rust/crates/rust-analyzer/src/main_loop.rs

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//! The main loop of `rust-analyzer` responsible for dispatching LSP
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//! requests/replies and notifications back to the client.
use std::{
env,
error::Error,
fmt,
ops::Range,
panic,
sync::Arc,
time::{Duration, Instant},
};
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use crossbeam_channel::{never, select, unbounded, RecvError, Sender};
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use lsp_server::{Connection, ErrorCode, Message, Notification, Request, RequestId, Response};
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use lsp_types::{request::Request as _, NumberOrString, TextDocumentContentChangeEvent};
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use ra_db::VfsPath;
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use ra_flycheck::CheckTask;
use ra_ide::{Canceled, FileId, LineIndex};
use ra_prof::profile;
use ra_project_model::{PackageRoot, ProjectWorkspace};
use serde::{de::DeserializeOwned, Serialize};
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use threadpool::ThreadPool;
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use crate::{
config::{Config, FilesWatcher, LinkedProject},
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diagnostics::DiagnosticTask,
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from_proto,
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global_state::{file_id_to_url, GlobalState, GlobalStateSnapshot, Status},
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handlers, lsp_ext,
request_metrics::RequestMetrics,
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Result,
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};
#[derive(Debug)]
pub struct LspError {
pub code: i32,
pub message: String,
}
impl LspError {
pub const UNKNOWN_FILE: i32 = -32900;
pub fn new(code: i32, message: String) -> LspError {
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LspError { code, message }
}
}
impl fmt::Display for LspError {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "Language Server request failed with {}. ({})", self.code, self.message)
}
}
impl Error for LspError {}
pub fn main_loop(config: Config, connection: Connection) -> Result<()> {
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log::info!("initial config: {:#?}", config);
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// Windows scheduler implements priority boosts: if thread waits for an
// event (like a condvar), and event fires, priority of the thread is
// temporary bumped. This optimization backfires in our case: each time the
// `main_loop` schedules a task to run on a threadpool, the worker threads
// gets a higher priority, and (on a machine with fewer cores) displaces the
// main loop! We work-around this by marking the main loop as a
// higher-priority thread.
//
// https://docs.microsoft.com/en-us/windows/win32/procthread/scheduling-priorities
// https://docs.microsoft.com/en-us/windows/win32/procthread/priority-boosts
// https://github.com/rust-analyzer/rust-analyzer/issues/2835
#[cfg(windows)]
unsafe {
use winapi::um::processthreadsapi::*;
let thread = GetCurrentThread();
let thread_priority_above_normal = 1;
SetThreadPriority(thread, thread_priority_above_normal);
}
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let mut global_state = {
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let workspaces = {
if config.linked_projects.is_empty() && config.notifications.cargo_toml_not_found {
show_message(
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lsp_types::MessageType::Error,
"rust-analyzer failed to discover workspace".to_string(),
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&connection.sender,
);
};
config
.linked_projects
.iter()
.filter_map(|project| match project {
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LinkedProject::ProjectManifest(manifest) => {
ra_project_model::ProjectWorkspace::load(
manifest.clone(),
&config.cargo,
config.with_sysroot,
)
.map_err(|err| {
log::error!("failed to load workspace: {:#}", err);
show_message(
lsp_types::MessageType::Error,
format!("rust-analyzer failed to load workspace: {:#}", err),
&connection.sender,
);
})
.ok()
}
LinkedProject::InlineJsonProject(it) => {
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Some(ra_project_model::ProjectWorkspace::Json { project: it.clone() })
}
})
.collect::<Vec<_>>()
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};
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let mut req_queue = ReqQueue::default();
if let FilesWatcher::Client = config.files.watcher {
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let registration_options = lsp_types::DidChangeWatchedFilesRegistrationOptions {
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watchers: workspaces
.iter()
.flat_map(ProjectWorkspace::to_roots)
.filter(PackageRoot::is_member)
.map(|root| format!("{}/**/*.rs", root.path().display()))
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.map(|glob_pattern| lsp_types::FileSystemWatcher { glob_pattern, kind: None })
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.collect(),
};
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let registration = lsp_types::Registration {
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id: "file-watcher".to_string(),
method: "workspace/didChangeWatchedFiles".to_string(),
register_options: Some(serde_json::to_value(registration_options).unwrap()),
};
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let params = lsp_types::RegistrationParams { registrations: vec![registration] };
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let request = req_queue.outgoing.register(
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lsp_types::request::RegisterCapability::METHOD.to_string(),
params,
DO_NOTHING,
);
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connection.sender.send(request.into()).unwrap();
}
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GlobalState::new(workspaces, config.lru_capacity, config, req_queue)
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};
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let pool = ThreadPool::default();
let (task_sender, task_receiver) = unbounded::<Task>();
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log::info!("server initialized, serving requests");
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{
let task_sender = task_sender;
loop {
log::trace!("selecting");
let event = select! {
recv(&connection.receiver) -> msg => match msg {
Ok(msg) => Event::Msg(msg),
Err(RecvError) => return Err("client exited without shutdown".into()),
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},
recv(task_receiver) -> task => Event::Task(task.unwrap()),
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recv(global_state.task_receiver) -> task => match task {
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Ok(task) => Event::Vfs(task),
Err(RecvError) => return Err("vfs died".into()),
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},
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recv(global_state.flycheck.as_ref().map_or(&never(), |it| &it.task_recv)) -> task => match task {
Ok(task) => Event::CheckWatcher(task),
Err(RecvError) => return Err("check watcher died".into()),
}
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};
if let Event::Msg(Message::Request(req)) = &event {
if connection.handle_shutdown(&req)? {
break;
};
}
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assert!(!global_state.vfs.read().0.has_changes());
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loop_turn(&pool, &task_sender, &connection, &mut global_state, event)?;
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assert!(!global_state.vfs.read().0.has_changes());
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}
}
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global_state.analysis_host.request_cancellation();
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log::info!("waiting for tasks to finish...");
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task_receiver.into_iter().for_each(|task| on_task(task, &connection.sender, &mut global_state));
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log::info!("...tasks have finished");
log::info!("joining threadpool...");
pool.join();
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drop(pool);
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log::info!("...threadpool has finished");
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let vfs = Arc::try_unwrap(global_state.vfs).expect("all snapshots should be dead");
drop(vfs);
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Ok(())
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}
#[derive(Debug)]
enum Task {
Respond(Response),
Notify(Notification),
Diagnostic(DiagnosticTask),
}
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enum Event {
Msg(Message),
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Task(Task),
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Vfs(vfs::loader::Message),
CheckWatcher(CheckTask),
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}
impl fmt::Debug for Event {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let debug_verbose_not = |not: &Notification, f: &mut fmt::Formatter| {
f.debug_struct("Notification").field("method", &not.method).finish()
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};
match self {
Event::Msg(Message::Notification(not)) => {
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if notification_is::<lsp_types::notification::DidOpenTextDocument>(not)
|| notification_is::<lsp_types::notification::DidChangeTextDocument>(not)
{
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return debug_verbose_not(not, f);
}
}
Event::Task(Task::Notify(not)) => {
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if notification_is::<lsp_types::notification::PublishDiagnostics>(not) {
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return debug_verbose_not(not, f);
}
}
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Event::Task(Task::Respond(resp)) => {
return f
.debug_struct("Response")
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.field("id", &resp.id)
.field("error", &resp.error)
.finish();
}
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_ => (),
}
match self {
Event::Msg(it) => fmt::Debug::fmt(it, f),
Event::Task(it) => fmt::Debug::fmt(it, f),
Event::Vfs(it) => fmt::Debug::fmt(it, f),
Event::CheckWatcher(it) => fmt::Debug::fmt(it, f),
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}
}
}
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pub(crate) type ReqHandler = fn(&mut GlobalState, Response);
pub(crate) type ReqQueue = lsp_server::ReqQueue<(&'static str, Instant), ReqHandler>;
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const DO_NOTHING: ReqHandler = |_, _| ();
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fn loop_turn(
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pool: &ThreadPool,
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task_sender: &Sender<Task>,
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connection: &Connection,
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global_state: &mut GlobalState,
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event: Event,
) -> Result<()> {
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let loop_start = Instant::now();
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// NOTE: don't count blocking select! call as a loop-turn time
let _p = profile("main_loop_inner/loop-turn");
log::info!("loop turn = {:?}", event);
let queue_count = pool.queued_count();
if queue_count > 0 {
log::info!("queued count = {}", queue_count);
}
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let mut became_ready = false;
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match event {
Event::Task(task) => {
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on_task(task, &connection.sender, global_state);
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global_state.maybe_collect_garbage();
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}
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Event::Vfs(task) => match task {
vfs::loader::Message::Loaded { files } => {
let vfs = &mut global_state.vfs.write().0;
for (path, contents) in files {
let path = VfsPath::from(path);
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if !global_state.mem_docs.contains(&path) {
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vfs.set_file_contents(path, contents)
}
}
}
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vfs::loader::Message::Progress { n_total, n_done } => {
if n_done == n_total {
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global_state.status = Status::Ready;
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became_ready = true;
}
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report_progress(global_state, &connection.sender, n_done, n_total, "roots scanned")
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}
},
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Event::CheckWatcher(task) => on_check_task(task, global_state, task_sender)?,
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Event::Msg(msg) => match msg {
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Message::Request(req) => {
on_request(global_state, pool, task_sender, &connection.sender, loop_start, req)?
}
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Message::Notification(not) => {
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on_notification(&connection.sender, global_state, not)?;
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}
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Message::Response(resp) => {
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let handler = global_state.req_queue.outgoing.complete(resp.id.clone());
handler(global_state, resp)
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}
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},
};
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let state_changed = global_state.process_changes();
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if became_ready {
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if let Some(flycheck) = &global_state.flycheck {
flycheck.update();
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}
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}
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if global_state.status == Status::Ready && (state_changed || became_ready) {
let subscriptions = global_state
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.mem_docs
.iter()
.map(|path| global_state.vfs.read().0.file_id(&path).unwrap())
.collect::<Vec<_>>();
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update_file_notifications_on_threadpool(
pool,
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global_state.snapshot(),
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task_sender.clone(),
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subscriptions.clone(),
);
pool.execute({
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let subs = subscriptions;
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let snap = global_state.snapshot();
move || snap.analysis().prime_caches(subs).unwrap_or_else(|_: Canceled| ())
});
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}
let loop_duration = loop_start.elapsed();
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if loop_duration > Duration::from_millis(100) {
log::error!("overly long loop turn: {:?}", loop_duration);
if env::var("RA_PROFILE").is_ok() {
show_message(
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lsp_types::MessageType::Error,
format!("overly long loop turn: {:?}", loop_duration),
&connection.sender,
);
}
}
Ok(())
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}
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fn on_task(task: Task, msg_sender: &Sender<Message>, global_state: &mut GlobalState) {
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match task {
Task::Respond(response) => {
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if let Some((method, start)) =
global_state.req_queue.incoming.complete(response.id.clone())
{
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let duration = start.elapsed();
log::info!("handled req#{} in {:?}", response.id, duration);
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global_state.complete_request(RequestMetrics {
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id: response.id.clone(),
method: method.to_string(),
duration,
});
msg_sender.send(response.into()).unwrap();
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}
}
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Task::Notify(n) => {
msg_sender.send(n.into()).unwrap();
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}
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Task::Diagnostic(task) => on_diagnostic_task(task, msg_sender, global_state),
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}
}
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fn on_request(
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global_state: &mut GlobalState,
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pool: &ThreadPool,
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task_sender: &Sender<Task>,
msg_sender: &Sender<Message>,
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request_received: Instant,
req: Request,
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) -> Result<()> {
let mut pool_dispatcher = PoolDispatcher {
req: Some(req),
pool,
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global_state,
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task_sender,
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msg_sender,
request_received,
};
pool_dispatcher
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.on_sync::<lsp_ext::CollectGarbage>(|s, ()| Ok(s.collect_garbage()))?
.on_sync::<lsp_ext::JoinLines>(|s, p| handlers::handle_join_lines(s.snapshot(), p))?
.on_sync::<lsp_ext::OnEnter>(|s, p| handlers::handle_on_enter(s.snapshot(), p))?
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.on_sync::<lsp_types::request::SelectionRangeRequest>(|s, p| {
handlers::handle_selection_range(s.snapshot(), p)
})?
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.on_sync::<lsp_ext::MatchingBrace>(|s, p| handlers::handle_matching_brace(s.snapshot(), p))?
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.on::<lsp_ext::AnalyzerStatus>(handlers::handle_analyzer_status)?
.on::<lsp_ext::SyntaxTree>(handlers::handle_syntax_tree)?
.on::<lsp_ext::ExpandMacro>(handlers::handle_expand_macro)?
.on::<lsp_ext::ParentModule>(handlers::handle_parent_module)?
.on::<lsp_ext::Runnables>(handlers::handle_runnables)?
.on::<lsp_ext::InlayHints>(handlers::handle_inlay_hints)?
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.on::<lsp_ext::CodeActionRequest>(handlers::handle_code_action)?
.on::<lsp_ext::ResolveCodeActionRequest>(handlers::handle_resolve_code_action)?
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.on::<lsp_ext::HoverRequest>(handlers::handle_hover)?
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.on::<lsp_types::request::OnTypeFormatting>(handlers::handle_on_type_formatting)?
.on::<lsp_types::request::DocumentSymbolRequest>(handlers::handle_document_symbol)?
.on::<lsp_types::request::WorkspaceSymbol>(handlers::handle_workspace_symbol)?
.on::<lsp_types::request::GotoDefinition>(handlers::handle_goto_definition)?
.on::<lsp_types::request::GotoImplementation>(handlers::handle_goto_implementation)?
.on::<lsp_types::request::GotoTypeDefinition>(handlers::handle_goto_type_definition)?
.on::<lsp_types::request::Completion>(handlers::handle_completion)?
.on::<lsp_types::request::CodeLensRequest>(handlers::handle_code_lens)?
.on::<lsp_types::request::CodeLensResolve>(handlers::handle_code_lens_resolve)?
.on::<lsp_types::request::FoldingRangeRequest>(handlers::handle_folding_range)?
.on::<lsp_types::request::SignatureHelpRequest>(handlers::handle_signature_help)?
.on::<lsp_types::request::PrepareRenameRequest>(handlers::handle_prepare_rename)?
.on::<lsp_types::request::Rename>(handlers::handle_rename)?
.on::<lsp_types::request::References>(handlers::handle_references)?
.on::<lsp_types::request::Formatting>(handlers::handle_formatting)?
.on::<lsp_types::request::DocumentHighlightRequest>(handlers::handle_document_highlight)?
.on::<lsp_types::request::CallHierarchyPrepare>(handlers::handle_call_hierarchy_prepare)?
.on::<lsp_types::request::CallHierarchyIncomingCalls>(
handlers::handle_call_hierarchy_incoming,
)?
.on::<lsp_types::request::CallHierarchyOutgoingCalls>(
handlers::handle_call_hierarchy_outgoing,
)?
.on::<lsp_types::request::SemanticTokensRequest>(handlers::handle_semantic_tokens)?
.on::<lsp_types::request::SemanticTokensRangeRequest>(
handlers::handle_semantic_tokens_range,
)?
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.on::<lsp_ext::Ssr>(handlers::handle_ssr)?
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.finish();
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Ok(())
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}
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fn on_notification(
msg_sender: &Sender<Message>,
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global_state: &mut GlobalState,
not: Notification,
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) -> Result<()> {
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let not = match notification_cast::<lsp_types::notification::Cancel>(not) {
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Ok(params) => {
let id: RequestId = match params.id {
NumberOrString::Number(id) => id.into(),
NumberOrString::String(id) => id.into(),
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};
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if let Some(response) = global_state.req_queue.incoming.cancel(id) {
msg_sender.send(response.into()).unwrap()
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}
return Ok(());
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}
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Err(not) => not,
};
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let not = match notification_cast::<lsp_types::notification::DidOpenTextDocument>(not) {
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Ok(params) => {
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if let Ok(path) = from_proto::vfs_path(&params.text_document.uri) {
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if !global_state.mem_docs.insert(path.clone()) {
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log::error!("duplicate DidOpenTextDocument: {}", path)
}
global_state
.vfs
.write()
.0
.set_file_contents(path, Some(params.text_document.text.into_bytes()));
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}
return Ok(());
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}
Err(not) => not,
};
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let not = match notification_cast::<lsp_types::notification::DidChangeTextDocument>(not) {
Ok(params) => {
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if let Ok(path) = from_proto::vfs_path(&params.text_document.uri) {
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assert!(global_state.mem_docs.contains(&path));
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let vfs = &mut global_state.vfs.write().0;
let file_id = vfs.file_id(&path).unwrap();
let mut text = String::from_utf8(vfs.file_contents(file_id).to_vec()).unwrap();
apply_document_changes(&mut text, params.content_changes);
vfs.set_file_contents(path, Some(text.into_bytes()))
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}
return Ok(());
}
Err(not) => not,
};
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let not = match notification_cast::<lsp_types::notification::DidCloseTextDocument>(not) {
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Ok(params) => {
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if let Ok(path) = from_proto::vfs_path(&params.text_document.uri) {
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if !global_state.mem_docs.remove(&path) {
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log::error!("orphan DidCloseTextDocument: {}", path)
}
if let Some(path) = path.as_path() {
global_state.loader.invalidate(path.to_path_buf());
}
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}
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let params = lsp_types::PublishDiagnosticsParams {
uri: params.text_document.uri,
diagnostics: Vec::new(),
version: None,
};
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let not = notification_new::<lsp_types::notification::PublishDiagnostics>(params);
msg_sender.send(not.into()).unwrap();
return Ok(());
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}
Err(not) => not,
};
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let not = match notification_cast::<lsp_types::notification::DidSaveTextDocument>(not) {
Ok(_params) => {
if let Some(flycheck) = &global_state.flycheck {
flycheck.update();
}
return Ok(());
}
Err(not) => not,
};
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let not = match notification_cast::<lsp_types::notification::DidChangeConfiguration>(not) {
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Ok(_) => {
// As stated in https://github.com/microsoft/language-server-protocol/issues/676,
// this notification's parameters should be ignored and the actual config queried separately.
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let request = global_state.req_queue.outgoing.register(
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lsp_types::request::WorkspaceConfiguration::METHOD.to_string(),
lsp_types::ConfigurationParams {
items: vec![lsp_types::ConfigurationItem {
scope_uri: None,
section: Some("rust-analyzer".to_string()),
}],
},
|global_state, resp| {
log::debug!("config update response: '{:?}", resp);
let Response { error, result, .. } = resp;
match (error, result) {
(Some(err), _) => {
log::error!("failed to fetch the server settings: {:?}", err)
}
(None, Some(configs)) => {
if let Some(new_config) = configs.get(0) {
let mut config = global_state.config.clone();
config.update(&new_config);
global_state.update_configuration(config);
}
}
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(None, None) => {
log::error!("received empty server settings response from the client")
}
}
},
);
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msg_sender.send(request.into())?;
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return Ok(());
}
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Err(not) => not,
};
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let not = match notification_cast::<lsp_types::notification::DidChangeWatchedFiles>(not) {
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Ok(params) => {
for change in params.changes {
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if let Ok(path) = from_proto::abs_path(&change.uri) {
global_state.loader.invalidate(path)
}
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}
return Ok(());
}
Err(not) => not,
};
if not.method.starts_with("$/") {
return Ok(());
}
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log::error!("unhandled notification: {:?}", not);
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Ok(())
}
fn apply_document_changes(
old_text: &mut String,
content_changes: Vec<TextDocumentContentChangeEvent>,
) {
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let mut line_index = LineIndex::new(old_text);
// The changes we got must be applied sequentially, but can cross lines so we
// have to keep our line index updated.
// Some clients (e.g. Code) sort the ranges in reverse. As an optimization, we
// remember the last valid line in the index and only rebuild it if needed.
// The VFS will normalize the end of lines to `\n`.
enum IndexValid {
All,
UpToLineExclusive(u64),
}
impl IndexValid {
fn covers(&self, line: u64) -> bool {
match *self {
IndexValid::UpToLineExclusive(to) => to > line,
_ => true,
}
}
}
let mut index_valid = IndexValid::All;
for change in content_changes {
match change.range {
Some(range) => {
if !index_valid.covers(range.end.line) {
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line_index = LineIndex::new(&old_text);
}
index_valid = IndexValid::UpToLineExclusive(range.start.line);
let range = from_proto::text_range(&line_index, range);
old_text.replace_range(Range::<usize>::from(range), &change.text);
}
None => {
*old_text = change.text;
index_valid = IndexValid::UpToLineExclusive(0);
}
}
}
}
fn on_check_task(
task: CheckTask,
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global_state: &mut GlobalState,
task_sender: &Sender<Task>,
) -> Result<()> {
match task {
CheckTask::ClearDiagnostics => {
task_sender.send(Task::Diagnostic(DiagnosticTask::ClearCheck))?;
}
CheckTask::AddDiagnostic { workspace_root, diagnostic } => {
let diagnostics = crate::diagnostics::to_proto::map_rust_diagnostic_to_lsp(
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&global_state.config.diagnostics,
&diagnostic,
&workspace_root,
);
for diag in diagnostics {
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let path = from_proto::vfs_path(&diag.location.uri)?;
let file_id = match global_state.vfs.read().0.file_id(&path) {
Some(file) => FileId(file.0),
None => {
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log::error!("File with cargo diagnostic not found in VFS: {}", path);
return Ok(());
}
};
task_sender.send(Task::Diagnostic(DiagnosticTask::AddCheck(
file_id,
diag.diagnostic,
diag.fixes.into_iter().map(|it| it.into()).collect(),
)))?;
}
}
CheckTask::Status(status) => {
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if global_state.config.client_caps.work_done_progress {
let progress = match status {
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ra_flycheck::Status::Being => {
lsp_types::WorkDoneProgress::Begin(lsp_types::WorkDoneProgressBegin {
title: "Running `cargo check`".to_string(),
cancellable: Some(false),
message: None,
percentage: None,
})
}
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ra_flycheck::Status::Progress(target) => {
lsp_types::WorkDoneProgress::Report(lsp_types::WorkDoneProgressReport {
cancellable: Some(false),
message: Some(target),
percentage: None,
})
}
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ra_flycheck::Status::End => {
lsp_types::WorkDoneProgress::End(lsp_types::WorkDoneProgressEnd {
message: None,
})
}
};
let params = lsp_types::ProgressParams {
token: lsp_types::ProgressToken::String(
"rustAnalyzer/cargoWatcher".to_string(),
),
value: lsp_types::ProgressParamsValue::WorkDone(progress),
};
let not = notification_new::<lsp_types::notification::Progress>(params);
task_sender.send(Task::Notify(not)).unwrap();
}
}
};
Ok(())
}
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fn on_diagnostic_task(task: DiagnosticTask, msg_sender: &Sender<Message>, state: &mut GlobalState) {
let subscriptions = state.diagnostics.handle_task(task);
for file_id in subscriptions {
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let url = file_id_to_url(&state.vfs.read().0, file_id);
let diagnostics = state.diagnostics.diagnostics_for(file_id).cloned().collect();
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let params = lsp_types::PublishDiagnosticsParams { uri: url, diagnostics, version: None };
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let not = notification_new::<lsp_types::notification::PublishDiagnostics>(params);
msg_sender.send(not.into()).unwrap();
}
}
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fn report_progress(
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global_state: &mut GlobalState,
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sender: &Sender<Message>,
done: usize,
total: usize,
message: &str,
) {
let token = lsp_types::ProgressToken::String(format!("rustAnalyzer/{}", message));
let message = Some(format!("{}/{} {}", done, total, message));
let percentage = Some(100.0 * done as f64 / total.max(1) as f64);
let work_done_progress = if done == 0 {
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let work_done_progress_create = global_state.req_queue.outgoing.register(
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lsp_types::request::WorkDoneProgressCreate::METHOD.to_string(),
lsp_types::WorkDoneProgressCreateParams { token: token.clone() },
DO_NOTHING,
);
sender.send(work_done_progress_create.into()).unwrap();
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lsp_types::WorkDoneProgress::Begin(lsp_types::WorkDoneProgressBegin {
title: "rust-analyzer".into(),
cancellable: None,
message,
percentage,
})
} else if done < total {
lsp_types::WorkDoneProgress::Report(lsp_types::WorkDoneProgressReport {
cancellable: None,
message,
percentage,
})
} else {
assert!(done == total);
lsp_types::WorkDoneProgress::End(lsp_types::WorkDoneProgressEnd { message })
};
let notification =
notification_new::<lsp_types::notification::Progress>(lsp_types::ProgressParams {
token,
value: lsp_types::ProgressParamsValue::WorkDone(work_done_progress),
});
sender.send(notification.into()).unwrap();
}
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struct PoolDispatcher<'a> {
req: Option<Request>,
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pool: &'a ThreadPool,
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global_state: &'a mut GlobalState,
msg_sender: &'a Sender<Message>,
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task_sender: &'a Sender<Task>,
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request_received: Instant,
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}
impl<'a> PoolDispatcher<'a> {
/// Dispatches the request onto the current thread
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fn on_sync<R>(
&mut self,
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f: fn(&mut GlobalState, R::Params) -> Result<R::Result>,
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) -> Result<&mut Self>
where
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R: lsp_types::request::Request + 'static,
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R::Params: DeserializeOwned + panic::UnwindSafe + 'static,
R::Result: Serialize + 'static,
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{
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let (id, params) = match self.parse::<R>() {
Some(it) => it,
None => {
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return Ok(self);
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}
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};
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let world = panic::AssertUnwindSafe(&mut *self.global_state);
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let task = panic::catch_unwind(move || {
let result = f(world.0, params);
result_to_task::<R>(id, result)
})
.map_err(|_| format!("sync task {:?} panicked", R::METHOD))?;
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on_task(task, self.msg_sender, self.global_state);
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Ok(self)
}
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/// Dispatches the request onto thread pool
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fn on<R>(
&mut self,
f: fn(GlobalStateSnapshot, R::Params) -> Result<R::Result>,
) -> Result<&mut Self>
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where
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R: lsp_types::request::Request + 'static,
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R::Params: DeserializeOwned + Send + 'static,
R::Result: Serialize + 'static,
{
let (id, params) = match self.parse::<R>() {
Some(it) => it,
None => {
return Ok(self);
}
};
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self.pool.execute({
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let world = self.global_state.snapshot();
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let sender = self.task_sender.clone();
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move || {
let result = f(world, params);
let task = result_to_task::<R>(id, result);
sender.send(task).unwrap();
}
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});
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Ok(self)
}
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fn parse<R>(&mut self) -> Option<(RequestId, R::Params)>
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where
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R: lsp_types::request::Request + 'static,
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R::Params: DeserializeOwned + 'static,
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{
let req = self.req.take()?;
let (id, params) = match req.extract::<R::Params>(R::METHOD) {
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Ok(it) => it,
Err(req) => {
self.req = Some(req);
return None;
}
};
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self.global_state
.req_queue
.incoming
.register(id.clone(), (R::METHOD, self.request_received));
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Some((id, params))
}
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fn finish(&mut self) {
match self.req.take() {
None => (),
Some(req) => {
log::error!("unknown request: {:?}", req);
let resp = Response::new_err(
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req.id,
ErrorCode::MethodNotFound as i32,
"unknown request".to_string(),
);
self.msg_sender.send(resp.into()).unwrap();
}
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}
}
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}
fn result_to_task<R>(id: RequestId, result: Result<R::Result>) -> Task
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where
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R: lsp_types::request::Request + 'static,
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R::Params: DeserializeOwned + 'static,
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R::Result: Serialize + 'static,
{
let response = match result {
Ok(resp) => Response::new_ok(id, &resp),
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Err(e) => match e.downcast::<LspError>() {
Ok(lsp_error) => {
if lsp_error.code == LspError::UNKNOWN_FILE {
// Work-around for https://github.com/rust-analyzer/rust-analyzer/issues/1521
Response::new_ok(id, ())
} else {
Response::new_err(id, lsp_error.code, lsp_error.message)
}
}
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Err(e) => {
if is_canceled(&e) {
Response::new_err(
id,
ErrorCode::ContentModified as i32,
"content modified".to_string(),
)
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} else {
Response::new_err(id, ErrorCode::InternalError as i32, e.to_string())
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}
}
},
};
Task::Respond(response)
}
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fn update_file_notifications_on_threadpool(
pool: &ThreadPool,
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world: GlobalStateSnapshot,
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task_sender: Sender<Task>,
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subscriptions: Vec<FileId>,
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) {
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log::trace!("updating notifications for {:?}", subscriptions);
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if world.config.publish_diagnostics {
pool.execute(move || {
for file_id in subscriptions {
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match handlers::publish_diagnostics(&world, file_id) {
Err(e) => {
if !is_canceled(&e) {
log::error!("failed to compute diagnostics: {:?}", e);
}
}
Ok(task) => {
task_sender.send(Task::Diagnostic(task)).unwrap();
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}
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}
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}
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})
}
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}
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pub fn show_message(
typ: lsp_types::MessageType,
message: impl Into<String>,
sender: &Sender<Message>,
) {
let message = message.into();
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let params = lsp_types::ShowMessageParams { typ, message };
let not = notification_new::<lsp_types::notification::ShowMessage>(params);
sender.send(not.into()).unwrap();
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}
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fn is_canceled(e: &Box<dyn std::error::Error + Send + Sync>) -> bool {
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e.downcast_ref::<Canceled>().is_some()
}
fn notification_is<N: lsp_types::notification::Notification>(notification: &Notification) -> bool {
notification.method == N::METHOD
}
fn notification_cast<N>(notification: Notification) -> std::result::Result<N::Params, Notification>
where
N: lsp_types::notification::Notification,
N::Params: DeserializeOwned,
{
notification.extract(N::METHOD)
}
fn notification_new<N>(params: N::Params) -> Notification
where
N: lsp_types::notification::Notification,
N::Params: Serialize,
{
Notification::new(N::METHOD.to_string(), params)
}
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#[cfg(test)]
mod tests {
use lsp_types::{Position, Range, TextDocumentContentChangeEvent};
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use super::*;
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#[test]
fn test_apply_document_changes() {
macro_rules! c {
[$($sl:expr, $sc:expr; $el:expr, $ec:expr => $text:expr),+] => {
vec![$(TextDocumentContentChangeEvent {
range: Some(Range {
start: Position { line: $sl, character: $sc },
end: Position { line: $el, character: $ec },
}),
range_length: None,
text: String::from($text),
}),+]
};
}
let mut text = String::new();
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apply_document_changes(&mut text, vec![]);
assert_eq!(text, "");
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apply_document_changes(
&mut text,
vec![TextDocumentContentChangeEvent {
range: None,
range_length: None,
text: String::from("the"),
}],
);
assert_eq!(text, "the");
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apply_document_changes(&mut text, c![0, 3; 0, 3 => " quick"]);
assert_eq!(text, "the quick");
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apply_document_changes(&mut text, c![0, 0; 0, 4 => "", 0, 5; 0, 5 => " foxes"]);
assert_eq!(text, "quick foxes");
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apply_document_changes(&mut text, c![0, 11; 0, 11 => "\ndream"]);
assert_eq!(text, "quick foxes\ndream");
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apply_document_changes(&mut text, c![1, 0; 1, 0 => "have "]);
assert_eq!(text, "quick foxes\nhave dream");
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apply_document_changes(
&mut text,
c![0, 0; 0, 0 => "the ", 1, 4; 1, 4 => " quiet", 1, 16; 1, 16 => "s\n"],
);
assert_eq!(text, "the quick foxes\nhave quiet dreams\n");
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apply_document_changes(&mut text, c![0, 15; 0, 15 => "\n", 2, 17; 2, 17 => "\n"]);
assert_eq!(text, "the quick foxes\n\nhave quiet dreams\n\n");
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apply_document_changes(
&mut text,
c![1, 0; 1, 0 => "DREAM", 2, 0; 2, 0 => "they ", 3, 0; 3, 0 => "DON'T THEY?"],
);
assert_eq!(text, "the quick foxes\nDREAM\nthey have quiet dreams\nDON'T THEY?\n");
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apply_document_changes(&mut text, c![0, 10; 1, 5 => "", 2, 0; 2, 12 => ""]);
assert_eq!(text, "the quick \nthey have quiet dreams\n");
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text = String::from("❤️");
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apply_document_changes(&mut text, c![0, 0; 0, 0 => "a"]);
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assert_eq!(text, "a❤");
text = String::from("a\nb");
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apply_document_changes(&mut text, c![0, 1; 1, 0 => "\nțc", 0, 1; 1, 1 => "d"]);
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assert_eq!(text, "adcb");
text = String::from("a\nb");
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apply_document_changes(&mut text, c![0, 1; 1, 0 => "ț\nc", 0, 2; 0, 2 => "c"]);
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assert_eq!(text, "ațc\ncb");
}
}