use helix_core::{ graphemes, regex::Regex, selection, state::{Direction, Granularity, Mode, State}, Range, Selection, Tendril, Transaction, }; use once_cell::sync::Lazy; use crate::view::View; /// 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(view: &mut View, count: usize); pub fn move_char_left(view: &mut View, count: usize) { // TODO: use a transaction let selection = view .state .move_selection(Direction::Backward, Granularity::Character, count); view.state.selection = selection; } pub fn move_char_right(view: &mut View, count: usize) { // TODO: use a transaction view.state.selection = view.state .move_selection(Direction::Forward, Granularity::Character, count); } pub fn move_line_up(view: &mut View, count: usize) { // TODO: use a transaction view.state.selection = view .state .move_selection(Direction::Backward, Granularity::Line, count); } pub fn move_line_down(view: &mut View, count: usize) { // TODO: use a transaction view.state.selection = view .state .move_selection(Direction::Forward, Granularity::Line, count); } pub fn move_line_end(view: &mut View, count: usize) { // TODO: use a transaction let lines = selection_lines(&view.state); let positions = lines .into_iter() .map(|index| { // adjust all positions to the end of the line. let line = view.state.doc.line(index); let line_start = view.state.doc.line_to_char(index); line_start + line.len_chars() - 1 }) .map(|pos| Range::new(pos, pos)); let selection = Selection::new(positions.collect(), 0); let transaction = Transaction::new(&mut view.state).with_selection(selection); transaction.apply(&mut view.state); } pub fn move_line_start(view: &mut View, count: usize) { let lines = selection_lines(&view.state); let positions = lines .into_iter() .map(|index| { // adjust all positions to the start of the line. view.state.doc.line_to_char(index) }) .map(|pos| Range::new(pos, pos)); let selection = Selection::new(positions.collect(), 0); let transaction = Transaction::new(&mut view.state).with_selection(selection); transaction.apply(&mut view.state); } pub fn move_next_word_start(view: &mut View, count: usize) { let pos = view.state.move_pos( view.state.selection.cursor(), Direction::Forward, Granularity::Word, count, ); // TODO: use a transaction view.state.selection = Selection::single(pos, pos); } pub fn move_prev_word_start(view: &mut View, count: usize) { let pos = view.state.move_pos( view.state.selection.cursor(), Direction::Backward, Granularity::Word, count, ); // TODO: use a transaction view.state.selection = Selection::single(pos, pos); } pub fn move_next_word_end(view: &mut View, count: usize) { let pos = State::move_next_word_end( &view.state.doc().slice(..), view.state.selection.cursor(), count, ); // TODO: use a transaction view.state.selection = Selection::single(pos, pos); } // avoid select by default by having a visual mode switch that makes movements into selects pub fn extend_char_left(view: &mut View, count: usize) { // TODO: use a transaction let selection = view .state .extend_selection(Direction::Backward, Granularity::Character, count); view.state.selection = selection; } pub fn extend_char_right(view: &mut View, count: usize) { // TODO: use a transaction view.state.selection = view.state .extend_selection(Direction::Forward, Granularity::Character, count); } pub fn extend_line_up(view: &mut View, count: usize) { // TODO: use a transaction view.state.selection = view.state .extend_selection(Direction::Backward, Granularity::Line, count); } pub fn extend_line_down(view: &mut View, count: usize) { // TODO: use a transaction view.state.selection = view.state .extend_selection(Direction::Forward, Granularity::Line, count); } pub fn split_selection_on_newline(view: &mut View, _count: usize) { let text = &view.state.doc.slice(..); // only compile the regex once static REGEX: Lazy = Lazy::new(|| Regex::new(r"\n").unwrap()); // TODO: use a transaction view.state.selection = selection::split_on_matches(text, view.state.selection(), ®EX) } pub fn delete_selection(view: &mut View, _count: usize) { let transaction = Transaction::change_by_selection(&view.state, |range| (range.from(), range.to(), None)); transaction.apply(&mut view.state); } pub fn change_selection(view: &mut View, count: usize) { delete_selection(view, count); insert_mode(view, count); } // insert mode: // first we calculate the correct cursors/selections // then we just append at each cursor // lastly, if it was append mode we shift cursor by 1? // inserts at the start of each selection pub fn insert_mode(view: &mut View, _count: usize) { view.state.mode = Mode::Insert; view.state.selection = view .state .selection .transform(|range| Range::new(range.to(), range.from())) } // inserts at the end of each selection pub fn append_mode(view: &mut View, _count: usize) { view.state.mode = Mode::Insert; // TODO: as transaction let text = &view.state.doc.slice(..); view.state.selection = view.state.selection.transform(|range| { // TODO: to() + next char Range::new( range.from(), graphemes::next_grapheme_boundary(text, range.to()), ) }) } // TODO: I, A, o and O can share a lot of the primitives. // calculate line numbers for each selection range fn selection_lines(state: &State) -> Vec { let mut lines = state .selection .ranges() .iter() .map(|range| state.doc.char_to_line(range.head)) .collect::>(); lines.sort(); lines.dedup(); lines } // I inserts at the start of each line with a selection pub fn prepend_to_line(view: &mut View, _count: usize) { view.state.mode = Mode::Insert; move_line_start(view, _count); } // A inserts at the end of each line with a selection pub fn append_to_line(view: &mut View, _count: usize) { view.state.mode = Mode::Insert; move_line_end(view, _count); } // o inserts a new line after each line with a selection pub fn open_below(view: &mut View, _count: usize) { view.state.mode = Mode::Insert; let lines = selection_lines(&view.state); let positions: Vec<_> = lines .into_iter() .map(|index| { // adjust all positions to the end of the line. let line = view.state.doc.line(index); let line_start = view.state.doc.line_to_char(index); line_start + line.len_chars() }) .collect(); let changes = positions.iter().copied().map(|index| // generate changes (index, index, Some(Tendril::from_char('\n')))); // 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( positions .iter() .copied() .map(|pos| Range::new(pos, pos)) .collect(), 0, ); let transaction = Transaction::change(&view.state, changes).with_selection(selection); transaction.apply(&mut view.state); // TODO: need to store into history if successful } // O inserts a new line before each line with a selection pub fn normal_mode(view: &mut View, _count: usize) { // TODO: if leaving append mode, move cursor back by 1 view.state.mode = Mode::Normal; } // TODO: insert means add text just before cursor, on exit we should be on the last letter. pub fn insert_char(view: &mut View, c: char) { let c = Tendril::from_char(c); let transaction = Transaction::insert(&view.state, c); transaction.apply(&mut view.state); // TODO: need to store into history if successful } // TODO: handle indent-aware delete pub fn delete_char_backward(view: &mut View, count: usize) { let text = &view.state.doc.slice(..); let transaction = Transaction::change_by_selection(&view.state, |range| { ( graphemes::nth_prev_grapheme_boundary(text, range.head, count), range.head, None, ) }); transaction.apply(&mut view.state); // TODO: need to store into history if successful } pub fn delete_char_forward(view: &mut View, count: usize) { let text = &view.state.doc.slice(..); let transaction = Transaction::change_by_selection(&view.state, |range| { ( graphemes::nth_next_grapheme_boundary(text, range.head, count), range.head, None, ) }); transaction.apply(&mut view.state); // TODO: need to store into history if successful }