use helix_core::{ comment, coords_at_pos, graphemes, match_brackets, movement::{self, Direction}, object, pos_at_coords, regex::{self, Regex}, register, search, selection, Change, ChangeSet, Position, Range, Rope, RopeSlice, Selection, Tendril, Transaction, }; use once_cell::sync::Lazy; use crate::{ compositor::{Callback, Component, Compositor}, ui::{self, Completion, Picker, Popup, Prompt, PromptEvent}, }; use std::path::{Path, PathBuf}; use helix_view::{ document::Mode, view::{View, PADDING}, Document, DocumentId, Editor, }; use crossterm::event::{KeyCode, KeyEvent}; use helix_lsp::lsp; use crate::application::{LspCallbackWrapper, LspCallbacks}; pub struct Context<'a> { pub count: usize, pub editor: &'a mut Editor, pub callback: Option, pub on_next_key_callback: Option>, pub callbacks: &'a mut LspCallbacks, pub status_msg: Option, } use futures_util::FutureExt; use std::future::Future; impl<'a> Context<'a> { #[inline] pub fn view(&mut self) -> &mut View { self.editor.view_mut() } #[inline] pub fn doc(&mut self) -> &mut Document { let id = self.editor.view().doc; &mut self.editor.documents[id] } /// Push a new component onto the compositor. pub fn push_layer(&mut self, mut component: Box) { self.callback = Some(Box::new( |compositor: &mut Compositor, editor: &mut Editor| compositor.push(component), )); } #[inline] pub fn on_next_key( &mut self, on_next_key_callback: impl FnOnce(&mut Context, KeyEvent) + 'static, ) { self.on_next_key_callback = Some(Box::new(on_next_key_callback)); } #[inline] pub fn callback( &mut self, call: impl Future> + 'static + Send, callback: F, ) where T: for<'de> serde::Deserialize<'de> + Send + 'static, F: FnOnce(&mut Editor, &mut Compositor, T) + Send + 'static, { let callback = Box::pin(async move { let json = call.await?; let response = serde_json::from_value(json)?; let call: LspCallbackWrapper = Box::new(move |editor: &mut Editor, compositor: &mut Compositor| { callback(editor, compositor, response) }); Ok(call) }); self.callbacks.push(callback); } // TODO: allow &'static str? pub fn set_status(&mut self, msg: String) { self.status_msg = Some(msg); } } /// A command is a function that takes the current state and a count, and does a side-effect on the /// state (usually by creating and applying a transaction). pub type Command = fn(cx: &mut Context); pub fn move_char_left(cx: &mut Context) { let count = cx.count; let doc = cx.doc(); let text = doc.text().slice(..); let selection = doc.selection().transform(|range| { movement::move_horizontally( text, range, Direction::Backward, count, false, /* extend */ ) }); doc.set_selection(selection); } pub fn move_char_right(cx: &mut Context) { let count = cx.count; let doc = cx.doc(); let text = doc.text().slice(..); let selection = doc.selection().transform(|range| { movement::move_horizontally( text, range, Direction::Forward, count, false, /* extend */ ) }); doc.set_selection(selection); } pub fn move_line_up(cx: &mut Context) { let count = cx.count; let doc = cx.doc(); let text = doc.text().slice(..); let selection = doc.selection().transform(|range| { movement::move_vertically( text, range, Direction::Backward, count, false, /* extend */ ) }); doc.set_selection(selection); } pub fn move_line_down(cx: &mut Context) { let count = cx.count; let doc = cx.doc(); let text = doc.text().slice(..); let selection = doc.selection().transform(|range| { movement::move_vertically( text, range, Direction::Forward, count, false, /* extend */ ) }); doc.set_selection(selection); } pub fn move_line_end(cx: &mut Context) { let doc = cx.doc(); let lines = selection_lines(doc.text(), doc.selection()); let positions = lines .into_iter() .map(|index| { // adjust all positions to the end of the line. // Line end is pos at the start of next line - 1 // subtract another 1 because the line ends with \n doc.text().line_to_char(index + 1).saturating_sub(2) }) .map(|pos| Range::new(pos, pos)); let selection = Selection::new(positions.collect(), 0); doc.set_selection(selection); } pub fn move_line_start(cx: &mut Context) { let doc = cx.doc(); let lines = selection_lines(doc.text(), doc.selection()); let positions = lines .into_iter() .map(|index| { // adjust all positions to the start of the line. doc.text().line_to_char(index) }) .map(|pos| Range::new(pos, pos)); let selection = Selection::new(positions.collect(), 0); doc.set_selection(selection); } // TODO: move vs extend could take an extra type Extend/Move that would // Range::new(if Move { pos } if Extend { range.anchor }, pos) // since these all really do the same thing pub fn move_next_word_start(cx: &mut Context) { let count = cx.count; let doc = cx.doc(); let text = doc.text().slice(..); let selection = doc.selection().transform(|range| { let pos = movement::move_next_word_start(text, range.head, count); Range::new(pos, pos) }); doc.set_selection(selection); } pub fn move_prev_word_start(cx: &mut Context) { let count = cx.count; let doc = cx.doc(); let text = doc.text().slice(..); let selection = doc.selection().transform(|range| { let pos = movement::move_prev_word_start(text, range.head, count); Range::new(pos, pos) }); doc.set_selection(selection); } pub fn move_next_word_end(cx: &mut Context) { let count = cx.count; let doc = cx.doc(); let text = doc.text().slice(..); let selection = doc.selection().transform(|range| { let pos = movement::move_next_word_end(text, range.head, count); Range::new(pos, pos) }); doc.set_selection(selection); } pub fn move_file_start(cx: &mut Context) { push_jump(cx); let doc = cx.doc(); doc.set_selection(Selection::point(0)); } pub fn move_file_end(cx: &mut Context) { push_jump(cx); let doc = cx.doc(); let text = doc.text(); let last_line = text.line_to_char(text.len_lines().saturating_sub(2)); doc.set_selection(Selection::point(last_line)); } pub fn extend_next_word_start(cx: &mut Context) { let count = cx.count; let doc = cx.doc(); let text = doc.text().slice(..); let selection = doc.selection().transform(|mut range| { let pos = movement::move_next_word_start(text, range.head, count); Range::new(range.anchor, pos) }); doc.set_selection(selection); } pub fn extend_prev_word_start(cx: &mut Context) { let count = cx.count; let doc = cx.doc(); let text = doc.text().slice(..); let selection = doc.selection().transform(|mut range| { let pos = movement::move_prev_word_start(text, range.head, count); Range::new(range.anchor, pos) }); doc.set_selection(selection); } pub fn extend_next_word_end(cx: &mut Context) { let count = cx.count; let doc = cx.doc(); let text = doc.text().slice(..); let selection = doc.selection().transform(|mut range| { let pos = movement::move_next_word_end(text, range.head, count); Range::new(range.anchor, pos) }); doc.set_selection(selection); } #[inline] fn _find_char(cx: &mut Context, search_fn: F, inclusive: bool, extend: bool) where // TODO: make an options struct for and abstract this Fn into a searcher type // use the definition for w/b/e too F: Fn(RopeSlice, char, usize, usize, bool) -> Option, { // TODO: count is reset to 1 before next key so we move it into the closure here. // Would be nice to carry over. let count = cx.count; // need to wait for next key cx.on_next_key(move |cx, event| { if let KeyEvent { code: KeyCode::Char(ch), .. } = event { let doc = cx.doc(); let text = doc.text().slice(..); let selection = doc.selection().transform(|mut range| { if let Some(pos) = search::find_nth_next(text, ch, range.head, count, inclusive) { if extend { Range::new(range.anchor, pos) } else { // select Range::new(range.head, pos) } // or (pos, pos) to move to found val } else { range } }); doc.set_selection(selection); } }) } pub fn find_till_char(cx: &mut Context) { _find_char( cx, search::find_nth_next, false, /* inclusive */ false, /* extend */ ) } pub fn find_next_char(cx: &mut Context) { _find_char( cx, search::find_nth_next, true, /* inclusive */ false, /* extend */ ) } pub fn extend_till_char(cx: &mut Context) { _find_char( cx, search::find_nth_next, false, /* inclusive */ true, /* extend */ ) } pub fn extend_next_char(cx: &mut Context) { _find_char( cx, search::find_nth_next, true, /* inclusive */ true, /* extend */ ) } pub fn till_prev_char(cx: &mut Context) { _find_char( cx, search::find_nth_prev, false, /* inclusive */ false, /* extend */ ) } pub fn find_prev_char(cx: &mut Context) { _find_char( cx, search::find_nth_prev, true, /* inclusive */ false, /* extend */ ) } pub fn extend_till_prev_char(cx: &mut Context) { _find_char( cx, search::find_nth_prev, false, /* inclusive */ true, /* extend */ ) } pub fn extend_prev_char(cx: &mut Context) { _find_char( cx, search::find_nth_prev, true, /* inclusive */ true, /* extend */ ) } pub fn replace(cx: &mut Context) { // need to wait for next key cx.on_next_key(move |cx, event| { if let KeyEvent { code: KeyCode::Char(ch), .. } = event { let text = Tendril::from_char(ch); let doc = cx.doc(); let transaction = Transaction::change_by_selection(doc.text(), doc.selection(), |range| { (range.from(), range.to() + 1, Some(text.clone())) }); doc.apply(&transaction); doc.append_changes_to_history(); } }) } fn scroll(cx: &mut Context, offset: usize, direction: Direction) { use Direction::*; let view = cx.editor.view(); let doc = cx.editor.document(view.doc).unwrap(); let cursor = coords_at_pos(doc.text().slice(..), doc.selection().cursor()); let doc_last_line = doc.text().len_lines() - 1; let last_line = view.last_line(doc); if direction == Backward && view.first_line == 0 || direction == Forward && last_line == doc_last_line { return; } let scrolloff = PADDING; // min(user pref, half win width/height) // cursor visual offset let cursor_off = cursor.row - view.first_line; // upgrade to mut reference let view = cx.editor.view_mut(); view.first_line = match direction { Forward => view.first_line + offset, Backward => view.first_line.saturating_sub(offset), } .min(doc_last_line); // clamp into viewport let line = (view.first_line + cursor_off).clamp( view.first_line + scrolloff, last_line.saturating_sub(scrolloff), ); // view drops here // upgrade to mut reference let doc = cx.doc(); let text = doc.text().slice(..); let pos = pos_at_coords(text, Position::new(line, cursor.col)); // this func will properly truncate to line end doc.set_selection(Selection::point(pos)); } pub fn page_up(cx: &mut Context) { let view = cx.view(); let offset = view.area.height as usize; scroll(cx, offset, Direction::Backward); } pub fn page_down(cx: &mut Context) { let view = cx.view(); let offset = view.area.height as usize; scroll(cx, offset, Direction::Forward); } pub fn half_page_up(cx: &mut Context) { let view = cx.view(); let offset = view.area.height as usize / 2; scroll(cx, offset, Direction::Backward); } pub fn half_page_down(cx: &mut Context) { let view = cx.view(); let offset = view.area.height as usize / 2; scroll(cx, offset, Direction::Forward); } pub fn extend_char_left(cx: &mut Context) { let count = cx.count; let doc = cx.doc(); let text = doc.text().slice(..); let selection = doc.selection().transform(|range| { movement::move_horizontally( text, range, Direction::Backward, count, true, /* extend */ ) }); doc.set_selection(selection); } pub fn extend_char_right(cx: &mut Context) { let count = cx.count; let doc = cx.doc(); let text = doc.text().slice(..); let selection = doc.selection().transform(|range| { movement::move_horizontally( text, range, Direction::Forward, count, true, /* extend */ ) }); doc.set_selection(selection); } pub fn extend_line_up(cx: &mut Context) { let count = cx.count; let doc = cx.doc(); let text = doc.text().slice(..); let selection = doc.selection().transform(|range| { movement::move_vertically( text, range, Direction::Backward, count, true, /* extend */ ) }); doc.set_selection(selection); } pub fn extend_line_down(cx: &mut Context) { let count = cx.count; let doc = cx.doc(); let text = doc.text().slice(..); let selection = doc.selection().transform(|range| { movement::move_vertically( text, range, Direction::Forward, count, true, /* extend */ ) }); doc.set_selection(selection); } pub fn select_all(cx: &mut Context) { let doc = cx.doc(); let end = doc.text().len_chars().saturating_sub(1); doc.set_selection(Selection::single(0, end)) } pub fn select_regex(cx: &mut Context) { let prompt = ui::regex_prompt(cx, "select:".to_string(), |doc, regex| { let text = doc.text().slice(..); if let Some(selection) = selection::select_on_matches(text, doc.selection(), ®ex) { doc.set_selection(selection); } }); cx.push_layer(Box::new(prompt)); } pub fn split_selection(cx: &mut Context) { let prompt = ui::regex_prompt(cx, "split:".to_string(), |doc, regex| { let text = doc.text().slice(..); let selection = selection::split_on_matches(text, doc.selection(), ®ex); doc.set_selection(selection); }); cx.push_layer(Box::new(prompt)); } pub fn split_selection_on_newline(cx: &mut Context) { let doc = cx.doc(); let text = doc.text().slice(..); // only compile the regex once #[allow(clippy::trivial_regex)] static REGEX: Lazy = Lazy::new(|| Regex::new(r"\n").unwrap()); let selection = selection::split_on_matches(text, doc.selection(), ®EX); doc.set_selection(selection); } // search: searches for the first occurence in file, provides a prompt // search_next: reuses the last search regex and searches for the next match. The next match becomes the main selection. // -> we always search from after the cursor.head // TODO: be able to use selection as search query (*/alt *) // I'd probably collect all the matches right now and store the current index. The cache needs // wiping if input happens. fn _search(doc: &mut Document, contents: &str, regex: &Regex) { let text = doc.text(); let start = doc.selection().cursor(); // TODO: use find_at to find the next match after the cursor, loop around the end if let Some(mat) = regex.find_at(&contents, start) { let start = text.byte_to_char(mat.start()); let end = text.byte_to_char(mat.end()); let selection = Selection::single(start, end - 1); // TODO: (first_match, regex) stuff in register? doc.set_selection(selection); }; } // TODO: use one function for search vs extend pub fn search(cx: &mut Context) { let doc = cx.doc(); // TODO: could probably share with select_on_matches? // HAXX: sadly we can't avoid allocating a single string for the whole buffer since we can't // feed chunks into the regex yet let contents = doc.text().slice(..).to_string(); let prompt = ui::regex_prompt(cx, "search:".to_string(), move |doc, regex| { let text = doc.text(); let start = doc.selection().cursor(); _search(doc, &contents, ®ex); // TODO: only store on enter (accept), not update register::set('\\', vec![regex.as_str().to_string()]); }); cx.push_layer(Box::new(prompt)); } pub fn search_next(cx: &mut Context) { if let Some(query) = register::get('\\') { let query = query.first().unwrap(); let doc = cx.doc(); let contents = doc.text().slice(..).to_string(); let regex = Regex::new(&query).unwrap(); _search(doc, &contents, ®ex); } } pub fn search_selection(cx: &mut Context) { let doc = cx.doc(); let contents = doc.text().slice(..); let query = doc.selection().primary().fragment(contents); let regex = regex::escape(&query); register::set('\\', vec![regex]); search_next(cx); } // TODO: N -> search_prev // need to loop around buffer also and show a message // same for no matches // pub fn select_line(cx: &mut Context) { let count = cx.count; let doc = cx.doc(); let pos = doc.selection().primary(); let text = doc.text(); let line = text.char_to_line(pos.head); let start = text.line_to_char(line); let end = text.line_to_char(line + count).saturating_sub(1); doc.set_selection(Selection::single(start, end)); } pub fn extend_line(cx: &mut Context) { let count = cx.count; let doc = cx.doc(); let pos = doc.selection().primary(); let text = doc.text(); let line_start = text.char_to_line(pos.anchor); let mut line = text.char_to_line(pos.head); let line_end = text.line_to_char(line + 1).saturating_sub(1); if line_start <= pos.anchor && pos.head == line_end && line != text.len_lines() { line += 1; } let start = text.line_to_char(line_start); let end = text.line_to_char(line + 1).saturating_sub(1); doc.set_selection(Selection::single(start, end)); } // heuristic: append changes to history after each command, unless we're in insert mode fn _delete_selection(doc: &mut Document) { let transaction = Transaction::change_by_selection(doc.text(), doc.selection(), |range| { (range.from(), range.to() + 1, None) }); doc.apply(&transaction); } pub fn delete_selection(cx: &mut Context) { let doc = cx.doc(); _delete_selection(doc); doc.append_changes_to_history(); } pub fn change_selection(cx: &mut Context) { let doc = cx.doc(); _delete_selection(doc); enter_insert_mode(doc); } pub fn collapse_selection(cx: &mut Context) { let doc = cx.doc(); let selection = doc .selection() .transform(|range| Range::new(range.head, range.head)); doc.set_selection(selection); } pub fn flip_selections(cx: &mut Context) { let doc = cx.doc(); let selection = doc .selection() .transform(|range| Range::new(range.head, range.anchor)); doc.set_selection(selection); } fn enter_insert_mode(doc: &mut Document) { doc.mode = Mode::Insert; } // inserts at the start of each selection pub fn insert_mode(cx: &mut Context) { let doc = cx.doc(); enter_insert_mode(doc); let selection = doc .selection() .transform(|range| Range::new(range.to(), range.from())); doc.set_selection(selection); } // inserts at the end of each selection pub fn append_mode(cx: &mut Context) { let doc = cx.doc(); enter_insert_mode(doc); doc.restore_cursor = true; let text = doc.text().slice(..); let selection = doc.selection().transform(|range| { Range::new( range.from(), graphemes::next_grapheme_boundary(text, range.to()), // to() + next char ) }); doc.set_selection(selection); } const COMMAND_LIST: &[&str] = &["write", "open", "quit"]; // TODO: I, A, o and O can share a lot of the primitives. pub fn command_mode(cx: &mut Context) { let prompt = Prompt::new( ":".to_owned(), |input: &str| { // we use .this over split_ascii_whitespace() because we care about empty segments let parts = input.split(' ').collect::>(); // simple heuristic: if there's no space, complete command. // if there's a space, file completion kicks in. We should specialize by command later. if parts.len() <= 1 { use std::{borrow::Cow, ops::Range}; let end = 0..; COMMAND_LIST .iter() .filter(|command| command.contains(input)) .map(|command| (end.clone(), Cow::Borrowed(*command))) .collect() } else { let part = parts.last().unwrap(); ui::completers::filename(part) .into_iter() .map(|(range, file)| { // offset ranges to input let offset = input.len() - part.len(); let range = (range.start + offset)..; (range, file) }) .collect() // TODO // additionally, completion items could have a info section that would get // displayed in a popup above the prompt when items are tabbed over } }, // completion move |editor: &mut Editor, input: &str, event: PromptEvent| { if event != PromptEvent::Validate { return; } let parts = input.split_ascii_whitespace().collect::>(); match *parts.as_slice() { ["q"] | ["quit"] => { editor.close(editor.view().id); // editor.should_close = true, } ["o", path] | ["open", path] => { use helix_view::editor::Action; editor.open(path.into(), Action::Replace); } ["w"] | ["write"] => { // TODO: non-blocking via save() command let id = editor.view().doc; let doc = &mut editor.documents[id]; smol::block_on(doc.save()); } _ => (), } }, ); cx.push_layer(Box::new(prompt)); } fn find_root(root: Option<&str>) -> Option { let current_dir = std::env::current_dir().expect("unable to determine current directory"); let root = match root { Some(root) => { let root = Path::new(root); if root.is_absolute() { root.to_path_buf() } else { current_dir.join(root) } } None => current_dir, }; for ancestor in root.ancestors() { // TODO: also use defined roots if git isn't found if ancestor.join(".git").is_dir() { return Some(ancestor.to_path_buf()); } } None } pub fn file_picker(cx: &mut Context) { let root = find_root(None).unwrap_or_else(|| PathBuf::from("./")); let picker = ui::file_picker(root); cx.push_layer(Box::new(picker)); } pub fn buffer_picker(cx: &mut Context) { use std::path::{Path, PathBuf}; let current = cx.editor.view().doc; let picker = Picker::new( cx.editor .documents .iter() .map(|(id, doc)| (id, doc.relative_path().map(Path::to_path_buf))) .collect(), move |(id, path): &(DocumentId, Option)| { // format_fn match path.as_ref().and_then(|path| path.to_str()) { Some(path) => { if *id == current { format!("{} (*)", path).into() } else { path.into() } } None => "[NEW]".into(), } }, |editor: &mut Editor, (_, path): &(DocumentId, Option), _action| match path { Some(path) => { use helix_view::editor::Action; editor .open(path.into(), Action::Replace) .expect("editor.open failed"); } None => (), }, ); cx.push_layer(Box::new(picker)); } // calculate line numbers for each selection range fn selection_lines(doc: &Rope, selection: &Selection) -> Vec { let mut lines = selection .iter() .map(|range| doc.char_to_line(range.head)) .collect::>(); lines.sort_unstable(); // sorting by usize so _unstable is preferred lines.dedup(); lines } // I inserts at the start of each line with a selection pub fn prepend_to_line(cx: &mut Context) { move_line_start(cx); let doc = cx.doc(); enter_insert_mode(doc); } // A inserts at the end of each line with a selection pub fn append_to_line(cx: &mut Context) { move_line_end(cx); let doc = cx.doc(); enter_insert_mode(doc); // offset by another 1 char since move_line_end will position on the last char, we want to // append past that let selection = doc.selection().transform(|range| { let pos = range.head + 1; Range::new(pos, pos) }); doc.set_selection(selection); } // o inserts a new line after each line with a selection pub fn open_below(cx: &mut Context) { let count = cx.count; let doc = cx.doc(); enter_insert_mode(doc); let lines = selection_lines(doc.text(), doc.selection()); let positions = lines.into_iter().map(|index| { // adjust all positions to the end of the line (next line minus one) doc.text().line_to_char(index + 1).saturating_sub(1) }); let text = doc.text().slice(..); let changes: Vec = positions .map(|index| { // TODO: share logic with insert_newline for indentation let indent_level = helix_core::indent::suggested_indent_for_pos(doc.syntax(), text, index, true); let indent = doc.indent_unit().repeat(indent_level); let mut text = String::with_capacity(1 + indent.len()); text.push('\n'); text.push_str(&indent); let text = text.repeat(count); (index, index, Some(text.into())) }) .collect(); // TODO: count actually inserts "n" new lines and starts editing on all of them. // TODO: append "count" newlines and modify cursors to those lines let selection = Selection::new( changes .iter() .map(|(start, _end, text): &Change| { let len = text.as_ref().map(|text| text.len()).unwrap(); // minus newline let pos = start + len; Range::new(pos, pos) }) .collect(), 0, ); let transaction = Transaction::change(doc.text(), changes.into_iter()).with_selection(selection); doc.apply(&transaction); } // O inserts a new line before each line with a selection pub fn open_above(cx: &mut Context) { let count = cx.count; let doc = cx.doc(); enter_insert_mode(doc); let lines = selection_lines(doc.text(), doc.selection()); let positions = lines.into_iter().map(|index| { // adjust all positions to the end of the previous line doc.text().line_to_char(index).saturating_sub(1) }); let text = doc.text().slice(..); let changes: Vec = positions .map(|index| { // TODO: share logic with insert_newline for indentation let indent_level = helix_core::indent::suggested_indent_for_pos(doc.syntax(), text, index, true); let indent = doc.indent_unit().repeat(indent_level); let mut text = String::with_capacity(1 + indent.len()); text.push('\n'); text.push_str(&indent); let text = text.repeat(count); // generate changes (index, index, Some(text.into())) }) .collect(); // TODO: count actually inserts "n" new lines and starts editing on all of them. // TODO: append "count" newlines and modify cursors to those lines let selection = Selection::new( changes .iter() .map(|(start, _end, text): &Change| { let len = text.as_ref().map(|text| text.len()).unwrap(); // minus newline let pos = start + len; Range::new(pos, pos) }) .collect(), 0, ); let transaction = Transaction::change(doc.text(), changes.into_iter()).with_selection(selection); doc.apply(&transaction); } pub fn normal_mode(cx: &mut Context) { let doc = cx.doc(); doc.mode = Mode::Normal; doc.append_changes_to_history(); // if leaving append mode, move cursor back by 1 if doc.restore_cursor { let text = doc.text().slice(..); let selection = doc.selection().transform(|range| { Range::new( range.from(), graphemes::prev_grapheme_boundary(text, range.to()), ) }); doc.set_selection(selection); doc.restore_cursor = false; } } // Store a jump on the jumplist. fn push_jump(cx: &mut Context) { let jump = { let doc = cx.doc(); (doc.id(), doc.selection().clone()) }; cx.view().jumps.push(jump); } pub fn goto_mode(cx: &mut Context) { let count = cx.count; if count > 1 { push_jump(cx); // TODO: can't go to line 1 since we can't distinguish between g and 1g, g gets converted // to 1g let doc = cx.doc(); let pos = doc.text().line_to_char(count - 1); doc.set_selection(Selection::point(pos)); return; } cx.on_next_key(move |cx, event| { if let KeyEvent { code: KeyCode::Char(ch), .. } = event { // TODO: temporarily show GOTO in the mode list match ch { 'g' => move_file_start(cx), 'e' => move_file_end(cx), 'd' => goto_definition(cx), 't' => goto_type_definition(cx), 'r' => goto_reference(cx), 'i' => goto_implementation(cx), _ => (), } } }) } pub fn select_mode(cx: &mut Context) { cx.doc().mode = Mode::Select; } pub fn exit_select_mode(cx: &mut Context) { cx.doc().mode = Mode::Normal; } fn _goto(cx: &mut Context, locations: Vec) { use helix_view::editor::Action; push_jump(cx); fn jump_to(editor: &mut Editor, location: &lsp::Location, action: Action) { let id = editor .open(PathBuf::from(location.uri.path()), action) .expect("editor.open failed"); let doc = &mut editor.documents[id]; let definition_pos = location.range.start; let new_pos = helix_lsp::util::lsp_pos_to_pos(doc.text(), definition_pos); doc.set_selection(Selection::point(new_pos)); } match locations.as_slice() { [location] => { jump_to(cx.editor, location, Action::Replace); } [] => (), // maybe show user message that no definition was found? _locations => { let mut picker = ui::Picker::new( locations, |location| { let file = location.uri.as_str(); let line = location.range.start.line; format!("{}:{}", file, line).into() }, move |editor: &mut Editor, location, action| jump_to(editor, location, action), ); cx.push_layer(Box::new(picker)); } } } pub fn goto_definition(cx: &mut Context) { let doc = cx.doc(); let language_server = match doc.language_server() { Some(language_server) => language_server, None => return, }; // TODO: blocking here is not ideal let pos = helix_lsp::util::pos_to_lsp_pos(doc.text(), doc.selection().cursor()); // TODO: handle fails let res = smol::block_on(language_server.goto_definition(doc.identifier(), pos)).unwrap_or_default(); _goto(cx, res); } pub fn goto_type_definition(cx: &mut Context) { let doc = cx.doc(); let language_server = match doc.language_server() { Some(language_server) => language_server, None => return, }; // TODO: blocking here is not ideal let pos = helix_lsp::util::pos_to_lsp_pos(doc.text(), doc.selection().cursor()); // TODO: handle fails let res = smol::block_on(language_server.goto_type_definition(doc.identifier(), pos)) .unwrap_or_default(); _goto(cx, res); } pub fn goto_implementation(cx: &mut Context) { let doc = cx.doc(); let language_server = match doc.language_server() { Some(language_server) => language_server, None => return, }; // TODO: blocking here is not ideal let pos = helix_lsp::util::pos_to_lsp_pos(doc.text(), doc.selection().cursor()); // TODO: handle fails let res = smol::block_on(language_server.goto_implementation(doc.identifier(), pos)) .unwrap_or_default(); _goto(cx, res); } pub fn goto_reference(cx: &mut Context) { let doc = cx.doc(); let language_server = match doc.language_server() { Some(language_server) => language_server, None => return, }; // TODO: blocking here is not ideal let pos = helix_lsp::util::pos_to_lsp_pos(doc.text(), doc.selection().cursor()); // TODO: handle fails let res = smol::block_on(language_server.goto_reference(doc.identifier(), pos)).unwrap_or_default(); _goto(cx, res); } pub fn signature_help(cx: &mut Context) { let doc = cx.doc(); let language_server = match doc.language_server() { Some(language_server) => language_server, None => return, }; // TODO: blocking here is not ideal let pos = helix_lsp::util::pos_to_lsp_pos(doc.text(), doc.selection().cursor()); // TODO: handle fails let res = smol::block_on(language_server.text_document_signature_help(doc.identifier(), pos)) .unwrap_or_default(); if let Some(signature_help) = res { log::info!("{:?}", signature_help); // signatures // active_signature // active_parameter // render as: // signature // ---------- // doc // with active param highlighted } } // NOTE: Transactions in this module get appended to history when we switch back to normal mode. pub mod insert { use super::*; pub type Hook = fn(&Rope, &Selection, char) -> Option; pub type PostHook = fn(&mut Context, char); use helix_core::auto_pairs; const HOOKS: &[Hook] = &[auto_pairs::hook]; fn completion(cx: &mut Context, ch: char) { // if ch matches completion char, trigger completion let doc = cx.doc(); let language_server = match doc.language_server() { Some(language_server) => language_server, None => return, }; let capabilities = language_server.capabilities(); if let lsp::ServerCapabilities { completion_provider: Some(lsp::CompletionOptions { trigger_characters: Some(triggers), .. }), .. } = capabilities { // TODO: what if trigger is multiple chars long let is_trigger = triggers.iter().any(|trigger| trigger.contains(ch)); if is_trigger { super::completion(cx); } } } // TODO: the pre-hook handles ( so post hook never gets called fn signature_help(cx: &mut Context, ch: char) { // if ch matches signature_help char, trigger let doc = cx.doc(); let language_server = match doc.language_server() { Some(language_server) => language_server, None => return, }; let capabilities = language_server.capabilities(); if let lsp::ServerCapabilities { signature_help_provider: Some(lsp::SignatureHelpOptions { trigger_characters: Some(triggers), // TODO: retrigger_characters .. }), .. } = capabilities { // TODO: what if trigger is multiple chars long let is_trigger = triggers.iter().any(|trigger| trigger.contains(ch)); if is_trigger { super::signature_help(cx); } } } const POST_HOOKS: &[PostHook] = &[completion, signature_help]; // TODO: insert means add text just before cursor, on exit we should be on the last letter. pub fn insert_char(cx: &mut Context, c: char) { let doc = cx.doc(); // run through insert hooks, stopping on the first one that returns Some(t) for hook in HOOKS { if let Some(transaction) = hook(doc.text(), doc.selection(), c) { doc.apply(&transaction); return; } } let t = Tendril::from_char(c); let transaction = Transaction::insert(doc.text(), doc.selection(), t); doc.apply(&transaction); // TODO: need a post insert hook too for certain triggers (autocomplete, signature help, etc) // this could also generically look at Transaction, but it's a bit annoying to look at // Operation instead of Change. for hook in POST_HOOKS { hook(cx, c); } } pub fn insert_tab(cx: &mut Context) { let doc = cx.doc(); // TODO: round out to nearest indentation level (for example a line with 3 spaces should // indent by one to reach 4 spaces). let indent = Tendril::from(doc.indent_unit()); let transaction = Transaction::insert(doc.text(), doc.selection(), indent); doc.apply(&transaction); } pub fn insert_newline(cx: &mut Context) { let doc = cx.doc(); let text = doc.text().slice(..); let transaction = Transaction::change_by_selection(doc.text(), doc.selection(), |range| { // TODO: offset range.head by 1? when calculating? let indent_level = helix_core::indent::suggested_indent_for_pos(doc.syntax(), text, range.head, true); let indent = doc.indent_unit().repeat(indent_level); let mut text = String::with_capacity(1 + indent.len()); text.push('\n'); text.push_str(&indent); (range.head, range.head, Some(text.into())) }); doc.apply(&transaction); } // TODO: handle indent-aware delete pub fn delete_char_backward(cx: &mut Context) { let count = cx.count; let doc = cx.doc(); let text = doc.text().slice(..); let transaction = Transaction::change_by_selection(doc.text(), doc.selection(), |range| { ( graphemes::nth_prev_grapheme_boundary(text, range.head, count), range.head, None, ) }); doc.apply(&transaction); } pub fn delete_char_forward(cx: &mut Context) { let count = cx.count; let doc = cx.doc(); let text = doc.text().slice(..); let transaction = Transaction::change_by_selection(doc.text(), doc.selection(), |range| { ( range.head, graphemes::nth_next_grapheme_boundary(text, range.head, count), None, ) }); doc.apply(&transaction); } } // Undo / Redo // TODO: each command could simply return a Option, then the higher level handles // storing it? pub fn undo(cx: &mut Context) { cx.doc().undo(); } pub fn redo(cx: &mut Context) { cx.doc().redo(); } // Yank / Paste pub fn yank(cx: &mut Context) { // TODO: should selections be made end inclusive? let doc = cx.doc(); let values: Vec = doc .selection() .fragments(doc.text().slice(..)) .map(|cow| cow.into_owned()) .collect(); // TODO: allow specifying reg let reg = '"'; let msg = format!("yanked {} selection(s) to register {}", values.len(), reg); register::set(reg, values); cx.set_status(msg) } pub fn paste(cx: &mut Context) { // TODO: allow specifying reg let reg = '"'; if let Some(values) = register::get(reg) { let repeat = std::iter::repeat( values .last() .map(|value| Tendril::from_slice(value)) .unwrap(), ); // TODO: if any of values ends \n it's linewise paste // // p => paste after // P => paste before // alt-p => paste every yanked selection after selected text // alt-P => paste every yanked selection before selected text // R => replace selected text with yanked text // alt-R => replace selected text with every yanked text // // append => insert at next line // insert => insert at start of line // replace => replace // default insert let linewise = values.iter().any(|value| value.ends_with('\n')); let mut values = values.into_iter().map(Tendril::from).chain(repeat); let doc = cx.doc(); let transaction = if linewise { // paste on the next line // TODO: can simply take a range + modifier and compute the right pos without ifs let text = doc.text(); Transaction::change_by_selection(doc.text(), doc.selection(), |range| { let line_end = text.line_to_char(text.char_to_line(range.head) + 1); (line_end, line_end, Some(values.next().unwrap())) }) } else { Transaction::change_by_selection(doc.text(), doc.selection(), |range| { (range.head + 1, range.head + 1, Some(values.next().unwrap())) }) }; doc.apply(&transaction); doc.append_changes_to_history(); } } fn get_lines(doc: &Document) -> Vec { let mut lines = Vec::new(); // Get all line numbers for range in doc.selection() { let start = doc.text().char_to_line(range.from()); let end = doc.text().char_to_line(range.to()); for line in start..=end { lines.push(line) } } lines.sort_unstable(); // sorting by usize so _unstable is preferred lines.dedup(); lines } pub fn indent(cx: &mut Context) { let doc = cx.doc(); let lines = get_lines(doc); // Indent by one level let indent = Tendril::from(doc.indent_unit()); let transaction = Transaction::change( doc.text(), lines.into_iter().map(|line| { let pos = doc.text().line_to_char(line); (pos, pos, Some(indent.clone())) }), ); doc.apply(&transaction); doc.append_changes_to_history(); } pub fn unindent(cx: &mut Context) { let doc = cx.doc(); let lines = get_lines(doc); let mut changes = Vec::with_capacity(lines.len()); let tab_width = doc.tab_width(); for line_idx in lines { let line = doc.text().line(line_idx); let mut width = 0; for ch in line.chars() { match ch { ' ' => width += 1, '\t' => width = (width / tab_width + 1) * tab_width, _ => break, } if width >= tab_width { break; } } if width > 0 { let start = doc.text().line_to_char(line_idx); changes.push((start, start + width, None)) } } let transaction = Transaction::change(doc.text(), changes.into_iter()); doc.apply(&transaction); doc.append_changes_to_history(); } pub fn format_selections(cx: &mut Context) { use helix_lsp::lsp; let doc = cx.doc(); // via lsp if available // else via tree-sitter indentation calculations // TODO: blocking here is not ideal let ranges: Vec = doc .selection() .iter() .map(|range| helix_lsp::util::range_to_lsp_range(doc.text(), *range)) .collect(); for range in ranges { let language_server = match doc.language_server() { Some(language_server) => language_server, None => return, }; // TODO: handle fails // TODO: concurrent map let edits = smol::block_on(language_server.text_document_range_formatting( doc.identifier(), range, lsp::FormattingOptions::default(), )) .unwrap_or_default(); let transaction = helix_lsp::util::generate_transaction_from_edits(doc.text(), edits); doc.apply(&transaction); } doc.append_changes_to_history(); } pub fn join_selections(cx: &mut Context) { use movement::skip_over_next; let doc = cx.doc(); let text = doc.text(); let slice = doc.text().slice(..); let mut changes = Vec::new(); let fragment = Tendril::from(" "); for selection in doc.selection() { let start = text.char_to_line(selection.from()); let mut end = text.char_to_line(selection.to()); if start == end { end += 1 } let lines = start..end; changes.reserve(lines.len()); for line in lines { let mut start = text.line_to_char(line + 1).saturating_sub(1); let mut end = start + 1; skip_over_next(slice, &mut end, |ch| matches!(ch, ' ' | '\t')); // need to skip from start, not end let change = (start, end, Some(fragment.clone())); changes.push(change); } } changes.sort_unstable_by_key(|(from, _to, _text)| *from); changes.dedup(); // TODO: joining multiple empty lines should be replaced by a single space. // need to merge change ranges that touch let transaction = Transaction::change(doc.text(), changes.into_iter()); // TODO: select inserted spaces // .with_selection(selection); doc.apply(&transaction); doc.append_changes_to_history(); } pub fn keep_selections(cx: &mut Context) { // keep selections matching regex let prompt = ui::regex_prompt(cx, "keep:".to_string(), |doc, regex| { let text = doc.text().slice(..); if let Some(selection) = selection::keep_matches(text, doc.selection(), ®ex) { doc.set_selection(selection); } }); cx.push_layer(Box::new(prompt)); } pub fn keep_primary_selection(cx: &mut Context) { let doc = cx.doc(); let range = doc.selection().primary(); let selection = Selection::single(range.anchor, range.head); doc.set_selection(selection); } // pub fn save(cx: &mut Context) { // Spawns an async task to actually do the saving. This way we prevent blocking. // TODO: handle save errors somehow? cx.editor.executor.spawn(cx.doc().save()).detach(); } pub fn completion(cx: &mut Context) { // trigger on trigger char, or if user calls it // (or on word char typing??) // after it's triggered, if response marked is_incomplete, update on every subsequent keypress // // lsp calls are done via a callback: it sends a request and doesn't block. // when we get the response similarly to notification, trigger a call to the completion popup // // language_server.completion(params, |cx: &mut Context, _meta, response| { // // called at response time // // compositor, lookup completion layer // // downcast dyn Component to Completion component // // emit response to completion (completion.complete/handle(response)) // }) // // typing after prompt opens: usually start offset is tracked and everything between // start_offset..cursor is replaced. For our purposes we could keep the start state (doc, // selection) and revert to them before applying. This needs to properly reset changes/history // though... // // company-mode does this by matching the prefix of the completion and removing it. // ignore isIncomplete for now // keep state while typing // the behavior should be, filter the menu based on input // if items returns empty at any point, remove the popup // if backspace past initial offset point, remove the popup // // debounce requests! // // need an idle timeout thing. // https://github.com/company-mode/company-mode/blob/master/company.el#L620-L622 // // "The idle delay in seconds until completion starts automatically. // The prefix still has to satisfy `company-minimum-prefix-length' before that // happens. The value of nil means no idle completion." let doc = cx.doc(); let language_server = match doc.language_server() { Some(language_server) => language_server, None => return, }; // TODO: blocking here is not ideal let pos = helix_lsp::util::pos_to_lsp_pos(doc.text(), doc.selection().cursor()); // TODO: handle fails let res = smol::block_on(language_server.completion(doc.identifier(), pos)).unwrap(); let trigger_offset = doc.selection().cursor(); cx.callback( res, move |editor: &mut Editor, compositor: &mut Compositor, response: Option| { let items = match response { Some(lsp::CompletionResponse::Array(items)) => items, // TODO: do something with is_incomplete Some(lsp::CompletionResponse::List(lsp::CompletionList { is_incomplete: _is_incomplete, items, })) => items, None => Vec::new(), }; // TODO: if no completion, show some message or something if !items.is_empty() { let completion = Completion::new(items, trigger_offset); // Server error: content modified compositor.push(Box::new(completion)); } }, ); // // TODO!: when iterating over items, show the docs in popup // // language server client needs to be accessible via a registry of some sort //} } pub fn hover(cx: &mut Context) { use helix_lsp::lsp; let doc = cx.doc(); let language_server = match doc.language_server() { Some(language_server) => language_server, None => return, }; // TODO: factor out a doc.position_identifier() that returns lsp::TextDocumentPositionIdentifier // TODO: blocking here is not ideal, make commands async fn? // not like we can process additional input meanwhile though let pos = helix_lsp::util::pos_to_lsp_pos(doc.text(), doc.selection().cursor()); // TODO: handle fails let res = smol::block_on(language_server.text_document_hover(doc.identifier(), pos)) .unwrap_or_default(); if let Some(hover) = res { // hover.contents / .range <- used for visualizing let contents = match hover.contents { lsp::HoverContents::Scalar(contents) => { // markedstring(string/languagestring to be highlighted) // TODO unimplemented!("{:?}", contents) } lsp::HoverContents::Array(contents) => { unimplemented!("{:?}", contents) } // TODO: render markdown lsp::HoverContents::Markup(contents) => contents.value, }; // skip if contents empty let contents = ui::Markdown::new(contents); let mut popup = Popup::new(contents); cx.push_layer(Box::new(popup)); } } // view movements pub fn next_view(cx: &mut Context) { cx.editor.focus_next() } // comments pub fn toggle_comments(cx: &mut Context) { let doc = cx.doc(); let transaction = comment::toggle_line_comments(doc.text(), doc.selection()); doc.apply(&transaction); doc.append_changes_to_history(); } // tree sitter node selection pub fn expand_selection(cx: &mut Context) { let doc = cx.doc(); if let Some(syntax) = doc.syntax() { let text = doc.text().slice(..); let selection = object::expand_selection(syntax, text, doc.selection()); doc.set_selection(selection); } } pub fn match_brackets(cx: &mut Context) { let doc = cx.doc(); if let Some(syntax) = doc.syntax() { let pos = doc.selection().cursor(); if let Some(pos) = match_brackets::find(syntax, doc.text(), pos) { let selection = Selection::point(pos); doc.set_selection(selection); }; } } // pub fn jump_forward(cx: &mut Context) { let count = cx.count; let view = cx.view(); if let Some((id, selection)) = view.jumps.forward(count) { view.first_line = 0; view.doc = *id; }; } pub fn jump_backward(cx: &mut Context) { let count = cx.count; let view = cx.view(); if let Some((id, selection)) = view.jumps.backward(count) { view.first_line = 0; view.doc = *id; let selection = selection.clone(); let doc = cx.doc(); doc.set_selection(selection); }; }