use crate::{ display_map::{InlayOffset, ToDisplayPoint}, link_go_to_definition::{InlayHighlight, RangeInEditor}, Anchor, AnchorRangeExt, DisplayPoint, Editor, EditorSettings, EditorSnapshot, EditorStyle, ExcerptId, RangeToAnchorExt, }; use futures::FutureExt; use gpui::{ actions, div, px, AnyElement, CursorStyle, Hsla, InteractiveElement, IntoElement, Model, MouseButton, ParentElement, Pixels, SharedString, Size, StatefulInteractiveElement, Styled, Task, ViewContext, WeakView, }; use language::{markdown, Bias, DiagnosticEntry, Language, LanguageRegistry, ParsedMarkdown}; use lsp::DiagnosticSeverity; use project::{HoverBlock, HoverBlockKind, InlayHintLabelPart, Project}; use settings::Settings; use std::{ops::Range, sync::Arc, time::Duration}; use ui::{StyledExt, Tooltip}; use util::TryFutureExt; use workspace::Workspace; pub const HOVER_DELAY_MILLIS: u64 = 350; pub const HOVER_REQUEST_DELAY_MILLIS: u64 = 200; pub const MIN_POPOVER_CHARACTER_WIDTH: f32 = 20.; pub const MIN_POPOVER_LINE_HEIGHT: Pixels = px(4.); pub const HOVER_POPOVER_GAP: Pixels = px(10.); actions!(editor, [Hover]); /// Bindable action which uses the most recent selection head to trigger a hover pub fn hover(editor: &mut Editor, _: &Hover, cx: &mut ViewContext) { let head = editor.selections.newest_display(cx).head(); show_hover(editor, head, true, cx); } /// The internal hover action dispatches between `show_hover` or `hide_hover` /// depending on whether a point to hover over is provided. pub fn hover_at(editor: &mut Editor, point: Option, cx: &mut ViewContext) { if EditorSettings::get_global(cx).hover_popover_enabled { if let Some(point) = point { show_hover(editor, point, false, cx); } else { hide_hover(editor, cx); } } } pub struct InlayHover { pub excerpt: ExcerptId, pub range: InlayHighlight, pub tooltip: HoverBlock, } pub fn find_hovered_hint_part( label_parts: Vec, hint_start: InlayOffset, hovered_offset: InlayOffset, ) -> Option<(InlayHintLabelPart, Range)> { if hovered_offset >= hint_start { let mut hovered_character = (hovered_offset - hint_start).0; let mut part_start = hint_start; for part in label_parts { let part_len = part.value.chars().count(); if hovered_character > part_len { hovered_character -= part_len; part_start.0 += part_len; } else { let part_end = InlayOffset(part_start.0 + part_len); return Some((part, part_start..part_end)); } } } None } pub fn hover_at_inlay(editor: &mut Editor, inlay_hover: InlayHover, cx: &mut ViewContext) { if EditorSettings::get_global(cx).hover_popover_enabled { if editor.pending_rename.is_some() { return; } let Some(project) = editor.project.clone() else { return; }; if let Some(InfoPopover { symbol_range, .. }) = &editor.hover_state.info_popover { if let RangeInEditor::Inlay(range) = symbol_range { if range == &inlay_hover.range { // Hover triggered from same location as last time. Don't show again. return; } } hide_hover(editor, cx); } let task = cx.spawn(|this, mut cx| { async move { cx.background_executor() .timer(Duration::from_millis(HOVER_DELAY_MILLIS)) .await; this.update(&mut cx, |this, _| { this.hover_state.diagnostic_popover = None; })?; let language_registry = project.update(&mut cx, |p, _| p.languages().clone())?; let blocks = vec![inlay_hover.tooltip]; let parsed_content = parse_blocks(&blocks, &language_registry, None).await; let hover_popover = InfoPopover { project: project.clone(), symbol_range: RangeInEditor::Inlay(inlay_hover.range.clone()), blocks, parsed_content, }; this.update(&mut cx, |this, cx| { // Highlight the selected symbol using a background highlight this.highlight_inlay_background::( vec![inlay_hover.range], |theme| theme.element_hover, // todo!("use a proper background here") cx, ); this.hover_state.info_popover = Some(hover_popover); cx.notify(); })?; anyhow::Ok(()) } .log_err() }); editor.hover_state.info_task = Some(task); } } /// Hides the type information popup. /// Triggered by the `Hover` action when the cursor is not over a symbol or when the /// selections changed. pub fn hide_hover(editor: &mut Editor, cx: &mut ViewContext) -> bool { let did_hide = editor.hover_state.info_popover.take().is_some() | editor.hover_state.diagnostic_popover.take().is_some(); editor.hover_state.info_task = None; editor.hover_state.triggered_from = None; editor.clear_background_highlights::(cx); if did_hide { cx.notify(); } did_hide } /// Queries the LSP and shows type info and documentation /// about the symbol the mouse is currently hovering over. /// Triggered by the `Hover` action when the cursor may be over a symbol. fn show_hover( editor: &mut Editor, point: DisplayPoint, ignore_timeout: bool, cx: &mut ViewContext, ) { if editor.pending_rename.is_some() { return; } let snapshot = editor.snapshot(cx); let multibuffer_offset = point.to_offset(&snapshot.display_snapshot, Bias::Left); let (buffer, buffer_position) = if let Some(output) = editor .buffer .read(cx) .text_anchor_for_position(multibuffer_offset, cx) { output } else { return; }; let excerpt_id = if let Some((excerpt_id, _, _)) = editor .buffer() .read(cx) .excerpt_containing(multibuffer_offset, cx) { excerpt_id } else { return; }; let project = if let Some(project) = editor.project.clone() { project } else { return; }; if !ignore_timeout { if let Some(InfoPopover { symbol_range, .. }) = &editor.hover_state.info_popover { if symbol_range .as_text_range() .map(|range| { range .to_offset(&snapshot.buffer_snapshot) .contains(&multibuffer_offset) }) .unwrap_or(false) { // Hover triggered from same location as last time. Don't show again. return; } else { hide_hover(editor, cx); } } } // Get input anchor let anchor = snapshot .buffer_snapshot .anchor_at(multibuffer_offset, Bias::Left); // Don't request again if the location is the same as the previous request if let Some(triggered_from) = &editor.hover_state.triggered_from { if triggered_from .cmp(&anchor, &snapshot.buffer_snapshot) .is_eq() { return; } } let task = cx.spawn(|this, mut cx| { async move { // If we need to delay, delay a set amount initially before making the lsp request let delay = if !ignore_timeout { // Construct delay task to wait for later let total_delay = Some( cx.background_executor() .timer(Duration::from_millis(HOVER_DELAY_MILLIS)), ); cx.background_executor() .timer(Duration::from_millis(HOVER_REQUEST_DELAY_MILLIS)) .await; total_delay } else { None }; // query the LSP for hover info let hover_request = cx.update(|_, cx| { project.update(cx, |project, cx| { project.hover(&buffer, buffer_position, cx) }) })?; if let Some(delay) = delay { delay.await; } // If there's a diagnostic, assign it on the hover state and notify let local_diagnostic = snapshot .buffer_snapshot .diagnostics_in_range::<_, usize>(multibuffer_offset..multibuffer_offset, false) // Find the entry with the most specific range .min_by_key(|entry| entry.range.end - entry.range.start) .map(|entry| DiagnosticEntry { diagnostic: entry.diagnostic, range: entry.range.to_anchors(&snapshot.buffer_snapshot), }); // Pull the primary diagnostic out so we can jump to it if the popover is clicked let primary_diagnostic = local_diagnostic.as_ref().and_then(|local_diagnostic| { snapshot .buffer_snapshot .diagnostic_group::(local_diagnostic.diagnostic.group_id) .find(|diagnostic| diagnostic.diagnostic.is_primary) .map(|entry| DiagnosticEntry { diagnostic: entry.diagnostic, range: entry.range.to_anchors(&snapshot.buffer_snapshot), }) }); this.update(&mut cx, |this, _| { this.hover_state.diagnostic_popover = local_diagnostic.map(|local_diagnostic| DiagnosticPopover { local_diagnostic, primary_diagnostic, }); })?; let hover_result = hover_request.await.ok().flatten(); let hover_popover = match hover_result { Some(hover_result) if !hover_result.is_empty() => { // Create symbol range of anchors for highlighting and filtering of future requests. let range = if let Some(range) = hover_result.range { let start = snapshot .buffer_snapshot .anchor_in_excerpt(excerpt_id.clone(), range.start); let end = snapshot .buffer_snapshot .anchor_in_excerpt(excerpt_id.clone(), range.end); start..end } else { anchor..anchor }; let language_registry = project.update(&mut cx, |p, _| p.languages().clone())?; let blocks = hover_result.contents; let language = hover_result.language; let parsed_content = parse_blocks(&blocks, &language_registry, language).await; Some(InfoPopover { project: project.clone(), symbol_range: RangeInEditor::Text(range), blocks, parsed_content, }) } _ => None, }; this.update(&mut cx, |this, cx| { if let Some(symbol_range) = hover_popover .as_ref() .and_then(|hover_popover| hover_popover.symbol_range.as_text_range()) { // Highlight the selected symbol using a background highlight this.highlight_background::( vec![symbol_range], |theme| theme.element_hover, // todo! update theme cx, ); } else { this.clear_background_highlights::(cx); } this.hover_state.info_popover = hover_popover; cx.notify(); })?; Ok::<_, anyhow::Error>(()) } .log_err() }); editor.hover_state.info_task = Some(task); } async fn parse_blocks( blocks: &[HoverBlock], language_registry: &Arc, language: Option>, ) -> markdown::ParsedMarkdown { let mut text = String::new(); let mut highlights = Vec::new(); let mut region_ranges = Vec::new(); let mut regions = Vec::new(); for block in blocks { match &block.kind { HoverBlockKind::PlainText => { markdown::new_paragraph(&mut text, &mut Vec::new()); text.push_str(&block.text); } HoverBlockKind::Markdown => { markdown::parse_markdown_block( &block.text, language_registry, language.clone(), &mut text, &mut highlights, &mut region_ranges, &mut regions, ) .await } HoverBlockKind::Code { language } => { if let Some(language) = language_registry .language_for_name(language) .now_or_never() .and_then(Result::ok) { markdown::highlight_code(&mut text, &mut highlights, &block.text, &language); } else { text.push_str(&block.text); } } } } ParsedMarkdown { text: text.trim().to_string(), highlights, region_ranges, regions, } } #[derive(Default)] pub struct HoverState { pub info_popover: Option, pub diagnostic_popover: Option, pub triggered_from: Option, pub info_task: Option>>, } impl HoverState { pub fn visible(&self) -> bool { self.info_popover.is_some() || self.diagnostic_popover.is_some() } pub fn render( &mut self, snapshot: &EditorSnapshot, style: &EditorStyle, visible_rows: Range, max_size: Size, workspace: Option>, cx: &mut ViewContext, ) -> Option<(DisplayPoint, Vec)> { // If there is a diagnostic, position the popovers based on that. // Otherwise use the start of the hover range let anchor = self .diagnostic_popover .as_ref() .map(|diagnostic_popover| &diagnostic_popover.local_diagnostic.range.start) .or_else(|| { self.info_popover .as_ref() .map(|info_popover| match &info_popover.symbol_range { RangeInEditor::Text(range) => &range.start, RangeInEditor::Inlay(range) => &range.inlay_position, }) })?; let point = anchor.to_display_point(&snapshot.display_snapshot); // Don't render if the relevant point isn't on screen if !self.visible() || !visible_rows.contains(&point.row()) { return None; } let mut elements = Vec::new(); if let Some(diagnostic_popover) = self.diagnostic_popover.as_ref() { elements.push(diagnostic_popover.render(style, max_size, cx)); } if let Some(info_popover) = self.info_popover.as_mut() { elements.push(info_popover.render(style, max_size, workspace, cx)); } Some((point, elements)) } } #[derive(Debug, Clone)] pub struct InfoPopover { pub project: Model, symbol_range: RangeInEditor, pub blocks: Vec, parsed_content: ParsedMarkdown, } impl InfoPopover { pub fn render( &mut self, style: &EditorStyle, max_size: Size, workspace: Option>, cx: &mut ViewContext, ) -> AnyElement { div() .id("info_popover") .elevation_2(cx) .p_2() .overflow_y_scroll() .max_w(max_size.width) .max_h(max_size.height) // Prevent a mouse move on the popover from being propagated to the editor, // because that would dismiss the popover. .on_mouse_move(|_, cx| cx.stop_propagation()) .child(crate::render_parsed_markdown( "content", &self.parsed_content, style, workspace, cx, )) .into_any_element() } } #[derive(Debug, Clone)] pub struct DiagnosticPopover { local_diagnostic: DiagnosticEntry, primary_diagnostic: Option>, } impl DiagnosticPopover { pub fn render( &self, style: &EditorStyle, max_size: Size, cx: &mut ViewContext, ) -> AnyElement { let text = match &self.local_diagnostic.diagnostic.source { Some(source) => format!("{source}: {}", self.local_diagnostic.diagnostic.message), None => self.local_diagnostic.diagnostic.message.clone(), }; struct DiagnosticColors { pub text: Hsla, pub background: Hsla, pub border: Hsla, } let diagnostic_colors = match self.local_diagnostic.diagnostic.severity { DiagnosticSeverity::ERROR => DiagnosticColors { text: style.status.error, background: style.status.error_background, border: style.status.error_border, }, DiagnosticSeverity::WARNING => DiagnosticColors { text: style.status.warning, background: style.status.warning_background, border: style.status.warning_border, }, DiagnosticSeverity::INFORMATION => DiagnosticColors { text: style.status.info, background: style.status.info_background, border: style.status.info_border, }, DiagnosticSeverity::HINT => DiagnosticColors { text: style.status.hint, background: style.status.hint_background, border: style.status.hint_border, }, _ => DiagnosticColors { text: style.status.ignored, background: style.status.ignored_background, border: style.status.ignored_border, }, }; div() .id("diagnostic") .overflow_y_scroll() .px_2() .py_1() .bg(diagnostic_colors.background) .text_color(diagnostic_colors.text) .border_1() .border_color(diagnostic_colors.border) .rounded_md() .max_w(max_size.width) .max_h(max_size.height) .cursor(CursorStyle::PointingHand) .tooltip(move |cx| Tooltip::for_action("Go To Diagnostic", &crate::GoToDiagnostic, cx)) // Prevent a mouse move on the popover from being propagated to the editor, // because that would dismiss the popover. .on_mouse_move(|_, cx| cx.stop_propagation()) // Prevent a mouse down on the popover from being propagated to the editor, // because that would move the cursor. .on_mouse_down(MouseButton::Left, |_, cx| cx.stop_propagation()) .on_click(cx.listener(|editor, _, cx| editor.go_to_diagnostic(&Default::default(), cx))) .child(SharedString::from(text)) .into_any_element() } pub fn activation_info(&self) -> (usize, Anchor) { let entry = self .primary_diagnostic .as_ref() .unwrap_or(&self.local_diagnostic); (entry.diagnostic.group_id, entry.range.start.clone()) } } #[cfg(test)] mod tests { use super::*; use crate::{ editor_tests::init_test, element::PointForPosition, inlay_hint_cache::tests::{cached_hint_labels, visible_hint_labels}, link_go_to_definition::update_inlay_link_and_hover_points, test::editor_lsp_test_context::EditorLspTestContext, InlayId, }; use collections::BTreeSet; use gpui::{FontWeight, HighlightStyle, UnderlineStyle}; use indoc::indoc; use language::{language_settings::InlayHintSettings, Diagnostic, DiagnosticSet}; use lsp::LanguageServerId; use project::{HoverBlock, HoverBlockKind}; use smol::stream::StreamExt; use unindent::Unindent; use util::test::marked_text_ranges; #[gpui::test] async fn test_mouse_hover_info_popover(cx: &mut gpui::TestAppContext) { init_test(cx, |_| {}); let mut cx = EditorLspTestContext::new_rust( lsp::ServerCapabilities { hover_provider: Some(lsp::HoverProviderCapability::Simple(true)), ..Default::default() }, cx, ) .await; // Basic hover delays and then pops without moving the mouse cx.set_state(indoc! {" fn ˇtest() { println!(); } "}); let hover_point = cx.display_point(indoc! {" fn test() { printˇln!(); } "}); cx.update_editor(|editor, cx| hover_at(editor, Some(hover_point), cx)); assert!(!cx.editor(|editor, _| editor.hover_state.visible())); // After delay, hover should be visible. let symbol_range = cx.lsp_range(indoc! {" fn test() { «println!»(); } "}); let mut requests = cx.handle_request::(move |_, _, _| async move { Ok(Some(lsp::Hover { contents: lsp::HoverContents::Markup(lsp::MarkupContent { kind: lsp::MarkupKind::Markdown, value: "some basic docs".to_string(), }), range: Some(symbol_range), })) }); cx.background_executor .advance_clock(Duration::from_millis(HOVER_DELAY_MILLIS + 100)); requests.next().await; cx.editor(|editor, _| { assert!(editor.hover_state.visible()); assert_eq!( editor.hover_state.info_popover.clone().unwrap().blocks, vec![HoverBlock { text: "some basic docs".to_string(), kind: HoverBlockKind::Markdown, },] ) }); // Mouse moved with no hover response dismisses let hover_point = cx.display_point(indoc! {" fn teˇst() { println!(); } "}); let mut request = cx .lsp .handle_request::(|_, _| async move { Ok(None) }); cx.update_editor(|editor, cx| hover_at(editor, Some(hover_point), cx)); cx.background_executor .advance_clock(Duration::from_millis(HOVER_DELAY_MILLIS + 100)); request.next().await; cx.editor(|editor, _| { assert!(!editor.hover_state.visible()); }); } #[gpui::test] async fn test_keyboard_hover_info_popover(cx: &mut gpui::TestAppContext) { init_test(cx, |_| {}); let mut cx = EditorLspTestContext::new_rust( lsp::ServerCapabilities { hover_provider: Some(lsp::HoverProviderCapability::Simple(true)), ..Default::default() }, cx, ) .await; // Hover with keyboard has no delay cx.set_state(indoc! {" fˇn test() { println!(); } "}); cx.update_editor(|editor, cx| hover(editor, &Hover, cx)); let symbol_range = cx.lsp_range(indoc! {" «fn» test() { println!(); } "}); cx.handle_request::(move |_, _, _| async move { Ok(Some(lsp::Hover { contents: lsp::HoverContents::Markup(lsp::MarkupContent { kind: lsp::MarkupKind::Markdown, value: "some other basic docs".to_string(), }), range: Some(symbol_range), })) }) .next() .await; cx.condition(|editor, _| editor.hover_state.visible()).await; cx.editor(|editor, _| { assert_eq!( editor.hover_state.info_popover.clone().unwrap().blocks, vec![HoverBlock { text: "some other basic docs".to_string(), kind: HoverBlockKind::Markdown, }] ) }); } #[gpui::test] async fn test_empty_hovers_filtered(cx: &mut gpui::TestAppContext) { init_test(cx, |_| {}); let mut cx = EditorLspTestContext::new_rust( lsp::ServerCapabilities { hover_provider: Some(lsp::HoverProviderCapability::Simple(true)), ..Default::default() }, cx, ) .await; // Hover with keyboard has no delay cx.set_state(indoc! {" fˇn test() { println!(); } "}); cx.update_editor(|editor, cx| hover(editor, &Hover, cx)); let symbol_range = cx.lsp_range(indoc! {" «fn» test() { println!(); } "}); cx.handle_request::(move |_, _, _| async move { Ok(Some(lsp::Hover { contents: lsp::HoverContents::Array(vec![ lsp::MarkedString::String("regular text for hover to show".to_string()), lsp::MarkedString::String("".to_string()), lsp::MarkedString::LanguageString(lsp::LanguageString { language: "Rust".to_string(), value: "".to_string(), }), ]), range: Some(symbol_range), })) }) .next() .await; cx.condition(|editor, _| editor.hover_state.visible()).await; cx.editor(|editor, _| { assert_eq!( editor.hover_state.info_popover.clone().unwrap().blocks, vec![HoverBlock { text: "regular text for hover to show".to_string(), kind: HoverBlockKind::Markdown, }], "No empty string hovers should be shown" ); }); } #[gpui::test] async fn test_line_ends_trimmed(cx: &mut gpui::TestAppContext) { init_test(cx, |_| {}); let mut cx = EditorLspTestContext::new_rust( lsp::ServerCapabilities { hover_provider: Some(lsp::HoverProviderCapability::Simple(true)), ..Default::default() }, cx, ) .await; // Hover with keyboard has no delay cx.set_state(indoc! {" fˇn test() { println!(); } "}); cx.update_editor(|editor, cx| hover(editor, &Hover, cx)); let symbol_range = cx.lsp_range(indoc! {" «fn» test() { println!(); } "}); let code_str = "\nlet hovered_point: Vector2F // size = 8, align = 0x4\n"; let markdown_string = format!("\n```rust\n{code_str}```"); let closure_markdown_string = markdown_string.clone(); cx.handle_request::(move |_, _, _| { let future_markdown_string = closure_markdown_string.clone(); async move { Ok(Some(lsp::Hover { contents: lsp::HoverContents::Markup(lsp::MarkupContent { kind: lsp::MarkupKind::Markdown, value: future_markdown_string, }), range: Some(symbol_range), })) } }) .next() .await; cx.condition(|editor, _| editor.hover_state.visible()).await; cx.editor(|editor, _| { let blocks = editor.hover_state.info_popover.clone().unwrap().blocks; assert_eq!( blocks, vec![HoverBlock { text: markdown_string, kind: HoverBlockKind::Markdown, }], ); let rendered = smol::block_on(parse_blocks(&blocks, &Default::default(), None)); assert_eq!( rendered.text, code_str.trim(), "Should not have extra line breaks at end of rendered hover" ); }); } #[gpui::test] async fn test_hover_diagnostic_and_info_popovers(cx: &mut gpui::TestAppContext) { init_test(cx, |_| {}); let mut cx = EditorLspTestContext::new_rust( lsp::ServerCapabilities { hover_provider: Some(lsp::HoverProviderCapability::Simple(true)), ..Default::default() }, cx, ) .await; // Hover with just diagnostic, pops DiagnosticPopover immediately and then // info popover once request completes cx.set_state(indoc! {" fn teˇst() { println!(); } "}); // Send diagnostic to client let range = cx.text_anchor_range(indoc! {" fn «test»() { println!(); } "}); cx.update_buffer(|buffer, cx| { let snapshot = buffer.text_snapshot(); let set = DiagnosticSet::from_sorted_entries( vec![DiagnosticEntry { range, diagnostic: Diagnostic { message: "A test diagnostic message.".to_string(), ..Default::default() }, }], &snapshot, ); buffer.update_diagnostics(LanguageServerId(0), set, cx); }); // Hover pops diagnostic immediately cx.update_editor(|editor, cx| hover(editor, &Hover, cx)); cx.background_executor.run_until_parked(); cx.editor(|Editor { hover_state, .. }, _| { assert!(hover_state.diagnostic_popover.is_some() && hover_state.info_popover.is_none()) }); // Info Popover shows after request responded to let range = cx.lsp_range(indoc! {" fn «test»() { println!(); } "}); cx.handle_request::(move |_, _, _| async move { Ok(Some(lsp::Hover { contents: lsp::HoverContents::Markup(lsp::MarkupContent { kind: lsp::MarkupKind::Markdown, value: "some new docs".to_string(), }), range: Some(range), })) }); cx.background_executor .advance_clock(Duration::from_millis(HOVER_DELAY_MILLIS + 100)); cx.background_executor.run_until_parked(); cx.editor(|Editor { hover_state, .. }, _| { hover_state.diagnostic_popover.is_some() && hover_state.info_task.is_some() }); } #[gpui::test] fn test_render_blocks(cx: &mut gpui::TestAppContext) { init_test(cx, |_| {}); let editor = cx.add_window(|cx| Editor::single_line(cx)); editor .update(cx, |editor, _cx| { let style = editor.style.clone().unwrap(); struct Row { blocks: Vec, expected_marked_text: String, expected_styles: Vec, } let rows = &[ // Strong emphasis Row { blocks: vec![HoverBlock { text: "one **two** three".to_string(), kind: HoverBlockKind::Markdown, }], expected_marked_text: "one «two» three".to_string(), expected_styles: vec![HighlightStyle { font_weight: Some(FontWeight::BOLD), ..Default::default() }], }, // Links Row { blocks: vec![HoverBlock { text: "one [two](https://the-url) three".to_string(), kind: HoverBlockKind::Markdown, }], expected_marked_text: "one «two» three".to_string(), expected_styles: vec![HighlightStyle { underline: Some(UnderlineStyle { thickness: 1.0.into(), ..Default::default() }), ..Default::default() }], }, // Lists Row { blocks: vec![HoverBlock { text: " lists: * one - a - b * two - [c](https://the-url) - d" .unindent(), kind: HoverBlockKind::Markdown, }], expected_marked_text: " lists: - one - a - b - two - «c» - d" .unindent(), expected_styles: vec![HighlightStyle { underline: Some(UnderlineStyle { thickness: 1.0.into(), ..Default::default() }), ..Default::default() }], }, // Multi-paragraph list items Row { blocks: vec![HoverBlock { text: " * one two three * four five * six seven eight nine * ten * six" .unindent(), kind: HoverBlockKind::Markdown, }], expected_marked_text: " - one two three - four five - six seven eight nine - ten - six" .unindent(), expected_styles: vec![HighlightStyle { underline: Some(UnderlineStyle { thickness: 1.0.into(), ..Default::default() }), ..Default::default() }], }, ]; for Row { blocks, expected_marked_text, expected_styles, } in &rows[0..] { let rendered = smol::block_on(parse_blocks(&blocks, &Default::default(), None)); let (expected_text, ranges) = marked_text_ranges(expected_marked_text, false); let expected_highlights = ranges .into_iter() .zip(expected_styles.iter().cloned()) .collect::>(); assert_eq!( rendered.text, expected_text, "wrong text for input {blocks:?}" ); let rendered_highlights: Vec<_> = rendered .highlights .iter() .filter_map(|(range, highlight)| { let highlight = highlight.to_highlight_style(&style.syntax)?; Some((range.clone(), highlight)) }) .collect(); assert_eq!( rendered_highlights, expected_highlights, "wrong highlights for input {blocks:?}" ); } }) .unwrap(); } #[gpui::test] async fn test_hover_inlay_label_parts(cx: &mut gpui::TestAppContext) { init_test(cx, |settings| { settings.defaults.inlay_hints = Some(InlayHintSettings { enabled: true, show_type_hints: true, show_parameter_hints: true, show_other_hints: true, }) }); let mut cx = EditorLspTestContext::new_rust( lsp::ServerCapabilities { inlay_hint_provider: Some(lsp::OneOf::Right( lsp::InlayHintServerCapabilities::Options(lsp::InlayHintOptions { resolve_provider: Some(true), ..Default::default() }), )), ..Default::default() }, cx, ) .await; cx.set_state(indoc! {" struct TestStruct; // ================== struct TestNewType(T); fn main() { let variableˇ = TestNewType(TestStruct); } "}); let hint_start_offset = cx.ranges(indoc! {" struct TestStruct; // ================== struct TestNewType(T); fn main() { let variableˇ = TestNewType(TestStruct); } "})[0] .start; let hint_position = cx.to_lsp(hint_start_offset); let new_type_target_range = cx.lsp_range(indoc! {" struct TestStruct; // ================== struct «TestNewType»(T); fn main() { let variable = TestNewType(TestStruct); } "}); let struct_target_range = cx.lsp_range(indoc! {" struct «TestStruct»; // ================== struct TestNewType(T); fn main() { let variable = TestNewType(TestStruct); } "}); let uri = cx.buffer_lsp_url.clone(); let new_type_label = "TestNewType"; let struct_label = "TestStruct"; let entire_hint_label = ": TestNewType"; let closure_uri = uri.clone(); cx.lsp .handle_request::(move |params, _| { let task_uri = closure_uri.clone(); async move { assert_eq!(params.text_document.uri, task_uri); Ok(Some(vec![lsp::InlayHint { position: hint_position, label: lsp::InlayHintLabel::LabelParts(vec![lsp::InlayHintLabelPart { value: entire_hint_label.to_string(), ..Default::default() }]), kind: Some(lsp::InlayHintKind::TYPE), text_edits: None, tooltip: None, padding_left: Some(false), padding_right: Some(false), data: None, }])) } }) .next() .await; cx.background_executor.run_until_parked(); cx.update_editor(|editor, cx| { let expected_layers = vec![entire_hint_label.to_string()]; assert_eq!(expected_layers, cached_hint_labels(editor)); assert_eq!(expected_layers, visible_hint_labels(editor, cx)); }); let inlay_range = cx .ranges(indoc! {" struct TestStruct; // ================== struct TestNewType(T); fn main() { let variable« »= TestNewType(TestStruct); } "}) .get(0) .cloned() .unwrap(); let new_type_hint_part_hover_position = cx.update_editor(|editor, cx| { let snapshot = editor.snapshot(cx); let previous_valid = inlay_range.start.to_display_point(&snapshot); let next_valid = inlay_range.end.to_display_point(&snapshot); assert_eq!(previous_valid.row(), next_valid.row()); assert!(previous_valid.column() < next_valid.column()); let exact_unclipped = DisplayPoint::new( previous_valid.row(), previous_valid.column() + (entire_hint_label.find(new_type_label).unwrap() + new_type_label.len() / 2) as u32, ); PointForPosition { previous_valid, next_valid, exact_unclipped, column_overshoot_after_line_end: 0, } }); cx.update_editor(|editor, cx| { update_inlay_link_and_hover_points( &editor.snapshot(cx), new_type_hint_part_hover_position, editor, true, false, cx, ); }); let resolve_closure_uri = uri.clone(); cx.lsp .handle_request::( move |mut hint_to_resolve, _| { let mut resolved_hint_positions = BTreeSet::new(); let task_uri = resolve_closure_uri.clone(); async move { let inserted = resolved_hint_positions.insert(hint_to_resolve.position); assert!(inserted, "Hint {hint_to_resolve:?} was resolved twice"); // `: TestNewType` hint_to_resolve.label = lsp::InlayHintLabel::LabelParts(vec![ lsp::InlayHintLabelPart { value: ": ".to_string(), ..Default::default() }, lsp::InlayHintLabelPart { value: new_type_label.to_string(), location: Some(lsp::Location { uri: task_uri.clone(), range: new_type_target_range, }), tooltip: Some(lsp::InlayHintLabelPartTooltip::String(format!( "A tooltip for `{new_type_label}`" ))), ..Default::default() }, lsp::InlayHintLabelPart { value: "<".to_string(), ..Default::default() }, lsp::InlayHintLabelPart { value: struct_label.to_string(), location: Some(lsp::Location { uri: task_uri, range: struct_target_range, }), tooltip: Some(lsp::InlayHintLabelPartTooltip::MarkupContent( lsp::MarkupContent { kind: lsp::MarkupKind::Markdown, value: format!("A tooltip for `{struct_label}`"), }, )), ..Default::default() }, lsp::InlayHintLabelPart { value: ">".to_string(), ..Default::default() }, ]); Ok(hint_to_resolve) } }, ) .next() .await; cx.background_executor.run_until_parked(); cx.update_editor(|editor, cx| { update_inlay_link_and_hover_points( &editor.snapshot(cx), new_type_hint_part_hover_position, editor, true, false, cx, ); }); cx.background_executor .advance_clock(Duration::from_millis(HOVER_DELAY_MILLIS + 100)); cx.background_executor.run_until_parked(); cx.update_editor(|editor, cx| { let hover_state = &editor.hover_state; assert!(hover_state.diagnostic_popover.is_none() && hover_state.info_popover.is_some()); let popover = hover_state.info_popover.as_ref().unwrap(); let buffer_snapshot = editor.buffer().update(cx, |buffer, cx| buffer.snapshot(cx)); assert_eq!( popover.symbol_range, RangeInEditor::Inlay(InlayHighlight { inlay: InlayId::Hint(0), inlay_position: buffer_snapshot.anchor_at(inlay_range.start, Bias::Right), range: ": ".len()..": ".len() + new_type_label.len(), }), "Popover range should match the new type label part" ); assert_eq!( popover.parsed_content.text, format!("A tooltip for `{new_type_label}`"), "Rendered text should not anyhow alter backticks" ); }); let struct_hint_part_hover_position = cx.update_editor(|editor, cx| { let snapshot = editor.snapshot(cx); let previous_valid = inlay_range.start.to_display_point(&snapshot); let next_valid = inlay_range.end.to_display_point(&snapshot); assert_eq!(previous_valid.row(), next_valid.row()); assert!(previous_valid.column() < next_valid.column()); let exact_unclipped = DisplayPoint::new( previous_valid.row(), previous_valid.column() + (entire_hint_label.find(struct_label).unwrap() + struct_label.len() / 2) as u32, ); PointForPosition { previous_valid, next_valid, exact_unclipped, column_overshoot_after_line_end: 0, } }); cx.update_editor(|editor, cx| { update_inlay_link_and_hover_points( &editor.snapshot(cx), struct_hint_part_hover_position, editor, true, false, cx, ); }); cx.background_executor .advance_clock(Duration::from_millis(HOVER_DELAY_MILLIS + 100)); cx.background_executor.run_until_parked(); cx.update_editor(|editor, cx| { let hover_state = &editor.hover_state; assert!(hover_state.diagnostic_popover.is_none() && hover_state.info_popover.is_some()); let popover = hover_state.info_popover.as_ref().unwrap(); let buffer_snapshot = editor.buffer().update(cx, |buffer, cx| buffer.snapshot(cx)); assert_eq!( popover.symbol_range, RangeInEditor::Inlay(InlayHighlight { inlay: InlayId::Hint(0), inlay_position: buffer_snapshot.anchor_at(inlay_range.start, Bias::Right), range: ": ".len() + new_type_label.len() + "<".len() ..": ".len() + new_type_label.len() + "<".len() + struct_label.len(), }), "Popover range should match the struct label part" ); assert_eq!( popover.parsed_content.text, format!("A tooltip for {struct_label}"), "Rendered markdown element should remove backticks from text" ); }); } }