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ZIm/crates/editor/src/items.rs
Kirill Bulatov 5ff49db92f
Only show breadcrumbs for terminals when there's a title (#20997) 
Closes https://github.com/zed-industries/zed/issues/20475

Release Notes:

- Fixed terminal title and breadcrumbs behavior

---------

Co-authored-by: Thorsten Ball <thorsten@zed.dev>
2024-11-21 19:57:09 +02:00

1818 lines
64 KiB
Rust
Raw Blame History

use crate::{
editor_settings::SeedQuerySetting,
persistence::{SerializedEditor, DB},
scroll::ScrollAnchor,
Anchor, Autoscroll, Editor, EditorEvent, EditorSettings, ExcerptId, ExcerptRange, MultiBuffer,
MultiBufferSnapshot, NavigationData, SearchWithinRange, ToPoint as _,
};
use anyhow::{anyhow, Context as _, Result};
use collections::HashSet;
use file_icons::FileIcons;
use futures::future::try_join_all;
use git::repository::GitFileStatus;
use gpui::{
point, AnyElement, AppContext, AsyncWindowContext, Context, Entity, EntityId, EventEmitter,
IntoElement, Model, ParentElement, Pixels, SharedString, Styled, Task, View, ViewContext,
VisualContext, WeakView, WindowContext,
};
use language::{
proto::serialize_anchor as serialize_text_anchor, Bias, Buffer, CharKind, DiskState, Point,
SelectionGoal,
};
use lsp::DiagnosticSeverity;
use multi_buffer::AnchorRangeExt;
use project::{
lsp_store::FormatTrigger, project_settings::ProjectSettings, search::SearchQuery, Item as _,
Project, ProjectPath,
};
use rpc::proto::{self, update_view, PeerId};
use settings::Settings;
use workspace::item::{Dedup, ItemSettings, SerializableItem, TabContentParams};
use project::lsp_store::FormatTarget;
use std::{
any::TypeId,
borrow::Cow,
cmp::{self, Ordering},
iter,
ops::Range,
path::Path,
sync::Arc,
};
use text::{BufferId, Selection};
use theme::{Theme, ThemeSettings};
use ui::{h_flex, prelude::*, IconDecorationKind, Label};
use util::{paths::PathExt, ResultExt, TryFutureExt};
use workspace::item::{BreadcrumbText, FollowEvent};
use workspace::{
item::{FollowableItem, Item, ItemEvent, ProjectItem},
searchable::{Direction, SearchEvent, SearchableItem, SearchableItemHandle},
ItemId, ItemNavHistory, Pane, ToolbarItemLocation, ViewId, Workspace, WorkspaceId,
};
pub const MAX_TAB_TITLE_LEN: usize = 24;
impl FollowableItem for Editor {
fn remote_id(&self) -> Option<ViewId> {
self.remote_id
}
fn from_state_proto(
workspace: View<Workspace>,
remote_id: ViewId,
state: &mut Option<proto::view::Variant>,
cx: &mut WindowContext,
) -> Option<Task<Result<View<Self>>>> {
let project = workspace.read(cx).project().to_owned();
let Some(proto::view::Variant::Editor(_)) = state else {
return None;
};
let Some(proto::view::Variant::Editor(state)) = state.take() else {
unreachable!()
};
let buffer_ids = state
.excerpts
.iter()
.map(|excerpt| excerpt.buffer_id)
.collect::<HashSet<_>>();
let buffers = project.update(cx, |project, cx| {
buffer_ids
.iter()
.map(|id| BufferId::new(*id).map(|id| project.open_buffer_by_id(id, cx)))
.collect::<Result<Vec<_>>>()
});
Some(cx.spawn(|mut cx| async move {
let mut buffers = futures::future::try_join_all(buffers?)
.await
.debug_assert_ok("leaders don't share views for unshared buffers")?;
let editor = cx.update(|cx| {
let multibuffer = cx.new_model(|cx| {
let mut multibuffer;
if state.singleton && buffers.len() == 1 {
multibuffer = MultiBuffer::singleton(buffers.pop().unwrap(), cx)
} else {
multibuffer = MultiBuffer::new(project.read(cx).capability());
let mut excerpts = state.excerpts.into_iter().peekable();
while let Some(excerpt) = excerpts.peek() {
let Ok(buffer_id) = BufferId::new(excerpt.buffer_id) else {
continue;
};
let buffer_excerpts = iter::from_fn(|| {
let excerpt = excerpts.peek()?;
(excerpt.buffer_id == u64::from(buffer_id))
.then(|| excerpts.next().unwrap())
});
let buffer =
buffers.iter().find(|b| b.read(cx).remote_id() == buffer_id);
if let Some(buffer) = buffer {
multibuffer.push_excerpts(
buffer.clone(),
buffer_excerpts.filter_map(deserialize_excerpt_range),
cx,
);
}
}
};
if let Some(title) = &state.title {
multibuffer = multibuffer.with_title(title.clone())
}
multibuffer
});
cx.new_view(|cx| {
let mut editor =
Editor::for_multibuffer(multibuffer, Some(project.clone()), true, cx);
editor.remote_id = Some(remote_id);
editor
})
})?;
update_editor_from_message(
editor.downgrade(),
project,
proto::update_view::Editor {
selections: state.selections,
pending_selection: state.pending_selection,
scroll_top_anchor: state.scroll_top_anchor,
scroll_x: state.scroll_x,
scroll_y: state.scroll_y,
..Default::default()
},
&mut cx,
)
.await?;
Ok(editor)
}))
}
fn set_leader_peer_id(&mut self, leader_peer_id: Option<PeerId>, cx: &mut ViewContext<Self>) {
self.leader_peer_id = leader_peer_id;
if self.leader_peer_id.is_some() {
self.buffer.update(cx, |buffer, cx| {
buffer.remove_active_selections(cx);
});
} else if self.focus_handle.is_focused(cx) {
self.buffer.update(cx, |buffer, cx| {
buffer.set_active_selections(
&self.selections.disjoint_anchors(),
self.selections.line_mode,
self.cursor_shape,
cx,
);
});
}
cx.notify();
}
fn to_state_proto(&self, cx: &WindowContext) -> Option<proto::view::Variant> {
let buffer = self.buffer.read(cx);
if buffer
.as_singleton()
.and_then(|buffer| buffer.read(cx).file())
.map_or(false, |file| file.is_private())
{
return None;
}
let scroll_anchor = self.scroll_manager.anchor();
let excerpts = buffer
.read(cx)
.excerpts()
.map(|(id, buffer, range)| proto::Excerpt {
id: id.to_proto(),
buffer_id: buffer.remote_id().into(),
context_start: Some(serialize_text_anchor(&range.context.start)),
context_end: Some(serialize_text_anchor(&range.context.end)),
primary_start: range
.primary
.as_ref()
.map(|range| serialize_text_anchor(&range.start)),
primary_end: range
.primary
.as_ref()
.map(|range| serialize_text_anchor(&range.end)),
})
.collect();
Some(proto::view::Variant::Editor(proto::view::Editor {
singleton: buffer.is_singleton(),
title: (!buffer.is_singleton()).then(|| buffer.title(cx).into()),
excerpts,
scroll_top_anchor: Some(serialize_anchor(&scroll_anchor.anchor)),
scroll_x: scroll_anchor.offset.x,
scroll_y: scroll_anchor.offset.y,
selections: self
.selections
.disjoint_anchors()
.iter()
.map(serialize_selection)
.collect(),
pending_selection: self
.selections
.pending_anchor()
.as_ref()
.map(serialize_selection),
}))
}
fn to_follow_event(event: &EditorEvent) -> Option<workspace::item::FollowEvent> {
match event {
EditorEvent::Edited { .. } => Some(FollowEvent::Unfollow),
EditorEvent::SelectionsChanged { local }
| EditorEvent::ScrollPositionChanged { local, .. } => {
if *local {
Some(FollowEvent::Unfollow)
} else {
None
}
}
_ => None,
}
}
fn add_event_to_update_proto(
&self,
event: &EditorEvent,
update: &mut Option<proto::update_view::Variant>,
cx: &WindowContext,
) -> bool {
let update =
update.get_or_insert_with(|| proto::update_view::Variant::Editor(Default::default()));
match update {
proto::update_view::Variant::Editor(update) => match event {
EditorEvent::ExcerptsAdded {
buffer,
predecessor,
excerpts,
} => {
let buffer_id = buffer.read(cx).remote_id();
let mut excerpts = excerpts.iter();
if let Some((id, range)) = excerpts.next() {
update.inserted_excerpts.push(proto::ExcerptInsertion {
previous_excerpt_id: Some(predecessor.to_proto()),
excerpt: serialize_excerpt(buffer_id, id, range),
});
update.inserted_excerpts.extend(excerpts.map(|(id, range)| {
proto::ExcerptInsertion {
previous_excerpt_id: None,
excerpt: serialize_excerpt(buffer_id, id, range),
}
}))
}
true
}
EditorEvent::ExcerptsRemoved { ids } => {
update
.deleted_excerpts
.extend(ids.iter().map(ExcerptId::to_proto));
true
}
EditorEvent::ScrollPositionChanged { autoscroll, .. } if !autoscroll => {
let scroll_anchor = self.scroll_manager.anchor();
update.scroll_top_anchor = Some(serialize_anchor(&scroll_anchor.anchor));
update.scroll_x = scroll_anchor.offset.x;
update.scroll_y = scroll_anchor.offset.y;
true
}
EditorEvent::SelectionsChanged { .. } => {
update.selections = self
.selections
.disjoint_anchors()
.iter()
.map(serialize_selection)
.collect();
update.pending_selection = self
.selections
.pending_anchor()
.as_ref()
.map(serialize_selection);
true
}
_ => false,
},
}
}
fn apply_update_proto(
&mut self,
project: &Model<Project>,
message: update_view::Variant,
cx: &mut ViewContext<Self>,
) -> Task<Result<()>> {
let update_view::Variant::Editor(message) = message;
let project = project.clone();
cx.spawn(|this, mut cx| async move {
update_editor_from_message(this, project, message, &mut cx).await
})
}
fn is_project_item(&self, _cx: &WindowContext) -> bool {
true
}
fn dedup(&self, existing: &Self, cx: &WindowContext) -> Option<Dedup> {
let self_singleton = self.buffer.read(cx).as_singleton()?;
let other_singleton = existing.buffer.read(cx).as_singleton()?;
if self_singleton == other_singleton {
Some(Dedup::KeepExisting)
} else {
None
}
}
}
async fn update_editor_from_message(
this: WeakView<Editor>,
project: Model<Project>,
message: proto::update_view::Editor,
cx: &mut AsyncWindowContext,
) -> Result<()> {
// Open all of the buffers of which excerpts were added to the editor.
let inserted_excerpt_buffer_ids = message
.inserted_excerpts
.iter()
.filter_map(|insertion| Some(insertion.excerpt.as_ref()?.buffer_id))
.collect::<HashSet<_>>();
let inserted_excerpt_buffers = project.update(cx, |project, cx| {
inserted_excerpt_buffer_ids
.into_iter()
.map(|id| BufferId::new(id).map(|id| project.open_buffer_by_id(id, cx)))
.collect::<Result<Vec<_>>>()
})??;
let _inserted_excerpt_buffers = try_join_all(inserted_excerpt_buffers).await?;
// Update the editor's excerpts.
this.update(cx, |editor, cx| {
editor.buffer.update(cx, |multibuffer, cx| {
let mut removed_excerpt_ids = message
.deleted_excerpts
.into_iter()
.map(ExcerptId::from_proto)
.collect::<Vec<_>>();
removed_excerpt_ids.sort_by({
let multibuffer = multibuffer.read(cx);
move |a, b| a.cmp(b, &multibuffer)
});
let mut insertions = message.inserted_excerpts.into_iter().peekable();
while let Some(insertion) = insertions.next() {
let Some(excerpt) = insertion.excerpt else {
continue;
};
let Some(previous_excerpt_id) = insertion.previous_excerpt_id else {
continue;
};
let buffer_id = BufferId::new(excerpt.buffer_id)?;
let Some(buffer) = project.read(cx).buffer_for_id(buffer_id, cx) else {
continue;
};
let adjacent_excerpts = iter::from_fn(|| {
let insertion = insertions.peek()?;
if insertion.previous_excerpt_id.is_none()
&& insertion.excerpt.as_ref()?.buffer_id == u64::from(buffer_id)
{
insertions.next()?.excerpt
} else {
None
}
});
multibuffer.insert_excerpts_with_ids_after(
ExcerptId::from_proto(previous_excerpt_id),
buffer,
[excerpt]
.into_iter()
.chain(adjacent_excerpts)
.filter_map(|excerpt| {
Some((
ExcerptId::from_proto(excerpt.id),
deserialize_excerpt_range(excerpt)?,
))
}),
cx,
);
}
multibuffer.remove_excerpts(removed_excerpt_ids, cx);
Result::<(), anyhow::Error>::Ok(())
})
})??;
// Deserialize the editor state.
let (selections, pending_selection, scroll_top_anchor) = this.update(cx, |editor, cx| {
let buffer = editor.buffer.read(cx).read(cx);
let selections = message
.selections
.into_iter()
.filter_map(|selection| deserialize_selection(&buffer, selection))
.collect::<Vec<_>>();
let pending_selection = message
.pending_selection
.and_then(|selection| deserialize_selection(&buffer, selection));
let scroll_top_anchor = message
.scroll_top_anchor
.and_then(|anchor| deserialize_anchor(&buffer, anchor));
anyhow::Ok((selections, pending_selection, scroll_top_anchor))
})??;
// Wait until the buffer has received all of the operations referenced by
// the editor's new state.
this.update(cx, |editor, cx| {
editor.buffer.update(cx, |buffer, cx| {
buffer.wait_for_anchors(
selections
.iter()
.chain(pending_selection.as_ref())
.flat_map(|selection| [selection.start, selection.end])
.chain(scroll_top_anchor),
cx,
)
})
})?
.await?;
// Update the editor's state.
this.update(cx, |editor, cx| {
if !selections.is_empty() || pending_selection.is_some() {
editor.set_selections_from_remote(selections, pending_selection, cx);
editor.request_autoscroll_remotely(Autoscroll::newest(), cx);
} else if let Some(scroll_top_anchor) = scroll_top_anchor {
editor.set_scroll_anchor_remote(
ScrollAnchor {
anchor: scroll_top_anchor,
offset: point(message.scroll_x, message.scroll_y),
},
cx,
);
}
})?;
Ok(())
}
fn serialize_excerpt(
buffer_id: BufferId,
id: &ExcerptId,
range: &ExcerptRange<language::Anchor>,
) -> Option<proto::Excerpt> {
Some(proto::Excerpt {
id: id.to_proto(),
buffer_id: buffer_id.into(),
context_start: Some(serialize_text_anchor(&range.context.start)),
context_end: Some(serialize_text_anchor(&range.context.end)),
primary_start: range
.primary
.as_ref()
.map(|r| serialize_text_anchor(&r.start)),
primary_end: range
.primary
.as_ref()
.map(|r| serialize_text_anchor(&r.end)),
})
}
fn serialize_selection(selection: &Selection<Anchor>) -> proto::Selection {
proto::Selection {
id: selection.id as u64,
start: Some(serialize_anchor(&selection.start)),
end: Some(serialize_anchor(&selection.end)),
reversed: selection.reversed,
}
}
fn serialize_anchor(anchor: &Anchor) -> proto::EditorAnchor {
proto::EditorAnchor {
excerpt_id: anchor.excerpt_id.to_proto(),
anchor: Some(serialize_text_anchor(&anchor.text_anchor)),
}
}
fn deserialize_excerpt_range(excerpt: proto::Excerpt) -> Option<ExcerptRange<language::Anchor>> {
let context = {
let start = language::proto::deserialize_anchor(excerpt.context_start?)?;
let end = language::proto::deserialize_anchor(excerpt.context_end?)?;
start..end
};
let primary = excerpt
.primary_start
.zip(excerpt.primary_end)
.and_then(|(start, end)| {
let start = language::proto::deserialize_anchor(start)?;
let end = language::proto::deserialize_anchor(end)?;
Some(start..end)
});
Some(ExcerptRange { context, primary })
}
fn deserialize_selection(
buffer: &MultiBufferSnapshot,
selection: proto::Selection,
) -> Option<Selection<Anchor>> {
Some(Selection {
id: selection.id as usize,
start: deserialize_anchor(buffer, selection.start?)?,
end: deserialize_anchor(buffer, selection.end?)?,
reversed: selection.reversed,
goal: SelectionGoal::None,
})
}
fn deserialize_anchor(buffer: &MultiBufferSnapshot, anchor: proto::EditorAnchor) -> Option<Anchor> {
let excerpt_id = ExcerptId::from_proto(anchor.excerpt_id);
Some(Anchor {
excerpt_id,
text_anchor: language::proto::deserialize_anchor(anchor.anchor?)?,
buffer_id: buffer.buffer_id_for_excerpt(excerpt_id),
})
}
impl Item for Editor {
type Event = EditorEvent;
fn navigate(&mut self, data: Box<dyn std::any::Any>, cx: &mut ViewContext<Self>) -> bool {
if let Ok(data) = data.downcast::<NavigationData>() {
let newest_selection = self.selections.newest::<Point>(cx);
let buffer = self.buffer.read(cx).read(cx);
let offset = if buffer.can_resolve(&data.cursor_anchor) {
data.cursor_anchor.to_point(&buffer)
} else {
buffer.clip_point(data.cursor_position, Bias::Left)
};
let mut scroll_anchor = data.scroll_anchor;
if !buffer.can_resolve(&scroll_anchor.anchor) {
scroll_anchor.anchor = buffer.anchor_before(
buffer.clip_point(Point::new(data.scroll_top_row, 0), Bias::Left),
);
}
drop(buffer);
if newest_selection.head() == offset {
false
} else {
let nav_history = self.nav_history.take();
self.set_scroll_anchor(scroll_anchor, cx);
self.change_selections(Some(Autoscroll::fit()), cx, |s| {
s.select_ranges([offset..offset])
});
self.nav_history = nav_history;
true
}
} else {
false
}
}
fn tab_tooltip_text(&self, cx: &AppContext) -> Option<SharedString> {
let file_path = self
.buffer()
.read(cx)
.as_singleton()?
.read(cx)
.file()
.and_then(|f| f.as_local())?
.abs_path(cx);
let file_path = file_path.compact().to_string_lossy().to_string();
Some(file_path.into())
}
fn telemetry_event_text(&self) -> Option<&'static str> {
None
}
fn tab_description(&self, detail: usize, cx: &AppContext) -> Option<SharedString> {
let path = path_for_buffer(&self.buffer, detail, true, cx)?;
Some(path.to_string_lossy().to_string().into())
}
fn tab_icon(&self, cx: &WindowContext) -> Option<Icon> {
ItemSettings::get_global(cx)
.file_icons
.then(|| {
self.buffer
.read(cx)
.as_singleton()
.and_then(|buffer| buffer.read(cx).project_path(cx))
.and_then(|path| FileIcons::get_icon(path.path.as_ref(), cx))
})
.flatten()
.map(Icon::from_path)
}
fn tab_content(&self, params: TabContentParams, cx: &WindowContext) -> AnyElement {
let label_color = if ItemSettings::get_global(cx).git_status {
self.buffer()
.read(cx)
.as_singleton()
.and_then(|buffer| buffer.read(cx).project_path(cx))
.and_then(|path| self.project.as_ref()?.read(cx).entry_for_path(&path, cx))
.map(|entry| {
entry_git_aware_label_color(entry.git_status, entry.is_ignored, params.selected)
})
.unwrap_or_else(|| entry_label_color(params.selected))
} else {
entry_label_color(params.selected)
};
let description = params.detail.and_then(|detail| {
let path = path_for_buffer(&self.buffer, detail, false, cx)?;
let description = path.to_string_lossy();
let description = description.trim();
if description.is_empty() {
return None;
}
Some(util::truncate_and_trailoff(description, MAX_TAB_TITLE_LEN))
});
// Whether the file was saved in the past but is now deleted.
let was_deleted: bool = self
.buffer()
.read(cx)
.as_singleton()
.and_then(|buffer| buffer.read(cx).file())
.map_or(false, |file| file.disk_state() == DiskState::Deleted);
h_flex()
.gap_2()
.child(
Label::new(self.title(cx).to_string())
.color(label_color)
.italic(params.preview)
.strikethrough(was_deleted),
)
.when_some(description, |this, description| {
this.child(
Label::new(description)
.size(LabelSize::XSmall)
.color(Color::Muted),
)
})
.into_any_element()
}
fn for_each_project_item(
&self,
cx: &AppContext,
f: &mut dyn FnMut(EntityId, &dyn project::Item),
) {
self.buffer
.read(cx)
.for_each_buffer(|buffer| f(buffer.entity_id(), buffer.read(cx)));
}
fn is_singleton(&self, cx: &AppContext) -> bool {
self.buffer.read(cx).is_singleton()
}
fn clone_on_split(
&self,
_workspace_id: Option<WorkspaceId>,
cx: &mut ViewContext<Self>,
) -> Option<View<Editor>>
where
Self: Sized,
{
Some(cx.new_view(|cx| self.clone(cx)))
}
fn set_nav_history(&mut self, history: ItemNavHistory, _: &mut ViewContext<Self>) {
self.nav_history = Some(history);
}
fn discarded(&self, _project: Model<Project>, cx: &mut ViewContext<Self>) {
for buffer in self.buffer().clone().read(cx).all_buffers() {
buffer.update(cx, |buffer, cx| buffer.discarded(cx))
}
}
fn deactivated(&mut self, cx: &mut ViewContext<Self>) {
let selection = self.selections.newest_anchor();
self.push_to_nav_history(selection.head(), None, cx);
}
fn workspace_deactivated(&mut self, cx: &mut ViewContext<Self>) {
self.hide_hovered_link(cx);
}
fn is_dirty(&self, cx: &AppContext) -> bool {
self.buffer().read(cx).read(cx).is_dirty()
}
fn has_deleted_file(&self, cx: &AppContext) -> bool {
self.buffer().read(cx).read(cx).has_deleted_file()
}
fn has_conflict(&self, cx: &AppContext) -> bool {
self.buffer().read(cx).read(cx).has_conflict()
}
fn can_save(&self, cx: &AppContext) -> bool {
let buffer = &self.buffer().read(cx);
if let Some(buffer) = buffer.as_singleton() {
buffer.read(cx).project_path(cx).is_some()
} else {
true
}
}
fn save(
&mut self,
format: bool,
project: Model<Project>,
cx: &mut ViewContext<Self>,
) -> Task<Result<()>> {
self.report_editor_event("save", None, cx);
let buffers = self.buffer().clone().read(cx).all_buffers();
let buffers = buffers
.into_iter()
.map(|handle| handle.read(cx).diff_base_buffer().unwrap_or(handle.clone()))
.collect::<HashSet<_>>();
cx.spawn(|this, mut cx| async move {
if format {
this.update(&mut cx, |editor, cx| {
editor.perform_format(
project.clone(),
FormatTrigger::Save,
FormatTarget::Buffer,
cx,
)
})?
.await?;
}
if buffers.len() == 1 {
// Apply full save routine for singleton buffers, to allow to `touch` the file via the editor.
project
.update(&mut cx, |project, cx| project.save_buffers(buffers, cx))?
.await?;
} else {
// For multi-buffers, only format and save the buffers with changes.
// For clean buffers, we simulate saving by calling `Buffer::did_save`,
// so that language servers or other downstream listeners of save events get notified.
let (dirty_buffers, clean_buffers) = buffers.into_iter().partition(|buffer| {
buffer
.update(&mut cx, |buffer, _| {
buffer.is_dirty() || buffer.has_conflict()
})
.unwrap_or(false)
});
project
.update(&mut cx, |project, cx| {
project.save_buffers(dirty_buffers, cx)
})?
.await?;
for buffer in clean_buffers {
buffer
.update(&mut cx, |buffer, cx| {
let version = buffer.saved_version().clone();
let mtime = buffer.saved_mtime();
buffer.did_save(version, mtime, cx);
})
.ok();
}
}
Ok(())
})
}
fn save_as(
&mut self,
project: Model<Project>,
path: ProjectPath,
cx: &mut ViewContext<Self>,
) -> Task<Result<()>> {
let buffer = self
.buffer()
.read(cx)
.as_singleton()
.expect("cannot call save_as on an excerpt list");
let file_extension = path
.path
.extension()
.map(|a| a.to_string_lossy().to_string());
self.report_editor_event("save", file_extension, cx);
project.update(cx, |project, cx| project.save_buffer_as(buffer, path, cx))
}
fn reload(&mut self, project: Model<Project>, cx: &mut ViewContext<Self>) -> Task<Result<()>> {
let buffer = self.buffer().clone();
let buffers = self.buffer.read(cx).all_buffers();
let reload_buffers =
project.update(cx, |project, cx| project.reload_buffers(buffers, true, cx));
cx.spawn(|this, mut cx| async move {
let transaction = reload_buffers.log_err().await;
this.update(&mut cx, |editor, cx| {
editor.request_autoscroll(Autoscroll::fit(), cx)
})?;
buffer
.update(&mut cx, |buffer, cx| {
if let Some(transaction) = transaction {
if !buffer.is_singleton() {
buffer.push_transaction(&transaction.0, cx);
}
}
})
.ok();
Ok(())
})
}
fn as_searchable(&self, handle: &View<Self>) -> Option<Box<dyn SearchableItemHandle>> {
Some(Box::new(handle.clone()))
}
fn pixel_position_of_cursor(&self, _: &AppContext) -> Option<gpui::Point<Pixels>> {
self.pixel_position_of_newest_cursor
}
fn breadcrumb_location(&self, _: &AppContext) -> ToolbarItemLocation {
if self.show_breadcrumbs {
ToolbarItemLocation::PrimaryLeft
} else {
ToolbarItemLocation::Hidden
}
}
fn breadcrumbs(&self, variant: &Theme, cx: &AppContext) -> Option<Vec<BreadcrumbText>> {
let cursor = self.selections.newest_anchor().head();
let multibuffer = &self.buffer().read(cx);
let (buffer_id, symbols) =
multibuffer.symbols_containing(cursor, Some(variant.syntax()), cx)?;
let buffer = multibuffer.buffer(buffer_id)?;
let buffer = buffer.read(cx);
let text = self.breadcrumb_header.clone().unwrap_or_else(|| {
buffer
.snapshot()
.resolve_file_path(
cx,
self.project
.as_ref()
.map(|project| project.read(cx).visible_worktrees(cx).count() > 1)
.unwrap_or_default(),
)
.map(|path| path.to_string_lossy().to_string())
.unwrap_or_else(|| {
if multibuffer.is_singleton() {
multibuffer.title(cx).to_string()
} else {
"untitled".to_string()
}
})
});
let settings = ThemeSettings::get_global(cx);
let mut breadcrumbs = vec![BreadcrumbText {
text,
highlights: None,
font: Some(settings.buffer_font.clone()),
}];
breadcrumbs.extend(symbols.into_iter().map(|symbol| BreadcrumbText {
text: symbol.text,
highlights: Some(symbol.highlight_ranges),
font: Some(settings.buffer_font.clone()),
}));
Some(breadcrumbs)
}
fn added_to_workspace(&mut self, workspace: &mut Workspace, _: &mut ViewContext<Self>) {
self.workspace = Some((workspace.weak_handle(), workspace.database_id()));
}
fn to_item_events(event: &EditorEvent, mut f: impl FnMut(ItemEvent)) {
match event {
EditorEvent::Closed => f(ItemEvent::CloseItem),
EditorEvent::Saved | EditorEvent::TitleChanged => {
f(ItemEvent::UpdateTab);
f(ItemEvent::UpdateBreadcrumbs);
}
EditorEvent::Reparsed(_) => {
f(ItemEvent::UpdateBreadcrumbs);
}
EditorEvent::SelectionsChanged { local } if *local => {
f(ItemEvent::UpdateBreadcrumbs);
}
EditorEvent::DirtyChanged => {
f(ItemEvent::UpdateTab);
}
EditorEvent::BufferEdited => {
f(ItemEvent::Edit);
f(ItemEvent::UpdateBreadcrumbs);
}
EditorEvent::ExcerptsAdded { .. } | EditorEvent::ExcerptsRemoved { .. } => {
f(ItemEvent::Edit);
}
_ => {}
}
}
fn preserve_preview(&self, cx: &AppContext) -> bool {
self.buffer.read(cx).preserve_preview(cx)
}
}
impl SerializableItem for Editor {
fn serialized_item_kind() -> &'static str {
"Editor"
}
fn cleanup(
workspace_id: WorkspaceId,
alive_items: Vec<ItemId>,
cx: &mut WindowContext,
) -> Task<Result<()>> {
cx.spawn(|_| DB.delete_unloaded_items(workspace_id, alive_items))
}
fn deserialize(
project: Model<Project>,
workspace: WeakView<Workspace>,
workspace_id: workspace::WorkspaceId,
item_id: ItemId,
cx: &mut ViewContext<Pane>,
) -> Task<Result<View<Self>>> {
let serialized_editor = match DB
.get_serialized_editor(item_id, workspace_id)
.context("Failed to query editor state")
{
Ok(Some(serialized_editor)) => {
if ProjectSettings::get_global(cx)
.session
.restore_unsaved_buffers
{
serialized_editor
} else {
SerializedEditor {
abs_path: serialized_editor.abs_path,
contents: None,
language: None,
mtime: None,
}
}
}
Ok(None) => {
return Task::ready(Err(anyhow!("No path or contents found for buffer")));
}
Err(error) => {
return Task::ready(Err(error));
}
};
match serialized_editor {
SerializedEditor {
abs_path: None,
contents: Some(contents),
language,
..
} => cx.spawn(|pane, mut cx| {
let project = project.clone();
async move {
let language = if let Some(language_name) = language {
let language_registry =
project.update(&mut cx, |project, _| project.languages().clone())?;
// We don't fail here, because we'd rather not set the language if the name changed
// than fail to restore the buffer.
language_registry
.language_for_name(&language_name)
.await
.ok()
} else {
None
};
// First create the empty buffer
let buffer = project
.update(&mut cx, |project, cx| project.create_buffer(cx))?
.await?;
// Then set the text so that the dirty bit is set correctly
buffer.update(&mut cx, |buffer, cx| {
if let Some(language) = language {
buffer.set_language(Some(language), cx);
}
buffer.set_text(contents, cx);
})?;
pane.update(&mut cx, |_, cx| {
cx.new_view(|cx| {
let mut editor = Editor::for_buffer(buffer, Some(project), cx);
editor.read_scroll_position_from_db(item_id, workspace_id, cx);
editor
})
})
}
}),
SerializedEditor {
abs_path: Some(abs_path),
contents,
mtime,
..
} => {
let project_item = project.update(cx, |project, cx| {
let (worktree, path) = project.find_worktree(&abs_path, cx)?;
let project_path = ProjectPath {
worktree_id: worktree.read(cx).id(),
path: path.into(),
};
Some(project.open_path(project_path, cx))
});
match project_item {
Some(project_item) => {
cx.spawn(|pane, mut cx| async move {
let (_, project_item) = project_item.await?;
let buffer = project_item.downcast::<Buffer>().map_err(|_| {
anyhow!("Project item at stored path was not a buffer")
})?;
// This is a bit wasteful: we're loading the whole buffer from
// disk and then overwrite the content.
// But for now, it keeps the implementation of the content serialization
// simple, because we don't have to persist all of the metadata that we get
// by loading the file (git diff base, ...).
if let Some(buffer_text) = contents {
buffer.update(&mut cx, |buffer, cx| {
// If we did restore an mtime, we want to store it on the buffer
// so that the next edit will mark the buffer as dirty/conflicted.
if mtime.is_some() {
buffer.did_reload(
buffer.version(),
buffer.line_ending(),
mtime,
cx,
);
}
buffer.set_text(buffer_text, cx);
})?;
}
pane.update(&mut cx, |_, cx| {
cx.new_view(|cx| {
let mut editor = Editor::for_buffer(buffer, Some(project), cx);
editor.read_scroll_position_from_db(item_id, workspace_id, cx);
editor
})
})
})
}
None => {
let open_by_abs_path = workspace.update(cx, |workspace, cx| {
workspace.open_abs_path(abs_path.clone(), false, cx)
});
cx.spawn(|_, mut cx| async move {
let editor = open_by_abs_path?.await?.downcast::<Editor>().with_context(|| format!("Failed to downcast to Editor after opening abs path {abs_path:?}"))?;
editor.update(&mut cx, |editor, cx| {
editor.read_scroll_position_from_db(item_id, workspace_id, cx);
})?;
Ok(editor)
})
}
}
}
SerializedEditor {
abs_path: None,
contents: None,
..
} => Task::ready(Err(anyhow!("No path or contents found for buffer"))),
}
}
fn serialize(
&mut self,
workspace: &mut Workspace,
item_id: ItemId,
closing: bool,
cx: &mut ViewContext<Self>,
) -> Option<Task<Result<()>>> {
let mut serialize_dirty_buffers = self.serialize_dirty_buffers;
let project = self.project.clone()?;
if project.read(cx).visible_worktrees(cx).next().is_none() {
// If we don't have a worktree, we don't serialize, because
// projects without worktrees aren't deserialized.
serialize_dirty_buffers = false;
}
if closing && !serialize_dirty_buffers {
return None;
}
let workspace_id = workspace.database_id()?;
let buffer = self.buffer().read(cx).as_singleton()?;
let abs_path = buffer.read(cx).file().and_then(|file| {
let worktree_id = file.worktree_id(cx);
project
.read(cx)
.worktree_for_id(worktree_id, cx)
.and_then(|worktree| worktree.read(cx).absolutize(&file.path()).ok())
.or_else(|| {
let full_path = file.full_path(cx);
let project_path = project.read(cx).find_project_path(&full_path, cx)?;
project.read(cx).absolute_path(&project_path, cx)
})
});
let is_dirty = buffer.read(cx).is_dirty();
let mtime = buffer.read(cx).saved_mtime();
let snapshot = buffer.read(cx).snapshot();
Some(cx.spawn(|_this, cx| async move {
cx.background_executor()
.spawn(async move {
let (contents, language) = if serialize_dirty_buffers && is_dirty {
let contents = snapshot.text();
let language = snapshot.language().map(|lang| lang.name().to_string());
(Some(contents), language)
} else {
(None, None)
};
let editor = SerializedEditor {
abs_path,
contents,
language,
mtime,
};
DB.save_serialized_editor(item_id, workspace_id, editor)
.await
.context("failed to save serialized editor")
})
.await
.context("failed to save contents of buffer")?;
Ok(())
}))
}
fn should_serialize(&self, event: &Self::Event) -> bool {
matches!(
event,
EditorEvent::Saved | EditorEvent::DirtyChanged | EditorEvent::BufferEdited
)
}
}
impl ProjectItem for Editor {
type Item = Buffer;
fn for_project_item(
project: Model<Project>,
buffer: Model<Buffer>,
cx: &mut ViewContext<Self>,
) -> Self {
Self::for_buffer(buffer, Some(project), cx)
}
}
impl EventEmitter<SearchEvent> for Editor {}
pub(crate) enum BufferSearchHighlights {}
impl SearchableItem for Editor {
type Match = Range<Anchor>;
fn get_matches(&self, _: &mut WindowContext) -> Vec<Range<Anchor>> {
self.background_highlights
.get(&TypeId::of::<BufferSearchHighlights>())
.map_or(Vec::new(), |(_color, ranges)| {
ranges.iter().cloned().collect()
})
}
fn clear_matches(&mut self, cx: &mut ViewContext<Self>) {
if self
.clear_background_highlights::<BufferSearchHighlights>(cx)
.is_some()
{
cx.emit(SearchEvent::MatchesInvalidated);
}
}
fn update_matches(&mut self, matches: &[Range<Anchor>], cx: &mut ViewContext<Self>) {
let existing_range = self
.background_highlights
.get(&TypeId::of::<BufferSearchHighlights>())
.map(|(_, range)| range.as_ref());
let updated = existing_range != Some(matches);
self.highlight_background::<BufferSearchHighlights>(
matches,
|theme| theme.search_match_background,
cx,
);
if updated {
cx.emit(SearchEvent::MatchesInvalidated);
}
}
fn has_filtered_search_ranges(&mut self) -> bool {
self.has_background_highlights::<SearchWithinRange>()
}
fn toggle_filtered_search_ranges(&mut self, enabled: bool, cx: &mut ViewContext<Self>) {
if self.has_filtered_search_ranges() {
self.previous_search_ranges = self
.clear_background_highlights::<SearchWithinRange>(cx)
.map(|(_, ranges)| ranges)
}
if !enabled {
return;
}
let ranges = self.selections.disjoint_anchor_ranges();
if ranges.iter().any(|range| range.start != range.end) {
self.set_search_within_ranges(&ranges, cx);
} else if let Some(previous_search_ranges) = self.previous_search_ranges.take() {
self.set_search_within_ranges(&previous_search_ranges, cx)
}
}
fn query_suggestion(&mut self, cx: &mut ViewContext<Self>) -> String {
let setting = EditorSettings::get_global(cx).seed_search_query_from_cursor;
let snapshot = &self.snapshot(cx).buffer_snapshot;
let selection = self.selections.newest::<usize>(cx);
match setting {
SeedQuerySetting::Never => String::new(),
SeedQuerySetting::Selection | SeedQuerySetting::Always if !selection.is_empty() => {
let text: String = snapshot
.text_for_range(selection.start..selection.end)
.collect();
if text.contains('\n') {
String::new()
} else {
text
}
}
SeedQuerySetting::Selection => String::new(),
SeedQuerySetting::Always => {
let (range, kind) = snapshot.surrounding_word(selection.start, true);
if kind == Some(CharKind::Word) {
let text: String = snapshot.text_for_range(range).collect();
if !text.trim().is_empty() {
return text;
}
}
String::new()
}
}
}
fn activate_match(
&mut self,
index: usize,
matches: &[Range<Anchor>],
cx: &mut ViewContext<Self>,
) {
self.unfold_ranges(&[matches[index].clone()], false, true, cx);
let range = self.range_for_match(&matches[index]);
self.change_selections(Some(Autoscroll::fit()), cx, |s| {
s.select_ranges([range]);
})
}
fn select_matches(&mut self, matches: &[Self::Match], cx: &mut ViewContext<Self>) {
self.unfold_ranges(matches, false, false, cx);
let mut ranges = Vec::new();
for m in matches {
ranges.push(self.range_for_match(m))
}
self.change_selections(None, cx, |s| s.select_ranges(ranges));
}
fn replace(
&mut self,
identifier: &Self::Match,
query: &SearchQuery,
cx: &mut ViewContext<Self>,
) {
let text = self.buffer.read(cx);
let text = text.snapshot(cx);
let text = text.text_for_range(identifier.clone()).collect::<Vec<_>>();
let text: Cow<_> = if text.len() == 1 {
text.first().cloned().unwrap().into()
} else {
let joined_chunks = text.join("");
joined_chunks.into()
};
if let Some(replacement) = query.replacement_for(&text) {
self.transact(cx, |this, cx| {
this.edit([(identifier.clone(), Arc::from(&*replacement))], cx);
});
}
}
fn replace_all(
&mut self,
matches: &mut dyn Iterator<Item = &Self::Match>,
query: &SearchQuery,
cx: &mut ViewContext<Self>,
) {
let text = self.buffer.read(cx);
let text = text.snapshot(cx);
let mut edits = vec![];
for m in matches {
let text = text.text_for_range(m.clone()).collect::<Vec<_>>();
let text: Cow<_> = if text.len() == 1 {
text.first().cloned().unwrap().into()
} else {
let joined_chunks = text.join("");
joined_chunks.into()
};
if let Some(replacement) = query.replacement_for(&text) {
edits.push((m.clone(), Arc::from(&*replacement)));
}
}
if !edits.is_empty() {
self.transact(cx, |this, cx| {
this.edit(edits, cx);
});
}
}
fn match_index_for_direction(
&mut self,
matches: &[Range<Anchor>],
current_index: usize,
direction: Direction,
count: usize,
cx: &mut ViewContext<Self>,
) -> usize {
let buffer = self.buffer().read(cx).snapshot(cx);
let current_index_position = if self.selections.disjoint_anchors().len() == 1 {
self.selections.newest_anchor().head()
} else {
matches[current_index].start
};
let mut count = count % matches.len();
if count == 0 {
return current_index;
}
match direction {
Direction::Next => {
if matches[current_index]
.start
.cmp(&current_index_position, &buffer)
.is_gt()
{
count -= 1
}
(current_index + count) % matches.len()
}
Direction::Prev => {
if matches[current_index]
.end
.cmp(&current_index_position, &buffer)
.is_lt()
{
count -= 1;
}
if current_index >= count {
current_index - count
} else {
matches.len() - (count - current_index)
}
}
}
}
fn find_matches(
&mut self,
query: Arc<project::search::SearchQuery>,
cx: &mut ViewContext<Self>,
) -> Task<Vec<Range<Anchor>>> {
let buffer = self.buffer().read(cx).snapshot(cx);
let search_within_ranges = self
.background_highlights
.get(&TypeId::of::<SearchWithinRange>())
.map_or(vec![], |(_color, ranges)| {
ranges.iter().cloned().collect::<Vec<_>>()
});
cx.background_executor().spawn(async move {
let mut ranges = Vec::new();
if let Some((_, _, excerpt_buffer)) = buffer.as_singleton() {
let search_within_ranges = if search_within_ranges.is_empty() {
vec![None]
} else {
search_within_ranges
.into_iter()
.map(|range| Some(range.to_offset(&buffer)))
.collect::<Vec<_>>()
};
for range in search_within_ranges {
let buffer = &buffer;
ranges.extend(
query
.search(excerpt_buffer, range.clone())
.await
.into_iter()
.map(|matched_range| {
let offset = range.clone().map(|r| r.start).unwrap_or(0);
buffer.anchor_after(matched_range.start + offset)
..buffer.anchor_before(matched_range.end + offset)
}),
);
}
} else {
let search_within_ranges = if search_within_ranges.is_empty() {
vec![buffer.anchor_before(0)..buffer.anchor_after(buffer.len())]
} else {
search_within_ranges
};
for (excerpt_id, search_buffer, search_range) in
buffer.excerpts_in_ranges(search_within_ranges)
{
if !search_range.is_empty() {
ranges.extend(
query
.search(search_buffer, Some(search_range.clone()))
.await
.into_iter()
.map(|match_range| {
let start = search_buffer
.anchor_after(search_range.start + match_range.start);
let end = search_buffer
.anchor_before(search_range.start + match_range.end);
buffer.anchor_in_excerpt(excerpt_id, start).unwrap()
..buffer.anchor_in_excerpt(excerpt_id, end).unwrap()
}),
);
}
}
};
ranges
})
}
fn active_match_index(
&mut self,
matches: &[Range<Anchor>],
cx: &mut ViewContext<Self>,
) -> Option<usize> {
active_match_index(
matches,
&self.selections.newest_anchor().head(),
&self.buffer().read(cx).snapshot(cx),
)
}
fn search_bar_visibility_changed(&mut self, _visible: bool, _cx: &mut ViewContext<Self>) {
self.expect_bounds_change = self.last_bounds;
}
}
pub fn active_match_index(
ranges: &[Range<Anchor>],
cursor: &Anchor,
buffer: &MultiBufferSnapshot,
) -> Option<usize> {
if ranges.is_empty() {
None
} else {
match ranges.binary_search_by(|probe| {
if probe.end.cmp(cursor, buffer).is_lt() {
Ordering::Less
} else if probe.start.cmp(cursor, buffer).is_gt() {
Ordering::Greater
} else {
Ordering::Equal
}
}) {
Ok(i) | Err(i) => Some(cmp::min(i, ranges.len() - 1)),
}
}
}
pub fn entry_label_color(selected: bool) -> Color {
if selected {
Color::Default
} else {
Color::Muted
}
}
pub fn entry_diagnostic_aware_icon_name_and_color(
diagnostic_severity: Option<DiagnosticSeverity>,
) -> Option<(IconName, Color)> {
match diagnostic_severity {
Some(DiagnosticSeverity::ERROR) => Some((IconName::X, Color::Error)),
Some(DiagnosticSeverity::WARNING) => Some((IconName::Triangle, Color::Warning)),
_ => None,
}
}
pub fn entry_diagnostic_aware_icon_decoration_and_color(
diagnostic_severity: Option<DiagnosticSeverity>,
) -> Option<(IconDecorationKind, Color)> {
match diagnostic_severity {
Some(DiagnosticSeverity::ERROR) => Some((IconDecorationKind::X, Color::Error)),
Some(DiagnosticSeverity::WARNING) => Some((IconDecorationKind::Triangle, Color::Warning)),
_ => None,
}
}
pub fn entry_git_aware_label_color(
git_status: Option<GitFileStatus>,
ignored: bool,
selected: bool,
) -> Color {
if ignored {
Color::Ignored
} else {
match git_status {
Some(GitFileStatus::Added) => Color::Created,
Some(GitFileStatus::Modified) => Color::Modified,
Some(GitFileStatus::Conflict) => Color::Conflict,
None => entry_label_color(selected),
}
}
}
fn path_for_buffer<'a>(
buffer: &Model<MultiBuffer>,
height: usize,
include_filename: bool,
cx: &'a AppContext,
) -> Option<Cow<'a, Path>> {
let file = buffer.read(cx).as_singleton()?.read(cx).file()?;
path_for_file(file.as_ref(), height, include_filename, cx)
}
fn path_for_file<'a>(
file: &'a dyn language::File,
mut height: usize,
include_filename: bool,
cx: &'a AppContext,
) -> Option<Cow<'a, Path>> {
// Ensure we always render at least the filename.
height += 1;
let mut prefix = file.path().as_ref();
while height > 0 {
if let Some(parent) = prefix.parent() {
prefix = parent;
height -= 1;
} else {
break;
}
}
// Here we could have just always used `full_path`, but that is very
// allocation-heavy and so we try to use a `Cow<Path>` if we haven't
// traversed all the way up to the worktree's root.
if height > 0 {
let full_path = file.full_path(cx);
if include_filename {
Some(full_path.into())
} else {
Some(full_path.parent()?.to_path_buf().into())
}
} else {
let mut path = file.path().strip_prefix(prefix).ok()?;
if !include_filename {
path = path.parent()?;
}
Some(path.into())
}
}
#[cfg(test)]
mod tests {
use crate::editor_tests::init_test;
use super::*;
use gpui::{AppContext, VisualTestContext};
use language::{LanguageMatcher, TestFile};
use project::FakeFs;
use std::{
path::{Path, PathBuf},
time::SystemTime,
};
#[gpui::test]
fn test_path_for_file(cx: &mut AppContext) {
let file = TestFile {
path: Path::new("").into(),
root_name: String::new(),
};
assert_eq!(path_for_file(&file, 0, false, cx), None);
}
async fn deserialize_editor(
item_id: ItemId,
workspace_id: WorkspaceId,
workspace: View<Workspace>,
project: Model<Project>,
cx: &mut VisualTestContext,
) -> View<Editor> {
workspace
.update(cx, |workspace, cx| {
let pane = workspace.active_pane();
pane.update(cx, |_, cx| {
Editor::deserialize(
project.clone(),
workspace.weak_handle(),
workspace_id,
item_id,
cx,
)
})
})
.await
.unwrap()
}
fn rust_language() -> Arc<language::Language> {
Arc::new(language::Language::new(
language::LanguageConfig {
name: "Rust".into(),
matcher: LanguageMatcher {
path_suffixes: vec!["rs".to_string()],
..Default::default()
},
..Default::default()
},
Some(tree_sitter_rust::LANGUAGE.into()),
))
}
#[gpui::test]
async fn test_deserialize(cx: &mut gpui::TestAppContext) {
init_test(cx, |_| {});
let now = SystemTime::now();
let fs = FakeFs::new(cx.executor());
fs.set_next_mtime(now);
fs.insert_file("/file.rs", Default::default()).await;
// Test case 1: Deserialize with path and contents
{
let project = Project::test(fs.clone(), ["/file.rs".as_ref()], cx).await;
let (workspace, cx) = cx.add_window_view(|cx| Workspace::test_new(project.clone(), cx));
let workspace_id = workspace::WORKSPACE_DB.next_id().await.unwrap();
let item_id = 1234 as ItemId;
let serialized_editor = SerializedEditor {
abs_path: Some(PathBuf::from("/file.rs")),
contents: Some("fn main() {}".to_string()),
language: Some("Rust".to_string()),
mtime: Some(now),
};
DB.save_serialized_editor(item_id, workspace_id, serialized_editor.clone())
.await
.unwrap();
let deserialized =
deserialize_editor(item_id, workspace_id, workspace, project, cx).await;
deserialized.update(cx, |editor, cx| {
assert_eq!(editor.text(cx), "fn main() {}");
assert!(editor.is_dirty(cx));
assert!(!editor.has_conflict(cx));
let buffer = editor.buffer().read(cx).as_singleton().unwrap().read(cx);
assert!(buffer.file().is_some());
});
}
// Test case 2: Deserialize with only path
{
let project = Project::test(fs.clone(), ["/file.rs".as_ref()], cx).await;
let (workspace, cx) = cx.add_window_view(|cx| Workspace::test_new(project.clone(), cx));
let workspace_id = workspace::WORKSPACE_DB.next_id().await.unwrap();
let item_id = 5678 as ItemId;
let serialized_editor = SerializedEditor {
abs_path: Some(PathBuf::from("/file.rs")),
contents: None,
language: None,
mtime: None,
};
DB.save_serialized_editor(item_id, workspace_id, serialized_editor)
.await
.unwrap();
let deserialized =
deserialize_editor(item_id, workspace_id, workspace, project, cx).await;
deserialized.update(cx, |editor, cx| {
assert_eq!(editor.text(cx), ""); // The file should be empty as per our initial setup
assert!(!editor.is_dirty(cx));
assert!(!editor.has_conflict(cx));
let buffer = editor.buffer().read(cx).as_singleton().unwrap().read(cx);
assert!(buffer.file().is_some());
});
}
// Test case 3: Deserialize with no path (untitled buffer, with content and language)
{
let project = Project::test(fs.clone(), ["/file.rs".as_ref()], cx).await;
// Add Rust to the language, so that we can restore the language of the buffer
project.update(cx, |project, _| project.languages().add(rust_language()));
let (workspace, cx) = cx.add_window_view(|cx| Workspace::test_new(project.clone(), cx));
let workspace_id = workspace::WORKSPACE_DB.next_id().await.unwrap();
let item_id = 9012 as ItemId;
let serialized_editor = SerializedEditor {
abs_path: None,
contents: Some("hello".to_string()),
language: Some("Rust".to_string()),
mtime: None,
};
DB.save_serialized_editor(item_id, workspace_id, serialized_editor)
.await
.unwrap();
let deserialized =
deserialize_editor(item_id, workspace_id, workspace, project, cx).await;
deserialized.update(cx, |editor, cx| {
assert_eq!(editor.text(cx), "hello");
assert!(editor.is_dirty(cx)); // The editor should be dirty for an untitled buffer
let buffer = editor.buffer().read(cx).as_singleton().unwrap().read(cx);
assert_eq!(
buffer.language().map(|lang| lang.name()),
Some("Rust".into())
); // Language should be set to Rust
assert!(buffer.file().is_none()); // The buffer should not have an associated file
});
}
// Test case 4: Deserialize with path, content, and old mtime
{
let project = Project::test(fs.clone(), ["/file.rs".as_ref()], cx).await;
let (workspace, cx) = cx.add_window_view(|cx| Workspace::test_new(project.clone(), cx));
let workspace_id = workspace::WORKSPACE_DB.next_id().await.unwrap();
let item_id = 9345 as ItemId;
let old_mtime = now
.checked_sub(std::time::Duration::from_secs(60 * 60 * 24))
.unwrap();
let serialized_editor = SerializedEditor {
abs_path: Some(PathBuf::from("/file.rs")),
contents: Some("fn main() {}".to_string()),
language: Some("Rust".to_string()),
mtime: Some(old_mtime),
};
DB.save_serialized_editor(item_id, workspace_id, serialized_editor)
.await
.unwrap();
let deserialized =
deserialize_editor(item_id, workspace_id, workspace, project, cx).await;
deserialized.update(cx, |editor, cx| {
assert_eq!(editor.text(cx), "fn main() {}");
assert!(editor.has_conflict(cx)); // The editor should have a conflict
});
}
}
}
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