.id()) { items_to_close.push(item.boxed_clone()); } } // If a buffer is open both in a singleton editor and in a multibuffer, make sure // to focus the singleton buffer when prompting to save that buffer, as opposed // to focusing the multibuffer, because this gives the user a more clear idea // of what content they would be saving. items_to_close.sort_by_key(|item| !item.is_singleton(cx)); let pane = pane.downgrade(); cx.spawn(|workspace, mut cx| async move { let mut saved_project_items_ids = HashSet::default(); for item in items_to_close.clone() { // Find the item's current index and its set of project item models. Avoid // storing these in advance, in case they have changed since this task // was started. let (item_ix, mut project_item_ids) = pane.read_with(&cx, |pane, cx| { (pane.index_for_item(&*item), item.project_item_model_ids(cx)) })?; let item_ix = if let Some(ix) = item_ix { ix } else { continue; }; // Check if this view has any project items that are not open anywhere else // in the workspace, AND that the user has not already been prompted to save. // If there are any such project entries, prompt the user to save this item. workspace.read_with(&cx, |workspace, cx| { for item in workspace.items(cx) { if !items_to_close .iter() .any(|item_to_close| item_to_close.id() == item.id()) { let other_project_item_ids = item.project_item_model_ids(cx); project_item_ids.retain(|id| !other_project_item_ids.contains(id)); } } })?; let should_save = project_item_ids .iter() .any(|id| saved_project_items_ids.insert(*id)); if should_save && !Self::save_item(project.clone(), &pane, item_ix, &*item, true, &mut cx) .await? { break; } // Remove the item from the pane. pane.update(&mut cx, |pane, cx| { if let Some(item_ix) = pane.items.iter().position(|i| i.id() == item.id()) { pane.remove_item(item_ix, false, cx); } })?; } pane.update(&mut cx, |_, cx| cx.notify())?; Ok(()) }) } fn remove_item(&mut self, item_index: usize, activate_pane: bool, cx: &mut ViewContext) { self.activation_history .retain(|&history_entry| history_entry != self.items[item_index].id()); if item_index == self.active_item_index { let index_to_activate = self .activation_history .pop() .and_then(|last_activated_item| { self.items.iter().enumerate().find_map(|(index, item)| { (item.id() == last_activated_item).then_some(index) }) }) // We didn't have a valid activation history entry, so fallback // to activating the item to the left .unwrap_or_else(|| item_index.min(self.items.len()).saturating_sub(1)); self.activate_item(index_to_activate, activate_pane, activate_pane, cx); } let item = self.items.remove(item_index); cx.emit(Event::RemoveItem { item_id: item.id() }); if self.items.is_empty() { item.deactivated(cx); self.update_toolbar(cx); cx.emit(Event::Remove); } if item_index < self.active_item_index { self.active_item_index -= 1; } self.nav_history .borrow_mut() .set_mode(NavigationMode::ClosingItem); item.deactivated(cx); self.nav_history .borrow_mut() .set_mode(NavigationMode::Normal); if let Some(path) = item.project_path(cx) { self.nav_history .borrow_mut() .paths_by_item .insert(item.id(), path); } else { self.nav_history .borrow_mut() .paths_by_item .remove(&item.id()); } cx.notify(); } pub async fn save_item( project: ModelHandle, pane: &WeakViewHandle, item_ix: usize, item: &dyn ItemHandle, should_prompt_for_save: bool, cx: &mut AsyncAppContext, ) -> Result { const CONFLICT_MESSAGE: &str = "This file has changed on disk since you started editing it. Do you want to overwrite it?"; const DIRTY_MESSAGE: &str = "This file contains unsaved edits. Do you want to save it?"; let (has_conflict, is_dirty, can_save, is_singleton) = cx.read(|cx| { ( item.has_conflict(cx), item.is_dirty(cx), item.can_save(cx), item.is_singleton(cx), ) }); if has_conflict && can_save { let mut answer = pane.update(cx, |pane, cx| { pane.activate_item(item_ix, true, true, cx); cx.prompt( PromptLevel::Warning, CONFLICT_MESSAGE, &["Overwrite", "Discard", "Cancel"], ) })?; match answer.next().await { Some(0) => pane.update(cx, |_, cx| item.save(project, cx))?.await?, Some(1) => pane.update(cx, |_, cx| item.reload(project, cx))?.await?, _ => return Ok(false), } } else if is_dirty && (can_save || is_singleton) { let will_autosave = cx.read(|cx| { matches!( cx.global::().autosave, Autosave::OnFocusChange | Autosave::OnWindowChange ) && Self::can_autosave_item(&*item, cx) }); let should_save = if should_prompt_for_save && !will_autosave { let mut answer = pane.update(cx, |pane, cx| { pane.activate_item(item_ix, true, true, cx); cx.prompt( PromptLevel::Warning, DIRTY_MESSAGE, &["Save", "Don't Save", "Cancel"], ) })?; match answer.next().await { Some(0) => true, Some(1) => false, _ => return Ok(false), } } else { true }; if should_save { if can_save { pane.update(cx, |_, cx| item.save(project, cx))?.await?; } else if is_singleton { let start_abs_path = project .read_with(cx, |project, cx| { let worktree = project.visible_worktrees(cx).next()?; Some(worktree.read(cx).as_local()?.abs_path().to_path_buf()) }) .unwrap_or_else(|| Path::new("").into()); let mut abs_path = cx.update(|cx| cx.prompt_for_new_path(&start_abs_path)); if let Some(abs_path) = abs_path.next().await.flatten() { pane.update(cx, |_, cx| item.save_as(project, abs_path, cx))? .await?; } else { return Ok(false); } } } } Ok(true) } fn can_autosave_item(item: &dyn ItemHandle, cx: &AppContext) -> bool { let is_deleted = item.project_entry_ids(cx).is_empty(); item.is_dirty(cx) && !item.has_conflict(cx) && item.can_save(cx) && !is_deleted } pub fn autosave_item( item: &dyn ItemHandle, project: ModelHandle, cx: &mut WindowContext, ) -> Task> { if Self::can_autosave_item(item, cx) { item.save(project, cx) } else { Task::ready(Ok(())) } } pub fn focus_active_item(&mut self, cx: &mut ViewContext) { if let Some(active_item) = self.active_item() { cx.focus(active_item.as_any()); } } pub fn move_item( workspace: &mut Workspace, from: ViewHandle, to: ViewHandle, item_id_to_move: usize, destination_index: usize, cx: &mut ViewContext, ) { let item_to_move = from .read(cx) .items() .enumerate() .find(|(_, item_handle)| item_handle.id() == item_id_to_move); if item_to_move.is_none() { log::warn!("Tried to move item handle which was not in `from` pane. Maybe tab was closed during drop"); return; } let (item_ix, item_handle) = item_to_move.unwrap(); let item_handle = item_handle.clone(); if from != to { // Close item from previous pane from.update(cx, |from, cx| { from.remove_item(item_ix, false, cx); }); } // This automatically removes duplicate items in the pane Pane::add_item( workspace, &to, item_handle, true, true, Some(destination_index), cx, ); cx.focus(&to); } pub fn split(&mut self, direction: SplitDirection, cx: &mut ViewContext) { cx.emit(Event::Split(direction)); } fn deploy_split_menu(&mut self, cx: &mut ViewContext) { self.tab_bar_context_menu.handle.update(cx, |menu, cx| { menu.show( Default::default(), AnchorCorner::TopRight, vec![ ContextMenuItem::action("Split Right", SplitRight), ContextMenuItem::action("Split Left", SplitLeft), ContextMenuItem::action("Split Up", SplitUp), ContextMenuItem::action("Split Down", SplitDown), ], cx, ); }); self.tab_bar_context_menu.kind = TabBarContextMenuKind::Split; } fn deploy_dock_menu(&mut self, cx: &mut ViewContext) { self.tab_bar_context_menu.handle.update(cx, |menu, cx| { menu.show( Default::default(), AnchorCorner::TopRight, vec![ ContextMenuItem::action("Anchor Dock Right", AnchorDockRight), ContextMenuItem::action("Anchor Dock Bottom", AnchorDockBottom), ContextMenuItem::action("Expand Dock", ExpandDock), ], cx, ); }); self.tab_bar_context_menu.kind = TabBarContextMenuKind::Dock; } fn deploy_new_menu(&mut self, cx: &mut ViewContext) { self.tab_bar_context_menu.handle.update(cx, |menu, cx| { menu.show( Default::default(), AnchorCorner::TopRight, vec![ ContextMenuItem::action("New File", NewFile), ContextMenuItem::action("New Terminal", NewTerminal), ContextMenuItem::action("New Search", NewSearch), ], cx, ); }); self.tab_bar_context_menu.kind = TabBarContextMenuKind::New; } fn deploy_tab_context_menu( &mut self, position: Vector2F, target_item_id: usize, cx: &mut ViewContext, ) { let active_item_id = self.items[self.active_item_index].id(); let is_active_item = target_item_id == active_item_id; let target_pane = cx.weak_handle(); // The `CloseInactiveItems` action should really be called "CloseOthers" and the behaviour should be dynamically based on the tab the action is ran on. Currenlty, this is a weird action because you can run it on a non-active tab and it will close everything by the actual active tab self.tab_context_menu.update(cx, |menu, cx| { menu.show( position, AnchorCorner::TopLeft, if is_active_item { vec![ ContextMenuItem::action("Close Active Item", CloseActiveItem), ContextMenuItem::action("Close Inactive Items", CloseInactiveItems), ContextMenuItem::action("Close Clean Items", CloseCleanItems), ContextMenuItem::action("Close Items To The Left", CloseItemsToTheLeft), ContextMenuItem::action("Close Items To The Right", CloseItemsToTheRight), ContextMenuItem::action("Close All Items", CloseAllItems), ] } else { // In the case of the user right clicking on a non-active tab, for some item-closing commands, we need to provide the id of the tab, for the others, we can reuse the existing command. vec![ ContextMenuItem::handler("Close Inactive Item", { let workspace = self.workspace.clone(); let pane = target_pane.clone(); move |cx| { if let Some((workspace, pane)) = workspace.upgrade(cx).zip(pane.upgrade(cx)) { workspace.update(cx, |workspace, cx| { Self::close_item_by_id(workspace, pane, target_item_id, cx) .detach_and_log_err(cx); }) } } }), ContextMenuItem::action("Close Inactive Items", CloseInactiveItems), ContextMenuItem::action("Close Clean Items", CloseCleanItems), ContextMenuItem::handler("Close Items To The Left", { let workspace = self.workspace.clone(); let pane = target_pane.clone(); move |cx| { if let Some((workspace, pane)) = workspace.upgrade(cx).zip(pane.upgrade(cx)) { workspace.update(cx, |workspace, cx| { Self::close_items_to_the_left_by_id( workspace, pane, target_item_id, cx, ) .detach_and_log_err(cx); }) } } }), ContextMenuItem::handler("Close Items To The Right", { let workspace = self.workspace.clone(); let pane = target_pane.clone(); move |cx| { if let Some((workspace, pane)) = workspace.upgrade(cx).zip(pane.upgrade(cx)) { workspace.update(cx, |workspace, cx| { Self::close_items_to_the_right_by_id( workspace, pane, target_item_id, cx, ) .detach_and_log_err(cx); }) } } }), ContextMenuItem::action("Close All Items", CloseAllItems), ] }, cx, ); }); } pub fn toolbar(&self) -> &ViewHandle { &self.toolbar } fn update_toolbar(&mut self, cx: &mut ViewContext) { let active_item = self .items .get(self.active_item_index) .map(|item| item.as_ref()); self.toolbar.update(cx, |toolbar, cx| { toolbar.set_active_pane_item(active_item, cx); }); } fn render_tabs(&mut self, cx: &mut ViewContext) -> impl Element { let theme = cx.global::().theme.clone(); let pane = cx.handle().downgrade(); let autoscroll = if mem::take(&mut self.autoscroll) { Some(self.active_item_index) } else { None }; let pane_active = self.is_active; enum Tabs {} let mut row = Flex::row().scrollable::(1, autoscroll, cx); for (ix, (item, detail)) in self .items .iter() .cloned() .zip(self.tab_details(cx)) .enumerate() { let detail = if detail == 0 { None } else { Some(detail) }; let tab_active = ix == self.active_item_index; row.add_child({ enum TabDragReceiver {} let mut receiver = dragged_item_receiver::(ix, ix, true, None, cx, { let item = item.clone(); let pane = pane.clone(); let detail = detail.clone(); let theme = cx.global::().theme.clone(); let mut tooltip_theme = theme.tooltip.clone(); tooltip_theme.max_text_width = None; let tab_tooltip_text = item.tab_tooltip_text(cx).map(|a| a.to_string()); move |mouse_state, cx| { let tab_style = theme.workspace.tab_bar.tab_style(pane_active, tab_active); let hovered = mouse_state.hovered(); enum Tab {} let mouse_event_handler = MouseEventHandler::::new(ix, cx, |_, cx| { Self::render_tab( &item, pane.clone(), ix == 0, detail, hovered, tab_style, cx, ) }) .on_down(MouseButton::Left, move |_, this, cx| { this.activate_item(ix, true, true, cx); }) .on_click(MouseButton::Middle, { let item_id = item.id(); move |_, pane, cx| { let workspace = pane.workspace.clone(); let pane = cx.weak_handle(); cx.window_context().defer(move |cx| { if let Some((workspace, pane)) = workspace.upgrade(cx).zip(pane.upgrade(cx)) { workspace.update(cx, |workspace, cx| { Self::close_item_by_id( workspace, pane, item_id, cx, ) .detach_and_log_err(cx); }); } }); } }) .on_down( MouseButton::Right, move |event, pane, cx| { pane.deploy_tab_context_menu(event.position, item.id(), cx); }, ); if let Some(tab_tooltip_text) = tab_tooltip_text { mouse_event_handler .with_tooltip::( ix, tab_tooltip_text, None, tooltip_theme, cx, ) .into_any() } else { mouse_event_handler.into_any() } } }); if !pane_active || !tab_active { receiver = receiver.with_cursor_style(CursorStyle::PointingHand); } receiver.as_draggable( DraggedItem { item, pane: pane.clone(), }, { let theme = cx.global::().theme.clone(); let detail = detail.clone(); move |dragged_item: &DraggedItem, cx: &mut ViewContext| { let tab_style = &theme.workspace.tab_bar.dragged_tab; Self::render_dragged_tab( &dragged_item.item, dragged_item.pane.clone(), false, detail, false, &tab_style, cx, ) } }, ) }) } // Use the inactive tab style along with the current pane's active status to decide how to render // the filler let filler_index = self.items.len(); let filler_style = theme.workspace.tab_bar.tab_style(pane_active, false); enum Filler {} row.add_child( dragged_item_receiver::(0, filler_index, true, None, cx, |_, _| { Empty::new() .contained() .with_style(filler_style.container) .with_border(filler_style.container.border) }) .flex(1., true) .into_any_named("filler"), ); row } fn tab_details(&self, cx: &AppContext) -> Vec { let mut tab_details = (0..self.items.len()).map(|_| 0).collect::>(); let mut tab_descriptions = HashMap::default(); let mut done = false; while !done { done = true; // Store item indices by their tab description. for (ix, (item, detail)) in self.items.iter().zip(&tab_details).enumerate() { if let Some(description) = item.tab_description(*detail, cx) { if *detail == 0 || Some(&description) != item.tab_description(detail - 1, cx).as_ref() { tab_descriptions .entry(description) .or_insert(Vec::new()) .push(ix); } } } // If two or more items have the same tab description, increase their level // of detail and try again. for (_, item_ixs) in tab_descriptions.drain() { if item_ixs.len() > 1 { done = false; for ix in item_ixs { tab_details[ix] += 1; } } } } tab_details } fn render_tab( item: &Box, pane: WeakViewHandle, first: bool, detail: Option, hovered: bool, tab_style: &theme::Tab, cx: &mut ViewContext, ) -> AnyElement { let title = item.tab_content(detail, &tab_style, cx); Self::render_tab_with_title(title, item, pane, first, hovered, tab_style, cx) } fn render_dragged_tab( item: &Box, pane: WeakViewHandle, first: bool, detail: Option, hovered: bool, tab_style: &theme::Tab, cx: &mut ViewContext, ) -> AnyElement { let title = item.dragged_tab_content(detail, &tab_style, cx); Self::render_tab_with_title(title, item, pane, first, hovered, tab_style, cx) } fn render_tab_with_title( title: AnyElement, item: &Box, pane: WeakViewHandle, first: bool, hovered: bool, tab_style: &theme::Tab, cx: &mut ViewContext, ) -> AnyElement { let mut container = tab_style.container.clone(); if first { container.border.left = false; } Flex::row() .with_child({ let diameter = 7.0; let icon_color = if item.has_conflict(cx) { Some(tab_style.icon_conflict) } else if item.is_dirty(cx) { Some(tab_style.icon_dirty) } else { None }; Canvas::new(move |scene, bounds, _, _, _| { if let Some(color) = icon_color { let square = RectF::new(bounds.origin(), vec2f(diameter, diameter)); scene.push_quad(Quad { bounds: square, background: Some(color), border: Default::default(), corner_radius: diameter / 2., }); } }) .constrained() .with_width(diameter) .with_height(diameter) .aligned() }) .with_child(title.aligned().contained().with_style(ContainerStyle { margin: Margin { left: tab_style.spacing, right: tab_style.spacing, ..Default::default() }, ..Default::default() })) .with_child( if hovered { let item_id = item.id(); enum TabCloseButton {} let icon = Svg::new("icons/x_mark_8.svg"); MouseEventHandler::::new(item_id, cx, |mouse_state, _| { if mouse_state.hovered() { icon.with_color(tab_style.icon_close_active) } else { icon.with_color(tab_style.icon_close) } }) .with_padding(Padding::uniform(4.)) .with_cursor_style(CursorStyle::PointingHand) .on_click(MouseButton::Left, { let pane = pane.clone(); move |_, _, cx| { let pane = pane.clone(); cx.window_context().defer(move |cx| { if let Some(pane) = pane.upgrade(cx) { if let Some(workspace) = pane.read(cx).workspace.upgrade(cx) { workspace.update(cx, |workspace, cx| { Self::close_item_by_id(workspace, pane, item_id, cx) .detach_and_log_err(cx); }); } } }); } }) .into_any_named("close-tab-icon") .constrained() } else { Empty::new().constrained() } .with_width(tab_style.close_icon_width) .aligned(), ) .contained() .with_style(container) .constrained() .with_height(tab_style.height) .into_any() } fn render_tab_bar_buttons( &mut self, theme: &Theme, cx: &mut ViewContext, ) -> AnyElement { Flex::row() // New menu .with_child(render_tab_bar_button( 0, "icons/plus_12.svg", cx, |pane, cx| pane.deploy_new_menu(cx), self.tab_bar_context_menu .handle_if_kind(TabBarContextMenuKind::New), )) .with_child( self.docked .map(|anchor| { // Add the dock menu button if this pane is a dock let dock_icon = icon_for_dock_anchor(anchor); render_tab_bar_button( 1, dock_icon, cx, |pane, cx| pane.deploy_dock_menu(cx), self.tab_bar_context_menu .handle_if_kind(TabBarContextMenuKind::Dock), ) }) .unwrap_or_else(|| { // Add the split menu if this pane is not a dock render_tab_bar_button( 2, "icons/split_12.svg", cx, |pane, cx| pane.deploy_split_menu(cx), self.tab_bar_context_menu .handle_if_kind(TabBarContextMenuKind::Split), ) }), ) // Add the close dock button if this pane is a dock .with_children(self.docked.map(|_| { render_tab_bar_button( 3, "icons/x_mark_8.svg", cx, |this, cx| { if let Some(workspace) = this.workspace.upgrade(cx) { cx.window_context().defer(move |cx| { workspace.update(cx, |workspace, cx| { Dock::hide_dock(workspace, &Default::default(), cx) }) }); } }, None, ) })) .contained() .with_style(theme.workspace.tab_bar.pane_button_container) .flex(1., false) .into_any() } fn render_blank_pane( &mut self, theme: &Theme, _cx: &mut ViewContext, ) -> AnyElement { let background = theme.workspace.background; Empty::new() .contained() .with_background_color(background) .into_any() } } impl Entity for Pane { type Event = Event; } impl View for Pane { fn ui_name() -> &'static str { "Pane" } fn render(&mut self, cx: &mut ViewContext) -> AnyElement { enum MouseNavigationHandler {} MouseEventHandler::::new(0, cx, |_, cx| { let active_item_index = self.active_item_index; if let Some(active_item) = self.active_item() { Flex::column() .with_child({ let theme = cx.global::().theme.clone(); let mut stack = Stack::new(); enum TabBarEventHandler {} stack.add_child( MouseEventHandler::::new(0, cx, |_, _| { Empty::new() .contained() .with_style(theme.workspace.tab_bar.container) }) .on_down( MouseButton::Left, move |_, this, cx| { this.activate_item(active_item_index, true, true, cx); }, ), ); let mut tab_row = Flex::row() .with_child(self.render_tabs(cx).flex(1., true).into_any_named("tabs")); if self.is_active { tab_row.add_child(self.render_tab_bar_buttons(&theme, cx)) } stack.add_child(tab_row); stack .constrained() .with_height(theme.workspace.tab_bar.height) .flex(1., false) .into_any_named("tab bar") }) .with_child({ enum PaneContentTabDropTarget {} dragged_item_receiver::( 0, self.active_item_index + 1, false, if self.docked.is_some() { None } else { Some(100.) }, cx, { let toolbar = self.toolbar.clone(); let toolbar_hidden = toolbar.read(cx).hidden(); move |_, cx| { Flex::column() .with_children( (!toolbar_hidden) .then(|| ChildView::new(&toolbar, cx).expanded()), ) .with_child( ChildView::new(active_item.as_any(), cx).flex(1., true), ) } }, ) .flex(1., true) }) .with_child(ChildView::new(&self.tab_context_menu, cx)) .into_any() } else { enum EmptyPane {} let theme = cx.global::().theme.clone(); dragged_item_receiver::(0, 0, false, None, cx, |_, cx| { self.render_blank_pane(&theme, cx) }) .on_down(MouseButton::Left, |_, _, cx| { cx.focus_parent_view(); }) .into_any() } }) .on_down( MouseButton::Navigate(NavigationDirection::Back), move |_, pane, cx| { if let Some(workspace) = pane.workspace.upgrade(cx) { let pane = cx.weak_handle(); cx.window_context().defer(move |cx| { workspace.update(cx, |workspace, cx| { Pane::go_back(workspace, Some(pane), cx).detach_and_log_err(cx) }) }) } }, ) .on_down(MouseButton::Navigate(NavigationDirection::Forward), { move |_, pane, cx| { if let Some(workspace) = pane.workspace.upgrade(cx) { let pane = cx.weak_handle(); cx.window_context().defer(move |cx| { workspace.update(cx, |workspace, cx| { Pane::go_forward(workspace, Some(pane), cx).detach_and_log_err(cx) }) }) } } }) .into_any_named("pane") } fn focus_in(&mut self, focused: AnyViewHandle, cx: &mut ViewContext) { self.toolbar.update(cx, |toolbar, cx| { toolbar.pane_focus_update(true, cx); }); if let Some(active_item) = self.active_item() { if cx.is_self_focused() { // Pane was focused directly. We need to either focus a view inside the active item, // or focus the active item itself if let Some(weak_last_focused_view) = self.last_focused_view_by_item.get(&active_item.id()) { if let Some(last_focused_view) = weak_last_focused_view.upgrade(cx) { cx.focus(&last_focused_view); return; } else { self.last_focused_view_by_item.remove(&active_item.id()); } } cx.focus(active_item.as_any()); } else if focused != self.tab_bar_context_menu.handle { self.last_focused_view_by_item .insert(active_item.id(), focused.downgrade()); } } } fn focus_out(&mut self, _: AnyViewHandle, cx: &mut ViewContext) { self.toolbar.update(cx, |toolbar, cx| { toolbar.pane_focus_update(false, cx); }); } fn keymap_context(&self, _: &AppContext) -> KeymapContext { let mut keymap = Self::default_keymap_context(); if self.docked.is_some() { keymap.add_identifier("docked"); } keymap } } fn render_tab_bar_button)>( index: usize, icon: &'static str, cx: &mut ViewContext, on_click: F, context_menu: Option>, ) -> AnyElement { enum TabBarButton {} Stack::new() .with_child( MouseEventHandler::::new(index, cx, |mouse_state, cx| { let theme = &cx.global::().theme.workspace.tab_bar; let style = theme.pane_button.style_for(mouse_state, false); Svg::new(icon) .with_color(style.color) .constrained() .with_width(style.icon_width) .aligned() .constrained() .with_width(style.button_width) .with_height(style.button_width) }) .with_cursor_style(CursorStyle::PointingHand) .on_click(MouseButton::Left, move |_, pane, cx| on_click(pane, cx)), ) .with_children( context_menu.map(|menu| ChildView::new(&menu, cx).aligned().bottom().right()), ) .flex(1., false) .into_any_named("tab bar button") } impl ItemNavHistory { pub fn push(&self, data: Option, cx: &mut WindowContext) { self.history.borrow_mut().push(data, self.item.clone(), cx); } pub fn pop_backward(&self, cx: &mut WindowContext) -> Option { self.history.borrow_mut().pop(NavigationMode::GoingBack, cx) } pub fn pop_forward(&self, cx: &mut WindowContext) -> Option { self.history .borrow_mut() .pop(NavigationMode::GoingForward, cx) } } impl NavHistory { fn set_mode(&mut self, mode: NavigationMode) { self.mode = mode; } fn disable(&mut self) { self.mode = NavigationMode::Disabled; } fn enable(&mut self) { self.mode = NavigationMode::Normal; } fn pop(&mut self, mode: NavigationMode, cx: &mut WindowContext) -> Option { let entry = match mode { NavigationMode::Normal | NavigationMode::Disabled | NavigationMode::ClosingItem => { return None } NavigationMode::GoingBack => &mut self.backward_stack, NavigationMode::GoingForward => &mut self.forward_stack, NavigationMode::ReopeningClosedItem => &mut self.closed_stack, } .pop_back(); if entry.is_some() { self.did_update(cx); } entry } fn push( &mut self, data: Option, item: Rc, cx: &mut WindowContext, ) { match self.mode { NavigationMode::Disabled => {} NavigationMode::Normal | NavigationMode::ReopeningClosedItem => { if self.backward_stack.len() >= MAX_NAVIGATION_HISTORY_LEN { self.backward_stack.pop_front(); } self.backward_stack.push_back(NavigationEntry { item, data: data.map(|data| Box::new(data) as Box), }); self.forward_stack.clear(); } NavigationMode::GoingBack => { if self.forward_stack.len() >= MAX_NAVIGATION_HISTORY_LEN { self.forward_stack.pop_front(); } self.forward_stack.push_back(NavigationEntry { item, data: data.map(|data| Box::new(data) as Box), }); } NavigationMode::GoingForward => { if self.backward_stack.len() >= MAX_NAVIGATION_HISTORY_LEN { self.backward_stack.pop_front(); } self.backward_stack.push_back(NavigationEntry { item, data: data.map(|data| Box::new(data) as Box), }); } NavigationMode::ClosingItem => { if self.closed_stack.len() >= MAX_NAVIGATION_HISTORY_LEN { self.closed_stack.pop_front(); } self.closed_stack.push_back(NavigationEntry { item, data: data.map(|data| Box::new(data) as Box), }); } } self.did_update(cx); } fn did_update(&self, cx: &mut WindowContext) { if let Some(pane) = self.pane.upgrade(cx) { cx.defer(move |cx| { pane.update(cx, |pane, cx| pane.history_updated(cx)); }); } } } pub struct PaneBackdrop { child_view: usize, child: AnyElement, } impl PaneBackdrop { pub fn new(pane_item_view: usize, child: AnyElement) -> Self { PaneBackdrop { child, child_view: pane_item_view, } } } impl Element for PaneBackdrop { type LayoutState = (); type PaintState = (); fn layout( &mut self, constraint: gpui::SizeConstraint, view: &mut V, cx: &mut ViewContext, ) -> (Vector2F, Self::LayoutState) { let size = self.child.layout(constraint, view, cx); (size, ()) } fn paint( &mut self, scene: &mut gpui::SceneBuilder, bounds: RectF, visible_bounds: RectF, _: &mut Self::LayoutState, view: &mut V, cx: &mut ViewContext, ) -> Self::PaintState { let background = cx.global::().theme.editor.background; let visible_bounds = bounds.intersection(visible_bounds).unwrap_or_default(); scene.push_quad(gpui::Quad { bounds: RectF::new(bounds.origin(), bounds.size()), background: Some(background), ..Default::default() }); let child_view_id = self.child_view; scene.push_mouse_region( MouseRegion::new::(child_view_id, 0, visible_bounds).on_down( gpui::platform::MouseButton::Left, move |_, _: &mut V, cx| { let window_id = cx.window_id(); cx.app_context().focus(window_id, Some(child_view_id)) }, ), ); scene.paint_layer(Some(bounds), |scene| { self.child .paint(scene, bounds.origin(), visible_bounds, view, cx) }) } fn rect_for_text_range( &self, range_utf16: std::ops::Range, _bounds: RectF, _visible_bounds: RectF, _layout: &Self::LayoutState, _paint: &Self::PaintState, view: &V, cx: &gpui::ViewContext, ) -> Option { self.child.rect_for_text_range(range_utf16, view, cx) } fn debug( &self, _bounds: RectF, _layout: &Self::LayoutState, _paint: &Self::PaintState, view: &V, cx: &gpui::ViewContext, ) -> serde_json::Value { gpui::json::json!({ "type": "Pane Back Drop", "view": self.child_view, "child": self.child.debug(view, cx), }) } } #[cfg(test)] mod tests { use std::sync::Arc; use super::*; use crate::item::test::{TestItem, TestProjectItem}; use gpui::{executor::Deterministic, TestAppContext}; use project::FakeFs; #[gpui::test] async fn test_remove_active_empty(cx: &mut TestAppContext) { Settings::test_async(cx); let fs = FakeFs::new(cx.background()); let project = Project::test(fs, None, cx).await; let (_, workspace) = cx.add_window(|cx| Workspace::test_new(project.clone(), cx)); workspace.update(cx, |workspace, cx| { assert!(Pane::close_active_item(workspace, &CloseActiveItem, cx).is_none()) }); } #[gpui::test] async fn test_add_item_with_new_item(cx: &mut TestAppContext) { cx.foreground().forbid_parking(); Settings::test_async(cx); let fs = FakeFs::new(cx.background()); let project = Project::test(fs, None, cx).await; let (_, workspace) = cx.add_window(|cx| Workspace::test_new(project.clone(), cx)); let pane = workspace.read_with(cx, |workspace, _| workspace.active_pane().clone()); // 1. Add with a destination index // a. Add before the active item set_labeled_items(&workspace, &pane, ["A", "B*", "C"], cx); workspace.update(cx, |workspace, cx| { Pane::add_item( workspace, &pane, Box::new(cx.add_view(|_| TestItem::new().with_label("D"))), false, false, Some(0), cx, ); }); assert_item_labels(&pane, ["D*", "A", "B", "C"], cx); // b. Add after the active item set_labeled_items(&workspace, &pane, ["A", "B*", "C"], cx); workspace.update(cx, |workspace, cx| { Pane::add_item( workspace, &pane, Box::new(cx.add_view(|_| TestItem::new().with_label("D"))), false, false, Some(2), cx, ); }); assert_item_labels(&pane, ["A", "B", "D*", "C"], cx); // c. Add at the end of the item list (including off the length) set_labeled_items(&workspace, &pane, ["A", "B*", "C"], cx); workspace.update(cx, |workspace, cx| { Pane::add_item( workspace, &pane, Box::new(cx.add_view(|_| TestItem::new().with_label("D"))), false, false, Some(5), cx, ); }); assert_item_labels(&pane, ["A", "B", "C", "D*"], cx); // 2. Add without a destination index // a. Add with active item at the start of the item list set_labeled_items(&workspace, &pane, ["A*", "B", "C"], cx); workspace.update(cx, |workspace, cx| { Pane::add_item( workspace, &pane, Box::new(cx.add_view(|_| TestItem::new().with_label("D"))), false, false, None, cx, ); }); set_labeled_items(&workspace, &pane, ["A", "D*", "B", "C"], cx); // b. Add with active item at the end of the item list set_labeled_items(&workspace, &pane, ["A", "B", "C*"], cx); workspace.update(cx, |workspace, cx| { Pane::add_item( workspace, &pane, Box::new(cx.add_view(|_| TestItem::new().with_label("D"))), false, false, None, cx, ); }); assert_item_labels(&pane, ["A", "B", "C", "D*"], cx); } #[gpui::test] async fn test_add_item_with_existing_item(cx: &mut TestAppContext) { cx.foreground().forbid_parking(); Settings::test_async(cx); let fs = FakeFs::new(cx.background()); let project = Project::test(fs, None, cx).await; let (_, workspace) = cx.add_window(|cx| Workspace::test_new(project.clone(), cx)); let pane = workspace.read_with(cx, |workspace, _| workspace.active_pane().clone()); // 1. Add with a destination index // 1a. Add before the active item let [_, _, _, d] = set_labeled_items(&workspace, &pane, ["A", "B*", "C", "D"], cx); workspace.update(cx, |workspace, cx| { Pane::add_item(workspace, &pane, d, false, false, Some(0), cx); }); assert_item_labels(&pane, ["D*", "A", "B", "C"], cx); // 1b. Add after the active item let [_, _, _, d] = set_labeled_items(&workspace, &pane, ["A", "B*", "C", "D"], cx); workspace.update(cx, |workspace, cx| { Pane::add_item(workspace, &pane, d, false, false, Some(2), cx); }); assert_item_labels(&pane, ["A", "B", "D*", "C"], cx); // 1c. Add at the end of the item list (including off the length) let [a, _, _, _] = set_labeled_items(&workspace, &pane, ["A", "B*", "C", "D"], cx); workspace.update(cx, |workspace, cx| { Pane::add_item(workspace, &pane, a, false, false, Some(5), cx); }); assert_item_labels(&pane, ["B", "C", "D", "A*"], cx); // 1d. Add same item to active index let [_, b, _] = set_labeled_items(&workspace, &pane, ["A", "B*", "C"], cx); workspace.update(cx, |workspace, cx| { Pane::add_item(workspace, &pane, b, false, false, Some(1), cx); }); assert_item_labels(&pane, ["A", "B*", "C"], cx); // 1e. Add item to index after same item in last position let [_, _, c] = set_labeled_items(&workspace, &pane, ["A", "B*", "C"], cx); workspace.update(cx, |workspace, cx| { Pane::add_item(workspace, &pane, c, false, false, Some(2), cx); }); assert_item_labels(&pane, ["A", "B", "C*"], cx); // 2. Add without a destination index // 2a. Add with active item at the start of the item list let [_, _, _, d] = set_labeled_items(&workspace, &pane, ["A*", "B", "C", "D"], cx); workspace.update(cx, |workspace, cx| { Pane::add_item(workspace, &pane, d, false, false, None, cx); }); assert_item_labels(&pane, ["A", "D*", "B", "C"], cx); // 2b. Add with active item at the end of the item list let [a, _, _, _] = set_labeled_items(&workspace, &pane, ["A", "B", "C", "D*"], cx); workspace.update(cx, |workspace, cx| { Pane::add_item(workspace, &pane, a, false, false, None, cx); }); assert_item_labels(&pane, ["B", "C", "D", "A*"], cx); // 2c. Add active item to active item at end of list let [_, _, c] = set_labeled_items(&workspace, &pane, ["A", "B", "C*"], cx); workspace.update(cx, |workspace, cx| { Pane::add_item(workspace, &pane, c, false, false, None, cx); }); assert_item_labels(&pane, ["A", "B", "C*"], cx); // 2d. Add active item to active item at start of list let [a, _, _] = set_labeled_items(&workspace, &pane, ["A*", "B", "C"], cx); workspace.update(cx, |workspace, cx| { Pane::add_item(workspace, &pane, a, false, false, None, cx); }); assert_item_labels(&pane, ["A*", "B", "C"], cx); } #[gpui::test] async fn test_add_item_with_same_project_entries(cx: &mut TestAppContext) { cx.foreground().forbid_parking(); Settings::test_async(cx); let fs = FakeFs::new(cx.background()); let project = Project::test(fs, None, cx).await; let (_, workspace) = cx.add_window(|cx| Workspace::test_new(project.clone(), cx)); let pane = workspace.read_with(cx, |workspace, _| workspace.active_pane().clone()); // singleton view workspace.update(cx, |workspace, cx| { let item = TestItem::new() .with_singleton(true) .with_label("buffer 1") .with_project_items(&[TestProjectItem::new(1, "one.txt", cx)]); Pane::add_item( workspace, &pane, Box::new(cx.add_view(|_| item)), false, false, None, cx, ); }); assert_item_labels(&pane, ["buffer 1*"], cx); // new singleton view with the same project entry workspace.update(cx, |workspace, cx| { let item = TestItem::new() .with_singleton(true) .with_label("buffer 1") .with_project_items(&[TestProjectItem::new(1, "1.txt", cx)]); Pane::add_item( workspace, &pane, Box::new(cx.add_view(|_| item)), false, false, None, cx, ); }); assert_item_labels(&pane, ["buffer 1*"], cx); // new singleton view with different project entry workspace.update(cx, |workspace, cx| { let item = TestItem::new() .with_singleton(true) .with_label("buffer 2") .with_project_items(&[TestProjectItem::new(2, "2.txt", cx)]); Pane::add_item( workspace, &pane, Box::new(cx.add_view(|_| item)), false, false, None, cx, ); }); assert_item_labels(&pane, ["buffer 1", "buffer 2*"], cx); // new multibuffer view with the same project entry workspace.update(cx, |workspace, cx| { let item = TestItem::new() .with_singleton(false) .with_label("multibuffer 1") .with_project_items(&[TestProjectItem::new(1, "1.txt", cx)]); Pane::add_item( workspace, &pane, Box::new(cx.add_view(|_| item)), false, false, None, cx, ); }); assert_item_labels(&pane, ["buffer 1", "buffer 2", "multibuffer 1*"], cx); // another multibuffer view with the same project entry workspace.update(cx, |workspace, cx| { let item = TestItem::new() .with_singleton(false) .with_label("multibuffer 1b") .with_project_items(&[TestProjectItem::new(1, "1.txt", cx)]); Pane::add_item( workspace, &pane, Box::new(cx.add_view(|_| item)), false, false, None, cx, ); }); assert_item_labels( &pane, ["buffer 1", "buffer 2", "multibuffer 1", "multibuffer 1b*"], cx, ); } #[gpui::test] async fn test_remove_item_ordering(deterministic: Arc, cx: &mut TestAppContext) { Settings::test_async(cx); let fs = FakeFs::new(cx.background()); let project = Project::test(fs, None, cx).await; let (_, workspace) = cx.add_window(|cx| Workspace::test_new(project.clone(), cx)); let pane = workspace.read_with(cx, |workspace, _| workspace.active_pane().clone()); add_labeled_item(&workspace, &pane, "A", false, cx); add_labeled_item(&workspace, &pane, "B", false, cx); add_labeled_item(&workspace, &pane, "C", false, cx); add_labeled_item(&workspace, &pane, "D", false, cx); assert_item_labels(&pane, ["A", "B", "C", "D*"], cx); pane.update(cx, |pane, cx| pane.activate_item(1, false, false, cx)); add_labeled_item(&workspace, &pane, "1", false, cx); assert_item_labels(&pane, ["A", "B", "1*", "C", "D"], cx); workspace.update(cx, |workspace, cx| { Pane::close_active_item(workspace, &CloseActiveItem, cx); }); deterministic.run_until_parked(); assert_item_labels(&pane, ["A", "B*", "C", "D"], cx); pane.update(cx, |pane, cx| pane.activate_item(3, false, false, cx)); assert_item_labels(&pane, ["A", "B", "C", "D*"], cx); workspace.update(cx, |workspace, cx| { Pane::close_active_item(workspace, &CloseActiveItem, cx); }); deterministic.run_until_parked(); assert_item_labels(&pane, ["A", "B*", "C"], cx); workspace.update(cx, |workspace, cx| { Pane::close_active_item(workspace, &CloseActiveItem, cx); }); deterministic.run_until_parked(); assert_item_labels(&pane, ["A", "C*"], cx); workspace.update(cx, |workspace, cx| { Pane::close_active_item(workspace, &CloseActiveItem, cx); }); deterministic.run_until_parked(); assert_item_labels(&pane, ["A*"], cx); } #[gpui::test] async fn test_close_inactive_items(deterministic: Arc, cx: &mut TestAppContext) { Settings::test_async(cx); let fs = FakeFs::new(cx.background()); let project = Project::test(fs, None, cx).await; let (_, workspace) = cx.add_window(|cx| Workspace::test_new(project.clone(), cx)); let pane = workspace.read_with(cx, |workspace, _| workspace.active_pane().clone()); set_labeled_items(&workspace, &pane, ["A", "B", "C*", "D", "E"], cx); workspace.update(cx, |workspace, cx| { Pane::close_inactive_items(workspace, &CloseInactiveItems, cx); }); deterministic.run_until_parked(); assert_item_labels(&pane, ["C*"], cx); } #[gpui::test] async fn test_close_clean_items(deterministic: Arc, cx: &mut TestAppContext) { Settings::test_async(cx); let fs = FakeFs::new(cx.background()); let project = Project::test(fs, None, cx).await; let (_, workspace) = cx.add_window(|cx| Workspace::test_new(project.clone(), cx)); let pane = workspace.read_with(cx, |workspace, _| workspace.active_pane().clone()); add_labeled_item(&workspace, &pane, "A", true, cx); add_labeled_item(&workspace, &pane, "B", false, cx); add_labeled_item(&workspace, &pane, "C", true, cx); add_labeled_item(&workspace, &pane, "D", false, cx); add_labeled_item(&workspace, &pane, "E", false, cx); assert_item_labels(&pane, ["A^", "B", "C^", "D", "E*"], cx); workspace.update(cx, |workspace, cx| { Pane::close_clean_items(workspace, &CloseCleanItems, cx); }); deterministic.run_until_parked(); assert_item_labels(&pane, ["A^", "C*^"], cx); } #[gpui::test] async fn test_close_items_to_the_left( deterministic: Arc, cx: &mut TestAppContext, ) { Settings::test_async(cx); let fs = FakeFs::new(cx.background()); let project = Project::test(fs, None, cx).await; let (_, workspace) = cx.add_window(|cx| Workspace::test_new(project.clone(), cx)); let pane = workspace.read_with(cx, |workspace, _| workspace.active_pane().clone()); set_labeled_items(&workspace, &pane, ["A", "B", "C*", "D", "E"], cx); workspace.update(cx, |workspace, cx| { Pane::close_items_to_the_left(workspace, &CloseItemsToTheLeft, cx); }); deterministic.run_until_parked(); assert_item_labels(&pane, ["C*", "D", "E"], cx); } #[gpui::test] async fn test_close_items_to_the_right( deterministic: Arc, cx: &mut TestAppContext, ) { Settings::test_async(cx); let fs = FakeFs::new(cx.background()); let project = Project::test(fs, None, cx).await; let (_, workspace) = cx.add_window(|cx| Workspace::test_new(project.clone(), cx)); let pane = workspace.read_with(cx, |workspace, _| workspace.active_pane().clone()); set_labeled_items(&workspace, &pane, ["A", "B", "C*", "D", "E"], cx); workspace.update(cx, |workspace, cx| { Pane::close_items_to_the_right(workspace, &CloseItemsToTheRight, cx); }); deterministic.run_until_parked(); assert_item_labels(&pane, ["A", "B", "C*"], cx); } #[gpui::test] async fn test_close_all_items(deterministic: Arc, cx: &mut TestAppContext) { Settings::test_async(cx); let fs = FakeFs::new(cx.background()); let project = Project::test(fs, None, cx).await; let (_, workspace) = cx.add_window(|cx| Workspace::test_new(project.clone(), cx)); let pane = workspace.read_with(cx, |workspace, _| workspace.active_pane().clone()); add_labeled_item(&workspace, &pane, "A", false, cx); add_labeled_item(&workspace, &pane, "B", false, cx); add_labeled_item(&workspace, &pane, "C", false, cx); assert_item_labels(&pane, ["A", "B", "C*"], cx); workspace.update(cx, |workspace, cx| { Pane::close_all_items(workspace, &CloseAllItems, cx); }); deterministic.run_until_parked(); assert_item_labels(&pane, [], cx); } fn add_labeled_item( workspace: &ViewHandle, pane: &ViewHandle, label: &str, is_dirty: bool, cx: &mut TestAppContext, ) -> Box> { workspace.update(cx, |workspace, cx| { let labeled_item = Box::new(cx.add_view(|_| TestItem::new().with_label(label).with_dirty(is_dirty))); Pane::add_item( workspace, pane, labeled_item.clone(), false, false, None, cx, ); labeled_item }) } fn set_labeled_items( workspace: &ViewHandle, pane: &ViewHandle, labels: [&str; COUNT], cx: &mut TestAppContext, ) -> [Box>; COUNT] { pane.update(cx, |pane, _| { pane.items.clear(); }); workspace.update(cx, |workspace, cx| { let mut active_item_index = 0; let mut index = 0; let items = labels.map(|mut label| { if label.ends_with("*") { label = label.trim_end_matches("*"); active_item_index = index; } let labeled_item = Box::new(cx.add_view(|_| TestItem::new().with_label(label))); Pane::add_item( workspace, pane, labeled_item.clone(), false, false, None, cx, ); index += 1; labeled_item }); pane.update(cx, |pane, cx| { pane.activate_item(active_item_index, false, false, cx) }); items }) } // Assert the item label, with the active item label suffixed with a '*' fn assert_item_labels( pane: &ViewHandle, expected_states: [&str; COUNT], cx: &mut TestAppContext, ) { pane.read_with(cx, |pane, cx| { let actual_states = pane .items .iter() .enumerate() .map(|(ix, item)| { let mut state = item .as_any() .downcast_ref::() .unwrap() .read(cx) .label .clone(); if ix == pane.active_item_index { state.push('*'); } if item.is_dirty(cx) { state.push('^'); } state }) .collect::>(); assert_eq!( actual_states, expected_states, "pane items do not match expectation" ); }) } }