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ZIm/crates/vim/src/motion.rs
Michael Sloan 6aba3950d2
Improve keymap json schema (#23044) 
Also:

* Adds `impl_internal_actions!` for deriving the `Action` trait without
registering.

* Removes some deserializers that immediately fail in favor of
`#[serde(skip)]` on fields where they were used. This also omits them
from the schema.

Release Notes:

- Keymap settings file now has more JSON schema information to inform
`json-language-server` completions and info, particularly for actions
that take input.
2025-01-13 02:34:35 +00:00

3356 lines
105 KiB
Rust
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use editor::{
display_map::{DisplayRow, DisplaySnapshot, FoldPoint, ToDisplayPoint},
movement::{
self, find_boundary, find_preceding_boundary_display_point, FindRange, TextLayoutDetails,
},
scroll::Autoscroll,
Anchor, Bias, DisplayPoint, Editor, RowExt, ToOffset,
};
use gpui::{actions, impl_actions, px, ViewContext};
use language::{CharKind, Point, Selection, SelectionGoal};
use multi_buffer::MultiBufferRow;
use schemars::JsonSchema;
use serde::Deserialize;
use std::ops::Range;
use workspace::searchable::Direction;
use crate::{
normal::mark,
state::{Mode, Operator},
surrounds::SurroundsType,
Vim,
};
#[derive(Clone, Debug, PartialEq, Eq)]
pub enum Motion {
Left,
Backspace,
Down {
display_lines: bool,
},
Up {
display_lines: bool,
},
Right,
Space,
NextWordStart {
ignore_punctuation: bool,
},
NextWordEnd {
ignore_punctuation: bool,
},
PreviousWordStart {
ignore_punctuation: bool,
},
PreviousWordEnd {
ignore_punctuation: bool,
},
NextSubwordStart {
ignore_punctuation: bool,
},
NextSubwordEnd {
ignore_punctuation: bool,
},
PreviousSubwordStart {
ignore_punctuation: bool,
},
PreviousSubwordEnd {
ignore_punctuation: bool,
},
FirstNonWhitespace {
display_lines: bool,
},
CurrentLine,
StartOfLine {
display_lines: bool,
},
EndOfLine {
display_lines: bool,
},
SentenceBackward,
SentenceForward,
StartOfParagraph,
EndOfParagraph,
StartOfDocument,
EndOfDocument,
Matching,
UnmatchedForward {
char: char,
},
UnmatchedBackward {
char: char,
},
FindForward {
before: bool,
char: char,
mode: FindRange,
smartcase: bool,
},
FindBackward {
after: bool,
char: char,
mode: FindRange,
smartcase: bool,
},
Sneak {
first_char: char,
second_char: char,
smartcase: bool,
},
SneakBackward {
first_char: char,
second_char: char,
smartcase: bool,
},
RepeatFind {
last_find: Box<Motion>,
},
RepeatFindReversed {
last_find: Box<Motion>,
},
NextLineStart,
PreviousLineStart,
StartOfLineDownward,
EndOfLineDownward,
GoToColumn,
WindowTop,
WindowMiddle,
WindowBottom,
NextSectionStart,
NextSectionEnd,
PreviousSectionStart,
PreviousSectionEnd,
NextMethodStart,
NextMethodEnd,
PreviousMethodStart,
PreviousMethodEnd,
NextComment,
PreviousComment,
// we don't have a good way to run a search synchronously, so
// we handle search motions by running the search async and then
// calling back into motion with this
ZedSearchResult {
prior_selections: Vec<Range<Anchor>>,
new_selections: Vec<Range<Anchor>>,
},
Jump {
anchor: Anchor,
line: bool,
},
}
#[derive(Clone, Deserialize, JsonSchema, PartialEq)]
#[serde(rename_all = "camelCase")]
struct NextWordStart {
#[serde(default)]
ignore_punctuation: bool,
}
#[derive(Clone, Deserialize, JsonSchema, PartialEq)]
#[serde(rename_all = "camelCase")]
struct NextWordEnd {
#[serde(default)]
ignore_punctuation: bool,
}
#[derive(Clone, Deserialize, JsonSchema, PartialEq)]
#[serde(rename_all = "camelCase")]
struct PreviousWordStart {
#[serde(default)]
ignore_punctuation: bool,
}
#[derive(Clone, Deserialize, JsonSchema, PartialEq)]
#[serde(rename_all = "camelCase")]
struct PreviousWordEnd {
#[serde(default)]
ignore_punctuation: bool,
}
#[derive(Clone, Deserialize, JsonSchema, PartialEq)]
#[serde(rename_all = "camelCase")]
pub(crate) struct NextSubwordStart {
#[serde(default)]
pub(crate) ignore_punctuation: bool,
}
#[derive(Clone, Deserialize, JsonSchema, PartialEq)]
#[serde(rename_all = "camelCase")]
pub(crate) struct NextSubwordEnd {
#[serde(default)]
pub(crate) ignore_punctuation: bool,
}
#[derive(Clone, Deserialize, JsonSchema, PartialEq)]
#[serde(rename_all = "camelCase")]
pub(crate) struct PreviousSubwordStart {
#[serde(default)]
pub(crate) ignore_punctuation: bool,
}
#[derive(Clone, Deserialize, JsonSchema, PartialEq)]
#[serde(rename_all = "camelCase")]
pub(crate) struct PreviousSubwordEnd {
#[serde(default)]
pub(crate) ignore_punctuation: bool,
}
#[derive(Clone, Deserialize, JsonSchema, PartialEq)]
#[serde(rename_all = "camelCase")]
pub(crate) struct Up {
#[serde(default)]
pub(crate) display_lines: bool,
}
#[derive(Clone, Deserialize, JsonSchema, PartialEq)]
#[serde(rename_all = "camelCase")]
pub(crate) struct Down {
#[serde(default)]
pub(crate) display_lines: bool,
}
#[derive(Clone, Deserialize, JsonSchema, PartialEq)]
#[serde(rename_all = "camelCase")]
struct FirstNonWhitespace {
#[serde(default)]
display_lines: bool,
}
#[derive(Clone, Deserialize, JsonSchema, PartialEq)]
#[serde(rename_all = "camelCase")]
struct EndOfLine {
#[serde(default)]
display_lines: bool,
}
#[derive(Clone, Deserialize, JsonSchema, PartialEq)]
#[serde(rename_all = "camelCase")]
pub struct StartOfLine {
#[serde(default)]
pub(crate) display_lines: bool,
}
#[derive(Clone, Deserialize, JsonSchema, PartialEq)]
#[serde(rename_all = "camelCase")]
struct UnmatchedForward {
#[serde(default)]
char: char,
}
#[derive(Clone, Deserialize, JsonSchema, PartialEq)]
#[serde(rename_all = "camelCase")]
struct UnmatchedBackward {
#[serde(default)]
char: char,
}
impl_actions!(
vim,
[
StartOfLine,
EndOfLine,
FirstNonWhitespace,
Down,
Up,
NextWordStart,
NextWordEnd,
PreviousWordStart,
PreviousWordEnd,
NextSubwordStart,
NextSubwordEnd,
PreviousSubwordStart,
PreviousSubwordEnd,
UnmatchedForward,
UnmatchedBackward
]
);
actions!(
vim,
[
Left,
Backspace,
Right,
Space,
CurrentLine,
SentenceForward,
SentenceBackward,
StartOfParagraph,
EndOfParagraph,
StartOfDocument,
EndOfDocument,
Matching,
NextLineStart,
PreviousLineStart,
StartOfLineDownward,
EndOfLineDownward,
GoToColumn,
RepeatFind,
RepeatFindReversed,
WindowTop,
WindowMiddle,
WindowBottom,
NextSectionStart,
NextSectionEnd,
PreviousSectionStart,
PreviousSectionEnd,
NextMethodStart,
NextMethodEnd,
PreviousMethodStart,
PreviousMethodEnd,
NextComment,
PreviousComment,
]
);
pub fn register(editor: &mut Editor, cx: &mut ViewContext<Vim>) {
Vim::action(editor, cx, |vim, _: &Left, cx| vim.motion(Motion::Left, cx));
Vim::action(editor, cx, |vim, _: &Backspace, cx| {
vim.motion(Motion::Backspace, cx)
});
Vim::action(editor, cx, |vim, action: &Down, cx| {
vim.motion(
Motion::Down {
display_lines: action.display_lines,
},
cx,
)
});
Vim::action(editor, cx, |vim, action: &Up, cx| {
vim.motion(
Motion::Up {
display_lines: action.display_lines,
},
cx,
)
});
Vim::action(editor, cx, |vim, _: &Right, cx| {
vim.motion(Motion::Right, cx)
});
Vim::action(editor, cx, |vim, _: &Space, cx| {
vim.motion(Motion::Space, cx)
});
Vim::action(editor, cx, |vim, action: &FirstNonWhitespace, cx| {
vim.motion(
Motion::FirstNonWhitespace {
display_lines: action.display_lines,
},
cx,
)
});
Vim::action(editor, cx, |vim, action: &StartOfLine, cx| {
vim.motion(
Motion::StartOfLine {
display_lines: action.display_lines,
},
cx,
)
});
Vim::action(editor, cx, |vim, action: &EndOfLine, cx| {
vim.motion(
Motion::EndOfLine {
display_lines: action.display_lines,
},
cx,
)
});
Vim::action(editor, cx, |vim, _: &CurrentLine, cx| {
vim.motion(Motion::CurrentLine, cx)
});
Vim::action(editor, cx, |vim, _: &StartOfParagraph, cx| {
vim.motion(Motion::StartOfParagraph, cx)
});
Vim::action(editor, cx, |vim, _: &EndOfParagraph, cx| {
vim.motion(Motion::EndOfParagraph, cx)
});
Vim::action(editor, cx, |vim, _: &SentenceForward, cx| {
vim.motion(Motion::SentenceForward, cx)
});
Vim::action(editor, cx, |vim, _: &SentenceBackward, cx| {
vim.motion(Motion::SentenceBackward, cx)
});
Vim::action(editor, cx, |vim, _: &StartOfDocument, cx| {
vim.motion(Motion::StartOfDocument, cx)
});
Vim::action(editor, cx, |vim, _: &EndOfDocument, cx| {
vim.motion(Motion::EndOfDocument, cx)
});
Vim::action(editor, cx, |vim, _: &Matching, cx| {
vim.motion(Motion::Matching, cx)
});
Vim::action(
editor,
cx,
|vim, &UnmatchedForward { char }: &UnmatchedForward, cx| {
vim.motion(Motion::UnmatchedForward { char }, cx)
},
);
Vim::action(
editor,
cx,
|vim, &UnmatchedBackward { char }: &UnmatchedBackward, cx| {
vim.motion(Motion::UnmatchedBackward { char }, cx)
},
);
Vim::action(
editor,
cx,
|vim, &NextWordStart { ignore_punctuation }: &NextWordStart, cx| {
vim.motion(Motion::NextWordStart { ignore_punctuation }, cx)
},
);
Vim::action(
editor,
cx,
|vim, &NextWordEnd { ignore_punctuation }: &NextWordEnd, cx| {
vim.motion(Motion::NextWordEnd { ignore_punctuation }, cx)
},
);
Vim::action(
editor,
cx,
|vim, &PreviousWordStart { ignore_punctuation }: &PreviousWordStart, cx| {
vim.motion(Motion::PreviousWordStart { ignore_punctuation }, cx)
},
);
Vim::action(
editor,
cx,
|vim, &PreviousWordEnd { ignore_punctuation }, cx| {
vim.motion(Motion::PreviousWordEnd { ignore_punctuation }, cx)
},
);
Vim::action(
editor,
cx,
|vim, &NextSubwordStart { ignore_punctuation }: &NextSubwordStart, cx| {
vim.motion(Motion::NextSubwordStart { ignore_punctuation }, cx)
},
);
Vim::action(
editor,
cx,
|vim, &NextSubwordEnd { ignore_punctuation }: &NextSubwordEnd, cx| {
vim.motion(Motion::NextSubwordEnd { ignore_punctuation }, cx)
},
);
Vim::action(
editor,
cx,
|vim, &PreviousSubwordStart { ignore_punctuation }: &PreviousSubwordStart, cx| {
vim.motion(Motion::PreviousSubwordStart { ignore_punctuation }, cx)
},
);
Vim::action(
editor,
cx,
|vim, &PreviousSubwordEnd { ignore_punctuation }, cx| {
vim.motion(Motion::PreviousSubwordEnd { ignore_punctuation }, cx)
},
);
Vim::action(editor, cx, |vim, &NextLineStart, cx| {
vim.motion(Motion::NextLineStart, cx)
});
Vim::action(editor, cx, |vim, &PreviousLineStart, cx| {
vim.motion(Motion::PreviousLineStart, cx)
});
Vim::action(editor, cx, |vim, &StartOfLineDownward, cx| {
vim.motion(Motion::StartOfLineDownward, cx)
});
Vim::action(editor, cx, |vim, &EndOfLineDownward, cx| {
vim.motion(Motion::EndOfLineDownward, cx)
});
Vim::action(editor, cx, |vim, &GoToColumn, cx| {
vim.motion(Motion::GoToColumn, cx)
});
Vim::action(editor, cx, |vim, _: &RepeatFind, cx| {
if let Some(last_find) = Vim::globals(cx).last_find.clone().map(Box::new) {
vim.motion(Motion::RepeatFind { last_find }, cx);
}
});
Vim::action(editor, cx, |vim, _: &RepeatFindReversed, cx| {
if let Some(last_find) = Vim::globals(cx).last_find.clone().map(Box::new) {
vim.motion(Motion::RepeatFindReversed { last_find }, cx);
}
});
Vim::action(editor, cx, |vim, &WindowTop, cx| {
vim.motion(Motion::WindowTop, cx)
});
Vim::action(editor, cx, |vim, &WindowMiddle, cx| {
vim.motion(Motion::WindowMiddle, cx)
});
Vim::action(editor, cx, |vim, &WindowBottom, cx| {
vim.motion(Motion::WindowBottom, cx)
});
Vim::action(editor, cx, |vim, &PreviousSectionStart, cx| {
vim.motion(Motion::PreviousSectionStart, cx)
});
Vim::action(editor, cx, |vim, &NextSectionStart, cx| {
vim.motion(Motion::NextSectionStart, cx)
});
Vim::action(editor, cx, |vim, &PreviousSectionEnd, cx| {
vim.motion(Motion::PreviousSectionEnd, cx)
});
Vim::action(editor, cx, |vim, &NextSectionEnd, cx| {
vim.motion(Motion::NextSectionEnd, cx)
});
Vim::action(editor, cx, |vim, &PreviousMethodStart, cx| {
vim.motion(Motion::PreviousMethodStart, cx)
});
Vim::action(editor, cx, |vim, &NextMethodStart, cx| {
vim.motion(Motion::NextMethodStart, cx)
});
Vim::action(editor, cx, |vim, &PreviousMethodEnd, cx| {
vim.motion(Motion::PreviousMethodEnd, cx)
});
Vim::action(editor, cx, |vim, &NextMethodEnd, cx| {
vim.motion(Motion::NextMethodEnd, cx)
});
Vim::action(editor, cx, |vim, &NextComment, cx| {
vim.motion(Motion::NextComment, cx)
});
Vim::action(editor, cx, |vim, &PreviousComment, cx| {
vim.motion(Motion::PreviousComment, cx)
});
}
impl Vim {
pub(crate) fn search_motion(&mut self, m: Motion, cx: &mut ViewContext<Self>) {
if let Motion::ZedSearchResult {
prior_selections, ..
} = &m
{
match self.mode {
Mode::Visual | Mode::VisualLine | Mode::VisualBlock => {
if !prior_selections.is_empty() {
self.update_editor(cx, |_, editor, cx| {
editor.change_selections(Some(Autoscroll::fit()), cx, |s| {
s.select_ranges(prior_selections.iter().cloned())
})
});
}
}
Mode::Normal | Mode::Replace | Mode::Insert => {
if self.active_operator().is_none() {
return;
}
}
Mode::HelixNormal => {}
}
}
self.motion(m, cx)
}
pub(crate) fn motion(&mut self, motion: Motion, cx: &mut ViewContext<Self>) {
if let Some(Operator::FindForward { .. })
| Some(Operator::Sneak { .. })
| Some(Operator::SneakBackward { .. })
| Some(Operator::FindBackward { .. }) = self.active_operator()
{
self.pop_operator(cx);
}
let count = Vim::take_count(cx);
let active_operator = self.active_operator();
let mut waiting_operator: Option<Operator> = None;
match self.mode {
Mode::Normal | Mode::Replace | Mode::Insert => {
if active_operator == Some(Operator::AddSurrounds { target: None }) {
waiting_operator = Some(Operator::AddSurrounds {
target: Some(SurroundsType::Motion(motion)),
});
} else {
self.normal_motion(motion.clone(), active_operator.clone(), count, cx)
}
}
Mode::Visual | Mode::VisualLine | Mode::VisualBlock => {
self.visual_motion(motion.clone(), count, cx)
}
Mode::HelixNormal => self.helix_normal_motion(motion.clone(), count, cx),
}
self.clear_operator(cx);
if let Some(operator) = waiting_operator {
self.push_operator(operator, cx);
Vim::globals(cx).pre_count = count
}
}
}
// Motion handling is specified here:
// https://github.com/vim/vim/blob/master/runtime/doc/motion.txt
impl Motion {
pub fn linewise(&self) -> bool {
use Motion::*;
match self {
Down { .. }
| Up { .. }
| StartOfDocument
| EndOfDocument
| CurrentLine
| NextLineStart
| PreviousLineStart
| StartOfLineDownward
| StartOfParagraph
| EndOfParagraph
| WindowTop
| WindowMiddle
| WindowBottom
| NextSectionStart
| NextSectionEnd
| PreviousSectionStart
| PreviousSectionEnd
| NextMethodStart
| NextMethodEnd
| PreviousMethodStart
| PreviousMethodEnd
| NextComment
| PreviousComment
| Jump { line: true, .. } => true,
EndOfLine { .. }
| Matching
| UnmatchedForward { .. }
| UnmatchedBackward { .. }
| FindForward { .. }
| Left
| Backspace
| Right
| SentenceBackward
| SentenceForward
| Space
| StartOfLine { .. }
| EndOfLineDownward
| GoToColumn
| NextWordStart { .. }
| NextWordEnd { .. }
| PreviousWordStart { .. }
| PreviousWordEnd { .. }
| NextSubwordStart { .. }
| NextSubwordEnd { .. }
| PreviousSubwordStart { .. }
| PreviousSubwordEnd { .. }
| FirstNonWhitespace { .. }
| FindBackward { .. }
| Sneak { .. }
| SneakBackward { .. }
| RepeatFind { .. }
| RepeatFindReversed { .. }
| Jump { line: false, .. }
| ZedSearchResult { .. } => false,
}
}
pub fn infallible(&self) -> bool {
use Motion::*;
match self {
StartOfDocument | EndOfDocument | CurrentLine => true,
Down { .. }
| Up { .. }
| EndOfLine { .. }
| Matching
| UnmatchedForward { .. }
| UnmatchedBackward { .. }
| FindForward { .. }
| RepeatFind { .. }
| Left
| Backspace
| Right
| Space
| StartOfLine { .. }
| StartOfParagraph
| EndOfParagraph
| SentenceBackward
| SentenceForward
| StartOfLineDownward
| EndOfLineDownward
| GoToColumn
| NextWordStart { .. }
| NextWordEnd { .. }
| PreviousWordStart { .. }
| PreviousWordEnd { .. }
| NextSubwordStart { .. }
| NextSubwordEnd { .. }
| PreviousSubwordStart { .. }
| PreviousSubwordEnd { .. }
| FirstNonWhitespace { .. }
| FindBackward { .. }
| Sneak { .. }
| SneakBackward { .. }
| RepeatFindReversed { .. }
| WindowTop
| WindowMiddle
| WindowBottom
| NextLineStart
| PreviousLineStart
| ZedSearchResult { .. }
| NextSectionStart
| NextSectionEnd
| PreviousSectionStart
| PreviousSectionEnd
| NextMethodStart
| NextMethodEnd
| PreviousMethodStart
| PreviousMethodEnd
| NextComment
| PreviousComment
| Jump { .. } => false,
}
}
pub fn inclusive(&self) -> bool {
use Motion::*;
match self {
Down { .. }
| Up { .. }
| StartOfDocument
| EndOfDocument
| CurrentLine
| EndOfLine { .. }
| EndOfLineDownward
| Matching
| UnmatchedForward { .. }
| UnmatchedBackward { .. }
| FindForward { .. }
| WindowTop
| WindowMiddle
| WindowBottom
| NextWordEnd { .. }
| PreviousWordEnd { .. }
| NextSubwordEnd { .. }
| PreviousSubwordEnd { .. }
| NextLineStart
| PreviousLineStart => true,
Left
| Backspace
| Right
| Space
| StartOfLine { .. }
| StartOfLineDownward
| StartOfParagraph
| EndOfParagraph
| SentenceBackward
| SentenceForward
| GoToColumn
| NextWordStart { .. }
| PreviousWordStart { .. }
| NextSubwordStart { .. }
| PreviousSubwordStart { .. }
| FirstNonWhitespace { .. }
| FindBackward { .. }
| Sneak { .. }
| SneakBackward { .. }
| Jump { .. }
| NextSectionStart
| NextSectionEnd
| PreviousSectionStart
| PreviousSectionEnd
| NextMethodStart
| NextMethodEnd
| PreviousMethodStart
| PreviousMethodEnd
| NextComment
| PreviousComment
| ZedSearchResult { .. } => false,
RepeatFind { last_find: motion } | RepeatFindReversed { last_find: motion } => {
motion.inclusive()
}
}
}
pub fn move_point(
&self,
map: &DisplaySnapshot,
point: DisplayPoint,
goal: SelectionGoal,
maybe_times: Option<usize>,
text_layout_details: &TextLayoutDetails,
) -> Option<(DisplayPoint, SelectionGoal)> {
let times = maybe_times.unwrap_or(1);
use Motion::*;
let infallible = self.infallible();
let (new_point, goal) = match self {
Left => (left(map, point, times), SelectionGoal::None),
Backspace => (backspace(map, point, times), SelectionGoal::None),
Down {
display_lines: false,
} => up_down_buffer_rows(map, point, goal, times as isize, text_layout_details),
Down {
display_lines: true,
} => down_display(map, point, goal, times, text_layout_details),
Up {
display_lines: false,
} => up_down_buffer_rows(map, point, goal, 0 - times as isize, text_layout_details),
Up {
display_lines: true,
} => up_display(map, point, goal, times, text_layout_details),
Right => (right(map, point, times), SelectionGoal::None),
Space => (space(map, point, times), SelectionGoal::None),
NextWordStart { ignore_punctuation } => (
next_word_start(map, point, *ignore_punctuation, times),
SelectionGoal::None,
),
NextWordEnd { ignore_punctuation } => (
next_word_end(map, point, *ignore_punctuation, times, true),
SelectionGoal::None,
),
PreviousWordStart { ignore_punctuation } => (
previous_word_start(map, point, *ignore_punctuation, times),
SelectionGoal::None,
),
PreviousWordEnd { ignore_punctuation } => (
previous_word_end(map, point, *ignore_punctuation, times),
SelectionGoal::None,
),
NextSubwordStart { ignore_punctuation } => (
next_subword_start(map, point, *ignore_punctuation, times),
SelectionGoal::None,
),
NextSubwordEnd { ignore_punctuation } => (
next_subword_end(map, point, *ignore_punctuation, times, true),
SelectionGoal::None,
),
PreviousSubwordStart { ignore_punctuation } => (
previous_subword_start(map, point, *ignore_punctuation, times),
SelectionGoal::None,
),
PreviousSubwordEnd { ignore_punctuation } => (
previous_subword_end(map, point, *ignore_punctuation, times),
SelectionGoal::None,
),
FirstNonWhitespace { display_lines } => (
first_non_whitespace(map, *display_lines, point),
SelectionGoal::None,
),
StartOfLine { display_lines } => (
start_of_line(map, *display_lines, point),
SelectionGoal::None,
),
EndOfLine { display_lines } => (
end_of_line(map, *display_lines, point, times),
SelectionGoal::None,
),
SentenceBackward => (sentence_backwards(map, point, times), SelectionGoal::None),
SentenceForward => (sentence_forwards(map, point, times), SelectionGoal::None),
StartOfParagraph => (
movement::start_of_paragraph(map, point, times),
SelectionGoal::None,
),
EndOfParagraph => (
map.clip_at_line_end(movement::end_of_paragraph(map, point, times)),
SelectionGoal::None,
),
CurrentLine => (next_line_end(map, point, times), SelectionGoal::None),
StartOfDocument => (start_of_document(map, point, times), SelectionGoal::None),
EndOfDocument => (
end_of_document(map, point, maybe_times),
SelectionGoal::None,
),
Matching => (matching(map, point), SelectionGoal::None),
UnmatchedForward { char } => (
unmatched_forward(map, point, *char, times),
SelectionGoal::None,
),
UnmatchedBackward { char } => (
unmatched_backward(map, point, *char, times),
SelectionGoal::None,
),
// t f
FindForward {
before,
char,
mode,
smartcase,
} => {
return find_forward(map, point, *before, *char, times, *mode, *smartcase)
.map(|new_point| (new_point, SelectionGoal::None))
}
// T F
FindBackward {
after,
char,
mode,
smartcase,
} => (
find_backward(map, point, *after, *char, times, *mode, *smartcase),
SelectionGoal::None,
),
Sneak {
first_char,
second_char,
smartcase,
} => {
return sneak(map, point, *first_char, *second_char, times, *smartcase)
.map(|new_point| (new_point, SelectionGoal::None));
}
SneakBackward {
first_char,
second_char,
smartcase,
} => {
return sneak_backward(map, point, *first_char, *second_char, times, *smartcase)
.map(|new_point| (new_point, SelectionGoal::None));
}
// ; -- repeat the last find done with t, f, T, F
RepeatFind { last_find } => match **last_find {
Motion::FindForward {
before,
char,
mode,
smartcase,
} => {
let mut new_point =
find_forward(map, point, before, char, times, mode, smartcase);
if new_point == Some(point) {
new_point =
find_forward(map, point, before, char, times + 1, mode, smartcase);
}
return new_point.map(|new_point| (new_point, SelectionGoal::None));
}
Motion::FindBackward {
after,
char,
mode,
smartcase,
} => {
let mut new_point =
find_backward(map, point, after, char, times, mode, smartcase);
if new_point == point {
new_point =
find_backward(map, point, after, char, times + 1, mode, smartcase);
}
(new_point, SelectionGoal::None)
}
Motion::Sneak {
first_char,
second_char,
smartcase,
} => {
let mut new_point =
sneak(map, point, first_char, second_char, times, smartcase);
if new_point == Some(point) {
new_point =
sneak(map, point, first_char, second_char, times + 1, smartcase);
}
return new_point.map(|new_point| (new_point, SelectionGoal::None));
}
Motion::SneakBackward {
first_char,
second_char,
smartcase,
} => {
let mut new_point =
sneak_backward(map, point, first_char, second_char, times, smartcase);
if new_point == Some(point) {
new_point = sneak_backward(
map,
point,
first_char,
second_char,
times + 1,
smartcase,
);
}
return new_point.map(|new_point| (new_point, SelectionGoal::None));
}
_ => return None,
},
// , -- repeat the last find done with t, f, T, F, s, S, in opposite direction
RepeatFindReversed { last_find } => match **last_find {
Motion::FindForward {
before,
char,
mode,
smartcase,
} => {
let mut new_point =
find_backward(map, point, before, char, times, mode, smartcase);
if new_point == point {
new_point =
find_backward(map, point, before, char, times + 1, mode, smartcase);
}
(new_point, SelectionGoal::None)
}
Motion::FindBackward {
after,
char,
mode,
smartcase,
} => {
let mut new_point =
find_forward(map, point, after, char, times, mode, smartcase);
if new_point == Some(point) {
new_point =
find_forward(map, point, after, char, times + 1, mode, smartcase);
}
return new_point.map(|new_point| (new_point, SelectionGoal::None));
}
Motion::Sneak {
first_char,
second_char,
smartcase,
} => {
let mut new_point =
sneak_backward(map, point, first_char, second_char, times, smartcase);
if new_point == Some(point) {
new_point = sneak_backward(
map,
point,
first_char,
second_char,
times + 1,
smartcase,
);
}
return new_point.map(|new_point| (new_point, SelectionGoal::None));
}
Motion::SneakBackward {
first_char,
second_char,
smartcase,
} => {
let mut new_point =
sneak(map, point, first_char, second_char, times, smartcase);
if new_point == Some(point) {
new_point =
sneak(map, point, first_char, second_char, times + 1, smartcase);
}
return new_point.map(|new_point| (new_point, SelectionGoal::None));
}
_ => return None,
},
NextLineStart => (next_line_start(map, point, times), SelectionGoal::None),
PreviousLineStart => (previous_line_start(map, point, times), SelectionGoal::None),
StartOfLineDownward => (next_line_start(map, point, times - 1), SelectionGoal::None),
EndOfLineDownward => (last_non_whitespace(map, point, times), SelectionGoal::None),
GoToColumn => (go_to_column(map, point, times), SelectionGoal::None),
WindowTop => window_top(map, point, text_layout_details, times - 1),
WindowMiddle => window_middle(map, point, text_layout_details),
WindowBottom => window_bottom(map, point, text_layout_details, times - 1),
Jump { line, anchor } => mark::jump_motion(map, *anchor, *line),
ZedSearchResult { new_selections, .. } => {
// There will be only one selection, as
// Search::SelectNextMatch selects a single match.
if let Some(new_selection) = new_selections.first() {
(
new_selection.start.to_display_point(map),
SelectionGoal::None,
)
} else {
return None;
}
}
NextSectionStart => (
section_motion(map, point, times, Direction::Next, true),
SelectionGoal::None,
),
NextSectionEnd => (
section_motion(map, point, times, Direction::Next, false),
SelectionGoal::None,
),
PreviousSectionStart => (
section_motion(map, point, times, Direction::Prev, true),
SelectionGoal::None,
),
PreviousSectionEnd => (
section_motion(map, point, times, Direction::Prev, false),
SelectionGoal::None,
),
NextMethodStart => (
method_motion(map, point, times, Direction::Next, true),
SelectionGoal::None,
),
NextMethodEnd => (
method_motion(map, point, times, Direction::Next, false),
SelectionGoal::None,
),
PreviousMethodStart => (
method_motion(map, point, times, Direction::Prev, true),
SelectionGoal::None,
),
PreviousMethodEnd => (
method_motion(map, point, times, Direction::Prev, false),
SelectionGoal::None,
),
NextComment => (
comment_motion(map, point, times, Direction::Next),
SelectionGoal::None,
),
PreviousComment => (
comment_motion(map, point, times, Direction::Prev),
SelectionGoal::None,
),
};
(new_point != point || infallible).then_some((new_point, goal))
}
// Get the range value after self is applied to the specified selection.
pub fn range(
&self,
map: &DisplaySnapshot,
selection: Selection<DisplayPoint>,
times: Option<usize>,
expand_to_surrounding_newline: bool,
text_layout_details: &TextLayoutDetails,
) -> Option<Range<DisplayPoint>> {
if let Motion::ZedSearchResult {
prior_selections,
new_selections,
} = self
{
if let Some((prior_selection, new_selection)) =
prior_selections.first().zip(new_selections.first())
{
let start = prior_selection
.start
.to_display_point(map)
.min(new_selection.start.to_display_point(map));
let end = new_selection
.end
.to_display_point(map)
.max(prior_selection.end.to_display_point(map));
if start < end {
return Some(start..end);
} else {
return Some(end..start);
}
} else {
return None;
}
}
if let Some((new_head, goal)) = self.move_point(
map,
selection.head(),
selection.goal,
times,
text_layout_details,
) {
let mut selection = selection.clone();
selection.set_head(new_head, goal);
if self.linewise() {
selection.start = map.prev_line_boundary(selection.start.to_point(map)).1;
if expand_to_surrounding_newline {
if selection.end.row() < map.max_point().row() {
*selection.end.row_mut() += 1;
*selection.end.column_mut() = 0;
selection.end = map.clip_point(selection.end, Bias::Right);
// Don't reset the end here
return Some(selection.start..selection.end);
} else if selection.start.row().0 > 0 {
*selection.start.row_mut() -= 1;
*selection.start.column_mut() = map.line_len(selection.start.row());
selection.start = map.clip_point(selection.start, Bias::Left);
}
}
selection.end = map.next_line_boundary(selection.end.to_point(map)).1;
} else {
// Another special case: When using the "w" motion in combination with an
// operator and the last word moved over is at the end of a line, the end of
// that word becomes the end of the operated text, not the first word in the
// next line.
if let Motion::NextWordStart {
ignore_punctuation: _,
} = self
{
let start_row = MultiBufferRow(selection.start.to_point(map).row);
if selection.end.to_point(map).row > start_row.0 {
selection.end =
Point::new(start_row.0, map.buffer_snapshot.line_len(start_row))
.to_display_point(map)
}
}
// If the motion is exclusive and the end of the motion is in column 1, the
// end of the motion is moved to the end of the previous line and the motion
// becomes inclusive. Example: "}" moves to the first line after a paragraph,
// but "d}" will not include that line.
let mut inclusive = self.inclusive();
let start_point = selection.start.to_point(map);
let mut end_point = selection.end.to_point(map);
// DisplayPoint
if !inclusive
&& self != &Motion::Backspace
&& end_point.row > start_point.row
&& end_point.column == 0
{
inclusive = true;
end_point.row -= 1;
end_point.column = 0;
selection.end = map.clip_point(map.next_line_boundary(end_point).1, Bias::Left);
}
if inclusive && selection.end.column() < map.line_len(selection.end.row()) {
selection.end = movement::saturating_right(map, selection.end)
}
}
Some(selection.start..selection.end)
} else {
None
}
}
// Expands a selection using self for an operator
pub fn expand_selection(
&self,
map: &DisplaySnapshot,
selection: &mut Selection<DisplayPoint>,
times: Option<usize>,
expand_to_surrounding_newline: bool,
text_layout_details: &TextLayoutDetails,
) -> bool {
if let Some(range) = self.range(
map,
selection.clone(),
times,
expand_to_surrounding_newline,
text_layout_details,
) {
selection.start = range.start;
selection.end = range.end;
true
} else {
false
}
}
}
fn left(map: &DisplaySnapshot, mut point: DisplayPoint, times: usize) -> DisplayPoint {
for _ in 0..times {
point = movement::saturating_left(map, point);
if point.column() == 0 {
break;
}
}
point
}
pub(crate) fn backspace(
map: &DisplaySnapshot,
mut point: DisplayPoint,
times: usize,
) -> DisplayPoint {
for _ in 0..times {
point = movement::left(map, point);
if point.is_zero() {
break;
}
}
point
}
fn space(map: &DisplaySnapshot, mut point: DisplayPoint, times: usize) -> DisplayPoint {
for _ in 0..times {
point = wrapping_right(map, point);
if point == map.max_point() {
break;
}
}
point
}
fn wrapping_right(map: &DisplaySnapshot, mut point: DisplayPoint) -> DisplayPoint {
let max_column = map.line_len(point.row()).saturating_sub(1);
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;
}
point
}
pub(crate) fn start_of_relative_buffer_row(
map: &DisplaySnapshot,
point: DisplayPoint,
times: isize,
) -> DisplayPoint {
let start = map.display_point_to_fold_point(point, Bias::Left);
let target = start.row() as isize + times;
let new_row = (target.max(0) as u32).min(map.fold_snapshot.max_point().row());
map.clip_point(
map.fold_point_to_display_point(
map.fold_snapshot
.clip_point(FoldPoint::new(new_row, 0), Bias::Right),
),
Bias::Right,
)
}
fn up_down_buffer_rows(
map: &DisplaySnapshot,
point: DisplayPoint,
mut goal: SelectionGoal,
times: isize,
text_layout_details: &TextLayoutDetails,
) -> (DisplayPoint, SelectionGoal) {
let bias = if times < 0 { Bias::Left } else { Bias::Right };
let start = map.display_point_to_fold_point(point, Bias::Left);
let begin_folded_line = map.fold_point_to_display_point(
map.fold_snapshot
.clip_point(FoldPoint::new(start.row(), 0), Bias::Left),
);
let select_nth_wrapped_row = point.row().0 - begin_folded_line.row().0;
let (goal_wrap, goal_x) = match goal {
SelectionGoal::WrappedHorizontalPosition((row, x)) => (row, x),
SelectionGoal::HorizontalRange { end, .. } => (select_nth_wrapped_row, end),
SelectionGoal::HorizontalPosition(x) => (select_nth_wrapped_row, x),
_ => {
let x = map.x_for_display_point(point, text_layout_details);
goal = SelectionGoal::WrappedHorizontalPosition((select_nth_wrapped_row, x.0));
(select_nth_wrapped_row, x.0)
}
};
let target = start.row() as isize + times;
let new_row = (target.max(0) as u32).min(map.fold_snapshot.max_point().row());
let mut begin_folded_line = map.fold_point_to_display_point(
map.fold_snapshot
.clip_point(FoldPoint::new(new_row, 0), bias),
);
let mut i = 0;
while i < goal_wrap && begin_folded_line.row() < map.max_point().row() {
let next_folded_line = DisplayPoint::new(begin_folded_line.row().next_row(), 0);
if map
.display_point_to_fold_point(next_folded_line, bias)
.row()
== new_row
{
i += 1;
begin_folded_line = next_folded_line;
} else {
break;
}
}
let new_col = if i == goal_wrap {
map.display_column_for_x(begin_folded_line.row(), px(goal_x), text_layout_details)
} else {
map.line_len(begin_folded_line.row())
};
(
map.clip_point(DisplayPoint::new(begin_folded_line.row(), new_col), bias),
goal,
)
}
fn down_display(
map: &DisplaySnapshot,
mut point: DisplayPoint,
mut goal: SelectionGoal,
times: usize,
text_layout_details: &TextLayoutDetails,
) -> (DisplayPoint, SelectionGoal) {
for _ in 0..times {
(point, goal) = movement::down(map, point, goal, true, text_layout_details);
}
(point, goal)
}
fn up_display(
map: &DisplaySnapshot,
mut point: DisplayPoint,
mut goal: SelectionGoal,
times: usize,
text_layout_details: &TextLayoutDetails,
) -> (DisplayPoint, SelectionGoal) {
for _ in 0..times {
(point, goal) = movement::up(map, point, goal, true, text_layout_details);
}
(point, goal)
}
pub(crate) fn right(map: &DisplaySnapshot, mut point: DisplayPoint, times: usize) -> DisplayPoint {
for _ in 0..times {
let new_point = movement::saturating_right(map, point);
if point == new_point {
break;
}
point = new_point;
}
point
}
pub(crate) fn next_char(
map: &DisplaySnapshot,
point: DisplayPoint,
allow_cross_newline: bool,
) -> DisplayPoint {
let mut new_point = point;
let mut max_column = map.line_len(new_point.row());
if !allow_cross_newline {
max_column -= 1;
}
if new_point.column() < max_column {
*new_point.column_mut() += 1;
} else if new_point < map.max_point() && allow_cross_newline {
*new_point.row_mut() += 1;
*new_point.column_mut() = 0;
}
map.clip_ignoring_line_ends(new_point, Bias::Right)
}
pub(crate) fn next_word_start(
map: &DisplaySnapshot,
mut point: DisplayPoint,
ignore_punctuation: bool,
times: usize,
) -> DisplayPoint {
let classifier = map
.buffer_snapshot
.char_classifier_at(point.to_point(map))
.ignore_punctuation(ignore_punctuation);
for _ in 0..times {
let mut crossed_newline = false;
let new_point = movement::find_boundary(map, point, FindRange::MultiLine, |left, right| {
let left_kind = classifier.kind(left);
let right_kind = classifier.kind(right);
let at_newline = right == '\n';
let found = (left_kind != right_kind && right_kind != CharKind::Whitespace)
|| at_newline && crossed_newline
|| at_newline && left == '\n'; // Prevents skipping repeated empty lines
crossed_newline |= at_newline;
found
});
if point == new_point {
break;
}
point = new_point;
}
point
}
pub(crate) fn next_word_end(
map: &DisplaySnapshot,
mut point: DisplayPoint,
ignore_punctuation: bool,
times: usize,
allow_cross_newline: bool,
) -> DisplayPoint {
let classifier = map
.buffer_snapshot
.char_classifier_at(point.to_point(map))
.ignore_punctuation(ignore_punctuation);
for _ in 0..times {
let new_point = next_char(map, point, allow_cross_newline);
let mut need_next_char = false;
let new_point = movement::find_boundary_exclusive(
map,
new_point,
FindRange::MultiLine,
|left, right| {
let left_kind = classifier.kind(left);
let right_kind = classifier.kind(right);
let at_newline = right == '\n';
if !allow_cross_newline && at_newline {
need_next_char = true;
return true;
}
left_kind != right_kind && left_kind != CharKind::Whitespace
},
);
let new_point = if need_next_char {
next_char(map, new_point, true)
} else {
new_point
};
let new_point = map.clip_point(new_point, Bias::Left);
if point == new_point {
break;
}
point = new_point;
}
point
}
fn previous_word_start(
map: &DisplaySnapshot,
mut point: DisplayPoint,
ignore_punctuation: bool,
times: usize,
) -> DisplayPoint {
let classifier = map
.buffer_snapshot
.char_classifier_at(point.to_point(map))
.ignore_punctuation(ignore_punctuation);
for _ in 0..times {
// This works even though find_preceding_boundary is called for every character in the line containing
// cursor because the newline is checked only once.
let new_point = movement::find_preceding_boundary_display_point(
map,
point,
FindRange::MultiLine,
|left, right| {
let left_kind = classifier.kind(left);
let right_kind = classifier.kind(right);
(left_kind != right_kind && !right.is_whitespace()) || left == '\n'
},
);
if point == new_point {
break;
}
point = new_point;
}
point
}
fn previous_word_end(
map: &DisplaySnapshot,
point: DisplayPoint,
ignore_punctuation: bool,
times: usize,
) -> DisplayPoint {
let classifier = map
.buffer_snapshot
.char_classifier_at(point.to_point(map))
.ignore_punctuation(ignore_punctuation);
let mut point = point.to_point(map);
if point.column < map.buffer_snapshot.line_len(MultiBufferRow(point.row)) {
point.column += 1;
}
for _ in 0..times {
let new_point = movement::find_preceding_boundary_point(
&map.buffer_snapshot,
point,
FindRange::MultiLine,
|left, right| {
let left_kind = classifier.kind(left);
let right_kind = classifier.kind(right);
match (left_kind, right_kind) {
(CharKind::Punctuation, CharKind::Whitespace)
| (CharKind::Punctuation, CharKind::Word)
| (CharKind::Word, CharKind::Whitespace)
| (CharKind::Word, CharKind::Punctuation) => true,
(CharKind::Whitespace, CharKind::Whitespace) => left == '\n' && right == '\n',
_ => false,
}
},
);
if new_point == point {
break;
}
point = new_point;
}
movement::saturating_left(map, point.to_display_point(map))
}
fn next_subword_start(
map: &DisplaySnapshot,
mut point: DisplayPoint,
ignore_punctuation: bool,
times: usize,
) -> DisplayPoint {
let classifier = map
.buffer_snapshot
.char_classifier_at(point.to_point(map))
.ignore_punctuation(ignore_punctuation);
for _ in 0..times {
let mut crossed_newline = false;
let new_point = movement::find_boundary(map, point, FindRange::MultiLine, |left, right| {
let left_kind = classifier.kind(left);
let right_kind = classifier.kind(right);
let at_newline = right == '\n';
let is_word_start = (left_kind != right_kind) && !left.is_alphanumeric();
let is_subword_start =
left == '_' && right != '_' || left.is_lowercase() && right.is_uppercase();
let found = (!right.is_whitespace() && (is_word_start || is_subword_start))
|| at_newline && crossed_newline
|| at_newline && left == '\n'; // Prevents skipping repeated empty lines
crossed_newline |= at_newline;
found
});
if point == new_point {
break;
}
point = new_point;
}
point
}
pub(crate) fn next_subword_end(
map: &DisplaySnapshot,
mut point: DisplayPoint,
ignore_punctuation: bool,
times: usize,
allow_cross_newline: bool,
) -> DisplayPoint {
let classifier = map
.buffer_snapshot
.char_classifier_at(point.to_point(map))
.ignore_punctuation(ignore_punctuation);
for _ in 0..times {
let new_point = next_char(map, point, allow_cross_newline);
let mut crossed_newline = false;
let mut need_backtrack = false;
let new_point =
movement::find_boundary(map, new_point, FindRange::MultiLine, |left, right| {
let left_kind = classifier.kind(left);
let right_kind = classifier.kind(right);
let at_newline = right == '\n';
if !allow_cross_newline && at_newline {
return true;
}
let is_word_end = (left_kind != right_kind) && !right.is_alphanumeric();
let is_subword_end =
left != '_' && right == '_' || left.is_lowercase() && right.is_uppercase();
let found = !left.is_whitespace() && !at_newline && (is_word_end || is_subword_end);
if found && (is_word_end || is_subword_end) {
need_backtrack = true;
}
crossed_newline |= at_newline;
found
});
let mut new_point = map.clip_point(new_point, Bias::Left);
if need_backtrack {
*new_point.column_mut() -= 1;
}
if point == new_point {
break;
}
point = new_point;
}
point
}
fn previous_subword_start(
map: &DisplaySnapshot,
mut point: DisplayPoint,
ignore_punctuation: bool,
times: usize,
) -> DisplayPoint {
let classifier = map
.buffer_snapshot
.char_classifier_at(point.to_point(map))
.ignore_punctuation(ignore_punctuation);
for _ in 0..times {
let mut crossed_newline = false;
// This works even though find_preceding_boundary is called for every character in the line containing
// cursor because the newline is checked only once.
let new_point = movement::find_preceding_boundary_display_point(
map,
point,
FindRange::MultiLine,
|left, right| {
let left_kind = classifier.kind(left);
let right_kind = classifier.kind(right);
let at_newline = right == '\n';
let is_word_start = (left_kind != right_kind) && !left.is_alphanumeric();
let is_subword_start =
left == '_' && right != '_' || left.is_lowercase() && right.is_uppercase();
let found = (!right.is_whitespace() && (is_word_start || is_subword_start))
|| at_newline && crossed_newline
|| at_newline && left == '\n'; // Prevents skipping repeated empty lines
crossed_newline |= at_newline;
found
},
);
if point == new_point {
break;
}
point = new_point;
}
point
}
fn previous_subword_end(
map: &DisplaySnapshot,
point: DisplayPoint,
ignore_punctuation: bool,
times: usize,
) -> DisplayPoint {
let classifier = map
.buffer_snapshot
.char_classifier_at(point.to_point(map))
.ignore_punctuation(ignore_punctuation);
let mut point = point.to_point(map);
if point.column < map.buffer_snapshot.line_len(MultiBufferRow(point.row)) {
point.column += 1;
}
for _ in 0..times {
let new_point = movement::find_preceding_boundary_point(
&map.buffer_snapshot,
point,
FindRange::MultiLine,
|left, right| {
let left_kind = classifier.kind(left);
let right_kind = classifier.kind(right);
let is_subword_end =
left != '_' && right == '_' || left.is_lowercase() && right.is_uppercase();
if is_subword_end {
return true;
}
match (left_kind, right_kind) {
(CharKind::Word, CharKind::Whitespace)
| (CharKind::Word, CharKind::Punctuation) => true,
(CharKind::Whitespace, CharKind::Whitespace) => left == '\n' && right == '\n',
_ => false,
}
},
);
if new_point == point {
break;
}
point = new_point;
}
movement::saturating_left(map, point.to_display_point(map))
}
pub(crate) fn first_non_whitespace(
map: &DisplaySnapshot,
display_lines: bool,
from: DisplayPoint,
) -> DisplayPoint {
let mut start_offset = start_of_line(map, display_lines, from).to_offset(map, Bias::Left);
let classifier = map.buffer_snapshot.char_classifier_at(from.to_point(map));
for (ch, offset) in map.buffer_chars_at(start_offset) {
if ch == '\n' {
return from;
}
start_offset = offset;
if classifier.kind(ch) != CharKind::Whitespace {
break;
}
}
start_offset.to_display_point(map)
}
pub(crate) fn last_non_whitespace(
map: &DisplaySnapshot,
from: DisplayPoint,
count: usize,
) -> DisplayPoint {
let mut end_of_line = end_of_line(map, false, from, count).to_offset(map, Bias::Left);
let classifier = map.buffer_snapshot.char_classifier_at(from.to_point(map));
// NOTE: depending on clip_at_line_end we may already be one char back from the end.
if let Some((ch, _)) = map.buffer_chars_at(end_of_line).next() {
if classifier.kind(ch) != CharKind::Whitespace {
return end_of_line.to_display_point(map);
}
}
for (ch, offset) in map.reverse_buffer_chars_at(end_of_line) {
if ch == '\n' {
break;
}
end_of_line = offset;
if classifier.kind(ch) != CharKind::Whitespace || ch == '\n' {
break;
}
}
end_of_line.to_display_point(map)
}
pub(crate) fn start_of_line(
map: &DisplaySnapshot,
display_lines: bool,
point: DisplayPoint,
) -> DisplayPoint {
if display_lines {
map.clip_point(DisplayPoint::new(point.row(), 0), Bias::Right)
} else {
map.prev_line_boundary(point.to_point(map)).1
}
}
pub(crate) fn end_of_line(
map: &DisplaySnapshot,
display_lines: bool,
mut point: DisplayPoint,
times: usize,
) -> DisplayPoint {
if times > 1 {
point = start_of_relative_buffer_row(map, point, times as isize - 1);
}
if display_lines {
map.clip_point(
DisplayPoint::new(point.row(), map.line_len(point.row())),
Bias::Left,
)
} else {
map.clip_point(map.next_line_boundary(point.to_point(map)).1, Bias::Left)
}
}
fn sentence_backwards(
map: &DisplaySnapshot,
point: DisplayPoint,
mut times: usize,
) -> DisplayPoint {
let mut start = point.to_point(map).to_offset(&map.buffer_snapshot);
let mut chars = map.reverse_buffer_chars_at(start).peekable();
let mut was_newline = map
.buffer_chars_at(start)
.next()
.is_some_and(|(c, _)| c == '\n');
while let Some((ch, offset)) = chars.next() {
let start_of_next_sentence = if was_newline && ch == '\n' {
Some(offset + ch.len_utf8())
} else if ch == '\n' && chars.peek().is_some_and(|(c, _)| *c == '\n') {
Some(next_non_blank(map, offset + ch.len_utf8()))
} else if ch == '.' || ch == '?' || ch == '!' {
start_of_next_sentence(map, offset + ch.len_utf8())
} else {
None
};
if let Some(start_of_next_sentence) = start_of_next_sentence {
if start_of_next_sentence < start {
times = times.saturating_sub(1);
}
if times == 0 || offset == 0 {
return map.clip_point(
start_of_next_sentence
.to_offset(&map.buffer_snapshot)
.to_display_point(map),
Bias::Left,
);
}
}
if was_newline {
start = offset;
}
was_newline = ch == '\n';
}
DisplayPoint::zero()
}
fn sentence_forwards(map: &DisplaySnapshot, point: DisplayPoint, mut times: usize) -> DisplayPoint {
let start = point.to_point(map).to_offset(&map.buffer_snapshot);
let mut chars = map.buffer_chars_at(start).peekable();
let mut was_newline = map
.reverse_buffer_chars_at(start)
.next()
.is_some_and(|(c, _)| c == '\n')
&& chars.peek().is_some_and(|(c, _)| *c == '\n');
while let Some((ch, offset)) = chars.next() {
if was_newline && ch == '\n' {
continue;
}
let start_of_next_sentence = if was_newline {
Some(next_non_blank(map, offset))
} else if ch == '\n' && chars.peek().is_some_and(|(c, _)| *c == '\n') {
Some(next_non_blank(map, offset + ch.len_utf8()))
} else if ch == '.' || ch == '?' || ch == '!' {
start_of_next_sentence(map, offset + ch.len_utf8())
} else {
None
};
if let Some(start_of_next_sentence) = start_of_next_sentence {
times = times.saturating_sub(1);
if times == 0 {
return map.clip_point(
start_of_next_sentence
.to_offset(&map.buffer_snapshot)
.to_display_point(map),
Bias::Right,
);
}
}
was_newline = ch == '\n' && chars.peek().is_some_and(|(c, _)| *c == '\n');
}
map.max_point()
}
fn next_non_blank(map: &DisplaySnapshot, start: usize) -> usize {
for (c, o) in map.buffer_chars_at(start) {
if c == '\n' || !c.is_whitespace() {
return o;
}
}
map.buffer_snapshot.len()
}
// given the offset after a ., !, or ? find the start of the next sentence.
// if this is not a sentence boundary, returns None.
fn start_of_next_sentence(map: &DisplaySnapshot, end_of_sentence: usize) -> Option<usize> {
let chars = map.buffer_chars_at(end_of_sentence);
let mut seen_space = false;
for (char, offset) in chars {
if !seen_space && (char == ')' || char == ']' || char == '"' || char == '\'') {
continue;
}
if char == '\n' && seen_space {
return Some(offset);
} else if char.is_whitespace() {
seen_space = true;
} else if seen_space {
return Some(offset);
} else {
return None;
}
}
Some(map.buffer_snapshot.len())
}
fn start_of_document(map: &DisplaySnapshot, point: DisplayPoint, line: usize) -> DisplayPoint {
let mut new_point = Point::new((line - 1) as u32, 0).to_display_point(map);
*new_point.column_mut() = point.column();
map.clip_point(new_point, Bias::Left)
}
fn end_of_document(
map: &DisplaySnapshot,
point: DisplayPoint,
line: Option<usize>,
) -> DisplayPoint {
let new_row = if let Some(line) = line {
(line - 1) as u32
} else {
map.buffer_snapshot.max_row().0
};
let new_point = Point::new(new_row, point.column());
map.clip_point(new_point.to_display_point(map), Bias::Left)
}
fn matching_tag(map: &DisplaySnapshot, head: DisplayPoint) -> Option<DisplayPoint> {
let inner = crate::object::surrounding_html_tag(map, head, head..head, false)?;
let outer = crate::object::surrounding_html_tag(map, head, head..head, true)?;
if head > outer.start && head < inner.start {
let mut offset = inner.end.to_offset(map, Bias::Left);
for c in map.buffer_snapshot.chars_at(offset) {
if c == '/' || c == '\n' || c == '>' {
return Some(offset.to_display_point(map));
}
offset += c.len_utf8();
}
} else {
let mut offset = outer.start.to_offset(map, Bias::Left);
for c in map.buffer_snapshot.chars_at(offset) {
offset += c.len_utf8();
if c == '<' || c == '\n' {
return Some(offset.to_display_point(map));
}
}
}
return None;
}
fn matching(map: &DisplaySnapshot, display_point: DisplayPoint) -> DisplayPoint {
// https://github.com/vim/vim/blob/1d87e11a1ef201b26ed87585fba70182ad0c468a/runtime/doc/motion.txt#L1200
let display_point = map.clip_at_line_end(display_point);
let point = display_point.to_point(map);
let offset = point.to_offset(&map.buffer_snapshot);
// Ensure the range is contained by the current line.
let mut line_end = map.next_line_boundary(point).0;
if line_end == point {
line_end = map.max_point().to_point(map);
}
let line_range = map.prev_line_boundary(point).0..line_end;
let visible_line_range =
line_range.start..Point::new(line_range.end.row, line_range.end.column.saturating_sub(1));
let ranges = map
.buffer_snapshot
.bracket_ranges(visible_line_range.clone());
if let Some(ranges) = ranges {
let line_range = line_range.start.to_offset(&map.buffer_snapshot)
..line_range.end.to_offset(&map.buffer_snapshot);
let mut closest_pair_destination = None;
let mut closest_distance = usize::MAX;
for (open_range, close_range) in ranges {
if map.buffer_snapshot.chars_at(open_range.start).next() == Some('<') {
if offset > open_range.start && offset < close_range.start {
let mut chars = map.buffer_snapshot.chars_at(close_range.start);
if (Some('/'), Some('>')) == (chars.next(), chars.next()) {
return display_point;
}
if let Some(tag) = matching_tag(map, display_point) {
return tag;
}
} else if close_range.contains(&offset) {
return open_range.start.to_display_point(map);
} else if open_range.contains(&offset) {
return (close_range.end - 1).to_display_point(map);
}
}
if open_range.start >= offset && line_range.contains(&open_range.start) {
let distance = open_range.start - offset;
if distance < closest_distance {
closest_pair_destination = Some(close_range.end - 1);
closest_distance = distance;
continue;
}
}
if close_range.start >= offset && line_range.contains(&close_range.start) {
let distance = close_range.start - offset;
if distance < closest_distance {
closest_pair_destination = Some(open_range.start);
closest_distance = distance;
continue;
}
}
continue;
}
closest_pair_destination
.map(|destination| destination.to_display_point(map))
.unwrap_or(display_point)
} else {
display_point
}
}
fn unmatched_forward(
map: &DisplaySnapshot,
mut display_point: DisplayPoint,
char: char,
times: usize,
) -> DisplayPoint {
for _ in 0..times {
// https://github.com/vim/vim/blob/1d87e11a1ef201b26ed87585fba70182ad0c468a/runtime/doc/motion.txt#L1245
let point = display_point.to_point(map);
let offset = point.to_offset(&map.buffer_snapshot);
let ranges = map.buffer_snapshot.enclosing_bracket_ranges(point..point);
let Some(ranges) = ranges else { break };
let mut closest_closing_destination = None;
let mut closest_distance = usize::MAX;
for (_, close_range) in ranges {
if close_range.start > offset {
let mut chars = map.buffer_snapshot.chars_at(close_range.start);
if Some(char) == chars.next() {
let distance = close_range.start - offset;
if distance < closest_distance {
closest_closing_destination = Some(close_range.start);
closest_distance = distance;
continue;
}
}
}
}
let new_point = closest_closing_destination
.map(|destination| destination.to_display_point(map))
.unwrap_or(display_point);
if new_point == display_point {
break;
}
display_point = new_point;
}
return display_point;
}
fn unmatched_backward(
map: &DisplaySnapshot,
mut display_point: DisplayPoint,
char: char,
times: usize,
) -> DisplayPoint {
for _ in 0..times {
// https://github.com/vim/vim/blob/1d87e11a1ef201b26ed87585fba70182ad0c468a/runtime/doc/motion.txt#L1239
let point = display_point.to_point(map);
let offset = point.to_offset(&map.buffer_snapshot);
let ranges = map.buffer_snapshot.enclosing_bracket_ranges(point..point);
let Some(ranges) = ranges else {
break;
};
let mut closest_starting_destination = None;
let mut closest_distance = usize::MAX;
for (start_range, _) in ranges {
if start_range.start < offset {
let mut chars = map.buffer_snapshot.chars_at(start_range.start);
if Some(char) == chars.next() {
let distance = offset - start_range.start;
if distance < closest_distance {
closest_starting_destination = Some(start_range.start);
closest_distance = distance;
continue;
}
}
}
}
let new_point = closest_starting_destination
.map(|destination| destination.to_display_point(map))
.unwrap_or(display_point);
if new_point == display_point {
break;
} else {
display_point = new_point;
}
}
display_point
}
fn find_forward(
map: &DisplaySnapshot,
from: DisplayPoint,
before: bool,
target: char,
times: usize,
mode: FindRange,
smartcase: bool,
) -> Option<DisplayPoint> {
let mut to = from;
let mut found = false;
for _ in 0..times {
found = false;
let new_to = find_boundary(map, to, mode, |_, right| {
found = is_character_match(target, right, smartcase);
found
});
if to == new_to {
break;
}
to = new_to;
}
if found {
if before && to.column() > 0 {
*to.column_mut() -= 1;
Some(map.clip_point(to, Bias::Left))
} else {
Some(to)
}
} else {
None
}
}
fn find_backward(
map: &DisplaySnapshot,
from: DisplayPoint,
after: bool,
target: char,
times: usize,
mode: FindRange,
smartcase: bool,
) -> DisplayPoint {
let mut to = from;
for _ in 0..times {
let new_to = find_preceding_boundary_display_point(map, to, mode, |_, right| {
is_character_match(target, right, smartcase)
});
if to == new_to {
break;
}
to = new_to;
}
let next = map.buffer_snapshot.chars_at(to.to_point(map)).next();
if next.is_some() && is_character_match(target, next.unwrap(), smartcase) {
if after {
*to.column_mut() += 1;
map.clip_point(to, Bias::Right)
} else {
to
}
} else {
from
}
}
fn is_character_match(target: char, other: char, smartcase: bool) -> bool {
if smartcase {
if target.is_uppercase() {
target == other
} else {
target == other.to_ascii_lowercase()
}
} else {
target == other
}
}
fn sneak(
map: &DisplaySnapshot,
from: DisplayPoint,
first_target: char,
second_target: char,
times: usize,
smartcase: bool,
) -> Option<DisplayPoint> {
let mut to = from;
let mut found = false;
for _ in 0..times {
found = false;
let new_to = find_boundary(
map,
movement::right(map, to),
FindRange::MultiLine,
|left, right| {
found = is_character_match(first_target, left, smartcase)
&& is_character_match(second_target, right, smartcase);
found
},
);
if to == new_to {
break;
}
to = new_to;
}
if found {
Some(movement::left(map, to))
} else {
None
}
}
fn sneak_backward(
map: &DisplaySnapshot,
from: DisplayPoint,
first_target: char,
second_target: char,
times: usize,
smartcase: bool,
) -> Option<DisplayPoint> {
let mut to = from;
let mut found = false;
for _ in 0..times {
found = false;
let new_to =
find_preceding_boundary_display_point(map, to, FindRange::MultiLine, |left, right| {
found = is_character_match(first_target, left, smartcase)
&& is_character_match(second_target, right, smartcase);
found
});
if to == new_to {
break;
}
to = new_to;
}
if found {
Some(movement::left(map, to))
} else {
None
}
}
fn next_line_start(map: &DisplaySnapshot, point: DisplayPoint, times: usize) -> DisplayPoint {
let correct_line = start_of_relative_buffer_row(map, point, times as isize);
first_non_whitespace(map, false, correct_line)
}
fn previous_line_start(map: &DisplaySnapshot, point: DisplayPoint, times: usize) -> DisplayPoint {
let correct_line = start_of_relative_buffer_row(map, point, -(times as isize));
first_non_whitespace(map, false, correct_line)
}
fn go_to_column(map: &DisplaySnapshot, point: DisplayPoint, times: usize) -> DisplayPoint {
let correct_line = start_of_relative_buffer_row(map, point, 0);
right(map, correct_line, times.saturating_sub(1))
}
pub(crate) fn next_line_end(
map: &DisplaySnapshot,
mut point: DisplayPoint,
times: usize,
) -> DisplayPoint {
if times > 1 {
point = start_of_relative_buffer_row(map, point, times as isize - 1);
}
end_of_line(map, false, point, 1)
}
fn window_top(
map: &DisplaySnapshot,
point: DisplayPoint,
text_layout_details: &TextLayoutDetails,
mut times: usize,
) -> (DisplayPoint, SelectionGoal) {
let first_visible_line = text_layout_details
.scroll_anchor
.anchor
.to_display_point(map);
if first_visible_line.row() != DisplayRow(0)
&& text_layout_details.vertical_scroll_margin as usize > times
{
times = text_layout_details.vertical_scroll_margin.ceil() as usize;
}
if let Some(visible_rows) = text_layout_details.visible_rows {
let bottom_row = first_visible_line.row().0 + visible_rows as u32;
let new_row = (first_visible_line.row().0 + (times as u32))
.min(bottom_row)
.min(map.max_point().row().0);
let new_col = point.column().min(map.line_len(first_visible_line.row()));
let new_point = DisplayPoint::new(DisplayRow(new_row), new_col);
(map.clip_point(new_point, Bias::Left), SelectionGoal::None)
} else {
let new_row =
DisplayRow((first_visible_line.row().0 + (times as u32)).min(map.max_point().row().0));
let new_col = point.column().min(map.line_len(first_visible_line.row()));
let new_point = DisplayPoint::new(new_row, new_col);
(map.clip_point(new_point, Bias::Left), SelectionGoal::None)
}
}
fn window_middle(
map: &DisplaySnapshot,
point: DisplayPoint,
text_layout_details: &TextLayoutDetails,
) -> (DisplayPoint, SelectionGoal) {
if let Some(visible_rows) = text_layout_details.visible_rows {
let first_visible_line = text_layout_details
.scroll_anchor
.anchor
.to_display_point(map);
let max_visible_rows =
(visible_rows as u32).min(map.max_point().row().0 - first_visible_line.row().0);
let new_row =
(first_visible_line.row().0 + (max_visible_rows / 2)).min(map.max_point().row().0);
let new_row = DisplayRow(new_row);
let new_col = point.column().min(map.line_len(new_row));
let new_point = DisplayPoint::new(new_row, new_col);
(map.clip_point(new_point, Bias::Left), SelectionGoal::None)
} else {
(point, SelectionGoal::None)
}
}
fn window_bottom(
map: &DisplaySnapshot,
point: DisplayPoint,
text_layout_details: &TextLayoutDetails,
mut times: usize,
) -> (DisplayPoint, SelectionGoal) {
if let Some(visible_rows) = text_layout_details.visible_rows {
let first_visible_line = text_layout_details
.scroll_anchor
.anchor
.to_display_point(map);
let bottom_row = first_visible_line.row().0
+ (visible_rows + text_layout_details.scroll_anchor.offset.y - 1.).floor() as u32;
if bottom_row < map.max_point().row().0
&& text_layout_details.vertical_scroll_margin as usize > times
{
times = text_layout_details.vertical_scroll_margin.ceil() as usize;
}
let bottom_row_capped = bottom_row.min(map.max_point().row().0);
let new_row = if bottom_row_capped.saturating_sub(times as u32) < first_visible_line.row().0
{
first_visible_line.row()
} else {
DisplayRow(bottom_row_capped.saturating_sub(times as u32))
};
let new_col = point.column().min(map.line_len(new_row));
let new_point = DisplayPoint::new(new_row, new_col);
(map.clip_point(new_point, Bias::Left), SelectionGoal::None)
} else {
(point, SelectionGoal::None)
}
}
fn method_motion(
map: &DisplaySnapshot,
mut display_point: DisplayPoint,
times: usize,
direction: Direction,
is_start: bool,
) -> DisplayPoint {
let Some((_, _, buffer)) = map.buffer_snapshot.as_singleton() else {
return display_point;
};
for _ in 0..times {
let point = map.display_point_to_point(display_point, Bias::Left);
let offset = point.to_offset(&map.buffer_snapshot);
let range = if direction == Direction::Prev {
0..offset
} else {
offset..buffer.len()
};
let possibilities = buffer
.text_object_ranges(range, language::TreeSitterOptions::max_start_depth(4))
.filter_map(|(range, object)| {
if !matches!(object, language::TextObject::AroundFunction) {
return None;
}
let relevant = if is_start { range.start } else { range.end };
if direction == Direction::Prev && relevant < offset {
Some(relevant)
} else if direction == Direction::Next && relevant > offset + 1 {
Some(relevant)
} else {
None
}
});
let dest = if direction == Direction::Prev {
possibilities.max().unwrap_or(offset)
} else {
possibilities.min().unwrap_or(offset)
};
let new_point = map.clip_point(dest.to_display_point(&map), Bias::Left);
if new_point == display_point {
break;
}
display_point = new_point;
}
display_point
}
fn comment_motion(
map: &DisplaySnapshot,
mut display_point: DisplayPoint,
times: usize,
direction: Direction,
) -> DisplayPoint {
let Some((_, _, buffer)) = map.buffer_snapshot.as_singleton() else {
return display_point;
};
for _ in 0..times {
let point = map.display_point_to_point(display_point, Bias::Left);
let offset = point.to_offset(&map.buffer_snapshot);
let range = if direction == Direction::Prev {
0..offset
} else {
offset..buffer.len()
};
let possibilities = buffer
.text_object_ranges(range, language::TreeSitterOptions::max_start_depth(6))
.filter_map(|(range, object)| {
if !matches!(object, language::TextObject::AroundComment) {
return None;
}
let relevant = if direction == Direction::Prev {
range.start
} else {
range.end
};
if direction == Direction::Prev && relevant < offset {
Some(relevant)
} else if direction == Direction::Next && relevant > offset + 1 {
Some(relevant)
} else {
None
}
});
let dest = if direction == Direction::Prev {
possibilities.max().unwrap_or(offset)
} else {
possibilities.min().unwrap_or(offset)
};
let new_point = map.clip_point(dest.to_display_point(&map), Bias::Left);
if new_point == display_point {
break;
}
display_point = new_point;
}
display_point
}
fn section_motion(
map: &DisplaySnapshot,
mut display_point: DisplayPoint,
times: usize,
direction: Direction,
is_start: bool,
) -> DisplayPoint {
if let Some((_, _, buffer)) = map.buffer_snapshot.as_singleton() {
for _ in 0..times {
let offset = map
.display_point_to_point(display_point, Bias::Left)
.to_offset(&map.buffer_snapshot);
let range = if direction == Direction::Prev {
0..offset
} else {
offset..buffer.len()
};
// we set a max start depth here because we want a section to only be "top level"
// similar to vim's default of '{' in the first column.
// (and without it, ]] at the start of editor.rs is -very- slow)
let mut possibilities = buffer
.text_object_ranges(range, language::TreeSitterOptions::max_start_depth(3))
.filter(|(_, object)| {
matches!(
object,
language::TextObject::AroundClass | language::TextObject::AroundFunction
)
})
.collect::<Vec<_>>();
possibilities.sort_by_key(|(range_a, _)| range_a.start);
let mut prev_end = None;
let possibilities = possibilities.into_iter().filter_map(|(range, t)| {
if t == language::TextObject::AroundFunction
&& prev_end.is_some_and(|prev_end| prev_end > range.start)
{
return None;
}
prev_end = Some(range.end);
let relevant = if is_start { range.start } else { range.end };
if direction == Direction::Prev && relevant < offset {
Some(relevant)
} else if direction == Direction::Next && relevant > offset + 1 {
Some(relevant)
} else {
None
}
});
let offset = if direction == Direction::Prev {
possibilities.max().unwrap_or(0)
} else {
possibilities.min().unwrap_or(buffer.len())
};
let new_point = map.clip_point(offset.to_display_point(&map), Bias::Left);
if new_point == display_point {
break;
}
display_point = new_point;
}
return display_point;
};
for _ in 0..times {
let point = map.display_point_to_point(display_point, Bias::Left);
let Some(excerpt) = map.buffer_snapshot.excerpt_containing(point..point) else {
return display_point;
};
let next_point = match (direction, is_start) {
(Direction::Prev, true) => {
let mut start = excerpt.start_anchor().to_display_point(&map);
if start >= display_point && start.row() > DisplayRow(0) {
let Some(excerpt) = map.buffer_snapshot.excerpt_before(excerpt.id()) else {
return display_point;
};
start = excerpt.start_anchor().to_display_point(&map);
}
start
}
(Direction::Prev, false) => {
let mut start = excerpt.start_anchor().to_display_point(&map);
if start.row() > DisplayRow(0) {
*start.row_mut() -= 1;
}
map.clip_point(start, Bias::Left)
}
(Direction::Next, true) => {
let mut end = excerpt.end_anchor().to_display_point(&map);
*end.row_mut() += 1;
map.clip_point(end, Bias::Right)
}
(Direction::Next, false) => {
let mut end = excerpt.end_anchor().to_display_point(&map);
*end.column_mut() = 0;
if end <= display_point {
*end.row_mut() += 1;
let point_end = map.display_point_to_point(end, Bias::Right);
let Some(excerpt) =
map.buffer_snapshot.excerpt_containing(point_end..point_end)
else {
return display_point;
};
end = excerpt.end_anchor().to_display_point(&map);
*end.column_mut() = 0;
}
end
}
};
if next_point == display_point {
break;
}
display_point = next_point;
}
display_point
}
#[cfg(test)]
mod test {
use crate::{
state::Mode,
test::{NeovimBackedTestContext, VimTestContext},
};
use editor::display_map::Inlay;
use indoc::indoc;
#[gpui::test]
async fn test_start_end_of_paragraph(cx: &mut gpui::TestAppContext) {
let mut cx = NeovimBackedTestContext::new(cx).await;
let initial_state = indoc! {r"ˇabc
def
paragraph
the second
third and
final"};
// goes down once
cx.set_shared_state(initial_state).await;
cx.simulate_shared_keystrokes("}").await;
cx.shared_state().await.assert_eq(indoc! {r"abc
def
ˇ
paragraph
the second
third and
final"});
// goes up once
cx.simulate_shared_keystrokes("{").await;
cx.shared_state().await.assert_eq(initial_state);
// goes down twice
cx.simulate_shared_keystrokes("2 }").await;
cx.shared_state().await.assert_eq(indoc! {r"abc
def
paragraph
the second
ˇ
third and
final"});
// goes down over multiple blanks
cx.simulate_shared_keystrokes("}").await;
cx.shared_state().await.assert_eq(indoc! {r"abc
def
paragraph
the second
third and
finaˇl"});
// goes up twice
cx.simulate_shared_keystrokes("2 {").await;
cx.shared_state().await.assert_eq(indoc! {r"abc
def
ˇ
paragraph
the second
third and
final"});
}
#[gpui::test]
async fn test_matching(cx: &mut gpui::TestAppContext) {
let mut cx = NeovimBackedTestContext::new(cx).await;
cx.set_shared_state(indoc! {r"func ˇ(a string) {
do(something(with<Types>.and_arrays[0, 2]))
}"})
.await;
cx.simulate_shared_keystrokes("%").await;
cx.shared_state()
.await
.assert_eq(indoc! {r"func (a stringˇ) {
do(something(with<Types>.and_arrays[0, 2]))
}"});
// test it works on the last character of the line
cx.set_shared_state(indoc! {r"func (a string) ˇ{
do(something(with<Types>.and_arrays[0, 2]))
}"})
.await;
cx.simulate_shared_keystrokes("%").await;
cx.shared_state()
.await
.assert_eq(indoc! {r"func (a string) {
do(something(with<Types>.and_arrays[0, 2]))
ˇ}"});
// test it works on immediate nesting
cx.set_shared_state("ˇ{()}").await;
cx.simulate_shared_keystrokes("%").await;
cx.shared_state().await.assert_eq("{()ˇ}");
cx.simulate_shared_keystrokes("%").await;
cx.shared_state().await.assert_eq("ˇ{()}");
// test it works on immediate nesting inside braces
cx.set_shared_state("{\n ˇ{()}\n}").await;
cx.simulate_shared_keystrokes("%").await;
cx.shared_state().await.assert_eq("{\n {()ˇ}\n}");
// test it jumps to the next paren on a line
cx.set_shared_state("func ˇboop() {\n}").await;
cx.simulate_shared_keystrokes("%").await;
cx.shared_state().await.assert_eq("func boop(ˇ) {\n}");
}
#[gpui::test]
async fn test_unmatched_forward(cx: &mut gpui::TestAppContext) {
let mut cx = NeovimBackedTestContext::new(cx).await;
// test it works with curly braces
cx.set_shared_state(indoc! {r"func (a string) {
do(something(with<Types>.anˇd_arrays[0, 2]))
}"})
.await;
cx.simulate_shared_keystrokes("] }").await;
cx.shared_state()
.await
.assert_eq(indoc! {r"func (a string) {
do(something(with<Types>.and_arrays[0, 2]))
ˇ}"});
// test it works with brackets
cx.set_shared_state(indoc! {r"func (a string) {
do(somethiˇng(with<Types>.and_arrays[0, 2]))
}"})
.await;
cx.simulate_shared_keystrokes("] )").await;
cx.shared_state()
.await
.assert_eq(indoc! {r"func (a string) {
do(something(with<Types>.and_arrays[0, 2])ˇ)
}"});
cx.set_shared_state(indoc! {r"func (a string) { a((b, cˇ))}"})
.await;
cx.simulate_shared_keystrokes("] )").await;
cx.shared_state()
.await
.assert_eq(indoc! {r"func (a string) { a((b, c)ˇ)}"});
// test it works on immediate nesting
cx.set_shared_state("{ˇ {}{}}").await;
cx.simulate_shared_keystrokes("] }").await;
cx.shared_state().await.assert_eq("{ {}{}ˇ}");
cx.set_shared_state("(ˇ ()())").await;
cx.simulate_shared_keystrokes("] )").await;
cx.shared_state().await.assert_eq("( ()()ˇ)");
// test it works on immediate nesting inside braces
cx.set_shared_state("{\n ˇ {()}\n}").await;
cx.simulate_shared_keystrokes("] }").await;
cx.shared_state().await.assert_eq("{\n {()}\nˇ}");
cx.set_shared_state("(\n ˇ {()}\n)").await;
cx.simulate_shared_keystrokes("] )").await;
cx.shared_state().await.assert_eq("(\n {()}\nˇ)");
}
#[gpui::test]
async fn test_unmatched_backward(cx: &mut gpui::TestAppContext) {
let mut cx = NeovimBackedTestContext::new(cx).await;
// test it works with curly braces
cx.set_shared_state(indoc! {r"func (a string) {
do(something(with<Types>.anˇd_arrays[0, 2]))
}"})
.await;
cx.simulate_shared_keystrokes("[ {").await;
cx.shared_state()
.await
.assert_eq(indoc! {r"func (a string) ˇ{
do(something(with<Types>.and_arrays[0, 2]))
}"});
// test it works with brackets
cx.set_shared_state(indoc! {r"func (a string) {
do(somethiˇng(with<Types>.and_arrays[0, 2]))
}"})
.await;
cx.simulate_shared_keystrokes("[ (").await;
cx.shared_state()
.await
.assert_eq(indoc! {r"func (a string) {
doˇ(something(with<Types>.and_arrays[0, 2]))
}"});
// test it works on immediate nesting
cx.set_shared_state("{{}{} ˇ }").await;
cx.simulate_shared_keystrokes("[ {").await;
cx.shared_state().await.assert_eq("ˇ{{}{} }");
cx.set_shared_state("(()() ˇ )").await;
cx.simulate_shared_keystrokes("[ (").await;
cx.shared_state().await.assert_eq("ˇ(()() )");
// test it works on immediate nesting inside braces
cx.set_shared_state("{\n {()} ˇ\n}").await;
cx.simulate_shared_keystrokes("[ {").await;
cx.shared_state().await.assert_eq("ˇ{\n {()} \n}");
cx.set_shared_state("(\n {()} ˇ\n)").await;
cx.simulate_shared_keystrokes("[ (").await;
cx.shared_state().await.assert_eq("ˇ(\n {()} \n)");
}
#[gpui::test]
async fn test_matching_tags(cx: &mut gpui::TestAppContext) {
let mut cx = NeovimBackedTestContext::new_html(cx).await;
cx.neovim.exec("set filetype=html").await;
cx.set_shared_state(indoc! {r"<bˇody></body>"}).await;
cx.simulate_shared_keystrokes("%").await;
cx.shared_state()
.await
.assert_eq(indoc! {r"<body><ˇ/body>"});
cx.simulate_shared_keystrokes("%").await;
// test jumping backwards
cx.shared_state()
.await
.assert_eq(indoc! {r"<ˇbody></body>"});
// test self-closing tags
cx.set_shared_state(indoc! {r"<a><bˇr/></a>"}).await;
cx.simulate_shared_keystrokes("%").await;
cx.shared_state().await.assert_eq(indoc! {r"<a><bˇr/></a>"});
// test tag with attributes
cx.set_shared_state(indoc! {r"<div class='test' ˇid='main'>
</div>
"})
.await;
cx.simulate_shared_keystrokes("%").await;
cx.shared_state()
.await
.assert_eq(indoc! {r"<div class='test' id='main'>
<ˇ/div>
"});
// test multi-line self-closing tag
cx.set_shared_state(indoc! {r#"<a>
<br
test = "test"
/ˇ>
</a>"#})
.await;
cx.simulate_shared_keystrokes("%").await;
cx.shared_state().await.assert_eq(indoc! {r#"<a>
ˇ<br
test = "test"
/>
</a>"#});
}
#[gpui::test]
async fn test_comma_semicolon(cx: &mut gpui::TestAppContext) {
let mut cx = NeovimBackedTestContext::new(cx).await;
// f and F
cx.set_shared_state("ˇone two three four").await;
cx.simulate_shared_keystrokes("f o").await;
cx.shared_state().await.assert_eq("one twˇo three four");
cx.simulate_shared_keystrokes(",").await;
cx.shared_state().await.assert_eq("ˇone two three four");
cx.simulate_shared_keystrokes("2 ;").await;
cx.shared_state().await.assert_eq("one two three fˇour");
cx.simulate_shared_keystrokes("shift-f e").await;
cx.shared_state().await.assert_eq("one two threˇe four");
cx.simulate_shared_keystrokes("2 ;").await;
cx.shared_state().await.assert_eq("onˇe two three four");
cx.simulate_shared_keystrokes(",").await;
cx.shared_state().await.assert_eq("one two thrˇee four");
// t and T
cx.set_shared_state("ˇone two three four").await;
cx.simulate_shared_keystrokes("t o").await;
cx.shared_state().await.assert_eq("one tˇwo three four");
cx.simulate_shared_keystrokes(",").await;
cx.shared_state().await.assert_eq("oˇne two three four");
cx.simulate_shared_keystrokes("2 ;").await;
cx.shared_state().await.assert_eq("one two three ˇfour");
cx.simulate_shared_keystrokes("shift-t e").await;
cx.shared_state().await.assert_eq("one two threeˇ four");
cx.simulate_shared_keystrokes("3 ;").await;
cx.shared_state().await.assert_eq("oneˇ two three four");
cx.simulate_shared_keystrokes(",").await;
cx.shared_state().await.assert_eq("one two thˇree four");
}
#[gpui::test]
async fn test_next_word_end_newline_last_char(cx: &mut gpui::TestAppContext) {
let mut cx = NeovimBackedTestContext::new(cx).await;
let initial_state = indoc! {r"something(ˇfoo)"};
cx.set_shared_state(initial_state).await;
cx.simulate_shared_keystrokes("}").await;
cx.shared_state().await.assert_eq("something(fooˇ)");
}
#[gpui::test]
async fn test_next_line_start(cx: &mut gpui::TestAppContext) {
let mut cx = NeovimBackedTestContext::new(cx).await;
cx.set_shared_state("ˇone\n two\nthree").await;
cx.simulate_shared_keystrokes("enter").await;
cx.shared_state().await.assert_eq("one\n ˇtwo\nthree");
}
#[gpui::test]
async fn test_end_of_line_downward(cx: &mut gpui::TestAppContext) {
let mut cx = NeovimBackedTestContext::new(cx).await;
cx.set_shared_state("ˇ one\n two \nthree").await;
cx.simulate_shared_keystrokes("g _").await;
cx.shared_state().await.assert_eq(" onˇe\n two \nthree");
cx.set_shared_state("ˇ one \n two \nthree").await;
cx.simulate_shared_keystrokes("g _").await;
cx.shared_state().await.assert_eq(" onˇe \n two \nthree");
cx.simulate_shared_keystrokes("2 g _").await;
cx.shared_state().await.assert_eq(" one \n twˇo \nthree");
}
#[gpui::test]
async fn test_window_top(cx: &mut gpui::TestAppContext) {
let mut cx = NeovimBackedTestContext::new(cx).await;
let initial_state = indoc! {r"abc
def
paragraph
the second
third ˇand
final"};
cx.set_shared_state(initial_state).await;
cx.simulate_shared_keystrokes("shift-h").await;
cx.shared_state().await.assert_eq(indoc! {r"abˇc
def
paragraph
the second
third and
final"});
// clip point
cx.set_shared_state(indoc! {r"
1 2 3
4 5 6
7 8 ˇ9
"})
.await;
cx.simulate_shared_keystrokes("shift-h").await;
cx.shared_state().await.assert_eq(indoc! {"
1 2 ˇ3
4 5 6
7 8 9
"});
cx.set_shared_state(indoc! {r"
1 2 3
4 5 6
ˇ7 8 9
"})
.await;
cx.simulate_shared_keystrokes("shift-h").await;
cx.shared_state().await.assert_eq(indoc! {"
ˇ1 2 3
4 5 6
7 8 9
"});
cx.set_shared_state(indoc! {r"
1 2 3
4 5 ˇ6
7 8 9"})
.await;
cx.simulate_shared_keystrokes("9 shift-h").await;
cx.shared_state().await.assert_eq(indoc! {"
1 2 3
4 5 6
7 8 ˇ9"});
}
#[gpui::test]
async fn test_window_middle(cx: &mut gpui::TestAppContext) {
let mut cx = NeovimBackedTestContext::new(cx).await;
let initial_state = indoc! {r"abˇc
def
paragraph
the second
third and
final"};
cx.set_shared_state(initial_state).await;
cx.simulate_shared_keystrokes("shift-m").await;
cx.shared_state().await.assert_eq(indoc! {r"abc
def
paˇragraph
the second
third and
final"});
cx.set_shared_state(indoc! {r"
1 2 3
4 5 6
7 8 ˇ9
"})
.await;
cx.simulate_shared_keystrokes("shift-m").await;
cx.shared_state().await.assert_eq(indoc! {"
1 2 3
4 5 ˇ6
7 8 9
"});
cx.set_shared_state(indoc! {r"
1 2 3
4 5 6
ˇ7 8 9
"})
.await;
cx.simulate_shared_keystrokes("shift-m").await;
cx.shared_state().await.assert_eq(indoc! {"
1 2 3
ˇ4 5 6
7 8 9
"});
cx.set_shared_state(indoc! {r"
ˇ1 2 3
4 5 6
7 8 9
"})
.await;
cx.simulate_shared_keystrokes("shift-m").await;
cx.shared_state().await.assert_eq(indoc! {"
1 2 3
ˇ4 5 6
7 8 9
"});
cx.set_shared_state(indoc! {r"
1 2 3
ˇ4 5 6
7 8 9
"})
.await;
cx.simulate_shared_keystrokes("shift-m").await;
cx.shared_state().await.assert_eq(indoc! {"
1 2 3
ˇ4 5 6
7 8 9
"});
cx.set_shared_state(indoc! {r"
1 2 3
4 5 ˇ6
7 8 9
"})
.await;
cx.simulate_shared_keystrokes("shift-m").await;
cx.shared_state().await.assert_eq(indoc! {"
1 2 3
4 5 ˇ6
7 8 9
"});
}
#[gpui::test]
async fn test_window_bottom(cx: &mut gpui::TestAppContext) {
let mut cx = NeovimBackedTestContext::new(cx).await;
let initial_state = indoc! {r"abc
deˇf
paragraph
the second
third and
final"};
cx.set_shared_state(initial_state).await;
cx.simulate_shared_keystrokes("shift-l").await;
cx.shared_state().await.assert_eq(indoc! {r"abc
def
paragraph
the second
third and
fiˇnal"});
cx.set_shared_state(indoc! {r"
1 2 3
4 5 ˇ6
7 8 9
"})
.await;
cx.simulate_shared_keystrokes("shift-l").await;
cx.shared_state().await.assert_eq(indoc! {"
1 2 3
4 5 6
7 8 9
ˇ"});
cx.set_shared_state(indoc! {r"
1 2 3
ˇ4 5 6
7 8 9
"})
.await;
cx.simulate_shared_keystrokes("shift-l").await;
cx.shared_state().await.assert_eq(indoc! {"
1 2 3
4 5 6
7 8 9
ˇ"});
cx.set_shared_state(indoc! {r"
1 2 ˇ3
4 5 6
7 8 9
"})
.await;
cx.simulate_shared_keystrokes("shift-l").await;
cx.shared_state().await.assert_eq(indoc! {"
1 2 3
4 5 6
7 8 9
ˇ"});
cx.set_shared_state(indoc! {r"
ˇ1 2 3
4 5 6
7 8 9
"})
.await;
cx.simulate_shared_keystrokes("shift-l").await;
cx.shared_state().await.assert_eq(indoc! {"
1 2 3
4 5 6
7 8 9
ˇ"});
cx.set_shared_state(indoc! {r"
1 2 3
4 5 ˇ6
7 8 9
"})
.await;
cx.simulate_shared_keystrokes("9 shift-l").await;
cx.shared_state().await.assert_eq(indoc! {"
1 2 ˇ3
4 5 6
7 8 9
"});
}
#[gpui::test]
async fn test_previous_word_end(cx: &mut gpui::TestAppContext) {
let mut cx = NeovimBackedTestContext::new(cx).await;
cx.set_shared_state(indoc! {r"
456 5ˇ67 678
"})
.await;
cx.simulate_shared_keystrokes("g e").await;
cx.shared_state().await.assert_eq(indoc! {"
45ˇ6 567 678
"});
// Test times
cx.set_shared_state(indoc! {r"
123 234 345
456 5ˇ67 678
"})
.await;
cx.simulate_shared_keystrokes("4 g e").await;
cx.shared_state().await.assert_eq(indoc! {"
12ˇ3 234 345
456 567 678
"});
// With punctuation
cx.set_shared_state(indoc! {r"
123 234 345
4;5.6 5ˇ67 678
789 890 901
"})
.await;
cx.simulate_shared_keystrokes("g e").await;
cx.shared_state().await.assert_eq(indoc! {"
123 234 345
4;5.ˇ6 567 678
789 890 901
"});
// With punctuation and count
cx.set_shared_state(indoc! {r"
123 234 345
4;5.6 5ˇ67 678
789 890 901
"})
.await;
cx.simulate_shared_keystrokes("5 g e").await;
cx.shared_state().await.assert_eq(indoc! {"
123 234 345
ˇ4;5.6 567 678
789 890 901
"});
// newlines
cx.set_shared_state(indoc! {r"
123 234 345
78ˇ9 890 901
"})
.await;
cx.simulate_shared_keystrokes("g e").await;
cx.shared_state().await.assert_eq(indoc! {"
123 234 345
ˇ
789 890 901
"});
cx.simulate_shared_keystrokes("g e").await;
cx.shared_state().await.assert_eq(indoc! {"
123 234 34ˇ5
789 890 901
"});
// With punctuation
cx.set_shared_state(indoc! {r"
123 234 345
4;5.ˇ6 567 678
789 890 901
"})
.await;
cx.simulate_shared_keystrokes("g shift-e").await;
cx.shared_state().await.assert_eq(indoc! {"
123 234 34ˇ5
4;5.6 567 678
789 890 901
"});
}
#[gpui::test]
async fn test_visual_match_eol(cx: &mut gpui::TestAppContext) {
let mut cx = NeovimBackedTestContext::new(cx).await;
cx.set_shared_state(indoc! {"
fn aˇ() {
return
}
"})
.await;
cx.simulate_shared_keystrokes("v $ %").await;
cx.shared_state().await.assert_eq(indoc! {"
fn a«() {
return
}ˇ»
"});
}
#[gpui::test]
async fn test_clipping_with_inlay_hints(cx: &mut gpui::TestAppContext) {
let mut cx = VimTestContext::new(cx, true).await;
cx.set_state(
indoc! {"
struct Foo {
ˇ
}
"},
Mode::Normal,
);
cx.update_editor(|editor, cx| {
let range = editor.selections.newest_anchor().range();
let inlay_text = " field: int,\n field2: string\n field3: float";
let inlay = Inlay::inline_completion(1, range.start, inlay_text);
editor.splice_inlays(vec![], vec![inlay], cx);
});
cx.simulate_keystrokes("j");
cx.assert_state(
indoc! {"
struct Foo {
ˇ}
"},
Mode::Normal,
);
}
}
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