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|
use std::iter::{self, from_fn, Peekable, SkipWhile};
use ropey::iter::Chars;
use crate::{
chars::{
categorize_char, char_is_line_ending, char_is_punctuation, char_is_whitespace,
char_is_word, CharCategory,
},
coords_at_pos, get_line_ending,
graphemes::{nth_next_grapheme_boundary, nth_prev_grapheme_boundary},
line_end_char_index, pos_at_coords, Position, Range, RopeSlice,
};
#[derive(Debug, Copy, Clone, PartialEq, Eq)]
pub enum Direction {
Forward,
Backward,
}
#[derive(Copy, Clone, PartialEq, Eq)]
pub enum Movement {
Extend,
Move,
}
pub fn move_horizontally(
slice: RopeSlice,
range: Range,
dir: Direction,
count: usize,
behaviour: Movement,
) -> Range {
let pos = range.head;
let line = slice.char_to_line(pos);
// TODO: we can optimize clamping by passing in RopeSlice limited to current line. that way
// we stop calculating past start/end of line.
let pos = match dir {
Direction::Backward => {
let start = slice.line_to_char(line);
nth_prev_grapheme_boundary(slice, pos, count).max(start)
}
Direction::Forward => {
let end_char_idx = line_end_char_index(&slice, line);
nth_next_grapheme_boundary(slice, pos, count).min(end_char_idx)
}
};
let anchor = match behaviour {
Movement::Extend => range.anchor,
Movement::Move => pos,
};
Range::new(anchor, pos)
}
pub fn move_vertically(
slice: RopeSlice,
range: Range,
dir: Direction,
count: usize,
behaviour: Movement,
) -> Range {
let Position { row, col } = coords_at_pos(slice, range.head);
let horiz = range.horiz.unwrap_or(col as u32);
let new_line = match dir {
Direction::Backward => row.saturating_sub(count),
Direction::Forward => std::cmp::min(
row.saturating_add(count),
slice.len_lines().saturating_sub(2),
),
};
// Length of the line sans line-ending.
let new_line_len = {
let line = slice.line(new_line);
line.len_chars() - get_line_ending(&line).map(|le| le.len_chars()).unwrap_or(0)
};
let new_col = std::cmp::min(horiz as usize, new_line_len);
let pos = pos_at_coords(slice, Position::new(new_line, new_col));
let anchor = match behaviour {
Movement::Extend => range.anchor,
Movement::Move => pos,
};
let mut range = Range::new(anchor, pos);
range.horiz = Some(horiz);
range
}
pub fn move_next_word_start(slice: RopeSlice, range: Range, count: usize) -> Range {
word_move(slice, range, count, WordMotionTarget::NextWordStart)
}
pub fn move_next_word_end(slice: RopeSlice, range: Range, count: usize) -> Range {
word_move(slice, range, count, WordMotionTarget::NextWordEnd)
}
pub fn move_prev_word_start(slice: RopeSlice, range: Range, count: usize) -> Range {
word_move(slice, range, count, WordMotionTarget::PrevWordStart)
}
fn word_move(slice: RopeSlice, mut range: Range, count: usize, target: WordMotionTarget) -> Range {
(0..count).fold(range, |range, _| {
slice.chars_at(range.head).range_to_target(target, range)
})
}
// ---- util ------------
#[inline]
/// Returns first index that doesn't satisfy a given predicate when
/// advancing the character index.
///
/// Returns none if all characters satisfy the predicate.
pub fn skip_while<F>(slice: RopeSlice, pos: usize, fun: F) -> Option<usize>
where
F: Fn(char) -> bool,
{
let mut chars = slice.chars_at(pos).enumerate();
chars.find_map(|(i, c)| if !fun(c) { Some(pos + i) } else { None })
}
#[inline]
/// Returns first index that doesn't satisfy a given predicate when
/// retreating the character index, saturating if all elements satisfy
/// the condition.
pub fn backwards_skip_while<F>(slice: RopeSlice, pos: usize, fun: F) -> Option<usize>
where
F: Fn(char) -> bool,
{
let mut chars_starting_from_next = slice.chars_at(pos + 1);
let mut backwards = iter::from_fn(|| chars_starting_from_next.prev()).enumerate();
backwards.find_map(|(i, c)| {
if !fun(c) {
Some(pos.saturating_sub(i))
} else {
None
}
})
}
/// Possible targets of a word motion
#[derive(Copy, Clone, Debug)]
pub enum WordMotionTarget {
NextWordStart,
NextWordEnd,
PrevWordStart,
}
pub trait CharHelpers {
fn range_to_target(&mut self, target: WordMotionTarget, origin: Range) -> Range;
}
enum WordMotionPhase {
Start,
SkipNewlines,
ReachTarget,
}
impl CharHelpers for Chars<'_> {
fn range_to_target(&mut self, target: WordMotionTarget, origin: Range) -> Range {
let range = origin;
// Characters are iterated forward or backwards depending on the motion direction.
let characters: Box<dyn Iterator<Item = char>> = match target {
WordMotionTarget::PrevWordStart => {
self.next();
Box::new(from_fn(|| self.prev()))
}
_ => Box::new(self),
};
// Index advancement also depends on the direction.
let advance: &dyn Fn(&mut usize) = match target {
WordMotionTarget::PrevWordStart => &|u| *u = u.saturating_sub(1),
_ => &|u| *u += 1,
};
let mut characters = characters.peekable();
let mut phase = WordMotionPhase::Start;
let mut head = origin.head;
let mut anchor: Option<usize> = None;
let is_boundary =
|a: char, b: Option<char>| categorize_char(a) != categorize_char(b.unwrap_or(a));
while let Some(peek) = characters.peek().copied() {
phase = match phase {
WordMotionPhase::Start => {
characters.next();
if characters.peek().is_none() {
break; // We're at the end, so there's nothing to do.
}
// Anchor may remain here if the head wasn't at a boundary
if !is_boundary(peek, characters.peek().copied()) && !char_is_line_ending(peek)
{
anchor = Some(head);
}
// First character is always skipped by the head
advance(&mut head);
WordMotionPhase::SkipNewlines
}
WordMotionPhase::SkipNewlines => {
if char_is_line_ending(peek) {
characters.next();
if characters.peek().is_some() {
advance(&mut head);
}
WordMotionPhase::SkipNewlines
} else {
WordMotionPhase::ReachTarget
}
}
WordMotionPhase::ReachTarget => {
characters.next();
anchor = anchor.or(Some(head));
if reached_target(target, peek, characters.peek()) {
break;
} else {
advance(&mut head);
}
WordMotionPhase::ReachTarget
}
}
}
Range::new(anchor.unwrap_or(origin.anchor), head)
}
}
fn reached_target(target: WordMotionTarget, peek: char, next_peek: Option<&char>) -> bool {
let next_peek = match next_peek {
Some(next_peek) => next_peek,
None => return true,
};
match target {
WordMotionTarget::NextWordStart => {
((categorize_char(peek) != categorize_char(*next_peek))
&& (char_is_line_ending(*next_peek) || !next_peek.is_whitespace()))
}
WordMotionTarget::NextWordEnd | WordMotionTarget::PrevWordStart => {
((categorize_char(peek) != categorize_char(*next_peek))
&& (!peek.is_whitespace() || char_is_line_ending(*next_peek)))
}
}
}
#[cfg(test)]
mod test {
use std::array::{self, IntoIter};
use ropey::Rope;
use super::*;
const SINGLE_LINE_SAMPLE: &str = "This is a simple alphabetic line";
const MULTILINE_SAMPLE: &str = "\
Multiline\n\
text sample\n\
which\n\
is merely alphabetic\n\
and whitespaced\n\
";
const MULTIBYTE_CHARACTER_SAMPLE: &str = "\
パーティーへ行かないか\n\
The text above is Japanese\n\
";
#[test]
fn test_vertical_move() {
let text = Rope::from("abcd\nefg\nwrs");
let slice = text.slice(..);
let pos = pos_at_coords(slice, (0, 4).into());
let range = Range::new(pos, pos);
assert_eq!(
coords_at_pos(
slice,
move_vertically(slice, range, Direction::Forward, 1, Movement::Move).head
),
(1, 3).into()
);
}
#[test]
fn horizontal_moves_through_single_line_in_single_line_text() {
let text = Rope::from(SINGLE_LINE_SAMPLE);
let slice = text.slice(..);
let position = pos_at_coords(slice, (0, 0).into());
let mut range = Range::point(position);
let moves_and_expected_coordinates = [
((Direction::Forward, 1usize), (0, 1)), // T|his is a simple alphabetic line
((Direction::Forward, 2usize), (0, 3)), // Thi|s is a simple alphabetic line
((Direction::Forward, 0usize), (0, 3)), // Thi|s is a simple alphabetic line
((Direction::Forward, 999usize), (0, 32)), // This is a simple alphabetic line|
((Direction::Forward, 999usize), (0, 32)), // This is a simple alphabetic line|
((Direction::Backward, 999usize), (0, 0)), // |This is a simple alphabetic line
];
for ((direction, amount), coordinates) in IntoIter::new(moves_and_expected_coordinates) {
range = move_horizontally(slice, range, direction, amount, Movement::Move);
assert_eq!(coords_at_pos(slice, range.head), coordinates.into())
}
}
#[test]
fn horizontal_moves_through_single_line_in_multiline_text() {
let text = Rope::from(MULTILINE_SAMPLE);
let slice = text.slice(..);
let position = pos_at_coords(slice, (0, 0).into());
let mut range = Range::point(position);
let moves_and_expected_coordinates = IntoIter::new([
((Direction::Forward, 1usize), (0, 1)), // M|ultiline\n
((Direction::Forward, 2usize), (0, 3)), // Mul|tiline\n
((Direction::Backward, 6usize), (0, 0)), // |Multiline\n
((Direction::Backward, 999usize), (0, 0)), // |Multiline\n
((Direction::Forward, 3usize), (0, 3)), // Mul|tiline\n
((Direction::Forward, 0usize), (0, 3)), // Mul|tiline\n
((Direction::Backward, 0usize), (0, 3)), // Mul|tiline\n
((Direction::Forward, 999usize), (0, 9)), // Multiline|\n
((Direction::Forward, 999usize), (0, 9)), // Multiline|\n
]);
for ((direction, amount), coordinates) in moves_and_expected_coordinates {
range = move_horizontally(slice, range, direction, amount, Movement::Move);
assert_eq!(coords_at_pos(slice, range.head), coordinates.into());
assert_eq!(range.head, range.anchor);
}
}
#[test]
fn selection_extending_moves_in_single_line_text() {
let text = Rope::from(SINGLE_LINE_SAMPLE);
let slice = text.slice(..);
let position = pos_at_coords(slice, (0, 0).into());
let mut range = Range::point(position);
let original_anchor = range.anchor;
let moves = IntoIter::new([
(Direction::Forward, 1usize),
(Direction::Forward, 5usize),
(Direction::Backward, 3usize),
]);
for (direction, amount) in moves {
range = move_horizontally(slice, range, direction, amount, Movement::Extend);
assert_eq!(range.anchor, original_anchor);
}
}
#[test]
fn vertical_moves_in_single_column() {
let text = Rope::from(MULTILINE_SAMPLE);
let slice = dbg!(&text).slice(..);
let position = pos_at_coords(slice, (0, 0).into());
let mut range = Range::point(position);
let moves_and_expected_coordinates = IntoIter::new([
((Direction::Forward, 1usize), (1, 0)),
((Direction::Forward, 2usize), (3, 0)),
((Direction::Backward, 999usize), (0, 0)),
((Direction::Forward, 3usize), (3, 0)),
((Direction::Forward, 0usize), (3, 0)),
((Direction::Backward, 0usize), (3, 0)),
((Direction::Forward, 5), (4, 0)),
((Direction::Forward, 999usize), (4, 0)),
]);
for ((direction, amount), coordinates) in moves_and_expected_coordinates {
range = move_vertically(slice, range, direction, amount, Movement::Move);
assert_eq!(coords_at_pos(slice, range.head), coordinates.into());
assert_eq!(range.head, range.anchor);
}
}
#[test]
fn vertical_moves_jumping_column() {
let text = Rope::from(MULTILINE_SAMPLE);
let slice = text.slice(..);
let position = pos_at_coords(slice, (0, 0).into());
let mut range = Range::point(position);
enum Axis {
H,
V,
}
let moves_and_expected_coordinates = IntoIter::new([
// Places cursor at the end of line
((Axis::H, Direction::Forward, 8usize), (0, 8)),
// First descent preserves column as the target line is wider
((Axis::V, Direction::Forward, 1usize), (1, 8)),
// Second descent clamps column as the target line is shorter
((Axis::V, Direction::Forward, 1usize), (2, 5)),
// Third descent restores the original column
((Axis::V, Direction::Forward, 1usize), (3, 8)),
// Behaviour is preserved even through long jumps
((Axis::V, Direction::Backward, 999usize), (0, 8)),
((Axis::V, Direction::Forward, 999usize), (4, 8)),
]);
for ((axis, direction, amount), coordinates) in moves_and_expected_coordinates {
range = match axis {
Axis::H => move_horizontally(slice, range, direction, amount, Movement::Move),
Axis::V => move_vertically(slice, range, direction, amount, Movement::Move),
};
assert_eq!(coords_at_pos(slice, range.head), coordinates.into());
assert_eq!(range.head, range.anchor);
}
}
#[test]
fn multibyte_character_column_jumps() {
let text = Rope::from(MULTIBYTE_CHARACTER_SAMPLE);
let slice = text.slice(..);
let position = pos_at_coords(slice, (0, 0).into());
let mut range = Range::point(position);
// FIXME: The behaviour captured in this test diverges from both Kakoune and Vim. These
// will attempt to preserve the horizontal position of the cursor, rather than
// placing it at the same character index.
enum Axis {
H,
V,
}
let moves_and_expected_coordinates = IntoIter::new([
// Places cursor at the fourth kana
((Axis::H, Direction::Forward, 4), (0, 4)),
// Descent places cursor at the fourth character.
((Axis::V, Direction::Forward, 1usize), (1, 4)),
]);
for ((axis, direction, amount), coordinates) in moves_and_expected_coordinates {
range = match axis {
Axis::H => move_horizontally(slice, range, direction, amount, Movement::Move),
Axis::V => move_vertically(slice, range, direction, amount, Movement::Move),
};
assert_eq!(coords_at_pos(slice, range.head), coordinates.into());
assert_eq!(range.head, range.anchor);
}
}
#[test]
#[should_panic]
fn nonsensical_ranges_panic_on_forward_movement_attempt_in_debug_mode() {
move_next_word_start(Rope::from("Sample").slice(..), Range::point(99999999), 1);
}
#[test]
#[should_panic]
fn nonsensical_ranges_panic_on_forward_to_end_movement_attempt_in_debug_mode() {
move_next_word_end(Rope::from("Sample").slice(..), Range::point(99999999), 1);
}
#[test]
#[should_panic]
fn nonsensical_ranges_panic_on_backwards_movement_attempt_in_debug_mode() {
move_prev_word_start(Rope::from("Sample").slice(..), Range::point(99999999), 1);
}
#[test]
fn test_behaviour_when_moving_to_start_of_next_words() {
let tests = array::IntoIter::new([
("Basic forward motion stops at the first space",
vec![(1, Range::new(0, 0), Range::new(0, 5))]),
(" Starting from a boundary advances the anchor",
vec![(1, Range::new(0, 0), Range::new(1, 9))]),
("Long whitespace gap is bridged by the head",
vec![(1, Range::new(0, 0), Range::new(0, 10))]),
("Previous anchor is irrelevant for forward motions",
vec![(1, Range::new(12, 0), Range::new(0, 8))]),
(" Starting from whitespace moves to last space in sequence",
vec![(1, Range::new(0, 0), Range::new(0, 3))]),
("Starting from mid-word leaves anchor at start position and moves head",
vec![(1, Range::new(3, 3), Range::new(3, 8))]),
("Identifiers_with_underscores are considered a single word",
vec![(1, Range::new(0, 0), Range::new(0, 28))]),
("Jumping\n into starting whitespace selects the spaces before 'into'",
vec![(1, Range::new(0, 6), Range::new(8, 11))]),
("alphanumeric.!,and.?=punctuation are considered 'words' for the purposes of word motion",
vec![
(1, Range::new(0, 0), Range::new(0, 11)),
(1, Range::new(0, 11), Range::new(12, 14)),
(1, Range::new(12, 14), Range::new(15, 17))
]),
("... ... punctuation and spaces behave as expected",
vec![
(1, Range::new(0, 0), Range::new(0, 5)),
(1, Range::new(0, 5), Range::new(6, 9)),
]),
(".._.._ punctuation is not joined by underscores into a single block",
vec![(1, Range::new(0, 0), Range::new(0, 1))]),
("Newlines\n\nare bridged seamlessly.",
vec![
(1, Range::new(0, 0), Range::new(0, 7)),
(1, Range::new(0, 7), Range::new(10, 13)),
]),
("Jumping\n\n\n\n\n\n from newlines to whitespace selects whitespace.",
vec![
(1, Range::new(0, 8), Range::new(13, 15)),
]),
("A failed motion does not modify the range",
vec![
(3, Range::new(37, 41), Range::new(37, 41)),
]),
("oh oh oh two character words!",
vec![
(1, Range::new(0, 0), Range::new(0, 2)),
(1, Range::new(0, 2), Range::new(3, 5)),
(1, Range::new(0, 1), Range::new(2, 2)),
]),
("Multiple motions at once resolve correctly",
vec![
(3, Range::new(0, 0), Range::new(17, 19)),
]),
("Excessive motions are performed partially",
vec![
(999, Range::new(0, 0), Range::new(32, 40)),
]),
("", // Edge case of moving forward in empty string
vec![
(1, Range::new(0, 0), Range::new(0, 0)),
]),
("\n\n\n\n\n", // Edge case of moving forward in all newlines
vec![
(1, Range::new(0, 0), Range::new(0, 4)),
]),
("\n \n \n Jumping through alternated space blocks and newlines selects the space blocks",
vec![
(1, Range::new(0, 0), Range::new(1, 3)),
(1, Range::new(1, 3), Range::new(5, 7)),
]),
("ヒーリクス multibyte characters behave as normal characters",
vec![
(1, Range::new(0, 0), Range::new(0, 5)),
]),
]);
for (sample, scenario) in tests {
for (count, begin, expected_end) in scenario.into_iter() {
let range = move_next_word_start(Rope::from(sample).slice(..), begin, count);
assert_eq!(range, expected_end, "Case failed: [{}]", sample);
}
}
}
#[test]
fn test_behaviour_when_moving_to_start_of_previous_words() {
let tests = array::IntoIter::new([
("Basic backward motion from the middle of a word",
vec![(1, Range::new(3, 3), Range::new(3, 0))]),
("Starting from after boundary retreats the anchor",
vec![(1, Range::new(0, 8), Range::new(7, 0))]),
(" Jump to start of a word preceded by whitespace",
vec![(1, Range::new(5, 5), Range::new(5, 4))]),
(" Jump to start of line from start of word preceded by whitespace",
vec![(1, Range::new(4, 4), Range::new(3, 0))]),
("Previous anchor is irrelevant for backward motions",
vec![(1, Range::new(12, 5), Range::new(5, 0))]),
(" Starting from whitespace moves to first space in sequence",
vec![(1, Range::new(0, 3), Range::new(3, 0))]),
("Identifiers_with_underscores are considered a single word",
vec![(1, Range::new(0, 20), Range::new(20, 0))]),
("Jumping\n \nback through a newline selects whitespace",
vec![(1, Range::new(0, 13), Range::new(11, 8))]),
("Jumping to start of word from the end selects the word",
vec![(1, Range::new(6, 6), Range::new(6, 0))]),
("alphanumeric.!,and.?=punctuation are considered 'words' for the purposes of word motion",
vec![
(1, Range::new(30, 30), Range::new(30, 21)),
(1, Range::new(30, 21), Range::new(20, 18)),
(1, Range::new(20, 18), Range::new(17, 15))
]),
("... ... punctuation and spaces behave as expected",
vec![
(1, Range::new(0, 10), Range::new(9, 6)),
(1, Range::new(9, 6), Range::new(5, 0)),
]),
(".._.._ punctuation is not joined by underscores into a single block",
vec![(1, Range::new(0, 5), Range::new(4, 3))]),
("Newlines\n\nare bridged seamlessly.",
vec![
(1, Range::new(0, 10), Range::new(7, 0)),
]),
("Jumping \n\n\n\n\nback from within a newline group selects previous block",
vec![
(1, Range::new(0, 13), Range::new(10, 0)),
]),
("Failed motions do not modify the range",
vec![
(0, Range::new(3, 0), Range::new(3, 0)),
]),
("Multiple motions at once resolve correctly",
vec![
(3, Range::new(18, 18), Range::new(8, 0)),
]),
("Excessive motions are performed partially",
vec![
(999, Range::new(40, 40), Range::new(9, 0)),
]),
("", // Edge case of moving backwards in empty string
vec![
(1, Range::new(0, 0), Range::new(0, 0)),
]),
("\n\n\n\n\n", // Edge case of moving backwards in all newlines
vec![
(1, Range::new(0, 0), Range::new(0, 0)),
]),
(" \n \nJumping back through alternated space blocks and newlines selects the space blocks",
vec![
(1, Range::new(0, 7), Range::new(6, 4)),
(1, Range::new(6, 4), Range::new(2, 0)),
]),
("ヒーリクス multibyte characters behave as normal characters",
vec![
(1, Range::new(0, 5), Range::new(4, 0)),
]),
]);
for (sample, scenario) in tests {
for (count, begin, expected_end) in scenario.into_iter() {
let range = move_prev_word_start(Rope::from(sample).slice(..), begin, count);
assert_eq!(range, expected_end, "Case failed: [{}]", sample);
}
}
}
#[test]
fn test_behaviour_when_moving_to_end_of_next_words() {
let tests = array::IntoIter::new([
("Basic forward motion from the start of a word to the end of it",
vec![(1, Range::new(0, 0), Range::new(0, 4))]),
("Basic forward motion from the end of a word to the end of the next",
vec![(1, Range::new(0, 4), Range::new(5, 12))]),
("Basic forward motion from the middle of a word to the end of it",
vec![(1, Range::new(2, 2), Range::new(2, 4))]),
(" Jumping to end of a word preceded by whitespace",
vec![(1, Range::new(0, 0), Range::new(0, 10))]),
(" Starting from a boundary advances the anchor",
vec![(1, Range::new(0, 0), Range::new(1, 8))]),
("Previous anchor is irrelevant for end of word motion",
vec![(1, Range::new(12, 2), Range::new(2, 7))]),
("Identifiers_with_underscores are considered a single word",
vec![(1, Range::new(0, 0), Range::new(0, 27))]),
("Jumping\n into starting whitespace selects up to the end of next word",
vec![(1, Range::new(0, 6), Range::new(8, 15))]),
("alphanumeric.!,and.?=punctuation are considered 'words' for the purposes of word motion",
vec![
(1, Range::new(0, 0), Range::new(0, 11)),
(1, Range::new(0, 11), Range::new(12, 14)),
(1, Range::new(12, 14), Range::new(15, 17))
]),
("... ... punctuation and spaces behave as expected",
vec![
(1, Range::new(0, 0), Range::new(0, 2)),
(1, Range::new(0, 2), Range::new(3, 8)),
]),
(".._.._ punctuation is not joined by underscores into a single block",
vec![(1, Range::new(0, 0), Range::new(0, 1))]),
("Newlines\n\nare bridged seamlessly.",
vec![
(1, Range::new(0, 0), Range::new(0, 7)),
(1, Range::new(0, 7), Range::new(10, 12)),
]),
("Jumping\n\n\n\n\n\n from newlines to whitespace selects to end of next word.",
vec![
(1, Range::new(0, 8), Range::new(13, 19)),
]),
("A failed motion does not modify the range",
vec![
(3, Range::new(37, 41), Range::new(37, 41)),
]),
("Multiple motions at once resolve correctly",
vec![
(3, Range::new(0, 0), Range::new(16, 18)),
]),
("Excessive motions are performed partially",
vec![
(999, Range::new(0, 0), Range::new(31, 40)),
]),
("", // Edge case of moving forward in empty string
vec![
(1, Range::new(0, 0), Range::new(0, 0)),
]),
("\n\n\n\n\n", // Edge case of moving forward in all newlines
vec![
(1, Range::new(0, 0), Range::new(0, 4)),
]),
("\n \n \n Jumping through alternated space blocks and newlines selects the space blocks",
vec![
(1, Range::new(0, 0), Range::new(1, 3)),
(1, Range::new(1, 3), Range::new(5, 7)),
]),
("ヒーリクス multibyte characters behave as normal characters",
vec![
(1, Range::new(0, 0), Range::new(0, 4)),
]),
]);
for (sample, scenario) in tests {
for (count, begin, expected_end) in scenario.into_iter() {
let range = move_next_word_end(Rope::from(sample).slice(..), begin, count);
assert_eq!(range, expected_end, "Case failed: [{}]", sample);
}
}
}
}
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