use anyhow::{anyhow, Result}; use async_compression::futures::bufread::GzipDecoder; use async_trait::async_trait; use futures::{io::BufReader, StreamExt}; pub use language::*; use lazy_static::lazy_static; use lsp::LanguageServerBinary; use regex::Regex; use smol::fs::{self, File}; use std::{any::Any, borrow::Cow, env::consts, path::PathBuf, str, sync::Arc}; use util::{ fs::remove_matching, github::{latest_github_release, GitHubLspBinaryVersion}, ResultExt, }; pub struct RustLspAdapter; #[async_trait] impl LspAdapter for RustLspAdapter { async fn name(&self) -> LanguageServerName { LanguageServerName("rust-analyzer".into()) } fn short_name(&self) -> &'static str { "rust" } async fn fetch_latest_server_version( &self, delegate: &dyn LspAdapterDelegate, ) -> Result> { let release = latest_github_release("rust-analyzer/rust-analyzer", false, delegate.http_client()) .await?; let asset_name = format!("rust-analyzer-{}-apple-darwin.gz", consts::ARCH); let asset = release .assets .iter() .find(|asset| asset.name == asset_name) .ok_or_else(|| anyhow!("no asset found matching {:?}", asset_name))?; Ok(Box::new(GitHubLspBinaryVersion { name: release.name, url: asset.browser_download_url.clone(), })) } async fn fetch_server_binary( &self, version: Box, container_dir: PathBuf, delegate: &dyn LspAdapterDelegate, ) -> Result { let version = version.downcast::().unwrap(); let destination_path = container_dir.join(format!("rust-analyzer-{}", version.name)); if fs::metadata(&destination_path).await.is_err() { let mut response = delegate .http_client() .get(&version.url, Default::default(), true) .await .map_err(|err| anyhow!("error downloading release: {}", err))?; let decompressed_bytes = GzipDecoder::new(BufReader::new(response.body_mut())); let mut file = File::create(&destination_path).await?; futures::io::copy(decompressed_bytes, &mut file).await?; fs::set_permissions( &destination_path, ::from_mode(0o755), ) .await?; remove_matching(&container_dir, |entry| entry != destination_path).await; } Ok(LanguageServerBinary { path: destination_path, arguments: Default::default(), }) } async fn cached_server_binary( &self, container_dir: PathBuf, _: &dyn LspAdapterDelegate, ) -> Option { get_cached_server_binary(container_dir).await } async fn installation_test_binary( &self, container_dir: PathBuf, ) -> Option { get_cached_server_binary(container_dir) .await .map(|mut binary| { binary.arguments = vec!["--help".into()]; binary }) } async fn disk_based_diagnostic_sources(&self) -> Vec { vec!["rustc".into()] } async fn disk_based_diagnostics_progress_token(&self) -> Option { Some("rust-analyzer/flycheck".into()) } fn process_diagnostics(&self, params: &mut lsp::PublishDiagnosticsParams) { lazy_static! { static ref REGEX: Regex = Regex::new("(?m)`([^`]+)\n`$").unwrap(); } for diagnostic in &mut params.diagnostics { for message in diagnostic .related_information .iter_mut() .flatten() .map(|info| &mut info.message) .chain([&mut diagnostic.message]) { if let Cow::Owned(sanitized) = REGEX.replace_all(message, "`$1`") { *message = sanitized; } } } } async fn label_for_completion( &self, completion: &lsp::CompletionItem, language: &Arc, ) -> Option { match completion.kind { Some(lsp::CompletionItemKind::FIELD) if completion.detail.is_some() => { let detail = completion.detail.as_ref().unwrap(); let name = &completion.label; let text = format!("{}: {}", name, detail); let source = Rope::from(format!("struct S {{ {} }}", text).as_str()); let runs = language.highlight_text(&source, 11..11 + text.len()); return Some(CodeLabel { text, runs, filter_range: 0..name.len(), }); } Some(lsp::CompletionItemKind::CONSTANT | lsp::CompletionItemKind::VARIABLE) if completion.detail.is_some() && completion.insert_text_format != Some(lsp::InsertTextFormat::SNIPPET) => { let detail = completion.detail.as_ref().unwrap(); let name = &completion.label; let text = format!("{}: {}", name, detail); let source = Rope::from(format!("let {} = ();", text).as_str()); let runs = language.highlight_text(&source, 4..4 + text.len()); return Some(CodeLabel { text, runs, filter_range: 0..name.len(), }); } Some(lsp::CompletionItemKind::FUNCTION | lsp::CompletionItemKind::METHOD) if completion.detail.is_some() => { lazy_static! { static ref REGEX: Regex = Regex::new("\\(…?\\)").unwrap(); } let detail = completion.detail.as_ref().unwrap(); const FUNCTION_PREFIXES: [&'static str; 2] = ["async fn", "fn"]; let prefix = FUNCTION_PREFIXES .iter() .find_map(|prefix| detail.strip_prefix(*prefix).map(|suffix| (prefix, suffix))); // fn keyword should be followed by opening parenthesis. if let Some((prefix, suffix)) = prefix { if suffix.starts_with('(') { let text = REGEX.replace(&completion.label, suffix).to_string(); let source = Rope::from(format!("{prefix} {} {{}}", text).as_str()); let run_start = prefix.len() + 1; let runs = language.highlight_text(&source, run_start..run_start + text.len()); return Some(CodeLabel { filter_range: 0..completion.label.find('(').unwrap_or(text.len()), text, runs, }); } } } Some(kind) => { let highlight_name = match kind { lsp::CompletionItemKind::STRUCT | lsp::CompletionItemKind::INTERFACE | lsp::CompletionItemKind::ENUM => Some("type"), lsp::CompletionItemKind::ENUM_MEMBER => Some("variant"), lsp::CompletionItemKind::KEYWORD => Some("keyword"), lsp::CompletionItemKind::VALUE | lsp::CompletionItemKind::CONSTANT => { Some("constant") } _ => None, }; let highlight_id = language.grammar()?.highlight_id_for_name(highlight_name?)?; let mut label = CodeLabel::plain(completion.label.clone(), None); label.runs.push(( 0..label.text.rfind('(').unwrap_or(label.text.len()), highlight_id, )); return Some(label); } _ => {} } None } async fn label_for_symbol( &self, name: &str, kind: lsp::SymbolKind, language: &Arc, ) -> Option { let (text, filter_range, display_range) = match kind { lsp::SymbolKind::METHOD | lsp::SymbolKind::FUNCTION => { let text = format!("fn {} () {{}}", name); let filter_range = 3..3 + name.len(); let display_range = 0..filter_range.end; (text, filter_range, display_range) } lsp::SymbolKind::STRUCT => { let text = format!("struct {} {{}}", name); let filter_range = 7..7 + name.len(); let display_range = 0..filter_range.end; (text, filter_range, display_range) } lsp::SymbolKind::ENUM => { let text = format!("enum {} {{}}", name); let filter_range = 5..5 + name.len(); let display_range = 0..filter_range.end; (text, filter_range, display_range) } lsp::SymbolKind::INTERFACE => { let text = format!("trait {} {{}}", name); let filter_range = 6..6 + name.len(); let display_range = 0..filter_range.end; (text, filter_range, display_range) } lsp::SymbolKind::CONSTANT => { let text = format!("const {}: () = ();", name); let filter_range = 6..6 + name.len(); let display_range = 0..filter_range.end; (text, filter_range, display_range) } lsp::SymbolKind::MODULE => { let text = format!("mod {} {{}}", name); let filter_range = 4..4 + name.len(); let display_range = 0..filter_range.end; (text, filter_range, display_range) } lsp::SymbolKind::TYPE_PARAMETER => { let text = format!("type {} {{}}", name); let filter_range = 5..5 + name.len(); let display_range = 0..filter_range.end; (text, filter_range, display_range) } _ => return None, }; Some(CodeLabel { runs: language.highlight_text(&text.as_str().into(), display_range.clone()), text: text[display_range].to_string(), filter_range, }) } } async fn get_cached_server_binary(container_dir: PathBuf) -> Option { (|| async move { let mut last = None; let mut entries = fs::read_dir(&container_dir).await?; while let Some(entry) = entries.next().await { last = Some(entry?.path()); } anyhow::Ok(LanguageServerBinary { path: last.ok_or_else(|| anyhow!("no cached binary"))?, arguments: Default::default(), }) })() .await .log_err() } #[cfg(test)] mod tests { use std::num::NonZeroU32; use super::*; use crate::languages::language; use gpui::{Context, Hsla, TestAppContext}; use language::language_settings::AllLanguageSettings; use settings::SettingsStore; use theme::SyntaxTheme; #[gpui::test] async fn test_process_rust_diagnostics() { let mut params = lsp::PublishDiagnosticsParams { uri: lsp::Url::from_file_path("/a").unwrap(), version: None, diagnostics: vec![ // no newlines lsp::Diagnostic { message: "use of moved value `a`".to_string(), ..Default::default() }, // newline at the end of a code span lsp::Diagnostic { message: "consider importing this struct: `use b::c;\n`".to_string(), ..Default::default() }, // code span starting right after a newline lsp::Diagnostic { message: "cannot borrow `self.d` as mutable\n`self` is a `&` reference" .to_string(), ..Default::default() }, ], }; RustLspAdapter.process_diagnostics(&mut params); assert_eq!(params.diagnostics[0].message, "use of moved value `a`"); // remove trailing newline from code span assert_eq!( params.diagnostics[1].message, "consider importing this struct: `use b::c;`" ); // do not remove newline before the start of code span assert_eq!( params.diagnostics[2].message, "cannot borrow `self.d` as mutable\n`self` is a `&` reference" ); } #[gpui::test] async fn test_rust_label_for_completion() { let language = language( "rust", tree_sitter_rust::language(), Some(Arc::new(RustLspAdapter)), ) .await; let grammar = language.grammar().unwrap(); let theme = SyntaxTheme::new_test([ ("type", Hsla::default()), ("keyword", Hsla::default()), ("function", Hsla::default()), ("property", Hsla::default()), ]); language.set_theme(&theme); let highlight_function = grammar.highlight_id_for_name("function").unwrap(); let highlight_type = grammar.highlight_id_for_name("type").unwrap(); let highlight_keyword = grammar.highlight_id_for_name("keyword").unwrap(); let highlight_field = grammar.highlight_id_for_name("property").unwrap(); assert_eq!( language .label_for_completion(&lsp::CompletionItem { kind: Some(lsp::CompletionItemKind::FUNCTION), label: "hello(…)".to_string(), detail: Some("fn(&mut Option) -> Vec".to_string()), ..Default::default() }) .await, Some(CodeLabel { text: "hello(&mut Option) -> Vec".to_string(), filter_range: 0..5, runs: vec![ (0..5, highlight_function), (7..10, highlight_keyword), (11..17, highlight_type), (18..19, highlight_type), (25..28, highlight_type), (29..30, highlight_type), ], }) ); assert_eq!( language .label_for_completion(&lsp::CompletionItem { kind: Some(lsp::CompletionItemKind::FUNCTION), label: "hello(…)".to_string(), detail: Some("async fn(&mut Option) -> Vec".to_string()), ..Default::default() }) .await, Some(CodeLabel { text: "hello(&mut Option) -> Vec".to_string(), filter_range: 0..5, runs: vec![ (0..5, highlight_function), (7..10, highlight_keyword), (11..17, highlight_type), (18..19, highlight_type), (25..28, highlight_type), (29..30, highlight_type), ], }) ); assert_eq!( language .label_for_completion(&lsp::CompletionItem { kind: Some(lsp::CompletionItemKind::FIELD), label: "len".to_string(), detail: Some("usize".to_string()), ..Default::default() }) .await, Some(CodeLabel { text: "len: usize".to_string(), filter_range: 0..3, runs: vec![(0..3, highlight_field), (5..10, highlight_type),], }) ); assert_eq!( language .label_for_completion(&lsp::CompletionItem { kind: Some(lsp::CompletionItemKind::FUNCTION), label: "hello(…)".to_string(), detail: Some("fn(&mut Option) -> Vec".to_string()), ..Default::default() }) .await, Some(CodeLabel { text: "hello(&mut Option) -> Vec".to_string(), filter_range: 0..5, runs: vec![ (0..5, highlight_function), (7..10, highlight_keyword), (11..17, highlight_type), (18..19, highlight_type), (25..28, highlight_type), (29..30, highlight_type), ], }) ); } #[gpui::test] async fn test_rust_label_for_symbol() { let language = language( "rust", tree_sitter_rust::language(), Some(Arc::new(RustLspAdapter)), ) .await; let grammar = language.grammar().unwrap(); let theme = SyntaxTheme::new_test([ ("type", Hsla::default()), ("keyword", Hsla::default()), ("function", Hsla::default()), ("property", Hsla::default()), ]); language.set_theme(&theme); let highlight_function = grammar.highlight_id_for_name("function").unwrap(); let highlight_type = grammar.highlight_id_for_name("type").unwrap(); let highlight_keyword = grammar.highlight_id_for_name("keyword").unwrap(); assert_eq!( language .label_for_symbol("hello", lsp::SymbolKind::FUNCTION) .await, Some(CodeLabel { text: "fn hello".to_string(), filter_range: 3..8, runs: vec![(0..2, highlight_keyword), (3..8, highlight_function)], }) ); assert_eq!( language .label_for_symbol("World", lsp::SymbolKind::TYPE_PARAMETER) .await, Some(CodeLabel { text: "type World".to_string(), filter_range: 5..10, runs: vec![(0..4, highlight_keyword), (5..10, highlight_type)], }) ); } #[gpui::test] async fn test_rust_autoindent(cx: &mut TestAppContext) { // cx.executor().set_block_on_ticks(usize::MAX..=usize::MAX); cx.update(|cx| { let test_settings = SettingsStore::test(cx); cx.set_global(test_settings); language::init(cx); cx.update_global::(|store, cx| { store.update_user_settings::(cx, |s| { s.defaults.tab_size = NonZeroU32::new(2); }); }); }); let language = crate::languages::language("rust", tree_sitter_rust::language(), None).await; cx.build_model(|cx| { let mut buffer = Buffer::new(0, cx.entity_id().as_u64(), "").with_language(language, cx); // indent between braces buffer.set_text("fn a() {}", cx); let ix = buffer.len() - 1; buffer.edit([(ix..ix, "\n\n")], Some(AutoindentMode::EachLine), cx); assert_eq!(buffer.text(), "fn a() {\n \n}"); // indent between braces, even after empty lines buffer.set_text("fn a() {\n\n\n}", cx); let ix = buffer.len() - 2; buffer.edit([(ix..ix, "\n")], Some(AutoindentMode::EachLine), cx); assert_eq!(buffer.text(), "fn a() {\n\n\n \n}"); // indent a line that continues a field expression buffer.set_text("fn a() {\n \n}", cx); let ix = buffer.len() - 2; buffer.edit([(ix..ix, "b\n.c")], Some(AutoindentMode::EachLine), cx); assert_eq!(buffer.text(), "fn a() {\n b\n .c\n}"); // indent further lines that continue the field expression, even after empty lines let ix = buffer.len() - 2; buffer.edit([(ix..ix, "\n\n.d")], Some(AutoindentMode::EachLine), cx); assert_eq!(buffer.text(), "fn a() {\n b\n .c\n \n .d\n}"); // dedent the line after the field expression let ix = buffer.len() - 2; buffer.edit([(ix..ix, ";\ne")], Some(AutoindentMode::EachLine), cx); assert_eq!( buffer.text(), "fn a() {\n b\n .c\n \n .d;\n e\n}" ); // indent inside a struct within a call buffer.set_text("const a: B = c(D {});", cx); let ix = buffer.len() - 3; buffer.edit([(ix..ix, "\n\n")], Some(AutoindentMode::EachLine), cx); assert_eq!(buffer.text(), "const a: B = c(D {\n \n});"); // indent further inside a nested call let ix = buffer.len() - 4; buffer.edit([(ix..ix, "e: f(\n\n)")], Some(AutoindentMode::EachLine), cx); assert_eq!(buffer.text(), "const a: B = c(D {\n e: f(\n \n )\n});"); // keep that indent after an empty line let ix = buffer.len() - 8; buffer.edit([(ix..ix, "\n")], Some(AutoindentMode::EachLine), cx); assert_eq!( buffer.text(), "const a: B = c(D {\n e: f(\n \n \n )\n});" ); buffer }); } }