use helix_lsp::{ block_on, lsp::{self, CodeAction, CodeActionOrCommand, DiagnosticSeverity, NumberOrString}, util::{diagnostic_to_lsp_diagnostic, lsp_pos_to_pos, lsp_range_to_range, range_to_lsp_range}, OffsetEncoding, }; use tui::text::{Span, Spans}; use super::{align_view, push_jump, Align, Context, Editor, Open}; use helix_core::{path, Selection}; use helix_view::{apply_transaction, document::Mode, editor::Action, theme::Style}; use crate::{ compositor::{self, Compositor}, ui::{ self, lsp::SignatureHelp, overlay::overlayed, FileLocation, FilePicker, Popup, PromptEvent, }, }; use std::{ borrow::Cow, cmp::Ordering, collections::BTreeMap, fmt::Write, path::PathBuf, sync::Arc, }; /// Gets the language server that is attached to a document, and /// if it's not active displays a status message. Using this macro /// in a context where the editor automatically queries the LSP /// (instead of when the user explicitly does so via a keybind like /// `gd`) will spam the "LSP inactive" status message confusingly. #[macro_export] macro_rules! language_server { ($editor:expr, $doc:expr) => { match $doc.language_server() { Some(language_server) => language_server, None => { $editor.set_status("Language server not active for current buffer"); return; } } }; } impl ui::menu::Item for lsp::Location { /// Current working directory. type Data = PathBuf; fn label(&self, cwdir: &Self::Data) -> Spans { // The preallocation here will overallocate a few characters since it will account for the // URL's scheme, which is not used most of the time since that scheme will be "file://". // Those extra chars will be used to avoid allocating when writing the line number (in the // common case where it has 5 digits or less, which should be enough for a cast majority // of usages). let mut res = String::with_capacity(self.uri.as_str().len()); if self.uri.scheme() == "file" { // With the preallocation above and UTF-8 paths already, this closure will do one (1) // allocation, for `to_file_path`, else there will be two (2), with `to_string_lossy`. let mut write_path_to_res = || -> Option<()> { let path = self.uri.to_file_path().ok()?; res.push_str(&path.strip_prefix(cwdir).unwrap_or(&path).to_string_lossy()); Some(()) }; write_path_to_res(); } else { // Never allocates since we declared the string with this capacity already. res.push_str(self.uri.as_str()); } // Most commonly, this will not allocate, especially on Unix systems where the root prefix // is a simple `/` and not `C:\` (with whatever drive letter) write!(&mut res, ":{}", self.range.start.line) .expect("Will only failed if allocating fail"); res.into() } } impl ui::menu::Item for lsp::SymbolInformation { /// Path to currently focussed document type Data = Option; fn label(&self, current_doc_path: &Self::Data) -> Spans { if current_doc_path.as_ref() == Some(&self.location.uri) { self.name.as_str().into() } else { match self.location.uri.to_file_path() { Ok(path) => { let get_relative_path = path::get_relative_path(path.as_path()); format!("{} ({})", &self.name, get_relative_path.to_string_lossy()).into() } Err(_) => format!("{} ({})", &self.name, &self.location.uri).into(), } } } } struct DiagnosticStyles { hint: Style, info: Style, warning: Style, error: Style, } struct PickerDiagnostic { url: lsp::Url, diag: lsp::Diagnostic, } impl ui::menu::Item for PickerDiagnostic { type Data = (DiagnosticStyles, DiagnosticsFormat); fn label(&self, (styles, format): &Self::Data) -> Spans { let mut style = self .diag .severity .map(|s| match s { DiagnosticSeverity::HINT => styles.hint, DiagnosticSeverity::INFORMATION => styles.info, DiagnosticSeverity::WARNING => styles.warning, DiagnosticSeverity::ERROR => styles.error, _ => Style::default(), }) .unwrap_or_default(); // remove background as it is distracting in the picker list style.bg = None; let code: Cow<'_, str> = self .diag .code .as_ref() .map(|c| match c { NumberOrString::Number(n) => n.to_string().into(), NumberOrString::String(s) => s.as_str().into(), }) .unwrap_or_default(); let path = match format { DiagnosticsFormat::HideSourcePath => String::new(), DiagnosticsFormat::ShowSourcePath => { let path = path::get_truncated_path(self.url.path()); format!("{}: ", path.to_string_lossy()) } }; Spans::from(vec![ Span::raw(path), Span::styled(&self.diag.message, style), Span::styled(code, style), ]) } } fn location_to_file_location(location: &lsp::Location) -> FileLocation { let path = location.uri.to_file_path().unwrap(); let line = Some(( location.range.start.line as usize, location.range.end.line as usize, )); (path, line) } // TODO: share with symbol picker(symbol.location) fn jump_to_location( editor: &mut Editor, location: &lsp::Location, offset_encoding: OffsetEncoding, action: Action, ) { let (view, doc) = current!(editor); push_jump(view, doc); let path = match location.uri.to_file_path() { Ok(path) => path, Err(_) => { let err = format!("unable to convert URI to filepath: {}", location.uri); editor.set_error(err); return; } }; match editor.open(&path, action) { Ok(_) => (), Err(err) => { let err = format!("failed to open path: {:?}: {:?}", location.uri, err); editor.set_error(err); return; } } let (view, doc) = current!(editor); let definition_pos = location.range.start; // TODO: convert inside server let new_pos = if let Some(new_pos) = lsp_pos_to_pos(doc.text(), definition_pos, offset_encoding) { new_pos } else { return; }; doc.set_selection(view.id, Selection::point(new_pos)); align_view(doc, view, Align::Center); } fn sym_picker( symbols: Vec, current_path: Option, offset_encoding: OffsetEncoding, ) -> FilePicker { // TODO: drop current_path comparison and instead use workspace: bool flag? FilePicker::new( symbols, current_path.clone(), move |cx, symbol, action| { let (view, doc) = current!(cx.editor); push_jump(view, doc); if current_path.as_ref() != Some(&symbol.location.uri) { let uri = &symbol.location.uri; let path = match uri.to_file_path() { Ok(path) => path, Err(_) => { let err = format!("unable to convert URI to filepath: {}", uri); cx.editor.set_error(err); return; } }; if let Err(err) = cx.editor.open(&path, action) { let err = format!("failed to open document: {}: {}", uri, err); log::error!("{}", err); cx.editor.set_error(err); return; } } let (view, doc) = current!(cx.editor); if let Some(range) = lsp_range_to_range(doc.text(), symbol.location.range, offset_encoding) { // we flip the range so that the cursor sits on the start of the symbol // (for example start of the function). doc.set_selection(view.id, Selection::single(range.head, range.anchor)); align_view(doc, view, Align::Center); } }, move |_editor, symbol| Some(location_to_file_location(&symbol.location)), ) .truncate_start(false) } #[derive(Copy, Clone, PartialEq)] enum DiagnosticsFormat { ShowSourcePath, HideSourcePath, } fn diag_picker( cx: &Context, diagnostics: BTreeMap>, current_path: Option, format: DiagnosticsFormat, offset_encoding: OffsetEncoding, ) -> FilePicker { // TODO: drop current_path comparison and instead use workspace: bool flag? // flatten the map to a vec of (url, diag) pairs let mut flat_diag = Vec::new(); for (url, diags) in diagnostics { flat_diag.reserve(diags.len()); for diag in diags { flat_diag.push(PickerDiagnostic { url: url.clone(), diag, }); } } let styles = DiagnosticStyles { hint: cx.editor.theme.get("hint"), info: cx.editor.theme.get("info"), warning: cx.editor.theme.get("warning"), error: cx.editor.theme.get("error"), }; FilePicker::new( flat_diag, (styles, format), move |cx, PickerDiagnostic { url, diag }, action| { if current_path.as_ref() == Some(url) { let (view, doc) = current!(cx.editor); push_jump(view, doc); } else { let path = url.to_file_path().unwrap(); cx.editor.open(&path, action).expect("editor.open failed"); } let (view, doc) = current!(cx.editor); if let Some(range) = lsp_range_to_range(doc.text(), diag.range, offset_encoding) { // we flip the range so that the cursor sits on the start of the symbol // (for example start of the function). doc.set_selection(view.id, Selection::single(range.head, range.anchor)); align_view(doc, view, Align::Center); } }, move |_editor, PickerDiagnostic { url, diag }| { let location = lsp::Location::new(url.clone(), diag.range); Some(location_to_file_location(&location)) }, ) .truncate_start(false) } pub fn symbol_picker(cx: &mut Context) { fn nested_to_flat( list: &mut Vec, file: &lsp::TextDocumentIdentifier, symbol: lsp::DocumentSymbol, ) { #[allow(deprecated)] list.push(lsp::SymbolInformation { name: symbol.name, kind: symbol.kind, tags: symbol.tags, deprecated: symbol.deprecated, location: lsp::Location::new(file.uri.clone(), symbol.selection_range), container_name: None, }); for child in symbol.children.into_iter().flatten() { nested_to_flat(list, file, child); } } let doc = doc!(cx.editor); let language_server = language_server!(cx.editor, doc); let current_url = doc.url(); let offset_encoding = language_server.offset_encoding(); let future = language_server.document_symbols(doc.identifier()); cx.callback( future, move |editor, compositor, response: Option| { if let Some(symbols) = response { // lsp has two ways to represent symbols (flat/nested) // convert the nested variant to flat, so that we have a homogeneous list let symbols = match symbols { lsp::DocumentSymbolResponse::Flat(symbols) => symbols, lsp::DocumentSymbolResponse::Nested(symbols) => { let doc = doc!(editor); let mut flat_symbols = Vec::new(); for symbol in symbols { nested_to_flat(&mut flat_symbols, &doc.identifier(), symbol) } flat_symbols } }; let picker = sym_picker(symbols, current_url, offset_encoding); compositor.push(Box::new(overlayed(picker))) } }, ) } pub fn workspace_symbol_picker(cx: &mut Context) { let doc = doc!(cx.editor); let current_url = doc.url(); let language_server = language_server!(cx.editor, doc); let offset_encoding = language_server.offset_encoding(); let future = language_server.workspace_symbols("".to_string()); cx.callback( future, move |_editor, compositor, response: Option>| { if let Some(symbols) = response { let picker = sym_picker(symbols, current_url, offset_encoding); compositor.push(Box::new(overlayed(picker))) } }, ) } pub fn diagnostics_picker(cx: &mut Context) { let doc = doc!(cx.editor); let language_server = language_server!(cx.editor, doc); if let Some(current_url) = doc.url() { let offset_encoding = language_server.offset_encoding(); let diagnostics = cx .editor .diagnostics .get(¤t_url) .cloned() .unwrap_or_default(); let picker = diag_picker( cx, [(current_url.clone(), diagnostics)].into(), Some(current_url), DiagnosticsFormat::HideSourcePath, offset_encoding, ); cx.push_layer(Box::new(overlayed(picker))); } } pub fn workspace_diagnostics_picker(cx: &mut Context) { let doc = doc!(cx.editor); let language_server = language_server!(cx.editor, doc); let current_url = doc.url(); let offset_encoding = language_server.offset_encoding(); let diagnostics = cx.editor.diagnostics.clone(); let picker = diag_picker( cx, diagnostics, current_url, DiagnosticsFormat::ShowSourcePath, offset_encoding, ); cx.push_layer(Box::new(overlayed(picker))); } impl ui::menu::Item for lsp::CodeActionOrCommand { type Data = (); fn label(&self, _data: &Self::Data) -> Spans { match self { lsp::CodeActionOrCommand::CodeAction(action) => action.title.as_str().into(), lsp::CodeActionOrCommand::Command(command) => command.title.as_str().into(), } } } /// Determines the category of the `CodeAction` using the `CodeAction::kind` field. /// Returns a number that represent these categories. /// Categories with a lower number should be displayed first. /// /// /// While the `kind` field is defined as open ended in the LSP spec (any value may be used) /// in practice a closed set of common values (mostly suggested in the LSP spec) are used. /// VSCode displays each of these categories seperatly (seperated by a heading in the codeactions picker) /// to make them easier to navigate. Helix does not display these headings to the user. /// However it does sort code actions by their categories to achieve the same order as the VScode picker, /// just without the headings. /// /// The order used here is modeled after the [vscode sourcecode](https://github.com/microsoft/vscode/blob/eaec601dd69aeb4abb63b9601a6f44308c8d8c6e/src/vs/editor/contrib/codeAction/browser/codeActionWidget.ts>) fn action_category(action: &CodeActionOrCommand) -> u32 { if let CodeActionOrCommand::CodeAction(CodeAction { kind: Some(kind), .. }) = action { let mut components = kind.as_str().split('.'); match components.next() { Some("quickfix") => 0, Some("refactor") => match components.next() { Some("extract") => 1, Some("inline") => 2, Some("rewrite") => 3, Some("move") => 4, Some("surround") => 5, _ => 7, }, Some("source") => 6, _ => 7, } } else { 7 } } fn action_prefered(action: &CodeActionOrCommand) -> bool { matches!( action, CodeActionOrCommand::CodeAction(CodeAction { is_preferred: Some(true), .. }) ) } fn action_fixes_diagnostics(action: &CodeActionOrCommand) -> bool { matches!( action, CodeActionOrCommand::CodeAction(CodeAction { diagnostics: Some(diagnostics), .. }) if !diagnostics.is_empty() ) } pub fn code_action(cx: &mut Context) { let (view, doc) = current!(cx.editor); let language_server = language_server!(cx.editor, doc); let selection_range = doc.selection(view.id).primary(); let offset_encoding = language_server.offset_encoding(); let range = range_to_lsp_range(doc.text(), selection_range, offset_encoding); let future = language_server.code_actions( doc.identifier(), range, // Filter and convert overlapping diagnostics lsp::CodeActionContext { diagnostics: doc .diagnostics() .iter() .filter(|&diag| { selection_range .overlaps(&helix_core::Range::new(diag.range.start, diag.range.end)) }) .map(|diag| diagnostic_to_lsp_diagnostic(doc.text(), diag, offset_encoding)) .collect(), only: None, }, ); cx.callback( future, move |editor, compositor, response: Option| { let mut actions = match response { Some(a) => a, None => return, }; // remove disabled code actions actions.retain(|action| { matches!( action, CodeActionOrCommand::Command(_) | CodeActionOrCommand::CodeAction(CodeAction { disabled: None, .. }) ) }); if actions.is_empty() { editor.set_status("No code actions available"); return; } // Sort codeactions into a useful order. This behaviour is only partially described in the LSP spec. // Many details are modeled after vscode because langauge servers are usually tested against it. // VScode sorts the codeaction two times: // // First the codeactions that fix some diagnostics are moved to the front. // If both codeactions fix some diagnostics (or both fix none) the codeaction // that is marked with `is_preffered` is shown first. The codeactions are then shown in seperate // submenus that only contain a certain category (see `action_category`) of actions. // // Below this done in in a single sorting step actions.sort_by(|action1, action2| { // sort actions by category let order = action_category(action1).cmp(&action_category(action2)); if order != Ordering::Equal { return order; } // within the categories sort by relevancy. // Modeled after the `codeActionsComparator` function in vscode: // https://github.com/microsoft/vscode/blob/eaec601dd69aeb4abb63b9601a6f44308c8d8c6e/src/vs/editor/contrib/codeAction/browser/codeAction.ts // if one code action fixes a diagnostic but the other one doesn't show it first let order = action_fixes_diagnostics(action1) .cmp(&action_fixes_diagnostics(action2)) .reverse(); if order != Ordering::Equal { return order; } // if one of the codeactions is marked as prefered show it first // otherwise keep the original LSP sorting action_prefered(action1) .cmp(&action_prefered(action2)) .reverse() }); let mut picker = ui::Menu::new(actions, (), move |editor, code_action, event| { if event != PromptEvent::Validate { return; } // always present here let code_action = code_action.unwrap(); match code_action { lsp::CodeActionOrCommand::Command(command) => { log::debug!("code action command: {:?}", command); execute_lsp_command(editor, command.clone()); } lsp::CodeActionOrCommand::CodeAction(code_action) => { log::debug!("code action: {:?}", code_action); if let Some(ref workspace_edit) = code_action.edit { log::debug!("edit: {:?}", workspace_edit); apply_workspace_edit(editor, offset_encoding, workspace_edit); } // if code action provides both edit and command first the edit // should be applied and then the command if let Some(command) = &code_action.command { execute_lsp_command(editor, command.clone()); } } } }); picker.move_down(); // pre-select the first item let popup = Popup::new("code-action", picker); compositor.replace_or_push("code-action", popup); }, ) } impl ui::menu::Item for lsp::Command { type Data = (); fn label(&self, _data: &Self::Data) -> Spans { self.title.as_str().into() } } pub fn execute_lsp_command(editor: &mut Editor, cmd: lsp::Command) { let doc = doc!(editor); let language_server = language_server!(editor, doc); // the command is executed on the server and communicated back // to the client asynchronously using workspace edits let command_future = language_server.command(cmd); tokio::spawn(async move { let res = command_future.await; if let Err(e) = res { log::error!("execute LSP command: {}", e); } }); } pub fn apply_document_resource_op(op: &lsp::ResourceOp) -> std::io::Result<()> { use lsp::ResourceOp; use std::fs; match op { ResourceOp::Create(op) => { let path = op.uri.to_file_path().unwrap(); let ignore_if_exists = op.options.as_ref().map_or(false, |options| { !options.overwrite.unwrap_or(false) && options.ignore_if_exists.unwrap_or(false) }); if ignore_if_exists && path.exists() { Ok(()) } else { // Create directory if it does not exist if let Some(dir) = path.parent() { if !dir.is_dir() { fs::create_dir_all(dir)?; } } fs::write(&path, []) } } ResourceOp::Delete(op) => { let path = op.uri.to_file_path().unwrap(); if path.is_dir() { let recursive = op .options .as_ref() .and_then(|options| options.recursive) .unwrap_or(false); if recursive { fs::remove_dir_all(&path) } else { fs::remove_dir(&path) } } else if path.is_file() { fs::remove_file(&path) } else { Ok(()) } } ResourceOp::Rename(op) => { let from = op.old_uri.to_file_path().unwrap(); let to = op.new_uri.to_file_path().unwrap(); let ignore_if_exists = op.options.as_ref().map_or(false, |options| { !options.overwrite.unwrap_or(false) && options.ignore_if_exists.unwrap_or(false) }); if ignore_if_exists && to.exists() { Ok(()) } else { fs::rename(&from, &to) } } } } pub fn apply_workspace_edit( editor: &mut Editor, offset_encoding: OffsetEncoding, workspace_edit: &lsp::WorkspaceEdit, ) { let mut apply_edits = |uri: &helix_lsp::Url, text_edits: Vec| { let path = match uri.to_file_path() { Ok(path) => path, Err(_) => { let err = format!("unable to convert URI to filepath: {}", uri); log::error!("{}", err); editor.set_error(err); return; } }; let current_view_id = view!(editor).id; let doc_id = match editor.open(&path, Action::Load) { Ok(doc_id) => doc_id, Err(err) => { let err = format!("failed to open document: {}: {}", uri, err); log::error!("{}", err); editor.set_error(err); return; } }; let doc = doc_mut!(editor, &doc_id); // Need to determine a view for apply/append_changes_to_history let selections = doc.selections(); let view_id = if selections.contains_key(¤t_view_id) { // use current if possible current_view_id } else { // Hack: we take the first available view_id selections .keys() .next() .copied() .expect("No view_id available") }; let transaction = helix_lsp::util::generate_transaction_from_edits( doc.text(), text_edits, offset_encoding, ); apply_transaction(&transaction, doc, view_mut!(editor, view_id)); doc.append_changes_to_history(view_id); }; if let Some(ref changes) = workspace_edit.changes { log::debug!("workspace changes: {:?}", changes); for (uri, text_edits) in changes { let text_edits = text_edits.to_vec(); apply_edits(uri, text_edits) } return; // Not sure if it works properly, it'll be safer to just panic here to avoid breaking some parts of code on which code actions will be used // TODO: find some example that uses workspace changes, and test it // for (url, edits) in changes.iter() { // let file_path = url.origin().ascii_serialization(); // let file_path = std::path::PathBuf::from(file_path); // let file = std::fs::File::open(file_path).unwrap(); // let mut text = Rope::from_reader(file).unwrap(); // let transaction = edits_to_changes(&text, edits); // transaction.apply(&mut text); // } } if let Some(ref document_changes) = workspace_edit.document_changes { match document_changes { lsp::DocumentChanges::Edits(document_edits) => { for document_edit in document_edits { let edits = document_edit .edits .iter() .map(|edit| match edit { lsp::OneOf::Left(text_edit) => text_edit, lsp::OneOf::Right(annotated_text_edit) => { &annotated_text_edit.text_edit } }) .cloned() .collect(); apply_edits(&document_edit.text_document.uri, edits); } } lsp::DocumentChanges::Operations(operations) => { log::debug!("document changes - operations: {:?}", operations); for operation in operations { match operation { lsp::DocumentChangeOperation::Op(op) => { apply_document_resource_op(op).unwrap(); } lsp::DocumentChangeOperation::Edit(document_edit) => { let edits = document_edit .edits .iter() .map(|edit| match edit { lsp::OneOf::Left(text_edit) => text_edit, lsp::OneOf::Right(annotated_text_edit) => { &annotated_text_edit.text_edit } }) .cloned() .collect(); apply_edits(&document_edit.text_document.uri, edits); } } } } } } } fn goto_impl( editor: &mut Editor, compositor: &mut Compositor, locations: Vec, offset_encoding: OffsetEncoding, ) { let cwdir = std::env::current_dir().unwrap_or_default(); match locations.as_slice() { [location] => { jump_to_location(editor, location, offset_encoding, Action::Replace); } [] => { editor.set_error("No definition found."); } _locations => { let picker = FilePicker::new( locations, cwdir, move |cx, location, action| { jump_to_location(cx.editor, location, offset_encoding, action) }, move |_editor, location| Some(location_to_file_location(location)), ); compositor.push(Box::new(overlayed(picker))); } } } fn to_locations(definitions: Option) -> Vec { match definitions { Some(lsp::GotoDefinitionResponse::Scalar(location)) => vec![location], Some(lsp::GotoDefinitionResponse::Array(locations)) => locations, Some(lsp::GotoDefinitionResponse::Link(locations)) => locations .into_iter() .map(|location_link| lsp::Location { uri: location_link.target_uri, range: location_link.target_range, }) .collect(), None => Vec::new(), } } pub fn goto_definition(cx: &mut Context) { let (view, doc) = current!(cx.editor); let language_server = language_server!(cx.editor, doc); let offset_encoding = language_server.offset_encoding(); let pos = doc.position(view.id, offset_encoding); let future = language_server.goto_definition(doc.identifier(), pos, None); cx.callback( future, move |editor, compositor, response: Option| { let items = to_locations(response); goto_impl(editor, compositor, items, offset_encoding); }, ); } pub fn goto_type_definition(cx: &mut Context) { let (view, doc) = current!(cx.editor); let language_server = language_server!(cx.editor, doc); let offset_encoding = language_server.offset_encoding(); let pos = doc.position(view.id, offset_encoding); let future = language_server.goto_type_definition(doc.identifier(), pos, None); cx.callback( future, move |editor, compositor, response: Option| { let items = to_locations(response); goto_impl(editor, compositor, items, offset_encoding); }, ); } pub fn goto_implementation(cx: &mut Context) { let (view, doc) = current!(cx.editor); let language_server = language_server!(cx.editor, doc); let offset_encoding = language_server.offset_encoding(); let pos = doc.position(view.id, offset_encoding); let future = language_server.goto_implementation(doc.identifier(), pos, None); cx.callback( future, move |editor, compositor, response: Option| { let items = to_locations(response); goto_impl(editor, compositor, items, offset_encoding); }, ); } pub fn goto_reference(cx: &mut Context) { let (view, doc) = current!(cx.editor); let language_server = language_server!(cx.editor, doc); let offset_encoding = language_server.offset_encoding(); let pos = doc.position(view.id, offset_encoding); let future = language_server.goto_reference(doc.identifier(), pos, None); cx.callback( future, move |editor, compositor, response: Option>| { let items = response.unwrap_or_default(); goto_impl(editor, compositor, items, offset_encoding); }, ); } #[derive(PartialEq, Eq)] pub enum SignatureHelpInvoked { Manual, Automatic, } pub fn signature_help(cx: &mut Context) { signature_help_impl(cx, SignatureHelpInvoked::Manual) } pub fn signature_help_impl(cx: &mut Context, invoked: SignatureHelpInvoked) { let (view, doc) = current!(cx.editor); let was_manually_invoked = invoked == SignatureHelpInvoked::Manual; let language_server = match doc.language_server() { Some(language_server) => language_server, None => { // Do not show the message if signature help was invoked // automatically on backspace, trigger characters, etc. if was_manually_invoked { cx.editor .set_status("Language server not active for current buffer"); } return; } }; let offset_encoding = language_server.offset_encoding(); let pos = doc.position(view.id, offset_encoding); let future = match language_server.text_document_signature_help(doc.identifier(), pos, None) { Some(f) => f, None => return, }; cx.callback( future, move |editor, compositor, response: Option| { let config = &editor.config(); if !(config.lsp.auto_signature_help || SignatureHelp::visible_popup(compositor).is_some() || was_manually_invoked) { return; } // If the signature help invocation is automatic, don't show it outside of Insert Mode: // it very probably means the server was a little slow to respond and the user has // already moved on to something else, making a signature help popup will just be an // annoyance, see https://github.com/helix-editor/helix/issues/3112 if !was_manually_invoked && editor.mode != Mode::Insert { return; } let response = match response { // According to the spec the response should be None if there // are no signatures, but some servers don't follow this. Some(s) if !s.signatures.is_empty() => s, _ => { compositor.remove(SignatureHelp::ID); return; } }; let doc = doc!(editor); let language = doc.language_name().unwrap_or(""); let signature = match response .signatures .get(response.active_signature.unwrap_or(0) as usize) { Some(s) => s, None => return, }; let mut contents = SignatureHelp::new( signature.label.clone(), language.to_string(), Arc::clone(&editor.syn_loader), ); let signature_doc = if config.lsp.display_signature_help_docs { signature.documentation.as_ref().map(|doc| match doc { lsp::Documentation::String(s) => s.clone(), lsp::Documentation::MarkupContent(markup) => markup.value.clone(), }) } else { None }; contents.set_signature_doc(signature_doc); let active_param_range = || -> Option<(usize, usize)> { let param_idx = signature .active_parameter .or(response.active_parameter) .unwrap_or(0) as usize; let param = signature.parameters.as_ref()?.get(param_idx)?; match ¶m.label { lsp::ParameterLabel::Simple(string) => { let start = signature.label.find(string.as_str())?; Some((start, start + string.len())) } lsp::ParameterLabel::LabelOffsets([start, end]) => { // LS sends offsets based on utf-16 based string representation // but highlighting in helix is done using byte offset. use helix_core::str_utils::char_to_byte_idx; let from = char_to_byte_idx(&signature.label, *start as usize); let to = char_to_byte_idx(&signature.label, *end as usize); Some((from, to)) } } }; contents.set_active_param_range(active_param_range()); let old_popup = compositor.find_id::>(SignatureHelp::ID); let popup = Popup::new(SignatureHelp::ID, contents) .position(old_popup.and_then(|p| p.get_position())) .position_bias(Open::Above) .ignore_escape_key(true); compositor.replace_or_push(SignatureHelp::ID, popup); }, ); } pub fn hover(cx: &mut Context) { let (view, doc) = current!(cx.editor); let language_server = language_server!(cx.editor, doc); let offset_encoding = language_server.offset_encoding(); // TODO: factor out a doc.position_identifier() that returns lsp::TextDocumentPositionIdentifier let pos = doc.position(view.id, offset_encoding); let future = language_server.text_document_hover(doc.identifier(), pos, None); cx.callback( future, move |editor, compositor, response: Option| { if let Some(hover) = response { // hover.contents / .range <- used for visualizing fn marked_string_to_markdown(contents: lsp::MarkedString) -> String { match contents { lsp::MarkedString::String(contents) => contents, lsp::MarkedString::LanguageString(string) => { if string.language == "markdown" { string.value } else { format!("```{}\n{}\n```", string.language, string.value) } } } } let contents = match hover.contents { lsp::HoverContents::Scalar(contents) => marked_string_to_markdown(contents), lsp::HoverContents::Array(contents) => contents .into_iter() .map(marked_string_to_markdown) .collect::>() .join("\n\n"), lsp::HoverContents::Markup(contents) => contents.value, }; // skip if contents empty let contents = ui::Markdown::new(contents, editor.syn_loader.clone()); let popup = Popup::new("hover", contents).auto_close(true); compositor.replace_or_push("hover", popup); } }, ); } pub fn rename_symbol(cx: &mut Context) { let (view, doc) = current_ref!(cx.editor); let text = doc.text().slice(..); let primary_selection = doc.selection(view.id).primary(); let prefill = if primary_selection.len() > 1 { primary_selection } else { use helix_core::textobject::{textobject_word, TextObject}; textobject_word(text, primary_selection, TextObject::Inside, 1, false) } .fragment(text) .into(); ui::prompt_with_input( cx, "rename-to:".into(), prefill, None, ui::completers::none, move |cx: &mut compositor::Context, input: &str, event: PromptEvent| { if event != PromptEvent::Validate { return; } let (view, doc) = current!(cx.editor); let language_server = language_server!(cx.editor, doc); let offset_encoding = language_server.offset_encoding(); let pos = doc.position(view.id, offset_encoding); let task = language_server.rename_symbol(doc.identifier(), pos, input.to_string()); match block_on(task) { Ok(edits) => apply_workspace_edit(cx.editor, offset_encoding, &edits), Err(err) => cx.editor.set_error(err.to_string()), } }, ); } pub fn select_references_to_symbol_under_cursor(cx: &mut Context) { let (view, doc) = current!(cx.editor); let language_server = language_server!(cx.editor, doc); let offset_encoding = language_server.offset_encoding(); let pos = doc.position(view.id, offset_encoding); let future = language_server.text_document_document_highlight(doc.identifier(), pos, None); cx.callback( future, move |editor, _compositor, response: Option>| { let document_highlights = match response { Some(highlights) if !highlights.is_empty() => highlights, _ => return, }; let (view, doc) = current!(editor); let language_server = language_server!(editor, doc); let offset_encoding = language_server.offset_encoding(); let text = doc.text(); let pos = doc.selection(view.id).primary().head; // We must find the range that contains our primary cursor to prevent our primary cursor to move let mut primary_index = 0; let ranges = document_highlights .iter() .filter_map(|highlight| lsp_range_to_range(text, highlight.range, offset_encoding)) .enumerate() .map(|(i, range)| { if range.contains(pos) { primary_index = i; } range }) .collect(); let selection = Selection::new(ranges, primary_index); doc.set_selection(view.id, selection); }, ); }