helix/helix-core/src/graphemes.rs

//! Utility functions to traverse the unicode graphemes of a `Rope`'s text contents.
//!
//! Based on <https://github.com/cessen/led/blob/c4fa72405f510b7fd16052f90a598c429b3104a6/src/graphemes.rs>
use ropey::{iter::Chunks, str_utils::byte_to_char_idx, RopeSlice};
use unicode_segmentation::{GraphemeCursor, GraphemeIncomplete};
use unicode_width::UnicodeWidthStr;

use std::fmt;

#[must_use]
pub fn grapheme_width(g: &str) -> usize {
    if g.as_bytes()[0] <= 127 {
        // Fast-path ascii.
        // Point 1: theoretically, ascii control characters should have zero
        // width, but in our case we actually want them to have width: if they
        // show up in text, we want to treat them as textual elements that can
        // be edited.  So we can get away with making all ascii single width
        // here.
        // Point 2: we're only examining the first codepoint here, which means
        // we're ignoring graphemes formed with combining characters.  However,
        // if it starts with ascii, it's going to be a single-width grapeheme
        // regardless, so, again, we can get away with that here.
        // Point 3: we're only examining the first _byte_.  But for utf8, when
        // checking for ascii range values only, that works.
        1
    } else {
        // We use max(1) here because all grapeheme clusters--even illformed
        // ones--should have at least some width so they can be edited
        // properly.
        UnicodeWidthStr::width(g).max(1)
    }
}

#[must_use]
pub fn nth_prev_grapheme_boundary(slice: RopeSlice, char_idx: usize, n: usize) -> usize {
    // Bounds check
    debug_assert!(char_idx <= slice.len_chars());

    // We work with bytes for this, so convert.
    let mut byte_idx = slice.char_to_byte(char_idx);

    // Get the chunk with our byte index in it.
    let (mut chunk, mut chunk_byte_idx, mut chunk_char_idx, _) = slice.chunk_at_byte(byte_idx);

    // Set up the grapheme cursor.
    let mut gc = GraphemeCursor::new(byte_idx, slice.len_bytes(), true);

    // Find the previous grapheme cluster boundary.
    for _ in 0..n {
        loop {
            match gc.prev_boundary(chunk, chunk_byte_idx) {
                Ok(None) => return 0,
                Ok(Some(n)) => {
                    byte_idx = n;
                    break;
                }
                Err(GraphemeIncomplete::PrevChunk) => {
                    let (a, b, c, _) = slice.chunk_at_byte(chunk_byte_idx - 1);
                    chunk = a;
                    chunk_byte_idx = b;
                    chunk_char_idx = c;
                }
                Err(GraphemeIncomplete::PreContext(n)) => {
                    let ctx_chunk = slice.chunk_at_byte(n - 1).0;
                    gc.provide_context(ctx_chunk, n - ctx_chunk.len());
                }
                _ => unreachable!(),
            }
        }
    }
    let tmp = byte_to_char_idx(chunk, byte_idx - chunk_byte_idx);
    chunk_char_idx + tmp
}

/// Finds the previous grapheme boundary before the given char position.
#[must_use]
#[inline(always)]
pub fn prev_grapheme_boundary(slice: RopeSlice, char_idx: usize) -> usize {
    nth_prev_grapheme_boundary(slice, char_idx, 1)
}

#[must_use]
pub fn nth_next_grapheme_boundary(slice: RopeSlice, char_idx: usize, n: usize) -> usize {
    // Bounds check
    debug_assert!(char_idx <= slice.len_chars());

    // We work with bytes for this, so convert.
    let mut byte_idx = slice.char_to_byte(char_idx);

    // Get the chunk with our byte index in it.
    let (mut chunk, mut chunk_byte_idx, mut chunk_char_idx, _) = slice.chunk_at_byte(byte_idx);

    // Set up the grapheme cursor.
    let mut gc = GraphemeCursor::new(byte_idx, slice.len_bytes(), true);

    // Find the nth next grapheme cluster boundary.
    for _ in 0..n {
        loop {
            match gc.next_boundary(chunk, chunk_byte_idx) {
                Ok(None) => return slice.len_chars(),
                Ok(Some(n)) => {
                    byte_idx = n;
                    break;
                }
                Err(GraphemeIncomplete::NextChunk) => {
                    chunk_byte_idx += chunk.len();
                    let (a, _, c, _) = slice.chunk_at_byte(chunk_byte_idx);
                    chunk = a;
                    chunk_char_idx = c;
                }
                Err(GraphemeIncomplete::PreContext(n)) => {
                    let ctx_chunk = slice.chunk_at_byte(n - 1).0;
                    gc.provide_context(ctx_chunk, n - ctx_chunk.len());
                }
                _ => unreachable!(),
            }
        }
    }
    let tmp = byte_to_char_idx(chunk, byte_idx - chunk_byte_idx);
    chunk_char_idx + tmp
}

#[must_use]
pub fn nth_next_grapheme_boundary_byte(slice: RopeSlice, mut byte_idx: usize, n: usize) -> usize {
    // Bounds check
    debug_assert!(byte_idx <= slice.len_bytes());

    // Get the chunk with our byte index in it.
    let (mut chunk, mut chunk_byte_idx, mut _chunk_char_idx, _) = slice.chunk_at_byte(byte_idx);

    // Set up the grapheme cursor.
    let mut gc = GraphemeCursor::new(byte_idx, slice.len_bytes(), true);

    // Find the nth next grapheme cluster boundary.
    for _ in 0..n {
        loop {
            match gc.next_boundary(chunk, chunk_byte_idx) {
                Ok(None) => return slice.len_bytes(),
                Ok(Some(n)) => {
                    byte_idx = n;
                    break;
                }
                Err(GraphemeIncomplete::NextChunk) => {
                    chunk_byte_idx += chunk.len();
                    let (a, _, _c, _) = slice.chunk_at_byte(chunk_byte_idx);
                    chunk = a;
                    // chunk_char_idx = c;
                }
                Err(GraphemeIncomplete::PreContext(n)) => {
                    let ctx_chunk = slice.chunk_at_byte(n - 1).0;
                    gc.provide_context(ctx_chunk, n - ctx_chunk.len());
                }
                _ => unreachable!(),
            }
        }
    }
    byte_idx
}

/// Finds the next grapheme boundary after the given char position.
#[must_use]
#[inline(always)]
pub fn next_grapheme_boundary(slice: RopeSlice, char_idx: usize) -> usize {
    nth_next_grapheme_boundary(slice, char_idx, 1)
}

/// Finds the next grapheme boundary after the given byte position.
#[must_use]
#[inline(always)]
pub fn next_grapheme_boundary_byte(slice: RopeSlice, byte_idx: usize) -> usize {
    nth_next_grapheme_boundary_byte(slice, byte_idx, 1)
}

/// Returns the passed char index if it's already a grapheme boundary,
/// or the next grapheme boundary char index if not.
#[must_use]
#[inline]
pub fn ensure_grapheme_boundary_next(slice: RopeSlice, char_idx: usize) -> usize {
    if char_idx == 0 {
        char_idx
    } else {
        next_grapheme_boundary(slice, char_idx - 1)
    }
}

/// Returns the passed char index if it's already a grapheme boundary,
/// or the prev grapheme boundary char index if not.
#[must_use]
#[inline]
pub fn ensure_grapheme_boundary_prev(slice: RopeSlice, char_idx: usize) -> usize {
    if char_idx == slice.len_chars() {
        char_idx
    } else {
        prev_grapheme_boundary(slice, char_idx + 1)
    }
}

/// Returns the passed byte index if it's already a grapheme boundary,
/// or the next grapheme boundary byte index if not.
#[must_use]
#[inline]
pub fn ensure_grapheme_boundary_next_byte(slice: RopeSlice, byte_idx: usize) -> usize {
    if byte_idx == 0 {
        byte_idx
    } else {
        // TODO: optimize so we're not constructing grapheme cursor twice
        if is_grapheme_boundary_byte(slice, byte_idx) {
            byte_idx
        } else {
            next_grapheme_boundary_byte(slice, byte_idx)
        }
    }
}

/// Returns whether the given char position is a grapheme boundary.
#[must_use]
pub fn is_grapheme_boundary(slice: RopeSlice, char_idx: usize) -> bool {
    // Bounds check
    debug_assert!(char_idx <= slice.len_chars());

    // We work with bytes for this, so convert.
    let byte_idx = slice.char_to_byte(char_idx);

    // Get the chunk with our byte index in it.
    let (chunk, chunk_byte_idx, _, _) = slice.chunk_at_byte(byte_idx);

    // Set up the grapheme cursor.
    let mut gc = GraphemeCursor::new(byte_idx, slice.len_bytes(), true);

    // Determine if the given position is a grapheme cluster boundary.
    loop {
        match gc.is_boundary(chunk, chunk_byte_idx) {
            Ok(n) => return n,
            Err(GraphemeIncomplete::PreContext(n)) => {
                let (ctx_chunk, ctx_byte_start, _, _) = slice.chunk_at_byte(n - 1);
                gc.provide_context(ctx_chunk, ctx_byte_start);
            }
            Err(_) => unreachable!(),
        }
    }
}

/// Returns whether the given byte position is a grapheme boundary.
#[must_use]
pub fn is_grapheme_boundary_byte(slice: RopeSlice, byte_idx: usize) -> bool {
    // Bounds check
    debug_assert!(byte_idx <= slice.len_bytes());

    // Get the chunk with our byte index in it.
    let (chunk, chunk_byte_idx, _, _) = slice.chunk_at_byte(byte_idx);

    // Set up the grapheme cursor.
    let mut gc = GraphemeCursor::new(byte_idx, slice.len_bytes(), true);

    // Determine if the given position is a grapheme cluster boundary.
    loop {
        match gc.is_boundary(chunk, chunk_byte_idx) {
            Ok(n) => return n,
            Err(GraphemeIncomplete::PreContext(n)) => {
                let (ctx_chunk, ctx_byte_start, _, _) = slice.chunk_at_byte(n - 1);
                gc.provide_context(ctx_chunk, ctx_byte_start);
            }
            Err(_) => unreachable!(),
        }
    }
}

/// An iterator over the graphemes of a `RopeSlice`.
#[derive(Clone)]
pub struct RopeGraphemes<'a> {
    text: RopeSlice<'a>,
    chunks: Chunks<'a>,
    cur_chunk: &'a str,
    cur_chunk_start: usize,
    cursor: GraphemeCursor,
}

impl<'a> fmt::Debug for RopeGraphemes<'a> {
    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
        f.debug_struct("RopeGraphemes")
            .field("text", &self.text)
            .field("chunks", &self.chunks)
            .field("cur_chunk", &self.cur_chunk)
            .field("cur_chunk_start", &self.cur_chunk_start)
            // .field("cursor", &self.cursor)
            .finish()
    }
}

impl<'a> RopeGraphemes<'a> {
    #[must_use]
    pub fn new(slice: RopeSlice) -> RopeGraphemes {
        let mut chunks = slice.chunks();
        let first_chunk = chunks.next().unwrap_or("");
        RopeGraphemes {
            text: slice,
            chunks,
            cur_chunk: first_chunk,
            cur_chunk_start: 0,
            cursor: GraphemeCursor::new(0, slice.len_bytes(), true),
        }
    }
}

impl<'a> Iterator for RopeGraphemes<'a> {
    type Item = RopeSlice<'a>;

    fn next(&mut self) -> Option<RopeSlice<'a>> {
        let a = self.cursor.cur_cursor();
        let b;
        loop {
            match self
                .cursor
                .next_boundary(self.cur_chunk, self.cur_chunk_start)
            {
                Ok(None) => {
                    return None;
                }
                Ok(Some(n)) => {
                    b = n;
                    break;
                }
                Err(GraphemeIncomplete::NextChunk) => {
                    self.cur_chunk_start += self.cur_chunk.len();
                    self.cur_chunk = self.chunks.next().unwrap_or("");
                }
                Err(GraphemeIncomplete::PreContext(idx)) => {
                    let (chunk, byte_idx, _, _) = self.text.chunk_at_byte(idx.saturating_sub(1));
                    self.cursor.provide_context(chunk, byte_idx);
                }
                _ => unreachable!(),
            }
        }

        if a < self.cur_chunk_start {
            Some(self.text.byte_slice(a..b))
        } else {
            let a2 = a - self.cur_chunk_start;
            let b2 = b - self.cur_chunk_start;
            Some((&self.cur_chunk[a2..b2]).into())
        }
    }
}
Document more of helix-core (#904) 3 years ago			//! Utility functions to traverse the unicode graphemes of a `Rope`'s text contents.
			`//!`
Add hyperlinks to fix `cargo doc` warn (#931) 3 years ago			`//! Based on <https://github.com/cessen/led/blob/c4fa72405f510b7fd16052f90a598c429b3104a6/src/graphemes.rs>`
wip: importing to github 4 years ago			`use ropey::{iter::Chunks, str_utils::byte_to_char_idx, RopeSlice};`
			`use unicode_segmentation::{GraphemeCursor, GraphemeIncomplete};`
			`use unicode_width::UnicodeWidthStr;`

Downgrade `unicode-segmentation` 3 years ago			`use std::fmt;`

clippy lint 4 years ago			`#[must_use]`
wip: importing to github 4 years ago			`pub fn grapheme_width(g: &str) -> usize {`
			`if g.as_bytes()[0] <= 127 {`
			`// Fast-path ascii.`
			`// Point 1: theoretically, ascii control characters should have zero`
			`// width, but in our case we actually want them to have width: if they`
			`// show up in text, we want to treat them as textual elements that can`
Improve Readability (#2639) 2 years ago			`// be edited. So we can get away with making all ascii single width`
wip: importing to github 4 years ago			`// here.`
			`// Point 2: we're only examining the first codepoint here, which means`
			`// we're ignoring graphemes formed with combining characters. However,`
			`// if it starts with ascii, it's going to be a single-width grapeheme`
			`// regardless, so, again, we can get away with that here.`
			`// Point 3: we're only examining the first _byte_. But for utf8, when`
			`// checking for ascii range values only, that works.`
			`1`
			`} else {`
			`// We use max(1) here because all grapeheme clusters--even illformed`
			`// ones--should have at least some width so they can be edited`
			`// properly.`
			`UnicodeWidthStr::width(g).max(1)`
			`}`
			`}`

clippy lint 4 years ago			`#[must_use]`
treewide: &RopeSlice -> RopeSlice. It's Copy so no reason to pass by ref 4 years ago			`pub fn nth_prev_grapheme_boundary(slice: RopeSlice, char_idx: usize, n: usize) -> usize {`
wip: importing to github 4 years ago			`// Bounds check`
			`debug_assert!(char_idx <= slice.len_chars());`

			`// We work with bytes for this, so convert.`
graphemes: Optimize nth_next/nth_prev operation. It's used a lot more than it used to in position calculation. Instead of throwing away state between boundary calculation, reuse it. 4 years ago			`let mut byte_idx = slice.char_to_byte(char_idx);`
wip: importing to github 4 years ago
			`// Get the chunk with our byte index in it.`
			`let (mut chunk, mut chunk_byte_idx, mut chunk_char_idx, _) = slice.chunk_at_byte(byte_idx);`

			`// Set up the grapheme cursor.`
			`let mut gc = GraphemeCursor::new(byte_idx, slice.len_bytes(), true);`

			`// Find the previous grapheme cluster boundary.`
graphemes: Optimize nth_next/nth_prev operation. It's used a lot more than it used to in position calculation. Instead of throwing away state between boundary calculation, reuse it. 4 years ago			`for _ in 0..n {`
			`loop {`
			`match gc.prev_boundary(chunk, chunk_byte_idx) {`
			`Ok(None) => return 0,`
			`Ok(Some(n)) => {`
			`byte_idx = n;`
			`break;`
			`}`
			`Err(GraphemeIncomplete::PrevChunk) => {`
			`let (a, b, c, _) = slice.chunk_at_byte(chunk_byte_idx - 1);`
			`chunk = a;`
			`chunk_byte_idx = b;`
			`chunk_char_idx = c;`
			`}`
			`Err(GraphemeIncomplete::PreContext(n)) => {`
			`let ctx_chunk = slice.chunk_at_byte(n - 1).0;`
			`gc.provide_context(ctx_chunk, n - ctx_chunk.len());`
			`}`
			`_ => unreachable!(),`
wip: importing to github 4 years ago			`}`
			`}`
			`}`
graphemes: fix nth_prev_grapheme_boundary calculation. 4 years ago			`let tmp = byte_to_char_idx(chunk, byte_idx - chunk_byte_idx);`
graphemes: Optimize nth_next/nth_prev operation. It's used a lot more than it used to in position calculation. Instead of throwing away state between boundary calculation, reuse it. 4 years ago			`chunk_char_idx + tmp`
wip: importing to github 4 years ago			`}`

graphemes: Optimize nth_next/nth_prev operation. It's used a lot more than it used to in position calculation. Instead of throwing away state between boundary calculation, reuse it. 4 years ago			`/// Finds the previous grapheme boundary before the given char position.`
Better validation method APIs for `Range`. This way they do less work, are more specific to what we actually need, and they compose. 3 years ago			`#[must_use]`
			`#[inline(always)]`
graphemes: Optimize nth_next/nth_prev operation. It's used a lot more than it used to in position calculation. Instead of throwing away state between boundary calculation, reuse it. 4 years ago			`pub fn prev_grapheme_boundary(slice: RopeSlice, char_idx: usize) -> usize {`
			`nth_prev_grapheme_boundary(slice, char_idx, 1)`
wip: importing to github 4 years ago			`}`

clippy lint 4 years ago			`#[must_use]`
graphemes: Optimize nth_next/nth_prev operation. It's used a lot more than it used to in position calculation. Instead of throwing away state between boundary calculation, reuse it. 4 years ago			`pub fn nth_next_grapheme_boundary(slice: RopeSlice, char_idx: usize, n: usize) -> usize {`
wip: importing to github 4 years ago			`// Bounds check`
			`debug_assert!(char_idx <= slice.len_chars());`

			`// We work with bytes for this, so convert.`
graphemes: Optimize nth_next/nth_prev operation. It's used a lot more than it used to in position calculation. Instead of throwing away state between boundary calculation, reuse it. 4 years ago			`let mut byte_idx = slice.char_to_byte(char_idx);`
wip: importing to github 4 years ago
			`// Get the chunk with our byte index in it.`
			`let (mut chunk, mut chunk_byte_idx, mut chunk_char_idx, _) = slice.chunk_at_byte(byte_idx);`

			`// Set up the grapheme cursor.`
			`let mut gc = GraphemeCursor::new(byte_idx, slice.len_bytes(), true);`

graphemes: Optimize nth_next/nth_prev operation. It's used a lot more than it used to in position calculation. Instead of throwing away state between boundary calculation, reuse it. 4 years ago			`// Find the nth next grapheme cluster boundary.`
			`for _ in 0..n {`
			`loop {`
			`match gc.next_boundary(chunk, chunk_byte_idx) {`
			`Ok(None) => return slice.len_chars(),`
			`Ok(Some(n)) => {`
			`byte_idx = n;`
			`break;`
			`}`
			`Err(GraphemeIncomplete::NextChunk) => {`
			`chunk_byte_idx += chunk.len();`
			`let (a, _, c, _) = slice.chunk_at_byte(chunk_byte_idx);`
			`chunk = a;`
			`chunk_char_idx = c;`
			`}`
			`Err(GraphemeIncomplete::PreContext(n)) => {`
			`let ctx_chunk = slice.chunk_at_byte(n - 1).0;`
			`gc.provide_context(ctx_chunk, n - ctx_chunk.len());`
			`}`
			`_ => unreachable!(),`
wip: importing to github 4 years ago			`}`
			`}`
			`}`
graphemes: Optimize nth_next/nth_prev operation. It's used a lot more than it used to in position calculation. Instead of throwing away state between boundary calculation, reuse it. 4 years ago			`let tmp = byte_to_char_idx(chunk, byte_idx - chunk_byte_idx);`
			`chunk_char_idx + tmp`
			`}`

Speed up ensure_next_boundary during render This code: let start = ensure_grapheme_boundary_next(text, text.byte_to_char(start)); let end = ensure_grapheme_boundary_next(text, text.byte_to_char(end)); Would convert byte to char index, but then internally immediately convert back to byte index, operate on it, then convert it to char index. This change reduces the amount of time spent in ensure_grapheme_boundary from 29% to 2%. 3 years ago			`#[must_use]`
			`pub fn nth_next_grapheme_boundary_byte(slice: RopeSlice, mut byte_idx: usize, n: usize) -> usize {`
			`// Bounds check`
			`debug_assert!(byte_idx <= slice.len_bytes());`

			`// Get the chunk with our byte index in it.`
			`let (mut chunk, mut chunk_byte_idx, mut _chunk_char_idx, _) = slice.chunk_at_byte(byte_idx);`

			`// Set up the grapheme cursor.`
			`let mut gc = GraphemeCursor::new(byte_idx, slice.len_bytes(), true);`

			`// Find the nth next grapheme cluster boundary.`
			`for _ in 0..n {`
			`loop {`
			`match gc.next_boundary(chunk, chunk_byte_idx) {`
			`Ok(None) => return slice.len_bytes(),`
			`Ok(Some(n)) => {`
			`byte_idx = n;`
			`break;`
			`}`
			`Err(GraphemeIncomplete::NextChunk) => {`
			`chunk_byte_idx += chunk.len();`
			`let (a, _, _c, _) = slice.chunk_at_byte(chunk_byte_idx);`
			`chunk = a;`
			`// chunk_char_idx = c;`
			`}`
			`Err(GraphemeIncomplete::PreContext(n)) => {`
			`let ctx_chunk = slice.chunk_at_byte(n - 1).0;`
			`gc.provide_context(ctx_chunk, n - ctx_chunk.len());`
			`}`
			`_ => unreachable!(),`
			`}`
			`}`
			`}`
			`byte_idx`
			`}`

graphemes: Optimize nth_next/nth_prev operation. It's used a lot more than it used to in position calculation. Instead of throwing away state between boundary calculation, reuse it. 4 years ago			`/// Finds the next grapheme boundary after the given char position.`
Better validation method APIs for `Range`. This way they do less work, are more specific to what we actually need, and they compose. 3 years ago			`#[must_use]`
			`#[inline(always)]`
graphemes: Optimize nth_next/nth_prev operation. It's used a lot more than it used to in position calculation. Instead of throwing away state between boundary calculation, reuse it. 4 years ago			`pub fn next_grapheme_boundary(slice: RopeSlice, char_idx: usize) -> usize {`
			`nth_next_grapheme_boundary(slice, char_idx, 1)`
wip: importing to github 4 years ago			`}`

Speed up ensure_next_boundary during render This code: let start = ensure_grapheme_boundary_next(text, text.byte_to_char(start)); let end = ensure_grapheme_boundary_next(text, text.byte_to_char(end)); Would convert byte to char index, but then internally immediately convert back to byte index, operate on it, then convert it to char index. This change reduces the amount of time spent in ensure_grapheme_boundary from 29% to 2%. 3 years ago			`/// Finds the next grapheme boundary after the given byte position.`
			`#[must_use]`
			`#[inline(always)]`
			`pub fn next_grapheme_boundary_byte(slice: RopeSlice, byte_idx: usize) -> usize {`
			`nth_next_grapheme_boundary_byte(slice, byte_idx, 1)`
			`}`

Fix highlight code splitting graphemes. This resulted in phantom blank lines in files with CRLF line endings, but could potentially have manifested with other graphemes as well. 3 years ago			`/// Returns the passed char index if it's already a grapheme boundary,`
			`/// or the next grapheme boundary char index if not.`
Better validation method APIs for `Range`. This way they do less work, are more specific to what we actually need, and they compose. 3 years ago			`#[must_use]`
			`#[inline]`
Add `Range` methods for various kinds of validation. 3 years ago			`pub fn ensure_grapheme_boundary_next(slice: RopeSlice, char_idx: usize) -> usize {`
Fix highlight code splitting graphemes. This resulted in phantom blank lines in files with CRLF line endings, but could potentially have manifested with other graphemes as well. 3 years ago			`if char_idx == 0 {`
Add `Range` methods for various kinds of validation. 3 years ago			`char_idx`
Fix highlight code splitting graphemes. This resulted in phantom blank lines in files with CRLF line endings, but could potentially have manifested with other graphemes as well. 3 years ago			`} else {`
			`next_grapheme_boundary(slice, char_idx - 1)`
			`}`
			`}`

Add `Range` methods for various kinds of validation. 3 years ago			`/// Returns the passed char index if it's already a grapheme boundary,`
			`/// or the prev grapheme boundary char index if not.`
Better validation method APIs for `Range`. This way they do less work, are more specific to what we actually need, and they compose. 3 years ago			`#[must_use]`
			`#[inline]`
Add `Range` methods for various kinds of validation. 3 years ago			`pub fn ensure_grapheme_boundary_prev(slice: RopeSlice, char_idx: usize) -> usize {`
			`if char_idx == slice.len_chars() {`
			`char_idx`
			`} else {`
			`prev_grapheme_boundary(slice, char_idx + 1)`
			`}`
			`}`

Speed up ensure_next_boundary during render This code: let start = ensure_grapheme_boundary_next(text, text.byte_to_char(start)); let end = ensure_grapheme_boundary_next(text, text.byte_to_char(end)); Would convert byte to char index, but then internally immediately convert back to byte index, operate on it, then convert it to char index. This change reduces the amount of time spent in ensure_grapheme_boundary from 29% to 2%. 3 years ago			`/// Returns the passed byte index if it's already a grapheme boundary,`
			`/// or the next grapheme boundary byte index if not.`
			`#[must_use]`
			`#[inline]`
			`pub fn ensure_grapheme_boundary_next_byte(slice: RopeSlice, byte_idx: usize) -> usize {`
			`if byte_idx == 0 {`
			`byte_idx`
			`} else {`
fix: ensure_grapheme_boundary_next_byte needs to index at valid char 3 years ago			`// TODO: optimize so we're not constructing grapheme cursor twice`
			`if is_grapheme_boundary_byte(slice, byte_idx) {`
			`byte_idx`
			`} else {`
			`next_grapheme_boundary_byte(slice, byte_idx)`
			`}`
Speed up ensure_next_boundary during render This code: let start = ensure_grapheme_boundary_next(text, text.byte_to_char(start)); let end = ensure_grapheme_boundary_next(text, text.byte_to_char(end)); Would convert byte to char index, but then internally immediately convert back to byte index, operate on it, then convert it to char index. This change reduces the amount of time spent in ensure_grapheme_boundary from 29% to 2%. 3 years ago			`}`
			`}`

wip: importing to github 4 years ago			`/// Returns whether the given char position is a grapheme boundary.`
Better validation method APIs for `Range`. This way they do less work, are more specific to what we actually need, and they compose. 3 years ago			`#[must_use]`
treewide: &RopeSlice -> RopeSlice. It's Copy so no reason to pass by ref 4 years ago			`pub fn is_grapheme_boundary(slice: RopeSlice, char_idx: usize) -> bool {`
wip: importing to github 4 years ago			`// Bounds check`
			`debug_assert!(char_idx <= slice.len_chars());`

			`// We work with bytes for this, so convert.`
			`let byte_idx = slice.char_to_byte(char_idx);`

			`// Get the chunk with our byte index in it.`
			`let (chunk, chunk_byte_idx, _, _) = slice.chunk_at_byte(byte_idx);`
fix: ensure_grapheme_boundary_next_byte needs to index at valid char 3 years ago
			`// Set up the grapheme cursor.`
			`let mut gc = GraphemeCursor::new(byte_idx, slice.len_bytes(), true);`

			`// Determine if the given position is a grapheme cluster boundary.`
			`loop {`
			`match gc.is_boundary(chunk, chunk_byte_idx) {`
			`Ok(n) => return n,`
			`Err(GraphemeIncomplete::PreContext(n)) => {`
			`let (ctx_chunk, ctx_byte_start, _, _) = slice.chunk_at_byte(n - 1);`
			`gc.provide_context(ctx_chunk, ctx_byte_start);`
			`}`
			`Err(_) => unreachable!(),`
			`}`
			`}`
			`}`

			`/// Returns whether the given byte position is a grapheme boundary.`
			`#[must_use]`
			`pub fn is_grapheme_boundary_byte(slice: RopeSlice, byte_idx: usize) -> bool {`
			`// Bounds check`
			`debug_assert!(byte_idx <= slice.len_bytes());`

			`// Get the chunk with our byte index in it.`
			`let (chunk, chunk_byte_idx, _, _) = slice.chunk_at_byte(byte_idx);`
wip: importing to github 4 years ago
			`// Set up the grapheme cursor.`
			`let mut gc = GraphemeCursor::new(byte_idx, slice.len_bytes(), true);`

			`// Determine if the given position is a grapheme cluster boundary.`
			`loop {`
			`match gc.is_boundary(chunk, chunk_byte_idx) {`
			`Ok(n) => return n,`
			`Err(GraphemeIncomplete::PreContext(n)) => {`
			`let (ctx_chunk, ctx_byte_start, _, _) = slice.chunk_at_byte(n - 1);`
			`gc.provide_context(ctx_chunk, ctx_byte_start);`
			`}`
clippy lint 4 years ago			`Err(_) => unreachable!(),`
wip: importing to github 4 years ago			`}`
			`}`
			`}`

clippy lint 4 years ago			/// An iterator over the graphemes of a `RopeSlice`.
Downgrade `unicode-segmentation` 3 years ago			`#[derive(Clone)]`
wip: importing to github 4 years ago			`pub struct RopeGraphemes<'a> {`
			`text: RopeSlice<'a>,`
			`chunks: Chunks<'a>,`
			`cur_chunk: &'a str,`
			`cur_chunk_start: usize,`
			`cursor: GraphemeCursor,`
			`}`

Downgrade `unicode-segmentation` 3 years ago			`impl<'a> fmt::Debug for RopeGraphemes<'a> {`
			`fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {`
			`f.debug_struct("RopeGraphemes")`
			`.field("text", &self.text)`
			`.field("chunks", &self.chunks)`
			`.field("cur_chunk", &self.cur_chunk)`
			`.field("cur_chunk_start", &self.cur_chunk_start)`
			`// .field("cursor", &self.cursor)`
			`.finish()`
			`}`
			`}`

wip: importing to github 4 years ago			`impl<'a> RopeGraphemes<'a> {`
clippy lint 4 years ago			`#[must_use]`
more lints 4 years ago			`pub fn new(slice: RopeSlice) -> RopeGraphemes {`
wip: importing to github 4 years ago			`let mut chunks = slice.chunks();`
			`let first_chunk = chunks.next().unwrap_or("");`
			`RopeGraphemes {`
treewide: &RopeSlice -> RopeSlice. It's Copy so no reason to pass by ref 4 years ago			`text: slice,`
clippy lint 4 years ago			`chunks,`
wip: importing to github 4 years ago			`cur_chunk: first_chunk,`
			`cur_chunk_start: 0,`
			`cursor: GraphemeCursor::new(0, slice.len_bytes(), true),`
			`}`
			`}`
			`}`

			`impl<'a> Iterator for RopeGraphemes<'a> {`
			`type Item = RopeSlice<'a>;`

			`fn next(&mut self) -> Option<RopeSlice<'a>> {`
			`let a = self.cursor.cur_cursor();`
			`let b;`
			`loop {`
			`match self`
			`.cursor`
			`.next_boundary(self.cur_chunk, self.cur_chunk_start)`
			`{`
			`Ok(None) => {`
			`return None;`
			`}`
			`Ok(Some(n)) => {`
			`b = n;`
			`break;`
			`}`
			`Err(GraphemeIncomplete::NextChunk) => {`
			`self.cur_chunk_start += self.cur_chunk.len();`
			`self.cur_chunk = self.chunks.next().unwrap_or("");`
			`}`
Handle erroneously ignored case in RopeGraphemes iterator. 3 years ago			`Err(GraphemeIncomplete::PreContext(idx)) => {`
			`let (chunk, byte_idx, _, _) = self.text.chunk_at_byte(idx.saturating_sub(1));`
			`self.cursor.provide_context(chunk, byte_idx);`
			`}`
wip: importing to github 4 years ago			`_ => unreachable!(),`
			`}`
			`}`

			`if a < self.cur_chunk_start {`
Optimize rendering by using Ropey::byte_slice This avoids costly conversions via byte_to_char (which are then reversed back into bytes internally in Ropey). Reduces time spent in slice/byte_to_char from ~24% to ~5%. 3 years ago			`Some(self.text.byte_slice(a..b))`
wip: importing to github 4 years ago			`} else {`
			`let a2 = a - self.cur_chunk_start;`
			`let b2 = b - self.cur_chunk_start;`
			`Some((&self.cur_chunk[a2..b2]).into())`
			`}`
			`}`
			`}`