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ZIm/crates/editor/src/code_context_menus.rs
Anthony Eid d517a212dc
Debugger: Add conditional and hit conditional breakpoint functionality (#27760) 
This PR adds conditional and hit condition breakpoint functionality 

cc @osiewicz 

Co-authored-by: Remco Smits: <djsmits12@gmail.com>

Release Notes:

- N/A *or* Added/Fixed/Improved ...

---------

Co-authored-by: Remco Smits <djsmits12@gmail.com>
2025-03-31 19:12:23 +00:00

1088 lines
39 KiB
Rust
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use feature_flags::{Debugger, FeatureFlagAppExt as _};
use fuzzy::{StringMatch, StringMatchCandidate};
use gpui::{
AnyElement, BackgroundExecutor, Entity, Focusable, FontWeight, ListSizingBehavior,
ScrollStrategy, SharedString, Size, StrikethroughStyle, StyledText, UniformListScrollHandle,
div, px, uniform_list,
};
use language::Buffer;
use language::CodeLabel;
use markdown::Markdown;
use multi_buffer::{Anchor, ExcerptId};
use ordered_float::OrderedFloat;
use project::CompletionSource;
use project::lsp_store::CompletionDocumentation;
use project::{CodeAction, Completion, TaskSourceKind};
use std::{
cell::RefCell,
cmp::{Reverse, min},
iter,
ops::Range,
rc::Rc,
};
use task::ResolvedTask;
use ui::{Color, IntoElement, ListItem, Pixels, Popover, Styled, prelude::*};
use util::ResultExt;
use crate::hover_popover::{hover_markdown_style, open_markdown_url};
use crate::{
CodeActionProvider, CompletionId, CompletionProvider, DisplayRow, Editor, EditorStyle,
ResolvedTasks,
actions::{ConfirmCodeAction, ConfirmCompletion},
split_words, styled_runs_for_code_label,
};
pub const MENU_GAP: Pixels = px(4.);
pub const MENU_ASIDE_X_PADDING: Pixels = px(16.);
pub const MENU_ASIDE_MIN_WIDTH: Pixels = px(260.);
pub const MENU_ASIDE_MAX_WIDTH: Pixels = px(500.);
pub enum CodeContextMenu {
Completions(CompletionsMenu),
CodeActions(CodeActionsMenu),
}
impl CodeContextMenu {
pub fn select_first(
&mut self,
provider: Option<&dyn CompletionProvider>,
cx: &mut Context<Editor>,
) -> bool {
if self.visible() {
match self {
CodeContextMenu::Completions(menu) => menu.select_first(provider, cx),
CodeContextMenu::CodeActions(menu) => menu.select_first(cx),
}
true
} else {
false
}
}
pub fn select_prev(
&mut self,
provider: Option<&dyn CompletionProvider>,
cx: &mut Context<Editor>,
) -> bool {
if self.visible() {
match self {
CodeContextMenu::Completions(menu) => menu.select_prev(provider, cx),
CodeContextMenu::CodeActions(menu) => menu.select_prev(cx),
}
true
} else {
false
}
}
pub fn select_next(
&mut self,
provider: Option<&dyn CompletionProvider>,
cx: &mut Context<Editor>,
) -> bool {
if self.visible() {
match self {
CodeContextMenu::Completions(menu) => menu.select_next(provider, cx),
CodeContextMenu::CodeActions(menu) => menu.select_next(cx),
}
true
} else {
false
}
}
pub fn select_last(
&mut self,
provider: Option<&dyn CompletionProvider>,
cx: &mut Context<Editor>,
) -> bool {
if self.visible() {
match self {
CodeContextMenu::Completions(menu) => menu.select_last(provider, cx),
CodeContextMenu::CodeActions(menu) => menu.select_last(cx),
}
true
} else {
false
}
}
pub fn visible(&self) -> bool {
match self {
CodeContextMenu::Completions(menu) => menu.visible(),
CodeContextMenu::CodeActions(menu) => menu.visible(),
}
}
pub fn origin(&self) -> ContextMenuOrigin {
match self {
CodeContextMenu::Completions(menu) => menu.origin(),
CodeContextMenu::CodeActions(menu) => menu.origin(),
}
}
pub fn render(
&self,
style: &EditorStyle,
max_height_in_lines: u32,
y_flipped: bool,
window: &mut Window,
cx: &mut Context<Editor>,
) -> AnyElement {
match self {
CodeContextMenu::Completions(menu) => {
menu.render(style, max_height_in_lines, y_flipped, window, cx)
}
CodeContextMenu::CodeActions(menu) => {
menu.render(style, max_height_in_lines, y_flipped, window, cx)
}
}
}
pub fn render_aside(
&mut self,
editor: &Editor,
max_size: Size<Pixels>,
window: &mut Window,
cx: &mut Context<Editor>,
) -> Option<AnyElement> {
match self {
CodeContextMenu::Completions(menu) => menu.render_aside(editor, max_size, window, cx),
CodeContextMenu::CodeActions(_) => None,
}
}
pub fn focused(&self, window: &mut Window, cx: &mut Context<Editor>) -> bool {
match self {
CodeContextMenu::Completions(completions_menu) => completions_menu
.markdown_element
.as_ref()
.is_some_and(|markdown| markdown.focus_handle(cx).contains_focused(window, cx)),
CodeContextMenu::CodeActions(_) => false,
}
}
}
pub enum ContextMenuOrigin {
Cursor,
GutterIndicator(DisplayRow),
}
#[derive(Clone, Debug)]
pub struct CompletionsMenu {
pub id: CompletionId,
sort_completions: bool,
pub initial_position: Anchor,
pub buffer: Entity<Buffer>,
pub completions: Rc<RefCell<Box<[Completion]>>>,
match_candidates: Rc<[StringMatchCandidate]>,
pub entries: Rc<RefCell<Vec<StringMatch>>>,
pub selected_item: usize,
scroll_handle: UniformListScrollHandle,
resolve_completions: bool,
show_completion_documentation: bool,
pub(super) ignore_completion_provider: bool,
last_rendered_range: Rc<RefCell<Option<Range<usize>>>>,
markdown_element: Option<Entity<Markdown>>,
}
impl CompletionsMenu {
pub fn new(
id: CompletionId,
sort_completions: bool,
show_completion_documentation: bool,
ignore_completion_provider: bool,
initial_position: Anchor,
buffer: Entity<Buffer>,
completions: Box<[Completion]>,
) -> Self {
let match_candidates = completions
.iter()
.enumerate()
.map(|(id, completion)| StringMatchCandidate::new(id, &completion.label.filter_text()))
.collect();
Self {
id,
sort_completions,
initial_position,
buffer,
show_completion_documentation,
ignore_completion_provider,
completions: RefCell::new(completions).into(),
match_candidates,
entries: RefCell::new(Vec::new()).into(),
selected_item: 0,
scroll_handle: UniformListScrollHandle::new(),
resolve_completions: true,
last_rendered_range: RefCell::new(None).into(),
markdown_element: None,
}
}
pub fn new_snippet_choices(
id: CompletionId,
sort_completions: bool,
choices: &Vec<String>,
selection: Range<Anchor>,
buffer: Entity<Buffer>,
) -> Self {
let completions = choices
.iter()
.map(|choice| Completion {
old_range: selection.start.text_anchor..selection.end.text_anchor,
new_text: choice.to_string(),
label: CodeLabel {
text: choice.to_string(),
runs: Default::default(),
filter_range: Default::default(),
},
icon_path: None,
documentation: None,
confirm: None,
source: CompletionSource::Custom,
})
.collect();
let match_candidates = choices
.iter()
.enumerate()
.map(|(id, completion)| StringMatchCandidate::new(id, &completion))
.collect();
let entries = choices
.iter()
.enumerate()
.map(|(id, completion)| StringMatch {
candidate_id: id,
score: 1.,
positions: vec![],
string: completion.clone(),
})
.collect::<Vec<_>>();
Self {
id,
sort_completions,
initial_position: selection.start,
buffer,
completions: RefCell::new(completions).into(),
match_candidates,
entries: RefCell::new(entries).into(),
selected_item: 0,
scroll_handle: UniformListScrollHandle::new(),
resolve_completions: false,
show_completion_documentation: false,
ignore_completion_provider: false,
last_rendered_range: RefCell::new(None).into(),
markdown_element: None,
}
}
fn select_first(
&mut self,
provider: Option<&dyn CompletionProvider>,
cx: &mut Context<Editor>,
) {
let index = if self.scroll_handle.y_flipped() {
self.entries.borrow().len() - 1
} else {
0
};
self.update_selection_index(index, provider, cx);
}
fn select_last(&mut self, provider: Option<&dyn CompletionProvider>, cx: &mut Context<Editor>) {
let index = if self.scroll_handle.y_flipped() {
0
} else {
self.entries.borrow().len() - 1
};
self.update_selection_index(index, provider, cx);
}
fn select_prev(&mut self, provider: Option<&dyn CompletionProvider>, cx: &mut Context<Editor>) {
let index = if self.scroll_handle.y_flipped() {
self.next_match_index()
} else {
self.prev_match_index()
};
self.update_selection_index(index, provider, cx);
}
fn select_next(&mut self, provider: Option<&dyn CompletionProvider>, cx: &mut Context<Editor>) {
let index = if self.scroll_handle.y_flipped() {
self.prev_match_index()
} else {
self.next_match_index()
};
self.update_selection_index(index, provider, cx);
}
fn update_selection_index(
&mut self,
match_index: usize,
provider: Option<&dyn CompletionProvider>,
cx: &mut Context<Editor>,
) {
if self.selected_item != match_index {
self.selected_item = match_index;
self.scroll_handle
.scroll_to_item(self.selected_item, ScrollStrategy::Top);
self.resolve_visible_completions(provider, cx);
cx.notify();
}
}
fn prev_match_index(&self) -> usize {
if self.selected_item > 0 {
self.selected_item - 1
} else {
self.entries.borrow().len() - 1
}
}
fn next_match_index(&self) -> usize {
if self.selected_item + 1 < self.entries.borrow().len() {
self.selected_item + 1
} else {
0
}
}
pub fn resolve_visible_completions(
&mut self,
provider: Option<&dyn CompletionProvider>,
cx: &mut Context<Editor>,
) {
if !self.resolve_completions {
return;
}
let Some(provider) = provider else {
return;
};
// Attempt to resolve completions for every item that will be displayed. This matters
// because single line documentation may be displayed inline with the completion.
//
// When navigating to the very beginning or end of completions, `last_rendered_range` may
// have no overlap with the completions that will be displayed, so instead use a range based
// on the last rendered count.
const APPROXIMATE_VISIBLE_COUNT: usize = 12;
let last_rendered_range = self.last_rendered_range.borrow().clone();
let visible_count = last_rendered_range
.clone()
.map_or(APPROXIMATE_VISIBLE_COUNT, |range| range.count());
let entries = self.entries.borrow();
let entry_range = if self.selected_item == 0 {
0..min(visible_count, entries.len())
} else if self.selected_item == entries.len() - 1 {
entries.len().saturating_sub(visible_count)..entries.len()
} else {
last_rendered_range.map_or(0..0, |range| {
min(range.start, entries.len())..min(range.end, entries.len())
})
};
// Expand the range to resolve more completions than are predicted to be visible, to reduce
// jank on navigation.
const EXTRA_TO_RESOLVE: usize = 4;
let entry_indices = util::iterate_expanded_and_wrapped_usize_range(
entry_range.clone(),
EXTRA_TO_RESOLVE,
EXTRA_TO_RESOLVE,
entries.len(),
);
// Avoid work by sometimes filtering out completions that already have documentation.
// This filtering doesn't happen if the completions are currently being updated.
let completions = self.completions.borrow();
let candidate_ids = entry_indices
.map(|i| entries[i].candidate_id)
.filter(|i| completions[*i].documentation.is_none());
// Current selection is always resolved even if it already has documentation, to handle
// out-of-spec language servers that return more results later.
let selected_candidate_id = entries[self.selected_item].candidate_id;
let candidate_ids = iter::once(selected_candidate_id)
.chain(candidate_ids.filter(|id| *id != selected_candidate_id))
.collect::<Vec<usize>>();
drop(entries);
if candidate_ids.is_empty() {
return;
}
let resolve_task = provider.resolve_completions(
self.buffer.clone(),
candidate_ids,
self.completions.clone(),
cx,
);
cx.spawn(async move |editor, cx| {
if let Some(true) = resolve_task.await.log_err() {
editor.update(cx, |_, cx| cx.notify()).ok();
}
})
.detach();
}
pub fn visible(&self) -> bool {
!self.entries.borrow().is_empty()
}
fn origin(&self) -> ContextMenuOrigin {
ContextMenuOrigin::Cursor
}
fn render(
&self,
style: &EditorStyle,
max_height_in_lines: u32,
y_flipped: bool,
window: &mut Window,
cx: &mut Context<Editor>,
) -> AnyElement {
let completions = self.completions.borrow_mut();
let show_completion_documentation = self.show_completion_documentation;
let widest_completion_ix = self
.entries
.borrow()
.iter()
.enumerate()
.max_by_key(|(_, mat)| {
let completion = &completions[mat.candidate_id];
let documentation = &completion.documentation;
let mut len = completion.label.text.chars().count();
if let Some(CompletionDocumentation::SingleLine(text)) = documentation {
if show_completion_documentation {
len += text.chars().count();
}
}
len
})
.map(|(ix, _)| ix);
drop(completions);
let selected_item = self.selected_item;
let completions = self.completions.clone();
let entries = self.entries.clone();
let last_rendered_range = self.last_rendered_range.clone();
let style = style.clone();
let list = uniform_list(
cx.entity().clone(),
"completions",
self.entries.borrow().len(),
move |_editor, range, _window, cx| {
last_rendered_range.borrow_mut().replace(range.clone());
let start_ix = range.start;
let completions_guard = completions.borrow_mut();
entries.borrow()[range]
.iter()
.enumerate()
.map(|(ix, mat)| {
let item_ix = start_ix + ix;
let completion = &completions_guard[mat.candidate_id];
let documentation = if show_completion_documentation {
&completion.documentation
} else {
&None
};
let filter_start = completion.label.filter_range.start;
let highlights = gpui::combine_highlights(
mat.ranges().map(|range| {
(
filter_start + range.start..filter_start + range.end,
FontWeight::BOLD.into(),
)
}),
styled_runs_for_code_label(&completion.label, &style.syntax).map(
|(range, mut highlight)| {
// Ignore font weight for syntax highlighting, as we'll use it
// for fuzzy matches.
highlight.font_weight = None;
if completion
.source
.lsp_completion(false)
.and_then(|lsp_completion| lsp_completion.deprecated)
.unwrap_or(false)
{
highlight.strikethrough = Some(StrikethroughStyle {
thickness: 1.0.into(),
..Default::default()
});
highlight.color = Some(cx.theme().colors().text_muted);
}
(range, highlight)
},
),
);
let completion_label = StyledText::new(completion.label.text.clone())
.with_default_highlights(&style.text, highlights);
let documentation_label = if let Some(
CompletionDocumentation::SingleLine(text),
) = documentation
{
if text.trim().is_empty() {
None
} else {
Some(
Label::new(text.clone())
.ml_4()
.size(LabelSize::Small)
.color(Color::Muted),
)
}
} else {
None
};
let start_slot = completion
.color()
.map(|color| {
div()
.flex_shrink_0()
.size_3p5()
.rounded_xs()
.bg(color)
.into_any_element()
})
.or_else(|| {
completion.icon_path.as_ref().map(|path| {
Icon::from_path(path)
.size(IconSize::XSmall)
.color(Color::Muted)
.into_any_element()
})
});
div().min_w(px(280.)).max_w(px(540.)).child(
ListItem::new(mat.candidate_id)
.inset(true)
.toggle_state(item_ix == selected_item)
.on_click(cx.listener(move |editor, _event, window, cx| {
cx.stop_propagation();
if let Some(task) = editor.confirm_completion(
&ConfirmCompletion {
item_ix: Some(item_ix),
},
window,
cx,
) {
task.detach_and_log_err(cx)
}
}))
.start_slot::<AnyElement>(start_slot)
.child(h_flex().overflow_hidden().child(completion_label))
.end_slot::<Label>(documentation_label),
)
})
.collect()
},
)
.occlude()
.max_h(max_height_in_lines as f32 * window.line_height())
.track_scroll(self.scroll_handle.clone())
.y_flipped(y_flipped)
.with_width_from_item(widest_completion_ix)
.with_sizing_behavior(ListSizingBehavior::Infer);
Popover::new().child(list).into_any_element()
}
fn render_aside(
&mut self,
editor: &Editor,
max_size: Size<Pixels>,
window: &mut Window,
cx: &mut Context<Editor>,
) -> Option<AnyElement> {
if !self.show_completion_documentation {
return None;
}
let mat = &self.entries.borrow()[self.selected_item];
let multiline_docs = match self.completions.borrow_mut()[mat.candidate_id]
.documentation
.as_ref()?
{
CompletionDocumentation::MultiLinePlainText(text) => div().child(text.clone()),
CompletionDocumentation::MultiLineMarkdown(parsed) if !parsed.is_empty() => {
let markdown = self.markdown_element.get_or_insert_with(|| {
cx.new(|cx| {
let languages = editor
.workspace
.as_ref()
.and_then(|(workspace, _)| workspace.upgrade())
.map(|workspace| workspace.read(cx).app_state().languages.clone());
let language = editor
.language_at(self.initial_position, cx)
.map(|l| l.name().to_proto());
Markdown::new(
SharedString::default(),
hover_markdown_style(window, cx),
languages,
language,
cx,
)
.copy_code_block_buttons(false)
.open_url(open_markdown_url)
})
});
markdown.update(cx, |markdown, cx| {
markdown.reset(parsed.clone(), cx);
});
div().child(markdown.clone())
}
CompletionDocumentation::MultiLineMarkdown(_) => return None,
CompletionDocumentation::SingleLine(_) => return None,
CompletionDocumentation::Undocumented => return None,
};
Some(
Popover::new()
.child(
multiline_docs
.id("multiline_docs")
.px(MENU_ASIDE_X_PADDING / 2.)
.max_w(max_size.width)
.max_h(max_size.height)
.overflow_y_scroll()
.occlude(),
)
.into_any_element(),
)
}
pub async fn filter(&mut self, query: Option<&str>, executor: BackgroundExecutor) {
let mut matches = if let Some(query) = query {
fuzzy::match_strings(
&self.match_candidates,
query,
query.chars().any(|c| c.is_uppercase()),
100,
&Default::default(),
executor,
)
.await
} else {
self.match_candidates
.iter()
.enumerate()
.map(|(candidate_id, candidate)| StringMatch {
candidate_id,
score: Default::default(),
positions: Default::default(),
string: candidate.string.clone(),
})
.collect()
};
let mut additional_matches = Vec::new();
// Deprioritize all candidates where the query's start does not match the start of any word in the candidate
if let Some(query) = query {
if let Some(query_start) = query.chars().next() {
let (primary, secondary) = matches.into_iter().partition(|string_match| {
split_words(&string_match.string).any(|word| {
// Check that the first codepoint of the word as lowercase matches the first
// codepoint of the query as lowercase
word.chars()
.flat_map(|codepoint| codepoint.to_lowercase())
.zip(query_start.to_lowercase())
.all(|(word_cp, query_cp)| word_cp == query_cp)
})
});
matches = primary;
additional_matches = secondary;
}
}
let completions = self.completions.borrow_mut();
if self.sort_completions {
matches.sort_unstable_by_key(|mat| {
// We do want to strike a balance here between what the language server tells us
// to sort by (the sort_text) and what are "obvious" good matches (i.e. when you type
// `Creat` and there is a local variable called `CreateComponent`).
// So what we do is: we bucket all matches into two buckets
// - Strong matches
// - Weak matches
// Strong matches are the ones with a high fuzzy-matcher score (the "obvious" matches)
// and the Weak matches are the rest.
//
// For the strong matches, we sort by our fuzzy-finder score first and for the weak
// matches, we prefer language-server sort_text first.
//
// The thinking behind that: we want to show strong matches first in order of relevance(fuzzy score).
// Rest of the matches(weak) can be sorted as language-server expects.
#[derive(PartialEq, Eq, PartialOrd, Ord)]
enum MatchScore<'a> {
Strong {
score: Reverse<OrderedFloat<f64>>,
sort_text: Option<&'a str>,
sort_key: (usize, &'a str),
},
Weak {
sort_text: Option<&'a str>,
score: Reverse<OrderedFloat<f64>>,
sort_key: (usize, &'a str),
},
}
let completion = &completions[mat.candidate_id];
let sort_key = completion.sort_key();
let sort_text =
if let CompletionSource::Lsp { lsp_completion, .. } = &completion.source {
lsp_completion.sort_text.as_deref()
} else {
None
};
let score = Reverse(OrderedFloat(mat.score));
if mat.score >= 0.2 {
MatchScore::Strong {
score,
sort_text,
sort_key,
}
} else {
MatchScore::Weak {
sort_text,
score,
sort_key,
}
}
});
}
drop(completions);
matches.extend(additional_matches);
*self.entries.borrow_mut() = matches;
self.selected_item = 0;
// This keeps the display consistent when y_flipped.
self.scroll_handle.scroll_to_item(0, ScrollStrategy::Top);
}
}
#[derive(Clone)]
pub struct AvailableCodeAction {
pub excerpt_id: ExcerptId,
pub action: CodeAction,
pub provider: Rc<dyn CodeActionProvider>,
}
#[derive(Clone)]
pub struct CodeActionContents {
pub tasks: Option<Rc<ResolvedTasks>>,
pub actions: Option<Rc<[AvailableCodeAction]>>,
}
impl CodeActionContents {
fn len(&self) -> usize {
match (&self.tasks, &self.actions) {
(Some(tasks), Some(actions)) => actions.len() + tasks.templates.len(),
(Some(tasks), None) => tasks.templates.len(),
(None, Some(actions)) => actions.len(),
(None, None) => 0,
}
}
fn is_empty(&self) -> bool {
match (&self.tasks, &self.actions) {
(Some(tasks), Some(actions)) => actions.is_empty() && tasks.templates.is_empty(),
(Some(tasks), None) => tasks.templates.is_empty(),
(None, Some(actions)) => actions.is_empty(),
(None, None) => true,
}
}
fn iter(&self) -> impl Iterator<Item = CodeActionsItem> + '_ {
self.tasks
.iter()
.flat_map(|tasks| {
tasks
.templates
.iter()
.map(|(kind, task)| CodeActionsItem::Task(kind.clone(), task.clone()))
})
.chain(self.actions.iter().flat_map(|actions| {
actions.iter().map(|available| CodeActionsItem::CodeAction {
excerpt_id: available.excerpt_id,
action: available.action.clone(),
provider: available.provider.clone(),
})
}))
}
pub fn get(&self, index: usize) -> Option<CodeActionsItem> {
match (&self.tasks, &self.actions) {
(Some(tasks), Some(actions)) => {
if index < tasks.templates.len() {
tasks
.templates
.get(index)
.cloned()
.map(|(kind, task)| CodeActionsItem::Task(kind, task))
} else {
actions.get(index - tasks.templates.len()).map(|available| {
CodeActionsItem::CodeAction {
excerpt_id: available.excerpt_id,
action: available.action.clone(),
provider: available.provider.clone(),
}
})
}
}
(Some(tasks), None) => tasks
.templates
.get(index)
.cloned()
.map(|(kind, task)| CodeActionsItem::Task(kind, task)),
(None, Some(actions)) => {
actions
.get(index)
.map(|available| CodeActionsItem::CodeAction {
excerpt_id: available.excerpt_id,
action: available.action.clone(),
provider: available.provider.clone(),
})
}
(None, None) => None,
}
}
}
#[allow(clippy::large_enum_variant)]
#[derive(Clone)]
pub enum CodeActionsItem {
Task(TaskSourceKind, ResolvedTask),
CodeAction {
excerpt_id: ExcerptId,
action: CodeAction,
provider: Rc<dyn CodeActionProvider>,
},
}
impl CodeActionsItem {
fn as_task(&self) -> Option<&ResolvedTask> {
let Self::Task(_, task) = self else {
return None;
};
Some(task)
}
fn as_code_action(&self) -> Option<&CodeAction> {
let Self::CodeAction { action, .. } = self else {
return None;
};
Some(action)
}
pub fn label(&self) -> String {
match self {
Self::CodeAction { action, .. } => action.lsp_action.title().to_owned(),
Self::Task(_, task) => task.resolved_label.clone(),
}
}
}
pub struct CodeActionsMenu {
pub actions: CodeActionContents,
pub buffer: Entity<Buffer>,
pub selected_item: usize,
pub scroll_handle: UniformListScrollHandle,
pub deployed_from_indicator: Option<DisplayRow>,
}
impl CodeActionsMenu {
fn select_first(&mut self, cx: &mut Context<Editor>) {
self.selected_item = if self.scroll_handle.y_flipped() {
self.actions.len() - 1
} else {
0
};
self.scroll_handle
.scroll_to_item(self.selected_item, ScrollStrategy::Top);
cx.notify()
}
fn select_last(&mut self, cx: &mut Context<Editor>) {
self.selected_item = if self.scroll_handle.y_flipped() {
0
} else {
self.actions.len() - 1
};
self.scroll_handle
.scroll_to_item(self.selected_item, ScrollStrategy::Top);
cx.notify()
}
fn select_prev(&mut self, cx: &mut Context<Editor>) {
self.selected_item = if self.scroll_handle.y_flipped() {
self.next_match_index()
} else {
self.prev_match_index()
};
self.scroll_handle
.scroll_to_item(self.selected_item, ScrollStrategy::Top);
cx.notify();
}
fn select_next(&mut self, cx: &mut Context<Editor>) {
self.selected_item = if self.scroll_handle.y_flipped() {
self.prev_match_index()
} else {
self.next_match_index()
};
self.scroll_handle
.scroll_to_item(self.selected_item, ScrollStrategy::Top);
cx.notify();
}
fn prev_match_index(&self) -> usize {
if self.selected_item > 0 {
self.selected_item - 1
} else {
self.actions.len() - 1
}
}
fn next_match_index(&self) -> usize {
if self.selected_item + 1 < self.actions.len() {
self.selected_item + 1
} else {
0
}
}
fn visible(&self) -> bool {
!self.actions.is_empty()
}
fn origin(&self) -> ContextMenuOrigin {
if let Some(row) = self.deployed_from_indicator {
ContextMenuOrigin::GutterIndicator(row)
} else {
ContextMenuOrigin::Cursor
}
}
fn render(
&self,
_style: &EditorStyle,
max_height_in_lines: u32,
y_flipped: bool,
window: &mut Window,
cx: &mut Context<Editor>,
) -> AnyElement {
let actions = self.actions.clone();
let selected_item = self.selected_item;
let list = uniform_list(
cx.entity().clone(),
"code_actions_menu",
self.actions.len(),
move |_this, range, _, cx| {
actions
.iter()
.skip(range.start)
.take(range.end - range.start)
.filter(|action| {
if action
.as_task()
.map(|task| matches!(task.task_type(), task::TaskType::Debug(_)))
.unwrap_or(false)
{
cx.has_flag::<Debugger>()
} else {
true
}
})
.enumerate()
.map(|(ix, action)| {
let item_ix = range.start + ix;
let selected = item_ix == selected_item;
let colors = cx.theme().colors();
div().min_w(px(220.)).max_w(px(540.)).child(
ListItem::new(item_ix)
.inset(true)
.toggle_state(selected)
.when_some(action.as_code_action(), |this, action| {
this.on_click(cx.listener(move |editor, _, window, cx| {
cx.stop_propagation();
if let Some(task) = editor.confirm_code_action(
&ConfirmCodeAction {
item_ix: Some(item_ix),
},
window,
cx,
) {
task.detach_and_log_err(cx)
}
}))
.child(
h_flex()
.overflow_hidden()
.child(
// TASK: It would be good to make lsp_action.title a SharedString to avoid allocating here.
action.lsp_action.title().replace("\n", ""),
)
.when(selected, |this| {
this.text_color(colors.text_accent)
}),
)
})
.when_some(action.as_task(), |this, task| {
this.on_click(cx.listener(move |editor, _, window, cx| {
cx.stop_propagation();
if let Some(task) = editor.confirm_code_action(
&ConfirmCodeAction {
item_ix: Some(item_ix),
},
window,
cx,
) {
task.detach_and_log_err(cx)
}
}))
.child(
h_flex()
.overflow_hidden()
.child(task.resolved_label.replace("\n", ""))
.when(selected, |this| {
this.text_color(colors.text_accent)
}),
)
}),
)
})
.collect()
},
)
.occlude()
.max_h(max_height_in_lines as f32 * window.line_height())
.track_scroll(self.scroll_handle.clone())
.y_flipped(y_flipped)
.with_width_from_item(
self.actions
.iter()
.enumerate()
.max_by_key(|(_, action)| match action {
CodeActionsItem::Task(_, task) => task.resolved_label.chars().count(),
CodeActionsItem::CodeAction { action, .. } => {
action.lsp_action.title().chars().count()
}
})
.map(|(ix, _)| ix),
)
.with_sizing_behavior(ListSizingBehavior::Infer);
Popover::new().child(list).into_any_element()
}
}
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