// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license. use super::analysis; use super::cache; use super::client::Client; use super::config::ConfigSnapshot; use super::documents; use super::documents::Document; use super::documents::DocumentsFilter; use super::language_server; use super::language_server::StateSnapshot; use super::performance::Performance; use super::tsc; use super::tsc::TsServer; use super::urls::LspClientUrl; use super::urls::LspUrlMap; use crate::args::LintOptions; use crate::graph_util; use crate::graph_util::enhanced_resolution_error_message; use crate::lsp::lsp_custom::DiagnosticBatchNotificationParams; use crate::resolver::SloppyImportsResolution; use crate::resolver::SloppyImportsResolver; use crate::tools::lint::get_configured_rules; use deno_ast::MediaType; use deno_core::anyhow::anyhow; use deno_core::error::AnyError; use deno_core::parking_lot::RwLock; use deno_core::resolve_url; use deno_core::serde::Deserialize; use deno_core::serde_json; use deno_core::serde_json::json; use deno_core::unsync::spawn; use deno_core::unsync::spawn_blocking; use deno_core::unsync::JoinHandle; use deno_core::ModuleSpecifier; use deno_graph::Resolution; use deno_graph::ResolutionError; use deno_graph::SpecifierError; use deno_lint::rules::LintRule; use deno_runtime::deno_fs; use deno_runtime::deno_node; use deno_runtime::tokio_util::create_basic_runtime; use deno_semver::npm::NpmPackageReqReference; use deno_semver::package::PackageReq; use log::error; use std::collections::HashMap; use std::collections::HashSet; use std::sync::atomic::AtomicUsize; use std::sync::Arc; use std::thread; use tokio::sync::mpsc; use tokio::sync::Mutex; use tokio::time::Duration; use tokio_util::sync::CancellationToken; use tower_lsp::lsp_types as lsp; #[derive(Debug)] pub struct DiagnosticServerUpdateMessage { pub snapshot: Arc, pub config: Arc, pub lint_options: LintOptions, pub url_map: LspUrlMap, } struct DiagnosticRecord { pub specifier: ModuleSpecifier, pub versioned: VersionedDiagnostics, } #[derive(Clone, Default, Debug)] struct VersionedDiagnostics { pub version: Option, pub diagnostics: Vec, } type DiagnosticVec = Vec; #[derive(Debug, Hash, PartialEq, Eq, Copy, Clone)] pub enum DiagnosticSource { Deno, Lint, Ts, } impl DiagnosticSource { pub fn as_lsp_source(&self) -> &'static str { match self { Self::Deno => "deno", Self::Lint => "deno-lint", Self::Ts => "deno-ts", } } } type DiagnosticsBySource = HashMap; #[derive(Debug)] struct DiagnosticsPublisher { client: Client, state: Arc, diagnostics_by_specifier: Mutex>, } impl DiagnosticsPublisher { pub fn new(client: Client, state: Arc) -> Self { Self { client, state, diagnostics_by_specifier: Default::default(), } } pub async fn publish( &self, source: DiagnosticSource, diagnostics: DiagnosticVec, url_map: &LspUrlMap, token: &CancellationToken, ) -> usize { let mut diagnostics_by_specifier = self.diagnostics_by_specifier.lock().await; let mut seen_specifiers = HashSet::with_capacity(diagnostics.len()); let mut messages_sent = 0; for record in diagnostics { if token.is_cancelled() { return messages_sent; } seen_specifiers.insert(record.specifier.clone()); let diagnostics_by_source = diagnostics_by_specifier .entry(record.specifier.clone()) .or_default(); let version = record.versioned.version; let source_diagnostics = diagnostics_by_source.entry(source).or_default(); *source_diagnostics = record.versioned; // DO NOT filter these by version. We want to display even out // of date diagnostics in order to prevent flickering. The user's // lsp client will eventually catch up. let all_specifier_diagnostics = diagnostics_by_source .values() .flat_map(|d| &d.diagnostics) .cloned() .collect::>(); self .state .update(&record.specifier, version, &all_specifier_diagnostics); self .client .when_outside_lsp_lock() .publish_diagnostics( url_map .normalize_specifier(&record.specifier) .unwrap_or(LspClientUrl::new(record.specifier)), all_specifier_diagnostics, version, ) .await; messages_sent += 1; } // now check all the specifiers to clean up any ones with old diagnostics let mut specifiers_to_remove = Vec::new(); for (specifier, diagnostics_by_source) in diagnostics_by_specifier.iter_mut() { if seen_specifiers.contains(specifier) { continue; } if token.is_cancelled() { break; } let maybe_removed_value = diagnostics_by_source.remove(&source); if diagnostics_by_source.is_empty() { specifiers_to_remove.push(specifier.clone()); if let Some(removed_value) = maybe_removed_value { // clear out any diagnostics for this specifier self.state.update(specifier, removed_value.version, &[]); self .client .when_outside_lsp_lock() .publish_diagnostics( url_map .normalize_specifier(specifier) .unwrap_or_else(|_| LspClientUrl::new(specifier.clone())), Vec::new(), removed_value.version, ) .await; messages_sent += 1; } } } // clean up specifiers with no diagnostics for specifier in specifiers_to_remove { diagnostics_by_specifier.remove(&specifier); } messages_sent } pub async fn clear(&self) { let mut all_diagnostics = self.diagnostics_by_specifier.lock().await; all_diagnostics.clear(); } } type DiagnosticMap = HashMap; #[derive(Clone, Default, Debug)] struct TsDiagnosticsStore(Arc>); impl TsDiagnosticsStore { pub fn get( &self, specifier: &ModuleSpecifier, document_version: Option, ) -> Vec { let ts_diagnostics = self.0.lock(); if let Some(versioned) = ts_diagnostics.get(specifier) { // only get the diagnostics if they're up to date if document_version == versioned.version { return versioned.diagnostics.clone(); } } Vec::new() } pub fn invalidate(&self, specifiers: &[ModuleSpecifier]) { let mut ts_diagnostics = self.0.lock(); for specifier in specifiers { ts_diagnostics.remove(specifier); } } pub fn invalidate_all(&self) { self.0.lock().clear(); } fn update(&self, diagnostics: &DiagnosticVec) { let mut stored_ts_diagnostics = self.0.lock(); *stored_ts_diagnostics = diagnostics .iter() .map(|record| (record.specifier.clone(), record.versioned.clone())) .collect(); } } pub fn should_send_diagnostic_batch_index_notifications() -> bool { crate::args::has_flag_env_var( "DENO_DONT_USE_INTERNAL_LSP_DIAGNOSTIC_SYNC_FLAG", ) } #[derive(Clone, Debug)] struct DiagnosticBatchCounter(Option>); impl Default for DiagnosticBatchCounter { fn default() -> Self { if should_send_diagnostic_batch_index_notifications() { Self(Some(Default::default())) } else { Self(None) } } } impl DiagnosticBatchCounter { pub fn inc(&self) -> Option { self .0 .as_ref() .map(|value| value.fetch_add(1, std::sync::atomic::Ordering::SeqCst) + 1) } pub fn get(&self) -> Option { self .0 .as_ref() .map(|value| value.load(std::sync::atomic::Ordering::SeqCst)) } } #[derive(Debug)] enum ChannelMessage { Update(ChannelUpdateMessage), Clear, } #[derive(Debug)] struct ChannelUpdateMessage { message: DiagnosticServerUpdateMessage, batch_index: Option, } #[derive(Debug)] struct SpecifierState { version: Option, no_cache_diagnostics: Vec, } #[derive(Debug, Default)] pub struct DiagnosticsState { specifiers: RwLock>, } impl DiagnosticsState { fn update( &self, specifier: &ModuleSpecifier, version: Option, diagnostics: &[lsp::Diagnostic], ) { let mut specifiers = self.specifiers.write(); let current_version = specifiers.get(specifier).and_then(|s| s.version); match (version, current_version) { (Some(arg), Some(existing)) if arg < existing => return, _ => {} } let mut no_cache_diagnostics = vec![]; for diagnostic in diagnostics { if diagnostic.code == Some(lsp::NumberOrString::String("no-cache".to_string())) || diagnostic.code == Some(lsp::NumberOrString::String("no-cache-npm".to_string())) { no_cache_diagnostics.push(diagnostic.clone()); } } specifiers.insert( specifier.clone(), SpecifierState { version, no_cache_diagnostics, }, ); } pub fn clear(&self, specifier: &ModuleSpecifier) { self.specifiers.write().remove(specifier); } pub fn has_no_cache_diagnostics(&self, specifier: &ModuleSpecifier) -> bool { self .specifiers .read() .get(specifier) .map(|s| !s.no_cache_diagnostics.is_empty()) .unwrap_or(false) } pub fn no_cache_diagnostics( &self, specifier: &ModuleSpecifier, ) -> Vec { self .specifiers .read() .get(specifier) .map(|s| s.no_cache_diagnostics.clone()) .unwrap_or_default() } } #[derive(Debug)] pub struct DiagnosticsServer { channel: Option>, ts_diagnostics: TsDiagnosticsStore, client: Client, performance: Arc, ts_server: Arc, batch_counter: DiagnosticBatchCounter, state: Arc, } impl DiagnosticsServer { pub fn new( client: Client, performance: Arc, ts_server: Arc, state: Arc, ) -> Self { DiagnosticsServer { channel: Default::default(), ts_diagnostics: Default::default(), client, performance, ts_server, batch_counter: Default::default(), state, } } pub fn get_ts_diagnostics( &self, specifier: &ModuleSpecifier, document_version: Option, ) -> Vec { self.ts_diagnostics.get(specifier, document_version) } pub fn invalidate(&self, specifiers: &[ModuleSpecifier]) { self.ts_diagnostics.invalidate(specifiers); } pub fn invalidate_all(&self) { self.ts_diagnostics.invalidate_all(); if let Some(tx) = &self.channel { let _ = tx.send(ChannelMessage::Clear); } } #[allow(unused_must_use)] pub fn start(&mut self) { let (tx, mut rx) = mpsc::unbounded_channel::(); self.channel = Some(tx); let client = self.client.clone(); let state = self.state.clone(); let performance = self.performance.clone(); let ts_diagnostics_store = self.ts_diagnostics.clone(); let ts_server = self.ts_server.clone(); let _join_handle = thread::spawn(move || { let runtime = create_basic_runtime(); runtime.block_on(async { let mut token = CancellationToken::new(); let mut ts_handle: Option> = None; let mut lint_handle: Option> = None; let mut deps_handle: Option> = None; let diagnostics_publisher = Arc::new(DiagnosticsPublisher::new(client.clone(), state.clone())); loop { match rx.recv().await { // channel has closed None => break, Some(message) => { let message = match message { ChannelMessage::Update(message) => message, ChannelMessage::Clear => { token.cancel(); token = CancellationToken::new(); diagnostics_publisher.clear().await; continue; } }; let ChannelUpdateMessage { message: DiagnosticServerUpdateMessage { snapshot, config, lint_options, url_map, }, batch_index, } = message; let url_map = Arc::new(url_map); // cancel the previous run token.cancel(); token = CancellationToken::new(); let previous_ts_handle = ts_handle.take(); ts_handle = Some(spawn({ let performance = performance.clone(); let diagnostics_publisher = diagnostics_publisher.clone(); let ts_server = ts_server.clone(); let token = token.clone(); let ts_diagnostics_store = ts_diagnostics_store.clone(); let snapshot = snapshot.clone(); let config = config.clone(); let url_map = url_map.clone(); async move { if let Some(previous_handle) = previous_ts_handle { // Wait on the previous run to complete in order to prevent // multiple threads queueing up a lot of tsc requests. // Do not race this with cancellation because we want a // chain of events to wait for all the previous diagnostics to complete previous_handle.await; } // Debounce timer delay. 150ms between keystrokes is about 45 WPM, so we // want something that is longer than that, but not too long to // introduce detectable UI delay; 200ms is a decent compromise. const DELAY: Duration = Duration::from_millis(200); tokio::select! { _ = token.cancelled() => { return; } _ = tokio::time::sleep(DELAY) => {} }; let mark = performance.mark("lsp.update_diagnostics_ts"); let diagnostics = generate_ts_diagnostics( snapshot.clone(), &config, &ts_server, token.clone(), ) .await .map_err(|err| { if !token.is_cancelled() { error!( "Error generating TypeScript diagnostics: {}", err ); } }) .unwrap_or_default(); let mut messages_len = 0; if !token.is_cancelled() { ts_diagnostics_store.update(&diagnostics); messages_len = diagnostics_publisher .publish( DiagnosticSource::Ts, diagnostics, &url_map, &token, ) .await; if !token.is_cancelled() { performance.measure(mark); } } if let Some(batch_index) = batch_index { diagnostics_publisher .client .send_diagnostic_batch_notification( DiagnosticBatchNotificationParams { batch_index, messages_len, }, ); } } })); let previous_deps_handle = deps_handle.take(); deps_handle = Some(spawn({ let performance = performance.clone(); let diagnostics_publisher = diagnostics_publisher.clone(); let token = token.clone(); let snapshot = snapshot.clone(); let config = config.clone(); let url_map = url_map.clone(); async move { if let Some(previous_handle) = previous_deps_handle { previous_handle.await; } let mark = performance.mark("lsp.update_diagnostics_deps"); let diagnostics = spawn_blocking({ let token = token.clone(); move || generate_deno_diagnostics(&snapshot, &config, token) }) .await .unwrap(); let mut messages_len = 0; if !token.is_cancelled() { messages_len = diagnostics_publisher .publish( DiagnosticSource::Deno, diagnostics, &url_map, &token, ) .await; if !token.is_cancelled() { performance.measure(mark); } } if let Some(batch_index) = batch_index { diagnostics_publisher .client .send_diagnostic_batch_notification( DiagnosticBatchNotificationParams { batch_index, messages_len, }, ); } } })); let previous_lint_handle = lint_handle.take(); lint_handle = Some(spawn({ let performance = performance.clone(); let diagnostics_publisher = diagnostics_publisher.clone(); let token = token.clone(); let snapshot = snapshot.clone(); let config = config.clone(); let url_map = url_map.clone(); async move { if let Some(previous_handle) = previous_lint_handle { previous_handle.await; } let mark = performance.mark("lsp.update_diagnostics_lint"); let diagnostics = spawn_blocking({ let token = token.clone(); move || { generate_lint_diagnostics( &snapshot, &config, &lint_options, token, ) } }) .await .unwrap(); let mut messages_len = 0; if !token.is_cancelled() { messages_len = diagnostics_publisher .publish( DiagnosticSource::Lint, diagnostics, &url_map, &token, ) .await; if !token.is_cancelled() { performance.measure(mark); } } if let Some(batch_index) = batch_index { diagnostics_publisher .client .send_diagnostic_batch_notification( DiagnosticBatchNotificationParams { batch_index, messages_len, }, ); } } })); } } } }) }); } pub fn latest_batch_index(&self) -> Option { self.batch_counter.get() } pub fn update( &self, message: DiagnosticServerUpdateMessage, ) -> Result<(), AnyError> { // todo(dsherret): instead of queuing up messages, it would be better to // instead only store the latest message (ex. maybe using a // tokio::sync::watch::channel) if let Some(tx) = &self.channel { tx.send(ChannelMessage::Update(ChannelUpdateMessage { message, batch_index: self.batch_counter.inc(), })) .map_err(|err| err.into()) } else { Err(anyhow!("diagnostics server not started")) } } } impl<'a> From<&'a crate::tsc::DiagnosticCategory> for lsp::DiagnosticSeverity { fn from(category: &'a crate::tsc::DiagnosticCategory) -> Self { match category { crate::tsc::DiagnosticCategory::Error => lsp::DiagnosticSeverity::ERROR, crate::tsc::DiagnosticCategory::Warning => { lsp::DiagnosticSeverity::WARNING } crate::tsc::DiagnosticCategory::Suggestion => { lsp::DiagnosticSeverity::HINT } crate::tsc::DiagnosticCategory::Message => { lsp::DiagnosticSeverity::INFORMATION } } } } impl<'a> From<&'a crate::tsc::Position> for lsp::Position { fn from(pos: &'a crate::tsc::Position) -> Self { Self { line: pos.line as u32, character: pos.character as u32, } } } fn get_diagnostic_message(diagnostic: &crate::tsc::Diagnostic) -> String { if let Some(message) = diagnostic.message_text.clone() { message } else if let Some(message_chain) = diagnostic.message_chain.clone() { message_chain.format_message(0) } else { "[missing message]".to_string() } } fn to_lsp_range( start: &crate::tsc::Position, end: &crate::tsc::Position, ) -> lsp::Range { lsp::Range { start: start.into(), end: end.into(), } } fn to_lsp_related_information( related_information: &Option>, ) -> Option> { related_information.as_ref().map(|related| { related .iter() .filter_map(|ri| { if let (Some(file_name), Some(start), Some(end)) = (&ri.file_name, &ri.start, &ri.end) { let uri = lsp::Url::parse(file_name).unwrap(); Some(lsp::DiagnosticRelatedInformation { location: lsp::Location { uri, range: to_lsp_range(start, end), }, message: get_diagnostic_message(ri), }) } else { None } }) .collect() }) } fn ts_json_to_diagnostics( diagnostics: Vec, ) -> Vec { diagnostics .iter() .filter_map(|d| { if let (Some(start), Some(end)) = (&d.start, &d.end) { Some(lsp::Diagnostic { range: to_lsp_range(start, end), severity: Some((&d.category).into()), code: Some(lsp::NumberOrString::Number(d.code as i32)), code_description: None, source: Some(DiagnosticSource::Ts.as_lsp_source().to_string()), message: get_diagnostic_message(d), related_information: to_lsp_related_information( &d.related_information, ), tags: match d.code { // These are codes that indicate the variable is unused. 2695 | 6133 | 6138 | 6192 | 6196 | 6198 | 6199 | 6205 | 7027 | 7028 => Some(vec![lsp::DiagnosticTag::UNNECESSARY]), // These are codes that indicated the variable is deprecated. 2789 | 6385 | 6387 => Some(vec![lsp::DiagnosticTag::DEPRECATED]), _ => None, }, data: None, }) } else { None } }) .collect() } fn generate_lint_diagnostics( snapshot: &language_server::StateSnapshot, config: &ConfigSnapshot, lint_options: &LintOptions, token: CancellationToken, ) -> DiagnosticVec { let documents = snapshot .documents .documents(DocumentsFilter::OpenDiagnosable); let lint_rules = get_configured_rules(lint_options.rules.clone()); let mut diagnostics_vec = Vec::new(); for document in documents { let settings = config.workspace_settings_for_specifier(document.specifier()); if !settings.lint { continue; } // exit early if cancelled if token.is_cancelled() { break; } // ignore any npm package files if let Some(npm) = &snapshot.npm { if npm.node_resolver.in_npm_package(document.specifier()) { continue; } } let version = document.maybe_lsp_version(); diagnostics_vec.push(DiagnosticRecord { specifier: document.specifier().clone(), versioned: VersionedDiagnostics { version, diagnostics: generate_document_lint_diagnostics( config, lint_options, lint_rules.clone(), &document, ), }, }); } diagnostics_vec } fn generate_document_lint_diagnostics( config: &ConfigSnapshot, lint_options: &LintOptions, lint_rules: Vec<&'static dyn LintRule>, document: &Document, ) -> Vec { if !config.specifier_enabled(document.specifier()) { return Vec::new(); } if !lint_options.files.matches_specifier(document.specifier()) { return Vec::new(); } match document.maybe_parsed_source() { Some(Ok(parsed_source)) => { if let Ok(references) = analysis::get_lint_references(&parsed_source, lint_rules) { references .into_iter() .map(|r| r.to_diagnostic()) .collect::>() } else { Vec::new() } } Some(Err(_)) => Vec::new(), None => { error!("Missing file contents for: {}", document.specifier()); Vec::new() } } } async fn generate_ts_diagnostics( snapshot: Arc, config: &ConfigSnapshot, ts_server: &tsc::TsServer, token: CancellationToken, ) -> Result { let mut diagnostics_vec = Vec::new(); let specifiers = snapshot .documents .documents(DocumentsFilter::OpenDiagnosable) .into_iter() .map(|d| d.specifier().clone()); let (enabled_specifiers, disabled_specifiers) = specifiers .into_iter() .partition::, _>(|s| config.specifier_enabled(s)); let ts_diagnostics_map = if !enabled_specifiers.is_empty() { ts_server .get_diagnostics(snapshot.clone(), enabled_specifiers, token) .await? } else { Default::default() }; for (specifier_str, ts_json_diagnostics) in ts_diagnostics_map { let specifier = resolve_url(&specifier_str)?; let version = snapshot .documents .get(&specifier) .and_then(|d| d.maybe_lsp_version()); // check if the specifier is enabled again just in case TS returns us // diagnostics for a disabled specifier let ts_diagnostics = if config.specifier_enabled(&specifier) { ts_json_to_diagnostics(ts_json_diagnostics) } else { Vec::new() }; diagnostics_vec.push(DiagnosticRecord { specifier, versioned: VersionedDiagnostics { version, diagnostics: ts_diagnostics, }, }); } // add an empty diagnostic publish for disabled specifiers in order // to clear those diagnostics if they exist for specifier in disabled_specifiers { let version = snapshot .documents .get(&specifier) .and_then(|d| d.maybe_lsp_version()); diagnostics_vec.push(DiagnosticRecord { specifier, versioned: VersionedDiagnostics { version, diagnostics: Vec::new(), }, }); } Ok(diagnostics_vec) } #[derive(Debug, Deserialize)] #[serde(rename_all = "camelCase")] pub struct DiagnosticDataSpecifier { pub specifier: ModuleSpecifier, } #[derive(Debug, Deserialize)] #[serde(rename_all = "camelCase")] struct DiagnosticDataStrSpecifier { pub specifier: String, } #[derive(Debug, Deserialize)] #[serde(rename_all = "camelCase")] struct DiagnosticDataRedirect { pub redirect: ModuleSpecifier, } #[derive(Debug, Deserialize)] #[serde(rename_all = "camelCase")] struct DiagnosticDataNoLocal { pub to: ModuleSpecifier, pub message: String, } #[derive(Debug, Deserialize)] #[serde(rename_all = "camelCase")] struct DiagnosticDataImportMapRemap { pub from: String, pub to: String, } /// An enum which represents diagnostic errors which originate from Deno itself. pub enum DenoDiagnostic { /// A `x-deno-warning` is associated with the specifier and should be displayed /// as a warning to the user. DenoWarn(String), /// An informational diagnostic that indicates an existing specifier can be /// remapped to an import map import specifier. ImportMapRemap { from: String, to: String }, /// The import assertion type is incorrect. InvalidAttributeType(String), /// A module requires an attribute type to be a valid import. NoAttributeType, /// A remote module was not found in the cache. NoCache(ModuleSpecifier), /// A remote npm package reference was not found in the cache. NoCacheNpm(PackageReq, ModuleSpecifier), /// A local module was not found on the local file system. NoLocal(ModuleSpecifier), /// The specifier resolved to a remote specifier that was redirected to /// another specifier. Redirect { from: ModuleSpecifier, to: ModuleSpecifier, }, /// An error occurred when resolving the specifier string. ResolutionError(deno_graph::ResolutionError), /// Invalid `node:` specifier. InvalidNodeSpecifier(ModuleSpecifier), /// Bare specifier is used for `node:` specifier BareNodeSpecifier(String), } impl DenoDiagnostic { fn code(&self) -> &str { match self { Self::DenoWarn(_) => "deno-warn", Self::ImportMapRemap { .. } => "import-map-remap", Self::InvalidAttributeType(_) => "invalid-attribute-type", Self::NoAttributeType => "no-attribute-type", Self::NoCache(_) => "no-cache", Self::NoCacheNpm(_, _) => "no-cache-npm", Self::NoLocal(_) => "no-local", Self::Redirect { .. } => "redirect", Self::ResolutionError(err) => { if graph_util::get_resolution_error_bare_node_specifier(err).is_some() { "import-node-prefix-missing" } else { match err { ResolutionError::InvalidDowngrade { .. } => "invalid-downgrade", ResolutionError::InvalidLocalImport { .. } => { "invalid-local-import" } ResolutionError::InvalidSpecifier { error, .. } => match error { SpecifierError::ImportPrefixMissing(_, _) => { "import-prefix-missing" } SpecifierError::InvalidUrl(_) => "invalid-url", }, ResolutionError::ResolverError { .. } => "resolver-error", } } } Self::InvalidNodeSpecifier(_) => "resolver-error", Self::BareNodeSpecifier(_) => "import-node-prefix-missing", } } /// A "static" method which for a diagnostic that originated from the /// structure returns a code action which can resolve the diagnostic. pub fn get_code_action( specifier: &ModuleSpecifier, diagnostic: &lsp::Diagnostic, ) -> Result { if let Some(lsp::NumberOrString::String(code)) = &diagnostic.code { let code_action = match code.as_str() { "import-map-remap" => { let data = diagnostic .data .clone() .ok_or_else(|| anyhow!("Diagnostic is missing data"))?; let DiagnosticDataImportMapRemap { from, to } = serde_json::from_value(data)?; lsp::CodeAction { title: format!("Update \"{from}\" to \"{to}\" to use import map."), kind: Some(lsp::CodeActionKind::QUICKFIX), diagnostics: Some(vec![diagnostic.clone()]), edit: Some(lsp::WorkspaceEdit { changes: Some(HashMap::from([( specifier.clone(), vec![lsp::TextEdit { new_text: format!("\"{to}\""), range: diagnostic.range, }], )])), ..Default::default() }), ..Default::default() } } "no-attribute-type" => lsp::CodeAction { title: "Insert import attribute.".to_string(), kind: Some(lsp::CodeActionKind::QUICKFIX), diagnostics: Some(vec![diagnostic.clone()]), edit: Some(lsp::WorkspaceEdit { changes: Some(HashMap::from([( specifier.clone(), vec![lsp::TextEdit { new_text: " with { type: \"json\" }".to_string(), range: lsp::Range { start: diagnostic.range.end, end: diagnostic.range.end, }, }], )])), ..Default::default() }), ..Default::default() }, "no-cache" | "no-cache-npm" => { let data = diagnostic .data .clone() .ok_or_else(|| anyhow!("Diagnostic is missing data"))?; let data: DiagnosticDataSpecifier = serde_json::from_value(data)?; lsp::CodeAction { title: format!( "Cache \"{}\" and its dependencies.", data.specifier ), kind: Some(lsp::CodeActionKind::QUICKFIX), diagnostics: Some(vec![diagnostic.clone()]), command: Some(lsp::Command { title: "".to_string(), command: "deno.cache".to_string(), arguments: Some(vec![json!([data.specifier]), json!(&specifier)]), }), ..Default::default() } } "no-local" => { let data = diagnostic .data .clone() .ok_or_else(|| anyhow!("Diagnostic is missing data"))?; let data: DiagnosticDataNoLocal = serde_json::from_value(data)?; lsp::CodeAction { title: data.message, kind: Some(lsp::CodeActionKind::QUICKFIX), diagnostics: Some(vec![diagnostic.clone()]), edit: Some(lsp::WorkspaceEdit { changes: Some(HashMap::from([( specifier.clone(), vec![lsp::TextEdit { new_text: format!( "\"{}\"", relative_specifier(&data.to, specifier) ), range: diagnostic.range, }], )])), ..Default::default() }), ..Default::default() } } "redirect" => { let data = diagnostic .data .clone() .ok_or_else(|| anyhow!("Diagnostic is missing data"))?; let data: DiagnosticDataRedirect = serde_json::from_value(data)?; lsp::CodeAction { title: "Update specifier to its redirected specifier.".to_string(), kind: Some(lsp::CodeActionKind::QUICKFIX), diagnostics: Some(vec![diagnostic.clone()]), edit: Some(lsp::WorkspaceEdit { changes: Some(HashMap::from([( specifier.clone(), vec![lsp::TextEdit { new_text: format!( "\"{}\"", specifier_text_for_redirected(&data.redirect, specifier) ), range: diagnostic.range, }], )])), ..Default::default() }), ..Default::default() } } "import-node-prefix-missing" => { let data = diagnostic .data .clone() .ok_or_else(|| anyhow!("Diagnostic is missing data"))?; let data: DiagnosticDataStrSpecifier = serde_json::from_value(data)?; lsp::CodeAction { title: format!("Update specifier to node:{}", data.specifier), kind: Some(lsp::CodeActionKind::QUICKFIX), diagnostics: Some(vec![diagnostic.clone()]), edit: Some(lsp::WorkspaceEdit { changes: Some(HashMap::from([( specifier.clone(), vec![lsp::TextEdit { new_text: format!("\"node:{}\"", data.specifier), range: diagnostic.range, }], )])), ..Default::default() }), ..Default::default() } } _ => { return Err(anyhow!( "Unsupported diagnostic code (\"{}\") provided.", code )) } }; Ok(code_action) } else { Err(anyhow!("Unsupported diagnostic code provided.")) } } /// Given a reference to the code from an LSP diagnostic, determine if the /// diagnostic is fixable or not pub fn is_fixable(diagnostic: &lsp_types::Diagnostic) -> bool { if let Some(lsp::NumberOrString::String(code)) = &diagnostic.code { match code.as_str() { "import-map-remap" | "no-cache" | "no-cache-npm" | "no-attribute-type" | "redirect" | "import-node-prefix-missing" => true, "no-local" => diagnostic.data.is_some(), _ => false, } } else { false } } /// Convert to an lsp Diagnostic when the range the diagnostic applies to is /// provided. pub fn to_lsp_diagnostic(&self, range: &lsp::Range) -> lsp::Diagnostic { fn no_local_message( specifier: &ModuleSpecifier, sloppy_resolution: SloppyImportsResolution, ) -> String { let mut message = format!("Unable to load a local module: {}\n", specifier); if let Some(additional_message) = sloppy_resolution.as_suggestion_message() { message.push_str(&additional_message); message.push('.'); } else { message.push_str("Please check the file path."); } message } let (severity, message, data) = match self { Self::DenoWarn(message) => (lsp::DiagnosticSeverity::WARNING, message.to_string(), None), Self::ImportMapRemap { from, to } => (lsp::DiagnosticSeverity::HINT, format!("The import specifier can be remapped to \"{to}\" which will resolve it via the active import map."), Some(json!({ "from": from, "to": to }))), Self::InvalidAttributeType(assert_type) => (lsp::DiagnosticSeverity::ERROR, format!("The module is a JSON module and expected an attribute type of \"json\". Instead got \"{assert_type}\"."), None), Self::NoAttributeType => (lsp::DiagnosticSeverity::ERROR, "The module is a JSON module and not being imported with an import attribute. Consider adding `with { type: \"json\" }` to the import statement.".to_string(), None), Self::NoCache(specifier) => (lsp::DiagnosticSeverity::ERROR, format!("Uncached or missing remote URL: {specifier}"), Some(json!({ "specifier": specifier }))), Self::NoCacheNpm(pkg_req, specifier) => (lsp::DiagnosticSeverity::ERROR, format!("Uncached or missing npm package: {}", pkg_req), Some(json!({ "specifier": specifier }))), Self::NoLocal(specifier) => { let sloppy_resolution = SloppyImportsResolver::resolve_with_fs(&deno_fs::RealFs, specifier); let data = sloppy_resolution.as_lsp_quick_fix_message().map(|message| { json!({ "specifier": specifier, "to": sloppy_resolution.as_specifier(), "message": message, }) }); (lsp::DiagnosticSeverity::ERROR, no_local_message(specifier, sloppy_resolution), data) }, Self::Redirect { from, to} => (lsp::DiagnosticSeverity::INFORMATION, format!("The import of \"{from}\" was redirected to \"{to}\"."), Some(json!({ "specifier": from, "redirect": to }))), Self::ResolutionError(err) => ( lsp::DiagnosticSeverity::ERROR, enhanced_resolution_error_message(err), graph_util::get_resolution_error_bare_node_specifier(err) .map(|specifier| json!({ "specifier": specifier })) ), Self::InvalidNodeSpecifier(specifier) => (lsp::DiagnosticSeverity::ERROR, format!("Unknown Node built-in module: {}", specifier.path()), None), Self::BareNodeSpecifier(specifier) => (lsp::DiagnosticSeverity::WARNING, format!("\"{}\" is resolved to \"node:{}\". If you want to use a built-in Node module, add a \"node:\" prefix.", specifier, specifier), Some(json!({ "specifier": specifier }))), }; lsp::Diagnostic { range: *range, severity: Some(severity), code: Some(lsp::NumberOrString::String(self.code().to_string())), source: Some(DiagnosticSource::Deno.as_lsp_source().to_string()), message, data, ..Default::default() } } } fn specifier_text_for_redirected( redirect: &lsp::Url, referrer: &lsp::Url, ) -> String { if redirect.scheme() == "file" && referrer.scheme() == "file" { // use a relative specifier when it's going to a file url relative_specifier(redirect, referrer) } else { redirect.to_string() } } fn relative_specifier(specifier: &lsp::Url, referrer: &lsp::Url) -> String { match referrer.make_relative(specifier) { Some(relative) => { if relative.starts_with('.') { relative } else { format!("./{}", relative) } } None => specifier.to_string(), } } fn diagnose_resolution( snapshot: &language_server::StateSnapshot, dependency_key: &str, resolution: &Resolution, is_dynamic: bool, maybe_assert_type: Option<&str>, ) -> Vec { let mut diagnostics = vec![]; match resolution { Resolution::Ok(resolved) => { let specifier = &resolved.specifier; // If the module is a remote module and has a `X-Deno-Warning` header, we // want a warning diagnostic with that message. if let Some(metadata) = snapshot.cache_metadata.get(specifier) { if let Some(message) = metadata.get(&cache::MetadataKey::Warning).cloned() { diagnostics.push(DenoDiagnostic::DenoWarn(message)); } } if let Some(doc) = snapshot.documents.get(specifier) { let doc_specifier = doc.specifier(); // If the module was redirected, we want to issue an informational // diagnostic that indicates this. This then allows us to issue a code // action to replace the specifier with the final redirected one. if doc_specifier != specifier { diagnostics.push(DenoDiagnostic::Redirect { from: specifier.clone(), to: doc_specifier.clone(), }); } if doc.media_type() == MediaType::Json { match maybe_assert_type { // The module has the correct assertion type, no diagnostic Some("json") => (), // The dynamic import statement is missing an attribute type, which // we might not be able to statically detect, therefore we will // not provide a potentially incorrect diagnostic. None if is_dynamic => (), // The module has an incorrect assertion type, diagnostic Some(assert_type) => diagnostics.push( DenoDiagnostic::InvalidAttributeType(assert_type.to_string()), ), // The module is missing an attribute type, diagnostic None => diagnostics.push(DenoDiagnostic::NoAttributeType), } } } else if let Ok(pkg_ref) = NpmPackageReqReference::from_specifier(specifier) { if let Some(npm_resolver) = snapshot .npm .as_ref() .and_then(|n| n.npm_resolver.as_managed()) { // show diagnostics for npm package references that aren't cached let req = pkg_ref.into_inner().req; if !npm_resolver.is_pkg_req_folder_cached(&req) { diagnostics .push(DenoDiagnostic::NoCacheNpm(req, specifier.clone())); } } } else if let Some(module_name) = specifier.as_str().strip_prefix("node:") { if !deno_node::is_builtin_node_module(module_name) { diagnostics .push(DenoDiagnostic::InvalidNodeSpecifier(specifier.clone())); } else if module_name == dependency_key { let mut is_mapped = false; if let Some(import_map) = &snapshot.maybe_import_map { if let Resolution::Ok(resolved) = &resolution { if import_map.resolve(module_name, &resolved.specifier).is_ok() { is_mapped = true; } } } // show diagnostics for bare node specifiers that aren't mapped by import map if !is_mapped { diagnostics .push(DenoDiagnostic::BareNodeSpecifier(module_name.to_string())); } } else if let Some(npm_resolver) = snapshot .npm .as_ref() .and_then(|n| n.npm_resolver.as_managed()) { // check that a @types/node package exists in the resolver let types_node_req = PackageReq::from_str("@types/node").unwrap(); if !npm_resolver.is_pkg_req_folder_cached(&types_node_req) { diagnostics.push(DenoDiagnostic::NoCacheNpm( types_node_req, ModuleSpecifier::parse("npm:@types/node").unwrap(), )); } } } else { // When the document is not available, it means that it cannot be found // in the cache or locally on the disk, so we want to issue a diagnostic // about that. let deno_diagnostic = match specifier.scheme() { "file" => DenoDiagnostic::NoLocal(specifier.clone()), _ => DenoDiagnostic::NoCache(specifier.clone()), }; diagnostics.push(deno_diagnostic); } } // The specifier resolution resulted in an error, so we want to issue a // diagnostic for that. Resolution::Err(err) => { diagnostics.push(DenoDiagnostic::ResolutionError(*err.clone())) } _ => (), } diagnostics } /// Generate diagnostics related to a dependency. The dependency is analyzed to /// determine if it can be remapped to the active import map as well as surface /// any diagnostics related to the resolved code or type dependency. fn diagnose_dependency( diagnostics: &mut Vec, snapshot: &language_server::StateSnapshot, referrer: &ModuleSpecifier, dependency_key: &str, dependency: &deno_graph::Dependency, ) { if let Some(npm) = &snapshot.npm { if npm.npm_resolver.in_npm_package(referrer) { return; // ignore, surface typescript errors instead } } if let Some(import_map) = &snapshot.maybe_import_map { if let Resolution::Ok(resolved) = &dependency.maybe_code { if let Some(to) = import_map.lookup(&resolved.specifier, referrer) { if dependency_key != to { diagnostics.push( DenoDiagnostic::ImportMapRemap { from: dependency_key.to_string(), to, } .to_lsp_diagnostic(&documents::to_lsp_range(&resolved.range)), ); } } } } let import_ranges: Vec<_> = dependency .imports .iter() .map(|i| documents::to_lsp_range(&i.range)) .collect(); diagnostics.extend( diagnose_resolution( snapshot, dependency_key, if dependency.maybe_code.is_none() { &dependency.maybe_type } else { &dependency.maybe_code }, dependency.is_dynamic, dependency.maybe_attribute_type.as_deref(), ) .iter() .flat_map(|diag| { import_ranges .iter() .map(|range| diag.to_lsp_diagnostic(range)) }), ); // TODO(nayeemrmn): This is a crude way of detecting `@deno-types` which has // a different specifier and therefore needs a separate call to // `diagnose_resolution()`. It would be much cleaner if that were modelled as // a separate dependency: https://github.com/denoland/deno_graph/issues/247. if !dependency.maybe_type.is_none() && !dependency .imports .iter() .any(|i| dependency.maybe_type.includes(&i.range.start).is_some()) { let range = match &dependency.maybe_type { Resolution::Ok(resolved) => documents::to_lsp_range(&resolved.range), Resolution::Err(error) => documents::to_lsp_range(error.range()), Resolution::None => unreachable!(), }; diagnostics.extend( diagnose_resolution( snapshot, dependency_key, &dependency.maybe_type, dependency.is_dynamic, dependency.maybe_attribute_type.as_deref(), ) .iter() .map(|diag| diag.to_lsp_diagnostic(&range)), ); } } /// Generate diagnostics that come from Deno module resolution logic (like /// dependencies) or other Deno specific diagnostics, like the ability to use /// an import map to shorten an URL. fn generate_deno_diagnostics( snapshot: &language_server::StateSnapshot, config: &ConfigSnapshot, token: CancellationToken, ) -> DiagnosticVec { let mut diagnostics_vec = Vec::new(); for document in snapshot .documents .documents(DocumentsFilter::OpenDiagnosable) { if token.is_cancelled() { break; } let mut diagnostics = Vec::new(); let specifier = document.specifier(); if config.specifier_enabled(specifier) { for (dependency_key, dependency) in document.dependencies() { diagnose_dependency( &mut diagnostics, snapshot, specifier, dependency_key, dependency, ); } } diagnostics_vec.push(DiagnosticRecord { specifier: specifier.clone(), versioned: VersionedDiagnostics { version: document.maybe_lsp_version(), diagnostics, }, }); } diagnostics_vec } #[cfg(test)] mod tests { use super::*; use crate::cache::GlobalHttpCache; use crate::cache::RealDenoCacheEnv; use crate::lsp::config::ConfigSnapshot; use crate::lsp::config::Settings; use crate::lsp::config::WorkspaceSettings; use crate::lsp::documents::Documents; use crate::lsp::documents::LanguageId; use crate::lsp::language_server::StateSnapshot; use pretty_assertions::assert_eq; use std::path::Path; use std::path::PathBuf; use std::sync::Arc; use test_util::TempDir; fn mock_state_snapshot( fixtures: &[(&str, &str, i32, LanguageId)], location: &Path, maybe_import_map: Option<(&str, &str)>, ) -> StateSnapshot { let cache = Arc::new(GlobalHttpCache::new( location.to_path_buf(), RealDenoCacheEnv, )); let mut documents = Documents::new(cache); for (specifier, source, version, language_id) in fixtures { let specifier = resolve_url(specifier).expect("failed to create specifier"); documents.open( specifier.clone(), *version, *language_id, (*source).into(), ); } let maybe_import_map = maybe_import_map.map(|(base, json_string)| { let base_url = ModuleSpecifier::parse(base).unwrap(); let result = import_map::parse_from_json(&base_url, json_string).unwrap(); if !result.diagnostics.is_empty() { panic!("unexpected import map diagnostics"); } Arc::new(result.import_map) }); StateSnapshot { documents, maybe_import_map, assets: Default::default(), cache_metadata: cache::CacheMetadata::new(Arc::new( GlobalHttpCache::new(location.to_path_buf(), RealDenoCacheEnv), )), config: Default::default(), npm: None, } } fn mock_config() -> ConfigSnapshot { let root_uri = resolve_url("file:///").unwrap(); ConfigSnapshot { settings: Settings { unscoped: WorkspaceSettings { enable: Some(true), lint: true, ..Default::default() }, ..Default::default() }, workspace_folders: vec![( root_uri.clone(), lsp::WorkspaceFolder { uri: root_uri, name: "".to_string(), }, )], ..Default::default() } } fn setup( temp_dir: &TempDir, sources: &[(&str, &str, i32, LanguageId)], maybe_import_map: Option<(&str, &str)>, ) -> (StateSnapshot, PathBuf) { let location = temp_dir.path().join("deps").to_path_buf(); let state_snapshot = mock_state_snapshot(sources, &location, maybe_import_map); (state_snapshot, location) } #[tokio::test] async fn test_enabled_then_disabled_specifier() { let temp_dir = TempDir::new(); let (snapshot, cache_location) = setup( &temp_dir, &[( "file:///a.ts", r#"import * as b from "./b.ts"; let a: any = "a"; let c: number = "a"; "#, 1, LanguageId::TypeScript, )], None, ); let snapshot = Arc::new(snapshot); let cache = Arc::new(GlobalHttpCache::new(cache_location, RealDenoCacheEnv)); let ts_server = TsServer::new(Default::default(), cache); // test enabled { let enabled_config = mock_config(); let diagnostics = generate_lint_diagnostics( &snapshot, &enabled_config, &Default::default(), Default::default(), ); assert_eq!(get_diagnostics_for_single(diagnostics).len(), 6); let diagnostics = generate_ts_diagnostics( snapshot.clone(), &enabled_config, &ts_server, Default::default(), ) .await .unwrap(); assert_eq!(get_diagnostics_for_single(diagnostics).len(), 5); let diagnostics = generate_deno_diagnostics( &snapshot, &enabled_config, Default::default(), ); assert_eq!(get_diagnostics_for_single(diagnostics).len(), 1); } // now test disabled specifier { let mut disabled_config = mock_config(); disabled_config.settings.unscoped = WorkspaceSettings { enable: Some(false), ..Default::default() }; let diagnostics = generate_lint_diagnostics( &snapshot, &disabled_config, &Default::default(), Default::default(), ); assert_eq!(get_diagnostics_for_single(diagnostics).len(), 0); let diagnostics = generate_ts_diagnostics( snapshot.clone(), &disabled_config, &ts_server, Default::default(), ) .await .unwrap(); assert_eq!(get_diagnostics_for_single(diagnostics).len(), 0); let diagnostics = generate_deno_diagnostics( &snapshot, &disabled_config, Default::default(), ); assert_eq!(get_diagnostics_for_single(diagnostics).len(), 0); } } fn get_diagnostics_for_single( diagnostic_vec: DiagnosticVec, ) -> Vec { assert_eq!(diagnostic_vec.len(), 1); diagnostic_vec .into_iter() .next() .unwrap() .versioned .diagnostics } #[tokio::test] async fn test_deno_diagnostics_with_import_map() { let temp_dir = TempDir::new(); let (snapshot, _) = setup( &temp_dir, &[ ( "file:///std/assert/mod.ts", "export function assert() {}", 1, LanguageId::TypeScript, ), ( "file:///a/file.ts", "import { assert } from \"../std/assert/mod.ts\";\n\nassert();\n", 1, LanguageId::TypeScript, ), ], Some(( "file:///a/import-map.json", r#"{ "imports": { "/~/std/": "../std/" } }"#, )), ); let config = mock_config(); let token = CancellationToken::new(); let actual = generate_deno_diagnostics(&snapshot, &config, token); assert_eq!(actual.len(), 2); for record in actual { match record.specifier.as_str() { "file:///std/assert/mod.ts" => { assert_eq!(json!(record.versioned.diagnostics), json!([])) } "file:///a/file.ts" => assert_eq!( json!(record.versioned.diagnostics), json!([ { "range": { "start": { "line": 0, "character": 23 }, "end": { "line": 0, "character": 45 } }, "severity": 4, "code": "import-map-remap", "source": "deno", "message": "The import specifier can be remapped to \"/~/std/assert/mod.ts\" which will resolve it via the active import map.", "data": { "from": "../std/assert/mod.ts", "to": "/~/std/assert/mod.ts" } } ]) ), _ => unreachable!("unexpected specifier {}", record.specifier), } } } #[test] fn test_get_code_action_import_map_remap() { let specifier = ModuleSpecifier::parse("file:///a/file.ts").unwrap(); let result = DenoDiagnostic::get_code_action(&specifier, &lsp::Diagnostic { range: lsp::Range { start: lsp::Position { line: 0, character: 23 }, end: lsp::Position { line: 0, character: 50 }, }, severity: Some(lsp::DiagnosticSeverity::HINT), code: Some(lsp::NumberOrString::String("import-map-remap".to_string())), source: Some("deno".to_string()), message: "The import specifier can be remapped to \"/~/std/assert/mod.ts\" which will resolve it via the active import map.".to_string(), data: Some(json!({ "from": "../std/assert/mod.ts", "to": "/~/std/assert/mod.ts" })), ..Default::default() }); assert!(result.is_ok()); let actual = result.unwrap(); assert_eq!( json!(actual), json!({ "title": "Update \"../std/assert/mod.ts\" to \"/~/std/assert/mod.ts\" to use import map.", "kind": "quickfix", "diagnostics": [ { "range": { "start": { "line": 0, "character": 23 }, "end": { "line": 0, "character": 50 } }, "severity": 4, "code": "import-map-remap", "source": "deno", "message": "The import specifier can be remapped to \"/~/std/assert/mod.ts\" which will resolve it via the active import map.", "data": { "from": "../std/assert/mod.ts", "to": "/~/std/assert/mod.ts" } } ], "edit": { "changes": { "file:///a/file.ts": [ { "range": { "start": { "line": 0, "character": 23 }, "end": { "line": 0, "character": 50 } }, "newText": "\"/~/std/assert/mod.ts\"" } ] } } }) ); } #[tokio::test] async fn duplicate_diagnostics_for_duplicate_imports() { let temp_dir = TempDir::new(); let (snapshot, _) = setup( &temp_dir, &[( "file:///a.ts", r#" // @deno-types="bad.d.ts" import "bad.js"; import "bad.js"; "#, 1, LanguageId::TypeScript, )], None, ); let config = mock_config(); let token = CancellationToken::new(); let actual = generate_deno_diagnostics(&snapshot, &config, token); assert_eq!(actual.len(), 1); let record = actual.first().unwrap(); assert_eq!( json!(record.versioned.diagnostics), json!([ { "range": { "start": { "line": 2, "character": 15 }, "end": { "line": 2, "character": 23 } }, "severity": 1, "code": "import-prefix-missing", "source": "deno", "message": "Relative import path \"bad.js\" not prefixed with / or ./ or ../", }, { "range": { "start": { "line": 3, "character": 15 }, "end": { "line": 3, "character": 23 } }, "severity": 1, "code": "import-prefix-missing", "source": "deno", "message": "Relative import path \"bad.js\" not prefixed with / or ./ or ../", }, { "range": { "start": { "line": 1, "character": 23 }, "end": { "line": 1, "character": 33 } }, "severity": 1, "code": "import-prefix-missing", "source": "deno", "message": "Relative import path \"bad.d.ts\" not prefixed with / or ./ or ../", }, ]) ); } #[test] fn test_specifier_text_for_redirected() { #[track_caller] fn run_test(specifier: &str, referrer: &str, expected: &str) { let result = specifier_text_for_redirected( &ModuleSpecifier::parse(specifier).unwrap(), &ModuleSpecifier::parse(referrer).unwrap(), ); assert_eq!(result, expected); } run_test("file:///a/a.ts", "file:///a/mod.ts", "./a.ts"); run_test("file:///a/a.ts", "file:///a/sub_dir/mod.ts", "../a.ts"); run_test( "file:///a/sub_dir/a.ts", "file:///a/mod.ts", "./sub_dir/a.ts", ); run_test( "https://deno.land/x/example/mod.ts", "file:///a/sub_dir/a.ts", "https://deno.land/x/example/mod.ts", ); } }