use super::{Bias, DisplayPoint, DisplaySnapshot, SelectionGoal, ToDisplayPoint}; use crate::{char_kind, CharKind, ToPoint}; use language::Point; use std::ops::Range; pub fn left(map: &DisplaySnapshot, mut point: DisplayPoint) -> DisplayPoint { if point.column() > 0 { *point.column_mut() -= 1; } else if point.row() > 0 { *point.row_mut() -= 1; *point.column_mut() = map.line_len(point.row()); } map.clip_point(point, Bias::Left) } pub fn right(map: &DisplaySnapshot, mut point: DisplayPoint) -> DisplayPoint { let max_column = map.line_len(point.row()); if point.column() < max_column { *point.column_mut() += 1; } else if point.row() < map.max_point().row() { *point.row_mut() += 1; *point.column_mut() = 0; } map.clip_point(point, Bias::Right) } pub fn up( map: &DisplaySnapshot, start: DisplayPoint, goal: SelectionGoal, ) -> (DisplayPoint, SelectionGoal) { let mut goal_column = if let SelectionGoal::Column(column) = goal { column } else { map.column_to_chars(start.row(), start.column()) }; let prev_row = start.row().saturating_sub(1); let mut point = map.clip_point( DisplayPoint::new(prev_row, map.line_len(prev_row)), Bias::Left, ); if point.row() < start.row() { *point.column_mut() = map.column_from_chars(point.row(), goal_column); } else { point = DisplayPoint::new(0, 0); goal_column = 0; } let clip_bias = if point.column() == map.line_len(point.row()) { Bias::Left } else { Bias::Right }; ( map.clip_point(point, clip_bias), SelectionGoal::Column(goal_column), ) } pub fn down( map: &DisplaySnapshot, start: DisplayPoint, goal: SelectionGoal, ) -> (DisplayPoint, SelectionGoal) { let mut goal_column = if let SelectionGoal::Column(column) = goal { column } else { map.column_to_chars(start.row(), start.column()) }; let next_row = start.row() + 1; let mut point = map.clip_point(DisplayPoint::new(next_row, 0), Bias::Right); if point.row() > start.row() { *point.column_mut() = map.column_from_chars(point.row(), goal_column); } else { point = map.max_point(); goal_column = map.column_to_chars(point.row(), point.column()) } let clip_bias = if point.column() == map.line_len(point.row()) { Bias::Left } else { Bias::Right }; ( map.clip_point(point, clip_bias), SelectionGoal::Column(goal_column), ) } pub fn line_beginning( map: &DisplaySnapshot, display_point: DisplayPoint, stop_at_soft_boundaries: bool, ) -> DisplayPoint { let point = display_point.to_point(map); let soft_line_start = map.clip_point(DisplayPoint::new(display_point.row(), 0), Bias::Right); let indent_start = Point::new( point.row, map.buffer_snapshot.indent_column_for_line(point.row), ) .to_display_point(map); let line_start = map.prev_line_boundary(point).1; if stop_at_soft_boundaries && soft_line_start > indent_start && display_point != soft_line_start { soft_line_start } else if stop_at_soft_boundaries && display_point != indent_start { indent_start } else { line_start } } pub fn line_end( map: &DisplaySnapshot, display_point: DisplayPoint, stop_at_soft_boundaries: bool, ) -> DisplayPoint { let soft_line_end = map.clip_point( DisplayPoint::new(display_point.row(), map.line_len(display_point.row())), Bias::Left, ); if stop_at_soft_boundaries && display_point != soft_line_end { soft_line_end } else { map.next_line_boundary(display_point.to_point(map)).1 } } pub fn previous_word_start(map: &DisplaySnapshot, point: DisplayPoint) -> DisplayPoint { find_preceding_boundary(map, point, |left, right| { (char_kind(left) != char_kind(right) && !right.is_whitespace()) || left == '\n' }) } pub fn previous_subword_start(map: &DisplaySnapshot, point: DisplayPoint) -> DisplayPoint { find_preceding_boundary(map, point, |left, right| { let is_word_start = char_kind(left) != char_kind(right) && !right.is_whitespace(); let is_subword_start = left == '_' && right != '_' || left.is_lowercase() && right.is_uppercase(); is_word_start || is_subword_start || left == '\n' }) } pub fn next_word_end(map: &DisplaySnapshot, point: DisplayPoint) -> DisplayPoint { find_boundary(map, point, |left, right| { (char_kind(left) != char_kind(right) && !left.is_whitespace()) || right == '\n' }) } pub fn next_subword_end(map: &DisplaySnapshot, point: DisplayPoint) -> DisplayPoint { find_boundary(map, point, |left, right| { let is_word_end = (char_kind(left) != char_kind(right)) && !left.is_whitespace(); let is_subword_end = left != '_' && right == '_' || left.is_lowercase() && right.is_uppercase(); is_word_end || is_subword_end || right == '\n' }) } /// Scans for a boundary from the start of each line preceding the given end point until a boundary /// is found, indicated by the given predicate returning true. The predicate is called with the /// character to the left and right of the candidate boundary location, and will be called with `\n` /// characters indicating the start or end of a line. If the predicate returns true multiple times /// on a line, the *rightmost* boundary is returned. pub fn find_preceding_boundary( map: &DisplaySnapshot, end: DisplayPoint, mut is_boundary: impl FnMut(char, char) -> bool, ) -> DisplayPoint { let mut point = end; loop { *point.column_mut() = 0; if point.row() > 0 { if let Some(indent) = map.soft_wrap_indent(point.row() - 1) { *point.column_mut() = indent; } } let mut boundary = None; let mut prev_ch = if point.is_zero() { None } else { Some('\n') }; for ch in map.chars_at(point) { if point >= end { break; } if let Some(prev_ch) = prev_ch { if is_boundary(prev_ch, ch) { boundary = Some(point); } } if ch == '\n' { break; } prev_ch = Some(ch); *point.column_mut() += ch.len_utf8() as u32; } if let Some(boundary) = boundary { return boundary; } else if point.row() == 0 { return DisplayPoint::zero(); } else { *point.row_mut() -= 1; } } } /// Scans for a boundary following the given start point until a boundary is found, indicated by the /// given predicate returning true. The predicate is called with the character to the left and right /// of the candidate boundary location, and will be called with `\n` characters indicating the start /// or end of a line. pub fn find_boundary( map: &DisplaySnapshot, mut point: DisplayPoint, mut is_boundary: impl FnMut(char, char) -> bool, ) -> DisplayPoint { let mut prev_ch = None; for ch in map.chars_at(point) { if let Some(prev_ch) = prev_ch { if is_boundary(prev_ch, ch) { break; } } if ch == '\n' { *point.row_mut() += 1; *point.column_mut() = 0; } else { *point.column_mut() += ch.len_utf8() as u32; } prev_ch = Some(ch); } map.clip_point(point, Bias::Right) } pub fn is_inside_word(map: &DisplaySnapshot, point: DisplayPoint) -> bool { let ix = map.clip_point(point, Bias::Left).to_offset(map, Bias::Left); let text = &map.buffer_snapshot; let next_char_kind = text.chars_at(ix).next().map(char_kind); let prev_char_kind = text.reversed_chars_at(ix).next().map(char_kind); prev_char_kind.zip(next_char_kind) == Some((CharKind::Word, CharKind::Word)) } pub fn surrounding_word(map: &DisplaySnapshot, position: DisplayPoint) -> Range { let position = map .clip_point(position, Bias::Left) .to_offset(map, Bias::Left); let (range, _) = map.buffer_snapshot.surrounding_word(position); let start = range .start .to_point(&map.buffer_snapshot) .to_display_point(map); let end = range .end .to_point(&map.buffer_snapshot) .to_display_point(map); start..end } #[cfg(test)] mod tests { use super::*; use crate::{test::marked_display_snapshot, Buffer, DisplayMap, MultiBuffer}; use language::Point; use settings::Settings; #[gpui::test] fn test_previous_word_start(cx: &mut gpui::MutableAppContext) { cx.set_global(Settings::test(cx)); fn assert(marked_text: &str, cx: &mut gpui::MutableAppContext) { let (snapshot, display_points) = marked_display_snapshot(marked_text, cx); assert_eq!( previous_word_start(&snapshot, display_points[1]), display_points[0] ); } assert("\n| |lorem", cx); assert("|\n| lorem", cx); assert(" |lorem|", cx); assert("| |lorem", cx); assert(" |lor|em", cx); assert("\nlorem\n| |ipsum", cx); assert("\n\n|\n|", cx); assert(" |lorem |ipsum", cx); assert("lorem|-|ipsum", cx); assert("lorem|-#$@|ipsum", cx); assert("|lorem_|ipsum", cx); assert(" |defγ|", cx); assert(" |bcΔ|", cx); assert(" ab|——|cd", cx); } #[gpui::test] fn test_previous_subword_start(cx: &mut gpui::MutableAppContext) { cx.set_global(Settings::test(cx)); fn assert(marked_text: &str, cx: &mut gpui::MutableAppContext) { let (snapshot, display_points) = marked_display_snapshot(marked_text, cx); assert_eq!( previous_subword_start(&snapshot, display_points[1]), display_points[0] ); } // Subword boundaries are respected assert("lorem_|ip|sum", cx); assert("lorem_|ipsum|", cx); assert("|lorem_|ipsum", cx); assert("lorem_|ipsum_|dolor", cx); assert("lorem|Ip|sum", cx); assert("lorem|Ipsum|", cx); // Word boundaries are still respected assert("\n| |lorem", cx); assert(" |lorem|", cx); assert(" |lor|em", cx); assert("\nlorem\n| |ipsum", cx); assert("\n\n|\n|", cx); assert(" |lorem |ipsum", cx); assert("lorem|-|ipsum", cx); assert("lorem|-#$@|ipsum", cx); assert(" |defγ|", cx); assert(" bc|Δ|", cx); assert(" |bcδ|", cx); assert(" ab|——|cd", cx); } #[gpui::test] fn test_find_preceding_boundary(cx: &mut gpui::MutableAppContext) { cx.set_global(Settings::test(cx)); fn assert( marked_text: &str, cx: &mut gpui::MutableAppContext, is_boundary: impl FnMut(char, char) -> bool, ) { let (snapshot, display_points) = marked_display_snapshot(marked_text, cx); assert_eq!( find_preceding_boundary(&snapshot, display_points[1], is_boundary), display_points[0] ); } assert("abc|def\ngh\nij|k", cx, |left, right| { left == 'c' && right == 'd' }); assert("abcdef\n|gh\nij|k", cx, |left, right| { left == '\n' && right == 'g' }); let mut line_count = 0; assert("abcdef\n|gh\nij|k", cx, |left, _| { if left == '\n' { line_count += 1; line_count == 2 } else { false } }); } #[gpui::test] fn test_next_word_end(cx: &mut gpui::MutableAppContext) { cx.set_global(Settings::test(cx)); fn assert(marked_text: &str, cx: &mut gpui::MutableAppContext) { let (snapshot, display_points) = marked_display_snapshot(marked_text, cx); assert_eq!( next_word_end(&snapshot, display_points[0]), display_points[1] ); } assert("\n| lorem|", cx); assert(" |lorem|", cx); assert(" lor|em|", cx); assert(" lorem| |\nipsum\n", cx); assert("\n|\n|\n\n", cx); assert("lorem| ipsum| ", cx); assert("lorem|-|ipsum", cx); assert("lorem|#$@-|ipsum", cx); assert("lorem|_ipsum|", cx); assert(" |bcΔ|", cx); assert(" ab|——|cd", cx); } #[gpui::test] fn test_next_subword_end(cx: &mut gpui::MutableAppContext) { cx.set_global(Settings::test(cx)); fn assert(marked_text: &str, cx: &mut gpui::MutableAppContext) { let (snapshot, display_points) = marked_display_snapshot(marked_text, cx); assert_eq!( next_subword_end(&snapshot, display_points[0]), display_points[1] ); } // Subword boundaries are respected assert("lo|rem|_ipsum", cx); assert("|lorem|_ipsum", cx); assert("lorem|_ipsum|", cx); assert("lorem|_ipsum|_dolor", cx); assert("lo|rem|Ipsum", cx); assert("lorem|Ipsum|Dolor", cx); // Word boundaries are still respected assert("\n| lorem|", cx); assert(" |lorem|", cx); assert(" lor|em|", cx); assert(" lorem| |\nipsum\n", cx); assert("\n|\n|\n\n", cx); assert("lorem| ipsum| ", cx); assert("lorem|-|ipsum", cx); assert("lorem|#$@-|ipsum", cx); assert("lorem|_ipsum|", cx); assert(" |bc|Δ", cx); assert(" ab|——|cd", cx); } #[gpui::test] fn test_find_boundary(cx: &mut gpui::MutableAppContext) { cx.set_global(Settings::test(cx)); fn assert( marked_text: &str, cx: &mut gpui::MutableAppContext, is_boundary: impl FnMut(char, char) -> bool, ) { let (snapshot, display_points) = marked_display_snapshot(marked_text, cx); assert_eq!( find_boundary(&snapshot, display_points[0], is_boundary), display_points[1] ); } assert("abc|def\ngh\nij|k", cx, |left, right| { left == 'j' && right == 'k' }); assert("ab|cdef\ngh\n|ijk", cx, |left, right| { left == '\n' && right == 'i' }); let mut line_count = 0; assert("abc|def\ngh\n|ijk", cx, |left, _| { if left == '\n' { line_count += 1; line_count == 2 } else { false } }); } #[gpui::test] fn test_surrounding_word(cx: &mut gpui::MutableAppContext) { cx.set_global(Settings::test(cx)); fn assert(marked_text: &str, cx: &mut gpui::MutableAppContext) { let (snapshot, display_points) = marked_display_snapshot(marked_text, cx); assert_eq!( surrounding_word(&snapshot, display_points[1]), display_points[0]..display_points[2] ); } assert("||lorem| ipsum", cx); assert("|lo|rem| ipsum", cx); assert("|lorem|| ipsum", cx); assert("lorem| | |ipsum", cx); assert("lorem\n|||\nipsum", cx); assert("lorem\n||ipsum|", cx); assert("lorem,|| |ipsum", cx); assert("|lorem||, ipsum", cx); } #[gpui::test] fn test_move_up_and_down_with_excerpts(cx: &mut gpui::MutableAppContext) { cx.set_global(Settings::test(cx)); let family_id = cx.font_cache().load_family(&["Helvetica"]).unwrap(); let font_id = cx .font_cache() .select_font(family_id, &Default::default()) .unwrap(); let buffer = cx.add_model(|cx| Buffer::new(0, "abc\ndefg\nhijkl\nmn", cx)); let multibuffer = cx.add_model(|cx| { let mut multibuffer = MultiBuffer::new(0); multibuffer.push_excerpts( buffer.clone(), [ Point::new(0, 0)..Point::new(1, 4), Point::new(2, 0)..Point::new(3, 2), ], cx, ); multibuffer }); let display_map = cx.add_model(|cx| DisplayMap::new(multibuffer, font_id, 14.0, None, 2, 2, cx)); let snapshot = display_map.update(cx, |map, cx| map.snapshot(cx)); assert_eq!(snapshot.text(), "\n\nabc\ndefg\n\n\nhijkl\nmn"); // Can't move up into the first excerpt's header assert_eq!( up(&snapshot, DisplayPoint::new(2, 2), SelectionGoal::Column(2)), (DisplayPoint::new(2, 0), SelectionGoal::Column(0)), ); assert_eq!( up(&snapshot, DisplayPoint::new(2, 0), SelectionGoal::None), (DisplayPoint::new(2, 0), SelectionGoal::Column(0)), ); // Move up and down within first excerpt assert_eq!( up(&snapshot, DisplayPoint::new(3, 4), SelectionGoal::Column(4)), (DisplayPoint::new(2, 3), SelectionGoal::Column(4)), ); assert_eq!( down(&snapshot, DisplayPoint::new(2, 3), SelectionGoal::Column(4)), (DisplayPoint::new(3, 4), SelectionGoal::Column(4)), ); // Move up and down across second excerpt's header assert_eq!( up(&snapshot, DisplayPoint::new(6, 5), SelectionGoal::Column(5)), (DisplayPoint::new(3, 4), SelectionGoal::Column(5)), ); assert_eq!( down(&snapshot, DisplayPoint::new(3, 4), SelectionGoal::Column(5)), (DisplayPoint::new(6, 5), SelectionGoal::Column(5)), ); // Can't move down off the end assert_eq!( down(&snapshot, DisplayPoint::new(7, 0), SelectionGoal::Column(0)), (DisplayPoint::new(7, 2), SelectionGoal::Column(2)), ); assert_eq!( down(&snapshot, DisplayPoint::new(7, 2), SelectionGoal::Column(2)), (DisplayPoint::new(7, 2), SelectionGoal::Column(2)), ); } }