pub(crate) mod dap; pub(crate) mod lsp; pub(crate) mod typed; pub use dap::*; pub use lsp::*; use tui::text::Spans; pub use typed::*; use helix_core::{ comment, coords_at_pos, encoding, find_first_non_whitespace_char, find_root, graphemes, history::UndoKind, increment::date_time::DateTimeIncrementor, increment::{number::NumberIncrementor, Increment}, indent, indent::IndentStyle, line_ending::{get_line_ending_of_str, line_end_char_index, str_is_line_ending}, match_brackets, movement::{self, Direction}, object, pos_at_coords, pos_at_visual_coords, regex::{self, Regex, RegexBuilder}, search::{self, CharMatcher}, selection, shellwords, surround, textobject, tree_sitter::Node, unicode::width::UnicodeWidthChar, visual_coords_at_pos, LineEnding, Position, Range, Rope, RopeGraphemes, RopeSlice, Selection, SmallVec, Tendril, Transaction, }; use helix_view::{ apply_transaction, clipboard::ClipboardType, document::{FormatterError, Mode, SCRATCH_BUFFER_NAME}, editor::{Action, Motion}, info::Info, input::KeyEvent, keyboard::KeyCode, tree, view::View, Document, DocumentId, Editor, ViewId, }; use anyhow::{anyhow, bail, ensure, Context as _}; use fuzzy_matcher::FuzzyMatcher; use insert::*; use movement::Movement; use crate::{ args, compositor::{self, Component, Compositor}, job::Callback, keymap::ReverseKeymap, ui::{self, overlay::overlayed, FilePicker, Picker, Popup, Prompt, PromptEvent}, }; use crate::job::{self, Jobs}; use futures_util::StreamExt; use std::{collections::HashMap, fmt, fmt::Write, future::Future}; use std::{collections::HashSet, num::NonZeroUsize}; use std::{ borrow::Cow, path::{Path, PathBuf}, }; use once_cell::sync::Lazy; use serde::de::{self, Deserialize, Deserializer}; use grep_regex::RegexMatcherBuilder; use grep_searcher::{sinks, BinaryDetection, SearcherBuilder}; use ignore::{DirEntry, WalkBuilder, WalkState}; use tokio_stream::wrappers::UnboundedReceiverStream; pub struct Context<'a> { pub register: Option, pub count: Option, pub editor: &'a mut Editor, pub callback: Option, pub on_next_key_callback: Option>, pub jobs: &'a mut Jobs, } impl<'a> Context<'a> { /// Push a new component onto the compositor. pub fn push_layer(&mut self, component: Box) { self.callback = Some(Box::new(|compositor: &mut Compositor, _| { 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: job::Callback = Callback::EditorCompositor(Box::new( move |editor: &mut Editor, compositor: &mut Compositor| { callback(editor, compositor, response) }, )); Ok(call) }); self.jobs.callback(callback); } /// Returns 1 if no explicit count was provided #[inline] pub fn count(&self) -> usize { self.count.map_or(1, |v| v.get()) } } use helix_view::{align_view, Align}; /// A MappableCommand is either a static command like "jump_view_up" or a Typable command like /// :format. It causes a side-effect on the state (usually by creating and applying a transaction). /// Both of these types of commands can be mapped with keybindings in the config.toml. #[derive(Clone)] pub enum MappableCommand { Typable { name: String, args: Vec, doc: String, }, Static { name: &'static str, fun: fn(cx: &mut Context), doc: &'static str, }, } macro_rules! static_commands { ( $($name:ident, $doc:literal,)* ) => { $( #[allow(non_upper_case_globals)] pub const $name: Self = Self::Static { name: stringify!($name), fun: $name, doc: $doc }; )* pub const STATIC_COMMAND_LIST: &'static [Self] = &[ $( Self::$name, )* ]; } } impl MappableCommand { pub fn execute(&self, cx: &mut Context) { match &self { Self::Typable { name, args, doc: _ } => { let args: Vec> = args.iter().map(Cow::from).collect(); if let Some(command) = typed::TYPABLE_COMMAND_MAP.get(name.as_str()) { let mut cx = compositor::Context { editor: cx.editor, jobs: cx.jobs, scroll: None, }; if let Err(e) = (command.fun)(&mut cx, &args[..], PromptEvent::Validate) { cx.editor.set_error(format!("{}", e)); } } } Self::Static { fun, .. } => (fun)(cx), } } pub fn name(&self) -> &str { match &self { Self::Typable { name, .. } => name, Self::Static { name, .. } => name, } } pub fn doc(&self) -> &str { match &self { Self::Typable { doc, .. } => doc, Self::Static { doc, .. } => doc, } } #[rustfmt::skip] static_commands!( no_op, "Do nothing", move_char_left, "Move left", move_char_right, "Move right", move_line_up, "Move up", move_line_down, "Move down", extend_char_left, "Extend left", extend_char_right, "Extend right", extend_line_up, "Extend up", extend_line_down, "Extend down", copy_selection_on_next_line, "Copy selection on next line", copy_selection_on_prev_line, "Copy selection on previous line", move_next_word_start, "Move to start of next word", move_prev_word_start, "Move to start of previous word", move_next_word_end, "Move to end of next word", move_prev_word_end, "Move to end of previous word", move_next_long_word_start, "Move to start of next long word", move_prev_long_word_start, "Move to start of previous long word", move_next_long_word_end, "Move to end of next long word", extend_next_word_start, "Extend to start of next word", extend_prev_word_start, "Extend to start of previous word", extend_next_word_end, "Extend to end of next word", extend_prev_word_end, "Extend to end of previous word", extend_next_long_word_start, "Extend to start of next long word", extend_prev_long_word_start, "Extend to start of previous long word", extend_next_long_word_end, "Extend to end of next long word", find_till_char, "Move till next occurrence of char", find_next_char, "Move to next occurrence of char", extend_till_char, "Extend till next occurrence of char", extend_next_char, "Extend to next occurrence of char", till_prev_char, "Move till previous occurrence of char", find_prev_char, "Move to previous occurrence of char", extend_till_prev_char, "Extend till previous occurrence of char", extend_prev_char, "Extend to previous occurrence of char", repeat_last_motion, "Repeat last motion", replace, "Replace with new char", switch_case, "Switch (toggle) case", switch_to_uppercase, "Switch to uppercase", switch_to_lowercase, "Switch to lowercase", page_up, "Move page up", page_down, "Move page down", half_page_up, "Move half page up", half_page_down, "Move half page down", select_all, "Select whole document", select_regex, "Select all regex matches inside selections", split_selection, "Split selections on regex matches", split_selection_on_newline, "Split selection on newlines", search, "Search for regex pattern", rsearch, "Reverse search for regex pattern", search_next, "Select next search match", search_prev, "Select previous search match", extend_search_next, "Add next search match to selection", extend_search_prev, "Add previous search match to selection", search_selection, "Use current selection as search pattern", global_search, "Global search in workspace folder", extend_line, "Select current line, if already selected, extend to another line based on the anchor", extend_line_below, "Select current line, if already selected, extend to next line", extend_line_above, "Select current line, if already selected, extend to previous line", extend_to_line_bounds, "Extend selection to line bounds", shrink_to_line_bounds, "Shrink selection to line bounds", delete_selection, "Delete selection", delete_selection_noyank, "Delete selection without yanking", change_selection, "Change selection", change_selection_noyank, "Change selection without yanking", collapse_selection, "Collapse selection into single cursor", flip_selections, "Flip selection cursor and anchor", ensure_selections_forward, "Ensure all selections face forward", insert_mode, "Insert before selection", append_mode, "Append after selection", command_mode, "Enter command mode", file_picker, "Open file picker", file_picker_in_current_directory, "Open file picker at current working directory", code_action, "Perform code action", buffer_picker, "Open buffer picker", jumplist_picker, "Open jumplist picker", symbol_picker, "Open symbol picker", select_references_to_symbol_under_cursor, "Select symbol references", workspace_symbol_picker, "Open workspace symbol picker", diagnostics_picker, "Open diagnostic picker", workspace_diagnostics_picker, "Open workspace diagnostic picker", last_picker, "Open last picker", insert_at_line_start, "Insert at start of line", insert_at_line_end, "Insert at end of line", open_below, "Open new line below selection", open_above, "Open new line above selection", normal_mode, "Enter normal mode", select_mode, "Enter selection extend mode", exit_select_mode, "Exit selection mode", goto_definition, "Goto definition", add_newline_above, "Add newline above", add_newline_below, "Add newline below", goto_type_definition, "Goto type definition", goto_implementation, "Goto implementation", goto_file_start, "Goto line number else file start", goto_file_end, "Goto file end", goto_file, "Goto files in selection", goto_file_hsplit, "Goto files in selection (hsplit)", goto_file_vsplit, "Goto files in selection (vsplit)", goto_reference, "Goto references", goto_window_top, "Goto window top", goto_window_center, "Goto window center", goto_window_bottom, "Goto window bottom", goto_last_accessed_file, "Goto last accessed file", goto_last_modified_file, "Goto last modified file", goto_last_modification, "Goto last modification", goto_line, "Goto line", goto_last_line, "Goto last line", goto_first_diag, "Goto first diagnostic", goto_last_diag, "Goto last diagnostic", goto_next_diag, "Goto next diagnostic", goto_prev_diag, "Goto previous diagnostic", goto_line_start, "Goto line start", goto_line_end, "Goto line end", goto_next_buffer, "Goto next buffer", goto_previous_buffer, "Goto previous buffer", goto_line_end_newline, "Goto newline at line end", goto_first_nonwhitespace, "Goto first non-blank in line", trim_selections, "Trim whitespace from selections", extend_to_line_start, "Extend to line start", extend_to_line_end, "Extend to line end", extend_to_line_end_newline, "Extend to line end", signature_help, "Show signature help", insert_tab, "Insert tab char", insert_newline, "Insert newline char", delete_char_backward, "Delete previous char", delete_char_forward, "Delete next char", delete_word_backward, "Delete previous word", delete_word_forward, "Delete next word", kill_to_line_start, "Delete till start of line", kill_to_line_end, "Delete till end of line", undo, "Undo change", redo, "Redo change", earlier, "Move backward in history", later, "Move forward in history", commit_undo_checkpoint, "Commit changes to new checkpoint", yank, "Yank selection", yank_joined_to_clipboard, "Join and yank selections to clipboard", yank_main_selection_to_clipboard, "Yank main selection to clipboard", yank_joined_to_primary_clipboard, "Join and yank selections to primary clipboard", yank_main_selection_to_primary_clipboard, "Yank main selection to primary clipboard", replace_with_yanked, "Replace with yanked text", replace_selections_with_clipboard, "Replace selections by clipboard content", replace_selections_with_primary_clipboard, "Replace selections by primary clipboard", paste_after, "Paste after selection", paste_before, "Paste before selection", paste_clipboard_after, "Paste clipboard after selections", paste_clipboard_before, "Paste clipboard before selections", paste_primary_clipboard_after, "Paste primary clipboard after selections", paste_primary_clipboard_before, "Paste primary clipboard before selections", indent, "Indent selection", unindent, "Unindent selection", format_selections, "Format selection", join_selections, "Join lines inside selection", join_selections_space, "Join lines inside selection and select spaces", keep_selections, "Keep selections matching regex", remove_selections, "Remove selections matching regex", align_selections, "Align selections in column", keep_primary_selection, "Keep primary selection", remove_primary_selection, "Remove primary selection", completion, "Invoke completion popup", hover, "Show docs for item under cursor", toggle_comments, "Comment/uncomment selections", rotate_selections_forward, "Rotate selections forward", rotate_selections_backward, "Rotate selections backward", rotate_selection_contents_forward, "Rotate selection contents forward", rotate_selection_contents_backward, "Rotate selections contents backward", expand_selection, "Expand selection to parent syntax node", shrink_selection, "Shrink selection to previously expanded syntax node", select_next_sibling, "Select next sibling in syntax tree", select_prev_sibling, "Select previous sibling in syntax tree", jump_forward, "Jump forward on jumplist", jump_backward, "Jump backward on jumplist", save_selection, "Save current selection to jumplist", jump_view_right, "Jump to right split", jump_view_left, "Jump to left split", jump_view_up, "Jump to split above", jump_view_down, "Jump to split below", swap_view_right, "Swap with right split", swap_view_left, "Swap with left split", swap_view_up, "Swap with split above", swap_view_down, "Swap with split below", transpose_view, "Transpose splits", rotate_view, "Goto next window", hsplit, "Horizontal bottom split", hsplit_new, "Horizontal bottom split scratch buffer", vsplit, "Vertical right split", vsplit_new, "Vertical right split scratch buffer", wclose, "Close window", wonly, "Close windows except current", select_register, "Select register", insert_register, "Insert register", align_view_middle, "Align view middle", align_view_top, "Align view top", align_view_center, "Align view center", align_view_bottom, "Align view bottom", scroll_up, "Scroll view up", scroll_down, "Scroll view down", match_brackets, "Goto matching bracket", surround_add, "Surround add", surround_replace, "Surround replace", surround_delete, "Surround delete", select_textobject_around, "Select around object", select_textobject_inner, "Select inside object", goto_next_function, "Goto next function", goto_prev_function, "Goto previous function", goto_next_class, "Goto next class", goto_prev_class, "Goto previous class", goto_next_parameter, "Goto next parameter", goto_prev_parameter, "Goto previous parameter", goto_next_comment, "Goto next comment", goto_prev_comment, "Goto previous comment", goto_next_test, "Goto next test", goto_prev_test, "Goto previous test", goto_next_paragraph, "Goto next paragraph", goto_prev_paragraph, "Goto previous paragraph", dap_launch, "Launch debug target", dap_toggle_breakpoint, "Toggle breakpoint", dap_continue, "Continue program execution", dap_pause, "Pause program execution", dap_step_in, "Step in", dap_step_out, "Step out", dap_next, "Step to next", dap_variables, "List variables", dap_terminate, "End debug session", dap_edit_condition, "Edit breakpoint condition on current line", dap_edit_log, "Edit breakpoint log message on current line", dap_switch_thread, "Switch current thread", dap_switch_stack_frame, "Switch stack frame", dap_enable_exceptions, "Enable exception breakpoints", dap_disable_exceptions, "Disable exception breakpoints", shell_pipe, "Pipe selections through shell command", shell_pipe_to, "Pipe selections into shell command ignoring output", shell_insert_output, "Insert shell command output before selections", shell_append_output, "Append shell command output after selections", shell_keep_pipe, "Filter selections with shell predicate", suspend, "Suspend and return to shell", rename_symbol, "Rename symbol", increment, "Increment item under cursor", decrement, "Decrement item under cursor", record_macro, "Record macro", replay_macro, "Replay macro", command_palette, "Open command palette", ); } impl fmt::Debug for MappableCommand { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { f.debug_tuple("MappableCommand") .field(&self.name()) .finish() } } impl fmt::Display for MappableCommand { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { f.write_str(self.name()) } } impl std::str::FromStr for MappableCommand { type Err = anyhow::Error; fn from_str(s: &str) -> Result { if let Some(suffix) = s.strip_prefix(':') { let mut typable_command = suffix.split(' ').into_iter().map(|arg| arg.trim()); let name = typable_command .next() .ok_or_else(|| anyhow!("Expected typable command name"))?; let args = typable_command .map(|s| s.to_owned()) .collect::>(); typed::TYPABLE_COMMAND_MAP .get(name) .map(|cmd| MappableCommand::Typable { name: cmd.name.to_owned(), doc: format!(":{} {:?}", cmd.name, args), args, }) .ok_or_else(|| anyhow!("No TypableCommand named '{}'", s)) } else { MappableCommand::STATIC_COMMAND_LIST .iter() .find(|cmd| cmd.name() == s) .cloned() .ok_or_else(|| anyhow!("No command named '{}'", s)) } } } impl<'de> Deserialize<'de> for MappableCommand { fn deserialize(deserializer: D) -> Result where D: Deserializer<'de>, { let s = String::deserialize(deserializer)?; s.parse().map_err(de::Error::custom) } } impl PartialEq for MappableCommand { fn eq(&self, other: &Self) -> bool { match (self, other) { ( MappableCommand::Typable { name: first_name, .. }, MappableCommand::Typable { name: second_name, .. }, ) => first_name == second_name, ( MappableCommand::Static { name: first_name, .. }, MappableCommand::Static { name: second_name, .. }, ) => first_name == second_name, _ => false, } } } fn no_op(_cx: &mut Context) {} fn move_impl(cx: &mut Context, move_fn: F, dir: Direction, behaviour: Movement) where F: Fn(RopeSlice, Range, Direction, usize, Movement, usize) -> Range, { let count = cx.count(); let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let selection = doc .selection(view.id) .clone() .transform(|range| move_fn(text, range, dir, count, behaviour, doc.tab_width())); doc.set_selection(view.id, selection); } use helix_core::movement::{move_horizontally, move_vertically}; fn move_char_left(cx: &mut Context) { move_impl(cx, move_horizontally, Direction::Backward, Movement::Move) } fn move_char_right(cx: &mut Context) { move_impl(cx, move_horizontally, Direction::Forward, Movement::Move) } fn move_line_up(cx: &mut Context) { move_impl(cx, move_vertically, Direction::Backward, Movement::Move) } fn move_line_down(cx: &mut Context) { move_impl(cx, move_vertically, Direction::Forward, Movement::Move) } fn extend_char_left(cx: &mut Context) { move_impl(cx, move_horizontally, Direction::Backward, Movement::Extend) } fn extend_char_right(cx: &mut Context) { move_impl(cx, move_horizontally, Direction::Forward, Movement::Extend) } fn extend_line_up(cx: &mut Context) { move_impl(cx, move_vertically, Direction::Backward, Movement::Extend) } fn extend_line_down(cx: &mut Context) { move_impl(cx, move_vertically, Direction::Forward, Movement::Extend) } fn goto_line_end_impl(view: &mut View, doc: &mut Document, movement: Movement) { let text = doc.text().slice(..); let selection = doc.selection(view.id).clone().transform(|range| { let line = range.cursor_line(text); let line_start = text.line_to_char(line); let pos = graphemes::prev_grapheme_boundary(text, line_end_char_index(&text, line)) .max(line_start); range.put_cursor(text, pos, movement == Movement::Extend) }); doc.set_selection(view.id, selection); } fn goto_line_end(cx: &mut Context) { let (view, doc) = current!(cx.editor); goto_line_end_impl( view, doc, if cx.editor.mode == Mode::Select { Movement::Extend } else { Movement::Move }, ) } fn extend_to_line_end(cx: &mut Context) { let (view, doc) = current!(cx.editor); goto_line_end_impl(view, doc, Movement::Extend) } fn goto_line_end_newline_impl(view: &mut View, doc: &mut Document, movement: Movement) { let text = doc.text().slice(..); let selection = doc.selection(view.id).clone().transform(|range| { let line = range.cursor_line(text); let pos = line_end_char_index(&text, line); range.put_cursor(text, pos, movement == Movement::Extend) }); doc.set_selection(view.id, selection); } fn goto_line_end_newline(cx: &mut Context) { let (view, doc) = current!(cx.editor); goto_line_end_newline_impl( view, doc, if cx.editor.mode == Mode::Select { Movement::Extend } else { Movement::Move }, ) } fn extend_to_line_end_newline(cx: &mut Context) { let (view, doc) = current!(cx.editor); goto_line_end_newline_impl(view, doc, Movement::Extend) } fn goto_line_start_impl(view: &mut View, doc: &mut Document, movement: Movement) { let text = doc.text().slice(..); let selection = doc.selection(view.id).clone().transform(|range| { let line = range.cursor_line(text); // adjust to start of the line let pos = text.line_to_char(line); range.put_cursor(text, pos, movement == Movement::Extend) }); doc.set_selection(view.id, selection); } fn goto_line_start(cx: &mut Context) { let (view, doc) = current!(cx.editor); goto_line_start_impl( view, doc, if cx.editor.mode == Mode::Select { Movement::Extend } else { Movement::Move }, ) } fn goto_next_buffer(cx: &mut Context) { goto_buffer(cx.editor, Direction::Forward); } fn goto_previous_buffer(cx: &mut Context) { goto_buffer(cx.editor, Direction::Backward); } fn goto_buffer(editor: &mut Editor, direction: Direction) { let current = view!(editor).doc; let id = match direction { Direction::Forward => { let iter = editor.documents.keys(); let mut iter = iter.skip_while(|id| *id != ¤t); iter.next(); // skip current item iter.next().or_else(|| editor.documents.keys().next()) } Direction::Backward => { let iter = editor.documents.keys(); let mut iter = iter.rev().skip_while(|id| *id != ¤t); iter.next(); // skip current item iter.next().or_else(|| editor.documents.keys().rev().next()) } } .unwrap(); let id = *id; editor.switch(id, Action::Replace); } fn extend_to_line_start(cx: &mut Context) { let (view, doc) = current!(cx.editor); goto_line_start_impl(view, doc, Movement::Extend) } fn kill_to_line_start(cx: &mut Context) { let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let selection = doc.selection(view.id).clone().transform(|range| { let line = range.cursor_line(text); let first_char = text.line_to_char(line); let anchor = range.cursor(text); let head = if anchor == first_char && line != 0 { // select until previous line line_end_char_index(&text, line - 1) } else if let Some(pos) = find_first_non_whitespace_char(text.line(line)) { if first_char + pos < anchor { // select until first non-blank in line if cursor is after it first_char + pos } else { // select until start of line first_char } } else { // select until start of line first_char }; Range::new(head, anchor) }); delete_selection_insert_mode(doc, view, &selection); lsp::signature_help_impl(cx, SignatureHelpInvoked::Automatic); } fn kill_to_line_end(cx: &mut Context) { let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let selection = doc.selection(view.id).clone().transform(|range| { let line = range.cursor_line(text); let line_end_pos = line_end_char_index(&text, line); let pos = range.cursor(text); let mut new_range = range.put_cursor(text, line_end_pos, true); // don't want to remove the line separator itself if the cursor doesn't reach the end of line. if pos != line_end_pos { new_range.head = line_end_pos; } new_range }); delete_selection_insert_mode(doc, view, &selection); lsp::signature_help_impl(cx, SignatureHelpInvoked::Automatic); } fn goto_first_nonwhitespace(cx: &mut Context) { let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let selection = doc.selection(view.id).clone().transform(|range| { let line = range.cursor_line(text); if let Some(pos) = find_first_non_whitespace_char(text.line(line)) { let pos = pos + text.line_to_char(line); range.put_cursor(text, pos, cx.editor.mode == Mode::Select) } else { range } }); doc.set_selection(view.id, selection); } fn trim_selections(cx: &mut Context) { let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let ranges: SmallVec<[Range; 1]> = doc .selection(view.id) .iter() .filter_map(|range| { if range.is_empty() || range.slice(text).chars().all(|ch| ch.is_whitespace()) { return None; } let mut start = range.from(); let mut end = range.to(); start = movement::skip_while(text, start, |x| x.is_whitespace()).unwrap_or(start); end = movement::backwards_skip_while(text, end, |x| x.is_whitespace()).unwrap_or(end); if range.anchor < range.head { Some(Range::new(start, end)) } else { Some(Range::new(end, start)) } }) .collect(); if !ranges.is_empty() { let primary = doc.selection(view.id).primary(); let idx = ranges .iter() .position(|range| range.overlaps(&primary)) .unwrap_or(ranges.len() - 1); doc.set_selection(view.id, Selection::new(ranges, idx)); } else { collapse_selection(cx); keep_primary_selection(cx); }; } // align text in selection fn align_selections(cx: &mut Context) { let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let selection = doc.selection(view.id); let tab_width = doc.tab_width(); let mut column_widths: Vec> = Vec::new(); let mut last_line = text.len_lines() + 1; let mut col = 0; for range in selection { let coords = visual_coords_at_pos(text, range.head, tab_width); let anchor_coords = visual_coords_at_pos(text, range.anchor, tab_width); if coords.row != anchor_coords.row { cx.editor .set_error("align cannot work with multi line selections"); return; } col = if coords.row == last_line { col + 1 } else { 0 }; if col >= column_widths.len() { column_widths.push(Vec::new()); } column_widths[col].push((range.from(), coords.col)); last_line = coords.row; } let mut changes = Vec::with_capacity(selection.len()); // Account for changes on each row let len = column_widths.first().map(|cols| cols.len()).unwrap_or(0); let mut offs = vec![0; len]; for col in column_widths { let max_col = col .iter() .enumerate() .map(|(row, (_, cursor))| *cursor + offs[row]) .max() .unwrap_or(0); for (row, (insert_pos, last_col)) in col.into_iter().enumerate() { let ins_count = max_col - (last_col + offs[row]); if ins_count == 0 { continue; } offs[row] += ins_count; changes.push((insert_pos, insert_pos, Some(" ".repeat(ins_count).into()))); } } // The changeset has to be sorted changes.sort_unstable_by_key(|(from, _, _)| *from); let transaction = Transaction::change(doc.text(), changes.into_iter()); apply_transaction(&transaction, doc, view); } fn goto_window(cx: &mut Context, align: Align) { let count = cx.count() - 1; let config = cx.editor.config(); let (view, doc) = current!(cx.editor); let height = view.inner_height(); // respect user given count if any // - 1 so we have at least one gap in the middle. // a height of 6 with padding of 3 on each side will keep shifting the view back and forth // as we type let scrolloff = config.scrolloff.min(height.saturating_sub(1) / 2); let last_line = view.last_line(doc); let line = match align { Align::Top => view.offset.row + scrolloff + count, Align::Center => view.offset.row + ((last_line - view.offset.row) / 2), Align::Bottom => last_line.saturating_sub(scrolloff + count), } .max(view.offset.row + scrolloff) .min(last_line.saturating_sub(scrolloff)); let pos = doc.text().line_to_char(line); let text = doc.text().slice(..); let selection = doc .selection(view.id) .clone() .transform(|range| range.put_cursor(text, pos, cx.editor.mode == Mode::Select)); doc.set_selection(view.id, selection); } fn goto_window_top(cx: &mut Context) { goto_window(cx, Align::Top) } fn goto_window_center(cx: &mut Context) { goto_window(cx, Align::Center) } fn goto_window_bottom(cx: &mut Context) { goto_window(cx, Align::Bottom) } fn move_word_impl(cx: &mut Context, move_fn: F) where F: Fn(RopeSlice, Range, usize) -> Range, { let count = cx.count(); let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let selection = doc .selection(view.id) .clone() .transform(|range| move_fn(text, range, count)); doc.set_selection(view.id, selection); } fn move_next_word_start(cx: &mut Context) { move_word_impl(cx, movement::move_next_word_start) } fn move_prev_word_start(cx: &mut Context) { move_word_impl(cx, movement::move_prev_word_start) } fn move_prev_word_end(cx: &mut Context) { move_word_impl(cx, movement::move_prev_word_end) } fn move_next_word_end(cx: &mut Context) { move_word_impl(cx, movement::move_next_word_end) } fn move_next_long_word_start(cx: &mut Context) { move_word_impl(cx, movement::move_next_long_word_start) } fn move_prev_long_word_start(cx: &mut Context) { move_word_impl(cx, movement::move_prev_long_word_start) } fn move_next_long_word_end(cx: &mut Context) { move_word_impl(cx, movement::move_next_long_word_end) } fn goto_para_impl(cx: &mut Context, move_fn: F) where F: Fn(RopeSlice, Range, usize, Movement) -> Range + 'static, { let count = cx.count(); let motion = move |editor: &mut Editor| { let (view, doc) = current!(editor); let text = doc.text().slice(..); let behavior = if editor.mode == Mode::Select { Movement::Extend } else { Movement::Move }; let selection = doc .selection(view.id) .clone() .transform(|range| move_fn(text, range, count, behavior)); doc.set_selection(view.id, selection); }; motion(cx.editor); cx.editor.last_motion = Some(Motion(Box::new(motion))); } fn goto_prev_paragraph(cx: &mut Context) { goto_para_impl(cx, movement::move_prev_paragraph) } fn goto_next_paragraph(cx: &mut Context) { goto_para_impl(cx, movement::move_next_paragraph) } fn goto_file_start(cx: &mut Context) { if cx.count.is_some() { goto_line(cx); } else { let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let selection = doc .selection(view.id) .clone() .transform(|range| range.put_cursor(text, 0, cx.editor.mode == Mode::Select)); push_jump(view, doc); doc.set_selection(view.id, selection); } } fn goto_file_end(cx: &mut Context) { let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let pos = doc.text().len_chars(); let selection = doc .selection(view.id) .clone() .transform(|range| range.put_cursor(text, pos, cx.editor.mode == Mode::Select)); push_jump(view, doc); doc.set_selection(view.id, selection); } fn goto_file(cx: &mut Context) { goto_file_impl(cx, Action::Replace); } fn goto_file_hsplit(cx: &mut Context) { goto_file_impl(cx, Action::HorizontalSplit); } fn goto_file_vsplit(cx: &mut Context) { goto_file_impl(cx, Action::VerticalSplit); } /// Goto files in selection. fn goto_file_impl(cx: &mut Context, action: Action) { let (view, doc) = current_ref!(cx.editor); let text = doc.text(); let selections = doc.selection(view.id); let mut paths: Vec<_> = selections .iter() .map(|r| text.slice(r.from()..r.to()).to_string()) .collect(); let primary = selections.primary(); // Checks whether there is only one selection with a width of 1 if selections.len() == 1 && primary.len() == 1 { let count = cx.count(); let text_slice = text.slice(..); // In this case it selects the WORD under the cursor let current_word = textobject::textobject_word( text_slice, primary, textobject::TextObject::Inside, count, true, ); // Trims some surrounding chars so that the actual file is opened. let surrounding_chars: &[_] = &['\'', '"', '(', ')']; paths.clear(); paths.push( current_word .fragment(text_slice) .trim_matches(surrounding_chars) .to_string(), ); } for sel in paths { let p = sel.trim(); if !p.is_empty() { if let Err(e) = cx.editor.open(&PathBuf::from(p), action) { cx.editor.set_error(format!("Open file failed: {:?}", e)); } } } } fn extend_word_impl(cx: &mut Context, extend_fn: F) where F: Fn(RopeSlice, Range, usize) -> Range, { let count = cx.count(); let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let selection = doc.selection(view.id).clone().transform(|range| { let word = extend_fn(text, range, count); let pos = word.cursor(text); range.put_cursor(text, pos, true) }); doc.set_selection(view.id, selection); } fn extend_next_word_start(cx: &mut Context) { extend_word_impl(cx, movement::move_next_word_start) } fn extend_prev_word_start(cx: &mut Context) { extend_word_impl(cx, movement::move_prev_word_start) } fn extend_next_word_end(cx: &mut Context) { extend_word_impl(cx, movement::move_next_word_end) } fn extend_prev_word_end(cx: &mut Context) { extend_word_impl(cx, movement::move_prev_word_end) } fn extend_next_long_word_start(cx: &mut Context) { extend_word_impl(cx, movement::move_next_long_word_start) } fn extend_prev_long_word_start(cx: &mut Context) { extend_word_impl(cx, movement::move_prev_long_word_start) } fn extend_next_long_word_end(cx: &mut Context) { extend_word_impl(cx, movement::move_next_long_word_end) } fn will_find_char(cx: &mut Context, search_fn: F, inclusive: bool, extend: bool) where F: Fn(RopeSlice, char, usize, usize, bool) -> Option + 'static, { // 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 // TODO: should this be done by grapheme rather than char? For example, // we can't properly handle the line-ending CRLF case here in terms of char. cx.on_next_key(move |cx, event| { let ch = match event { KeyEvent { code: KeyCode::Enter, .. } => // TODO: this isn't quite correct when CRLF is involved. // This hack will work in most cases, since documents don't // usually mix line endings. But we should fix it eventually // anyway. { doc!(cx.editor).line_ending.as_str().chars().next().unwrap() } KeyEvent { code: KeyCode::Char(ch), .. } => ch, _ => return, }; find_char_impl(cx.editor, &search_fn, inclusive, extend, ch, count); cx.editor.last_motion = Some(Motion(Box::new(move |editor: &mut Editor| { find_char_impl(editor, &search_fn, inclusive, true, ch, 1); }))); }) } // #[inline] fn find_char_impl( editor: &mut Editor, search_fn: &F, inclusive: bool, extend: bool, char_matcher: M, count: usize, ) where F: Fn(RopeSlice, M, usize, usize, bool) -> Option + 'static, { let (view, doc) = current!(editor); let text = doc.text().slice(..); let selection = doc.selection(view.id).clone().transform(|range| { // TODO: use `Range::cursor()` here instead. However, that works in terms of // graphemes, whereas this function doesn't yet. So we're doing the same logic // here, but just in terms of chars instead. let search_start_pos = if range.anchor < range.head { range.head - 1 } else { range.head }; search_fn(text, char_matcher, search_start_pos, count, inclusive).map_or(range, |pos| { if extend { range.put_cursor(text, pos, true) } else { Range::point(range.cursor(text)).put_cursor(text, pos, true) } }) }); doc.set_selection(view.id, selection); } fn find_next_char_impl( text: RopeSlice, ch: char, pos: usize, n: usize, inclusive: bool, ) -> Option { let pos = (pos + 1).min(text.len_chars()); if inclusive { search::find_nth_next(text, ch, pos, n) } else { let n = match text.get_char(pos) { Some(next_ch) if next_ch == ch => n + 1, _ => n, }; search::find_nth_next(text, ch, pos, n).map(|n| n.saturating_sub(1)) } } fn find_prev_char_impl( text: RopeSlice, ch: char, pos: usize, n: usize, inclusive: bool, ) -> Option { if inclusive { search::find_nth_prev(text, ch, pos, n) } else { let n = match text.get_char(pos.saturating_sub(1)) { Some(next_ch) if next_ch == ch => n + 1, _ => n, }; search::find_nth_prev(text, ch, pos, n).map(|n| (n + 1).min(text.len_chars())) } } fn find_till_char(cx: &mut Context) { will_find_char(cx, find_next_char_impl, false, false) } fn find_next_char(cx: &mut Context) { will_find_char(cx, find_next_char_impl, true, false) } fn extend_till_char(cx: &mut Context) { will_find_char(cx, find_next_char_impl, false, true) } fn extend_next_char(cx: &mut Context) { will_find_char(cx, find_next_char_impl, true, true) } fn till_prev_char(cx: &mut Context) { will_find_char(cx, find_prev_char_impl, false, false) } fn find_prev_char(cx: &mut Context) { will_find_char(cx, find_prev_char_impl, true, false) } fn extend_till_prev_char(cx: &mut Context) { will_find_char(cx, find_prev_char_impl, false, true) } fn extend_prev_char(cx: &mut Context) { will_find_char(cx, find_prev_char_impl, true, true) } fn repeat_last_motion(cx: &mut Context) { let count = cx.count(); let last_motion = cx.editor.last_motion.take(); if let Some(m) = &last_motion { for _ in 0..count { m.run(cx.editor); } cx.editor.last_motion = last_motion; } } fn replace(cx: &mut Context) { let mut buf = [0u8; 4]; // To hold utf8 encoded char. // need to wait for next key cx.on_next_key(move |cx, event| { let (view, doc) = current!(cx.editor); let ch: Option<&str> = match event { KeyEvent { code: KeyCode::Char(ch), .. } => Some(ch.encode_utf8(&mut buf[..])), KeyEvent { code: KeyCode::Enter, .. } => Some(doc.line_ending.as_str()), _ => None, }; let selection = doc.selection(view.id); if let Some(ch) = ch { let transaction = Transaction::change_by_selection(doc.text(), selection, |range| { if !range.is_empty() { let text: String = RopeGraphemes::new(doc.text().slice(range.from()..range.to())) .map(|g| { let cow: Cow = g.into(); if str_is_line_ending(&cow) { cow } else { ch.into() } }) .collect(); (range.from(), range.to(), Some(text.into())) } else { // No change. (range.from(), range.to(), None) } }); apply_transaction(&transaction, doc, view); exit_select_mode(cx); } }) } fn switch_case_impl(cx: &mut Context, change_fn: F) where F: Fn(RopeSlice) -> Tendril, { let (view, doc) = current!(cx.editor); let selection = doc.selection(view.id); let transaction = Transaction::change_by_selection(doc.text(), selection, |range| { let text: Tendril = change_fn(range.slice(doc.text().slice(..))); (range.from(), range.to(), Some(text)) }); apply_transaction(&transaction, doc, view); } fn switch_case(cx: &mut Context) { switch_case_impl(cx, |string| { string .chars() .flat_map(|ch| { if ch.is_lowercase() { ch.to_uppercase().collect() } else if ch.is_uppercase() { ch.to_lowercase().collect() } else { vec![ch] } }) .collect() }); } fn switch_to_uppercase(cx: &mut Context) { switch_case_impl(cx, |string| { string.chunks().map(|chunk| chunk.to_uppercase()).collect() }); } fn switch_to_lowercase(cx: &mut Context) { switch_case_impl(cx, |string| { string.chunks().map(|chunk| chunk.to_lowercase()).collect() }); } pub fn scroll(cx: &mut Context, offset: usize, direction: Direction) { use Direction::*; let config = cx.editor.config(); let (view, doc) = current!(cx.editor); let range = doc.selection(view.id).primary(); let text = doc.text().slice(..); let cursor = visual_coords_at_pos(text, range.cursor(text), doc.tab_width()); let doc_last_line = doc.text().len_lines().saturating_sub(1); let last_line = view.last_line(doc); if direction == Backward && view.offset.row == 0 || direction == Forward && last_line == doc_last_line { return; } let height = view.inner_height(); let scrolloff = config.scrolloff.min(height / 2); view.offset.row = match direction { Forward => view.offset.row + offset, Backward => view.offset.row.saturating_sub(offset), } .min(doc_last_line); // recalculate last line let last_line = view.last_line(doc); // clamp into viewport let line = cursor .row .max(view.offset.row + scrolloff) .min(last_line.saturating_sub(scrolloff)); // If cursor needs moving, replace primary selection if line != cursor.row { let head = pos_at_visual_coords(text, Position::new(line, cursor.col), doc.tab_width()); // this func will properly truncate to line end let anchor = if cx.editor.mode == Mode::Select { range.anchor } else { head }; // replace primary selection with an empty selection at cursor pos let prim_sel = Range::new(anchor, head); let mut sel = doc.selection(view.id).clone(); let idx = sel.primary_index(); sel = sel.replace(idx, prim_sel); doc.set_selection(view.id, sel); } } fn page_up(cx: &mut Context) { let view = view!(cx.editor); let offset = view.inner_height(); scroll(cx, offset, Direction::Backward); } fn page_down(cx: &mut Context) { let view = view!(cx.editor); let offset = view.inner_height(); scroll(cx, offset, Direction::Forward); } fn half_page_up(cx: &mut Context) { let view = view!(cx.editor); let offset = view.inner_height() / 2; scroll(cx, offset, Direction::Backward); } fn half_page_down(cx: &mut Context) { let view = view!(cx.editor); let offset = view.inner_height() / 2; scroll(cx, offset, Direction::Forward); } fn copy_selection_on_line(cx: &mut Context, direction: Direction) { let count = cx.count(); let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let selection = doc.selection(view.id); let mut ranges = SmallVec::with_capacity(selection.ranges().len() * (count + 1)); ranges.extend_from_slice(selection.ranges()); let mut primary_index = 0; for range in selection.iter() { let is_primary = *range == selection.primary(); // The range is always head exclusive let (head, anchor) = if range.anchor < range.head { (range.head - 1, range.anchor) } else { (range.head, range.anchor.saturating_sub(1)) }; let tab_width = doc.tab_width(); let head_pos = visual_coords_at_pos(text, head, tab_width); let anchor_pos = visual_coords_at_pos(text, anchor, tab_width); let height = std::cmp::max(head_pos.row, anchor_pos.row) - std::cmp::min(head_pos.row, anchor_pos.row) + 1; if is_primary { primary_index = ranges.len(); } ranges.push(*range); let mut sels = 0; let mut i = 0; while sels < count { let offset = (i + 1) * height; let anchor_row = match direction { Direction::Forward => anchor_pos.row + offset, Direction::Backward => anchor_pos.row.saturating_sub(offset), }; let head_row = match direction { Direction::Forward => head_pos.row + offset, Direction::Backward => head_pos.row.saturating_sub(offset), }; if anchor_row >= text.len_lines() || head_row >= text.len_lines() { break; } let anchor = pos_at_visual_coords(text, Position::new(anchor_row, anchor_pos.col), tab_width); let head = pos_at_visual_coords(text, Position::new(head_row, head_pos.col), tab_width); // skip lines that are too short if visual_coords_at_pos(text, anchor, tab_width).col == anchor_pos.col && visual_coords_at_pos(text, head, tab_width).col == head_pos.col { if is_primary { primary_index = ranges.len(); } // This is Range::new(anchor, head), but it will place the cursor on the correct column ranges.push(Range::point(anchor).put_cursor(text, head, true)); sels += 1; } i += 1; } } let selection = Selection::new(ranges, primary_index); doc.set_selection(view.id, selection); } fn copy_selection_on_prev_line(cx: &mut Context) { copy_selection_on_line(cx, Direction::Backward) } fn copy_selection_on_next_line(cx: &mut Context) { copy_selection_on_line(cx, Direction::Forward) } fn select_all(cx: &mut Context) { let (view, doc) = current!(cx.editor); let end = doc.text().len_chars(); doc.set_selection(view.id, Selection::single(0, end)) } fn select_regex(cx: &mut Context) { let reg = cx.register.unwrap_or('/'); ui::regex_prompt( cx, "select:".into(), Some(reg), ui::completers::none, move |editor, regex, event| { let (view, doc) = current!(editor); if !matches!(event, PromptEvent::Update | PromptEvent::Validate) { return; } let text = doc.text().slice(..); if let Some(selection) = selection::select_on_matches(text, doc.selection(view.id), ®ex) { doc.set_selection(view.id, selection); } }, ); } fn split_selection(cx: &mut Context) { let reg = cx.register.unwrap_or('/'); ui::regex_prompt( cx, "split:".into(), Some(reg), ui::completers::none, move |editor, regex, event| { let (view, doc) = current!(editor); if !matches!(event, PromptEvent::Update | PromptEvent::Validate) { return; } let text = doc.text().slice(..); let selection = selection::split_on_matches(text, doc.selection(view.id), ®ex); doc.set_selection(view.id, selection); }, ); } fn split_selection_on_newline(cx: &mut Context) { let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); // only compile the regex once #[allow(clippy::trivial_regex)] static REGEX: Lazy = Lazy::new(|| Regex::new(r"\r\n|[\n\r\u{000B}\u{000C}\u{0085}\u{2028}\u{2029}]").unwrap()); let selection = selection::split_on_matches(text, doc.selection(view.id), ®EX); doc.set_selection(view.id, selection); } #[allow(clippy::too_many_arguments)] fn search_impl( editor: &mut Editor, contents: &str, regex: &Regex, movement: Movement, direction: Direction, scrolloff: usize, wrap_around: bool, show_warnings: bool, ) { let (view, doc) = current!(editor); let text = doc.text().slice(..); let selection = doc.selection(view.id); // Get the right side of the primary block cursor for forward search, or the // grapheme before the start of the selection for reverse search. let start = match direction { Direction::Forward => text.char_to_byte(graphemes::ensure_grapheme_boundary_next( text, selection.primary().to(), )), Direction::Backward => text.char_to_byte(graphemes::ensure_grapheme_boundary_prev( text, selection.primary().from(), )), }; // A regex::Match returns byte-positions in the str. In the case where we // do a reverse search and wraparound to the end, we don't need to search // the text before the current cursor position for matches, but by slicing // it out, we need to add it back to the position of the selection. let mut offset = 0; // use find_at to find the next match after the cursor, loop around the end // Careful, `Regex` uses `bytes` as offsets, not character indices! let mut mat = match direction { Direction::Forward => regex.find_at(contents, start), Direction::Backward => regex.find_iter(&contents[..start]).last(), }; if mat.is_none() { if wrap_around { mat = match direction { Direction::Forward => regex.find(contents), Direction::Backward => { offset = start; regex.find_iter(&contents[start..]).last() } }; } if show_warnings { if wrap_around && mat.is_some() { editor.set_status("Wrapped around document"); } else { editor.set_error("No more matches"); } } } let (view, doc) = current!(editor); let text = doc.text().slice(..); let selection = doc.selection(view.id); if let Some(mat) = mat { let start = text.byte_to_char(mat.start() + offset); let end = text.byte_to_char(mat.end() + offset); if end == 0 { // skip empty matches that don't make sense return; } // Determine range direction based on the primary range let primary = selection.primary(); let range = if primary.head < primary.anchor { Range::new(end, start) } else { Range::new(start, end) }; let selection = match movement { Movement::Extend => selection.clone().push(range), Movement::Move => selection.clone().replace(selection.primary_index(), range), }; doc.set_selection(view.id, selection); // TODO: is_cursor_in_view does the same calculation as ensure_cursor_in_view if view.is_cursor_in_view(doc, 0) { view.ensure_cursor_in_view(doc, scrolloff); } else { align_view(doc, view, Align::Center) } }; } fn search_completions(cx: &mut Context, reg: Option) -> Vec { let mut items = reg .and_then(|reg| cx.editor.registers.get(reg)) .map_or(Vec::new(), |reg| reg.read().iter().take(200).collect()); items.sort_unstable(); items.dedup(); items.into_iter().cloned().collect() } fn search(cx: &mut Context) { searcher(cx, Direction::Forward) } fn rsearch(cx: &mut Context) { searcher(cx, Direction::Backward) } fn searcher(cx: &mut Context, direction: Direction) { let reg = cx.register.unwrap_or('/'); let config = cx.editor.config(); let scrolloff = config.scrolloff; let wrap_around = config.search.wrap_around; let doc = doc!(cx.editor); // 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 completions = search_completions(cx, Some(reg)); ui::regex_prompt( cx, "search:".into(), Some(reg), move |_editor: &Editor, input: &str| { completions .iter() .filter(|comp| comp.starts_with(input)) .map(|comp| (0.., std::borrow::Cow::Owned(comp.clone()))) .collect() }, move |editor, regex, event| { if !matches!(event, PromptEvent::Update | PromptEvent::Validate) { return; } search_impl( editor, &contents, ®ex, Movement::Move, direction, scrolloff, wrap_around, false, ); }, ); } fn search_next_or_prev_impl(cx: &mut Context, movement: Movement, direction: Direction) { let count = cx.count(); let config = cx.editor.config(); let scrolloff = config.scrolloff; let (_, doc) = current!(cx.editor); let registers = &cx.editor.registers; if let Some(query) = registers.read('/').and_then(|query| query.last()) { let contents = doc.text().slice(..).to_string(); let search_config = &config.search; let case_insensitive = if search_config.smart_case { !query.chars().any(char::is_uppercase) } else { false }; let wrap_around = search_config.wrap_around; if let Ok(regex) = RegexBuilder::new(query) .case_insensitive(case_insensitive) .multi_line(true) .build() { for _ in 0..count { search_impl( cx.editor, &contents, ®ex, movement, direction, scrolloff, wrap_around, true, ); } } else { let error = format!("Invalid regex: {}", query); cx.editor.set_error(error); } } } fn search_next(cx: &mut Context) { search_next_or_prev_impl(cx, Movement::Move, Direction::Forward); } fn search_prev(cx: &mut Context) { search_next_or_prev_impl(cx, Movement::Move, Direction::Backward); } fn extend_search_next(cx: &mut Context) { search_next_or_prev_impl(cx, Movement::Extend, Direction::Forward); } fn extend_search_prev(cx: &mut Context) { search_next_or_prev_impl(cx, Movement::Extend, Direction::Backward); } fn search_selection(cx: &mut Context) { let (view, doc) = current!(cx.editor); let contents = doc.text().slice(..); let regex = doc .selection(view.id) .iter() .map(|selection| regex::escape(&selection.fragment(contents))) .collect::>() // Collect into hashset to deduplicate identical regexes .into_iter() .collect::>() .join("|"); let msg = format!("register '{}' set to '{}'", '/', ®ex); cx.editor.registers.push('/', regex); cx.editor.set_status(msg); } fn global_search(cx: &mut Context) { #[derive(Debug)] struct FileResult { path: PathBuf, /// 0 indexed lines line_num: usize, } impl FileResult { fn new(path: &Path, line_num: usize) -> Self { Self { path: path.to_path_buf(), line_num, } } } impl ui::menu::Item for FileResult { type Data = Option; fn label(&self, current_path: &Self::Data) -> Spans { let relative_path = helix_core::path::get_relative_path(&self.path) .to_string_lossy() .into_owned(); if current_path .as_ref() .map(|p| p == &self.path) .unwrap_or(false) { format!("{} (*)", relative_path).into() } else { relative_path.into() } } } let (all_matches_sx, all_matches_rx) = tokio::sync::mpsc::unbounded_channel::(); let config = cx.editor.config(); let smart_case = config.search.smart_case; let file_picker_config = config.file_picker.clone(); let reg = cx.register.unwrap_or('/'); let completions = search_completions(cx, Some(reg)); ui::regex_prompt( cx, "global-search:".into(), Some(reg), move |_editor: &Editor, input: &str| { completions .iter() .filter(|comp| comp.starts_with(input)) .map(|comp| (0.., std::borrow::Cow::Owned(comp.clone()))) .collect() }, move |_editor, regex, event| { if event != PromptEvent::Validate { return; } if let Ok(matcher) = RegexMatcherBuilder::new() .case_smart(smart_case) .build(regex.as_str()) { let searcher = SearcherBuilder::new() .binary_detection(BinaryDetection::quit(b'\x00')) .build(); let search_root = std::env::current_dir() .expect("Global search error: Failed to get current dir"); WalkBuilder::new(search_root) .hidden(file_picker_config.hidden) .parents(file_picker_config.parents) .ignore(file_picker_config.ignore) .follow_links(file_picker_config.follow_symlinks) .git_ignore(file_picker_config.git_ignore) .git_global(file_picker_config.git_global) .git_exclude(file_picker_config.git_exclude) .max_depth(file_picker_config.max_depth) // We always want to ignore the .git directory, otherwise if // `ignore` is turned off above, we end up with a lot of noise // in our picker. .filter_entry(|entry| entry.file_name() != ".git") .build_parallel() .run(|| { let mut searcher = searcher.clone(); let matcher = matcher.clone(); let all_matches_sx = all_matches_sx.clone(); Box::new(move |entry: Result| -> WalkState { let entry = match entry { Ok(entry) => entry, Err(_) => return WalkState::Continue, }; match entry.file_type() { Some(entry) if entry.is_file() => {} // skip everything else _ => return WalkState::Continue, }; let result = searcher.search_path( &matcher, entry.path(), sinks::UTF8(|line_num, _| { all_matches_sx .send(FileResult::new(entry.path(), line_num as usize - 1)) .unwrap(); Ok(true) }), ); if let Err(err) = result { log::error!( "Global search error: {}, {}", entry.path().display(), err ); } WalkState::Continue }) }); } else { // Otherwise do nothing // log::warn!("Global Search Invalid Pattern") } }, ); let current_path = doc_mut!(cx.editor).path().cloned(); let show_picker = async move { let all_matches: Vec = UnboundedReceiverStream::new(all_matches_rx).collect().await; let call: job::Callback = Callback::EditorCompositor(Box::new( move |editor: &mut Editor, compositor: &mut Compositor| { if all_matches.is_empty() { editor.set_status("No matches found"); return; } let picker = FilePicker::new( all_matches, current_path, move |cx, FileResult { path, line_num }, action| { match cx.editor.open(path, action) { Ok(_) => {} Err(e) => { cx.editor.set_error(format!( "Failed to open file '{}': {}", path.display(), e )); return; } } let line_num = *line_num; let (view, doc) = current!(cx.editor); let text = doc.text(); let start = text.line_to_char(line_num); let end = text.line_to_char((line_num + 1).min(text.len_lines())); doc.set_selection(view.id, Selection::single(start, end)); align_view(doc, view, Align::Center); }, |_editor, FileResult { path, line_num }| { Some((path.clone(), Some((*line_num, *line_num)))) }, ); compositor.push(Box::new(overlayed(picker))); }, )); Ok(call) }; cx.jobs.callback(show_picker); } enum Extend { Above, Below, } fn extend_line(cx: &mut Context) { let (view, doc) = current_ref!(cx.editor); let extend = match doc.selection(view.id).primary().direction() { Direction::Forward => Extend::Below, Direction::Backward => Extend::Above, }; extend_line_impl(cx, extend); } fn extend_line_below(cx: &mut Context) { extend_line_impl(cx, Extend::Below); } fn extend_line_above(cx: &mut Context) { extend_line_impl(cx, Extend::Above); } fn extend_line_impl(cx: &mut Context, extend: Extend) { let count = cx.count(); let (view, doc) = current!(cx.editor); let text = doc.text(); let selection = doc.selection(view.id).clone().transform(|range| { let (start_line, end_line) = range.line_range(text.slice(..)); let start = text.line_to_char(match extend { Extend::Above => start_line.saturating_sub(count - 1), Extend::Below => start_line, }); let end = text.line_to_char( match extend { Extend::Above => end_line + 1, // the start of next line Extend::Below => end_line + count, } .min(text.len_lines()), ); // extend to previous/next line if current line is selected let (anchor, head) = if range.from() == start && range.to() == end { match extend { Extend::Above => (end, text.line_to_char(start_line.saturating_sub(count))), Extend::Below => ( start, text.line_to_char((end_line + count + 1).min(text.len_lines())), ), } } else { match extend { Extend::Above => (end, start), Extend::Below => (start, end), } }; Range::new(anchor, head) }); doc.set_selection(view.id, selection); } fn extend_to_line_bounds(cx: &mut Context) { let (view, doc) = current!(cx.editor); doc.set_selection( view.id, doc.selection(view.id).clone().transform(|range| { let text = doc.text(); let (start_line, end_line) = range.line_range(text.slice(..)); let start = text.line_to_char(start_line); let end = text.line_to_char((end_line + 1).min(text.len_lines())); if range.anchor <= range.head { Range::new(start, end) } else { Range::new(end, start) } }), ); } fn shrink_to_line_bounds(cx: &mut Context) { let (view, doc) = current!(cx.editor); doc.set_selection( view.id, doc.selection(view.id).clone().transform(|range| { let text = doc.text(); let (start_line, end_line) = range.line_range(text.slice(..)); // Do nothing if the selection is within one line to prevent // conditional logic for the behavior of this command if start_line == end_line { return range; } let mut start = text.line_to_char(start_line); // line_to_char gives us the start position of the line, so // we need to get the start position of the next line. In // the editor, this will correspond to the cursor being on // the EOL whitespace character, which is what we want. let mut end = text.line_to_char((end_line + 1).min(text.len_lines())); if start != range.from() { start = text.line_to_char((start_line + 1).min(text.len_lines())); } if end != range.to() { end = text.line_to_char(end_line); } if range.anchor <= range.head { Range::new(start, end) } else { Range::new(end, start) } }), ); } enum Operation { Delete, Change, } fn delete_selection_impl(cx: &mut Context, op: Operation) { let (view, doc) = current!(cx.editor); let selection = doc.selection(view.id); if cx.register != Some('_') { // first yank the selection let text = doc.text().slice(..); let values: Vec = selection.fragments(text).map(Cow::into_owned).collect(); let reg_name = cx.register.unwrap_or('"'); cx.editor.registers.write(reg_name, values); }; // then delete let transaction = Transaction::change_by_selection(doc.text(), selection, |range| { (range.from(), range.to(), None) }); apply_transaction(&transaction, doc, view); match op { Operation::Delete => { // exit select mode, if currently in select mode exit_select_mode(cx); } Operation::Change => { enter_insert_mode(cx); } } } #[inline] fn delete_selection_insert_mode(doc: &mut Document, view: &mut View, selection: &Selection) { let transaction = Transaction::change_by_selection(doc.text(), selection, |range| { (range.from(), range.to(), None) }); apply_transaction(&transaction, doc, view); } fn delete_selection(cx: &mut Context) { delete_selection_impl(cx, Operation::Delete); } fn delete_selection_noyank(cx: &mut Context) { cx.register = Some('_'); delete_selection_impl(cx, Operation::Delete); } fn change_selection(cx: &mut Context) { delete_selection_impl(cx, Operation::Change); } fn change_selection_noyank(cx: &mut Context) { cx.register = Some('_'); delete_selection_impl(cx, Operation::Change); } fn collapse_selection(cx: &mut Context) { let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let selection = doc.selection(view.id).clone().transform(|range| { let pos = range.cursor(text); Range::new(pos, pos) }); doc.set_selection(view.id, selection); } fn flip_selections(cx: &mut Context) { let (view, doc) = current!(cx.editor); let selection = doc .selection(view.id) .clone() .transform(|range| range.flip()); doc.set_selection(view.id, selection); } fn ensure_selections_forward(cx: &mut Context) { let (view, doc) = current!(cx.editor); let selection = doc .selection(view.id) .clone() .transform(|r| r.with_direction(Direction::Forward)); doc.set_selection(view.id, selection); } fn enter_insert_mode(cx: &mut Context) { cx.editor.mode = Mode::Insert; } // inserts at the start of each selection fn insert_mode(cx: &mut Context) { enter_insert_mode(cx); let (view, doc) = current!(cx.editor); log::trace!( "entering insert mode with sel: {:?}, text: {:?}", doc.selection(view.id), doc.text().to_string() ); let selection = doc .selection(view.id) .clone() .transform(|range| Range::new(range.to(), range.from())); doc.set_selection(view.id, selection); } // inserts at the end of each selection fn append_mode(cx: &mut Context) { enter_insert_mode(cx); let (view, doc) = current!(cx.editor); doc.restore_cursor = true; let text = doc.text().slice(..); // Make sure there's room at the end of the document if the last // selection butts up against it. let end = text.len_chars(); let last_range = doc .selection(view.id) .iter() .last() .expect("selection should always have at least one range"); if !last_range.is_empty() && last_range.to() == end { let transaction = Transaction::change( doc.text(), [(end, end, Some(doc.line_ending.as_str().into()))].into_iter(), ); apply_transaction(&transaction, doc, view); } let selection = doc.selection(view.id).clone().transform(|range| { Range::new( range.from(), graphemes::next_grapheme_boundary(doc.text().slice(..), range.to()), ) }); doc.set_selection(view.id, selection); } fn file_picker(cx: &mut Context) { // We don't specify language markers, root will be the root of the current // git repo or the current dir if we're not in a repo let root = find_root(None, &[]); let picker = ui::file_picker(root, &cx.editor.config()); cx.push_layer(Box::new(overlayed(picker))); } fn file_picker_in_current_directory(cx: &mut Context) { let cwd = std::env::current_dir().unwrap_or_else(|_| PathBuf::from("./")); let picker = ui::file_picker(cwd, &cx.editor.config()); cx.push_layer(Box::new(overlayed(picker))); } fn buffer_picker(cx: &mut Context) { let current = view!(cx.editor).doc; struct BufferMeta { id: DocumentId, path: Option, is_modified: bool, is_current: bool, } impl ui::menu::Item for BufferMeta { type Data = (); fn label(&self, _data: &Self::Data) -> Spans { let path = self .path .as_deref() .map(helix_core::path::get_relative_path); let path = match path.as_deref().and_then(Path::to_str) { Some(path) => path, None => SCRATCH_BUFFER_NAME, }; let mut flags = Vec::new(); if self.is_modified { flags.push("+"); } if self.is_current { flags.push("*"); } let flag = if flags.is_empty() { "".into() } else { format!(" ({})", flags.join("")) }; format!("{} {}{}", self.id, path, flag).into() } } let new_meta = |doc: &Document| BufferMeta { id: doc.id(), path: doc.path().cloned(), is_modified: doc.is_modified(), is_current: doc.id() == current, }; let picker = FilePicker::new( cx.editor .documents .iter() .map(|(_, doc)| new_meta(doc)) .collect(), (), |cx, meta, action| { cx.editor.switch(meta.id, action); }, |editor, meta| { let doc = &editor.documents.get(&meta.id)?; let &view_id = doc.selections().keys().next()?; let line = doc .selection(view_id) .primary() .cursor_line(doc.text().slice(..)); Some((meta.path.clone()?, Some((line, line)))) }, ); cx.push_layer(Box::new(overlayed(picker))); } fn jumplist_picker(cx: &mut Context) { struct JumpMeta { id: DocumentId, path: Option, selection: Selection, text: String, is_current: bool, } impl ui::menu::Item for JumpMeta { type Data = (); fn label(&self, _data: &Self::Data) -> Spans { let path = self .path .as_deref() .map(helix_core::path::get_relative_path); let path = match path.as_deref().and_then(Path::to_str) { Some(path) => path, None => SCRATCH_BUFFER_NAME, }; let mut flags = Vec::new(); if self.is_current { flags.push("*"); } let flag = if flags.is_empty() { "".into() } else { format!(" ({})", flags.join("")) }; format!("{} {}{} {}", self.id, path, flag, self.text).into() } } let new_meta = |view: &View, doc_id: DocumentId, selection: Selection| { let doc = &cx.editor.documents.get(&doc_id); let text = doc.map_or("".into(), |d| { selection .fragments(d.text().slice(..)) .map(Cow::into_owned) .collect::>() .join(" ") }); JumpMeta { id: doc_id, path: doc.and_then(|d| d.path().cloned()), selection, text, is_current: view.doc == doc_id, } }; let picker = FilePicker::new( cx.editor .tree .views() .flat_map(|(view, _)| { view.jumps .get() .iter() .map(|(doc_id, selection)| new_meta(view, *doc_id, selection.clone())) }) .collect(), (), |cx, meta, action| { cx.editor.switch(meta.id, action); let (view, doc) = current!(cx.editor); doc.set_selection(view.id, meta.selection.clone()); }, |editor, meta| { let doc = &editor.documents.get(&meta.id)?; let line = meta.selection.primary().cursor_line(doc.text().slice(..)); Some((meta.path.clone()?, Some((line, line)))) }, ); cx.push_layer(Box::new(overlayed(picker))); } impl ui::menu::Item for MappableCommand { type Data = ReverseKeymap; fn label(&self, keymap: &Self::Data) -> Spans { let fmt_binding = |bindings: &Vec>| -> String { bindings.iter().fold(String::new(), |mut acc, bind| { if !acc.is_empty() { acc.push_str(", "); } bind.iter().fold(false, |needs_plus, key| { write!(&mut acc, "{}{}", if needs_plus { "+" } else { "" }, key) .expect("Writing to a string can only fail on an Out-Of-Memory error"); true }); acc }) }; match self { MappableCommand::Typable { doc, name, .. } => match keymap.get(name as &String) { Some(bindings) => format!("{} ({}) [:{}]", doc, fmt_binding(bindings), name).into(), None => format!("{} [:{}]", doc, name).into(), }, MappableCommand::Static { doc, name, .. } => match keymap.get(*name) { Some(bindings) => format!("{} ({}) [{}]", doc, fmt_binding(bindings), name).into(), None => format!("{} [{}]", doc, name).into(), }, } } } pub fn command_palette(cx: &mut Context) { cx.callback = Some(Box::new( move |compositor: &mut Compositor, cx: &mut compositor::Context| { let keymap = compositor.find::().unwrap().keymaps.map() [&cx.editor.mode] .reverse_map(); let mut commands: Vec = MappableCommand::STATIC_COMMAND_LIST.into(); commands.extend(typed::TYPABLE_COMMAND_LIST.iter().map(|cmd| { MappableCommand::Typable { name: cmd.name.to_owned(), doc: cmd.doc.to_owned(), args: Vec::new(), } })); let picker = Picker::new(commands, keymap, move |cx, command, _action| { let mut ctx = Context { register: None, count: std::num::NonZeroUsize::new(1), editor: cx.editor, callback: None, on_next_key_callback: None, jobs: cx.jobs, }; command.execute(&mut ctx); }); compositor.push(Box::new(overlayed(picker))); }, )); } fn last_picker(cx: &mut Context) { // TODO: last picker does not seem to work well with buffer_picker cx.callback = Some(Box::new(|compositor, cx| { if let Some(picker) = compositor.last_picker.take() { compositor.push(picker); } else { cx.editor.set_error("no last picker") } })); } // I inserts at the first nonwhitespace character of each line with a selection fn insert_at_line_start(cx: &mut Context) { goto_first_nonwhitespace(cx); enter_insert_mode(cx); } // A inserts at the end of each line with a selection fn insert_at_line_end(cx: &mut Context) { enter_insert_mode(cx); let (view, doc) = current!(cx.editor); let selection = doc.selection(view.id).clone().transform(|range| { let text = doc.text().slice(..); let line = range.cursor_line(text); let pos = line_end_char_index(&text, line); Range::new(pos, pos) }); doc.set_selection(view.id, selection); } // Creates an LspCallback that waits for formatting changes to be computed. When they're done, // it applies them, but only if the doc hasn't changed. // // TODO: provide some way to cancel this, probably as part of a more general job cancellation // scheme async fn make_format_callback( doc_id: DocumentId, doc_version: i32, view_id: ViewId, format: impl Future> + Send + 'static, write: Option<(Option, bool)>, ) -> anyhow::Result { let format = format.await; let call: job::Callback = Callback::Editor(Box::new(move |editor| { if !editor.documents.contains_key(&doc_id) || !editor.tree.contains(view_id) { return; } let scrolloff = editor.config().scrolloff; let doc = doc_mut!(editor, &doc_id); let view = view_mut!(editor, view_id); if let Ok(format) = format { if doc.version() == doc_version { apply_transaction(&format, doc, view); doc.append_changes_to_history(view.id); doc.detect_indent_and_line_ending(); view.ensure_cursor_in_view(doc, scrolloff); } else { log::info!("discarded formatting changes because the document changed"); } } if let Some((path, force)) = write { let id = doc.id(); if let Err(err) = editor.save(id, path, force) { editor.set_error(format!("Error saving: {}", err)); } } })); Ok(call) } #[derive(PartialEq, Eq)] pub enum Open { Below, Above, } fn open(cx: &mut Context, open: Open) { let count = cx.count(); enter_insert_mode(cx); let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let contents = doc.text(); let selection = doc.selection(view.id); let mut ranges = SmallVec::with_capacity(selection.len()); let mut offs = 0; let mut transaction = Transaction::change_by_selection(contents, selection, |range| { let cursor_line = text.char_to_line(match open { Open::Below => graphemes::prev_grapheme_boundary(text, range.to()), Open::Above => range.from(), }); let new_line = match open { // adjust position to the end of the line (next line - 1) Open::Below => cursor_line + 1, // adjust position to the end of the previous line (current line - 1) Open::Above => cursor_line, }; // Index to insert newlines after, as well as the char width // to use to compensate for those inserted newlines. let (line_end_index, line_end_offset_width) = if new_line == 0 { (0, 0) } else { ( line_end_char_index(&doc.text().slice(..), new_line.saturating_sub(1)), doc.line_ending.len_chars(), ) }; let indent = indent::indent_for_newline( doc.language_config(), doc.syntax(), &doc.indent_style, doc.tab_width(), text, new_line.saturating_sub(1), line_end_index, cursor_line, ); let indent_len = indent.len(); let mut text = String::with_capacity(1 + indent_len); text.push_str(doc.line_ending.as_str()); text.push_str(&indent); let text = text.repeat(count); // calculate new selection ranges let pos = offs + line_end_index + line_end_offset_width; for i in 0..count { // pos -> beginning of reference line, // + (i * (1+indent_len)) -> beginning of i'th line from pos // + indent_len -> -> indent for i'th line ranges.push(Range::point(pos + (i * (1 + indent_len)) + indent_len)); } offs += text.chars().count(); (line_end_index, line_end_index, Some(text.into())) }); transaction = transaction.with_selection(Selection::new(ranges, selection.primary_index())); apply_transaction(&transaction, doc, view); } // o inserts a new line after each line with a selection fn open_below(cx: &mut Context) { open(cx, Open::Below) } // O inserts a new line before each line with a selection fn open_above(cx: &mut Context) { open(cx, Open::Above) } fn normal_mode(cx: &mut Context) { if cx.editor.mode == Mode::Normal { return; } cx.editor.mode = Mode::Normal; let (view, doc) = current!(cx.editor); try_restore_indent(doc, view); // if leaving append mode, move cursor back by 1 if doc.restore_cursor { let text = doc.text().slice(..); let selection = doc.selection(view.id).clone().transform(|range| { Range::new( range.from(), graphemes::prev_grapheme_boundary(text, range.to()), ) }); doc.set_selection(view.id, selection); doc.restore_cursor = false; } } fn try_restore_indent(doc: &mut Document, view: &mut View) { use helix_core::chars::char_is_whitespace; use helix_core::Operation; fn inserted_a_new_blank_line(changes: &[Operation], pos: usize, line_end_pos: usize) -> bool { if let [Operation::Retain(move_pos), Operation::Insert(ref inserted_str), Operation::Retain(_)] = changes { move_pos + inserted_str.len() == pos && inserted_str.starts_with('\n') && inserted_str.chars().skip(1).all(char_is_whitespace) && pos == line_end_pos // ensure no characters exists after current position } else { false } } let doc_changes = doc.changes().changes(); let text = doc.text().slice(..); let range = doc.selection(view.id).primary(); let pos = range.cursor(text); let line_end_pos = line_end_char_index(&text, range.cursor_line(text)); if inserted_a_new_blank_line(doc_changes, pos, line_end_pos) { // Removes tailing whitespaces. let transaction = Transaction::change_by_selection(doc.text(), doc.selection(view.id), |range| { let line_start_pos = text.line_to_char(range.cursor_line(text)); (line_start_pos, pos, None) }); apply_transaction(&transaction, doc, view); } } // Store a jump on the jumplist. fn push_jump(view: &mut View, doc: &Document) { let jump = (doc.id(), doc.selection(view.id).clone()); view.jumps.push(jump); } fn goto_line(cx: &mut Context) { goto_line_impl(cx.editor, cx.count) } fn goto_line_impl(editor: &mut Editor, count: Option) { if let Some(count) = count { let (view, doc) = current!(editor); let max_line = if doc.text().line(doc.text().len_lines() - 1).len_chars() == 0 { // If the last line is blank, don't jump to it. doc.text().len_lines().saturating_sub(2) } else { doc.text().len_lines() - 1 }; let line_idx = std::cmp::min(count.get() - 1, max_line); let text = doc.text().slice(..); let pos = doc.text().line_to_char(line_idx); let selection = doc .selection(view.id) .clone() .transform(|range| range.put_cursor(text, pos, editor.mode == Mode::Select)); push_jump(view, doc); doc.set_selection(view.id, selection); } } fn goto_last_line(cx: &mut Context) { let (view, doc) = current!(cx.editor); let line_idx = if doc.text().line(doc.text().len_lines() - 1).len_chars() == 0 { // If the last line is blank, don't jump to it. doc.text().len_lines().saturating_sub(2) } else { doc.text().len_lines() - 1 }; let text = doc.text().slice(..); let pos = doc.text().line_to_char(line_idx); let selection = doc .selection(view.id) .clone() .transform(|range| range.put_cursor(text, pos, cx.editor.mode == Mode::Select)); push_jump(view, doc); doc.set_selection(view.id, selection); } fn goto_last_accessed_file(cx: &mut Context) { let view = view_mut!(cx.editor); if let Some(alt) = view.docs_access_history.pop() { cx.editor.switch(alt, Action::Replace); } else { cx.editor.set_error("no last accessed buffer") } } fn goto_last_modification(cx: &mut Context) { let (view, doc) = current!(cx.editor); let pos = doc.history.get_mut().last_edit_pos(); let text = doc.text().slice(..); if let Some(pos) = pos { let selection = doc .selection(view.id) .clone() .transform(|range| range.put_cursor(text, pos, cx.editor.mode == Mode::Select)); doc.set_selection(view.id, selection); } } fn goto_last_modified_file(cx: &mut Context) { let view = view!(cx.editor); let alternate_file = view .last_modified_docs .into_iter() .flatten() .find(|&id| id != view.doc); if let Some(alt) = alternate_file { cx.editor.switch(alt, Action::Replace); } else { cx.editor.set_error("no last modified buffer") } } fn select_mode(cx: &mut Context) { let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); // Make sure end-of-document selections are also 1-width. // (With the exception of being in an empty document, of course.) let selection = doc.selection(view.id).clone().transform(|range| { if range.is_empty() && range.head == text.len_chars() { Range::new( graphemes::prev_grapheme_boundary(text, range.anchor), range.head, ) } else { range } }); doc.set_selection(view.id, selection); cx.editor.mode = Mode::Select; } fn exit_select_mode(cx: &mut Context) { if cx.editor.mode == Mode::Select { cx.editor.mode = Mode::Normal; } } fn goto_pos(editor: &mut Editor, pos: usize) { let (view, doc) = current!(editor); push_jump(view, doc); doc.set_selection(view.id, Selection::point(pos)); align_view(doc, view, Align::Center); } fn goto_first_diag(cx: &mut Context) { let doc = doc!(cx.editor); let pos = match doc.diagnostics().first() { Some(diag) => diag.range.start, None => return, }; goto_pos(cx.editor, pos); } fn goto_last_diag(cx: &mut Context) { let doc = doc!(cx.editor); let pos = match doc.diagnostics().last() { Some(diag) => diag.range.start, None => return, }; goto_pos(cx.editor, pos); } fn goto_next_diag(cx: &mut Context) { let editor = &mut cx.editor; let (view, doc) = current!(editor); let cursor_pos = doc .selection(view.id) .primary() .cursor(doc.text().slice(..)); let diag = doc .diagnostics() .iter() .find(|diag| diag.range.start > cursor_pos) .or_else(|| doc.diagnostics().first()); let pos = match diag { Some(diag) => diag.range.start, None => return, }; goto_pos(editor, pos); } fn goto_prev_diag(cx: &mut Context) { let editor = &mut cx.editor; let (view, doc) = current!(editor); let cursor_pos = doc .selection(view.id) .primary() .cursor(doc.text().slice(..)); let diag = doc .diagnostics() .iter() .rev() .find(|diag| diag.range.start < cursor_pos) .or_else(|| doc.diagnostics().last()); let pos = match diag { Some(diag) => diag.range.start, None => return, }; goto_pos(editor, pos); } pub mod insert { use super::*; pub type Hook = fn(&Rope, &Selection, char) -> Option; pub type PostHook = fn(&mut Context, char); /// Exclude the cursor in range. fn exclude_cursor(text: RopeSlice, range: Range, cursor: Range) -> Range { if range.to() == cursor.to() && text.len_chars() != cursor.to() { Range::new( range.from(), graphemes::prev_grapheme_boundary(text, cursor.to()), ) } else { range } } // It trigger completion when idle timer reaches deadline // Only trigger completion if the word under cursor is longer than n characters pub fn idle_completion(cx: &mut Context) { let config = cx.editor.config(); let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let cursor = doc.selection(view.id).primary().cursor(text); use helix_core::chars::char_is_word; let mut iter = text.chars_at(cursor); iter.reverse(); for _ in 0..config.completion_trigger_len { match iter.next() { Some(c) if char_is_word(c) => {} _ => return, } } super::completion(cx); } fn language_server_completion(cx: &mut Context, ch: char) { use helix_lsp::lsp; // if ch matches completion char, trigger completion let doc = doc_mut!(cx.editor); let language_server = match doc.language_server() { Some(language_server) => language_server, None => return, }; let capabilities = language_server.capabilities(); if let Some(lsp::CompletionOptions { trigger_characters: Some(triggers), .. }) = &capabilities.completion_provider { // TODO: what if trigger is multiple chars long if triggers.iter().any(|trigger| trigger.contains(ch)) { cx.editor.clear_idle_timer(); super::completion(cx); } } } fn signature_help(cx: &mut Context, ch: char) { use helix_lsp::lsp; // if ch matches signature_help char, trigger let doc = doc_mut!(cx.editor); // The language_server!() macro is not used here since it will // print an "LSP not active for current buffer" message on // every keypress. 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)); // lsp doesn't tell us when to close the signature help, so we request // the help information again after common close triggers which should // return None, which in turn closes the popup. let close_triggers = &[')', ';', '.']; if is_trigger || close_triggers.contains(&ch) { super::signature_help_impl(cx, SignatureHelpInvoked::Automatic); } } } // The default insert hook: simply insert the character #[allow(clippy::unnecessary_wraps)] // need to use Option<> because of the Hook signature fn insert(doc: &Rope, selection: &Selection, ch: char) -> Option { let cursors = selection.clone().cursors(doc.slice(..)); let mut t = Tendril::new(); t.push(ch); let transaction = Transaction::insert(doc, &cursors, t); Some(transaction) } use helix_core::auto_pairs; pub fn insert_char(cx: &mut Context, c: char) { let (view, doc) = current_ref!(cx.editor); let text = doc.text(); let selection = doc.selection(view.id); let auto_pairs = doc.auto_pairs(cx.editor); let transaction = auto_pairs .as_ref() .and_then(|ap| auto_pairs::hook(text, selection, c, ap)) .or_else(|| insert(text, selection, c)); let (view, doc) = current!(cx.editor); if let Some(t) = transaction { apply_transaction(&t, doc, view); } // 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 &[language_server_completion, signature_help] { hook(cx, c); } } pub fn insert_tab(cx: &mut Context) { let (view, doc) = current!(cx.editor); // 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_style.as_str()); let transaction = Transaction::insert( doc.text(), &doc.selection(view.id).clone().cursors(doc.text().slice(..)), indent, ); apply_transaction(&transaction, doc, view); } pub fn insert_newline(cx: &mut Context) { let (view, doc) = current_ref!(cx.editor); let text = doc.text().slice(..); let contents = doc.text(); let selection = doc.selection(view.id).clone(); let mut ranges = SmallVec::with_capacity(selection.len()); // TODO: this is annoying, but we need to do it to properly calculate pos after edits let mut global_offs = 0; let mut transaction = Transaction::change_by_selection(contents, &selection, |range| { let pos = range.cursor(text); let prev = if pos == 0 { ' ' } else { contents.char(pos - 1) }; let curr = contents.get_char(pos).unwrap_or(' '); let current_line = text.char_to_line(pos); let indent = indent::indent_for_newline( doc.language_config(), doc.syntax(), &doc.indent_style, doc.tab_width(), text, current_line, pos, current_line, ); let mut text = String::new(); // If we are between pairs (such as brackets), we want to // insert an additional line which is indented one level // more and place the cursor there let on_auto_pair = doc .auto_pairs(cx.editor) .and_then(|pairs| pairs.get(prev)) .and_then(|pair| if pair.close == curr { Some(pair) } else { None }) .is_some(); let local_offs = if on_auto_pair { let inner_indent = indent.clone() + doc.indent_style.as_str(); text.reserve_exact(2 + indent.len() + inner_indent.len()); text.push_str(doc.line_ending.as_str()); text.push_str(&inner_indent); let local_offs = text.chars().count(); text.push_str(doc.line_ending.as_str()); text.push_str(&indent); local_offs } else { text.reserve_exact(1 + indent.len()); text.push_str(doc.line_ending.as_str()); text.push_str(&indent); text.chars().count() }; let new_range = if doc.restore_cursor { // when appending, extend the range by local_offs Range::new( range.anchor + global_offs, range.head + local_offs + global_offs, ) } else { // when inserting, slide the range by local_offs Range::new( range.anchor + local_offs + global_offs, range.head + local_offs + global_offs, ) }; // TODO: range replace or extend // range.replace(|range| range.is_empty(), head); -> fn extend if cond true, new head pos // can be used with cx.mode to do replace or extend on most changes ranges.push(new_range); global_offs += text.chars().count(); (pos, pos, Some(text.into())) }); transaction = transaction.with_selection(Selection::new(ranges, selection.primary_index())); let (view, doc) = current!(cx.editor); apply_transaction(&transaction, doc, view); } pub fn delete_char_backward(cx: &mut Context) { let count = cx.count(); let (view, doc) = current_ref!(cx.editor); let text = doc.text().slice(..); let indent_unit = doc.indent_style.as_str(); let tab_size = doc.tab_width(); let auto_pairs = doc.auto_pairs(cx.editor); let transaction = Transaction::change_by_selection(doc.text(), doc.selection(view.id), |range| { let pos = range.cursor(text); if pos == 0 { return (pos, pos, None); } let line_start_pos = text.line_to_char(range.cursor_line(text)); // consider to delete by indent level if all characters before `pos` are indent units. let fragment = Cow::from(text.slice(line_start_pos..pos)); if !fragment.is_empty() && fragment.chars().all(|ch| ch == ' ' || ch == '\t') { if text.get_char(pos.saturating_sub(1)) == Some('\t') { // fast path, delete one char ( graphemes::nth_prev_grapheme_boundary(text, pos, 1), pos, None, ) } else { let unit_len = indent_unit.chars().count(); // NOTE: indent_unit always contains 'only spaces' or 'only tab' according to `IndentStyle` definition. let unit_size = if indent_unit.starts_with('\t') { tab_size * unit_len } else { unit_len }; let width: usize = fragment .chars() .map(|ch| { if ch == '\t' { tab_size } else { // it can be none if it still meet control characters other than '\t' // here just set the width to 1 (or some value better?). ch.width().unwrap_or(1) } }) .sum(); let mut drop = width % unit_size; // round down to nearest unit if drop == 0 { drop = unit_size }; // if it's already at a unit, consume a whole unit let mut chars = fragment.chars().rev(); let mut start = pos; for _ in 0..drop { // delete up to `drop` spaces match chars.next() { Some(' ') => start -= 1, _ => break, } } (start, pos, None) // delete! } } else { match ( text.get_char(pos.saturating_sub(1)), text.get_char(pos), auto_pairs, ) { (Some(_x), Some(_y), Some(ap)) if range.is_single_grapheme(text) && ap.get(_x).is_some() && ap.get(_x).unwrap().open == _x && ap.get(_x).unwrap().close == _y => // delete both autopaired characters { ( graphemes::nth_prev_grapheme_boundary(text, pos, count), graphemes::nth_next_grapheme_boundary(text, pos, count), None, ) } _ => // delete 1 char { ( graphemes::nth_prev_grapheme_boundary(text, pos, count), pos, None, ) } } } }); let (view, doc) = current!(cx.editor); apply_transaction(&transaction, doc, view); lsp::signature_help_impl(cx, SignatureHelpInvoked::Automatic); } pub fn delete_char_forward(cx: &mut Context) { let count = cx.count(); let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let transaction = Transaction::change_by_selection(doc.text(), doc.selection(view.id), |range| { let pos = range.cursor(text); ( pos, graphemes::nth_next_grapheme_boundary(text, pos, count), None, ) }); apply_transaction(&transaction, doc, view); lsp::signature_help_impl(cx, SignatureHelpInvoked::Automatic); } pub fn delete_word_backward(cx: &mut Context) { let count = cx.count(); let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let selection = doc.selection(view.id).clone().transform(|range| { let anchor = movement::move_prev_word_start(text, range, count).from(); let next = Range::new(anchor, range.cursor(text)); exclude_cursor(text, next, range) }); delete_selection_insert_mode(doc, view, &selection); lsp::signature_help_impl(cx, SignatureHelpInvoked::Automatic); } pub fn delete_word_forward(cx: &mut Context) { let count = cx.count(); let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let selection = doc.selection(view.id).clone().transform(|range| { let head = movement::move_next_word_end(text, range, count).to(); Range::new(range.cursor(text), head) }); delete_selection_insert_mode(doc, view, &selection); lsp::signature_help_impl(cx, SignatureHelpInvoked::Automatic); } } // Undo / Redo fn undo(cx: &mut Context) { let count = cx.count(); let (view, doc) = current!(cx.editor); for _ in 0..count { if !doc.undo(view) { cx.editor.set_status("Already at oldest change"); break; } } } fn redo(cx: &mut Context) { let count = cx.count(); let (view, doc) = current!(cx.editor); for _ in 0..count { if !doc.redo(view) { cx.editor.set_status("Already at newest change"); break; } } } fn earlier(cx: &mut Context) { let count = cx.count(); let (view, doc) = current!(cx.editor); for _ in 0..count { // rather than doing in batch we do this so get error halfway if !doc.earlier(view, UndoKind::Steps(1)) { cx.editor.set_status("Already at oldest change"); break; } } } fn later(cx: &mut Context) { let count = cx.count(); let (view, doc) = current!(cx.editor); for _ in 0..count { // rather than doing in batch we do this so get error halfway if !doc.later(view, UndoKind::Steps(1)) { cx.editor.set_status("Already at newest change"); break; } } } fn commit_undo_checkpoint(cx: &mut Context) { let (view, doc) = current!(cx.editor); doc.append_changes_to_history(view.id); } // Yank / Paste fn yank(cx: &mut Context) { let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let values: Vec = doc .selection(view.id) .fragments(text) .map(Cow::into_owned) .collect(); let msg = format!( "yanked {} selection(s) to register {}", values.len(), cx.register.unwrap_or('"') ); cx.editor .registers .write(cx.register.unwrap_or('"'), values); cx.editor.set_status(msg); exit_select_mode(cx); } fn yank_joined_to_clipboard_impl( editor: &mut Editor, separator: &str, clipboard_type: ClipboardType, ) -> anyhow::Result<()> { let (view, doc) = current!(editor); let text = doc.text().slice(..); let values: Vec = doc .selection(view.id) .fragments(text) .map(Cow::into_owned) .collect(); let clipboard_text = match clipboard_type { ClipboardType::Clipboard => "system clipboard", ClipboardType::Selection => "primary clipboard", }; let msg = format!( "joined and yanked {} selection(s) to {}", values.len(), clipboard_text, ); let joined = values.join(separator); editor .clipboard_provider .set_contents(joined, clipboard_type) .context("Couldn't set system clipboard content")?; editor.set_status(msg); Ok(()) } fn yank_joined_to_clipboard(cx: &mut Context) { let line_ending = doc!(cx.editor).line_ending; let _ = yank_joined_to_clipboard_impl(cx.editor, line_ending.as_str(), ClipboardType::Clipboard); exit_select_mode(cx); } fn yank_main_selection_to_clipboard_impl( editor: &mut Editor, clipboard_type: ClipboardType, ) -> anyhow::Result<()> { let (view, doc) = current!(editor); let text = doc.text().slice(..); let message_text = match clipboard_type { ClipboardType::Clipboard => "yanked main selection to system clipboard", ClipboardType::Selection => "yanked main selection to primary clipboard", }; let value = doc.selection(view.id).primary().fragment(text); if let Err(e) = editor .clipboard_provider .set_contents(value.into_owned(), clipboard_type) { bail!("Couldn't set system clipboard content: {}", e); } editor.set_status(message_text); Ok(()) } fn yank_main_selection_to_clipboard(cx: &mut Context) { let _ = yank_main_selection_to_clipboard_impl(cx.editor, ClipboardType::Clipboard); } fn yank_joined_to_primary_clipboard(cx: &mut Context) { let line_ending = doc!(cx.editor).line_ending; let _ = yank_joined_to_clipboard_impl(cx.editor, line_ending.as_str(), ClipboardType::Selection); } fn yank_main_selection_to_primary_clipboard(cx: &mut Context) { let _ = yank_main_selection_to_clipboard_impl(cx.editor, ClipboardType::Selection); exit_select_mode(cx); } #[derive(Copy, Clone)] enum Paste { Before, After, Cursor, } fn paste_impl(values: &[String], doc: &mut Document, view: &mut View, action: Paste, count: usize) { if values.is_empty() { return; } let repeat = std::iter::repeat( // `values` is asserted to have at least one entry above. values .last() .map(|value| Tendril::from(value.repeat(count))) .unwrap(), ); // if any of values ends with a line ending, it's linewise paste let linewise = values .iter() .any(|value| get_line_ending_of_str(value).is_some()); // Only compiled once. static REGEX: Lazy = Lazy::new(|| Regex::new(r"\r\n|\r|\n").unwrap()); let mut values = values .iter() .map(|value| REGEX.replace_all(value, doc.line_ending.as_str())) .map(|value| Tendril::from(value.as_ref().repeat(count))) .chain(repeat); let text = doc.text(); let selection = doc.selection(view.id); let mut offset = 0; let mut ranges = SmallVec::with_capacity(selection.len()); let transaction = Transaction::change_by_selection(text, selection, |range| { let pos = match (action, linewise) { // paste linewise before (Paste::Before, true) => text.line_to_char(text.char_to_line(range.from())), // paste linewise after (Paste::After, true) => { let line = range.line_range(text.slice(..)).1; text.line_to_char((line + 1).min(text.len_lines())) } // paste insert (Paste::Before, false) => range.from(), // paste append (Paste::After, false) => range.to(), // paste at cursor (Paste::Cursor, _) => range.cursor(text.slice(..)), }; let value = values.next(); let value_len = value .as_ref() .map(|content| content.chars().count()) .unwrap_or_default(); let anchor = offset + pos; let new_range = Range::new(anchor, anchor + value_len).with_direction(range.direction()); ranges.push(new_range); offset += value_len; (pos, pos, value) }); let transaction = transaction.with_selection(Selection::new(ranges, selection.primary_index())); apply_transaction(&transaction, doc, view); } pub(crate) fn paste_bracketed_value(cx: &mut Context, contents: String) { let count = cx.count(); let paste = match cx.editor.mode { Mode::Insert | Mode::Select => Paste::Cursor, Mode::Normal => Paste::Before, }; let (view, doc) = current!(cx.editor); paste_impl(&[contents], doc, view, paste, count); } fn paste_clipboard_impl( editor: &mut Editor, action: Paste, clipboard_type: ClipboardType, count: usize, ) -> anyhow::Result<()> { let (view, doc) = current!(editor); match editor.clipboard_provider.get_contents(clipboard_type) { Ok(contents) => { paste_impl(&[contents], doc, view, action, count); Ok(()) } Err(e) => Err(e.context("Couldn't get system clipboard contents")), } } fn paste_clipboard_after(cx: &mut Context) { let _ = paste_clipboard_impl( cx.editor, Paste::After, ClipboardType::Clipboard, cx.count(), ); } fn paste_clipboard_before(cx: &mut Context) { let _ = paste_clipboard_impl( cx.editor, Paste::Before, ClipboardType::Clipboard, cx.count(), ); } fn paste_primary_clipboard_after(cx: &mut Context) { let _ = paste_clipboard_impl( cx.editor, Paste::After, ClipboardType::Selection, cx.count(), ); } fn paste_primary_clipboard_before(cx: &mut Context) { let _ = paste_clipboard_impl( cx.editor, Paste::Before, ClipboardType::Selection, cx.count(), ); } fn replace_with_yanked(cx: &mut Context) { let count = cx.count(); let reg_name = cx.register.unwrap_or('"'); let (view, doc) = current!(cx.editor); let registers = &mut cx.editor.registers; if let Some(values) = registers.read(reg_name) { if !values.is_empty() { let repeat = std::iter::repeat( values .last() .map(|value| Tendril::from(&value.repeat(count))) .unwrap(), ); let mut values = values .iter() .map(|value| Tendril::from(&value.repeat(count))) .chain(repeat); let selection = doc.selection(view.id); let transaction = Transaction::change_by_selection(doc.text(), selection, |range| { if !range.is_empty() { (range.from(), range.to(), Some(values.next().unwrap())) } else { (range.from(), range.to(), None) } }); apply_transaction(&transaction, doc, view); exit_select_mode(cx); } } } fn replace_selections_with_clipboard_impl( cx: &mut Context, clipboard_type: ClipboardType, ) -> anyhow::Result<()> { let count = cx.count(); let (view, doc) = current!(cx.editor); match cx.editor.clipboard_provider.get_contents(clipboard_type) { Ok(contents) => { let selection = doc.selection(view.id); let transaction = Transaction::change_by_selection(doc.text(), selection, |range| { ( range.from(), range.to(), Some(contents.repeat(count).as_str().into()), ) }); apply_transaction(&transaction, doc, view); doc.append_changes_to_history(view.id); } Err(e) => return Err(e.context("Couldn't get system clipboard contents")), } exit_select_mode(cx); Ok(()) } fn replace_selections_with_clipboard(cx: &mut Context) { let _ = replace_selections_with_clipboard_impl(cx, ClipboardType::Clipboard); } fn replace_selections_with_primary_clipboard(cx: &mut Context) { let _ = replace_selections_with_clipboard_impl(cx, ClipboardType::Selection); } fn paste(cx: &mut Context, pos: Paste) { let count = cx.count(); let reg_name = cx.register.unwrap_or('"'); let (view, doc) = current!(cx.editor); let registers = &mut cx.editor.registers; if let Some(values) = registers.read(reg_name) { paste_impl(values, doc, view, pos, count); } } fn paste_after(cx: &mut Context) { paste(cx, Paste::After) } fn paste_before(cx: &mut Context) { paste(cx, Paste::Before) } fn get_lines(doc: &Document, view_id: ViewId) -> Vec { let mut lines = Vec::new(); // Get all line numbers for range in doc.selection(view_id) { let (start, end) = range.line_range(doc.text().slice(..)); for line in start..=end { lines.push(line) } } lines.sort_unstable(); // sorting by usize so _unstable is preferred lines.dedup(); lines } fn indent(cx: &mut Context) { let count = cx.count(); let (view, doc) = current!(cx.editor); let lines = get_lines(doc, view.id); // Indent by one level let indent = Tendril::from(doc.indent_style.as_str().repeat(count)); let transaction = Transaction::change( doc.text(), lines.into_iter().filter_map(|line| { let is_blank = doc.text().line(line).chunks().all(|s| s.trim().is_empty()); if is_blank { return None; } let pos = doc.text().line_to_char(line); Some((pos, pos, Some(indent.clone()))) }), ); apply_transaction(&transaction, doc, view); } fn unindent(cx: &mut Context) { let count = cx.count(); let (view, doc) = current!(cx.editor); let lines = get_lines(doc, view.id); let mut changes = Vec::with_capacity(lines.len()); let tab_width = doc.tab_width(); let indent_width = count * tab_width; for line_idx in lines { let line = doc.text().line(line_idx); let mut width = 0; let mut pos = 0; for ch in line.chars() { match ch { ' ' => width += 1, '\t' => width = (width / tab_width + 1) * tab_width, _ => break, } pos += 1; if width >= indent_width { break; } } // now delete from start to first non-blank if pos > 0 { let start = doc.text().line_to_char(line_idx); changes.push((start, start + pos, None)) } } let transaction = Transaction::change(doc.text(), changes.into_iter()); apply_transaction(&transaction, doc, view); } fn format_selections(cx: &mut Context) { use helix_lsp::{lsp, util::range_to_lsp_range}; let (view, doc) = current!(cx.editor); // via lsp if available // TODO: else via tree-sitter indentation calculations let language_server = match doc.language_server() { Some(language_server) => language_server, None => return, }; let ranges: Vec = doc .selection(view.id) .iter() .map(|range| range_to_lsp_range(doc.text(), *range, language_server.offset_encoding())) .collect(); if ranges.len() != 1 { cx.editor .set_error("format_selections only supports a single selection for now"); return; } // TODO: handle fails // TODO: concurrent map over all ranges let range = ranges[0]; let edits = tokio::task::block_in_place(|| { helix_lsp::block_on(language_server.text_document_range_formatting( doc.identifier(), range, lsp::FormattingOptions::default(), None, )) }) .unwrap_or_default(); let transaction = helix_lsp::util::generate_transaction_from_edits( doc.text(), edits, language_server.offset_encoding(), ); apply_transaction(&transaction, doc, view); } fn join_selections_inner(cx: &mut Context, select_space: bool) { use movement::skip_while; let (view, doc) = current!(cx.editor); let text = doc.text(); let slice = doc.text().slice(..); let mut changes = Vec::new(); let fragment = Tendril::from(" "); for selection in doc.selection(view.id) { let (start, mut end) = selection.line_range(slice); if start == end { end = (end + 1).min(text.len_lines() - 1); } let lines = start..end; changes.reserve(lines.len()); for line in lines { let start = line_end_char_index(&slice, line); let mut end = text.line_to_char(line + 1); end = skip_while(slice, end, |ch| matches!(ch, ' ' | '\t')).unwrap_or(end); // 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 // select inserted spaces let transaction = if select_space { let ranges: SmallVec<_> = changes .iter() .scan(0, |offset, change| { let range = Range::point(change.0 - *offset); *offset += change.1 - change.0 - 1; // -1 because cursor is 0-sized Some(range) }) .collect(); let selection = Selection::new(ranges, 0); Transaction::change(doc.text(), changes.into_iter()).with_selection(selection) } else { Transaction::change(doc.text(), changes.into_iter()) }; apply_transaction(&transaction, doc, view); } fn keep_or_remove_selections_impl(cx: &mut Context, remove: bool) { // keep or remove selections matching regex let reg = cx.register.unwrap_or('/'); ui::regex_prompt( cx, if remove { "remove:" } else { "keep:" }.into(), Some(reg), ui::completers::none, move |editor, regex, event| { let (view, doc) = current!(editor); if !matches!(event, PromptEvent::Update | PromptEvent::Validate) { return; } let text = doc.text().slice(..); if let Some(selection) = selection::keep_or_remove_matches(text, doc.selection(view.id), ®ex, remove) { doc.set_selection(view.id, selection); } }, ) } fn join_selections(cx: &mut Context) { join_selections_inner(cx, false) } fn join_selections_space(cx: &mut Context) { join_selections_inner(cx, true) } fn keep_selections(cx: &mut Context) { keep_or_remove_selections_impl(cx, false) } fn remove_selections(cx: &mut Context) { keep_or_remove_selections_impl(cx, true) } fn keep_primary_selection(cx: &mut Context) { let (view, doc) = current!(cx.editor); // TODO: handle count let range = doc.selection(view.id).primary(); doc.set_selection(view.id, Selection::single(range.anchor, range.head)); } fn remove_primary_selection(cx: &mut Context) { let (view, doc) = current!(cx.editor); // TODO: handle count let selection = doc.selection(view.id); if selection.len() == 1 { cx.editor.set_error("no selections remaining"); return; } let index = selection.primary_index(); let selection = selection.clone().remove(index); doc.set_selection(view.id, selection); } pub fn completion(cx: &mut Context) { use helix_lsp::{lsp, util::pos_to_lsp_pos}; let (view, doc) = current!(cx.editor); let language_server = match doc.language_server() { Some(language_server) => language_server, None => return, }; let offset_encoding = language_server.offset_encoding(); let text = doc.text().slice(..); let cursor = doc.selection(view.id).primary().cursor(text); let pos = pos_to_lsp_pos(doc.text(), cursor, offset_encoding); let future = language_server.completion(doc.identifier(), pos, None); let trigger_offset = cursor; // TODO: trigger_offset should be the cursor offset but we also need a starting offset from where we want to apply // completion filtering. For example logger.te| should filter the initial suggestion list with "te". use helix_core::chars; let mut iter = text.chars_at(cursor); iter.reverse(); let offset = iter.take_while(|ch| chars::char_is_word(*ch)).count(); let start_offset = cursor.saturating_sub(offset); let prefix = text.slice(start_offset..cursor).to_string(); cx.callback( future, move |editor, compositor, response: Option| { if editor.mode != Mode::Insert { // we're not in insert mode anymore return; } let mut 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(), }; if !prefix.is_empty() { items.retain(|item| { item.filter_text .as_ref() .unwrap_or(&item.label) .starts_with(&prefix) }); } if items.is_empty() { // editor.set_error("No completion available"); return; } let size = compositor.size(); let ui = compositor.find::().unwrap(); ui.set_completion( editor, items, offset_encoding, start_offset, trigger_offset, size, ); }, ); } // comments fn toggle_comments(cx: &mut Context) { let (view, doc) = current!(cx.editor); let token = doc .language_config() .and_then(|lc| lc.comment_token.as_ref()) .map(|tc| tc.as_ref()); let transaction = comment::toggle_line_comments(doc.text(), doc.selection(view.id), token); apply_transaction(&transaction, doc, view); exit_select_mode(cx); } fn rotate_selections(cx: &mut Context, direction: Direction) { let count = cx.count(); let (view, doc) = current!(cx.editor); let mut selection = doc.selection(view.id).clone(); let index = selection.primary_index(); let len = selection.len(); selection.set_primary_index(match direction { Direction::Forward => (index + count) % len, Direction::Backward => (index + (len.saturating_sub(count) % len)) % len, }); doc.set_selection(view.id, selection); } fn rotate_selections_forward(cx: &mut Context) { rotate_selections(cx, Direction::Forward) } fn rotate_selections_backward(cx: &mut Context) { rotate_selections(cx, Direction::Backward) } fn rotate_selection_contents(cx: &mut Context, direction: Direction) { let count = cx.count; let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let selection = doc.selection(view.id); let mut fragments: Vec<_> = selection .slices(text) .map(|fragment| fragment.chunks().collect()) .collect(); let group = count .map(|count| count.get()) .unwrap_or(fragments.len()) // default to rotating everything as one group .min(fragments.len()); for chunk in fragments.chunks_mut(group) { // TODO: also modify main index match direction { Direction::Forward => chunk.rotate_right(1), Direction::Backward => chunk.rotate_left(1), }; } let transaction = Transaction::change( doc.text(), selection .ranges() .iter() .zip(fragments) .map(|(range, fragment)| (range.from(), range.to(), Some(fragment))), ); apply_transaction(&transaction, doc, view); } fn rotate_selection_contents_forward(cx: &mut Context) { rotate_selection_contents(cx, Direction::Forward) } fn rotate_selection_contents_backward(cx: &mut Context) { rotate_selection_contents(cx, Direction::Backward) } // tree sitter node selection fn expand_selection(cx: &mut Context) { let motion = |editor: &mut Editor| { let (view, doc) = current!(editor); if let Some(syntax) = doc.syntax() { let text = doc.text().slice(..); let current_selection = doc.selection(view.id); let selection = object::expand_selection(syntax, text, current_selection.clone()); // check if selection is different from the last one if *current_selection != selection { // save current selection so it can be restored using shrink_selection view.object_selections.push(current_selection.clone()); doc.set_selection(view.id, selection); } } }; motion(cx.editor); cx.editor.last_motion = Some(Motion(Box::new(motion))); } fn shrink_selection(cx: &mut Context) { let motion = |editor: &mut Editor| { let (view, doc) = current!(editor); let current_selection = doc.selection(view.id); // try to restore previous selection if let Some(prev_selection) = view.object_selections.pop() { if current_selection.contains(&prev_selection) { // allow shrinking the selection only if current selection contains the previous object selection doc.set_selection(view.id, prev_selection); return; } else { // clear existing selection as they can't be shrunk to anyway view.object_selections.clear(); } } // if not previous selection, shrink to first child if let Some(syntax) = doc.syntax() { let text = doc.text().slice(..); let selection = object::shrink_selection(syntax, text, current_selection.clone()); doc.set_selection(view.id, selection); } }; motion(cx.editor); cx.editor.last_motion = Some(Motion(Box::new(motion))); } fn select_sibling_impl(cx: &mut Context, sibling_fn: &'static F) where F: Fn(Node) -> Option, { let motion = |editor: &mut Editor| { let (view, doc) = current!(editor); if let Some(syntax) = doc.syntax() { let text = doc.text().slice(..); let current_selection = doc.selection(view.id); let selection = object::select_sibling(syntax, text, current_selection.clone(), sibling_fn); doc.set_selection(view.id, selection); } }; motion(cx.editor); cx.editor.last_motion = Some(Motion(Box::new(motion))); } fn select_next_sibling(cx: &mut Context) { select_sibling_impl(cx, &|node| Node::next_sibling(&node)) } fn select_prev_sibling(cx: &mut Context) { select_sibling_impl(cx, &|node| Node::prev_sibling(&node)) } fn match_brackets(cx: &mut Context) { let (view, doc) = current!(cx.editor); if let Some(syntax) = doc.syntax() { let text = doc.text().slice(..); let selection = doc.selection(view.id).clone().transform(|range| { if let Some(pos) = match_brackets::find_matching_bracket_fuzzy(syntax, doc.text(), range.cursor(text)) { range.put_cursor(text, pos, cx.editor.mode == Mode::Select) } else { range } }); doc.set_selection(view.id, selection); } } // fn jump_forward(cx: &mut Context) { let count = cx.count(); let view = view_mut!(cx.editor); let doc_id = view.doc; if let Some((id, selection)) = view.jumps.forward(count) { view.doc = *id; let selection = selection.clone(); let (view, doc) = current!(cx.editor); // refetch doc if doc.id() != doc_id { view.add_to_history(doc_id); } doc.set_selection(view.id, selection); align_view(doc, view, Align::Center); }; } fn jump_backward(cx: &mut Context) { let count = cx.count(); let (view, doc) = current!(cx.editor); let doc_id = doc.id(); if let Some((id, selection)) = view.jumps.backward(view.id, doc, count) { view.doc = *id; let selection = selection.clone(); let (view, doc) = current!(cx.editor); // refetch doc if doc.id() != doc_id { view.add_to_history(doc_id); } doc.set_selection(view.id, selection); align_view(doc, view, Align::Center); }; } fn save_selection(cx: &mut Context) { let (view, doc) = current!(cx.editor); push_jump(view, doc); cx.editor.set_status("Selection saved to jumplist"); } fn rotate_view(cx: &mut Context) { cx.editor.focus_next() } fn jump_view_right(cx: &mut Context) { cx.editor.focus_direction(tree::Direction::Right) } fn jump_view_left(cx: &mut Context) { cx.editor.focus_direction(tree::Direction::Left) } fn jump_view_up(cx: &mut Context) { cx.editor.focus_direction(tree::Direction::Up) } fn jump_view_down(cx: &mut Context) { cx.editor.focus_direction(tree::Direction::Down) } fn swap_view_right(cx: &mut Context) { cx.editor.swap_split_in_direction(tree::Direction::Right) } fn swap_view_left(cx: &mut Context) { cx.editor.swap_split_in_direction(tree::Direction::Left) } fn swap_view_up(cx: &mut Context) { cx.editor.swap_split_in_direction(tree::Direction::Up) } fn swap_view_down(cx: &mut Context) { cx.editor.swap_split_in_direction(tree::Direction::Down) } fn transpose_view(cx: &mut Context) { cx.editor.transpose_view() } // split helper, clear it later fn split(cx: &mut Context, action: Action) { let (view, doc) = current!(cx.editor); let id = doc.id(); let selection = doc.selection(view.id).clone(); let offset = view.offset; cx.editor.switch(id, action); // match the selection in the previous view let (view, doc) = current!(cx.editor); doc.set_selection(view.id, selection); // match the view scroll offset (switch doesn't handle this fully // since the selection is only matched after the split) view.offset = offset; } fn hsplit(cx: &mut Context) { split(cx, Action::HorizontalSplit); } fn hsplit_new(cx: &mut Context) { cx.editor.new_file(Action::HorizontalSplit); } fn vsplit(cx: &mut Context) { split(cx, Action::VerticalSplit); } fn vsplit_new(cx: &mut Context) { cx.editor.new_file(Action::VerticalSplit); } fn wclose(cx: &mut Context) { if cx.editor.tree.views().count() == 1 { if let Err(err) = typed::buffers_remaining_impl(cx.editor) { cx.editor.set_error(err.to_string()); return; } } let view_id = view!(cx.editor).id; // close current split cx.editor.close(view_id); } fn wonly(cx: &mut Context) { let views = cx .editor .tree .views() .map(|(v, focus)| (v.id, focus)) .collect::>(); for (view_id, focus) in views { if !focus { cx.editor.close(view_id); } } } fn select_register(cx: &mut Context) { cx.editor.autoinfo = Some(Info::from_registers(&cx.editor.registers)); cx.on_next_key(move |cx, event| { if let Some(ch) = event.char() { cx.editor.autoinfo = None; cx.editor.selected_register = Some(ch); } }) } fn insert_register(cx: &mut Context) { cx.editor.autoinfo = Some(Info::from_registers(&cx.editor.registers)); cx.on_next_key(move |cx, event| { if let Some(ch) = event.char() { cx.editor.autoinfo = None; cx.register = Some(ch); paste(cx, Paste::Cursor); } }) } fn align_view_top(cx: &mut Context) { let (view, doc) = current!(cx.editor); align_view(doc, view, Align::Top); } fn align_view_center(cx: &mut Context) { let (view, doc) = current!(cx.editor); align_view(doc, view, Align::Center); } fn align_view_bottom(cx: &mut Context) { let (view, doc) = current!(cx.editor); align_view(doc, view, Align::Bottom); } fn align_view_middle(cx: &mut Context) { let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let pos = doc.selection(view.id).primary().cursor(text); let pos = coords_at_pos(text, pos); view.offset.col = pos .col .saturating_sub((view.inner_area(doc).width as usize) / 2); } fn scroll_up(cx: &mut Context) { scroll(cx, cx.count(), Direction::Backward); } fn scroll_down(cx: &mut Context) { scroll(cx, cx.count(), Direction::Forward); } fn goto_ts_object_impl(cx: &mut Context, object: &'static str, direction: Direction) { let count = cx.count(); let motion = move |editor: &mut Editor| { let (view, doc) = current!(editor); if let Some((lang_config, syntax)) = doc.language_config().zip(doc.syntax()) { let text = doc.text().slice(..); let root = syntax.tree().root_node(); let selection = doc.selection(view.id).clone().transform(|range| { let new_range = movement::goto_treesitter_object( text, range, object, direction, root, lang_config, count, ); if editor.mode == Mode::Select { let head = if new_range.head < range.anchor { new_range.anchor } else { new_range.head }; Range::new(range.anchor, head) } else { new_range.with_direction(direction) } }); doc.set_selection(view.id, selection); } else { editor.set_status("Syntax-tree is not available in current buffer"); } }; motion(cx.editor); cx.editor.last_motion = Some(Motion(Box::new(motion))); } fn goto_next_function(cx: &mut Context) { goto_ts_object_impl(cx, "function", Direction::Forward) } fn goto_prev_function(cx: &mut Context) { goto_ts_object_impl(cx, "function", Direction::Backward) } fn goto_next_class(cx: &mut Context) { goto_ts_object_impl(cx, "class", Direction::Forward) } fn goto_prev_class(cx: &mut Context) { goto_ts_object_impl(cx, "class", Direction::Backward) } fn goto_next_parameter(cx: &mut Context) { goto_ts_object_impl(cx, "parameter", Direction::Forward) } fn goto_prev_parameter(cx: &mut Context) { goto_ts_object_impl(cx, "parameter", Direction::Backward) } fn goto_next_comment(cx: &mut Context) { goto_ts_object_impl(cx, "comment", Direction::Forward) } fn goto_prev_comment(cx: &mut Context) { goto_ts_object_impl(cx, "comment", Direction::Backward) } fn goto_next_test(cx: &mut Context) { goto_ts_object_impl(cx, "test", Direction::Forward) } fn goto_prev_test(cx: &mut Context) { goto_ts_object_impl(cx, "test", Direction::Backward) } fn select_textobject_around(cx: &mut Context) { select_textobject(cx, textobject::TextObject::Around); } fn select_textobject_inner(cx: &mut Context) { select_textobject(cx, textobject::TextObject::Inside); } fn select_textobject(cx: &mut Context, objtype: textobject::TextObject) { let count = cx.count(); cx.on_next_key(move |cx, event| { cx.editor.autoinfo = None; if let Some(ch) = event.char() { let textobject = move |editor: &mut Editor| { let (view, doc) = current!(editor); let text = doc.text().slice(..); let textobject_treesitter = |obj_name: &str, range: Range| -> Range { let (lang_config, syntax) = match doc.language_config().zip(doc.syntax()) { Some(t) => t, None => return range, }; textobject::textobject_treesitter( text, range, objtype, obj_name, syntax.tree().root_node(), lang_config, count, ) }; let selection = doc.selection(view.id).clone().transform(|range| { match ch { 'w' => textobject::textobject_word(text, range, objtype, count, false), 'W' => textobject::textobject_word(text, range, objtype, count, true), 'c' => textobject_treesitter("class", range), 'f' => textobject_treesitter("function", range), 'a' => textobject_treesitter("parameter", range), 'o' => textobject_treesitter("comment", range), 't' => textobject_treesitter("test", range), 'p' => textobject::textobject_paragraph(text, range, objtype, count), 'm' => textobject::textobject_pair_surround_closest( text, range, objtype, count, ), // TODO: cancel new ranges if inconsistent surround matches across lines ch if !ch.is_ascii_alphanumeric() => { textobject::textobject_pair_surround(text, range, objtype, ch, count) } _ => range, } }); doc.set_selection(view.id, selection); }; textobject(cx.editor); cx.editor.last_motion = Some(Motion(Box::new(textobject))); } }); let title = match objtype { textobject::TextObject::Inside => "Match inside", textobject::TextObject::Around => "Match around", _ => return, }; let help_text = [ ("w", "Word"), ("W", "WORD"), ("p", "Paragraph"), ("c", "Class (tree-sitter)"), ("f", "Function (tree-sitter)"), ("a", "Argument/parameter (tree-sitter)"), ("o", "Comment (tree-sitter)"), ("t", "Test (tree-sitter)"), ("m", "Closest surrounding pair to cursor"), (" ", "... or any character acting as a pair"), ]; cx.editor.autoinfo = Some(Info::new(title, &help_text)); } fn surround_add(cx: &mut Context) { cx.on_next_key(move |cx, event| { let ch = match event.char() { Some(ch) => ch, None => return, }; let (view, doc) = current!(cx.editor); let selection = doc.selection(view.id); let (open, close) = surround::get_pair(ch); let mut changes = Vec::with_capacity(selection.len() * 2); for range in selection.iter() { let mut o = Tendril::new(); o.push(open); let mut c = Tendril::new(); c.push(close); changes.push((range.from(), range.from(), Some(o))); changes.push((range.to(), range.to(), Some(c))); } let transaction = Transaction::change(doc.text(), changes.into_iter()); apply_transaction(&transaction, doc, view); }) } fn surround_replace(cx: &mut Context) { let count = cx.count(); cx.on_next_key(move |cx, event| { let surround_ch = match event.char() { Some('m') => None, // m selects the closest surround pair Some(ch) => Some(ch), None => return, }; let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let selection = doc.selection(view.id); let change_pos = match surround::get_surround_pos(text, selection, surround_ch, count) { Ok(c) => c, Err(err) => { cx.editor.set_error(err.to_string()); return; } }; cx.on_next_key(move |cx, event| { let (view, doc) = current!(cx.editor); let to = match event.char() { Some(to) => to, None => return, }; let (open, close) = surround::get_pair(to); let transaction = Transaction::change( doc.text(), change_pos.iter().enumerate().map(|(i, &pos)| { let mut t = Tendril::new(); t.push(if i % 2 == 0 { open } else { close }); (pos, pos + 1, Some(t)) }), ); apply_transaction(&transaction, doc, view); }); }) } fn surround_delete(cx: &mut Context) { let count = cx.count(); cx.on_next_key(move |cx, event| { let surround_ch = match event.char() { Some('m') => None, // m selects the closest surround pair Some(ch) => Some(ch), None => return, }; let (view, doc) = current!(cx.editor); let text = doc.text().slice(..); let selection = doc.selection(view.id); let change_pos = match surround::get_surround_pos(text, selection, surround_ch, count) { Ok(c) => c, Err(err) => { cx.editor.set_error(err.to_string()); return; } }; let transaction = Transaction::change(doc.text(), change_pos.into_iter().map(|p| (p, p + 1, None))); apply_transaction(&transaction, doc, view); }) } #[derive(Eq, PartialEq)] enum ShellBehavior { Replace, Ignore, Insert, Append, } fn shell_pipe(cx: &mut Context) { shell_prompt(cx, "pipe:".into(), ShellBehavior::Replace); } fn shell_pipe_to(cx: &mut Context) { shell_prompt(cx, "pipe-to:".into(), ShellBehavior::Ignore); } fn shell_insert_output(cx: &mut Context) { shell_prompt(cx, "insert-output:".into(), ShellBehavior::Insert); } fn shell_append_output(cx: &mut Context) { shell_prompt(cx, "append-output:".into(), ShellBehavior::Append); } fn shell_keep_pipe(cx: &mut Context) { ui::prompt( cx, "keep-pipe:".into(), Some('|'), ui::completers::none, move |cx, input: &str, event: PromptEvent| { let shell = &cx.editor.config().shell; if event != PromptEvent::Validate { return; } if input.is_empty() { return; } let (view, doc) = current!(cx.editor); let selection = doc.selection(view.id); let mut ranges = SmallVec::with_capacity(selection.len()); let old_index = selection.primary_index(); let mut index: Option = None; let text = doc.text().slice(..); for (i, range) in selection.ranges().iter().enumerate() { let fragment = range.slice(text); let (_output, success) = match shell_impl(shell, input, Some(fragment.into())) { Ok(result) => result, Err(err) => { cx.editor.set_error(err.to_string()); return; } }; // if the process exits successfully, keep the selection if success { ranges.push(*range); if i >= old_index && index.is_none() { index = Some(ranges.len() - 1); } } } if ranges.is_empty() { cx.editor.set_error("No selections remaining"); return; } let index = index.unwrap_or_else(|| ranges.len() - 1); doc.set_selection(view.id, Selection::new(ranges, index)); }, ); } fn shell_impl(shell: &[String], cmd: &str, input: Option) -> anyhow::Result<(Tendril, bool)> { tokio::task::block_in_place(|| helix_lsp::block_on(shell_impl_async(shell, cmd, input))) } async fn shell_impl_async( shell: &[String], cmd: &str, input: Option, ) -> anyhow::Result<(Tendril, bool)> { use std::process::Stdio; use tokio::process::Command; ensure!(!shell.is_empty(), "No shell set"); let mut process = Command::new(&shell[0]); process .args(&shell[1..]) .arg(cmd) .stdout(Stdio::piped()) .stderr(Stdio::piped()); if input.is_some() || cfg!(windows) { process.stdin(Stdio::piped()); } else { process.stdin(Stdio::null()); } let mut process = match process.spawn() { Ok(process) => process, Err(e) => { log::error!("Failed to start shell: {}", e); return Err(e.into()); } }; let output = if let Some(mut stdin) = process.stdin.take() { let input_task = tokio::spawn(async move { if let Some(input) = input { helix_view::document::to_writer(&mut stdin, encoding::UTF_8, &input).await?; } Ok::<_, anyhow::Error>(()) }); let (output, _) = tokio::join! { process.wait_with_output(), input_task, }; output? } else { // Process has no stdin, so we just take the output process.wait_with_output().await? }; if !output.status.success() { if !output.stderr.is_empty() { let err = String::from_utf8_lossy(&output.stderr).to_string(); log::error!("Shell error: {}", err); bail!("Shell error: {}", err); } bail!("Shell command failed"); } else if !output.stderr.is_empty() { log::debug!( "Command printed to stderr: {}", String::from_utf8_lossy(&output.stderr).to_string() ); } let str = std::str::from_utf8(&output.stdout) .map_err(|_| anyhow!("Process did not output valid UTF-8"))?; let tendril = Tendril::from(str); Ok((tendril, output.status.success())) } fn shell(cx: &mut compositor::Context, cmd: &str, behavior: &ShellBehavior) { let pipe = match behavior { ShellBehavior::Replace | ShellBehavior::Ignore => true, ShellBehavior::Insert | ShellBehavior::Append => false, }; let config = cx.editor.config(); let shell = &config.shell; let (view, doc) = current!(cx.editor); let selection = doc.selection(view.id); let mut changes = Vec::with_capacity(selection.len()); let mut ranges = SmallVec::with_capacity(selection.len()); let text = doc.text().slice(..); let mut offset = 0isize; for range in selection.ranges() { let fragment = range.slice(text); let (output, success) = match shell_impl(shell, cmd, pipe.then(|| fragment.into())) { Ok(result) => result, Err(err) => { cx.editor.set_error(err.to_string()); return; } }; if !success { cx.editor.set_error("Command failed"); return; } let output_len = output.chars().count(); let (from, to, deleted_len) = match behavior { ShellBehavior::Replace => (range.from(), range.to(), range.len()), ShellBehavior::Insert => (range.from(), range.from(), 0), ShellBehavior::Append => (range.to(), range.to(), 0), _ => (range.from(), range.from(), 0), }; // These `usize`s cannot underflow because selection ranges cannot overlap. // Once the MSRV is 1.66.0 (mixed_integer_ops is stabilized), we can use checked // arithmetic to assert this. let anchor = (to as isize + offset - deleted_len as isize) as usize; let new_range = Range::new(anchor, anchor + output_len).with_direction(range.direction()); ranges.push(new_range); offset = offset + output_len as isize - deleted_len as isize; changes.push((from, to, Some(output))); } if behavior != &ShellBehavior::Ignore { let transaction = Transaction::change(doc.text(), changes.into_iter()) .with_selection(Selection::new(ranges, selection.primary_index())); apply_transaction(&transaction, doc, view); doc.append_changes_to_history(view.id); } // after replace cursor may be out of bounds, do this to // make sure cursor is in view and update scroll as well view.ensure_cursor_in_view(doc, config.scrolloff); } fn shell_prompt(cx: &mut Context, prompt: Cow<'static, str>, behavior: ShellBehavior) { ui::prompt( cx, prompt, Some('|'), ui::completers::none, move |cx, input: &str, event: PromptEvent| { if event != PromptEvent::Validate { return; } if input.is_empty() { return; } shell(cx, input, &behavior); }, ); } fn suspend(_cx: &mut Context) { #[cfg(not(windows))] signal_hook::low_level::raise(signal_hook::consts::signal::SIGTSTP).unwrap(); } fn add_newline_above(cx: &mut Context) { add_newline_impl(cx, Open::Above); } fn add_newline_below(cx: &mut Context) { add_newline_impl(cx, Open::Below) } fn add_newline_impl(cx: &mut Context, open: Open) { let count = cx.count(); let (view, doc) = current!(cx.editor); let selection = doc.selection(view.id); let text = doc.text(); let slice = text.slice(..); let changes = selection.into_iter().map(|range| { let (start, end) = range.line_range(slice); let line = match open { Open::Above => start, Open::Below => end + 1, }; let pos = text.line_to_char(line); ( pos, pos, Some(doc.line_ending.as_str().repeat(count).into()), ) }); let transaction = Transaction::change(text, changes); apply_transaction(&transaction, doc, view); } enum IncrementDirection { Increase, Decrease, } /// Increment object under cursor by count. fn increment(cx: &mut Context) { increment_impl(cx, IncrementDirection::Increase); } /// Decrement object under cursor by count. fn decrement(cx: &mut Context) { increment_impl(cx, IncrementDirection::Decrease); } /// This function differs from find_next_char_impl in that it stops searching at the newline, but also /// starts searching at the current character, instead of the next. /// It does not want to start at the next character because this function is used for incrementing /// number and we don't want to move forward if we're already on a digit. fn find_next_char_until_newline( text: RopeSlice, char_matcher: M, pos: usize, _count: usize, _inclusive: bool, ) -> Option { // Since we send the current line to find_nth_next instead of the whole text, we need to adjust // the position we send to this function so that it's relative to that line and its returned // position since it's expected this function returns a global position. let line_index = text.char_to_line(pos); let pos_delta = text.line_to_char(line_index); let pos = pos - pos_delta; search::find_nth_next(text.line(line_index), char_matcher, pos, 1).map(|pos| pos + pos_delta) } /// Decrement object under cursor by `amount`. fn increment_impl(cx: &mut Context, increment_direction: IncrementDirection) { // TODO: when incrementing or decrementing a number that gets a new digit or lose one, the // selection is updated improperly. find_char_impl( cx.editor, &find_next_char_until_newline, true, true, char::is_ascii_digit, 1, ); // Increase by 1 if `IncrementDirection` is `Increase` // Decrease by 1 if `IncrementDirection` is `Decrease` let sign = match increment_direction { IncrementDirection::Increase => 1, IncrementDirection::Decrease => -1, }; let mut amount = sign * cx.count() as i64; // If the register is `#` then increase or decrease the `amount` by 1 per element let increase_by = if cx.register == Some('#') { sign } else { 0 }; let (view, doc) = current!(cx.editor); let selection = doc.selection(view.id); let text = doc.text().slice(..); let changes: Vec<_> = selection .ranges() .iter() .filter_map(|range| { let incrementor: Box = if let Some(incrementor) = DateTimeIncrementor::from_range(text, *range) { Box::new(incrementor) } else if let Some(incrementor) = NumberIncrementor::from_range(text, *range) { Box::new(incrementor) } else { return None; }; let (range, new_text) = incrementor.increment(amount); amount += increase_by; Some((range.from(), range.to(), Some(new_text))) }) .collect(); // Overlapping changes in a transaction will panic, so we need to find and remove them. // For example, if there are cursors on each of the year, month, and day of `2021-11-29`, // incrementing will give overlapping changes, with each change incrementing a different part of // the date. Since these conflict with each other we remove these changes from the transaction // so nothing happens. let mut overlapping_indexes = HashSet::new(); for (i, changes) in changes.windows(2).enumerate() { if changes[0].1 > changes[1].0 { overlapping_indexes.insert(i); overlapping_indexes.insert(i + 1); } } let changes = changes.into_iter().enumerate().filter_map(|(i, change)| { if overlapping_indexes.contains(&i) { None } else { Some(change) } }); if changes.clone().count() > 0 { let transaction = Transaction::change(doc.text(), changes); let transaction = transaction.with_selection(selection.clone()); apply_transaction(&transaction, doc, view); } } fn record_macro(cx: &mut Context) { if let Some((reg, mut keys)) = cx.editor.macro_recording.take() { // Remove the keypress which ends the recording keys.pop(); let s = keys .into_iter() .map(|key| { let s = key.to_string(); if s.chars().count() == 1 { s } else { format!("<{}>", s) } }) .collect::(); cx.editor.registers.write(reg, vec![s]); cx.editor .set_status(format!("Recorded to register [{}]", reg)); } else { let reg = cx.register.take().unwrap_or('@'); cx.editor.macro_recording = Some((reg, Vec::new())); cx.editor .set_status(format!("Recording to register [{}]", reg)); } } fn replay_macro(cx: &mut Context) { let reg = cx.register.unwrap_or('@'); if cx.editor.macro_replaying.contains(®) { cx.editor.set_error(format!( "Cannot replay from register [{}] because already replaying from same register", reg )); return; } let keys: Vec = if let Some([keys_str]) = cx.editor.registers.read(reg) { match helix_view::input::parse_macro(keys_str) { Ok(keys) => keys, Err(err) => { cx.editor.set_error(format!("Invalid macro: {}", err)); return; } } } else { cx.editor.set_error(format!("Register [{}] empty", reg)); return; }; // Once the macro has been fully validated, it's marked as being under replay // to ensure we don't fall into infinite recursion. cx.editor.macro_replaying.push(reg); let count = cx.count(); cx.callback = Some(Box::new(move |compositor, cx| { for _ in 0..count { for &key in keys.iter() { compositor.handle_event(&compositor::Event::Key(key), cx); } } // The macro under replay is cleared at the end of the callback, not in the // macro replay context, or it will not correctly protect the user from // replaying recursively. cx.editor.macro_replaying.pop(); })); }