use crate::compositor::{Component, Compositor, Context, EventResult}; use crossterm::event::{Event, KeyCode, KeyEvent, KeyModifiers}; use tui::{ buffer::Buffer as Surface, layout::Rect, style::{Color, Style}, widgets::{Block, BorderType, Borders}, }; use fuzzy_matcher::skim::SkimMatcherV2 as Matcher; use fuzzy_matcher::FuzzyMatcher; use std::borrow::Cow; use crate::ui::{Prompt, PromptEvent}; use helix_core::Position; use helix_view::editor::Action; use helix_view::Editor; pub struct Picker { options: Vec, // filter: String, matcher: Box, /// (index, score) matches: Vec<(usize, i64)>, cursor: usize, // pattern: String, prompt: Prompt, format_fn: Box Cow>, callback_fn: Box, } impl Picker { pub fn new( options: Vec, format_fn: impl Fn(&T) -> Cow + 'static, callback_fn: impl Fn(&mut Editor, &T, Action) + 'static, ) -> Self { let prompt = Prompt::new( "".to_string(), |pattern: &str| Vec::new(), |editor: &mut Editor, pattern: &str, event: PromptEvent| { // }, ); let mut picker = Self { options, matcher: Box::new(Matcher::default()), matches: Vec::new(), cursor: 0, prompt, format_fn: Box::new(format_fn), callback_fn: Box::new(callback_fn), }; // TODO: scoring on empty input should just use a fastpath picker.score(); picker } pub fn score(&mut self) { // need to borrow via pattern match otherwise it complains about simultaneous borrow let Self { ref mut options, ref mut matcher, ref mut matches, ref format_fn, .. } = *self; let pattern = &self.prompt.line; // reuse the matches allocation matches.clear(); matches.extend( self.options .iter() .enumerate() .filter_map(|(index, option)| { // TODO: maybe using format_fn isn't the best idea here let text = (format_fn)(option); // TODO: using fuzzy_indices could give us the char idx for match highlighting matcher .fuzzy_match(&text, pattern) .map(|score| (index, score)) }), ); matches.sort_unstable_by_key(|(_, score)| -score); // reset cursor position self.cursor = 0; } pub fn move_up(&mut self) { self.cursor = self.cursor.saturating_sub(1); } pub fn move_down(&mut self) { // TODO: len - 1 if self.cursor < self.options.len() { self.cursor += 1; } } pub fn selection(&self) -> Option<&T> { self.matches .get(self.cursor) .map(|(index, _score)| &self.options[*index]) } } // process: // - read all the files into a list, maxed out at a large value // - on input change: // - score all the names in relation to input impl Component for Picker { fn handle_event(&mut self, event: Event, cx: &mut Context) -> EventResult { let key_event = match event { Event::Key(event) => event, Event::Resize(..) => return EventResult::Consumed(None), _ => return EventResult::Ignored, }; let close_fn = EventResult::Consumed(Some(Box::new(|compositor: &mut Compositor| { // remove the layer compositor.pop(); }))); match key_event { KeyEvent { code: KeyCode::Up, .. } | KeyEvent { code: KeyCode::Char('k'), modifiers: KeyModifiers::CONTROL, } => self.move_up(), KeyEvent { code: KeyCode::Down, .. } | KeyEvent { code: KeyCode::Char('j'), modifiers: KeyModifiers::CONTROL, } => self.move_down(), KeyEvent { code: KeyCode::Esc, .. } => { return close_fn; } KeyEvent { code: KeyCode::Enter, .. } => { if let Some(option) = self.selection() { (self.callback_fn)(&mut cx.editor, option, Action::Replace); } return close_fn; } KeyEvent { code: KeyCode::Char('x'), modifiers: KeyModifiers::CONTROL, } => { if let Some(option) = self.selection() { (self.callback_fn)(&mut cx.editor, option, Action::HorizontalSplit); } return close_fn; } KeyEvent { code: KeyCode::Char('v'), modifiers: KeyModifiers::CONTROL, } => { if let Some(option) = self.selection() { (self.callback_fn)(&mut cx.editor, option, Action::VerticalSplit); } return close_fn; } _ => { if let EventResult::Consumed(_) = self.prompt.handle_event(event, cx) { // TODO: recalculate only if pattern changed self.score(); } } } EventResult::Consumed(None) } fn render(&self, area: Rect, surface: &mut Surface, cx: &mut Context) { let padding_vertical = area.height * 20 / 100; let padding_horizontal = area.width * 20 / 100; let area = Rect::new( area.x + padding_horizontal, area.y + padding_vertical, area.width - padding_horizontal * 2, area.height - padding_vertical * 2, ); // -- Render the frame: // clear area let background = cx.editor.theme.get("ui.background"); surface.clear_with(area, background); use tui::widgets::Widget; // don't like this but the lifetime sucks let block = Block::default().borders(Borders::ALL); // calculate the inner area inside the box let inner = block.inner(area); block.render(area, surface); // TODO: abstract into a clear(area) fn // surface.set_style(inner, Style::default().bg(Color::Rgb(150, 50, 0))); // -- Render the input bar: let area = Rect::new(inner.x + 1, inner.y, inner.width - 1, 1); self.prompt.render(area, surface, cx); // -- Separator let style = Style::default().fg(Color::Rgb(90, 89, 119)); let symbols = BorderType::line_symbols(BorderType::Plain); for x in inner.left()..inner.right() { surface .get_mut(x, inner.y + 1) .set_symbol(symbols.horizontal) .set_style(style); } // -- Render the contents: let style = cx.editor.theme.get("ui.text"); let selected = Style::default().fg(Color::Rgb(255, 255, 255)); let rows = inner.height - 2; // -1 for search bar let files = self.matches.iter().map(|(index, _score)| { (index, self.options.get(*index).unwrap()) // get_unchecked }); for (i, (_index, option)) in files.take(rows as usize).enumerate() { if i == self.cursor { surface.set_string(inner.x + 1, inner.y + 2 + i as u16, ">", selected); } surface.set_stringn( inner.x + 3, inner.y + 2 + i as u16, (self.format_fn)(option), inner.width as usize - 1, if i == self.cursor { selected } else { style }, ); } } fn cursor_position(&self, area: Rect, editor: &Editor) -> Option { self.prompt.cursor_position(area, editor) } }