ce8400bbfd
From the dawn of time, when dinosaurs roamed the and we didn't have hierarchical profiling, there was the `latest_requests` infra we used to track the time of ten last requests. Today, no one is actually using it and, what's more, it itself became pretty useless -- LSP grew way more chatty, and 10 requests don't really paint any kind of picture. Personally, it's been years since I last looked at latest requests in the status output. So, let's remove a tiny bit of state from the big ball of complexity that is `GlobalState` and `main_loop`!
345 lines
13 KiB
Rust
345 lines
13 KiB
Rust
//! The context or environment in which the language server functions. In our
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//! server implementation this is know as the `WorldState`.
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//!
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//! Each tick provides an immutable snapshot of the state as `WorldSnapshot`.
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use std::{sync::Arc, time::Instant};
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use crossbeam_channel::{unbounded, Receiver, Sender};
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use flycheck::FlycheckHandle;
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use ide::{Analysis, AnalysisHost, Cancellable, Change, FileId};
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use ide_db::base_db::CrateId;
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use lsp_types::{SemanticTokens, Url};
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use parking_lot::{Mutex, RwLock};
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use project_model::{
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CargoWorkspace, ProcMacroClient, ProjectWorkspace, Target, WorkspaceBuildScripts,
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};
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use rustc_hash::FxHashMap;
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use vfs::AnchoredPathBuf;
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use crate::{
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config::Config,
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diagnostics::{CheckFixes, DiagnosticCollection},
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from_proto,
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line_index::{LineEndings, LineIndex},
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lsp_ext,
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main_loop::Task,
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mem_docs::MemDocs,
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op_queue::OpQueue,
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reload::SourceRootConfig,
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thread_pool::TaskPool,
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to_proto::url_from_abs_path,
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Result,
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};
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// Enforces drop order
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pub(crate) struct Handle<H, C> {
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pub(crate) handle: H,
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pub(crate) receiver: C,
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}
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pub(crate) type ReqHandler = fn(&mut GlobalState, lsp_server::Response);
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pub(crate) type ReqQueue = lsp_server::ReqQueue<(String, Instant), ReqHandler>;
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/// `GlobalState` is the primary mutable state of the language server
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///
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/// The most interesting components are `vfs`, which stores a consistent
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/// snapshot of the file systems, and `analysis_host`, which stores our
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/// incremental salsa database.
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///
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/// Note that this struct has more than on impl in various modules!
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pub(crate) struct GlobalState {
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sender: Sender<lsp_server::Message>,
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req_queue: ReqQueue,
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pub(crate) task_pool: Handle<TaskPool<Task>, Receiver<Task>>,
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pub(crate) loader: Handle<Box<dyn vfs::loader::Handle>, Receiver<vfs::loader::Message>>,
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pub(crate) config: Arc<Config>,
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pub(crate) analysis_host: AnalysisHost,
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pub(crate) diagnostics: DiagnosticCollection,
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pub(crate) mem_docs: MemDocs,
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pub(crate) semantic_tokens_cache: Arc<Mutex<FxHashMap<Url, SemanticTokens>>>,
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pub(crate) shutdown_requested: bool,
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pub(crate) last_reported_status: Option<lsp_ext::ServerStatusParams>,
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pub(crate) source_root_config: SourceRootConfig,
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pub(crate) proc_macro_client: Option<ProcMacroClient>,
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pub(crate) flycheck: Vec<FlycheckHandle>,
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pub(crate) flycheck_sender: Sender<flycheck::Message>,
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pub(crate) flycheck_receiver: Receiver<flycheck::Message>,
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pub(crate) vfs: Arc<RwLock<(vfs::Vfs, FxHashMap<FileId, LineEndings>)>>,
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pub(crate) vfs_config_version: u32,
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pub(crate) vfs_progress_config_version: u32,
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pub(crate) vfs_progress_n_total: usize,
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pub(crate) vfs_progress_n_done: usize,
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/// `workspaces` field stores the data we actually use, while the `OpQueue`
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/// stores the result of the last fetch.
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///
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/// If the fetch (partially) fails, we do not update the current value.
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///
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/// The handling of build data is subtle. We fetch workspace in two phases:
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///
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/// *First*, we run `cargo metadata`, which gives us fast results for
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/// initial analysis.
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///
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/// *Second*, we run `cargo check` which runs build scripts and compiles
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/// proc macros.
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///
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/// We need both for the precise analysis, but we want rust-analyzer to be
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/// at least partially available just after the first phase. That's because
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/// first phase is much faster, and is much less likely to fail.
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///
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/// This creates a complication -- by the time the second phase completes,
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/// the results of the fist phase could be invalid. That is, while we run
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/// `cargo check`, the user edits `Cargo.toml`, we notice this, and the new
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/// `cargo metadata` completes before `cargo check`.
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///
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/// An additional complication is that we want to avoid needless work. When
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/// the user just adds comments or whitespace to Cargo.toml, we do not want
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/// to invalidate any salsa caches.
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pub(crate) workspaces: Arc<Vec<ProjectWorkspace>>,
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pub(crate) fetch_workspaces_queue: OpQueue<Vec<anyhow::Result<ProjectWorkspace>>>,
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pub(crate) fetch_build_data_queue:
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OpQueue<(Arc<Vec<ProjectWorkspace>>, Vec<anyhow::Result<WorkspaceBuildScripts>>)>,
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pub(crate) prime_caches_queue: OpQueue<()>,
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}
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/// An immutable snapshot of the world's state at a point in time.
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pub(crate) struct GlobalStateSnapshot {
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pub(crate) config: Arc<Config>,
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pub(crate) analysis: Analysis,
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pub(crate) check_fixes: CheckFixes,
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mem_docs: MemDocs,
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pub(crate) semantic_tokens_cache: Arc<Mutex<FxHashMap<Url, SemanticTokens>>>,
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vfs: Arc<RwLock<(vfs::Vfs, FxHashMap<FileId, LineEndings>)>>,
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pub(crate) workspaces: Arc<Vec<ProjectWorkspace>>,
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}
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impl GlobalState {
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pub(crate) fn new(sender: Sender<lsp_server::Message>, config: Config) -> GlobalState {
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let loader = {
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let (sender, receiver) = unbounded::<vfs::loader::Message>();
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let handle: vfs_notify::NotifyHandle =
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vfs::loader::Handle::spawn(Box::new(move |msg| sender.send(msg).unwrap()));
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let handle = Box::new(handle) as Box<dyn vfs::loader::Handle>;
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Handle { handle, receiver }
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};
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let task_pool = {
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let (sender, receiver) = unbounded();
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let handle = TaskPool::new(sender);
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Handle { handle, receiver }
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};
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let analysis_host = AnalysisHost::new(config.lru_capacity());
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let (flycheck_sender, flycheck_receiver) = unbounded();
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let mut this = GlobalState {
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sender,
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req_queue: ReqQueue::default(),
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task_pool,
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loader,
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config: Arc::new(config.clone()),
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analysis_host,
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diagnostics: Default::default(),
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mem_docs: MemDocs::default(),
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semantic_tokens_cache: Arc::new(Default::default()),
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shutdown_requested: false,
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last_reported_status: None,
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source_root_config: SourceRootConfig::default(),
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proc_macro_client: None,
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flycheck: Vec::new(),
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flycheck_sender,
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flycheck_receiver,
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vfs: Arc::new(RwLock::new((vfs::Vfs::default(), FxHashMap::default()))),
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vfs_config_version: 0,
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vfs_progress_config_version: 0,
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vfs_progress_n_total: 0,
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vfs_progress_n_done: 0,
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workspaces: Arc::new(Vec::new()),
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fetch_workspaces_queue: OpQueue::default(),
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prime_caches_queue: OpQueue::default(),
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fetch_build_data_queue: OpQueue::default(),
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};
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// Apply any required database inputs from the config.
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this.update_configuration(config);
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this
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}
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pub(crate) fn process_changes(&mut self) -> bool {
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let _p = profile::span("GlobalState::process_changes");
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let mut fs_changes = Vec::new();
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let mut has_fs_changes = false;
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let change = {
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let mut change = Change::new();
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let (vfs, line_endings_map) = &mut *self.vfs.write();
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let changed_files = vfs.take_changes();
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if changed_files.is_empty() {
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return false;
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}
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for file in changed_files {
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if file.is_created_or_deleted() {
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if let Some(path) = vfs.file_path(file.file_id).as_path() {
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fs_changes.push((path.to_path_buf(), file.change_kind));
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has_fs_changes = true;
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}
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}
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let text = if file.exists() {
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let bytes = vfs.file_contents(file.file_id).to_vec();
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match String::from_utf8(bytes).ok() {
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Some(text) => {
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let (text, line_endings) = LineEndings::normalize(text);
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line_endings_map.insert(file.file_id, line_endings);
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Some(Arc::new(text))
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}
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None => None,
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}
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} else {
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None
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};
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change.change_file(file.file_id, text);
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}
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if has_fs_changes {
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let roots = self.source_root_config.partition(vfs);
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change.set_roots(roots);
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}
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change
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};
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self.analysis_host.apply_change(change);
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self.maybe_refresh(&fs_changes);
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true
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}
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pub(crate) fn snapshot(&self) -> GlobalStateSnapshot {
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GlobalStateSnapshot {
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config: Arc::clone(&self.config),
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workspaces: Arc::clone(&self.workspaces),
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analysis: self.analysis_host.analysis(),
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vfs: Arc::clone(&self.vfs),
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check_fixes: Arc::clone(&self.diagnostics.check_fixes),
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mem_docs: self.mem_docs.clone(),
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semantic_tokens_cache: Arc::clone(&self.semantic_tokens_cache),
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}
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}
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pub(crate) fn send_request<R: lsp_types::request::Request>(
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&mut self,
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params: R::Params,
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handler: ReqHandler,
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) {
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let request = self.req_queue.outgoing.register(R::METHOD.to_string(), params, handler);
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self.send(request.into());
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}
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pub(crate) fn complete_request(&mut self, response: lsp_server::Response) {
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let handler = self.req_queue.outgoing.complete(response.id.clone());
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handler(self, response)
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}
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pub(crate) fn send_notification<N: lsp_types::notification::Notification>(
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&mut self,
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params: N::Params,
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) {
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let not = lsp_server::Notification::new(N::METHOD.to_string(), params);
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self.send(not.into());
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}
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pub(crate) fn register_request(
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&mut self,
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request: &lsp_server::Request,
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request_received: Instant,
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) {
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self.req_queue
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.incoming
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.register(request.id.clone(), (request.method.clone(), request_received));
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}
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pub(crate) fn respond(&mut self, response: lsp_server::Response) {
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if let Some((method, start)) = self.req_queue.incoming.complete(response.id.clone()) {
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let duration = start.elapsed();
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log::info!("handled {} - ({}) in {:0.2?}", method, response.id, duration);
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self.send(response.into());
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}
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}
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pub(crate) fn cancel(&mut self, request_id: lsp_server::RequestId) {
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if let Some(response) = self.req_queue.incoming.cancel(request_id) {
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self.send(response.into());
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}
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}
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fn send(&mut self, message: lsp_server::Message) {
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self.sender.send(message).unwrap()
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}
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}
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impl Drop for GlobalState {
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fn drop(&mut self) {
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self.analysis_host.request_cancellation()
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}
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}
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impl GlobalStateSnapshot {
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pub(crate) fn url_to_file_id(&self, url: &Url) -> Result<FileId> {
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url_to_file_id(&self.vfs.read().0, url)
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}
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pub(crate) fn file_id_to_url(&self, id: FileId) -> Url {
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file_id_to_url(&self.vfs.read().0, id)
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}
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pub(crate) fn file_line_index(&self, file_id: FileId) -> Cancellable<LineIndex> {
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let endings = self.vfs.read().1[&file_id];
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let index = self.analysis.file_line_index(file_id)?;
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let res = LineIndex { index, endings, encoding: self.config.offset_encoding() };
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Ok(res)
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}
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pub(crate) fn url_file_version(&self, url: &Url) -> Option<i32> {
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let path = from_proto::vfs_path(url).ok()?;
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Some(self.mem_docs.get(&path)?.version)
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}
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pub(crate) fn anchored_path(&self, path: &AnchoredPathBuf) -> Url {
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let mut base = self.vfs.read().0.file_path(path.anchor);
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base.pop();
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let path = base.join(&path.path).unwrap();
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let path = path.as_path().unwrap();
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url_from_abs_path(path)
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}
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pub(crate) fn cargo_target_for_crate_root(
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&self,
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crate_id: CrateId,
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) -> Option<(&CargoWorkspace, Target)> {
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let file_id = self.analysis.crate_root(crate_id).ok()?;
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let path = self.vfs.read().0.file_path(file_id);
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let path = path.as_path()?;
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self.workspaces.iter().find_map(|ws| match ws {
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ProjectWorkspace::Cargo { cargo, .. } => {
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cargo.target_by_root(path).map(|it| (cargo, it))
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}
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ProjectWorkspace::Json { .. } => None,
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ProjectWorkspace::DetachedFiles { .. } => None,
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})
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}
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}
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pub(crate) fn file_id_to_url(vfs: &vfs::Vfs, id: FileId) -> Url {
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let path = vfs.file_path(id);
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let path = path.as_path().unwrap();
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url_from_abs_path(path)
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}
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pub(crate) fn url_to_file_id(vfs: &vfs::Vfs, url: &Url) -> Result<FileId> {
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let path = from_proto::vfs_path(url)?;
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let res = vfs.file_id(&path).ok_or_else(|| format!("file not found: {}", path))?;
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Ok(res)
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}
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