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ZIm/crates/languages/src/rust.rs
Piotr Osiewicz 07dbee8651
task: Add ZED_PACKAGE task variable in Rust files. (#9491) 
This variable is experimental, as I expect it to be superseded by
whatever the extensions can provide (once we get them)

Release Notes:

- Added experimental ZED_PACKAGE task variable which contains name of
the current crate in Rust files.

---------

Co-authored-by: Kirill <kirill@zed.dev>
2024-03-18 12:18:42 +01:00

662 lines
24 KiB
Rust
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use anyhow::{anyhow, bail, Context, Result};
use async_compression::futures::bufread::GzipDecoder;
use async_trait::async_trait;
use futures::{io::BufReader, StreamExt};
use gpui::AsyncAppContext;
pub use language::*;
use lazy_static::lazy_static;
use lsp::LanguageServerBinary;
use project::project_settings::ProjectSettings;
use regex::Regex;
use settings::Settings;
use smol::fs::{self, File};
use std::{any::Any, borrow::Cow, env::consts, path::PathBuf, sync::Arc};
use util::{
async_maybe,
fs::remove_matching,
github::{latest_github_release, GitHubLspBinaryVersion},
ResultExt,
};
pub struct RustLspAdapter;
impl RustLspAdapter {
const SERVER_NAME: &'static str = "rust-analyzer";
}
#[async_trait(?Send)]
impl LspAdapter for RustLspAdapter {
fn name(&self) -> LanguageServerName {
LanguageServerName(Self::SERVER_NAME.into())
}
async fn check_if_user_installed(
&self,
_delegate: &dyn LspAdapterDelegate,
cx: &AsyncAppContext,
) -> Option<LanguageServerBinary> {
let binary = cx
.update(|cx| {
ProjectSettings::get_global(cx)
.lsp
.get(Self::SERVER_NAME)
.and_then(|s| s.binary.clone())
})
.ok()??;
let path = binary.path?;
Some(LanguageServerBinary {
path: path.into(),
arguments: binary
.arguments
.unwrap_or_default()
.iter()
.map(|arg| arg.into())
.collect(),
env: None,
})
}
async fn fetch_latest_server_version(
&self,
delegate: &dyn LspAdapterDelegate,
) -> Result<Box<dyn 'static + Send + Any>> {
let release = latest_github_release(
"rust-lang/rust-analyzer",
true,
false,
delegate.http_client(),
)
.await?;
let os = match consts::OS {
"macos" => "apple-darwin",
"linux" => "unknown-linux-gnu",
"windows" => "pc-windows-msvc",
other => bail!("Running on unsupported os: {other}"),
};
let asset_name = format!("rust-analyzer-{}-{os}.gz", consts::ARCH);
let asset = release
.assets
.iter()
.find(|asset| asset.name == asset_name)
.with_context(|| format!("no asset found matching `{asset_name:?}`"))?;
Ok(Box::new(GitHubLspBinaryVersion {
name: release.tag_name,
url: asset.browser_download_url.clone(),
}))
}
async fn fetch_server_binary(
&self,
version: Box<dyn 'static + Send + Any>,
container_dir: PathBuf,
delegate: &dyn LspAdapterDelegate,
) -> Result<LanguageServerBinary> {
let version = version.downcast::<GitHubLspBinaryVersion>().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?;
// todo("windows")
#[cfg(not(windows))]
{
fs::set_permissions(
&destination_path,
<fs::Permissions as fs::unix::PermissionsExt>::from_mode(0o755),
)
.await?;
}
remove_matching(&container_dir, |entry| entry != destination_path).await;
}
Ok(LanguageServerBinary {
path: destination_path,
env: None,
arguments: Default::default(),
})
}
async fn cached_server_binary(
&self,
container_dir: PathBuf,
_: &dyn LspAdapterDelegate,
) -> Option<LanguageServerBinary> {
get_cached_server_binary(container_dir).await
}
async fn installation_test_binary(
&self,
container_dir: PathBuf,
) -> Option<LanguageServerBinary> {
get_cached_server_binary(container_dir)
.await
.map(|mut binary| {
binary.arguments = vec!["--help".into()];
binary
})
}
fn disk_based_diagnostic_sources(&self) -> Vec<String> {
vec!["rustc".into()]
}
fn disk_based_diagnostics_progress_token(&self) -> Option<String> {
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<Language>,
) -> Option<CodeLabel> {
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<Language>,
) -> Option<CodeLabel> {
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,
})
}
}
pub(crate) struct RustContextProvider;
impl LanguageContextProvider for RustContextProvider {
fn build_context(
&self,
location: Location,
cx: &mut gpui::AppContext,
) -> Result<LanguageContext> {
let mut context = DefaultContextProvider.build_context(location.clone(), cx)?;
if context.package.is_none() {
if let Some(path) = location.buffer.read(cx).file().and_then(|file| {
let local_file = file.as_local()?.abs_path(cx);
local_file.parent().map(PathBuf::from)
}) {
// src/
// main.rs
// lib.rs
// foo/
// bar/
// baz.rs <|>
// /bin/
// bin_1.rs
//
let Some(pkgid) = std::process::Command::new("cargo")
.current_dir(path)
.arg("pkgid")
.output()
.log_err()
else {
return Ok(context);
};
let package_name = String::from_utf8(pkgid.stdout)
.map(|name| name.trim().to_owned())
.ok();
context.package = package_name;
}
}
Ok(context)
}
}
async fn get_cached_server_binary(container_dir: PathBuf) -> Option<LanguageServerBinary> {
async_maybe!({
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"))?,
env: None,
arguments: Default::default(),
})
})
.await
.log_err()
}
#[cfg(test)]
mod tests {
use std::num::NonZeroU32;
use super::*;
use crate::language;
use gpui::{Context, Hsla, TestAppContext};
use language::language_settings::AllLanguageSettings;
use settings::SettingsStore;
use text::BufferId;
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 adapter = Arc::new(RustLspAdapter);
let language = language("rust", tree_sitter_rust::language());
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!(
adapter
.label_for_completion(
&lsp::CompletionItem {
kind: Some(lsp::CompletionItemKind::FUNCTION),
label: "hello(…)".to_string(),
detail: Some("fn(&mut Option<T>) -> Vec<T>".to_string()),
..Default::default()
},
&language
)
.await,
Some(CodeLabel {
text: "hello(&mut Option<T>) -> Vec<T>".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!(
adapter
.label_for_completion(
&lsp::CompletionItem {
kind: Some(lsp::CompletionItemKind::FUNCTION),
label: "hello(…)".to_string(),
detail: Some("async fn(&mut Option<T>) -> Vec<T>".to_string()),
..Default::default()
},
&language
)
.await,
Some(CodeLabel {
text: "hello(&mut Option<T>) -> Vec<T>".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!(
adapter
.label_for_completion(
&lsp::CompletionItem {
kind: Some(lsp::CompletionItemKind::FIELD),
label: "len".to_string(),
detail: Some("usize".to_string()),
..Default::default()
},
&language
)
.await,
Some(CodeLabel {
text: "len: usize".to_string(),
filter_range: 0..3,
runs: vec![(0..3, highlight_field), (5..10, highlight_type),],
})
);
assert_eq!(
adapter
.label_for_completion(
&lsp::CompletionItem {
kind: Some(lsp::CompletionItemKind::FUNCTION),
label: "hello(…)".to_string(),
detail: Some("fn(&mut Option<T>) -> Vec<T>".to_string()),
..Default::default()
},
&language
)
.await,
Some(CodeLabel {
text: "hello(&mut Option<T>) -> Vec<T>".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 adapter = Arc::new(RustLspAdapter);
let language = language("rust", tree_sitter_rust::language());
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!(
adapter
.label_for_symbol("hello", lsp::SymbolKind::FUNCTION, &language)
.await,
Some(CodeLabel {
text: "fn hello".to_string(),
filter_range: 3..8,
runs: vec![(0..2, highlight_keyword), (3..8, highlight_function)],
})
);
assert_eq!(
adapter
.label_for_symbol("World", lsp::SymbolKind::TYPE_PARAMETER, &language)
.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::<SettingsStore, _>(|store, cx| {
store.update_user_settings::<AllLanguageSettings>(cx, |s| {
s.defaults.tab_size = NonZeroU32::new(2);
});
});
});
let language = crate::language("rust", tree_sitter_rust::language());
cx.new_model(|cx| {
let mut buffer = Buffer::new(0, BufferId::new(cx.entity_id().as_u64()).unwrap(), "")
.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
});
}
}
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