use crate::{ commands, compositor::{Component, Context, Event, EventResult}, job, key, keymap::{KeymapResult, Keymaps}, ui::{Completion, ProgressSpinners}, }; use helix_core::{ graphemes::{ ensure_grapheme_boundary_next_byte, next_grapheme_boundary, prev_grapheme_boundary, }, movement::Direction, syntax::{self, HighlightEvent}, unicode::width::UnicodeWidthStr, LineEnding, Position, Range, Selection, Transaction, }; use helix_view::{ document::Mode, editor::{CompleteAction, CursorShapeConfig}, graphics::{Color, CursorKind, Modifier, Rect, Style}, input::{KeyEvent, MouseButton, MouseEvent, MouseEventKind}, keyboard::{KeyCode, KeyModifiers}, Document, Editor, Theme, View, }; use std::borrow::Cow; use tui::buffer::Buffer as Surface; use super::lsp::SignatureHelp; use super::statusline; pub struct EditorView { pub keymaps: Keymaps, on_next_key: Option>, last_insert: (commands::MappableCommand, Vec), pub(crate) completion: Option, spinners: ProgressSpinners, } #[derive(Debug, Clone)] pub enum InsertEvent { Key(KeyEvent), CompletionApply(CompleteAction), TriggerCompletion, } impl Default for EditorView { fn default() -> Self { Self::new(Keymaps::default()) } } impl EditorView { pub fn new(keymaps: Keymaps) -> Self { Self { keymaps, on_next_key: None, last_insert: (commands::MappableCommand::normal_mode, Vec::new()), completion: None, spinners: ProgressSpinners::default(), } } pub fn spinners_mut(&mut self) -> &mut ProgressSpinners { &mut self.spinners } pub fn render_view( &self, editor: &Editor, doc: &Document, view: &View, viewport: Rect, surface: &mut Surface, is_focused: bool, ) { let inner = view.inner_area(); let area = view.area; let theme = &editor.theme; // DAP: Highlight current stack frame position let stack_frame = editor.debugger.as_ref().and_then(|debugger| { if let (Some(frame), Some(thread_id)) = (debugger.active_frame, debugger.thread_id) { debugger .stack_frames .get(&thread_id) .and_then(|bt| bt.get(frame)) } else { None } }); if let Some(frame) = stack_frame { if doc.path().is_some() && frame .source .as_ref() .and_then(|source| source.path.as_ref()) == doc.path() { let line = frame.line - 1; // convert to 0-indexing if line >= view.offset.row && line < view.offset.row + area.height as usize { surface.set_style( Rect::new( area.x, area.y + (line - view.offset.row) as u16, area.width, 1, ), theme.get("ui.highlight"), ); } } } if is_focused && editor.config().cursorline { Self::highlight_cursorline(doc, view, surface, theme); } let highlights = Self::doc_syntax_highlights(doc, view.offset, inner.height, theme); let highlights = syntax::merge(highlights, Self::doc_diagnostics_highlights(doc, theme)); let highlights: Box> = if is_focused { Box::new(syntax::merge( highlights, Self::doc_selection_highlights(doc, view, theme, &editor.config().cursor_shape), )) } else { Box::new(highlights) }; Self::render_text_highlights( doc, view.offset, inner, surface, theme, highlights, &editor.config(), ); Self::render_gutter(editor, doc, view, view.area, surface, theme, is_focused); Self::render_rulers(editor, doc, view, inner, surface, theme); if is_focused { Self::render_focused_view_elements(view, doc, inner, theme, surface); } // if we're not at the edge of the screen, draw a right border if viewport.right() != view.area.right() { let x = area.right(); let border_style = theme.get("ui.window"); for y in area.top()..area.bottom() { surface[(x, y)] .set_symbol(tui::symbols::line::VERTICAL) //.set_symbol(" ") .set_style(border_style); } } self.render_diagnostics(doc, view, inner, surface, theme); let statusline_area = view .area .clip_top(view.area.height.saturating_sub(1)) .clip_bottom(1); // -1 from bottom to remove commandline let mut context = statusline::RenderContext::new(editor, doc, view, is_focused, &self.spinners); statusline::render(&mut context, statusline_area, surface); } pub fn render_rulers( editor: &Editor, doc: &Document, view: &View, viewport: Rect, surface: &mut Surface, theme: &Theme, ) { let editor_rulers = &editor.config().rulers; let ruler_theme = theme .try_get("ui.virtual.ruler") .unwrap_or_else(|| Style::default().bg(Color::Red)); let rulers = doc .language_config() .and_then(|config| config.rulers.as_ref()) .unwrap_or(editor_rulers); rulers .iter() // View might be horizontally scrolled, convert from absolute distance // from the 1st column to relative distance from left of viewport .filter_map(|ruler| ruler.checked_sub(1 + view.offset.col as u16)) .filter(|ruler| ruler < &viewport.width) .map(|ruler| viewport.clip_left(ruler).with_width(1)) .for_each(|area| surface.set_style(area, ruler_theme)) } /// Get syntax highlights for a document in a view represented by the first line /// and column (`offset`) and the last line. This is done instead of using a view /// directly to enable rendering syntax highlighted docs anywhere (eg. picker preview) pub fn doc_syntax_highlights<'doc>( doc: &'doc Document, offset: Position, height: u16, _theme: &Theme, ) -> Box + 'doc> { let text = doc.text().slice(..); let last_line = std::cmp::min( // Saturating subs to make it inclusive zero indexing. (offset.row + height as usize).saturating_sub(1), doc.text().len_lines().saturating_sub(1), ); let range = { // calculate viewport byte ranges let start = text.line_to_byte(offset.row); let end = text.line_to_byte(last_line + 1); start..end }; match doc.syntax() { Some(syntax) => { let iter = syntax // TODO: range doesn't actually restrict source, just highlight range .highlight_iter(text.slice(..), Some(range), None) .map(|event| event.unwrap()) .map(move |event| match event { // TODO: use byte slices directly // convert byte offsets to char offset HighlightEvent::Source { start, end } => { let start = text.byte_to_char(ensure_grapheme_boundary_next_byte(text, start)); let end = text.byte_to_char(ensure_grapheme_boundary_next_byte(text, end)); HighlightEvent::Source { start, end } } event => event, }); Box::new(iter) } None => Box::new( [HighlightEvent::Source { start: text.byte_to_char(range.start), end: text.byte_to_char(range.end), }] .into_iter(), ), } } /// Get highlight spans for document diagnostics pub fn doc_diagnostics_highlights( doc: &Document, theme: &Theme, ) -> Vec<(usize, std::ops::Range)> { use helix_core::diagnostic::Severity; let get_scope_of = |scope| { theme .find_scope_index(scope) // get one of the themes below as fallback values .or_else(|| theme.find_scope_index("diagnostic")) .or_else(|| theme.find_scope_index("ui.cursor")) .or_else(|| theme.find_scope_index("ui.selection")) .expect( "at least one of the following scopes must be defined in the theme: `diagnostic`, `ui.cursor`, or `ui.selection`", ) }; // basically just queries the theme color defined in the config let hint = get_scope_of("diagnostic.hint"); let info = get_scope_of("diagnostic.info"); let warning = get_scope_of("diagnostic.warning"); let error = get_scope_of("diagnostic.error"); let r#default = get_scope_of("diagnostic"); // this is a bit redundant but should be fine doc.diagnostics() .iter() .map(|diagnostic| { let diagnostic_scope = match diagnostic.severity { Some(Severity::Info) => info, Some(Severity::Hint) => hint, Some(Severity::Warning) => warning, Some(Severity::Error) => error, _ => r#default, }; ( diagnostic_scope, diagnostic.range.start..diagnostic.range.end, ) }) .collect() } /// Get highlight spans for selections in a document view. pub fn doc_selection_highlights( doc: &Document, view: &View, theme: &Theme, cursor_shape_config: &CursorShapeConfig, ) -> Vec<(usize, std::ops::Range)> { let text = doc.text().slice(..); let selection = doc.selection(view.id); let primary_idx = selection.primary_index(); let mode = doc.mode(); let cursorkind = cursor_shape_config.from_mode(mode); let cursor_is_block = cursorkind == CursorKind::Block; let selection_scope = theme .find_scope_index("ui.selection") .expect("could not find `ui.selection` scope in the theme!"); let base_cursor_scope = theme .find_scope_index("ui.cursor") .unwrap_or(selection_scope); let cursor_scope = match mode { Mode::Insert => theme.find_scope_index("ui.cursor.insert"), Mode::Select => theme.find_scope_index("ui.cursor.select"), Mode::Normal => Some(base_cursor_scope), } .unwrap_or(base_cursor_scope); let primary_cursor_scope = theme .find_scope_index("ui.cursor.primary") .unwrap_or(cursor_scope); let primary_selection_scope = theme .find_scope_index("ui.selection.primary") .unwrap_or(selection_scope); let mut spans: Vec<(usize, std::ops::Range)> = Vec::new(); for (i, range) in selection.iter().enumerate() { let selection_is_primary = i == primary_idx; let (cursor_scope, selection_scope) = if selection_is_primary { (primary_cursor_scope, primary_selection_scope) } else { (cursor_scope, selection_scope) }; // Special-case: cursor at end of the rope. if range.head == range.anchor && range.head == text.len_chars() { if !selection_is_primary || cursor_is_block { // Bar and underline cursors are drawn by the terminal // BUG: If the editor area loses focus while having a bar or // underline cursor (eg. when a regex prompt has focus) then // the primary cursor will be invisible. This doesn't happen // with block cursors since we manually draw *all* cursors. spans.push((cursor_scope, range.head..range.head + 1)); } continue; } let range = range.min_width_1(text); if range.head > range.anchor { // Standard case. let cursor_start = prev_grapheme_boundary(text, range.head); spans.push((selection_scope, range.anchor..cursor_start)); if !selection_is_primary || cursor_is_block { spans.push((cursor_scope, cursor_start..range.head)); } } else { // Reverse case. let cursor_end = next_grapheme_boundary(text, range.head); if !selection_is_primary || cursor_is_block { spans.push((cursor_scope, range.head..cursor_end)); } spans.push((selection_scope, cursor_end..range.anchor)); } } spans } pub fn render_text_highlights>( doc: &Document, offset: Position, viewport: Rect, surface: &mut Surface, theme: &Theme, highlights: H, config: &helix_view::editor::Config, ) { let whitespace = &config.whitespace; use helix_view::editor::WhitespaceRenderValue; // It's slightly more efficient to produce a full RopeSlice from the Rope, then slice that a bunch // of times than it is to always call Rope::slice/get_slice (it will internally always hit RSEnum::Light). let text = doc.text().slice(..); let characters = &whitespace.characters; let mut spans = Vec::new(); let mut visual_x = 0u16; let mut line = 0u16; let tab_width = doc.tab_width(); let tab = if whitespace.render.tab() == WhitespaceRenderValue::All { std::iter::once(characters.tab) .chain(std::iter::repeat(characters.tabpad).take(tab_width - 1)) .collect() } else { " ".repeat(tab_width) }; let space = characters.space.to_string(); let nbsp = characters.nbsp.to_string(); let newline = if whitespace.render.newline() == WhitespaceRenderValue::All { characters.newline.to_string() } else { " ".to_string() }; let indent_guide_char = config.indent_guides.character.to_string(); let text_style = theme.get("ui.text"); let whitespace_style = theme.get("ui.virtual.whitespace"); let mut is_in_indent_area = true; let mut last_line_indent_level = 0; // use whitespace style as fallback for indent-guide let indent_guide_style = text_style.patch( theme .try_get("ui.virtual.indent-guide") .unwrap_or_else(|| theme.get("ui.virtual.whitespace")), ); let draw_indent_guides = |indent_level, line, surface: &mut Surface| { if !config.indent_guides.render { return; } let starting_indent = (offset.col / tab_width) as u16; // TODO: limit to a max indent level too. It doesn't cause visual artifacts but it would avoid some // extra loops if the code is deeply nested. for i in starting_indent..(indent_level / tab_width as u16) { surface.set_string( viewport.x + (i * tab_width as u16) - offset.col as u16, viewport.y + line, &indent_guide_char, indent_guide_style, ); } }; 'outer: for event in highlights { match event { HighlightEvent::HighlightStart(span) => { spans.push(span); } HighlightEvent::HighlightEnd => { spans.pop(); } HighlightEvent::Source { start, end } => { let is_trailing_cursor = text.len_chars() < end; // `unwrap_or_else` part is for off-the-end indices of // the rope, to allow cursor highlighting at the end // of the rope. let text = text.get_slice(start..end).unwrap_or_else(|| " ".into()); let style = spans .iter() .fold(text_style, |acc, span| acc.patch(theme.highlight(span.0))); let space = if whitespace.render.space() == WhitespaceRenderValue::All && !is_trailing_cursor { &space } else { " " }; let nbsp = if whitespace.render.nbsp() == WhitespaceRenderValue::All && text.len_chars() < end {   } else { " " }; use helix_core::graphemes::{grapheme_width, RopeGraphemes}; for grapheme in RopeGraphemes::new(text) { let out_of_bounds = visual_x < offset.col as u16 || visual_x >= viewport.width + offset.col as u16; if LineEnding::from_rope_slice(&grapheme).is_some() { if !out_of_bounds { // we still want to render an empty cell with the style surface.set_string( viewport.x + visual_x - offset.col as u16, viewport.y + line, &newline, style.patch(whitespace_style), ); } draw_indent_guides(last_line_indent_level, line, surface); visual_x = 0; line += 1; is_in_indent_area = true; // TODO: with proper iter this shouldn't be necessary if line >= viewport.height { break 'outer; } } else { let grapheme = Cow::from(grapheme); let is_whitespace; let (display_grapheme, width) = if grapheme == "\t" { is_whitespace = true; // make sure we display tab as appropriate amount of spaces let visual_tab_width = tab_width - (visual_x as usize % tab_width); let grapheme_tab_width = helix_core::str_utils::char_to_byte_idx(&tab, visual_tab_width); (&tab[..grapheme_tab_width], visual_tab_width) } else if grapheme == " " { is_whitespace = true; (space, 1) } else if grapheme == "\u{00A0}" { is_whitespace = true; (nbsp, 1) } else { is_whitespace = false; // Cow will prevent allocations if span contained in a single slice // which should really be the majority case let width = grapheme_width(&grapheme); (grapheme.as_ref(), width) }; let cut_off_start = offset.col.saturating_sub(visual_x as usize); if !out_of_bounds { // if we're offscreen just keep going until we hit a new line surface.set_string( viewport.x + visual_x - offset.col as u16, viewport.y + line, display_grapheme, if is_whitespace { style.patch(whitespace_style) } else { style }, ); } else if cut_off_start != 0 && cut_off_start < width { // partially on screen let rect = Rect::new( viewport.x as u16, viewport.y + line, (width - cut_off_start) as u16, 1, ); surface.set_style( rect, if is_whitespace { style.patch(whitespace_style) } else { style }, ); } if is_in_indent_area && !(grapheme == " " || grapheme == "\t") { draw_indent_guides(visual_x, line, surface); is_in_indent_area = false; last_line_indent_level = visual_x; } visual_x = visual_x.saturating_add(width as u16); } } } } } } /// Render brace match, etc (meant for the focused view only) pub fn render_focused_view_elements( view: &View, doc: &Document, viewport: Rect, theme: &Theme, surface: &mut Surface, ) { // Highlight matching braces if let Some(syntax) = doc.syntax() { let text = doc.text().slice(..); use helix_core::match_brackets; let pos = doc.selection(view.id).primary().cursor(text); let pos = match_brackets::find_matching_bracket(syntax, doc.text(), pos) .and_then(|pos| view.screen_coords_at_pos(doc, text, pos)); if let Some(pos) = pos { // ensure col is on screen if (pos.col as u16) < viewport.width + view.offset.col as u16 && pos.col >= view.offset.col { let style = theme.try_get("ui.cursor.match").unwrap_or_else(|| { Style::default() .add_modifier(Modifier::REVERSED) .add_modifier(Modifier::DIM) }); surface[(viewport.x + pos.col as u16, viewport.y + pos.row as u16)] .set_style(style); } } } } pub fn render_gutter( editor: &Editor, doc: &Document, view: &View, viewport: Rect, surface: &mut Surface, theme: &Theme, is_focused: bool, ) { let text = doc.text().slice(..); let last_line = view.last_line(doc); // it's used inside an iterator so the collect isn't needless: // https://github.com/rust-lang/rust-clippy/issues/6164 #[allow(clippy::needless_collect)] let cursors: Vec<_> = doc .selection(view.id) .iter() .map(|range| range.cursor_line(text)) .collect(); let mut offset = 0; let gutter_style = theme.get("ui.gutter"); // avoid lots of small allocations by reusing a text buffer for each line let mut text = String::with_capacity(8); for (constructor, width) in view.gutters() { let gutter = constructor(editor, doc, view, theme, is_focused, *width); text.reserve(*width); // ensure there's enough space for the gutter for (i, line) in (view.offset.row..(last_line + 1)).enumerate() { let selected = cursors.contains(&line); let x = viewport.x + offset; let y = viewport.y + i as u16; if let Some(style) = gutter(line, selected, &mut text) { surface.set_stringn(x, y, &text, *width, gutter_style.patch(style)); } else { surface.set_style( Rect { x, y, width: *width as u16, height: 1, }, gutter_style, ); } text.clear(); } offset += *width as u16; } } pub fn render_diagnostics( &self, doc: &Document, view: &View, viewport: Rect, surface: &mut Surface, theme: &Theme, ) { use helix_core::diagnostic::Severity; use tui::{ layout::Alignment, text::Text, widgets::{Paragraph, Widget, Wrap}, }; let cursor = doc .selection(view.id) .primary() .cursor(doc.text().slice(..)); let diagnostics = doc.diagnostics().iter().filter(|diagnostic| { diagnostic.range.start <= cursor && diagnostic.range.end >= cursor }); let warning = theme.get("warning"); let error = theme.get("error"); let info = theme.get("info"); let hint = theme.get("hint"); let mut lines = Vec::new(); let background_style = theme.get("ui.background"); for diagnostic in diagnostics { let style = Style::reset() .patch(background_style) .patch(match diagnostic.severity { Some(Severity::Error) => error, Some(Severity::Warning) | None => warning, Some(Severity::Info) => info, Some(Severity::Hint) => hint, }); let text = Text::styled(&diagnostic.message, style); lines.extend(text.lines); } let paragraph = Paragraph::new(lines) .alignment(Alignment::Right) .wrap(Wrap { trim: true }); let width = 100.min(viewport.width); let height = 15.min(viewport.height); paragraph.render( Rect::new(viewport.right() - width, viewport.y + 1, width, height), surface, ); } /// Apply the highlighting on the lines where a cursor is active pub fn highlight_cursorline(doc: &Document, view: &View, surface: &mut Surface, theme: &Theme) { let text = doc.text().slice(..); let last_line = view.last_line(doc); let primary_line = doc.selection(view.id).primary().cursor_line(text); // The secondary_lines do contain the primary_line, it doesn't matter // as the else-if clause in the loop later won't test for the // secondary_lines if primary_line == line. // It's used inside a loop so the collect isn't needless: // https://github.com/rust-lang/rust-clippy/issues/6164 #[allow(clippy::needless_collect)] let secondary_lines: Vec<_> = doc .selection(view.id) .iter() .map(|range| range.cursor_line(text)) .collect(); let primary_style = theme.get("ui.cursorline.primary"); let secondary_style = theme.get("ui.cursorline.secondary"); for line in view.offset.row..(last_line + 1) { let area = Rect::new( view.area.x, view.area.y + (line - view.offset.row) as u16, view.area.width, 1, ); if primary_line == line { surface.set_style(area, primary_style); } else if secondary_lines.binary_search(&line).is_ok() { surface.set_style(area, secondary_style); } } } /// Handle events by looking them up in `self.keymaps`. Returns None /// if event was handled (a command was executed or a subkeymap was /// activated). Only KeymapResult::{NotFound, Cancelled} is returned /// otherwise. fn handle_keymap_event( &mut self, mode: Mode, cxt: &mut commands::Context, event: KeyEvent, ) -> Option { let mut last_mode = mode; let key_result = self.keymaps.get(mode, event); cxt.editor.autoinfo = self.keymaps.sticky().map(|node| node.infobox()); // Track the currently open doc let view = view!(cxt.editor); let doc_id = view.doc; let mut execute_command = |command: &commands::MappableCommand| { command.execute(cxt); let doc = match cxt.editor.documents.get(&doc_id) { Some(doc) => doc, None => return, }; let current_mode = doc.mode(); match (last_mode, current_mode) { (Mode::Normal, Mode::Insert) => { // HAXX: if we just entered insert mode from normal, clear key buf // and record the command that got us into this mode. // how we entered insert mode is important, and we should track that so // we can repeat the side effect. self.last_insert.0 = command.clone(); self.last_insert.1.clear(); commands::signature_help_impl(cxt, commands::SignatureHelpInvoked::Automatic); } (Mode::Insert, Mode::Normal) => { // if exiting insert mode, remove completion self.completion = None; // TODO: Use an on_mode_change hook to remove signature help cxt.jobs.callback(async { let call: job::Callback = Box::new(|_editor, compositor| { compositor.remove(SignatureHelp::ID); }); Ok(call) }); } _ => (), } last_mode = current_mode; }; match &key_result { KeymapResult::Matched(command) => { execute_command(command); } KeymapResult::Pending(node) => cxt.editor.autoinfo = Some(node.infobox()), KeymapResult::MatchedSequence(commands) => { for command in commands { execute_command(command); } } KeymapResult::NotFound | KeymapResult::Cancelled(_) => return Some(key_result), } None } fn insert_mode(&mut self, cx: &mut commands::Context, event: KeyEvent) { if let Some(keyresult) = self.handle_keymap_event(Mode::Insert, cx, event) { match keyresult { KeymapResult::NotFound => { if let Some(ch) = event.char() { commands::insert::insert_char(cx, ch) } } KeymapResult::Cancelled(pending) => { for ev in pending { match ev.char() { Some(ch) => commands::insert::insert_char(cx, ch), None => { if let KeymapResult::Matched(command) = self.keymaps.get(Mode::Insert, ev) { command.execute(cx); } } } } } _ => unreachable!(), } } } fn command_mode(&mut self, mode: Mode, cxt: &mut commands::Context, event: KeyEvent) { match (event, cxt.editor.count) { // count handling (key!(i @ '0'), Some(_)) | (key!(i @ '1'..='9'), _) => { let i = i.to_digit(10).unwrap() as usize; cxt.editor.count = std::num::NonZeroUsize::new(cxt.editor.count.map_or(i, |c| c.get() * 10 + i)); } // special handling for repeat operator (key!('.'), _) if self.keymaps.pending().is_empty() => { // first execute whatever put us into insert mode self.last_insert.0.execute(cxt); // then replay the inputs for key in self.last_insert.1.clone() { match key { InsertEvent::Key(key) => self.insert_mode(cxt, key), InsertEvent::CompletionApply(compl) => { let (view, doc) = current!(cxt.editor); doc.restore(view.id); let text = doc.text().slice(..); let cursor = doc.selection(view.id).primary().cursor(text); let shift_position = |pos: usize| -> usize { pos + cursor - compl.trigger_offset }; let tx = Transaction::change( doc.text(), compl.changes.iter().cloned().map(|(start, end, t)| { (shift_position(start), shift_position(end), t) }), ); doc.apply(&tx, view.id); } InsertEvent::TriggerCompletion => { let (_, doc) = current!(cxt.editor); doc.savepoint(); } } } } _ => { // set the count cxt.count = cxt.editor.count; // TODO: edge case: 0j -> reset to 1 // if this fails, count was Some(0) // debug_assert!(cxt.count != 0); // set the register cxt.register = cxt.editor.selected_register.take(); self.handle_keymap_event(mode, cxt, event); if self.keymaps.pending().is_empty() { cxt.editor.count = None } } } } pub fn set_completion( &mut self, editor: &mut Editor, items: Vec, offset_encoding: helix_lsp::OffsetEncoding, start_offset: usize, trigger_offset: usize, size: Rect, ) { let mut completion = Completion::new(editor, items, offset_encoding, start_offset, trigger_offset); if completion.is_empty() { // skip if we got no completion results return; } // Immediately initialize a savepoint doc_mut!(editor).savepoint(); editor.last_completion = None; self.last_insert.1.push(InsertEvent::TriggerCompletion); // TODO : propagate required size on resize to completion too completion.required_size((size.width, size.height)); self.completion = Some(completion); } pub fn clear_completion(&mut self, editor: &mut Editor) { self.completion = None; // Clear any savepoints let doc = doc_mut!(editor); doc.savepoint = None; editor.clear_idle_timer(); // don't retrigger } pub fn handle_idle_timeout(&mut self, cx: &mut crate::compositor::Context) -> EventResult { if self.completion.is_some() || !cx.editor.config().auto_completion || doc!(cx.editor).mode != Mode::Insert { return EventResult::Ignored(None); } let mut cx = commands::Context { register: None, editor: cx.editor, jobs: cx.jobs, count: None, callback: None, on_next_key_callback: None, }; crate::commands::insert::idle_completion(&mut cx); EventResult::Consumed(None) } } impl EditorView { fn handle_mouse_event( &mut self, event: &MouseEvent, cxt: &mut commands::Context, ) -> EventResult { let config = cxt.editor.config(); let MouseEvent { kind, row, column, modifiers, .. } = *event; let pos_and_view = |editor: &Editor, row, column| { editor.tree.views().find_map(|(view, _focus)| { view.pos_at_screen_coords(&editor.documents[&view.doc], row, column) .map(|pos| (pos, view.id)) }) }; let gutter_coords_and_view = |editor: &Editor, row, column| { editor.tree.views().find_map(|(view, _focus)| { view.gutter_coords_at_screen_coords(row, column) .map(|coords| (coords, view.id)) }) }; match kind { MouseEventKind::Down(MouseButton::Left) => { let editor = &mut cxt.editor; if let Some((pos, view_id)) = pos_and_view(editor, row, column) { let doc = editor.document_mut(editor.tree.get(view_id).doc).unwrap(); if modifiers == KeyModifiers::ALT { let selection = doc.selection(view_id).clone(); doc.set_selection(view_id, selection.push(Range::point(pos))); } else { doc.set_selection(view_id, Selection::point(pos)); } editor.focus(view_id); return EventResult::Consumed(None); } if let Some((coords, view_id)) = gutter_coords_and_view(editor, row, column) { editor.focus(view_id); let (view, doc) = current!(cxt.editor); let path = match doc.path() { Some(path) => path.clone(), None => return EventResult::Ignored(None), }; let line = coords.row + view.offset.row; if line < doc.text().len_lines() { commands::dap_toggle_breakpoint_impl(cxt, path, line); return EventResult::Consumed(None); } } EventResult::Ignored(None) } MouseEventKind::Drag(MouseButton::Left) => { let (view, doc) = current!(cxt.editor); let pos = match view.pos_at_screen_coords(doc, row, column) { Some(pos) => pos, None => return EventResult::Ignored(None), }; let mut selection = doc.selection(view.id).clone(); let primary = selection.primary_mut(); *primary = primary.put_cursor(doc.text().slice(..), pos, true); doc.set_selection(view.id, selection); EventResult::Consumed(None) } MouseEventKind::ScrollUp | MouseEventKind::ScrollDown => { let current_view = cxt.editor.tree.focus; let direction = match event.kind { MouseEventKind::ScrollUp => Direction::Backward, MouseEventKind::ScrollDown => Direction::Forward, _ => unreachable!(), }; match pos_and_view(cxt.editor, row, column) { Some((_, view_id)) => cxt.editor.tree.focus = view_id, None => return EventResult::Ignored(None), } let offset = config.scroll_lines.unsigned_abs(); commands::scroll(cxt, offset, direction); cxt.editor.tree.focus = current_view; EventResult::Consumed(None) } MouseEventKind::Up(MouseButton::Left) => { if !config.middle_click_paste { return EventResult::Ignored(None); } let (view, doc) = current!(cxt.editor); if doc .selection(view.id) .primary() .slice(doc.text().slice(..)) .len_chars() <= 1 { return EventResult::Ignored(None); } commands::MappableCommand::yank_main_selection_to_primary_clipboard.execute(cxt); EventResult::Consumed(None) } MouseEventKind::Up(MouseButton::Right) => { if let Some((coords, view_id)) = gutter_coords_and_view(cxt.editor, row, column) { cxt.editor.focus(view_id); let (view, doc) = current!(cxt.editor); let line = coords.row + view.offset.row; if let Ok(pos) = doc.text().try_line_to_char(line) { doc.set_selection(view_id, Selection::point(pos)); if modifiers == KeyModifiers::ALT { commands::MappableCommand::dap_edit_log.execute(cxt); } else { commands::MappableCommand::dap_edit_condition.execute(cxt); } return EventResult::Consumed(None); } } EventResult::Ignored(None) } MouseEventKind::Up(MouseButton::Middle) => { let editor = &mut cxt.editor; if !config.middle_click_paste { return EventResult::Ignored(None); } if modifiers == KeyModifiers::ALT { commands::MappableCommand::replace_selections_with_primary_clipboard .execute(cxt); return EventResult::Consumed(None); } if let Some((pos, view_id)) = pos_and_view(editor, row, column) { let doc = editor.document_mut(editor.tree.get(view_id).doc).unwrap(); doc.set_selection(view_id, Selection::point(pos)); cxt.editor.focus(view_id); commands::MappableCommand::paste_primary_clipboard_before.execute(cxt); return EventResult::Consumed(None); } EventResult::Ignored(None) } _ => EventResult::Ignored(None), } } } impl Component for EditorView { fn handle_event( &mut self, event: &Event, context: &mut crate::compositor::Context, ) -> EventResult { let mut cx = commands::Context { editor: context.editor, count: None, register: None, callback: None, on_next_key_callback: None, jobs: context.jobs, }; match event { Event::Paste(contents) => { cx.count = cx.editor.count; commands::paste_bracketed_value(&mut cx, contents.clone()); cx.editor.count = None; let config = cx.editor.config(); let (view, doc) = current!(cx.editor); view.ensure_cursor_in_view(doc, config.scrolloff); // Store a history state if not in insert mode. Otherwise wait till we exit insert // to include any edits to the paste in the history state. if doc.mode() != Mode::Insert { doc.append_changes_to_history(view.id); } EventResult::Consumed(None) } Event::Resize(_width, _height) => { // Ignore this event, we handle resizing just before rendering to screen. // Handling it here but not re-rendering will cause flashing EventResult::Consumed(None) } Event::Key(mut key) => { cx.editor.reset_idle_timer(); canonicalize_key(&mut key); // clear status cx.editor.status_msg = None; let (view, doc) = current!(cx.editor); let focus = view.id; let mode = doc.mode(); if let Some(on_next_key) = self.on_next_key.take() { // if there's a command waiting input, do that first on_next_key(&mut cx, key); } else { match mode { Mode::Insert => { // let completion swallow the event if necessary let mut consumed = false; if let Some(completion) = &mut self.completion { // use a fake context here let mut cx = Context { editor: cx.editor, jobs: cx.jobs, scroll: None, }; let res = completion.handle_event(event, &mut cx); if let EventResult::Consumed(callback) = res { consumed = true; if callback.is_some() { // assume close_fn self.clear_completion(cx.editor); } } } // if completion didn't take the event, we pass it onto commands if !consumed { if let Some(compl) = cx.editor.last_completion.take() { self.last_insert.1.push(InsertEvent::CompletionApply(compl)); } self.insert_mode(&mut cx, key); // record last_insert key self.last_insert.1.push(InsertEvent::Key(key)); // lastly we recalculate completion if let Some(completion) = &mut self.completion { completion.update(&mut cx); if completion.is_empty() { self.clear_completion(cx.editor); } } } } mode => self.command_mode(mode, &mut cx, key), } } self.on_next_key = cx.on_next_key_callback.take(); // appease borrowck let callback = cx.callback.take(); // if the command consumed the last view, skip the render. // on the next loop cycle the Application will then terminate. if cx.editor.should_close() { return EventResult::Ignored(None); } let config = cx.editor.config(); let view = cx.editor.tree.get_mut(focus); let doc = cx.editor.documents.get_mut(&view.doc).unwrap(); view.ensure_cursor_in_view(doc, config.scrolloff); // Store a history state if not in insert mode. This also takes care of // committing changes when leaving insert mode. if doc.mode() != Mode::Insert { doc.append_changes_to_history(view.id); } EventResult::Consumed(callback) } Event::Mouse(event) => self.handle_mouse_event(event, &mut cx), Event::FocusGained | Event::FocusLost => EventResult::Ignored(None), } } fn render(&mut self, area: Rect, surface: &mut Surface, cx: &mut Context) { // clear with background color surface.set_style(area, cx.editor.theme.get("ui.background")); let config = cx.editor.config(); // if the terminal size suddenly changed, we need to trigger a resize cx.editor.resize(area.clip_bottom(1)); // -1 from bottom for commandline for (view, is_focused) in cx.editor.tree.views() { let doc = cx.editor.document(view.doc).unwrap(); self.render_view(cx.editor, doc, view, area, surface, is_focused); } if config.auto_info { if let Some(mut info) = cx.editor.autoinfo.take() { info.render(area, surface, cx); cx.editor.autoinfo = Some(info) } } let key_width = 15u16; // for showing pending keys let mut status_msg_width = 0; // render status msg if let Some((status_msg, severity)) = &cx.editor.status_msg { status_msg_width = status_msg.width(); use helix_view::editor::Severity; let style = if *severity == Severity::Error { cx.editor.theme.get("error") } else { cx.editor.theme.get("ui.text") }; surface.set_string( area.x, area.y + area.height.saturating_sub(1), status_msg, style, ); } if area.width.saturating_sub(status_msg_width as u16) > key_width { let mut disp = String::new(); if let Some(count) = cx.editor.count { disp.push_str(&count.to_string()) } for key in self.keymaps.pending() { disp.push_str(&key.key_sequence_format()); } if let Some(pseudo_pending) = &cx.editor.pseudo_pending { disp.push_str(pseudo_pending.as_str()) } let style = cx.editor.theme.get("ui.text"); let macro_width = if cx.editor.macro_recording.is_some() { 3 } else { 0 }; surface.set_string( area.x + area.width.saturating_sub(key_width + macro_width), area.y + area.height.saturating_sub(1), disp.get(disp.len().saturating_sub(key_width as usize)..) .unwrap_or(&disp), style, ); if let Some((reg, _)) = cx.editor.macro_recording { let disp = format!("[{}]", reg); let style = style .fg(helix_view::graphics::Color::Yellow) .add_modifier(Modifier::BOLD); surface.set_string( area.x + area.width.saturating_sub(3), area.y + area.height.saturating_sub(1), &disp, style, ); } } if let Some(completion) = self.completion.as_mut() { completion.render(area, surface, cx); } } fn cursor(&self, _area: Rect, editor: &Editor) -> (Option, CursorKind) { match editor.cursor() { // All block cursors are drawn manually (pos, CursorKind::Block) => (pos, CursorKind::Hidden), cursor => cursor, } } } fn canonicalize_key(key: &mut KeyEvent) { if let KeyEvent { code: KeyCode::Char(_), modifiers: _, } = key { key.modifiers.remove(KeyModifiers::SHIFT) } }