mod client; mod transport; pub use client::Client; pub use futures_executor::block_on; pub use jsonrpc::Call; pub use jsonrpc_core as jsonrpc; pub use lsp::{Position, Url}; pub use lsp_types as lsp; use futures_util::stream::select_all::SelectAll; use helix_core::syntax::LanguageConfiguration; use std::{ collections::{hash_map::Entry, HashMap}, sync::{ atomic::{AtomicUsize, Ordering}, Arc, }, }; use serde::{Deserialize, Serialize}; use thiserror::Error; use tokio_stream::wrappers::UnboundedReceiverStream; pub type Result = core::result::Result; type LanguageId = String; #[derive(Error, Debug)] pub enum Error { #[error("protocol error: {0}")] Rpc(#[from] jsonrpc::Error), #[error("failed to parse: {0}")] Parse(#[from] serde_json::Error), #[error("IO Error: {0}")] IO(#[from] std::io::Error), #[error("request timed out")] Timeout, #[error("server closed the stream")] StreamClosed, #[error("LSP not defined")] LspNotDefined, #[error(transparent)] Other(#[from] anyhow::Error), } #[derive(Clone, Copy, Debug, Serialize, Deserialize)] pub enum OffsetEncoding { /// UTF-8 code units aka bytes #[serde(rename = "utf-8")] Utf8, /// UTF-16 code units #[serde(rename = "utf-16")] Utf16, } pub mod util { use super::*; use helix_core::{Range, Rope, Transaction}; /// Converts [`lsp::Position`] to a position in the document. /// /// Returns `None` if position exceeds document length or an operation overflows. pub fn lsp_pos_to_pos( doc: &Rope, pos: lsp::Position, offset_encoding: OffsetEncoding, ) -> Option { let max_line = doc.lines().count().saturating_sub(1); let pos_line = pos.line as usize; let pos_line = if pos_line > max_line { return None; } else { pos_line }; match offset_encoding { OffsetEncoding::Utf8 => { let max_char = doc .line_to_char(max_line) .checked_add(doc.line(max_line).len_chars())?; let line = doc.line_to_char(pos_line); let pos = line.checked_add(pos.character as usize)?; if pos <= max_char { Some(pos) } else { None } } OffsetEncoding::Utf16 => { let max_char = doc .line_to_char(max_line) .checked_add(doc.line(max_line).len_chars())?; let max_cu = doc.char_to_utf16_cu(max_char); let line = doc.line_to_char(pos_line); let line_start = doc.char_to_utf16_cu(line); let pos = line_start.checked_add(pos.character as usize)?; if pos <= max_cu { Some(doc.utf16_cu_to_char(pos)) } else { None } } } } /// Converts position in the document to [`lsp::Position`]. /// /// Panics when `pos` is out of `doc` bounds or operation overflows. pub fn pos_to_lsp_pos( doc: &Rope, pos: usize, offset_encoding: OffsetEncoding, ) -> lsp::Position { match offset_encoding { OffsetEncoding::Utf8 => { let line = doc.char_to_line(pos); let line_start = doc.line_to_char(line); let col = pos - line_start; lsp::Position::new(line as u32, col as u32) } OffsetEncoding::Utf16 => { let line = doc.char_to_line(pos); let line_start = doc.char_to_utf16_cu(doc.line_to_char(line)); let col = doc.char_to_utf16_cu(pos) - line_start; lsp::Position::new(line as u32, col as u32) } } } /// Converts a range in the document to [`lsp::Range`]. pub fn range_to_lsp_range( doc: &Rope, range: Range, offset_encoding: OffsetEncoding, ) -> lsp::Range { let start = pos_to_lsp_pos(doc, range.from(), offset_encoding); let end = pos_to_lsp_pos(doc, range.to(), offset_encoding); lsp::Range::new(start, end) } pub fn lsp_range_to_range( doc: &Rope, range: lsp::Range, offset_encoding: OffsetEncoding, ) -> Option { let start = lsp_pos_to_pos(doc, range.start, offset_encoding)?; let end = lsp_pos_to_pos(doc, range.end, offset_encoding)?; Some(Range::new(start, end)) } pub fn generate_transaction_from_edits( doc: &Rope, edits: Vec, offset_encoding: OffsetEncoding, ) -> Transaction { Transaction::change( doc, edits.into_iter().map(|edit| { // simplify "" into None for cleaner changesets let replacement = if !edit.new_text.is_empty() { Some(edit.new_text.into()) } else { None }; let start = if let Some(start) = lsp_pos_to_pos(doc, edit.range.start, offset_encoding) { start } else { return (0, 0, None); }; let end = if let Some(end) = lsp_pos_to_pos(doc, edit.range.end, offset_encoding) { end } else { return (0, 0, None); }; (start, end, replacement) }), ) } } #[derive(Debug, PartialEq, Clone)] pub enum MethodCall { WorkDoneProgressCreate(lsp::WorkDoneProgressCreateParams), } impl MethodCall { pub fn parse(method: &str, params: jsonrpc::Params) -> Option { use lsp::request::Request; let request = match method { lsp::request::WorkDoneProgressCreate::METHOD => { let params: lsp::WorkDoneProgressCreateParams = params .parse() .expect("Failed to parse WorkDoneCreate params"); Self::WorkDoneProgressCreate(params) } _ => { log::warn!("unhandled lsp request: {}", method); return None; } }; Some(request) } } #[derive(Debug, PartialEq, Clone)] pub enum Notification { PublishDiagnostics(lsp::PublishDiagnosticsParams), ShowMessage(lsp::ShowMessageParams), LogMessage(lsp::LogMessageParams), ProgressMessage(lsp::ProgressParams), } impl Notification { pub fn parse(method: &str, params: jsonrpc::Params) -> Option { use lsp::notification::Notification as _; let notification = match method { lsp::notification::PublishDiagnostics::METHOD => { let params: lsp::PublishDiagnosticsParams = params .parse() .expect("Failed to parse PublishDiagnostics params"); // TODO: need to loop over diagnostics and distinguish them by URI Self::PublishDiagnostics(params) } lsp::notification::ShowMessage::METHOD => { let params: lsp::ShowMessageParams = params.parse().ok()?; Self::ShowMessage(params) } lsp::notification::LogMessage::METHOD => { let params: lsp::LogMessageParams = params.parse().ok()?; Self::LogMessage(params) } lsp::notification::Progress::METHOD => { let params: lsp::ProgressParams = params.parse().ok()?; Self::ProgressMessage(params) } _ => { log::error!("unhandled LSP notification: {}", method); return None; } }; Some(notification) } } #[derive(Debug)] pub struct Registry { inner: HashMap)>, counter: AtomicUsize, pub incoming: SelectAll>, } impl Default for Registry { fn default() -> Self { Self::new() } } impl Registry { pub fn new() -> Self { Self { inner: HashMap::new(), counter: AtomicUsize::new(0), incoming: SelectAll::new(), } } pub fn get_by_id(&mut self, id: usize) -> Option<&Client> { self.inner .values() .find(|(client_id, _)| client_id == &id) .map(|(_, client)| client.as_ref()) } pub fn get(&mut self, language_config: &LanguageConfiguration) -> Result> { if let Some(config) = &language_config.language_server { // avoid borrow issues let inner = &mut self.inner; let s_incoming = &mut self.incoming; match inner.entry(language_config.scope.clone()) { Entry::Occupied(entry) => Ok(entry.get().1.clone()), Entry::Vacant(entry) => { // initialize a new client let id = self.counter.fetch_add(1, Ordering::Relaxed); let (mut client, incoming) = Client::start(&config.command, &config.args, id)?; // TODO: run this async without blocking futures_executor::block_on(client.initialize())?; s_incoming.push(UnboundedReceiverStream::new(incoming)); let client = Arc::new(client); entry.insert((id, client.clone())); Ok(client) } } } else { Err(Error::LspNotDefined) } } pub fn iter_clients(&self) -> impl Iterator> { self.inner.values().map(|(_, client)| client) } } #[derive(Debug)] pub enum ProgressStatus { Created, Started(lsp::WorkDoneProgress), } impl ProgressStatus { pub fn progress(&self) -> Option<&lsp::WorkDoneProgress> { match &self { ProgressStatus::Created => None, ProgressStatus::Started(progress) => Some(progress), } } } #[derive(Default, Debug)] /// Acts as a container for progress reported by language servers. Each server /// has a unique id assigned at creation through [`Registry`]. This id is then used /// to store the progress in this map. pub struct LspProgressMap(HashMap>); impl LspProgressMap { pub fn new() -> Self { Self::default() } /// Returns a map of all tokens coresponding to the lanaguage server with `id`. pub fn progress_map(&self, id: usize) -> Option<&HashMap> { self.0.get(&id) } pub fn is_progressing(&self, id: usize) -> bool { self.0.get(&id).map(|it| !it.is_empty()).unwrap_or_default() } /// Returns last progress status for a given server with `id` and `token`. pub fn progress(&self, id: usize, token: &lsp::ProgressToken) -> Option<&ProgressStatus> { self.0.get(&id).and_then(|values| values.get(token)) } /// Checks if progress `token` for server with `id` is created. pub fn is_created(&mut self, id: usize, token: &lsp::ProgressToken) -> bool { self.0 .get(&id) .map(|values| values.get(token).is_some()) .unwrap_or_default() } pub fn create(&mut self, id: usize, token: lsp::ProgressToken) { self.0 .entry(id) .or_default() .insert(token, ProgressStatus::Created); } /// Ends the progress by removing the `token` from server with `id`, if removed returns the value. pub fn end_progress( &mut self, id: usize, token: &lsp::ProgressToken, ) -> Option { self.0.get_mut(&id).and_then(|vals| vals.remove(token)) } /// Updates the progess of `token` for server with `id` to `status`, returns the value replaced or `None`. pub fn update( &mut self, id: usize, token: lsp::ProgressToken, status: lsp::WorkDoneProgress, ) -> Option { self.0 .entry(id) .or_default() .insert(token, ProgressStatus::Started(status)) } } // REGISTRY = HashMap>> // spawn one server per language type, need to spawn one per workspace if server doesn't support // workspaces // // could also be a client per root dir // // storing a copy of Option>> on Document would make the LSP client easily // accessible during edit/save callbacks // // the event loop needs to process all incoming streams, maybe we can just have that be a separate // task that's continually running and store the state on the client, then use read lock to // retrieve data during render // -> PROBLEM: how do you trigger an update on the editor side when data updates? // // -> The data updates should pull all events until we run out so we don't frequently re-render // // // v2: // // there should be a registry of lsp clients, one per language type (or workspace). // the clients should lazy init on first access // the client.initialize() should be called async and we buffer any requests until that completes // there needs to be a way to process incoming lsp messages from all clients. // -> notifications need to be dispatched to wherever // -> requests need to generate a reply and travel back to the same lsp! #[cfg(test)] mod tests { use super::{lsp, util::*, OffsetEncoding}; use helix_core::Rope; #[test] fn converts_lsp_pos_to_pos() { macro_rules! test_case { ($doc:expr, ($x:expr, $y:expr) => $want:expr) => { let doc = Rope::from($doc); let pos = lsp::Position::new($x, $y); assert_eq!($want, lsp_pos_to_pos(&doc, pos, OffsetEncoding::Utf16)); assert_eq!($want, lsp_pos_to_pos(&doc, pos, OffsetEncoding::Utf8)) }; } test_case!("", (0, 0) => Some(0)); test_case!("", (0, 1) => None); test_case!("", (1, 0) => None); test_case!("\n\n", (0, 0) => Some(0)); test_case!("\n\n", (1, 0) => Some(1)); test_case!("\n\n", (1, 1) => Some(2)); test_case!("\n\n", (2, 0) => Some(2)); test_case!("\n\n", (3, 0) => None); test_case!("test\n\n\n\ncase", (4, 3) => Some(11)); test_case!("test\n\n\n\ncase", (4, 4) => Some(12)); test_case!("test\n\n\n\ncase", (4, 5) => None); test_case!("", (u32::MAX, u32::MAX) => None); } }