//! Project loading & configuration updates. //! //! This is quite tricky. The main problem is time and changes -- there's no //! fixed "project" rust-analyzer is working with, "current project" is itself //! mutable state. For example, when the user edits `Cargo.toml` by adding a new //! dependency, project model changes. What's more, switching project model is //! not instantaneous -- it takes time to run `cargo metadata` and (for proc //! macros) `cargo check`. //! //! The main guiding principle here is, as elsewhere in rust-analyzer, //! robustness. We try not to assume that the project model exists or is //! correct. Instead, we try to provide a best-effort service. Even if the //! project is currently loading and we don't have a full project model, we //! still want to respond to various requests. use std::{collections::hash_map::Entry, iter, mem, sync::Arc}; use flycheck::{FlycheckConfig, FlycheckHandle}; use hir::db::DefDatabase; use ide::Change; use ide_db::{ base_db::{ salsa::Durability, CrateGraph, Env, ProcMacro, ProcMacroExpander, ProcMacroExpansionError, ProcMacroKind, ProcMacroLoadResult, ProcMacroPaths, ProcMacros, SourceRoot, VfsPath, }, FxHashMap, }; use itertools::Itertools; use proc_macro_api::{MacroDylib, ProcMacroServer}; use project_model::{PackageRoot, ProjectWorkspace, WorkspaceBuildScripts}; use syntax::SmolStr; use vfs::{file_set::FileSetConfig, AbsPath, AbsPathBuf, ChangeKind}; use crate::{ config::{Config, FilesWatcher, LinkedProject}, global_state::GlobalState, lsp_ext, main_loop::Task, op_queue::Cause, }; use ::tt::token_id as tt; #[derive(Debug)] pub(crate) enum ProjectWorkspaceProgress { Begin, Report(String), End(Vec>), } #[derive(Debug)] pub(crate) enum BuildDataProgress { Begin, Report(String), End((Arc>, Vec>)), } #[derive(Debug)] pub(crate) enum ProcMacroProgress { Begin, Report(String), End(ProcMacros), } impl GlobalState { pub(crate) fn is_quiescent(&self) -> bool { !(self.last_reported_status.is_none() || self.fetch_workspaces_queue.op_in_progress() || self.fetch_build_data_queue.op_in_progress() || self.fetch_proc_macros_queue.op_in_progress() || self.vfs_progress_config_version < self.vfs_config_version || self.vfs_progress_n_done < self.vfs_progress_n_total) } pub(crate) fn update_configuration(&mut self, config: Config) { let _p = profile::span("GlobalState::update_configuration"); let old_config = mem::replace(&mut self.config, Arc::new(config)); if self.config.lru_parse_query_capacity() != old_config.lru_parse_query_capacity() { self.analysis_host.update_lru_capacity(self.config.lru_parse_query_capacity()); } if self.config.lru_query_capacities() != old_config.lru_query_capacities() { self.analysis_host.update_lru_capacities( &self.config.lru_query_capacities().cloned().unwrap_or_default(), ); } if self.config.linked_projects() != old_config.linked_projects() { self.fetch_workspaces_queue.request_op("linked projects changed".to_string(), ()) } else if self.config.flycheck() != old_config.flycheck() { self.reload_flycheck(); } if self.analysis_host.raw_database().expand_proc_attr_macros() != self.config.expand_proc_attr_macros() { self.analysis_host.raw_database_mut().set_expand_proc_attr_macros_with_durability( self.config.expand_proc_attr_macros(), Durability::HIGH, ); } } pub(crate) fn current_status(&self) -> lsp_ext::ServerStatusParams { let mut status = lsp_ext::ServerStatusParams { health: lsp_ext::Health::Ok, quiescent: self.is_quiescent(), message: None, }; let mut message = String::new(); if self.proc_macro_changed { status.health = lsp_ext::Health::Warning; message.push_str("Proc-macros have changed and need to be rebuild.\n\n"); } if let Err(_) = self.fetch_build_data_error() { status.health = lsp_ext::Health::Warning; message.push_str("Failed to run build scripts of some packages.\n\n"); } if !self.config.cargo_autoreload() && self.is_quiescent() && self.fetch_workspaces_queue.op_requested() { status.health = lsp_ext::Health::Warning; message.push_str("Auto-reloading is disabled and the workspace has changed, a manual workspace reload is required.\n\n"); } if self.config.linked_projects().is_empty() && self.config.detached_files().is_empty() && self.config.notifications().cargo_toml_not_found { status.health = lsp_ext::Health::Warning; message.push_str("Failed to discover workspace.\n"); message.push_str("Consider adding the `Cargo.toml` of the workspace to the [`linkedProjects`](https://rust-analyzer.github.io/manual.html#rust-analyzer.linkedProjects) setting.\n\n"); } for ws in self.workspaces.iter() { let (ProjectWorkspace::Cargo { sysroot, .. } | ProjectWorkspace::Json { sysroot, .. } | ProjectWorkspace::DetachedFiles { sysroot, .. }) = ws; if let Err(Some(e)) = sysroot { status.health = lsp_ext::Health::Warning; message.push_str(e); message.push_str("\n\n"); } if let ProjectWorkspace::Cargo { rustc: Err(Some(e)), .. } = ws { status.health = lsp_ext::Health::Warning; message.push_str(e); message.push_str("\n\n"); } } if let Err(_) = self.fetch_workspace_error() { status.health = lsp_ext::Health::Error; message.push_str("Failed to load workspaces.\n\n"); } if !message.is_empty() { status.message = Some(message.trim_end().to_owned()); } status } pub(crate) fn fetch_workspaces(&mut self, cause: Cause) { tracing::info!(%cause, "will fetch workspaces"); self.task_pool.handle.spawn_with_sender({ let linked_projects = self.config.linked_projects(); let detached_files = self.config.detached_files().to_vec(); let cargo_config = self.config.cargo(); move |sender| { let progress = { let sender = sender.clone(); move |msg| { sender .send(Task::FetchWorkspace(ProjectWorkspaceProgress::Report(msg))) .unwrap() } }; sender.send(Task::FetchWorkspace(ProjectWorkspaceProgress::Begin)).unwrap(); let mut workspaces = linked_projects .iter() .map(|project| match project { LinkedProject::ProjectManifest(manifest) => { project_model::ProjectWorkspace::load( manifest.clone(), &cargo_config, &progress, ) } LinkedProject::InlineJsonProject(it) => { Ok(project_model::ProjectWorkspace::load_inline( it.clone(), cargo_config.target.as_deref(), &cargo_config.extra_env, None, )) } }) .collect::>(); if !detached_files.is_empty() { workspaces.push(project_model::ProjectWorkspace::load_detached_files( detached_files, &cargo_config, )); } tracing::info!("did fetch workspaces {:?}", workspaces); sender .send(Task::FetchWorkspace(ProjectWorkspaceProgress::End(workspaces))) .unwrap(); } }); } pub(crate) fn fetch_build_data(&mut self, cause: Cause) { tracing::info!(%cause, "will fetch build data"); let workspaces = Arc::clone(&self.workspaces); let config = self.config.cargo(); self.task_pool.handle.spawn_with_sender(move |sender| { sender.send(Task::FetchBuildData(BuildDataProgress::Begin)).unwrap(); let progress = { let sender = sender.clone(); move |msg| { sender.send(Task::FetchBuildData(BuildDataProgress::Report(msg))).unwrap() } }; let res = ProjectWorkspace::run_all_build_scripts(&workspaces, &config, &progress); sender.send(Task::FetchBuildData(BuildDataProgress::End((workspaces, res)))).unwrap(); }); } pub(crate) fn fetch_proc_macros(&mut self, cause: Cause, paths: Vec) { tracing::info!(%cause, "will load proc macros"); let dummy_replacements = self.config.dummy_replacements().clone(); let proc_macro_clients = self.proc_macro_clients.clone(); self.task_pool.handle.spawn_with_sender(move |sender| { sender.send(Task::LoadProcMacros(ProcMacroProgress::Begin)).unwrap(); let dummy_replacements = &dummy_replacements; let progress = { let sender = sender.clone(); &move |msg| { sender.send(Task::LoadProcMacros(ProcMacroProgress::Report(msg))).unwrap() } }; let mut res = FxHashMap::default(); let chain = proc_macro_clients .iter() .map(|res| res.as_ref().map_err(|e| &**e)) .chain(iter::repeat_with(|| Err("Proc macros servers are not running"))); for (client, paths) in chain.zip(paths) { res.extend(paths.into_iter().map(move |(crate_id, res)| { ( crate_id, res.map_or_else( |_| Err("proc macro crate is missing dylib".to_owned()), |(crate_name, path)| { progress(path.display().to_string()); load_proc_macro( client, &path, crate_name .as_deref() .and_then(|crate_name| { dummy_replacements.get(crate_name).map(|v| &**v) }) .unwrap_or_default(), ) }, ), ) })); } sender.send(Task::LoadProcMacros(ProcMacroProgress::End(res))).unwrap(); }); } pub(crate) fn set_proc_macros(&mut self, proc_macros: ProcMacros) { let mut change = Change::new(); change.set_proc_macros(proc_macros); self.analysis_host.apply_change(change); } pub(crate) fn switch_workspaces(&mut self, cause: Cause) { let _p = profile::span("GlobalState::switch_workspaces"); tracing::info!(%cause, "will switch workspaces"); if let Err(_) = self.fetch_workspace_error() { if !self.workspaces.is_empty() { // It only makes sense to switch to a partially broken workspace // if we don't have any workspace at all yet. return; } } let Some(workspaces) = self.fetch_workspaces_queue.last_op_result() else { return; }; let workspaces = workspaces.iter().filter_map(|res| res.as_ref().ok().cloned()).collect::>(); let same_workspaces = workspaces.len() == self.workspaces.len() && workspaces .iter() .zip(self.workspaces.iter()) .all(|(l, r)| l.eq_ignore_build_data(r)); if same_workspaces { let (workspaces, build_scripts) = self.fetch_build_data_queue.last_op_result(); if Arc::ptr_eq(workspaces, &self.workspaces) { tracing::debug!("set build scripts to workspaces"); let workspaces = workspaces .iter() .cloned() .zip(build_scripts) .map(|(mut ws, bs)| { ws.set_build_scripts(bs.as_ref().ok().cloned().unwrap_or_default()); ws }) .collect::>(); // Workspaces are the same, but we've updated build data. self.workspaces = Arc::new(workspaces); } else { tracing::info!("build scripts do not match the version of the active workspace"); // Current build scripts do not match the version of the active // workspace, so there's nothing for us to update. return; } } else { tracing::debug!("abandon build scripts for workspaces"); // Here, we completely changed the workspace (Cargo.toml edit), so // we don't care about build-script results, they are stale. // FIXME: can we abort the build scripts here? self.workspaces = Arc::new(workspaces); } if let FilesWatcher::Client = self.config.files().watcher { let registration_options = lsp_types::DidChangeWatchedFilesRegistrationOptions { watchers: self .workspaces .iter() .flat_map(|ws| ws.to_roots()) .filter(|it| it.is_local) .flat_map(|root| { root.include.into_iter().flat_map(|it| { [ format!("{}/**/*.rs", it.display()), format!("{}/**/Cargo.toml", it.display()), format!("{}/**/Cargo.lock", it.display()), ] }) }) .map(|glob_pattern| lsp_types::FileSystemWatcher { glob_pattern: lsp_types::GlobPattern::String(glob_pattern), kind: None, }) .collect(), }; let registration = lsp_types::Registration { id: "workspace/didChangeWatchedFiles".to_string(), method: "workspace/didChangeWatchedFiles".to_string(), register_options: Some(serde_json::to_value(registration_options).unwrap()), }; self.send_request::( lsp_types::RegistrationParams { registrations: vec![registration] }, |_, _| (), ); } let files_config = self.config.files(); let project_folders = ProjectFolders::new(&self.workspaces, &files_config.exclude); if self.proc_macro_clients.is_empty() || !same_workspaces { if let Some((path, path_manually_set)) = self.config.proc_macro_srv() { tracing::info!("Spawning proc-macro servers"); self.proc_macro_clients = self .workspaces .iter() .map(|ws| { let (path, args): (_, &[_]) = if path_manually_set { tracing::debug!( "Pro-macro server path explicitly set: {}", path.display() ); (path.clone(), &[]) } else { match ws.find_sysroot_proc_macro_srv() { Some(server_path) => (server_path, &[]), None => (path.clone(), &["proc-macro"]), } }; tracing::info!(?args, "Using proc-macro server at {}", path.display(),); ProcMacroServer::spawn(path.clone(), args).map_err(|err| { let error = format!( "Failed to run proc-macro server from path {}, error: {:?}", path.display(), err ); tracing::error!(error); error }) }) .collect() }; } let watch = match files_config.watcher { FilesWatcher::Client => vec![], FilesWatcher::Server => project_folders.watch, }; self.vfs_config_version += 1; self.loader.handle.set_config(vfs::loader::Config { load: project_folders.load, watch, version: self.vfs_config_version, }); self.source_root_config = project_folders.source_root_config; // Create crate graph from all the workspaces let (crate_graph, proc_macro_paths) = { let vfs = &mut self.vfs.write().0; let loader = &mut self.loader; let mut load = |path: &AbsPath| { let _p = profile::span("switch_workspaces::load"); let vfs_path = vfs::VfsPath::from(path.to_path_buf()); match vfs.file_id(&vfs_path) { Some(file_id) => Some(file_id), None => { if !self.mem_docs.contains(&vfs_path) { let contents = loader.handle.load_sync(path); vfs.set_file_contents(vfs_path.clone(), contents); } vfs.file_id(&vfs_path) } } }; let mut crate_graph = CrateGraph::default(); let mut proc_macros = Vec::default(); for ws in &**self.workspaces { let (other, mut crate_proc_macros) = ws.to_crate_graph(&mut load, &self.config.cargo().extra_env); crate_graph.extend(other, &mut crate_proc_macros); proc_macros.push(crate_proc_macros); } (crate_graph, proc_macros) }; let mut change = Change::new(); if self.config.expand_proc_macros() { self.fetch_proc_macros_queue.request_op(cause, proc_macro_paths); } change.set_crate_graph(crate_graph); self.analysis_host.apply_change(change); self.process_changes(); self.reload_flycheck(); tracing::info!("did switch workspaces"); } pub(super) fn fetch_workspace_error(&self) -> Result<(), String> { let mut buf = String::new(); let Some(last_op_result) = self.fetch_workspaces_queue.last_op_result() else { return Ok(()) }; if last_op_result.is_empty() { stdx::format_to!(buf, "rust-analyzer failed to discover workspace"); } else { for ws in last_op_result { if let Err(err) = ws { stdx::format_to!(buf, "rust-analyzer failed to load workspace: {:#}\n", err); } } } if buf.is_empty() { return Ok(()); } Err(buf) } pub(super) fn fetch_build_data_error(&self) -> Result<(), String> { let mut buf = String::new(); for ws in &self.fetch_build_data_queue.last_op_result().1 { match ws { Ok(data) => match data.error() { Some(stderr) => stdx::format_to!(buf, "{:#}\n", stderr), _ => (), }, // io errors Err(err) => stdx::format_to!(buf, "{:#}\n", err), } } if buf.is_empty() { Ok(()) } else { Err(buf) } } fn reload_flycheck(&mut self) { let _p = profile::span("GlobalState::reload_flycheck"); let config = self.config.flycheck(); let sender = self.flycheck_sender.clone(); let invocation_strategy = match config { FlycheckConfig::CargoCommand { .. } => flycheck::InvocationStrategy::PerWorkspace, FlycheckConfig::CustomCommand { invocation_strategy, .. } => invocation_strategy, }; self.flycheck = match invocation_strategy { flycheck::InvocationStrategy::Once => vec![FlycheckHandle::spawn( 0, Box::new(move |msg| sender.send(msg).unwrap()), config, self.config.root_path().clone(), )], flycheck::InvocationStrategy::PerWorkspace => { self.workspaces .iter() .enumerate() .filter_map(|(id, w)| match w { ProjectWorkspace::Cargo { cargo, .. } => Some((id, cargo.workspace_root())), ProjectWorkspace::Json { project, .. } => { // Enable flychecks for json projects if a custom flycheck command was supplied // in the workspace configuration. match config { FlycheckConfig::CustomCommand { .. } => Some((id, project.path())), _ => None, } } ProjectWorkspace::DetachedFiles { .. } => None, }) .map(|(id, root)| { let sender = sender.clone(); FlycheckHandle::spawn( id, Box::new(move |msg| sender.send(msg).unwrap()), config.clone(), root.to_path_buf(), ) }) .collect() } } .into(); } } #[derive(Default)] pub(crate) struct ProjectFolders { pub(crate) load: Vec, pub(crate) watch: Vec, pub(crate) source_root_config: SourceRootConfig, } impl ProjectFolders { pub(crate) fn new( workspaces: &[ProjectWorkspace], global_excludes: &[AbsPathBuf], ) -> ProjectFolders { let mut res = ProjectFolders::default(); let mut fsc = FileSetConfig::builder(); let mut local_filesets = vec![]; // Dedup source roots // Depending on the project setup, we can have duplicated source roots, or for example in // the case of the rustc workspace, we can end up with two source roots that are almost the // same but not quite, like: // PackageRoot { is_local: false, include: [AbsPathBuf(".../rust/src/tools/miri/cargo-miri")], exclude: [] } // PackageRoot { // is_local: true, // include: [AbsPathBuf(".../rust/src/tools/miri/cargo-miri"), AbsPathBuf(".../rust/build/x86_64-pc-windows-msvc/stage0-tools/x86_64-pc-windows-msvc/release/build/cargo-miri-85801cd3d2d1dae4/out")], // exclude: [AbsPathBuf(".../rust/src/tools/miri/cargo-miri/.git"), AbsPathBuf(".../rust/src/tools/miri/cargo-miri/target")] // } // // The first one comes from the explicit rustc workspace which points to the rustc workspace itself // The second comes from the rustc workspace that we load as the actual project workspace // These `is_local` differing in this kind of way gives us problems, especially when trying to filter diagnostics as we don't report diagnostics for external libraries. // So we need to deduplicate these, usually it would be enough to deduplicate by `include`, but as the rustc example shows here that doesn't work, // so we need to also coalesce the includes if they overlap. let mut roots: Vec<_> = workspaces .iter() .flat_map(|ws| ws.to_roots()) .update(|root| root.include.sort()) .sorted_by(|a, b| a.include.cmp(&b.include)) .collect(); // map that tracks indices of overlapping roots let mut overlap_map = FxHashMap::<_, Vec<_>>::default(); let mut done = false; while !mem::replace(&mut done, true) { // maps include paths to indices of the corresponding root let mut include_to_idx = FxHashMap::default(); // Find and note down the indices of overlapping roots for (idx, root) in roots.iter().enumerate().filter(|(_, it)| !it.include.is_empty()) { for include in &root.include { match include_to_idx.entry(include) { Entry::Occupied(e) => { overlap_map.entry(*e.get()).or_default().push(idx); } Entry::Vacant(e) => { e.insert(idx); } } } } for (k, v) in overlap_map.drain() { done = false; for v in v { let r = mem::replace( &mut roots[v], PackageRoot { is_local: false, include: vec![], exclude: vec![] }, ); roots[k].is_local |= r.is_local; roots[k].include.extend(r.include); roots[k].exclude.extend(r.exclude); } roots[k].include.sort(); roots[k].exclude.sort(); roots[k].include.dedup(); roots[k].exclude.dedup(); } } for root in roots.into_iter().filter(|it| !it.include.is_empty()) { let file_set_roots: Vec = root.include.iter().cloned().map(VfsPath::from).collect(); let entry = { let mut dirs = vfs::loader::Directories::default(); dirs.extensions.push("rs".into()); dirs.include.extend(root.include); dirs.exclude.extend(root.exclude); for excl in global_excludes { if dirs .include .iter() .any(|incl| incl.starts_with(excl) || excl.starts_with(incl)) { dirs.exclude.push(excl.clone()); } } vfs::loader::Entry::Directories(dirs) }; if root.is_local { res.watch.push(res.load.len()); } res.load.push(entry); if root.is_local { local_filesets.push(fsc.len()); } fsc.add_file_set(file_set_roots) } let fsc = fsc.build(); res.source_root_config = SourceRootConfig { fsc, local_filesets }; res } } #[derive(Default, Debug)] pub(crate) struct SourceRootConfig { pub(crate) fsc: FileSetConfig, pub(crate) local_filesets: Vec, } impl SourceRootConfig { pub(crate) fn partition(&self, vfs: &vfs::Vfs) -> Vec { let _p = profile::span("SourceRootConfig::partition"); self.fsc .partition(vfs) .into_iter() .enumerate() .map(|(idx, file_set)| { let is_local = self.local_filesets.contains(&idx); if is_local { SourceRoot::new_local(file_set) } else { SourceRoot::new_library(file_set) } }) .collect() } } /// Load the proc-macros for the given lib path, replacing all expanders whose names are in `dummy_replace` /// with an identity dummy expander. pub(crate) fn load_proc_macro( server: Result<&ProcMacroServer, &str>, path: &AbsPath, dummy_replace: &[Box], ) -> ProcMacroLoadResult { let server = server.map_err(ToOwned::to_owned)?; let res: Result, String> = (|| { let dylib = MacroDylib::new(path.to_path_buf()); let vec = server.load_dylib(dylib).map_err(|e| format!("{e}"))?; if vec.is_empty() { return Err("proc macro library returned no proc macros".to_string()); } Ok(vec .into_iter() .map(|expander| expander_to_proc_macro(expander, dummy_replace)) .collect()) })(); return match res { Ok(proc_macros) => { tracing::info!( "Loaded proc-macros for {}: {:?}", path.display(), proc_macros.iter().map(|it| it.name.clone()).collect::>() ); Ok(proc_macros) } Err(e) => { tracing::warn!("proc-macro loading for {} failed: {e}", path.display()); Err(e) } }; fn expander_to_proc_macro( expander: proc_macro_api::ProcMacro, dummy_replace: &[Box], ) -> ProcMacro { let name = SmolStr::from(expander.name()); let kind = match expander.kind() { proc_macro_api::ProcMacroKind::CustomDerive => ProcMacroKind::CustomDerive, proc_macro_api::ProcMacroKind::FuncLike => ProcMacroKind::FuncLike, proc_macro_api::ProcMacroKind::Attr => ProcMacroKind::Attr, }; let expander: Arc = if dummy_replace.iter().any(|replace| &**replace == name) { match kind { ProcMacroKind::Attr => Arc::new(IdentityExpander), _ => Arc::new(EmptyExpander), } } else { Arc::new(Expander(expander)) }; ProcMacro { name, kind, expander } } #[derive(Debug)] struct Expander(proc_macro_api::ProcMacro); impl ProcMacroExpander for Expander { fn expand( &self, subtree: &tt::Subtree, attrs: Option<&tt::Subtree>, env: &Env, ) -> Result { let env = env.iter().map(|(k, v)| (k.to_string(), v.to_string())).collect(); match self.0.expand(subtree, attrs, env) { Ok(Ok(subtree)) => Ok(subtree), Ok(Err(err)) => Err(ProcMacroExpansionError::Panic(err.0)), Err(err) => Err(ProcMacroExpansionError::System(err.to_string())), } } } /// Dummy identity expander, used for attribute proc-macros that are deliberately ignored by the user. #[derive(Debug)] struct IdentityExpander; impl ProcMacroExpander for IdentityExpander { fn expand( &self, subtree: &tt::Subtree, _: Option<&tt::Subtree>, _: &Env, ) -> Result { Ok(subtree.clone()) } } /// Empty expander, used for proc-macros that are deliberately ignored by the user. #[derive(Debug)] struct EmptyExpander; impl ProcMacroExpander for EmptyExpander { fn expand( &self, _: &tt::Subtree, _: Option<&tt::Subtree>, _: &Env, ) -> Result { Ok(tt::Subtree::empty()) } } } pub(crate) fn should_refresh_for_change(path: &AbsPath, change_kind: ChangeKind) -> bool { const IMPLICIT_TARGET_FILES: &[&str] = &["build.rs", "src/main.rs", "src/lib.rs"]; const IMPLICIT_TARGET_DIRS: &[&str] = &["src/bin", "examples", "tests", "benches"]; let file_name = match path.file_name().unwrap_or_default().to_str() { Some(it) => it, None => return false, }; if let "Cargo.toml" | "Cargo.lock" = file_name { return true; } if change_kind == ChangeKind::Modify { return false; } // .cargo/config{.toml} if path.extension().unwrap_or_default() != "rs" { let is_cargo_config = matches!(file_name, "config.toml" | "config") && path.parent().map(|parent| parent.as_ref().ends_with(".cargo")).unwrap_or(false); return is_cargo_config; } if IMPLICIT_TARGET_FILES.iter().any(|it| path.as_ref().ends_with(it)) { return true; } let parent = match path.parent() { Some(it) => it, None => return false, }; if IMPLICIT_TARGET_DIRS.iter().any(|it| parent.as_ref().ends_with(it)) { return true; } if file_name == "main.rs" { let grand_parent = match parent.parent() { Some(it) => it, None => return false, }; if IMPLICIT_TARGET_DIRS.iter().any(|it| grand_parent.as_ref().ends_with(it)) { return true; } } false }