#[allow(unused_imports)] use crate::future::IsSomeAnd; use crate::highlight::HighlightSpec; use crate::wchar::prelude::*; /// An edit action that can be undone. #[derive(Clone, Eq, PartialEq)] pub struct Edit { /// When undoing the edit we use this to restore the previous cursor position. pub cursor_position_before_edit: usize, /// The span of text that is replaced by this edit. pub range: std::ops::Range, /// The strings that are removed and added by this edit, respectively. pub old: WString, pub replacement: WString, /// edit_t is only for contiguous changes, so to restore a group of arbitrary changes to the /// command line we need to have a group id as forcibly coalescing changes is not enough. group_id: Option, } impl Edit { pub fn new(range: std::ops::Range, replacement: WString) -> Self { Self { cursor_position_before_edit: 0, range, old: WString::new(), replacement, group_id: None, } } } /// Modify a string and its syntax highlighting according to the given edit. /// Currently exposed for testing only. pub fn apply_edit(target: &mut WString, colors: &mut Vec, edit: &Edit) { let range = &edit.range; target.replace_range(range.clone(), &edit.replacement); // Now do the same to highlighting. let last_color = edit .range .start .checked_sub(1) .map(|i| colors[i]) .unwrap_or_default(); colors.splice( range.clone(), std::iter::repeat(last_color).take(edit.replacement.len()), ); } /// The history of all edits to some command line. #[derive(Clone, Default)] pub struct UndoHistory { /// The stack of edits that can be undone or redone atomically. pub edits: Vec, /// The position in the undo stack that corresponds to the current /// state of the input line. /// Invariants: /// edits_applied - 1 is the index of the next edit to undo. /// edits_applied is the index of the next edit to redo. /// /// For example, if nothing was undone, edits_applied is edits.size(). /// If every single edit was undone, edits_applied is 0. pub edits_applied: usize, /// Whether we allow the next edit to be grouped together with the /// last one. may_coalesce: bool, /// Whether to be more aggressive in coalescing edits. Ideally, it would be "force coalesce" /// with guaranteed atomicity but as `edit_t` is strictly for contiguous changes, that guarantee /// can't be made at this time. try_coalesce: bool, } impl UndoHistory { /// Empty the history. pub fn clear(&mut self) { self.edits.clear(); self.edits_applied = 0; self.may_coalesce = false; } } /// Helper class for storing a command line. #[derive(Clone, Default)] pub struct EditableLine { /// The command line. text: WString, /// Syntax highlighting. colors: Vec, /// The current position of the cursor in the command line. position: usize, /// The history of all edits. undo_history: UndoHistory, /// The nesting level for atomic edits, so that recursive invocations of start_edit_group() /// are not ended by one end_edit_group() call. edit_group_level: Option, /// Monotonically increasing edit group, ignored when edit_group_level_ is -1. Allowed to wrap. edit_group_id: usize, } impl EditableLine { pub fn text(&self) -> &wstr { &self.text } pub fn colors(&self) -> &[HighlightSpec] { &self.colors } pub fn set_colors(&mut self, colors: Vec) { assert_eq!(colors.len(), self.len()); self.colors = colors; } pub fn position(&self) -> usize { self.position } pub fn set_position(&mut self, position: usize) { self.position = position; } // Gets the length of the text. pub fn len(&self) -> usize { self.text.len() } pub fn is_empty(&self) -> bool { self.text.is_empty() } pub fn at(&self, idx: usize) -> char { self.text.char_at(idx) } pub fn clear(&mut self) { self.undo_history.clear(); if self.is_empty() { return; } let len = self.len(); apply_edit( &mut self.text, &mut self.colors, &Edit::new(0..len, L!("").to_owned()), ); self.set_position(0); } /// Modify the commandline according to @edit. Most modifications to the /// text should pass through this function. pub fn push_edit(&mut self, mut edit: Edit, allow_coalesce: bool) { let range = &edit.range; let is_insertion = range.is_empty(); // Coalescing insertion does not create a new undo entry but adds to the last insertion. if allow_coalesce && is_insertion && self.want_to_coalesce_insertion_of(&edit.replacement) { assert!(range.start == self.position()); let last_edit = self.undo_history.edits.last_mut().unwrap(); last_edit.replacement.push_utfstr(&edit.replacement); apply_edit(&mut self.text, &mut self.colors, &edit); self.set_position(self.position() + edit.replacement.len()); assert!(self.undo_history.may_coalesce); return; } // Assign a new group id or propagate the old one if we're in a logical grouping of edits if self.edit_group_level.is_some() { edit.group_id = Some(self.edit_group_id); } let edit_does_nothing = range.is_empty() && edit.replacement.is_empty(); if edit_does_nothing { return; } if self.undo_history.edits_applied != self.undo_history.edits.len() { // After undoing some edits, the user is making a new edit; // we are about to create a new edit branch. // Discard all edits that were undone because we only support // linear undo/redo, they will be unreachable. self.undo_history .edits .truncate(self.undo_history.edits_applied); } edit.cursor_position_before_edit = self.position(); edit.old = self.text[range.clone()].to_owned(); apply_edit(&mut self.text, &mut self.colors, &edit); self.set_position(cursor_position_after_edit(&edit)); assert_eq!( self.undo_history.edits_applied, self.undo_history.edits.len() ); self.undo_history.may_coalesce = is_insertion && (self.undo_history.try_coalesce || edit.replacement.len() == 1); self.undo_history.edits_applied += 1; self.undo_history.edits.push(edit); } /// Undo the most recent edit that was not yet undone. Returns true on success. pub fn undo(&mut self) -> bool { let mut did_undo = false; let mut last_group_id = None; while self.undo_history.edits_applied != 0 { let edit = &self.undo_history.edits[self.undo_history.edits_applied - 1]; if did_undo && edit .group_id .is_none_or(|group_id| Some(group_id) != last_group_id) { // We've restored all the edits in this logical undo group break; } last_group_id = edit.group_id; self.undo_history.edits_applied -= 1; let range = &edit.range; let mut inverse = Edit::new( range.start..range.start + edit.replacement.len(), L!("").to_owned(), ); inverse.replacement = edit.old.clone(); let old_position = edit.cursor_position_before_edit; apply_edit(&mut self.text, &mut self.colors, &inverse); self.set_position(old_position); did_undo = true; } self.end_edit_group(); self.undo_history.may_coalesce = false; did_undo } /// Redo the most recent undo. Returns true on success. pub fn redo(&mut self) -> bool { let mut did_redo = false; let mut last_group_id = None; while let Some(edit) = self.undo_history.edits.get(self.undo_history.edits_applied) { if did_redo && edit .group_id .is_none_or(|group_id| Some(group_id) != last_group_id) { // We've restored all the edits in this logical undo group break; } last_group_id = edit.group_id; self.undo_history.edits_applied += 1; apply_edit(&mut self.text, &mut self.colors, edit); self.set_position(cursor_position_after_edit(edit)); did_redo = true; } self.end_edit_group(); did_redo } /// Start a logical grouping of command line edits that should be undone/redone together. pub fn begin_edit_group(&mut self) { if self.edit_group_level.is_some() { return; } self.edit_group_level = Some(1); // Indicate that the next change must trigger the creation of a new history item self.undo_history.may_coalesce = false; // Indicate that future changes should be coalesced into the same edit if possible. self.undo_history.try_coalesce = true; // Assign a logical edit group id to future edits in this group self.edit_group_id += 1; } /// End a logical grouping of command line edits that should be undone/redone together. pub fn end_edit_group(&mut self) { match self.edit_group_level.as_mut() { Some(edit_group_level) => { *edit_group_level -= 1; if *edit_group_level > 0 { return; } } None => { // Prevent unbalanced end_edit_group() calls from breaking everything. return; } } self.edit_group_level = None; self.undo_history.try_coalesce = false; self.undo_history.may_coalesce = false; } /// Whether we want to append this string to the previous edit. fn want_to_coalesce_insertion_of(&self, s: &wstr) -> bool { // The previous edit must support coalescing. if !self.undo_history.may_coalesce { return false; } // Only consolidate single character inserts. if s.len() != 1 { return false; } // Make an undo group after every space. if s.as_char_slice()[0] == ' ' && !self.undo_history.try_coalesce { return false; } let last_edit = self.undo_history.edits.last().unwrap(); // Don't add to the last edit if it deleted something. if !last_edit.range.is_empty() { return false; } // Must not have moved the cursor! if cursor_position_after_edit(last_edit) != self.position() { return false; } true } } /// Returns the number of characters left of the cursor that are removed by the /// deletion in the given edit. fn chars_deleted_left_of_cursor(edit: &Edit) -> usize { if edit.cursor_position_before_edit > edit.range.start { return std::cmp::min( edit.range.len(), edit.cursor_position_before_edit - edit.range.start, ); } 0 } /// Compute the position of the cursor after the given edit. fn cursor_position_after_edit(edit: &Edit) -> usize { let cursor = edit.cursor_position_before_edit + edit.replacement.len(); let removed = chars_deleted_left_of_cursor(edit); cursor.saturating_sub(removed) }