1use anyhow::{Context as _, ensure};
2use anyhow::{Result, anyhow};
3use async_trait::async_trait;
4use collections::HashMap;
5use futures::{AsyncBufReadExt, StreamExt as _};
6use gpui::{App, AsyncApp, SharedString, Task};
7use http_client::github::{AssetKind, GitHubLspBinaryVersion, latest_github_release};
8use language::language_settings::language_settings;
9use language::{ContextLocation, LanguageToolchainStore, LspInstaller};
10use language::{ContextProvider, LspAdapter, LspAdapterDelegate};
11use language::{LanguageName, ManifestName, ManifestProvider, ManifestQuery};
12use language::{Toolchain, ToolchainList, ToolchainLister, ToolchainMetadata};
13use lsp::LanguageServerBinary;
14use lsp::LanguageServerName;
15use node_runtime::{NodeRuntime, VersionStrategy};
16use pet_core::Configuration;
17use pet_core::os_environment::Environment;
18use pet_core::python_environment::{PythonEnvironment, PythonEnvironmentKind};
19use pet_virtualenv::is_virtualenv_dir;
20use project::Fs;
21use project::lsp_store::language_server_settings;
22use serde_json::{Value, json};
23use smol::lock::OnceCell;
24use std::cmp::Ordering;
25use std::env::consts;
26use util::fs::{make_file_executable, remove_matching};
27
28use parking_lot::Mutex;
29use std::str::FromStr;
30use std::{
31 borrow::Cow,
32 fmt::Write,
33 path::{Path, PathBuf},
34 sync::Arc,
35};
36use task::{ShellKind, TaskTemplate, TaskTemplates, VariableName};
37use util::{ResultExt, maybe};
38
39use crate::github_download::{GithubBinaryMetadata, download_server_binary};
40
41pub(crate) struct PyprojectTomlManifestProvider;
42
43impl ManifestProvider for PyprojectTomlManifestProvider {
44 fn name(&self) -> ManifestName {
45 SharedString::new_static("pyproject.toml").into()
46 }
47
48 fn search(
49 &self,
50 ManifestQuery {
51 path,
52 depth,
53 delegate,
54 }: ManifestQuery,
55 ) -> Option<Arc<Path>> {
56 for path in path.ancestors().take(depth) {
57 let p = path.join("pyproject.toml");
58 if delegate.exists(&p, Some(false)) {
59 return Some(path.into());
60 }
61 }
62
63 None
64 }
65}
66
67enum TestRunner {
68 UNITTEST,
69 PYTEST,
70}
71
72impl FromStr for TestRunner {
73 type Err = ();
74
75 fn from_str(s: &str) -> std::result::Result<Self, Self::Err> {
76 match s {
77 "unittest" => Ok(Self::UNITTEST),
78 "pytest" => Ok(Self::PYTEST),
79 _ => Err(()),
80 }
81 }
82}
83
84/// Pyright assigns each completion item a `sortText` of the form `XX.YYYY.name`.
85/// Where `XX` is the sorting category, `YYYY` is based on most recent usage,
86/// and `name` is the symbol name itself.
87///
88/// The problem with it is that Pyright adjusts the sort text based on previous resolutions (items for which we've issued `completion/resolve` call have their sortText adjusted),
89/// which - long story short - makes completion items list non-stable. Pyright probably relies on VSCode's implementation detail.
90/// see https://github.com/microsoft/pyright/blob/95ef4e103b9b2f129c9320427e51b73ea7cf78bd/packages/pyright-internal/src/languageService/completionProvider.ts#LL2873
91fn process_pyright_completions(items: &mut [lsp::CompletionItem]) {
92 for item in items {
93 item.sort_text.take();
94 }
95}
96
97pub struct TyLspAdapter {
98 fs: Arc<dyn Fs>,
99}
100
101#[cfg(target_os = "macos")]
102impl TyLspAdapter {
103 const GITHUB_ASSET_KIND: AssetKind = AssetKind::TarGz;
104 const ARCH_SERVER_NAME: &str = "apple-darwin";
105}
106
107#[cfg(target_os = "linux")]
108impl TyLspAdapter {
109 const GITHUB_ASSET_KIND: AssetKind = AssetKind::TarGz;
110 const ARCH_SERVER_NAME: &str = "unknown-linux-gnu";
111}
112
113#[cfg(target_os = "freebsd")]
114impl TyLspAdapter {
115 const GITHUB_ASSET_KIND: AssetKind = AssetKind::TarGz;
116 const ARCH_SERVER_NAME: &str = "unknown-freebsd";
117}
118
119#[cfg(target_os = "windows")]
120impl TyLspAdapter {
121 const GITHUB_ASSET_KIND: AssetKind = AssetKind::Zip;
122 const ARCH_SERVER_NAME: &str = "pc-windows-msvc";
123}
124
125impl TyLspAdapter {
126 const SERVER_NAME: LanguageServerName = LanguageServerName::new_static("ty");
127
128 pub fn new(fs: Arc<dyn Fs>) -> TyLspAdapter {
129 TyLspAdapter { fs }
130 }
131
132 fn build_asset_name() -> Result<(String, String)> {
133 let arch = match consts::ARCH {
134 "x86" => "i686",
135 _ => consts::ARCH,
136 };
137 let os = Self::ARCH_SERVER_NAME;
138 let suffix = match consts::OS {
139 "windows" => "zip",
140 _ => "tar.gz",
141 };
142 let asset_name = format!("ty-{arch}-{os}.{suffix}");
143 let asset_stem = format!("ty-{arch}-{os}");
144 Ok((asset_stem, asset_name))
145 }
146}
147
148#[async_trait(?Send)]
149impl LspAdapter for TyLspAdapter {
150 fn name(&self) -> LanguageServerName {
151 Self::SERVER_NAME
152 }
153
154 async fn workspace_configuration(
155 self: Arc<Self>,
156 _: &Arc<dyn LspAdapterDelegate>,
157 toolchain: Option<Toolchain>,
158 _cx: &mut AsyncApp,
159 ) -> Result<Value> {
160 let mut ret = json!({});
161 if let Some(toolchain) = toolchain.and_then(|toolchain| {
162 serde_json::from_value::<PythonEnvironment>(toolchain.as_json).ok()
163 }) {
164 _ = maybe!({
165 let uri = url::Url::from_file_path(toolchain.executable?).ok()?;
166 let sys_prefix = toolchain.prefix.clone()?;
167 let environment = json!({
168 "executable": {
169 "uri": uri,
170 "sysPrefix": sys_prefix
171 }
172 });
173 ret.as_object_mut()?.insert(
174 "pythonExtension".into(),
175 json!({ "activeEnvironment": environment }),
176 );
177 Some(())
178 });
179 }
180 Ok(json!({"ty": ret}))
181 }
182}
183
184impl LspInstaller for TyLspAdapter {
185 type BinaryVersion = GitHubLspBinaryVersion;
186 async fn fetch_latest_server_version(
187 &self,
188 delegate: &dyn LspAdapterDelegate,
189 _: bool,
190 _: &mut AsyncApp,
191 ) -> Result<Self::BinaryVersion> {
192 let release =
193 latest_github_release("astral-sh/ty", true, true, delegate.http_client()).await?;
194 let (_, asset_name) = Self::build_asset_name()?;
195 let asset = release
196 .assets
197 .into_iter()
198 .find(|asset| asset.name == asset_name)
199 .with_context(|| format!("no asset found matching `{asset_name:?}`"))?;
200 Ok(GitHubLspBinaryVersion {
201 name: release.tag_name,
202 url: asset.browser_download_url,
203 digest: asset.digest,
204 })
205 }
206
207 async fn fetch_server_binary(
208 &self,
209 latest_version: Self::BinaryVersion,
210 container_dir: PathBuf,
211 delegate: &dyn LspAdapterDelegate,
212 ) -> Result<LanguageServerBinary> {
213 let GitHubLspBinaryVersion {
214 name,
215 url,
216 digest: expected_digest,
217 } = latest_version;
218 let destination_path = container_dir.join(format!("ty-{name}"));
219
220 async_fs::create_dir_all(&destination_path).await?;
221
222 let server_path = match Self::GITHUB_ASSET_KIND {
223 AssetKind::TarGz | AssetKind::Gz => destination_path
224 .join(Self::build_asset_name()?.0)
225 .join("ty"),
226 AssetKind::Zip => destination_path.clone().join("ty.exe"),
227 };
228
229 let binary = LanguageServerBinary {
230 path: server_path.clone(),
231 env: None,
232 arguments: vec!["server".into()],
233 };
234
235 let metadata_path = destination_path.with_extension("metadata");
236 let metadata = GithubBinaryMetadata::read_from_file(&metadata_path)
237 .await
238 .ok();
239 if let Some(metadata) = metadata {
240 let validity_check = async || {
241 delegate
242 .try_exec(LanguageServerBinary {
243 path: server_path.clone(),
244 arguments: vec!["--version".into()],
245 env: None,
246 })
247 .await
248 .inspect_err(|err| {
249 log::warn!("Unable to run {server_path:?} asset, redownloading: {err}",)
250 })
251 };
252 if let (Some(actual_digest), Some(expected_digest)) =
253 (&metadata.digest, &expected_digest)
254 {
255 if actual_digest == expected_digest {
256 if validity_check().await.is_ok() {
257 return Ok(binary);
258 }
259 } else {
260 log::info!(
261 "SHA-256 mismatch for {destination_path:?} asset, downloading new asset. Expected: {expected_digest}, Got: {actual_digest}"
262 );
263 }
264 } else if validity_check().await.is_ok() {
265 return Ok(binary);
266 }
267 }
268
269 download_server_binary(
270 delegate,
271 &url,
272 expected_digest.as_deref(),
273 &destination_path,
274 Self::GITHUB_ASSET_KIND,
275 )
276 .await?;
277 make_file_executable(&server_path).await?;
278 remove_matching(&container_dir, |path| path != destination_path).await;
279 GithubBinaryMetadata::write_to_file(
280 &GithubBinaryMetadata {
281 metadata_version: 1,
282 digest: expected_digest,
283 },
284 &metadata_path,
285 )
286 .await?;
287
288 Ok(LanguageServerBinary {
289 path: server_path,
290 env: None,
291 arguments: vec!["server".into()],
292 })
293 }
294
295 async fn cached_server_binary(
296 &self,
297 container_dir: PathBuf,
298 _: &dyn LspAdapterDelegate,
299 ) -> Option<LanguageServerBinary> {
300 maybe!(async {
301 let mut last = None;
302 let mut entries = self.fs.read_dir(&container_dir).await?;
303 while let Some(entry) = entries.next().await {
304 let path = entry?;
305 if path.extension().is_some_and(|ext| ext == "metadata") {
306 continue;
307 }
308 last = Some(path);
309 }
310
311 let path = last.context("no cached binary")?;
312 let path = match TyLspAdapter::GITHUB_ASSET_KIND {
313 AssetKind::TarGz | AssetKind::Gz => {
314 path.join(Self::build_asset_name()?.0).join("ty")
315 }
316 AssetKind::Zip => path.join("ty.exe"),
317 };
318
319 anyhow::Ok(LanguageServerBinary {
320 path,
321 env: None,
322 arguments: vec!["server".into()],
323 })
324 })
325 .await
326 .log_err()
327 }
328}
329
330pub struct PyrightLspAdapter {
331 node: NodeRuntime,
332}
333
334impl PyrightLspAdapter {
335 const SERVER_NAME: LanguageServerName = LanguageServerName::new_static("pyright");
336 const SERVER_PATH: &str = "node_modules/pyright/langserver.index.js";
337 const NODE_MODULE_RELATIVE_SERVER_PATH: &str = "pyright/langserver.index.js";
338
339 pub fn new(node: NodeRuntime) -> Self {
340 PyrightLspAdapter { node }
341 }
342
343 async fn get_cached_server_binary(
344 container_dir: PathBuf,
345 node: &NodeRuntime,
346 ) -> Option<LanguageServerBinary> {
347 let server_path = container_dir.join(Self::SERVER_PATH);
348 if server_path.exists() {
349 Some(LanguageServerBinary {
350 path: node.binary_path().await.log_err()?,
351 env: None,
352 arguments: vec![server_path.into(), "--stdio".into()],
353 })
354 } else {
355 log::error!("missing executable in directory {:?}", server_path);
356 None
357 }
358 }
359}
360
361#[async_trait(?Send)]
362impl LspAdapter for PyrightLspAdapter {
363 fn name(&self) -> LanguageServerName {
364 Self::SERVER_NAME
365 }
366
367 async fn initialization_options(
368 self: Arc<Self>,
369 _: &Arc<dyn LspAdapterDelegate>,
370 ) -> Result<Option<Value>> {
371 // Provide minimal initialization options
372 // Virtual environment configuration will be handled through workspace configuration
373 Ok(Some(json!({
374 "python": {
375 "analysis": {
376 "autoSearchPaths": true,
377 "useLibraryCodeForTypes": true,
378 "autoImportCompletions": true
379 }
380 }
381 })))
382 }
383
384 async fn process_completions(&self, items: &mut [lsp::CompletionItem]) {
385 process_pyright_completions(items);
386 }
387
388 async fn label_for_completion(
389 &self,
390 item: &lsp::CompletionItem,
391 language: &Arc<language::Language>,
392 ) -> Option<language::CodeLabel> {
393 let label = &item.label;
394 let grammar = language.grammar()?;
395 let highlight_id = match item.kind? {
396 lsp::CompletionItemKind::METHOD => grammar.highlight_id_for_name("function.method"),
397 lsp::CompletionItemKind::FUNCTION => grammar.highlight_id_for_name("function"),
398 lsp::CompletionItemKind::CLASS => grammar.highlight_id_for_name("type"),
399 lsp::CompletionItemKind::CONSTANT => grammar.highlight_id_for_name("constant"),
400 lsp::CompletionItemKind::VARIABLE => grammar.highlight_id_for_name("variable"),
401 _ => {
402 return None;
403 }
404 };
405 let filter_range = item
406 .filter_text
407 .as_deref()
408 .and_then(|filter| label.find(filter).map(|ix| ix..ix + filter.len()))
409 .unwrap_or(0..label.len());
410 let mut text = label.clone();
411 if let Some(completion_details) = item
412 .label_details
413 .as_ref()
414 .and_then(|details| details.description.as_ref())
415 {
416 write!(&mut text, " {}", completion_details).ok();
417 }
418 Some(language::CodeLabel {
419 runs: highlight_id
420 .map(|id| (0..label.len(), id))
421 .into_iter()
422 .collect(),
423 text,
424 filter_range,
425 })
426 }
427
428 async fn label_for_symbol(
429 &self,
430 name: &str,
431 kind: lsp::SymbolKind,
432 language: &Arc<language::Language>,
433 ) -> Option<language::CodeLabel> {
434 let (text, filter_range, display_range) = match kind {
435 lsp::SymbolKind::METHOD | lsp::SymbolKind::FUNCTION => {
436 let text = format!("def {}():\n", name);
437 let filter_range = 4..4 + name.len();
438 let display_range = 0..filter_range.end;
439 (text, filter_range, display_range)
440 }
441 lsp::SymbolKind::CLASS => {
442 let text = format!("class {}:", name);
443 let filter_range = 6..6 + name.len();
444 let display_range = 0..filter_range.end;
445 (text, filter_range, display_range)
446 }
447 lsp::SymbolKind::CONSTANT => {
448 let text = format!("{} = 0", name);
449 let filter_range = 0..name.len();
450 let display_range = 0..filter_range.end;
451 (text, filter_range, display_range)
452 }
453 _ => return None,
454 };
455
456 Some(language::CodeLabel {
457 runs: language.highlight_text(&text.as_str().into(), display_range.clone()),
458 text: text[display_range].to_string(),
459 filter_range,
460 })
461 }
462
463 async fn workspace_configuration(
464 self: Arc<Self>,
465
466 adapter: &Arc<dyn LspAdapterDelegate>,
467 toolchain: Option<Toolchain>,
468 cx: &mut AsyncApp,
469 ) -> Result<Value> {
470 cx.update(move |cx| {
471 let mut user_settings =
472 language_server_settings(adapter.as_ref(), &Self::SERVER_NAME, cx)
473 .and_then(|s| s.settings.clone())
474 .unwrap_or_default();
475
476 // If we have a detected toolchain, configure Pyright to use it
477 if let Some(toolchain) = toolchain
478 && let Ok(env) = serde_json::from_value::<
479 pet_core::python_environment::PythonEnvironment,
480 >(toolchain.as_json.clone())
481 {
482 if !user_settings.is_object() {
483 user_settings = Value::Object(serde_json::Map::default());
484 }
485 let object = user_settings.as_object_mut().unwrap();
486
487 let interpreter_path = toolchain.path.to_string();
488 if let Some(venv_dir) = env.prefix {
489 // Set venvPath and venv at the root level
490 // This matches the format of a pyrightconfig.json file
491 if let Some(parent) = venv_dir.parent() {
492 // Use relative path if the venv is inside the workspace
493 let venv_path = if parent == adapter.worktree_root_path() {
494 ".".to_string()
495 } else {
496 parent.to_string_lossy().into_owned()
497 };
498 object.insert("venvPath".to_string(), Value::String(venv_path));
499 }
500
501 if let Some(venv_name) = venv_dir.file_name() {
502 object.insert(
503 "venv".to_owned(),
504 Value::String(venv_name.to_string_lossy().into_owned()),
505 );
506 }
507 }
508
509 // Always set the python interpreter path
510 // Get or create the python section
511 let python = object
512 .entry("python")
513 .and_modify(|v| {
514 if !v.is_object() {
515 *v = Value::Object(serde_json::Map::default());
516 }
517 })
518 .or_insert(Value::Object(serde_json::Map::default()));
519 let python = python.as_object_mut().unwrap();
520
521 // Set both pythonPath and defaultInterpreterPath for compatibility
522 python.insert(
523 "pythonPath".to_owned(),
524 Value::String(interpreter_path.clone()),
525 );
526 python.insert(
527 "defaultInterpreterPath".to_owned(),
528 Value::String(interpreter_path),
529 );
530 }
531
532 user_settings
533 })
534 }
535}
536
537impl LspInstaller for PyrightLspAdapter {
538 type BinaryVersion = String;
539
540 async fn fetch_latest_server_version(
541 &self,
542 _: &dyn LspAdapterDelegate,
543 _: bool,
544 _: &mut AsyncApp,
545 ) -> Result<String> {
546 self.node
547 .npm_package_latest_version(Self::SERVER_NAME.as_ref())
548 .await
549 }
550
551 async fn check_if_user_installed(
552 &self,
553 delegate: &dyn LspAdapterDelegate,
554 _: Option<Toolchain>,
555 _: &AsyncApp,
556 ) -> Option<LanguageServerBinary> {
557 if let Some(pyright_bin) = delegate.which("pyright-langserver".as_ref()).await {
558 let env = delegate.shell_env().await;
559 Some(LanguageServerBinary {
560 path: pyright_bin,
561 env: Some(env),
562 arguments: vec!["--stdio".into()],
563 })
564 } else {
565 let node = delegate.which("node".as_ref()).await?;
566 let (node_modules_path, _) = delegate
567 .npm_package_installed_version(Self::SERVER_NAME.as_ref())
568 .await
569 .log_err()??;
570
571 let path = node_modules_path.join(Self::NODE_MODULE_RELATIVE_SERVER_PATH);
572
573 let env = delegate.shell_env().await;
574 Some(LanguageServerBinary {
575 path: node,
576 env: Some(env),
577 arguments: vec![path.into(), "--stdio".into()],
578 })
579 }
580 }
581
582 async fn fetch_server_binary(
583 &self,
584 latest_version: Self::BinaryVersion,
585 container_dir: PathBuf,
586 delegate: &dyn LspAdapterDelegate,
587 ) -> Result<LanguageServerBinary> {
588 let server_path = container_dir.join(Self::SERVER_PATH);
589
590 self.node
591 .npm_install_packages(
592 &container_dir,
593 &[(Self::SERVER_NAME.as_ref(), latest_version.as_str())],
594 )
595 .await?;
596
597 let env = delegate.shell_env().await;
598 Ok(LanguageServerBinary {
599 path: self.node.binary_path().await?,
600 env: Some(env),
601 arguments: vec![server_path.into(), "--stdio".into()],
602 })
603 }
604
605 async fn check_if_version_installed(
606 &self,
607 version: &Self::BinaryVersion,
608 container_dir: &PathBuf,
609 delegate: &dyn LspAdapterDelegate,
610 ) -> Option<LanguageServerBinary> {
611 let server_path = container_dir.join(Self::SERVER_PATH);
612
613 let should_install_language_server = self
614 .node
615 .should_install_npm_package(
616 Self::SERVER_NAME.as_ref(),
617 &server_path,
618 container_dir,
619 VersionStrategy::Latest(version),
620 )
621 .await;
622
623 if should_install_language_server {
624 None
625 } else {
626 let env = delegate.shell_env().await;
627 Some(LanguageServerBinary {
628 path: self.node.binary_path().await.ok()?,
629 env: Some(env),
630 arguments: vec![server_path.into(), "--stdio".into()],
631 })
632 }
633 }
634
635 async fn cached_server_binary(
636 &self,
637 container_dir: PathBuf,
638 delegate: &dyn LspAdapterDelegate,
639 ) -> Option<LanguageServerBinary> {
640 let mut binary = Self::get_cached_server_binary(container_dir, &self.node).await?;
641 binary.env = Some(delegate.shell_env().await);
642 Some(binary)
643 }
644}
645
646pub(crate) struct PythonContextProvider;
647
648const PYTHON_TEST_TARGET_TASK_VARIABLE: VariableName =
649 VariableName::Custom(Cow::Borrowed("PYTHON_TEST_TARGET"));
650
651const PYTHON_ACTIVE_TOOLCHAIN_PATH: VariableName =
652 VariableName::Custom(Cow::Borrowed("PYTHON_ACTIVE_ZED_TOOLCHAIN"));
653
654const PYTHON_MODULE_NAME_TASK_VARIABLE: VariableName =
655 VariableName::Custom(Cow::Borrowed("PYTHON_MODULE_NAME"));
656
657impl ContextProvider for PythonContextProvider {
658 fn build_context(
659 &self,
660 variables: &task::TaskVariables,
661 location: ContextLocation<'_>,
662 _: Option<HashMap<String, String>>,
663 toolchains: Arc<dyn LanguageToolchainStore>,
664 cx: &mut gpui::App,
665 ) -> Task<Result<task::TaskVariables>> {
666 let test_target =
667 match selected_test_runner(location.file_location.buffer.read(cx).file(), cx) {
668 TestRunner::UNITTEST => self.build_unittest_target(variables),
669 TestRunner::PYTEST => self.build_pytest_target(variables),
670 };
671
672 let module_target = self.build_module_target(variables);
673 let location_file = location.file_location.buffer.read(cx).file().cloned();
674 let worktree_id = location_file.as_ref().map(|f| f.worktree_id(cx));
675
676 cx.spawn(async move |cx| {
677 let active_toolchain = if let Some(worktree_id) = worktree_id {
678 let file_path = location_file
679 .as_ref()
680 .and_then(|f| f.path().parent())
681 .map(Arc::from)
682 .unwrap_or_else(|| Arc::from("".as_ref()));
683
684 toolchains
685 .active_toolchain(worktree_id, file_path, "Python".into(), cx)
686 .await
687 .map_or_else(
688 || String::from("python3"),
689 |toolchain| toolchain.path.to_string(),
690 )
691 } else {
692 String::from("python3")
693 };
694
695 let toolchain = (PYTHON_ACTIVE_TOOLCHAIN_PATH, active_toolchain);
696
697 Ok(task::TaskVariables::from_iter(
698 test_target
699 .into_iter()
700 .chain(module_target.into_iter())
701 .chain([toolchain]),
702 ))
703 })
704 }
705
706 fn associated_tasks(
707 &self,
708 file: Option<Arc<dyn language::File>>,
709 cx: &App,
710 ) -> Task<Option<TaskTemplates>> {
711 let test_runner = selected_test_runner(file.as_ref(), cx);
712
713 let mut tasks = vec![
714 // Execute a selection
715 TaskTemplate {
716 label: "execute selection".to_owned(),
717 command: PYTHON_ACTIVE_TOOLCHAIN_PATH.template_value(),
718 args: vec![
719 "-c".to_owned(),
720 VariableName::SelectedText.template_value_with_whitespace(),
721 ],
722 cwd: Some(VariableName::WorktreeRoot.template_value()),
723 ..TaskTemplate::default()
724 },
725 // Execute an entire file
726 TaskTemplate {
727 label: format!("run '{}'", VariableName::File.template_value()),
728 command: PYTHON_ACTIVE_TOOLCHAIN_PATH.template_value(),
729 args: vec![VariableName::File.template_value_with_whitespace()],
730 cwd: Some(VariableName::WorktreeRoot.template_value()),
731 ..TaskTemplate::default()
732 },
733 // Execute a file as module
734 TaskTemplate {
735 label: format!("run module '{}'", VariableName::File.template_value()),
736 command: PYTHON_ACTIVE_TOOLCHAIN_PATH.template_value(),
737 args: vec![
738 "-m".to_owned(),
739 PYTHON_MODULE_NAME_TASK_VARIABLE.template_value(),
740 ],
741 cwd: Some(VariableName::WorktreeRoot.template_value()),
742 tags: vec!["python-module-main-method".to_owned()],
743 ..TaskTemplate::default()
744 },
745 ];
746
747 tasks.extend(match test_runner {
748 TestRunner::UNITTEST => {
749 [
750 // Run tests for an entire file
751 TaskTemplate {
752 label: format!("unittest '{}'", VariableName::File.template_value()),
753 command: PYTHON_ACTIVE_TOOLCHAIN_PATH.template_value(),
754 args: vec![
755 "-m".to_owned(),
756 "unittest".to_owned(),
757 VariableName::File.template_value_with_whitespace(),
758 ],
759 cwd: Some(VariableName::WorktreeRoot.template_value()),
760 ..TaskTemplate::default()
761 },
762 // Run test(s) for a specific target within a file
763 TaskTemplate {
764 label: "unittest $ZED_CUSTOM_PYTHON_TEST_TARGET".to_owned(),
765 command: PYTHON_ACTIVE_TOOLCHAIN_PATH.template_value(),
766 args: vec![
767 "-m".to_owned(),
768 "unittest".to_owned(),
769 PYTHON_TEST_TARGET_TASK_VARIABLE.template_value_with_whitespace(),
770 ],
771 tags: vec![
772 "python-unittest-class".to_owned(),
773 "python-unittest-method".to_owned(),
774 ],
775 cwd: Some(VariableName::WorktreeRoot.template_value()),
776 ..TaskTemplate::default()
777 },
778 ]
779 }
780 TestRunner::PYTEST => {
781 [
782 // Run tests for an entire file
783 TaskTemplate {
784 label: format!("pytest '{}'", VariableName::File.template_value()),
785 command: PYTHON_ACTIVE_TOOLCHAIN_PATH.template_value(),
786 args: vec![
787 "-m".to_owned(),
788 "pytest".to_owned(),
789 VariableName::File.template_value_with_whitespace(),
790 ],
791 cwd: Some(VariableName::WorktreeRoot.template_value()),
792 ..TaskTemplate::default()
793 },
794 // Run test(s) for a specific target within a file
795 TaskTemplate {
796 label: "pytest $ZED_CUSTOM_PYTHON_TEST_TARGET".to_owned(),
797 command: PYTHON_ACTIVE_TOOLCHAIN_PATH.template_value(),
798 args: vec![
799 "-m".to_owned(),
800 "pytest".to_owned(),
801 PYTHON_TEST_TARGET_TASK_VARIABLE.template_value_with_whitespace(),
802 ],
803 cwd: Some(VariableName::WorktreeRoot.template_value()),
804 tags: vec![
805 "python-pytest-class".to_owned(),
806 "python-pytest-method".to_owned(),
807 ],
808 ..TaskTemplate::default()
809 },
810 ]
811 }
812 });
813
814 Task::ready(Some(TaskTemplates(tasks)))
815 }
816}
817
818fn selected_test_runner(location: Option<&Arc<dyn language::File>>, cx: &App) -> TestRunner {
819 const TEST_RUNNER_VARIABLE: &str = "TEST_RUNNER";
820 language_settings(Some(LanguageName::new("Python")), location, cx)
821 .tasks
822 .variables
823 .get(TEST_RUNNER_VARIABLE)
824 .and_then(|val| TestRunner::from_str(val).ok())
825 .unwrap_or(TestRunner::PYTEST)
826}
827
828impl PythonContextProvider {
829 fn build_unittest_target(
830 &self,
831 variables: &task::TaskVariables,
832 ) -> Option<(VariableName, String)> {
833 let python_module_name =
834 python_module_name_from_relative_path(variables.get(&VariableName::RelativeFile)?);
835
836 let unittest_class_name =
837 variables.get(&VariableName::Custom(Cow::Borrowed("_unittest_class_name")));
838
839 let unittest_method_name = variables.get(&VariableName::Custom(Cow::Borrowed(
840 "_unittest_method_name",
841 )));
842
843 let unittest_target_str = match (unittest_class_name, unittest_method_name) {
844 (Some(class_name), Some(method_name)) => {
845 format!("{python_module_name}.{class_name}.{method_name}")
846 }
847 (Some(class_name), None) => format!("{python_module_name}.{class_name}"),
848 (None, None) => python_module_name,
849 // should never happen, a TestCase class is the unit of testing
850 (None, Some(_)) => return None,
851 };
852
853 Some((
854 PYTHON_TEST_TARGET_TASK_VARIABLE.clone(),
855 unittest_target_str,
856 ))
857 }
858
859 fn build_pytest_target(
860 &self,
861 variables: &task::TaskVariables,
862 ) -> Option<(VariableName, String)> {
863 let file_path = variables.get(&VariableName::RelativeFile)?;
864
865 let pytest_class_name =
866 variables.get(&VariableName::Custom(Cow::Borrowed("_pytest_class_name")));
867
868 let pytest_method_name =
869 variables.get(&VariableName::Custom(Cow::Borrowed("_pytest_method_name")));
870
871 let pytest_target_str = match (pytest_class_name, pytest_method_name) {
872 (Some(class_name), Some(method_name)) => {
873 format!("{file_path}::{class_name}::{method_name}")
874 }
875 (Some(class_name), None) => {
876 format!("{file_path}::{class_name}")
877 }
878 (None, Some(method_name)) => {
879 format!("{file_path}::{method_name}")
880 }
881 (None, None) => file_path.to_string(),
882 };
883
884 Some((PYTHON_TEST_TARGET_TASK_VARIABLE.clone(), pytest_target_str))
885 }
886
887 fn build_module_target(
888 &self,
889 variables: &task::TaskVariables,
890 ) -> Result<(VariableName, String)> {
891 let python_module_name = python_module_name_from_relative_path(
892 variables.get(&VariableName::RelativeFile).unwrap_or(""),
893 );
894
895 let module_target = (PYTHON_MODULE_NAME_TASK_VARIABLE.clone(), python_module_name);
896
897 Ok(module_target)
898 }
899}
900
901fn python_module_name_from_relative_path(relative_path: &str) -> String {
902 let path_with_dots = relative_path.replace('/', ".");
903 path_with_dots
904 .strip_suffix(".py")
905 .unwrap_or(&path_with_dots)
906 .to_string()
907}
908
909fn is_python_env_global(k: &PythonEnvironmentKind) -> bool {
910 matches!(
911 k,
912 PythonEnvironmentKind::Homebrew
913 | PythonEnvironmentKind::Pyenv
914 | PythonEnvironmentKind::GlobalPaths
915 | PythonEnvironmentKind::MacPythonOrg
916 | PythonEnvironmentKind::MacCommandLineTools
917 | PythonEnvironmentKind::LinuxGlobal
918 | PythonEnvironmentKind::MacXCode
919 | PythonEnvironmentKind::WindowsStore
920 | PythonEnvironmentKind::WindowsRegistry
921 )
922}
923
924fn python_env_kind_display(k: &PythonEnvironmentKind) -> &'static str {
925 match k {
926 PythonEnvironmentKind::Conda => "Conda",
927 PythonEnvironmentKind::Pixi => "pixi",
928 PythonEnvironmentKind::Homebrew => "Homebrew",
929 PythonEnvironmentKind::Pyenv => "global (Pyenv)",
930 PythonEnvironmentKind::GlobalPaths => "global",
931 PythonEnvironmentKind::PyenvVirtualEnv => "Pyenv",
932 PythonEnvironmentKind::Pipenv => "Pipenv",
933 PythonEnvironmentKind::Poetry => "Poetry",
934 PythonEnvironmentKind::MacPythonOrg => "global (Python.org)",
935 PythonEnvironmentKind::MacCommandLineTools => "global (Command Line Tools for Xcode)",
936 PythonEnvironmentKind::LinuxGlobal => "global",
937 PythonEnvironmentKind::MacXCode => "global (Xcode)",
938 PythonEnvironmentKind::Venv => "venv",
939 PythonEnvironmentKind::VirtualEnv => "virtualenv",
940 PythonEnvironmentKind::VirtualEnvWrapper => "virtualenvwrapper",
941 PythonEnvironmentKind::WindowsStore => "global (Windows Store)",
942 PythonEnvironmentKind::WindowsRegistry => "global (Windows Registry)",
943 }
944}
945
946pub(crate) struct PythonToolchainProvider;
947
948static ENV_PRIORITY_LIST: &[PythonEnvironmentKind] = &[
949 // Prioritize non-Conda environments.
950 PythonEnvironmentKind::Poetry,
951 PythonEnvironmentKind::Pipenv,
952 PythonEnvironmentKind::VirtualEnvWrapper,
953 PythonEnvironmentKind::Venv,
954 PythonEnvironmentKind::VirtualEnv,
955 PythonEnvironmentKind::PyenvVirtualEnv,
956 PythonEnvironmentKind::Pixi,
957 PythonEnvironmentKind::Conda,
958 PythonEnvironmentKind::Pyenv,
959 PythonEnvironmentKind::GlobalPaths,
960 PythonEnvironmentKind::Homebrew,
961];
962
963fn env_priority(kind: Option<PythonEnvironmentKind>) -> usize {
964 if let Some(kind) = kind {
965 ENV_PRIORITY_LIST
966 .iter()
967 .position(|blessed_env| blessed_env == &kind)
968 .unwrap_or(ENV_PRIORITY_LIST.len())
969 } else {
970 // Unknown toolchains are less useful than non-blessed ones.
971 ENV_PRIORITY_LIST.len() + 1
972 }
973}
974
975/// Return the name of environment declared in <worktree-root/.venv.
976///
977/// https://virtualfish.readthedocs.io/en/latest/plugins.html#auto-activation-auto-activation
978async fn get_worktree_venv_declaration(worktree_root: &Path) -> Option<String> {
979 let file = async_fs::File::open(worktree_root.join(".venv"))
980 .await
981 .ok()?;
982 let mut venv_name = String::new();
983 smol::io::BufReader::new(file)
984 .read_line(&mut venv_name)
985 .await
986 .ok()?;
987 Some(venv_name.trim().to_string())
988}
989
990fn get_venv_parent_dir(env: &PythonEnvironment) -> Option<PathBuf> {
991 // If global, we aren't a virtual environment
992 if let Some(kind) = env.kind
993 && is_python_env_global(&kind)
994 {
995 return None;
996 }
997
998 // Check to be sure we are a virtual environment using pet's most generic
999 // virtual environment type, VirtualEnv
1000 let venv = env
1001 .executable
1002 .as_ref()
1003 .and_then(|p| p.parent())
1004 .and_then(|p| p.parent())
1005 .filter(|p| is_virtualenv_dir(p))?;
1006
1007 venv.parent().map(|parent| parent.to_path_buf())
1008}
1009
1010#[async_trait]
1011impl ToolchainLister for PythonToolchainProvider {
1012 async fn list(
1013 &self,
1014 worktree_root: PathBuf,
1015 subroot_relative_path: Arc<Path>,
1016 project_env: Option<HashMap<String, String>>,
1017 ) -> ToolchainList {
1018 let env = project_env.unwrap_or_default();
1019 let environment = EnvironmentApi::from_env(&env);
1020 let locators = pet::locators::create_locators(
1021 Arc::new(pet_conda::Conda::from(&environment)),
1022 Arc::new(pet_poetry::Poetry::from(&environment)),
1023 &environment,
1024 );
1025 let mut config = Configuration::default();
1026
1027 debug_assert!(subroot_relative_path.is_relative());
1028 // `.ancestors()` will yield at least one path, so in case of empty `subroot_relative_path`, we'll just use
1029 // worktree root as the workspace directory.
1030 config.workspace_directories = Some(
1031 subroot_relative_path
1032 .ancestors()
1033 .map(|ancestor| worktree_root.join(ancestor))
1034 .collect(),
1035 );
1036 for locator in locators.iter() {
1037 locator.configure(&config);
1038 }
1039
1040 let reporter = pet_reporter::collect::create_reporter();
1041 pet::find::find_and_report_envs(&reporter, config, &locators, &environment, None);
1042
1043 let mut toolchains = reporter
1044 .environments
1045 .lock()
1046 .map_or(Vec::new(), |mut guard| std::mem::take(&mut guard));
1047
1048 let wr = worktree_root;
1049 let wr_venv = get_worktree_venv_declaration(&wr).await;
1050 // Sort detected environments by:
1051 // environment name matching activation file (<workdir>/.venv)
1052 // environment project dir matching worktree_root
1053 // general env priority
1054 // environment path matching the CONDA_PREFIX env var
1055 // executable path
1056 toolchains.sort_by(|lhs, rhs| {
1057 // Compare venv names against worktree .venv file
1058 let venv_ordering =
1059 wr_venv
1060 .as_ref()
1061 .map_or(Ordering::Equal, |venv| match (&lhs.name, &rhs.name) {
1062 (Some(l), Some(r)) => (r == venv).cmp(&(l == venv)),
1063 (Some(l), None) if l == venv => Ordering::Less,
1064 (None, Some(r)) if r == venv => Ordering::Greater,
1065 _ => Ordering::Equal,
1066 });
1067
1068 // Compare project paths against worktree root
1069 let proj_ordering = || {
1070 let lhs_project = lhs.project.clone().or_else(|| get_venv_parent_dir(lhs));
1071 let rhs_project = rhs.project.clone().or_else(|| get_venv_parent_dir(rhs));
1072 match (&lhs_project, &rhs_project) {
1073 (Some(l), Some(r)) => (r == &wr).cmp(&(l == &wr)),
1074 (Some(l), None) if l == &wr => Ordering::Less,
1075 (None, Some(r)) if r == &wr => Ordering::Greater,
1076 _ => Ordering::Equal,
1077 }
1078 };
1079
1080 // Compare environment priorities
1081 let priority_ordering = || env_priority(lhs.kind).cmp(&env_priority(rhs.kind));
1082
1083 // Compare conda prefixes
1084 let conda_ordering = || {
1085 if lhs.kind == Some(PythonEnvironmentKind::Conda) {
1086 environment
1087 .get_env_var("CONDA_PREFIX".to_string())
1088 .map(|conda_prefix| {
1089 let is_match = |exe: &Option<PathBuf>| {
1090 exe.as_ref().is_some_and(|e| e.starts_with(&conda_prefix))
1091 };
1092 match (is_match(&lhs.executable), is_match(&rhs.executable)) {
1093 (true, false) => Ordering::Less,
1094 (false, true) => Ordering::Greater,
1095 _ => Ordering::Equal,
1096 }
1097 })
1098 .unwrap_or(Ordering::Equal)
1099 } else {
1100 Ordering::Equal
1101 }
1102 };
1103
1104 // Compare Python executables
1105 let exe_ordering = || lhs.executable.cmp(&rhs.executable);
1106
1107 venv_ordering
1108 .then_with(proj_ordering)
1109 .then_with(priority_ordering)
1110 .then_with(conda_ordering)
1111 .then_with(exe_ordering)
1112 });
1113
1114 let mut toolchains: Vec<_> = toolchains
1115 .into_iter()
1116 .filter_map(venv_to_toolchain)
1117 .collect();
1118 toolchains.dedup();
1119 ToolchainList {
1120 toolchains,
1121 default: None,
1122 groups: Default::default(),
1123 }
1124 }
1125 fn meta(&self) -> ToolchainMetadata {
1126 ToolchainMetadata {
1127 term: SharedString::new_static("Virtual Environment"),
1128 new_toolchain_placeholder: SharedString::new_static(
1129 "A path to the python3 executable within a virtual environment, or path to virtual environment itself",
1130 ),
1131 manifest_name: ManifestName::from(SharedString::new_static("pyproject.toml")),
1132 }
1133 }
1134
1135 async fn resolve(
1136 &self,
1137 path: PathBuf,
1138 env: Option<HashMap<String, String>>,
1139 ) -> anyhow::Result<Toolchain> {
1140 let env = env.unwrap_or_default();
1141 let environment = EnvironmentApi::from_env(&env);
1142 let locators = pet::locators::create_locators(
1143 Arc::new(pet_conda::Conda::from(&environment)),
1144 Arc::new(pet_poetry::Poetry::from(&environment)),
1145 &environment,
1146 );
1147 let toolchain = pet::resolve::resolve_environment(&path, &locators, &environment)
1148 .context("Could not find a virtual environment in provided path")?;
1149 let venv = toolchain.resolved.unwrap_or(toolchain.discovered);
1150 venv_to_toolchain(venv).context("Could not convert a venv into a toolchain")
1151 }
1152
1153 async fn activation_script(
1154 &self,
1155 toolchain: &Toolchain,
1156 shell: ShellKind,
1157 fs: &dyn Fs,
1158 ) -> Vec<String> {
1159 let Ok(toolchain) = serde_json::from_value::<pet_core::python_environment::PythonEnvironment>(
1160 toolchain.as_json.clone(),
1161 ) else {
1162 return vec![];
1163 };
1164 let mut activation_script = vec![];
1165
1166 match toolchain.kind {
1167 Some(PythonEnvironmentKind::Conda) => {
1168 if let Some(name) = &toolchain.name {
1169 activation_script.push(format!("conda activate {name}"));
1170 } else {
1171 activation_script.push("conda activate".to_string());
1172 }
1173 }
1174 Some(PythonEnvironmentKind::Venv | PythonEnvironmentKind::VirtualEnv) => {
1175 if let Some(prefix) = &toolchain.prefix {
1176 let activate_keyword = match shell {
1177 ShellKind::Cmd => ".",
1178 ShellKind::Nushell => "overlay use",
1179 ShellKind::PowerShell => ".",
1180 ShellKind::Fish => "source",
1181 ShellKind::Csh => "source",
1182 ShellKind::Posix => "source",
1183 };
1184 let activate_script_name = match shell {
1185 ShellKind::Posix => "activate",
1186 ShellKind::Csh => "activate.csh",
1187 ShellKind::Fish => "activate.fish",
1188 ShellKind::Nushell => "activate.nu",
1189 ShellKind::PowerShell => "activate.ps1",
1190 ShellKind::Cmd => "activate.bat",
1191 };
1192 let path = prefix.join(BINARY_DIR).join(activate_script_name);
1193
1194 if let Ok(quoted) =
1195 shlex::try_quote(&path.to_string_lossy()).map(Cow::into_owned)
1196 && fs.is_file(&path).await
1197 {
1198 activation_script.push(format!("{activate_keyword} {quoted}"));
1199 }
1200 }
1201 }
1202 Some(PythonEnvironmentKind::Pyenv) => {
1203 let Some(manager) = toolchain.manager else {
1204 return vec![];
1205 };
1206 let version = toolchain.version.as_deref().unwrap_or("system");
1207 let pyenv = manager.executable;
1208 let pyenv = pyenv.display();
1209 activation_script.extend(match shell {
1210 ShellKind::Fish => Some(format!("\"{pyenv}\" shell - fish {version}")),
1211 ShellKind::Posix => Some(format!("\"{pyenv}\" shell - sh {version}")),
1212 ShellKind::Nushell => Some(format!("\"{pyenv}\" shell - nu {version}")),
1213 ShellKind::PowerShell => None,
1214 ShellKind::Csh => None,
1215 ShellKind::Cmd => None,
1216 })
1217 }
1218 _ => {}
1219 }
1220 activation_script
1221 }
1222}
1223
1224fn venv_to_toolchain(venv: PythonEnvironment) -> Option<Toolchain> {
1225 let mut name = String::from("Python");
1226 if let Some(ref version) = venv.version {
1227 _ = write!(name, " {version}");
1228 }
1229
1230 let name_and_kind = match (&venv.name, &venv.kind) {
1231 (Some(name), Some(kind)) => Some(format!("({name}; {})", python_env_kind_display(kind))),
1232 (Some(name), None) => Some(format!("({name})")),
1233 (None, Some(kind)) => Some(format!("({})", python_env_kind_display(kind))),
1234 (None, None) => None,
1235 };
1236
1237 if let Some(nk) = name_and_kind {
1238 _ = write!(name, " {nk}");
1239 }
1240
1241 Some(Toolchain {
1242 name: name.into(),
1243 path: venv.executable.as_ref()?.to_str()?.to_owned().into(),
1244 language_name: LanguageName::new("Python"),
1245 as_json: serde_json::to_value(venv).ok()?,
1246 })
1247}
1248
1249pub struct EnvironmentApi<'a> {
1250 global_search_locations: Arc<Mutex<Vec<PathBuf>>>,
1251 project_env: &'a HashMap<String, String>,
1252 pet_env: pet_core::os_environment::EnvironmentApi,
1253}
1254
1255impl<'a> EnvironmentApi<'a> {
1256 pub fn from_env(project_env: &'a HashMap<String, String>) -> Self {
1257 let paths = project_env
1258 .get("PATH")
1259 .map(|p| std::env::split_paths(p).collect())
1260 .unwrap_or_default();
1261
1262 EnvironmentApi {
1263 global_search_locations: Arc::new(Mutex::new(paths)),
1264 project_env,
1265 pet_env: pet_core::os_environment::EnvironmentApi::new(),
1266 }
1267 }
1268
1269 fn user_home(&self) -> Option<PathBuf> {
1270 self.project_env
1271 .get("HOME")
1272 .or_else(|| self.project_env.get("USERPROFILE"))
1273 .map(|home| pet_fs::path::norm_case(PathBuf::from(home)))
1274 .or_else(|| self.pet_env.get_user_home())
1275 }
1276}
1277
1278impl pet_core::os_environment::Environment for EnvironmentApi<'_> {
1279 fn get_user_home(&self) -> Option<PathBuf> {
1280 self.user_home()
1281 }
1282
1283 fn get_root(&self) -> Option<PathBuf> {
1284 None
1285 }
1286
1287 fn get_env_var(&self, key: String) -> Option<String> {
1288 self.project_env
1289 .get(&key)
1290 .cloned()
1291 .or_else(|| self.pet_env.get_env_var(key))
1292 }
1293
1294 fn get_know_global_search_locations(&self) -> Vec<PathBuf> {
1295 if self.global_search_locations.lock().is_empty() {
1296 let mut paths =
1297 std::env::split_paths(&self.get_env_var("PATH".to_string()).unwrap_or_default())
1298 .collect::<Vec<PathBuf>>();
1299
1300 log::trace!("Env PATH: {:?}", paths);
1301 for p in self.pet_env.get_know_global_search_locations() {
1302 if !paths.contains(&p) {
1303 paths.push(p);
1304 }
1305 }
1306
1307 let mut paths = paths
1308 .into_iter()
1309 .filter(|p| p.exists())
1310 .collect::<Vec<PathBuf>>();
1311
1312 self.global_search_locations.lock().append(&mut paths);
1313 }
1314 self.global_search_locations.lock().clone()
1315 }
1316}
1317
1318pub(crate) struct PyLspAdapter {
1319 python_venv_base: OnceCell<Result<Arc<Path>, String>>,
1320}
1321impl PyLspAdapter {
1322 const SERVER_NAME: LanguageServerName = LanguageServerName::new_static("pylsp");
1323 pub(crate) fn new() -> Self {
1324 Self {
1325 python_venv_base: OnceCell::new(),
1326 }
1327 }
1328 async fn ensure_venv(delegate: &dyn LspAdapterDelegate) -> Result<Arc<Path>> {
1329 let python_path = Self::find_base_python(delegate)
1330 .await
1331 .context("Could not find Python installation for PyLSP")?;
1332 let work_dir = delegate
1333 .language_server_download_dir(&Self::SERVER_NAME)
1334 .await
1335 .context("Could not get working directory for PyLSP")?;
1336 let mut path = PathBuf::from(work_dir.as_ref());
1337 path.push("pylsp-venv");
1338 if !path.exists() {
1339 util::command::new_smol_command(python_path)
1340 .arg("-m")
1341 .arg("venv")
1342 .arg("pylsp-venv")
1343 .current_dir(work_dir)
1344 .spawn()?
1345 .output()
1346 .await?;
1347 }
1348
1349 Ok(path.into())
1350 }
1351 // Find "baseline", user python version from which we'll create our own venv.
1352 async fn find_base_python(delegate: &dyn LspAdapterDelegate) -> Option<PathBuf> {
1353 for path in ["python3", "python"] {
1354 if let Some(path) = delegate.which(path.as_ref()).await {
1355 return Some(path);
1356 }
1357 }
1358 None
1359 }
1360
1361 async fn base_venv(&self, delegate: &dyn LspAdapterDelegate) -> Result<Arc<Path>, String> {
1362 self.python_venv_base
1363 .get_or_init(move || async move {
1364 Self::ensure_venv(delegate)
1365 .await
1366 .map_err(|e| format!("{e}"))
1367 })
1368 .await
1369 .clone()
1370 }
1371}
1372
1373const BINARY_DIR: &str = if cfg!(target_os = "windows") {
1374 "Scripts"
1375} else {
1376 "bin"
1377};
1378
1379#[async_trait(?Send)]
1380impl LspAdapter for PyLspAdapter {
1381 fn name(&self) -> LanguageServerName {
1382 Self::SERVER_NAME
1383 }
1384
1385 async fn process_completions(&self, _items: &mut [lsp::CompletionItem]) {}
1386
1387 async fn label_for_completion(
1388 &self,
1389 item: &lsp::CompletionItem,
1390 language: &Arc<language::Language>,
1391 ) -> Option<language::CodeLabel> {
1392 let label = &item.label;
1393 let grammar = language.grammar()?;
1394 let highlight_id = match item.kind? {
1395 lsp::CompletionItemKind::METHOD => grammar.highlight_id_for_name("function.method")?,
1396 lsp::CompletionItemKind::FUNCTION => grammar.highlight_id_for_name("function")?,
1397 lsp::CompletionItemKind::CLASS => grammar.highlight_id_for_name("type")?,
1398 lsp::CompletionItemKind::CONSTANT => grammar.highlight_id_for_name("constant")?,
1399 _ => return None,
1400 };
1401 let filter_range = item
1402 .filter_text
1403 .as_deref()
1404 .and_then(|filter| label.find(filter).map(|ix| ix..ix + filter.len()))
1405 .unwrap_or(0..label.len());
1406 Some(language::CodeLabel {
1407 text: label.clone(),
1408 runs: vec![(0..label.len(), highlight_id)],
1409 filter_range,
1410 })
1411 }
1412
1413 async fn label_for_symbol(
1414 &self,
1415 name: &str,
1416 kind: lsp::SymbolKind,
1417 language: &Arc<language::Language>,
1418 ) -> Option<language::CodeLabel> {
1419 let (text, filter_range, display_range) = match kind {
1420 lsp::SymbolKind::METHOD | lsp::SymbolKind::FUNCTION => {
1421 let text = format!("def {}():\n", name);
1422 let filter_range = 4..4 + name.len();
1423 let display_range = 0..filter_range.end;
1424 (text, filter_range, display_range)
1425 }
1426 lsp::SymbolKind::CLASS => {
1427 let text = format!("class {}:", name);
1428 let filter_range = 6..6 + name.len();
1429 let display_range = 0..filter_range.end;
1430 (text, filter_range, display_range)
1431 }
1432 lsp::SymbolKind::CONSTANT => {
1433 let text = format!("{} = 0", name);
1434 let filter_range = 0..name.len();
1435 let display_range = 0..filter_range.end;
1436 (text, filter_range, display_range)
1437 }
1438 _ => return None,
1439 };
1440
1441 Some(language::CodeLabel {
1442 runs: language.highlight_text(&text.as_str().into(), display_range.clone()),
1443 text: text[display_range].to_string(),
1444 filter_range,
1445 })
1446 }
1447
1448 async fn workspace_configuration(
1449 self: Arc<Self>,
1450 adapter: &Arc<dyn LspAdapterDelegate>,
1451 toolchain: Option<Toolchain>,
1452 cx: &mut AsyncApp,
1453 ) -> Result<Value> {
1454 cx.update(move |cx| {
1455 let mut user_settings =
1456 language_server_settings(adapter.as_ref(), &Self::SERVER_NAME, cx)
1457 .and_then(|s| s.settings.clone())
1458 .unwrap_or_else(|| {
1459 json!({
1460 "plugins": {
1461 "pycodestyle": {"enabled": false},
1462 "rope_autoimport": {"enabled": true, "memory": true},
1463 "pylsp_mypy": {"enabled": false}
1464 },
1465 "rope": {
1466 "ropeFolder": null
1467 },
1468 })
1469 });
1470
1471 // If user did not explicitly modify their python venv, use one from picker.
1472 if let Some(toolchain) = toolchain {
1473 if !user_settings.is_object() {
1474 user_settings = Value::Object(serde_json::Map::default());
1475 }
1476 let object = user_settings.as_object_mut().unwrap();
1477 if let Some(python) = object
1478 .entry("plugins")
1479 .or_insert(Value::Object(serde_json::Map::default()))
1480 .as_object_mut()
1481 {
1482 if let Some(jedi) = python
1483 .entry("jedi")
1484 .or_insert(Value::Object(serde_json::Map::default()))
1485 .as_object_mut()
1486 {
1487 jedi.entry("environment".to_string())
1488 .or_insert_with(|| Value::String(toolchain.path.clone().into()));
1489 }
1490 if let Some(pylint) = python
1491 .entry("pylsp_mypy")
1492 .or_insert(Value::Object(serde_json::Map::default()))
1493 .as_object_mut()
1494 {
1495 pylint.entry("overrides".to_string()).or_insert_with(|| {
1496 Value::Array(vec![
1497 Value::String("--python-executable".into()),
1498 Value::String(toolchain.path.into()),
1499 Value::String("--cache-dir=/dev/null".into()),
1500 Value::Bool(true),
1501 ])
1502 });
1503 }
1504 }
1505 }
1506 user_settings = Value::Object(serde_json::Map::from_iter([(
1507 "pylsp".to_string(),
1508 user_settings,
1509 )]));
1510
1511 user_settings
1512 })
1513 }
1514}
1515
1516impl LspInstaller for PyLspAdapter {
1517 type BinaryVersion = ();
1518 async fn check_if_user_installed(
1519 &self,
1520 delegate: &dyn LspAdapterDelegate,
1521 toolchain: Option<Toolchain>,
1522 _: &AsyncApp,
1523 ) -> Option<LanguageServerBinary> {
1524 if let Some(pylsp_bin) = delegate.which(Self::SERVER_NAME.as_ref()).await {
1525 let env = delegate.shell_env().await;
1526 Some(LanguageServerBinary {
1527 path: pylsp_bin,
1528 env: Some(env),
1529 arguments: vec![],
1530 })
1531 } else {
1532 let toolchain = toolchain?;
1533 let pylsp_path = Path::new(toolchain.path.as_ref()).parent()?.join("pylsp");
1534 pylsp_path.exists().then(|| LanguageServerBinary {
1535 path: toolchain.path.to_string().into(),
1536 arguments: vec![pylsp_path.into()],
1537 env: None,
1538 })
1539 }
1540 }
1541
1542 async fn fetch_latest_server_version(
1543 &self,
1544 _: &dyn LspAdapterDelegate,
1545 _: bool,
1546 _: &mut AsyncApp,
1547 ) -> Result<()> {
1548 Ok(())
1549 }
1550
1551 async fn fetch_server_binary(
1552 &self,
1553 _: (),
1554 _: PathBuf,
1555 delegate: &dyn LspAdapterDelegate,
1556 ) -> Result<LanguageServerBinary> {
1557 let venv = self.base_venv(delegate).await.map_err(|e| anyhow!(e))?;
1558 let pip_path = venv.join(BINARY_DIR).join("pip3");
1559 ensure!(
1560 util::command::new_smol_command(pip_path.as_path())
1561 .arg("install")
1562 .arg("python-lsp-server[all]")
1563 .arg("--upgrade")
1564 .output()
1565 .await?
1566 .status
1567 .success(),
1568 "python-lsp-server[all] installation failed"
1569 );
1570 ensure!(
1571 util::command::new_smol_command(pip_path)
1572 .arg("install")
1573 .arg("pylsp-mypy")
1574 .arg("--upgrade")
1575 .output()
1576 .await?
1577 .status
1578 .success(),
1579 "pylsp-mypy installation failed"
1580 );
1581 let pylsp = venv.join(BINARY_DIR).join("pylsp");
1582 ensure!(
1583 delegate.which(pylsp.as_os_str()).await.is_some(),
1584 "pylsp installation was incomplete"
1585 );
1586 Ok(LanguageServerBinary {
1587 path: pylsp,
1588 env: None,
1589 arguments: vec![],
1590 })
1591 }
1592
1593 async fn cached_server_binary(
1594 &self,
1595 _: PathBuf,
1596 delegate: &dyn LspAdapterDelegate,
1597 ) -> Option<LanguageServerBinary> {
1598 let venv = self.base_venv(delegate).await.ok()?;
1599 let pylsp = venv.join(BINARY_DIR).join("pylsp");
1600 delegate.which(pylsp.as_os_str()).await?;
1601 Some(LanguageServerBinary {
1602 path: pylsp,
1603 env: None,
1604 arguments: vec![],
1605 })
1606 }
1607}
1608
1609pub(crate) struct BasedPyrightLspAdapter {
1610 node: NodeRuntime,
1611}
1612
1613impl BasedPyrightLspAdapter {
1614 const SERVER_NAME: LanguageServerName = LanguageServerName::new_static("basedpyright");
1615 const BINARY_NAME: &'static str = "basedpyright-langserver";
1616 const SERVER_PATH: &str = "node_modules/basedpyright/langserver.index.js";
1617 const NODE_MODULE_RELATIVE_SERVER_PATH: &str = "basedpyright/langserver.index.js";
1618
1619 pub(crate) fn new(node: NodeRuntime) -> Self {
1620 BasedPyrightLspAdapter { node }
1621 }
1622
1623 async fn get_cached_server_binary(
1624 container_dir: PathBuf,
1625 node: &NodeRuntime,
1626 ) -> Option<LanguageServerBinary> {
1627 let server_path = container_dir.join(Self::SERVER_PATH);
1628 if server_path.exists() {
1629 Some(LanguageServerBinary {
1630 path: node.binary_path().await.log_err()?,
1631 env: None,
1632 arguments: vec![server_path.into(), "--stdio".into()],
1633 })
1634 } else {
1635 log::error!("missing executable in directory {:?}", server_path);
1636 None
1637 }
1638 }
1639}
1640
1641#[async_trait(?Send)]
1642impl LspAdapter for BasedPyrightLspAdapter {
1643 fn name(&self) -> LanguageServerName {
1644 Self::SERVER_NAME
1645 }
1646
1647 async fn initialization_options(
1648 self: Arc<Self>,
1649 _: &Arc<dyn LspAdapterDelegate>,
1650 ) -> Result<Option<Value>> {
1651 // Provide minimal initialization options
1652 // Virtual environment configuration will be handled through workspace configuration
1653 Ok(Some(json!({
1654 "python": {
1655 "analysis": {
1656 "autoSearchPaths": true,
1657 "useLibraryCodeForTypes": true,
1658 "autoImportCompletions": true
1659 }
1660 }
1661 })))
1662 }
1663
1664 async fn process_completions(&self, items: &mut [lsp::CompletionItem]) {
1665 process_pyright_completions(items);
1666 }
1667
1668 async fn label_for_completion(
1669 &self,
1670 item: &lsp::CompletionItem,
1671 language: &Arc<language::Language>,
1672 ) -> Option<language::CodeLabel> {
1673 let label = &item.label;
1674 let grammar = language.grammar()?;
1675 let highlight_id = match item.kind? {
1676 lsp::CompletionItemKind::METHOD => grammar.highlight_id_for_name("function.method"),
1677 lsp::CompletionItemKind::FUNCTION => grammar.highlight_id_for_name("function"),
1678 lsp::CompletionItemKind::CLASS => grammar.highlight_id_for_name("type"),
1679 lsp::CompletionItemKind::CONSTANT => grammar.highlight_id_for_name("constant"),
1680 lsp::CompletionItemKind::VARIABLE => grammar.highlight_id_for_name("variable"),
1681 _ => {
1682 return None;
1683 }
1684 };
1685 let filter_range = item
1686 .filter_text
1687 .as_deref()
1688 .and_then(|filter| label.find(filter).map(|ix| ix..ix + filter.len()))
1689 .unwrap_or(0..label.len());
1690 let mut text = label.clone();
1691 if let Some(completion_details) = item
1692 .label_details
1693 .as_ref()
1694 .and_then(|details| details.description.as_ref())
1695 {
1696 write!(&mut text, " {}", completion_details).ok();
1697 }
1698 Some(language::CodeLabel {
1699 runs: highlight_id
1700 .map(|id| (0..label.len(), id))
1701 .into_iter()
1702 .collect(),
1703 text,
1704 filter_range,
1705 })
1706 }
1707
1708 async fn label_for_symbol(
1709 &self,
1710 name: &str,
1711 kind: lsp::SymbolKind,
1712 language: &Arc<language::Language>,
1713 ) -> Option<language::CodeLabel> {
1714 let (text, filter_range, display_range) = match kind {
1715 lsp::SymbolKind::METHOD | lsp::SymbolKind::FUNCTION => {
1716 let text = format!("def {}():\n", name);
1717 let filter_range = 4..4 + name.len();
1718 let display_range = 0..filter_range.end;
1719 (text, filter_range, display_range)
1720 }
1721 lsp::SymbolKind::CLASS => {
1722 let text = format!("class {}:", name);
1723 let filter_range = 6..6 + name.len();
1724 let display_range = 0..filter_range.end;
1725 (text, filter_range, display_range)
1726 }
1727 lsp::SymbolKind::CONSTANT => {
1728 let text = format!("{} = 0", name);
1729 let filter_range = 0..name.len();
1730 let display_range = 0..filter_range.end;
1731 (text, filter_range, display_range)
1732 }
1733 _ => return None,
1734 };
1735
1736 Some(language::CodeLabel {
1737 runs: language.highlight_text(&text.as_str().into(), display_range.clone()),
1738 text: text[display_range].to_string(),
1739 filter_range,
1740 })
1741 }
1742
1743 async fn workspace_configuration(
1744 self: Arc<Self>,
1745 adapter: &Arc<dyn LspAdapterDelegate>,
1746 toolchain: Option<Toolchain>,
1747 cx: &mut AsyncApp,
1748 ) -> Result<Value> {
1749 cx.update(move |cx| {
1750 let mut user_settings =
1751 language_server_settings(adapter.as_ref(), &Self::SERVER_NAME, cx)
1752 .and_then(|s| s.settings.clone())
1753 .unwrap_or_default();
1754
1755 // If we have a detected toolchain, configure Pyright to use it
1756 if let Some(toolchain) = toolchain
1757 && let Ok(env) = serde_json::from_value::<
1758 pet_core::python_environment::PythonEnvironment,
1759 >(toolchain.as_json.clone())
1760 {
1761 if !user_settings.is_object() {
1762 user_settings = Value::Object(serde_json::Map::default());
1763 }
1764 let object = user_settings.as_object_mut().unwrap();
1765
1766 let interpreter_path = toolchain.path.to_string();
1767 if let Some(venv_dir) = env.prefix {
1768 // Set venvPath and venv at the root level
1769 // This matches the format of a pyrightconfig.json file
1770 if let Some(parent) = venv_dir.parent() {
1771 // Use relative path if the venv is inside the workspace
1772 let venv_path = if parent == adapter.worktree_root_path() {
1773 ".".to_string()
1774 } else {
1775 parent.to_string_lossy().into_owned()
1776 };
1777 object.insert("venvPath".to_string(), Value::String(venv_path));
1778 }
1779
1780 if let Some(venv_name) = venv_dir.file_name() {
1781 object.insert(
1782 "venv".to_owned(),
1783 Value::String(venv_name.to_string_lossy().into_owned()),
1784 );
1785 }
1786 }
1787
1788 // Set both pythonPath and defaultInterpreterPath for compatibility
1789 if let Some(python) = object
1790 .entry("python")
1791 .or_insert(Value::Object(serde_json::Map::default()))
1792 .as_object_mut()
1793 {
1794 python.insert(
1795 "pythonPath".to_owned(),
1796 Value::String(interpreter_path.clone()),
1797 );
1798 python.insert(
1799 "defaultInterpreterPath".to_owned(),
1800 Value::String(interpreter_path),
1801 );
1802 }
1803 // Basedpyright by default uses `strict` type checking, we tone it down as to not surpris users
1804 maybe!({
1805 let basedpyright = object
1806 .entry("basedpyright")
1807 .or_insert(Value::Object(serde_json::Map::default()));
1808 let analysis = basedpyright
1809 .as_object_mut()?
1810 .entry("analysis")
1811 .or_insert(Value::Object(serde_json::Map::default()));
1812 if let serde_json::map::Entry::Vacant(v) =
1813 analysis.as_object_mut()?.entry("typeCheckingMode")
1814 {
1815 v.insert(Value::String("standard".to_owned()));
1816 }
1817 Some(())
1818 });
1819 }
1820
1821 user_settings
1822 })
1823 }
1824}
1825
1826impl LspInstaller for BasedPyrightLspAdapter {
1827 type BinaryVersion = String;
1828
1829 async fn fetch_latest_server_version(
1830 &self,
1831 _: &dyn LspAdapterDelegate,
1832 _: bool,
1833 _: &mut AsyncApp,
1834 ) -> Result<String> {
1835 self.node
1836 .npm_package_latest_version(Self::SERVER_NAME.as_ref())
1837 .await
1838 }
1839
1840 async fn check_if_user_installed(
1841 &self,
1842 delegate: &dyn LspAdapterDelegate,
1843 _: Option<Toolchain>,
1844 _: &AsyncApp,
1845 ) -> Option<LanguageServerBinary> {
1846 if let Some(path) = delegate.which(Self::BINARY_NAME.as_ref()).await {
1847 let env = delegate.shell_env().await;
1848 Some(LanguageServerBinary {
1849 path,
1850 env: Some(env),
1851 arguments: vec!["--stdio".into()],
1852 })
1853 } else {
1854 // TODO shouldn't this be self.node.binary_path()?
1855 let node = delegate.which("node".as_ref()).await?;
1856 let (node_modules_path, _) = delegate
1857 .npm_package_installed_version(Self::SERVER_NAME.as_ref())
1858 .await
1859 .log_err()??;
1860
1861 let path = node_modules_path.join(Self::NODE_MODULE_RELATIVE_SERVER_PATH);
1862
1863 let env = delegate.shell_env().await;
1864 Some(LanguageServerBinary {
1865 path: node,
1866 env: Some(env),
1867 arguments: vec![path.into(), "--stdio".into()],
1868 })
1869 }
1870 }
1871
1872 async fn fetch_server_binary(
1873 &self,
1874 latest_version: Self::BinaryVersion,
1875 container_dir: PathBuf,
1876 delegate: &dyn LspAdapterDelegate,
1877 ) -> Result<LanguageServerBinary> {
1878 let server_path = container_dir.join(Self::SERVER_PATH);
1879
1880 self.node
1881 .npm_install_packages(
1882 &container_dir,
1883 &[(Self::SERVER_NAME.as_ref(), latest_version.as_str())],
1884 )
1885 .await?;
1886
1887 let env = delegate.shell_env().await;
1888 Ok(LanguageServerBinary {
1889 path: self.node.binary_path().await?,
1890 env: Some(env),
1891 arguments: vec![server_path.into(), "--stdio".into()],
1892 })
1893 }
1894
1895 async fn check_if_version_installed(
1896 &self,
1897 version: &Self::BinaryVersion,
1898 container_dir: &PathBuf,
1899 delegate: &dyn LspAdapterDelegate,
1900 ) -> Option<LanguageServerBinary> {
1901 let server_path = container_dir.join(Self::SERVER_PATH);
1902
1903 let should_install_language_server = self
1904 .node
1905 .should_install_npm_package(
1906 Self::SERVER_NAME.as_ref(),
1907 &server_path,
1908 container_dir,
1909 VersionStrategy::Latest(version),
1910 )
1911 .await;
1912
1913 if should_install_language_server {
1914 None
1915 } else {
1916 let env = delegate.shell_env().await;
1917 Some(LanguageServerBinary {
1918 path: self.node.binary_path().await.ok()?,
1919 env: Some(env),
1920 arguments: vec![server_path.into(), "--stdio".into()],
1921 })
1922 }
1923 }
1924
1925 async fn cached_server_binary(
1926 &self,
1927 container_dir: PathBuf,
1928 delegate: &dyn LspAdapterDelegate,
1929 ) -> Option<LanguageServerBinary> {
1930 let mut binary = Self::get_cached_server_binary(container_dir, &self.node).await?;
1931 binary.env = Some(delegate.shell_env().await);
1932 Some(binary)
1933 }
1934}
1935
1936pub(crate) struct RuffLspAdapter {
1937 fs: Arc<dyn Fs>,
1938}
1939
1940#[cfg(target_os = "macos")]
1941impl RuffLspAdapter {
1942 const GITHUB_ASSET_KIND: AssetKind = AssetKind::TarGz;
1943 const ARCH_SERVER_NAME: &str = "apple-darwin";
1944}
1945
1946#[cfg(target_os = "linux")]
1947impl RuffLspAdapter {
1948 const GITHUB_ASSET_KIND: AssetKind = AssetKind::TarGz;
1949 const ARCH_SERVER_NAME: &str = "unknown-linux-gnu";
1950}
1951
1952#[cfg(target_os = "freebsd")]
1953impl RuffLspAdapter {
1954 const GITHUB_ASSET_KIND: AssetKind = AssetKind::TarGz;
1955 const ARCH_SERVER_NAME: &str = "unknown-freebsd";
1956}
1957
1958#[cfg(target_os = "windows")]
1959impl RuffLspAdapter {
1960 const GITHUB_ASSET_KIND: AssetKind = AssetKind::Zip;
1961 const ARCH_SERVER_NAME: &str = "pc-windows-msvc";
1962}
1963
1964impl RuffLspAdapter {
1965 const SERVER_NAME: LanguageServerName = LanguageServerName::new_static("ruff");
1966
1967 pub fn new(fs: Arc<dyn Fs>) -> RuffLspAdapter {
1968 RuffLspAdapter { fs }
1969 }
1970
1971 fn build_asset_name() -> Result<(String, String)> {
1972 let arch = match consts::ARCH {
1973 "x86" => "i686",
1974 _ => consts::ARCH,
1975 };
1976 let os = Self::ARCH_SERVER_NAME;
1977 let suffix = match consts::OS {
1978 "windows" => "zip",
1979 _ => "tar.gz",
1980 };
1981 let asset_name = format!("ruff-{arch}-{os}.{suffix}");
1982 let asset_stem = format!("ruff-{arch}-{os}");
1983 Ok((asset_stem, asset_name))
1984 }
1985}
1986
1987#[async_trait(?Send)]
1988impl LspAdapter for RuffLspAdapter {
1989 fn name(&self) -> LanguageServerName {
1990 Self::SERVER_NAME
1991 }
1992}
1993
1994impl LspInstaller for RuffLspAdapter {
1995 type BinaryVersion = GitHubLspBinaryVersion;
1996 async fn check_if_user_installed(
1997 &self,
1998 delegate: &dyn LspAdapterDelegate,
1999 toolchain: Option<Toolchain>,
2000 _: &AsyncApp,
2001 ) -> Option<LanguageServerBinary> {
2002 let ruff_in_venv = if let Some(toolchain) = toolchain
2003 && toolchain.language_name.as_ref() == "Python"
2004 {
2005 Path::new(toolchain.path.as_str())
2006 .parent()
2007 .map(|path| path.join("ruff"))
2008 } else {
2009 None
2010 };
2011
2012 for path in ruff_in_venv.into_iter().chain(["ruff".into()]) {
2013 if let Some(ruff_bin) = delegate.which(path.as_os_str()).await {
2014 let env = delegate.shell_env().await;
2015 return Some(LanguageServerBinary {
2016 path: ruff_bin,
2017 env: Some(env),
2018 arguments: vec!["server".into()],
2019 });
2020 }
2021 }
2022
2023 None
2024 }
2025
2026 async fn fetch_latest_server_version(
2027 &self,
2028 delegate: &dyn LspAdapterDelegate,
2029 _: bool,
2030 _: &mut AsyncApp,
2031 ) -> Result<GitHubLspBinaryVersion> {
2032 let release =
2033 latest_github_release("astral-sh/ruff", true, false, delegate.http_client()).await?;
2034 let (_, asset_name) = Self::build_asset_name()?;
2035 let asset = release
2036 .assets
2037 .into_iter()
2038 .find(|asset| asset.name == asset_name)
2039 .with_context(|| format!("no asset found matching `{asset_name:?}`"))?;
2040 Ok(GitHubLspBinaryVersion {
2041 name: release.tag_name,
2042 url: asset.browser_download_url,
2043 digest: asset.digest,
2044 })
2045 }
2046
2047 async fn fetch_server_binary(
2048 &self,
2049 latest_version: GitHubLspBinaryVersion,
2050 container_dir: PathBuf,
2051 delegate: &dyn LspAdapterDelegate,
2052 ) -> Result<LanguageServerBinary> {
2053 let GitHubLspBinaryVersion {
2054 name,
2055 url,
2056 digest: expected_digest,
2057 } = latest_version;
2058 let destination_path = container_dir.join(format!("ruff-{name}"));
2059 let server_path = match Self::GITHUB_ASSET_KIND {
2060 AssetKind::TarGz | AssetKind::Gz => destination_path
2061 .join(Self::build_asset_name()?.0)
2062 .join("ruff"),
2063 AssetKind::Zip => destination_path.clone().join("ruff.exe"),
2064 };
2065
2066 let binary = LanguageServerBinary {
2067 path: server_path.clone(),
2068 env: None,
2069 arguments: vec!["server".into()],
2070 };
2071
2072 let metadata_path = destination_path.with_extension("metadata");
2073 let metadata = GithubBinaryMetadata::read_from_file(&metadata_path)
2074 .await
2075 .ok();
2076 if let Some(metadata) = metadata {
2077 let validity_check = async || {
2078 delegate
2079 .try_exec(LanguageServerBinary {
2080 path: server_path.clone(),
2081 arguments: vec!["--version".into()],
2082 env: None,
2083 })
2084 .await
2085 .inspect_err(|err| {
2086 log::warn!("Unable to run {server_path:?} asset, redownloading: {err}",)
2087 })
2088 };
2089 if let (Some(actual_digest), Some(expected_digest)) =
2090 (&metadata.digest, &expected_digest)
2091 {
2092 if actual_digest == expected_digest {
2093 if validity_check().await.is_ok() {
2094 return Ok(binary);
2095 }
2096 } else {
2097 log::info!(
2098 "SHA-256 mismatch for {destination_path:?} asset, downloading new asset. Expected: {expected_digest}, Got: {actual_digest}"
2099 );
2100 }
2101 } else if validity_check().await.is_ok() {
2102 return Ok(binary);
2103 }
2104 }
2105
2106 download_server_binary(
2107 delegate,
2108 &url,
2109 expected_digest.as_deref(),
2110 &destination_path,
2111 Self::GITHUB_ASSET_KIND,
2112 )
2113 .await?;
2114 make_file_executable(&server_path).await?;
2115 remove_matching(&container_dir, |path| path != destination_path).await;
2116 GithubBinaryMetadata::write_to_file(
2117 &GithubBinaryMetadata {
2118 metadata_version: 1,
2119 digest: expected_digest,
2120 },
2121 &metadata_path,
2122 )
2123 .await?;
2124
2125 Ok(LanguageServerBinary {
2126 path: server_path,
2127 env: None,
2128 arguments: vec!["server".into()],
2129 })
2130 }
2131
2132 async fn cached_server_binary(
2133 &self,
2134 container_dir: PathBuf,
2135 _: &dyn LspAdapterDelegate,
2136 ) -> Option<LanguageServerBinary> {
2137 maybe!(async {
2138 let mut last = None;
2139 let mut entries = self.fs.read_dir(&container_dir).await?;
2140 while let Some(entry) = entries.next().await {
2141 let path = entry?;
2142 if path.extension().is_some_and(|ext| ext == "metadata") {
2143 continue;
2144 }
2145 last = Some(path);
2146 }
2147
2148 let path = last.context("no cached binary")?;
2149 let path = match Self::GITHUB_ASSET_KIND {
2150 AssetKind::TarGz | AssetKind::Gz => {
2151 path.join(Self::build_asset_name()?.0).join("ruff")
2152 }
2153 AssetKind::Zip => path.join("ruff.exe"),
2154 };
2155
2156 anyhow::Ok(LanguageServerBinary {
2157 path,
2158 env: None,
2159 arguments: vec!["server".into()],
2160 })
2161 })
2162 .await
2163 .log_err()
2164 }
2165}
2166
2167#[cfg(test)]
2168mod tests {
2169 use gpui::{AppContext as _, BorrowAppContext, Context, TestAppContext};
2170 use language::{AutoindentMode, Buffer};
2171 use settings::SettingsStore;
2172 use std::num::NonZeroU32;
2173
2174 #[gpui::test]
2175 async fn test_python_autoindent(cx: &mut TestAppContext) {
2176 cx.executor().set_block_on_ticks(usize::MAX..=usize::MAX);
2177 let language = crate::language("python", tree_sitter_python::LANGUAGE.into());
2178 cx.update(|cx| {
2179 let test_settings = SettingsStore::test(cx);
2180 cx.set_global(test_settings);
2181 language::init(cx);
2182 cx.update_global::<SettingsStore, _>(|store, cx| {
2183 store.update_user_settings(cx, |s| {
2184 s.project.all_languages.defaults.tab_size = NonZeroU32::new(2);
2185 });
2186 });
2187 });
2188
2189 cx.new(|cx| {
2190 let mut buffer = Buffer::local("", cx).with_language(language, cx);
2191 let append = |buffer: &mut Buffer, text: &str, cx: &mut Context<Buffer>| {
2192 let ix = buffer.len();
2193 buffer.edit([(ix..ix, text)], Some(AutoindentMode::EachLine), cx);
2194 };
2195
2196 // indent after "def():"
2197 append(&mut buffer, "def a():\n", cx);
2198 assert_eq!(buffer.text(), "def a():\n ");
2199
2200 // preserve indent after blank line
2201 append(&mut buffer, "\n ", cx);
2202 assert_eq!(buffer.text(), "def a():\n \n ");
2203
2204 // indent after "if"
2205 append(&mut buffer, "if a:\n ", cx);
2206 assert_eq!(buffer.text(), "def a():\n \n if a:\n ");
2207
2208 // preserve indent after statement
2209 append(&mut buffer, "b()\n", cx);
2210 assert_eq!(buffer.text(), "def a():\n \n if a:\n b()\n ");
2211
2212 // preserve indent after statement
2213 append(&mut buffer, "else", cx);
2214 assert_eq!(buffer.text(), "def a():\n \n if a:\n b()\n else");
2215
2216 // dedent "else""
2217 append(&mut buffer, ":", cx);
2218 assert_eq!(buffer.text(), "def a():\n \n if a:\n b()\n else:");
2219
2220 // indent lines after else
2221 append(&mut buffer, "\n", cx);
2222 assert_eq!(
2223 buffer.text(),
2224 "def a():\n \n if a:\n b()\n else:\n "
2225 );
2226
2227 // indent after an open paren. the closing paren is not indented
2228 // because there is another token before it on the same line.
2229 append(&mut buffer, "foo(\n1)", cx);
2230 assert_eq!(
2231 buffer.text(),
2232 "def a():\n \n if a:\n b()\n else:\n foo(\n 1)"
2233 );
2234
2235 // dedent the closing paren if it is shifted to the beginning of the line
2236 let argument_ix = buffer.text().find('1').unwrap();
2237 buffer.edit(
2238 [(argument_ix..argument_ix + 1, "")],
2239 Some(AutoindentMode::EachLine),
2240 cx,
2241 );
2242 assert_eq!(
2243 buffer.text(),
2244 "def a():\n \n if a:\n b()\n else:\n foo(\n )"
2245 );
2246
2247 // preserve indent after the close paren
2248 append(&mut buffer, "\n", cx);
2249 assert_eq!(
2250 buffer.text(),
2251 "def a():\n \n if a:\n b()\n else:\n foo(\n )\n "
2252 );
2253
2254 // manually outdent the last line
2255 let end_whitespace_ix = buffer.len() - 4;
2256 buffer.edit(
2257 [(end_whitespace_ix..buffer.len(), "")],
2258 Some(AutoindentMode::EachLine),
2259 cx,
2260 );
2261 assert_eq!(
2262 buffer.text(),
2263 "def a():\n \n if a:\n b()\n else:\n foo(\n )\n"
2264 );
2265
2266 // preserve the newly reduced indentation on the next newline
2267 append(&mut buffer, "\n", cx);
2268 assert_eq!(
2269 buffer.text(),
2270 "def a():\n \n if a:\n b()\n else:\n foo(\n )\n\n"
2271 );
2272
2273 // reset to a for loop statement
2274 let statement = "for i in range(10):\n print(i)\n";
2275 buffer.edit([(0..buffer.len(), statement)], None, cx);
2276
2277 // insert single line comment after each line
2278 let eol_ixs = statement
2279 .char_indices()
2280 .filter_map(|(ix, c)| if c == '\n' { Some(ix) } else { None })
2281 .collect::<Vec<usize>>();
2282 let editions = eol_ixs
2283 .iter()
2284 .enumerate()
2285 .map(|(i, &eol_ix)| (eol_ix..eol_ix, format!(" # comment {}", i + 1)))
2286 .collect::<Vec<(std::ops::Range<usize>, String)>>();
2287 buffer.edit(editions, Some(AutoindentMode::EachLine), cx);
2288 assert_eq!(
2289 buffer.text(),
2290 "for i in range(10): # comment 1\n print(i) # comment 2\n"
2291 );
2292
2293 // reset to a simple if statement
2294 buffer.edit([(0..buffer.len(), "if a:\n b(\n )")], None, cx);
2295
2296 // dedent "else" on the line after a closing paren
2297 append(&mut buffer, "\n else:\n", cx);
2298 assert_eq!(buffer.text(), "if a:\n b(\n )\nelse:\n ");
2299
2300 buffer
2301 });
2302 }
2303}