use clap::ArgMatches as Args; use helix_view::{document::Mode, Document, Editor, Theme, View}; use crate::compositor::Compositor; use crate::ui; use log::{error, info}; use std::{ io::{self, stdout, Stdout, Write}, path::PathBuf, sync::Arc, time::Duration, }; use smol::prelude::*; use anyhow::Error; use crossterm::{ event::{Event, EventStream}, execute, terminal, }; use tui::{backend::CrosstermBackend, layout::Rect}; type Terminal = crate::terminal::Terminal>; pub struct Application { compositor: Compositor, editor: Editor, terminal: Terminal, executor: &'static smol::Executor<'static>, } impl Application { pub fn new(mut args: Args, executor: &'static smol::Executor<'static>) -> Result { let backend = CrosstermBackend::new(stdout()); let mut terminal = Terminal::new(backend)?; let size = terminal.size()?; let mut editor = Editor::new(size); let files = args.values_of_t::("files").unwrap(); for file in files { editor.open(file, executor)?; } let mut compositor = Compositor::new(); compositor.push(Box::new(ui::EditorView::new())); let mut app = Self { editor, terminal, compositor, executor, }; Ok(app) } fn render(&mut self) { let executor = &self.executor; let editor = &mut self.editor; let compositor = &self.compositor; let mut cx = crate::compositor::Context { editor, executor }; let area = self.terminal.size().unwrap(); compositor.render(area, self.terminal.current_buffer_mut(), &mut cx); let pos = compositor.cursor_position(area, &editor); self.terminal.draw(); self.terminal.set_cursor(pos.col as u16, pos.row as u16); } pub async fn event_loop(&mut self) { let mut reader = EventStream::new(); self.render(); loop { if self.editor.should_close { break; } use futures_util::{select, FutureExt}; select! { event = reader.next().fuse() => { self.handle_terminal_events(event) } call = self.editor.language_servers.incoming.next().fuse() => { self.handle_language_server_message(call).await } } } } pub fn handle_terminal_events(&mut self, event: Option>) { let mut cx = crate::compositor::Context { editor: &mut self.editor, executor: &self.executor, }; // Handle key events let should_redraw = match event { Some(Ok(Event::Resize(width, height))) => { self.terminal.resize(Rect::new(0, 0, width, height)); self.compositor .handle_event(Event::Resize(width, height), &mut cx) } Some(Ok(event)) => self.compositor.handle_event(event, &mut cx), Some(Err(x)) => panic!("{}", x), None => panic!(), }; if should_redraw { self.render(); // calling render twice here fixes it for some reason } } pub async fn handle_language_server_message(&mut self, call: Option) { use helix_lsp::{Call, Notification}; match call { Some(Call::Notification(helix_lsp::jsonrpc::Notification { method, params, .. })) => { let notification = Notification::parse(&method, params); match notification { Notification::PublishDiagnostics(params) => { let path = Some(params.uri.to_file_path().unwrap()); let view = self .editor .tree .views() .map(|(view, _key)| view) .find(|view| view.doc.path == path); if let Some(view) = view { let doc = view.doc.text().slice(..); let diagnostics = params .diagnostics .into_iter() .map(|diagnostic| { use helix_lsp::util::lsp_pos_to_pos; let start = lsp_pos_to_pos(&doc, diagnostic.range.start); let end = lsp_pos_to_pos(&doc, diagnostic.range.end); helix_core::Diagnostic { range: (start, end), line: diagnostic.range.start.line as usize, message: diagnostic.message, // severity // code // source } }) .collect(); view.doc.diagnostics = diagnostics; // TODO: we want to process all the events in queue, then render. publishDiagnostic tends to send a whole bunch of events self.render(); } } _ => unreachable!(), } } Some(Call::MethodCall(call)) => { error!("Method not found {}", call.method); // self.language_server.reply( // call.id, // // TODO: make a Into trait that can cast to Err(jsonrpc::Error) // Err(helix_lsp::jsonrpc::Error { // code: helix_lsp::jsonrpc::ErrorCode::MethodNotFound, // message: "Method not found".to_string(), // data: None, // }), // ); } None => (), e => unreachable!("{:?}", e), } } pub async fn run(&mut self) -> Result<(), Error> { terminal::enable_raw_mode()?; let mut stdout = stdout(); execute!(stdout, terminal::EnterAlternateScreen)?; // Exit the alternate screen and disable raw mode before panicking let hook = std::panic::take_hook(); std::panic::set_hook(Box::new(move |info| { execute!(std::io::stdout(), terminal::LeaveAlternateScreen); terminal::disable_raw_mode(); hook(info); })); self.event_loop().await; // reset cursor shape write!(stdout, "\x1B[2 q"); execute!(stdout, terminal::LeaveAlternateScreen)?; terminal::disable_raw_mode()?; Ok(()) } } // TODO: language configs: // tabSize, fileExtension etc, mapping to tree sitter parser // themes: // map tree sitter highlights to color values // // TODO: expand highlight thing so we're able to render only viewport range // TODO: async: maybe pre-cache scopes as empty so we render all graphemes initially as regular ////text until calc finishes // TODO: scope matching: biggest union match? [string] & [html, string], [string, html] & [ string, html] // can do this by sorting our theme matches based on array len (longest first) then stopping at the // first rule that matches (rule.all(|scope| scopes.contains(scope)))