use crate::{keymap, theme::Theme, Args}; use helix_core::{ state::coords_at_pos, state::Mode, syntax::{HighlightConfiguration, HighlightEvent, Highlighter}, State, }; use std::{ io::{self, stdout, Write}, path::PathBuf, time::Duration, }; use smol::prelude::*; use anyhow::Error; use crossterm::{ cursor, cursor::position, event::{self, read, Event, EventStream, KeyCode, KeyEvent}, execute, queue, style::{Color, Print, SetForegroundColor}, terminal::{self, disable_raw_mode, enable_raw_mode}, }; use tui::{backend::CrosstermBackend, buffer::Buffer as Surface, layout::Rect, style::Style}; type Terminal = tui::Terminal>; static EX: smol::Executor = smol::Executor::new(); pub struct Editor { terminal: Terminal, state: Option, first_line: u16, size: (u16, u16), surface: Surface, cache: Surface, theme: Theme, } impl Editor { pub fn new(mut args: Args) -> Result { let backend = CrosstermBackend::new(stdout()); let mut terminal = Terminal::new(backend)?; let size = terminal::size().unwrap(); let area = Rect::new(0, 0, size.0, size.1); let theme = Theme::default(); let mut editor = Editor { terminal, state: None, first_line: 0, size, surface: Surface::empty(area), cache: Surface::empty(area), theme, // TODO; move to state }; if let Some(file) = args.files.pop() { editor.open(file)?; } Ok(editor) } pub fn open(&mut self, path: PathBuf) -> Result<(), Error> { let mut state = State::load(path)?; state .syntax .as_mut() .unwrap() .configure(self.theme.scopes()); self.state = Some(state); Ok(()) } fn render(&mut self) { // TODO: ideally not mut but highlights require it because of cursor cache match &mut self.state { Some(state) => { let area = Rect::new(0, 0, self.size.0, self.size.1); let mut stdout = stdout(); self.surface.reset(); // reset is faster than allocating new empty surface // TODO: inefficient, should feed chunks.iter() to tree_sitter.parse_with(|offset, pos|) let source_code = state.doc().to_string(); // TODO: cache highlight results // TODO: only recalculate when state.doc is actually modified let highlights: Vec<_> = state .syntax .as_mut() .unwrap() .highlight_iter(source_code.as_bytes(), None, |_| None) .unwrap() .collect(); // TODO: we collect here to avoid double borrow, fix later let mut spans = Vec::new(); let offset = 2; let mut visual_x = 0; let mut line = 0; for event in highlights { match event.unwrap() { HighlightEvent::HighlightStart(span) => { spans.push(span); } HighlightEvent::HighlightEnd => { spans.pop(); } HighlightEvent::Source { start, end } => { // TODO: filter out spans out of viewport for now.. let start = state.doc().byte_to_char(start); let end = state.doc().byte_to_char(end); let text = state.doc().slice(start..end); use helix_core::graphemes::{grapheme_width, RopeGraphemes}; use tui::style::Color; let style = match spans.first() { Some(span) => self.theme.get(self.theme.scopes()[span.0].as_str()), None => Style::default().fg(Color::Rgb(164, 160, 232)), // lavender }; // TODO: we could render the text to a surface, then cache that, that // way if only the selection/cursor changes we can copy from cache // and paint the new cursor. // iterate over range char by char for grapheme in RopeGraphemes::new(&text) { // TODO: track current char_index if grapheme == "\n" { visual_x = 0; line += 1; } else { // Cow will prevent allocations if span contained in a single slice // which should really be the majority case let grapheme = std::borrow::Cow::from(grapheme); let width = grapheme_width(&grapheme) as u16; self.surface.set_string( offset + visual_x, line, grapheme, style, ); visual_x += width; } // if grapheme == "\t" } } } } // // let lines = state // .doc // .lines_at(self.first_line as usize) // .take(self.size.1 as usize) // .map(|x| x.as_str().unwrap()); // // iterate over selections and render them // let select = Style::default().bg(tui::style::Color::LightBlue); // let text = state.doc.slice(..); // for range in state.selection.ranges() { // // get terminal coords for x,y for each range pos // // TODO: this won't work with multiline // let (y1, x1) = coords_at_pos(&text, range.from()); // let (y2, x2) = coords_at_pos(&text, range.to()); // let area = Rect::new( // (x1 + 2) as u16, // y1 as u16, // (x2 - x1 + 1) as u16, // (y2 - y1 + 1) as u16, // ); // self.surface.set_style(area, select); // // TODO: don't highlight next char in append mode // } // let mode = match state.mode { // Mode::Insert => "INS", // Mode::Normal => "NOR", // }; // execute!( // stdout, // SetForegroundColor(Color::Reset), // cursor::MoveTo(0, self.size.1), // Print(mode) // ); use tui::backend::Backend; self.terminal .backend_mut() .draw(self.cache.diff(&self.surface).into_iter()); // swap the buffer std::mem::swap(&mut self.surface, &mut self.cache); // set cursor shape match state.mode() { Mode::Insert => write!(stdout, "\x1B[6 q"), Mode::Normal => write!(stdout, "\x1B[2 q"), }; // render the cursor let pos = state.selection().cursor(); let coords = coords_at_pos(&state.doc().slice(..), pos); execute!( stdout, cursor::MoveTo((coords.col + 2) as u16, coords.row as u16) ); } None => (), } } pub async fn event_loop(&mut self) { let mut reader = EventStream::new(); let keymap = keymap::default(); self.render(); loop { // Handle key events let mut event = reader.next().await; match event { // TODO: handle resize events Some(Ok(Event::Key(KeyEvent { code: KeyCode::Char('q'), .. }))) => { break; } Some(Ok(Event::Key(event))) => { if let Some(state) = &mut self.state { match state.mode() { Mode::Insert => { match event { KeyEvent { code: KeyCode::Esc, .. } => helix_core::commands::normal_mode(state, 1), KeyEvent { code: KeyCode::Backspace, .. } => helix_core::commands::delete_char_backward(state, 1), KeyEvent { code: KeyCode::Delete, .. } => helix_core::commands::delete_char_forward(state, 1), KeyEvent { code: KeyCode::Char(c), .. } => helix_core::commands::insert_char(state, c), KeyEvent { code: KeyCode::Enter, .. } => helix_core::commands::insert_char(state, '\n'), _ => (), // skip } self.render(); } Mode::Normal => { // TODO: handle modes and sequences (`gg`) if let Some(command) = keymap.get(&event) { // TODO: handle count other than 1 command(state, 1); self.render(); } } } } } Some(Ok(_)) => { // unhandled event } Some(Err(x)) => panic!(x), None => break, } } } pub async fn run(&mut self) -> Result<(), Error> { enable_raw_mode()?; let mut stdout = stdout(); execute!(stdout, terminal::EnterAlternateScreen)?; self.event_loop().await; // reset cursor shape write!(stdout, "\x1B[2 q"); execute!(stdout, terminal::LeaveAlternateScreen)?; 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))) // // let visual_x = 0; // let line = ?; // for span in spans { // start(scope) => scopes.push(scope) // span => // let text = rope.slice(span.start..span.end); // let style = calculate_style(scopes); // for each grapheme in text.graphemes() { // // if newline += lines, continue // // if state.selection.ranges().any(|range| range.contains(char_index)) { // if exactly on cursor { // } // if on primary cursor? { // } // modify style temporarily // } // // // if in bounds // // // if tab, draw tab width // // draw(visual_x, line, grapheme, style) // // increment visual_x by grapheme_width(grapheme) // // increment char_index by grapheme.len_chars() // } // end => scopes.pop() // } #[test] fn test_parser() { use helix_core::syntax::{HighlightConfiguration, HighlightEvent, Highlighter}; let source_code = include_str!("../test.rs"); let highlight_names: Vec = [ "attribute", "constant", "function.builtin", "function", "keyword", "operator", "property", "punctuation", "punctuation.bracket", "punctuation.delimiter", "string", "string.special", "tag", "type", "type.builtin", "variable", "variable.builtin", "variable.parameter", ] .iter() .cloned() .map(String::from) .collect(); let language = helix_syntax::get_language(&helix_syntax::LANG::Rust); // let mut parser = tree_sitter::Parser::new(); // parser.set_language(language).unwrap(); // let tree = parser.parse(source_code, None).unwrap(); let mut highlighter = Highlighter::new(); let mut config = HighlightConfiguration::new( language, &std::fs::read_to_string( "../helix-syntax/languages/tree-sitter-rust/queries/highlights.scm", ) .unwrap(), &std::fs::read_to_string( "../helix-syntax/languages/tree-sitter-rust/queries/injections.scm", ) .unwrap(), "", // locals.scm ) .unwrap(); config.configure(&highlight_names); let highlights = highlighter .highlight(&config, source_code.as_bytes(), None, |_| None) .unwrap(); for event in highlights { match event.unwrap() { HighlightEvent::Source { start, end } => { eprintln!("source: {}-{}", start, end); // iterate over range char by char } HighlightEvent::HighlightStart(s) => { eprintln!("highlight style started: {:?}", highlight_names[s.0]); // store/push highlight styles } HighlightEvent::HighlightEnd => { eprintln!("highlight style ended"); // pop highlight styles } } } }