use crate::{ align_view, document::DocumentInlayHints, editor::{GutterConfig, GutterType}, graphics::Rect, Align, Document, DocumentId, Theme, ViewId, }; use helix_core::{ char_idx_at_visual_offset, doc_formatter::TextFormat, syntax::Highlight, text_annotations::TextAnnotations, visual_offset_from_anchor, visual_offset_from_block, Position, RopeSlice, Selection, Transaction, VisualOffsetError::{PosAfterMaxRow, PosBeforeAnchorRow}, }; use std::{ collections::{HashMap, VecDeque}, fmt, }; const JUMP_LIST_CAPACITY: usize = 30; type Jump = (DocumentId, Selection); #[derive(Debug, Clone)] pub struct JumpList { jumps: VecDeque, current: usize, } impl JumpList { pub fn new(initial: Jump) -> Self { let mut jumps = VecDeque::with_capacity(JUMP_LIST_CAPACITY); jumps.push_back(initial); Self { jumps, current: 0 } } pub fn push(&mut self, jump: Jump) { self.jumps.truncate(self.current); // don't push duplicates if self.jumps.back() != Some(&jump) { // If the jumplist is full, drop the oldest item. while self.jumps.len() >= JUMP_LIST_CAPACITY { self.jumps.pop_front(); } self.jumps.push_back(jump); self.current = self.jumps.len(); } } pub fn forward(&mut self, count: usize) -> Option<&Jump> { if self.current + count < self.jumps.len() { self.current += count; self.jumps.get(self.current) } else { None } } // Taking view and doc to prevent unnecessary cloning when jump is not required. pub fn backward(&mut self, view_id: ViewId, doc: &mut Document, count: usize) -> Option<&Jump> { if let Some(current) = self.current.checked_sub(count) { if self.current == self.jumps.len() { let jump = (doc.id(), doc.selection(view_id).clone()); self.push(jump); } self.current = current; self.jumps.get(self.current) } else { None } } pub fn remove(&mut self, doc_id: &DocumentId) { self.jumps.retain(|(other_id, _)| other_id != doc_id); } pub fn iter(&self) -> impl Iterator { self.jumps.iter() } /// Applies a [`Transaction`] of changes to the jumplist. /// This is necessary to ensure that changes to documents do not leave jump-list /// selections pointing to parts of the text which no longer exist. fn apply(&mut self, transaction: &Transaction, doc: &Document) { let text = doc.text().slice(..); for (doc_id, selection) in &mut self.jumps { if doc.id() == *doc_id { *selection = selection .clone() .map(transaction.changes()) .ensure_invariants(text); } } } } #[derive(Clone, Debug, PartialEq, Eq, Copy, Default)] pub struct ViewPosition { pub anchor: usize, pub horizontal_offset: usize, pub vertical_offset: usize, } #[derive(Clone)] pub struct View { pub id: ViewId, pub offset: ViewPosition, pub area: Rect, pub doc: DocumentId, pub jumps: JumpList, // documents accessed from this view from the oldest one to last viewed one pub docs_access_history: Vec, /// the last modified files before the current one /// ordered from most frequent to least frequent // uses two docs because we want to be able to swap between the // two last modified docs which we need to manually keep track of pub last_modified_docs: [Option; 2], /// used to store previous selections of tree-sitter objects pub object_selections: Vec, /// all gutter-related configuration settings, used primarily for gutter rendering pub gutters: GutterConfig, /// A mapping between documents and the last history revision the view was updated at. /// Changes between documents and views are synced lazily when switching windows. This /// mapping keeps track of the last applied history revision so that only new changes /// are applied. doc_revisions: HashMap, } impl fmt::Debug for View { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.debug_struct("View") .field("id", &self.id) .field("area", &self.area) .field("doc", &self.doc) .finish() } } impl View { pub fn new(doc: DocumentId, gutters: GutterConfig) -> Self { Self { id: ViewId::default(), doc, offset: ViewPosition { anchor: 0, horizontal_offset: 0, vertical_offset: 0, }, area: Rect::default(), // will get calculated upon inserting into tree jumps: JumpList::new((doc, Selection::point(0))), // TODO: use actual sel docs_access_history: Vec::new(), last_modified_docs: [None, None], object_selections: Vec::new(), gutters, doc_revisions: HashMap::new(), } } pub fn add_to_history(&mut self, id: DocumentId) { if let Some(pos) = self.docs_access_history.iter().position(|&doc| doc == id) { self.docs_access_history.remove(pos); } self.docs_access_history.push(id); } pub fn inner_area(&self, doc: &Document) -> Rect { self.area.clip_left(self.gutter_offset(doc)).clip_bottom(1) // -1 for statusline } pub fn inner_height(&self) -> usize { self.area.clip_bottom(1).height.into() // -1 for statusline } pub fn inner_width(&self, doc: &Document) -> u16 { self.area.clip_left(self.gutter_offset(doc)).width } pub fn gutters(&self) -> &[GutterType] { &self.gutters.layout } pub fn gutter_offset(&self, doc: &Document) -> u16 { let total_width = self .gutters .layout .iter() .map(|gutter| gutter.width(self, doc) as u16) .sum(); if total_width < self.area.width { total_width } else { 0 } } // pub fn offset_coords_to_in_view( &self, doc: &Document, scrolloff: usize, ) -> Option { self.offset_coords_to_in_view_center::(doc, scrolloff) } pub fn offset_coords_to_in_view_center( &self, doc: &Document, scrolloff: usize, ) -> Option { let doc_text = doc.text().slice(..); let viewport = self.inner_area(doc); let vertical_viewport_end = self.offset.vertical_offset + viewport.height as usize; let text_fmt = doc.text_format(viewport.width, None); let annotations = self.text_annotations(doc, None); // - 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 = if CENTERING { 0 } else { scrolloff.min(viewport.height.saturating_sub(1) as usize / 2) }; let cursor = doc.selection(self.id).primary().cursor(doc_text); let mut offset = self.offset; let off = visual_offset_from_anchor( doc_text, offset.anchor, cursor, &text_fmt, &annotations, vertical_viewport_end, ); let (new_anchor, at_top) = match off { Ok((visual_pos, _)) if visual_pos.row < scrolloff + offset.vertical_offset => { if CENTERING { // cursor out of view return None; } (true, true) } Ok((visual_pos, _)) if visual_pos.row + scrolloff >= vertical_viewport_end => { (true, false) } Ok((_, _)) => (false, false), Err(_) if CENTERING => return None, Err(PosBeforeAnchorRow) => (true, true), Err(PosAfterMaxRow) => (true, false), }; if new_anchor { let v_off = if at_top { scrolloff as isize } else { viewport.height as isize - scrolloff as isize - 1 }; (offset.anchor, offset.vertical_offset) = char_idx_at_visual_offset(doc_text, cursor, -v_off, 0, &text_fmt, &annotations); } if text_fmt.soft_wrap { offset.horizontal_offset = 0; } else { // determine the current visual column of the text let col = off .unwrap_or_else(|_| { visual_offset_from_block( doc_text, offset.anchor, cursor, &text_fmt, &annotations, ) }) .0 .col; let last_col = offset.horizontal_offset + viewport.width.saturating_sub(1) as usize; if col > last_col.saturating_sub(scrolloff) { // scroll right offset.horizontal_offset += col - (last_col.saturating_sub(scrolloff)) } else if col < offset.horizontal_offset + scrolloff { // scroll left offset.horizontal_offset = col.saturating_sub(scrolloff) }; } // if we are not centering return None if view position is unchanged if !CENTERING && offset == self.offset { return None; } Some(offset) } pub fn ensure_cursor_in_view(&mut self, doc: &Document, scrolloff: usize) { if let Some(offset) = self.offset_coords_to_in_view_center::(doc, scrolloff) { self.offset = offset; } } pub fn ensure_cursor_in_view_center(&mut self, doc: &Document, scrolloff: usize) { if let Some(offset) = self.offset_coords_to_in_view_center::(doc, scrolloff) { self.offset = offset; } else { align_view(doc, self, Align::Center); } } pub fn is_cursor_in_view(&mut self, doc: &Document, scrolloff: usize) -> bool { self.offset_coords_to_in_view(doc, scrolloff).is_none() } /// Estimates the last visible document line on screen. /// This estimate is an upper bound obtained by calculating the first /// visible line and adding the viewport height. /// The actual last visible line may be smaller if softwrapping occurs /// or virtual text lines are visible #[inline] pub fn estimate_last_doc_line(&self, doc: &Document) -> usize { let doc_text = doc.text().slice(..); let line = doc_text.char_to_line(self.offset.anchor.min(doc_text.len_chars())); // Saturating subs to make it inclusive zero indexing. (line + self.inner_height()) .min(doc_text.len_lines()) .saturating_sub(1) } /// Calculates the last non-empty visual line on screen #[inline] pub fn last_visual_line(&self, doc: &Document) -> usize { let doc_text = doc.text().slice(..); let viewport = self.inner_area(doc); let text_fmt = doc.text_format(viewport.width, None); let annotations = self.text_annotations(doc, None); // last visual line in view is trivial to compute let visual_height = self.offset.vertical_offset + viewport.height as usize; // fast path when the EOF is not visible on the screen, if self.estimate_last_doc_line(doc) < doc_text.len_lines() - 1 { return visual_height.saturating_sub(1); } // translate to document line let pos = visual_offset_from_anchor( doc_text, self.offset.anchor, usize::MAX, &text_fmt, &annotations, visual_height, ); match pos { Ok((Position { row, .. }, _)) => row.saturating_sub(self.offset.vertical_offset), Err(PosAfterMaxRow) => visual_height.saturating_sub(1), Err(PosBeforeAnchorRow) => 0, } } /// Translates a document position to an absolute position in the terminal. /// Returns a (line, col) position if the position is visible on screen. // TODO: Could return width as well for the character width at cursor. pub fn screen_coords_at_pos( &self, doc: &Document, text: RopeSlice, pos: usize, ) -> Option { if pos < self.offset.anchor { // Line is not visible on screen return None; } let viewport = self.inner_area(doc); let text_fmt = doc.text_format(viewport.width, None); let annotations = self.text_annotations(doc, None); let mut pos = visual_offset_from_anchor( text, self.offset.anchor, pos, &text_fmt, &annotations, viewport.height as usize, ) .ok()? .0; if pos.row < self.offset.vertical_offset { return None; } pos.row -= self.offset.vertical_offset; if pos.row >= viewport.height as usize { return None; } pos.col = pos.col.saturating_sub(self.offset.horizontal_offset); Some(pos) } /// Get the text annotations to display in the current view for the given document and theme. pub fn text_annotations<'a>( &self, doc: &'a Document, theme: Option<&Theme>, ) -> TextAnnotations<'a> { let mut text_annotations = TextAnnotations::default(); if let Some(labels) = doc.jump_labels.get(&self.id) { let style = theme .and_then(|t| t.find_scope_index("ui.virtual.jump-label")) .map(Highlight); text_annotations.add_overlay(labels, style); } let DocumentInlayHints { id: _, type_inlay_hints, parameter_inlay_hints, other_inlay_hints, padding_before_inlay_hints, padding_after_inlay_hints, } = match doc.inlay_hints.get(&self.id) { Some(doc_inlay_hints) => doc_inlay_hints, None => return text_annotations, }; let type_style = theme .and_then(|t| t.find_scope_index("ui.virtual.inlay-hint.type")) .map(Highlight); let parameter_style = theme .and_then(|t| t.find_scope_index("ui.virtual.inlay-hint.parameter")) .map(Highlight); let other_style = theme .and_then(|t| t.find_scope_index("ui.virtual.inlay-hint")) .map(Highlight); // Overlapping annotations are ignored apart from the first so the order here is not random: // types -> parameters -> others should hopefully be the "correct" order for most use cases, // with the padding coming before and after as expected. text_annotations .add_inline_annotations(padding_before_inlay_hints, None) .add_inline_annotations(type_inlay_hints, type_style) .add_inline_annotations(parameter_inlay_hints, parameter_style) .add_inline_annotations(other_inlay_hints, other_style) .add_inline_annotations(padding_after_inlay_hints, None); text_annotations } pub fn text_pos_at_screen_coords( &self, doc: &Document, row: u16, column: u16, fmt: TextFormat, annotations: &TextAnnotations, ignore_virtual_text: bool, ) -> Option { let inner = self.inner_area(doc); // 1 for status if row < inner.top() || row >= inner.bottom() { return None; } if column < inner.left() || column > inner.right() { return None; } self.text_pos_at_visual_coords( doc, row - inner.y, column - inner.x, fmt, annotations, ignore_virtual_text, ) } pub fn text_pos_at_visual_coords( &self, doc: &Document, row: u16, column: u16, text_fmt: TextFormat, annotations: &TextAnnotations, ignore_virtual_text: bool, ) -> Option { let text = doc.text().slice(..); let text_row = row as usize + self.offset.vertical_offset; let text_col = column as usize + self.offset.horizontal_offset; let (char_idx, virt_lines) = char_idx_at_visual_offset( text, self.offset.anchor, text_row as isize, text_col, &text_fmt, annotations, ); // if the cursor is on a line with only virtual text return None if virt_lines != 0 && ignore_virtual_text { return None; } Some(char_idx) } /// Translates a screen position to position in the text document. /// Returns a usize typed position in bounds of the text if found in this view, None if out of view. pub fn pos_at_screen_coords( &self, doc: &Document, row: u16, column: u16, ignore_virtual_text: bool, ) -> Option { self.text_pos_at_screen_coords( doc, row, column, doc.text_format(self.inner_width(doc), None), &self.text_annotations(doc, None), ignore_virtual_text, ) } pub fn pos_at_visual_coords( &self, doc: &Document, row: u16, column: u16, ignore_virtual_text: bool, ) -> Option { self.text_pos_at_visual_coords( doc, row, column, doc.text_format(self.inner_width(doc), None), &self.text_annotations(doc, None), ignore_virtual_text, ) } /// Translates screen coordinates into coordinates on the gutter of the view. /// Returns a tuple of usize typed line and column numbers starting with 0. /// Returns None if coordinates are not on the gutter. pub fn gutter_coords_at_screen_coords(&self, row: u16, column: u16) -> Option { // 1 for status if row < self.area.top() || row >= self.area.bottom() { return None; } if column < self.area.left() || column > self.area.right() { return None; } Some(Position::new( (row - self.area.top()) as usize, (column - self.area.left()) as usize, )) } pub fn remove_document(&mut self, doc_id: &DocumentId) { self.jumps.remove(doc_id); self.docs_access_history.retain(|doc| doc != doc_id); } // pub fn traverse(&self, text: RopeSlice, start: usize, end: usize, fun: F) // where // F: Fn(usize, usize), // { // let start = self.screen_coords_at_pos(text, start); // let end = self.screen_coords_at_pos(text, end); // match (start, end) { // // fully on screen // (Some(start), Some(end)) => { // // we want to calculate ends of lines for each char.. // } // // from start to end of screen // (Some(start), None) => {} // // from start of screen to end // (None, Some(end)) => {} // // not on screen // (None, None) => return, // } // } /// Applies a [`Transaction`] to the view. pub fn apply(&mut self, transaction: &Transaction, doc: &mut Document) { self.jumps.apply(transaction, doc); self.doc_revisions .insert(doc.id(), doc.get_current_revision()); } pub fn sync_changes(&mut self, doc: &mut Document) { let latest_revision = doc.get_current_revision(); let current_revision = *self .doc_revisions .entry(doc.id()) .or_insert(latest_revision); if current_revision == latest_revision { return; } log::debug!( "Syncing view {:?} between {} and {}", self.id, current_revision, latest_revision ); if let Some(transaction) = doc.history.get_mut().changes_since(current_revision) { self.apply(&transaction, doc); } } } #[cfg(test)] mod tests { use std::sync::Arc; use super::*; use arc_swap::ArcSwap; use helix_core::Rope; // 1 diagnostic + 1 spacer + 3 linenr (< 1000 lines) + 1 spacer + 1 diff const DEFAULT_GUTTER_OFFSET: u16 = 7; // 1 diagnostics + 1 spacer + 1 gutter const DEFAULT_GUTTER_OFFSET_ONLY_DIAGNOSTICS: u16 = 3; use crate::document::Document; use crate::editor::{Config, GutterConfig, GutterLineNumbersConfig, GutterType}; #[test] fn test_text_pos_at_screen_coords() { let mut view = View::new(DocumentId::default(), GutterConfig::default()); view.area = Rect::new(40, 40, 40, 40); let rope = Rope::from_str("abc\n\tdef"); let doc = Document::from( rope, None, Arc::new(ArcSwap::new(Arc::new(Config::default()))), ); assert_eq!( view.text_pos_at_screen_coords( &doc, 40, 2, TextFormat::default(), &TextAnnotations::default(), true ), None ); assert_eq!( view.text_pos_at_screen_coords( &doc, 40, 41, TextFormat::default(), &TextAnnotations::default(), true ), None ); assert_eq!( view.text_pos_at_screen_coords( &doc, 0, 2, TextFormat::default(), &TextAnnotations::default(), true ), None ); assert_eq!( view.text_pos_at_screen_coords( &doc, 0, 49, TextFormat::default(), &TextAnnotations::default(), true ), None ); assert_eq!( view.text_pos_at_screen_coords( &doc, 0, 41, TextFormat::default(), &TextAnnotations::default(), true ), None ); assert_eq!( view.text_pos_at_screen_coords( &doc, 40, 81, TextFormat::default(), &TextAnnotations::default(), true ), None ); assert_eq!( view.text_pos_at_screen_coords( &doc, 78, 41, TextFormat::default(), &TextAnnotations::default(), true ), None ); assert_eq!( view.text_pos_at_screen_coords( &doc, 40, 40 + DEFAULT_GUTTER_OFFSET + 3, TextFormat::default(), &TextAnnotations::default(), true ), Some(3) ); assert_eq!( view.text_pos_at_screen_coords( &doc, 40, 80, TextFormat::default(), &TextAnnotations::default(), true ), Some(3) ); assert_eq!( view.text_pos_at_screen_coords( &doc, 41, 40 + DEFAULT_GUTTER_OFFSET + 1, TextFormat::default(), &TextAnnotations::default(), true ), Some(4) ); assert_eq!( view.text_pos_at_screen_coords( &doc, 41, 40 + DEFAULT_GUTTER_OFFSET + 4, TextFormat::default(), &TextAnnotations::default(), true ), Some(5) ); assert_eq!( view.text_pos_at_screen_coords( &doc, 41, 40 + DEFAULT_GUTTER_OFFSET + 7, TextFormat::default(), &TextAnnotations::default(), true ), Some(8) ); assert_eq!( view.text_pos_at_screen_coords( &doc, 41, 80, TextFormat::default(), &TextAnnotations::default(), true ), Some(8) ); } #[test] fn test_text_pos_at_screen_coords_without_line_numbers_gutter() { let mut view = View::new( DocumentId::default(), GutterConfig { layout: vec![GutterType::Diagnostics], line_numbers: GutterLineNumbersConfig::default(), }, ); view.area = Rect::new(40, 40, 40, 40); let rope = Rope::from_str("abc\n\tdef"); let doc = Document::from( rope, None, Arc::new(ArcSwap::new(Arc::new(Config::default()))), ); assert_eq!( view.text_pos_at_screen_coords( &doc, 41, 40 + DEFAULT_GUTTER_OFFSET_ONLY_DIAGNOSTICS + 1, TextFormat::default(), &TextAnnotations::default(), true ), Some(4) ); } #[test] fn test_text_pos_at_screen_coords_without_any_gutters() { let mut view = View::new( DocumentId::default(), GutterConfig { layout: vec![], line_numbers: GutterLineNumbersConfig::default(), }, ); view.area = Rect::new(40, 40, 40, 40); let rope = Rope::from_str("abc\n\tdef"); let doc = Document::from( rope, None, Arc::new(ArcSwap::new(Arc::new(Config::default()))), ); assert_eq!( view.text_pos_at_screen_coords( &doc, 41, 40 + 1, TextFormat::default(), &TextAnnotations::default(), true ), Some(4) ); } #[test] fn test_text_pos_at_screen_coords_cjk() { let mut view = View::new(DocumentId::default(), GutterConfig::default()); view.area = Rect::new(40, 40, 40, 40); let rope = Rope::from_str("Hi! こんにちは皆さん"); let doc = Document::from( rope, None, Arc::new(ArcSwap::new(Arc::new(Config::default()))), ); assert_eq!( view.text_pos_at_screen_coords( &doc, 40, 40 + DEFAULT_GUTTER_OFFSET, TextFormat::default(), &TextAnnotations::default(), true ), Some(0) ); assert_eq!( view.text_pos_at_screen_coords( &doc, 40, 40 + DEFAULT_GUTTER_OFFSET + 4, TextFormat::default(), &TextAnnotations::default(), true ), Some(4) ); assert_eq!( view.text_pos_at_screen_coords( &doc, 40, 40 + DEFAULT_GUTTER_OFFSET + 5, TextFormat::default(), &TextAnnotations::default(), true ), Some(4) ); assert_eq!( view.text_pos_at_screen_coords( &doc, 40, 40 + DEFAULT_GUTTER_OFFSET + 6, TextFormat::default(), &TextAnnotations::default(), true ), Some(5) ); assert_eq!( view.text_pos_at_screen_coords( &doc, 40, 40 + DEFAULT_GUTTER_OFFSET + 7, TextFormat::default(), &TextAnnotations::default(), true ), Some(5) ); assert_eq!( view.text_pos_at_screen_coords( &doc, 40, 40 + DEFAULT_GUTTER_OFFSET + 8, TextFormat::default(), &TextAnnotations::default(), true ), Some(6) ); } #[test] fn test_text_pos_at_screen_coords_graphemes() { let mut view = View::new(DocumentId::default(), GutterConfig::default()); view.area = Rect::new(40, 40, 40, 40); let rope = Rope::from_str("Hèl̀l̀ò world!"); let doc = Document::from( rope, None, Arc::new(ArcSwap::new(Arc::new(Config::default()))), ); assert_eq!( view.text_pos_at_screen_coords( &doc, 40, 40 + DEFAULT_GUTTER_OFFSET, TextFormat::default(), &TextAnnotations::default(), true ), Some(0) ); assert_eq!( view.text_pos_at_screen_coords( &doc, 40, 40 + DEFAULT_GUTTER_OFFSET + 1, TextFormat::default(), &TextAnnotations::default(), true ), Some(1) ); assert_eq!( view.text_pos_at_screen_coords( &doc, 40, 40 + DEFAULT_GUTTER_OFFSET + 2, TextFormat::default(), &TextAnnotations::default(), true ), Some(3) ); assert_eq!( view.text_pos_at_screen_coords( &doc, 40, 40 + DEFAULT_GUTTER_OFFSET + 3, TextFormat::default(), &TextAnnotations::default(), true ), Some(5) ); assert_eq!( view.text_pos_at_screen_coords( &doc, 40, 40 + DEFAULT_GUTTER_OFFSET + 4, TextFormat::default(), &TextAnnotations::default(), true ), Some(7) ); } }